Container-modular far-infrared drying equipment
The container-modular far-infrared drying system addresses the inefficiencies of fixed-installation equipment by allowing mobile drying operations, reducing costs and space occupancy, and ensuring safe transportation.
Patent Information
- Authority / Receiving Office
- WO · WO
- Patent Type
- Applications
- Filing Date
- 2026-01-02
- Publication Date
- 2026-07-09
AI Technical Summary
Conventional fixed-installation far-infrared drying equipment is inefficient due to its immobility, requiring significant installation and removal costs, and occupying space when not in use, limiting its versatility for different work locations.
A container-modular far-infrared drying system with a movable far-infrared generator and telescopic rails allows efficient drying at various sites by enabling easy relocation and reuse, reducing installation and removal costs.
The system facilitates efficient drying operations at multiple sites without the need for extensive installation or removal, minimizing costs and space occupancy, and ensuring safe transportation of the equipment.
Smart Images

Figure KR2026000018_09072026_PF_FP_ABST
Abstract
Description
Container Modular Far-Infrared Drying Equipment
[0001] The present invention relates to a container-modular far-infrared drying system that dries a drying object using far-infrared rays.
[0002] The objects to be dried include, in addition to painted objects, unpainted items such as food, food ingredients, semiconductors, displays, surface treatments for PCBs, pharmaceuticals, and agricultural and marine products. However, far-infrared drying equipment can be usefully utilized for drying painted objects such as ships or vehicles, and can be particularly usefully utilized for large-sized painted objects.
[0003] Organic compounds such as paint have the characteristic of drying by absorbing some infrared radiation. In particular, they mainly absorb far-infrared radiation with wavelengths of 4 to 1000 µm within the infrared wavelength range. Far-infrared radiation absorbed by organic compound molecules resonates, inducing molecular motion, and the increased kinetic energy is converted into thermal energy, raising the temperature of the paint itself and promoting drying.
[0004] Previously, the system was designed to be equipped with a far-infrared generator on a structure fixedly installed at the site. (Hereinafter referred to as the 'fixed-installation drying facility')
[0005] Conventional fixed-installation drying equipment is permanently installed in a specific location and is primarily used in large-scale drying processes. Fixed-installation drying equipment is utilized to perform the same task repeatedly in a single location.
[0006] However, conventional fixed-installation drying equipment is a fixed structure that cannot be moved to another location once installed. Therefore, there is a problem in that if painting work needs to be performed at a new site, it must be installed through an additional installation process.
[0007] In addition, conventional fixed-installation drying equipment requires a significant amount of time and cost for installation and removal, and damage to existing structures may occur during removal. In this case, additional restoration costs may be incurred, which may reduce efficiency in terms of equipment management.
[0008] Furthermore, conventional fixed-mount drying equipment occupies the space even when painting is not being performed, and continues to occupy the installed location. For this reason, it is difficult to utilize the space where the fixed-mount drying equipment is installed for other purposes.
[0009] As such, conventional fixed-installation drying equipment is inefficient in that it is permanently installed in a specific location, cannot be moved to a different site, and requires additional fixed installation if intended for use at a new site.
[0010] [Prior Art Literature]
[0011] [Patent Literature]
[0012] (Patent Document 1) Korean Registered Patent No. 10-1968611
[0013] The present invention aims to provide a container-type far-infrared drying system that enables efficient drying of objects at various sites without restrictions on movement of the work location.
[0014] A container modular far-infrared drying facility according to one feature of the present invention comprises: a container transportable by a ship or vehicle; and a far-infrared generating device provided inside the container.
[0015] Additionally, it includes an upper rail provided on the upper part of the container, wherein at least one end protrudes outside the container when a drying object is introduced into or withdrawn from the container, and does not protrude outside the container when the container is transported; and a mounting part provided on the upper rail.
[0016] Additionally, the upper rail comprises: a first upper rail fixedly installed on the upper part of the container; and a second upper rail provided on the lower part of the first upper rail.
[0017] In addition, the second upper rail is movable relative to the first upper rail.
[0018] In addition, the above mounting part is provided to be movable on the second upper rail.
[0019] In addition, it includes a stopper provided on the first upper rail to limit the range of movement of the second upper rail.
[0020] Additionally, it includes an upper hole provided in the first upper rail; a lower hole provided in the second upper rail; and a fixing pin inserted through the upper hole and the lower hole.
[0021] In addition, it includes a hook portion provided on the second upper rail.
[0022] In addition, it includes a control panel unit that supplies power to the far-infrared generator and controls the far-infrared generator.
[0023] In addition, the control panel is provided on the outside of the container.
[0024] In addition, the control panel is equipped with wheels to enable movement.
[0025] Additionally, the upper rail further includes an additional rail detachably coupled to its end.
[0026] In addition, the upper rail is provided in a telescopic form that can be pulled out to the outside of and pulled in to the inside of the container.
[0027] A container modular far-infrared drying facility according to another feature of the present invention comprises: a container; a far-infrared generating device provided inside the container; a lower rail provided at the bottom of the container, wherein at least one end protrudes outside the container when a drying object is introduced into or withdrawn from the container, and does not protrude outside the container when transporting the container; and a movable trolley provided to be movable on the lower rail.
[0028] Additionally, the lower rail comprises an inner lower rail provided inside the container; and a lower rail extension kit that can be installed outside the container, having a track of the same shape and height as the track of the inner lower rail. When the object to be dried is brought into or taken out of the container, the movable cart can move through the installed lower rail extension kit, and when the container is transported, the installed lower rail extension kit is disassembled to allow the container to be transported.
[0029] A container modular far-infrared drying facility according to another feature of the present invention comprises: a plurality of containers arranged adjacently in at least one of the length direction, height direction, and width direction, with portions facing each other removed, separated, or open to communicate with each other; and a far-infrared generating device provided inside at least one of the plurality of containers.
[0030] Additionally, it includes an upper rail provided on the upper portion of at least one of the plurality of containers, wherein at least one end protrudes outside the container when a drying object is introduced into or withdrawn from the container, and does not protrude outside the container when transporting the container.
[0031] Additionally, it includes a lower rail provided at the bottom of at least one of the plurality of containers, wherein at least one end protrudes outside the container when a drying object is introduced into or withdrawn from the container, and does not protrude outside the container when transporting the container.
[0032] The present invention provides a container-modular far-infrared drying system equipped with a far-infrared generator inside a movable container, thereby eliminating restrictions on movement and enabling efficient drying operations at various sites, and allowing the container to be moved to another work site and reused even after being installed at a work site once.
[0033] In addition, the present invention provides a container modular far-infrared drying facility that can reduce demolition and reinstallation costs by performing the operation of removing only the container itself when moving the work site and reinstalling the container at another work site.
[0034] FIG. 1 is a schematic perspective view of the exterior of a container modular far-infrared drying facility according to one embodiment of the present invention.
[0035] FIG. 2 is a schematic cross-sectional view of the interior of a container modular far-infrared drying facility according to one embodiment of the present invention.
[0036] FIG. 3 is a diagram schematically illustrating the problem-solving principle of the first embodiment of the present invention.
[0037] FIGS. 4 and FIGS. 5 schematically illustrate an example of driving an upper rail of the first embodiment.
[0038] FIGS. 6a to 6c illustrate the combined structure of the first upper rail and the second upper rail of the first embodiment.
[0039] FIG. 7 is a schematic diagram illustrating an upper rail with a stopper installed according to the first embodiment.
[0040] FIG. 8 is a schematic diagram illustrating an upper rail with a hanging portion installed according to the first embodiment.
[0041] FIG. 9 is a schematic front view of a container of the first embodiment with a control panel unit mounted thereon.
[0042] FIG. 10 is a schematic side view of a container of the first embodiment with a control panel unit mounted thereon.
[0043] FIG. 11 is a schematic illustration of an example of driving a control panel section of the first embodiment.
[0044] FIGS. 12 and FIGS. 13 are first variations of the upper rail of the first embodiment.
[0045] FIGS. 14 and 15 are second variations of the upper rail of the first embodiment.
[0046] FIGS. 16 to 18 schematically illustrate a second embodiment of the present invention.
[0047] FIG. 19 is a schematic illustration of a third embodiment of the present invention.
[0048] FIGS. 20 to 23 illustrate various embodiments of a structure for installing a container according to the present invention.
[0049] The following merely exemplifies the principles of the invention. Therefore, those skilled in the art may invent various devices that embody the principles of the invention and fall within the concept and scope of the invention, even if they are not explicitly described or illustrated in this specification. Furthermore, all conditional terms and embodiments listed in this specification are, in principle, explicitly intended only for the purpose of enabling an understanding of the concept of the invention and should be understood as not being limited to the embodiments and conditions specifically listed as such.
[0050] The aforementioned objectives, features, and advantages will become clearer through the following detailed description in conjunction with the attached drawings, and accordingly, a person skilled in the art to which the invention pertains will be able to easily implement the technical concept of the invention.
[0051] The embodiments described herein will be explained with reference to cross-sectional and / or perspective views, which are exemplary illustrations of the present invention. The thicknesses, etc., of the films and regions depicted in these drawings are exaggerated for the effective explanation of the technical content. The shapes of the exemplary drawings may be modified due to manufacturing techniques and / or tolerances. Furthermore, the number of structures depicted in the drawings is merely an illustrative representation of only a portion. Accordingly, the embodiments of the present invention are not limited to the specific shapes depicted but also include variations in shape resulting from the manufacturing process.
[0052] Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings.
[0053] The width direction of the container modular far-infrared drying equipment described below is the ±x direction indicated on the drawing, the height direction of the container modular far-infrared drying equipment is the ±z direction indicated on the drawing, and the length direction of the container modular far-infrared drying equipment is the ±y direction indicated on the drawing.
[0054] FIG. 1 is a schematic perspective view of the exterior of a container modular far-infrared drying facility (1000) according to one embodiment of the present invention, and FIG. 2 is a schematic cross-sectional view of the interior of a container modular far-infrared drying facility (1000) according to one embodiment of the present invention.
[0055] A container modular far-infrared drying facility (1000) includes a container (10) that can be transported by a ship or vehicle and a far-infrared generating device (15) provided inside the container (10).
[0056] A container (10) has specific dimensions in the width direction (±x direction), height direction (±z direction) and length direction (±y direction) and can be transported by ship or vehicle.
[0057] The container (10) includes a door (11) that can be opened and closed in at least one of the following directions: front and rear in the length direction (±y direction), left and right in the width direction (±x direction), and up and down in the height direction (±z direction). In the drawing, as an example, a door (11) that can be opened and closed is installed in the front of the length direction (±y direction).
[0058] The far-infrared generator (15) is installed inside the container (10).
[0059] Specifically, an installation frame (12) is installed on the inner wall of the container (10). The installation frame (12) has a side portion (12a) installed on the side wall of the container (10) and a folded surface portion (12b) provided on the upper portion thereof and folded in a direction that accommodates a drying object (18).
[0060] A reflector (14) is installed on one side of the side portion (12a) and the folded portion (12b) of the installation frame (12). The reflector (14) is formed from a material with high reflectivity and, preferably, can be formed from aluminum. The reflector (14) may be composed of a single thin plate or a plurality of thin plates divided into multiple parts. The reflector (14) is installed facing the object to be dried (18).
[0061] The far-infrared generating device (15) comprises a heater case (15a) having an opening (15b) and a heater (15c) provided inside the heater case (15a). The heater case (15a) preferably has an opening (15b) at the bottom in the height direction (±z direction). The heater (15c) is located inside the heater case (15a).
[0062] The far-infrared generating device (15) is installed on the installation frame (12). Specifically, a plurality of far-infrared generating devices (15) are installed on the side portion (12a) of the installation frame (12), and a plurality of far-infrared generating devices (15) are installed on the folded portion (12b). The far-infrared generating device (15) is installed such that the opening (15b) faces downward with respect to the height direction (±z direction). Preferably, the far-infrared generating device (15) can be fixedly installed on the installation frame (12) through a connecting member (13) that connects the installation frame (12) and the heater case (15a) so as to be fixedly coupled.
[0063] The container modular far-infrared drying facility (1000) includes a mounting part (17) installed on an upper rail (16) provided on the upper part of the ceiling of the container (10) and a movable trolley (50) installed on a lower rail (19) installed on the floor of the container (10).
[0064] The mounting part (17) can move inside the container (10) via the upper rail (16), and the moving trolley (50) can move inside the container (10) via the lower rail (19). The container modular far-infrared drying equipment (1000) can perform a drying process by suspending a drying object (18) from the mounting part (17) or by supporting the drying object (18) via the moving trolley (50).
[0065] The container modular far-infrared drying facility (1000) is equipped with a far-infrared generating device (15) inside a movable container (10), so there are no restrictions on movement to the location, allowing drying work to be performed efficiently at various sites.
[0066] In addition, the container modular far-infrared drying equipment (1000) installs the container (10) itself at a work site and performs drying work inside the container (10). Therefore, after installation at the work site, the container (10) can be moved to another work site and reused.
[0067] In addition, the container modular far-infrared drying facility (1000) can perform the task of removing only the container (10) itself when moving the work location, thereby allowing the container (10) to be reinstalled at another work location. Accordingly, the costs of removal and reinstallation can be reduced.
[0068] FIG. 3 is a diagram schematically illustrating the problem-solving principle of the first embodiment of the present invention. The arrows shown in FIG. 3 indicate the direction in which the object to be dried (18) is transported during a drying operation using a mobile infrared drying facility.
[0069] Referring to FIG. 3, in order to perform the task of drying a drying object (18) in a mobile far-infrared drying facility including a container (10), it is necessary to bring the drying object (18) located outside the container (10) into the container (10) and to take out the drying object (18) for which the task is completed outside the container (10).
[0070] As an example of a method for transporting a drying object (18), a method of transporting the drying object (18) by suspending it from a mounting part (17) may be used. In order to implement the method of transporting the drying object (18) using the mounting part (17), a structure must be provided to move the mounting part (17) to a position outside the container (10) in a movable far-infrared drying facility, and to move the drying object (18) back inside the container (10) while it is suspended. This structure must be such that one end of the upper rail (16), which provides the movement path of the mounting part (17), is positioned to protrude outside the container (10).
[0071] However, in the case where one end of the upper rail (16) protrudes outside the container (10), if the one end of the upper rail (16) remains protruding outside the container (10) even when transporting the container (10), it is difficult to transport the container (10), and it may cause damage to the upper rail (16) and safety accidents.
[0072] The first embodiment of the present invention adopts a problem-solving principle in which an upper rail (16) is provided such that at least one end protrudes outside the container (10) when a drying object (18) is brought into or taken out of the container (10), and does not protrude outside the container (10) when transporting the container (10). Through this, the problem that one end of the upper rail (16) must protrude outside the container (10) during drying operations, and one end of the upper rail (16) must not protrude outside the container (10) during transporting the container (10), can be resolved.
[0073] The first embodiment will be described in detail below.
[0074] FIGS. 4 and 5 are schematic diagrams illustrating an example of driving an upper rail (16) of the first embodiment, FIGS. 6a to 6c are diagrams illustrating a combined structure of the first upper rail (16a) and the second upper rail (16b) of the first embodiment, FIG. 7 is a schematic diagram illustrating an upper rail (16) with a stopper (23) installed of the first embodiment, and FIG. 8 is a schematic diagram illustrating an upper rail (16) with a hook (60) installed of the first embodiment.
[0075] Referring to FIGS. 4 and 5, the first embodiment is provided with an upper rail (16) such that when a drying object (18) is brought into or taken out of the container (10) to perform a drying operation, at least one end protrudes outside the container (10), and when the container (10) is transported, it does not protrude outside the container (10). A mounting portion (17) is provided on the upper rail (16).
[0076] The upper rail (16) of the first embodiment includes a first upper rail (16a) fixedly installed on the ceiling of the upper part of the container (10) and a second upper rail (16b) provided on the lower part of the first upper rail (16a).
[0077] Referring to FIGS. 6a to 6c, the first and second upper rails (16a, 16b) preferably comprise an I-shaped steel beam.
[0078] Referring to FIG. 6a, the first upper rail (16a) is fixedly connected to the upper part of the container (10) through a separate fixed connection means (e.g., a bolt (1100)). The upper part of the container (10) may be provided with a ceiling auxiliary beam section (10a) for fixedly installing the first upper rail (16a).
[0079] Referring to FIG. 6b, the second upper rail (16b) is provided to be movable relative to the first upper rail (16a) at the lower part of the first upper rail (16a). The second upper rail (16b) is connected to be movable relative to one side and the other side in the longitudinal direction (±y direction). The second upper rail (16b) is connected to the lower part of the first upper rail (16a) by a separate connecting means (e.g., a bracket (1200)).
[0080] Specifically, the bracket (1200) is fixedly coupled to the outer surface of the upper portion of the second upper rail (16b). The bracket (1200) is movably coupled on the first upper rail (16a) through a first roller portion (21) composed of a pair of rollers facing each other in the width direction (±x direction). More specifically, rollers are coupled to the inner side of each of the facing surfaces (1200a) in the width direction (±x direction) of the bracket (1200). The first roller portion (21) is provided to be movable along a horizontal plane formed at the lower portion by the I-shape of the first upper rail (16a). The second upper rail (16b) is provided to be movable to one side and the other side in the length direction (±y direction) from the lower portion of the first upper rail (16a) by the first roller portion (21).
[0081] Referring to FIG. 7, the container modular far-infrared drying equipment (1000) is provided with a stopper (23) at each end of the longitudinal direction (±y direction) of the first upper rail (16a). The stopper (23) is positioned on one side and the other side of the longitudinal direction (±y direction) of the first roller section (21). The container modular far-infrared drying equipment (1000) can limit the movement position of the first roller section (21) in one direction through the stopper (23) provided on one side of the longitudinal direction (±y direction) of the first roller section (21). Additionally, the movement position of the first roller section (21) in the other direction can be limited through the stopper (23) provided on the other side of the longitudinal direction (±y direction) of the first roller section (21). As a result, the movement range of the second upper rail (16b) is limited. During the process in which the first roller part (21) moves along the lower horizontal plane of the first upper rail (16a), the second upper rail (16b) is prevented from detaching from the first upper rail (16a) through the stopper (23).
[0082] The container modular far-infrared drying equipment (1000) is provided with an upper hole (24) on the first upper rail (16a) and a lower hole (25) on the second upper rail (16b).
[0083] Referring to FIGS. 7 and 8, the first upper rail (16a) is provided with an upper hole (24) that penetrates the I-shaped steel in the width direction (±x direction) at a specific location.
[0084] The second upper rail (16b) has a lower hole (25) in the connecting member (16c) provided on its upper side. The upper and lower holes (24, 25) may have the same diameter. The connecting member (16c) may preferably be provided on one side in the longitudinal direction (±y direction) of the first roller part (21).
[0085] The second upper rail (16b) can move relative to the first upper rail (16a) by sliding by the first roller part (21) so that one end of it protrudes outside the container (10). In order to fix the position of the second upper rail (16b), preferably, the lower hole (25) of the connecting member (16c) of the second upper rail (16b) and the upper hole (24) of the first upper rail (16a) are positionally corresponding. In this state, a fixing pin (26) is inserted by penetrating the mutually corresponding upper and lower holes (24, 25). The container modular far-infrared drying equipment (1000) can temporarily combine the second upper rail (16b) and the first upper rail (16a), with one end protruding outside the container (10) to perform drying operations, through the fixing pin (26) inserted into the upper and lower holes (24, 25). This prevents the problem of shaking of the second upper rail (16b) during the process of transporting the object to be dried (18) by hanging it from the mounting part (17) into the container (10).
[0086] The mounting portion (17) is provided to be movable on the second upper rail (16b).
[0087] Specifically, the mounting portion (17) is provided to be movable on the second upper rail (16b) via the second roller portion (22). The second roller portion (22) consists of a pair of rollers movable along each horizontal plane formed at the lower end by the I-shape of the second upper rail (16b). The second roller portion (22) moves along the horizontal plane at the lower end of the second upper rail (16b) in the longitudinal direction (±y direction) to one side and the other side. The second roller portion (22) may be movable on the second upper rail (16b) by means of an electric motor or human power.
[0088] Referring to FIG. 6c, the mounting portion (17) is connected to the central portion of the coupling portion (22a) of the second roller portion (22) that protrudes below the second upper rail (16b).
[0089] The mounting portion (17) is configured to include a body portion (17a) coupled to a connecting means provided in the coupling portion (22a) of the second roller portion (22), a chain portion (17b) that is wound or unwound along an axis provided in the body portion (17a), and a hook (17c) coupled to the chain portion (17b) and on which a drying object (18) is caught.
[0090] The mounting part (17) is made movable on the second upper rail (16b) by a force that moves the second roller part (22) in the longitudinal direction (±y direction) to one side and the other side by means of an electric motor or human power.
[0091] Referring to FIG. 4, when transporting the container (10), the second upper rail (16b) is provided such that one end thereof does not protrude outside the container (10) but is located inside.
[0092] Meanwhile, in order to perform the drying operation of the object to be dried (18), the process of bringing the object to be dried (18) into and taking it out of the container (10) is performed.
[0093] Referring to FIG. 5, the second upper rail (16b) is moved so that one end of the second upper rail (16b) protrudes outside the container (10) in order to perform a drying operation on the object to be dried (18). The second upper rail (16b) moves along the horizontal plane of the lower end of the first upper rail (16a) through the first roller part (21) in the longitudinal direction (±y direction) so that one end of the second upper rail protrudes outside the container (10).
[0094] The mounting member (17) is moved to be positioned on one end of the second upper rail (16b) protruding outside the container (10). The mounting member (17) moves along the second upper rail (16b) via the second roller member (22) and moves outside the container (10). A drying object (18) is suspended from this mounting member (17). With the drying object (18) suspended, the mounting member (17) moves along the second upper rail (16b) by the second roller member (22) and moves into the container (10). The drying object (18) can be positioned in the central part of the container (10) by the mounting member (17). In this state, the container modular far-infrared drying equipment (1000) can perform a drying operation on the drying object. At this time, the container (10) closes the door (11) that was opened. An opening (not shown) that is larger or equal in size to the second upper rail (16b) is provided at the top of the door (11). When the door (11) is closed, the container modular far-infrared drying equipment (1000) passes one end of the second upper rail (16b), which protrudes outside the container (10), through the opening of the door (11). Accordingly, during the drying process, the one end of the second upper rail (16b) can remain protruding outside the container (10). By providing an opening in the door (11), the container modular far-infrared drying equipment (1000) can efficiently perform the drying operation without interference between the second upper rail (16b) and the door (11), even when the drying operation is performed with the one end of the second upper rail (16b) protruding outside the container (10).
[0095] Alternatively, the object to be dried (18) may be positioned at the innermost side of the container (10), passing through the inner central side of the container (10), so as to be positioned at a greater distance from the door (11) in the longitudinal direction (±y direction). This can be achieved by moving the second upper rail (16b), with one end protruding outside the container (10), on the first upper rail (16a) while the object to be dried (18) is positioned at the inner central side of the container (10) via the mounting part (17). In this case, the drying operation can be performed with the second upper rail (16b) positioned inside the container (10) and the end of the second upper rail (16b) not protruding outside the container (10).
[0096] The container modular far-infrared drying equipment (1000) can perform drying operations on multiple drying objects (18) simultaneously. In this case, multiple mounting parts (17) are provided on the second upper rail (16b). With one end of the second upper rail (16b) protruding outside the container (10), the drying objects (18) are suspended from each mounting part (17). Each mounting part (17) can move along the second upper rail (16b) and be positioned sequentially from the innermost side of the container (10) to the central side and to the door (11). Through this, multiple drying objects (18) can be positioned inside the container (10). Then, the door (11) can be closed and the drying operation can be performed. The container modular far-infrared drying equipment (1000) can improve the efficiency of the drying operation by drying multiple drying objects (18) at once.
[0097] Meanwhile, during transport of the container (10), the mounting part (17) can be mounted on the upper rail (16).
[0098] Referring to FIG. 8, a hook portion (60) is provided at the lower end of the longitudinal (±y direction) end portion of the second upper rail (16b) (a portion located opposite to the door (11) of the container (10). The hook portion (60) includes a through hole (60a). A hook (17c) is provided at the lower end of the mounting portion (17) and is structured to be swayed by a chain portion (17b). When the hook (17c) is swayed during the transportation of the container (10), the far-infrared ray generator (15) inside and the hook (17c) may collide, causing damage and breakage of the far-infrared ray generator (15).
[0099] The container modular far-infrared drying equipment (1000) is provided with a hook (17c) attached to a hanging part (60) during the transportation of the container (10). The hook (17c) passes through the through hole (60a) of the hanging part (60) and can be attached to the hanging part (60). As a result, the container modular far-infrared drying equipment (1000) can prevent the far-infrared generating device (15) from being damaged or broken due to shaking of the hook (17c) during the transportation of the container (10).
[0100] FIG. 9 is a schematic front view of a container (10) of the first embodiment with a control panel unit (31) mounted thereon, FIG. 10 is a schematic side view of a container (10) of the first embodiment with a control panel unit (31) mounted thereon, and FIG. 11 is a schematic illustration of an example of driving the control panel unit (31) of the first embodiment.
[0101] Referring to FIGS. 9 to 11, the container modular far-infrared drying facility (1000) includes a control panel section (31) that supplies power to a far-infrared generating device (15) inside a container (10) and controls the far-infrared generating device (15).
[0102] The control panel section (31) is provided on the outside of the container (10) as a separate component from the container (10). The control panel section (31) is equipped with wheels on the bottom so that it can be easily moved to a specific location. The control panel section (31) includes a case (31a) that covers the exterior.
[0103] Referring to FIGS. 9 and 10, the container modular far-infrared drying equipment (1000) is provided with a panel holder (30) for mounting a control panel section (31) on one of the outer surfaces of the container (10), a power connection section (32), and a cable holder (33). As an example, the panel holder (30), the power connection section (32), and the cable holder (33) are fixedly installed on the outer rear surface of the container (10), which is the front surface in the longitudinal direction (±y direction) and is located opposite to the surface having the door (11).
[0104] When transporting the container (10), the control panel section (31) can be temporarily attached to the container (10) by being mounted with its bottom section lifted in the air by a panel support (30) fixedly connected to the outer surface of the container (10).
[0105] The power connection part (32) includes a plurality of ports (32a). The power connection part (32) can provide an electrical connection for supplying power to a far-infrared generator (15) inside the container (10).
[0106] The cable holder (33) is a member that holds cables connected to the control panel (31) and spare cables. The control panel (31) may be moved toward the door (11) located on the front side of the container (10) when performing a drying operation. In this case, the control panel (31) can extend the range of movable distance while electrically connected via spare cables.
[0107] Referring to FIG. 11, the control panel unit (31) is detached from the panel stand (30) during the drying process and positioned on the ground. At this time, one side of the cable connected to the power connection unit (32) of the control panel unit (31) is connected at the rear side in the longitudinal direction (±y direction). Through this, the control panel unit (31) receives power and operates.
[0108] The first embodiment can perform the drying operation of the object to be dried (18) through the following process sequence.
[0109] First, a process is performed to place a container (10) with an internal far-infrared generator (15) at a specific work location.
[0110] Then, a process is performed to move the second upper rail (16b) relative to the first upper rail (16a) so that one end of the second upper rail (16b) protrudes outside the container (10). The second upper rail (16b) is moved relative to the first upper rail (16a) through the first roller section (21).
[0111] Then, the mounting member (17) connected to the lower part of the second upper rail (16b) is positioned on the end of the second upper rail (16b) that protrudes outside the container (10). As a result, the mounting member (17) is positioned outside the container (10).
[0112] Then, the process of hanging and mounting the object to be dried (18) on the mounting part (17) is performed.
[0113] Then, the process of moving only the mounting part (17) on the second upper rail (16b) to position the object to be dried (18) inside the container (10) is performed. The object to be dried (18) is moved to be positioned, for example, in the central part inside the container (10).
[0114] Alternatively, the object to be dried (18) may be positioned at the innermost side of the container (10). In this case, the process of moving only the mounting part (17) to position the object to be dried (18) at the central side of the container (10) is performed, and then moving the second upper rail (16b) relative to the first upper rail (16a). The second upper rail (16b) moves relative to the first upper rail (16a) as the end portion protruding outside the container (10) is retracted back into the container (10). As a result, the second upper rail (16b) is positioned inside the container (10), and the object to be dried (18) mounted on the mounting part (17) can be positioned at the innermost side of the container (10).
[0115] Then, drying is performed with the door (11) of the container (10) closed.
[0116] When the object to be dried (18) is located in the central part of the interior of the container (10), one end of the second upper rail (16b) may be protruding out of the container (10). In this case, the door (11) may be closed as the protruding end of the second upper rail (16b) passes through an opening (not shown) provided in the door (11).
[0117] In contrast, when the object to be dried (18) is located at the innermost side of the container (10), the second upper rail (16b) may be located inside the container (10) without any part protruding outside the container (10). In this case, the door (11) can be closed to perform the drying operation.
[0118] Then, when the drying operation is completed, the door (11) is opened to move the mounting part (17) to the outside of the container (10) via the second upper rail (16b). Through this, the object to be dried (18) mounted on the mounting part (17) is removed to the outside of the container (10). The operator can easily detach the object to be dried (18) removed to the outside of the container (10).
[0119] The first embodiment is provided with a double rail structure including first and second upper rails (16a, 16b) on the upper interior of the container (10). At this time, the first upper rail (16a) is fixedly installed on the ceiling to provide a path for the second upper rail (16b) to move. The second upper rail (16b) can move relative to the first upper rail (16a) so that one end thereof can protrude to the outside of the container (10).
[0120] Accordingly, in the first embodiment, when performing a drying operation, the object to be dried (18) can be easily mounted on a mounting part (17) located outside the container (10) via a second upper rail (16b) protruding outside the container (10) and transported inside the container (10). In addition, the object to be dried (18) after the drying operation is completed can be easily transported outside the container (10). As a result, the first embodiment can improve the efficiency of the drying operation.
[0121] Meanwhile, in the first embodiment, when the drying operation is completed and the container (10) is transported, one end of the second upper rail (16b) can be retracted so that it is located inside the container (10) without protruding to the outside of the container (10). As a result, the first embodiment can prevent damage to the upper rail (16) and safety accidents caused by the upper rail (16) being in a protruding state during the transport of the container (10).
[0122] FIGS. 12 and 13 are first variations of the upper rail (16) of the first embodiment.
[0123] The first modified example has a structure in which a first upper rail (16a) is fixedly installed on the ceiling of a container (10). A mounting part (17) that is movable on the first upper rail (16a) is attached to the lower part of the first upper rail (16a).
[0124] In the first variation, the upper rail (16) has an additional rail (40) that is detachably coupled to one end in the longitudinal direction (±y direction) of the first upper rail (16a).
[0125] During the drying process, the additional rail (40) is connected to one end in the longitudinal direction (±y direction) of the first upper rail (16a). The one end in the longitudinal direction (±y direction) of the first upper rail (16a) is a portion located in the direction in which the door (11) of the container (10) is provided.
[0126] The additional rail (40) may be provided with the same cross-sectional shape as the first upper rail (16a). However, it may have a length smaller than the length in the longitudinal direction (±y direction) of the first upper rail (16a). The container modular far-infrared drying facility (1000) may attach the additional rail (40) to one end of the first upper rail (16a) while the door (11) of the container (10) is open. The first upper rail (16a) and the additional rail (40) can be easily connected and easily separated through a separate connecting means. As a connecting means, a clamp, a bolt, etc., may be used as an example.
[0127] The container modular far-infrared drying equipment (1000) can have at least a portion of the additional rail (40) protrude outside the container (10) by connecting an additional rail (40) to one end of the first upper rail (16a). The mounting part (17) moves along the first upper rail (16a) and moves along the additional rail (40). A drying object (18) can be mounted on the mounting part (17) that protrudes outside the container (10) via the additional rail (40).
[0128] When the drying process is completed, the additional rail (40) can be separated from one end of the first upper rail (16a) and installed inside the container (10). The container (10) can be safely transported with the additional rail (40) installed inside.
[0129] The first variation can perform the drying operation of the object to be dried (18) through the following process sequence.
[0130] First, a process of attaching an additional rail (40) to one end of the first upper rail (16a) is performed. At least a portion of the additional rail (40) protrudes outside the container (10).
[0131] Then, the mounting member (17) moves along the first upper rail (16a) and continuously moves along the additional rail (40) connected to one end thereof, so as to be positioned on the side of the additional rail (40) that protrudes outside the container (10). Through this, the mounting member (17) is positioned outside the container (10).
[0132] Then, the process of mounting the object to be dried (18) on the mounting section (17) is performed. The mounting section (17) is in a state where it protrudes outward from the container (10) by means of an additional rail (40). Therefore, the object to be dried (18) can be easily mounted on the mounting section (17) from the outside of the container (10).
[0133] Then, the mounting part (17) is moved in the direction of the inside of the container (10) to position the object to be dried (18) inside the container (10).
[0134] Then, the door (11) is closed and the drying object (18) is dried.
[0135] Then, a process is performed to remove the object to be dried (18), which has completed the drying process, from the container (10) through a mounting part (17) that moves along an additional rail (40) via the first upper rail (16a). Through this, the worker can easily detach the object to be dried (18) from the container (10).
[0136] Then, the process of separating the additional rail (40) from the first upper rail (16a) is performed. The separated additional rail (40) is installed inside the container (10). This allows the container (10) to be transported efficiently without the problem of damage to the upper rail (16).
[0137] FIGS. 14 and 15 are schematic diagrams illustrating a second variation of the upper rail (16) of the first embodiment.
[0138] The second variant is equipped with a telescopic upper rail (16) that can be pulled out and pulled in from the outside of the container (10).
[0139] The upper rail (16) of the second variant is configured to include a first upper rail (16a) fixedly installed on the upper part of the container (10) and a second upper rail (16b) configured to be able to be pulled out and pulled inward into the inner side of the first upper rail (16a).
[0140] The mounting part (17) may be configured to move along the first upper rail (16a) and move along the second upper rail (16b).
[0141] In a second variation, the second upper rail (16b) can be withdrawn from the first upper rail (16a) to perform a drying operation. The direction of withdrawal of the second upper rail (16b) is the direction in which the door (11) of the container (10) is provided. The second upper rail (16b) can be withdrawn from the first upper rail (16a) and positioned so that one end thereof protrudes outside the container (10).
[0142] The mounting member (17) can move along the first upper rail (16a), pass the first upper rail (16a), and move along the second upper rail (16b). Through this, the mounting member (17) can be positioned at one end of the second upper rail (16b) and protrude outside the container (10). As a result, the worker can easily mount the object to be dried (18) on the mounting member (17).
[0143] The second variation can perform the drying operation of the object to be dried (18) through the following process sequence.
[0144] First, the process of withdrawing the second upper rail (16b) from the first upper rail (16a) is performed. Through this, one end of the second upper rail (16b) is positioned to protrude outside the container (10).
[0145] Then, the mounting part (17) is positioned outside the container (10) via the upper rail (16).
[0146] Then, the object to be dried (18) is suspended from the mounting part (17) and positioned inside the container (10), and then the drying operation is performed. At this time, the door (11) of the container (10) is closed.
[0147] Then, when the drying operation is completed, the mounting part (17) is moved via the upper rail (16) to remove the object to be dried (18) from the outside of the container (10). The operator can easily detach the object to be dried (18) removed from the outside of the container (10).
[0148] Then, the process of retracting the second upper rail (16b) is performed. Through this, one end of the second upper rail (16b) protruding outside the container (10) is retracted into the interior of the first upper rail (16a). Accordingly, the upper rail (16) is positioned inside the container (10).
[0149] Then, the container (10) can be safely transported without any part of the upper rail (16) protruding outside the container (10).
[0150] FIGS. 16 to 18 are schematic drawings illustrating a second embodiment.
[0151] The second embodiment described below will be explained focusing on characteristic components compared to the first embodiment, and components identical or similar to those of the first embodiment are utilized in the composition of the second embodiment, with descriptions thereof omitted as much as possible.
[0152] The second embodiment of the present invention adopts a problem-solving principle in which a lower rail (19) is provided such that at least one end protrudes outside the container (10) when a drying object (18) is brought into or taken out of the container (10), and does not protrude outside the container (10) when transporting the container (10). Through this, the problem that one end of the lower rail (19) must protrude outside the container (10) during drying operations, and one end of the lower rail (19) must not protrude outside the container (10) during transporting the container (10), can be resolved.
[0153] Referring to FIGS. 16 to 18, the second embodiment comprises a container (10), a far-infrared ray generator (15) provided inside the container (10), and a movable trolley (50) provided at the bottom of the container (10) such that at least one end protrudes outside the container (10) when a drying object (18) is brought into or taken out of the container (10), and does not protrude outside the container (10) when transporting the container (10).
[0154] A first upper rail (16a) is fixedly installed on the ceiling located at the upper part of the interior of the container (10). A mounting part (17) is movably provided on the first upper rail (16a).
[0155] The lower rail (19) provides a path for the movable trolley (50) to move along the wheels inside the container (10).
[0156] The lower rail (19) includes an inner lower rail (19a) provided inside the container (10) and a lower rail extension kit (19b) that can be installed outside the container (10) while having the same shape and same height as the track of the inner lower rail (19a).
[0157] The inner lower rail (19a) has a length equal to the length in the longitudinal direction (±y direction) of the container (10) and is fixedly installed along the bottom portion inside the container (10).
[0158] The lower rail extension kit (19b) has a track of the same shape and height as the track of the inner lower rail (19a). The height direction (±z direction) and width direction (±x direction) dimensions of the lower rail extension kit (19b) are the same as the dimensions of the inner lower rail (19a).
[0159] Referring to FIG. 17, the lower rail extension kit (19b) is installed so as to be continuous with one end of the inner lower rail (19a) on the outside of the container (10) when performing a drying operation. Thus, the lower rail extension kit (19b) is positioned in an exposed state on the outside of the container (10). The lower rail extension kit (19b) can be installed via a separate connecting means (e.g., bolts, etc.) to be temporarily fixed on the ground outside the container (10) and can be continuously connected in a manner that extends the inner lower rail (19a) to the outside of the container (10).
[0160] The lower rail extension kit (19b) has a track of the same shape and height as the track of the inner lower rail (19a). Accordingly, the lower rail extension kit (19b) is provided on the outside of the container (10) to continuously form a track at the same height with a flat surface, without having a step portion with the inner lower rail (19a).
[0161] The lower rail extension kit (19b) is installed to be continuously connected to the inner lower rail (19a) from the outside of the container (10) through a separate connecting means. The connecting means may include, for example, a bolt.
[0162] The movable carriage (50) is provided with a support member (50a) that supports a drying object (18) in a form in which a plurality of frames are arranged in an intersecting manner. The support member (50a) can be formed with intersecting frames having a spacing distance, thereby providing an empty space between the frames. As a result, the support member (50a) can minimize the area that blocks far-infrared rays emitted from the far-infrared ray generator (15).
[0163] Referring to FIG. 18, the movable trolley (50) moves along the inner lower rail (19a) and moves onto the lower rail extension kit (19b) located outside the container (10). This allows the movable trolley (50) to be located outside the container (10).
[0164] The worker can easily place the object to be dried (18) on the movable trolley (50) located on the lower rail extension kit (19b) outside the container (10).
[0165] The second embodiment can perform the drying operation of the object to be dried (18) through the following process sequence.
[0166] First, the process of placing the container (10) at a specific work location is performed.
[0167] Then, the process of bringing the object to be dried (18) into and out of the container (10) is performed. To do this, the door (11) of the container (10) is first opened, and a lower rail extension kit (19b) is installed on the outside of the container (10). The lower rail extension kit (19b) has the same shape and height as the track of the inner lower rail (19a), thereby forming a track that is continuously connected to the track of the inner lower rail (19a) on the outside of the container (10).
[0168] Then, inside the container (10), the movable trolley (50) moves along the inner lower rail (19a) to the opening position of the door (11) of the container (10). The movable trolley (50) moves along the lower rail extension kit (19b), which has a track that continues in series with the inner lower rail (19a), and is positioned to protrude outward from the container (10).
[0169] Then, a process is performed in which a worker places a drying object (18) on a movable cart (50) located outside the container (10).
[0170] Then, the movable trolley (50) moves along the lower rail extension kit (19b) and moves onto the inner lower rail (19a) inside the container (10) and is inserted into the interior of the container (10).
[0171] Then, the door (11) of the container (10) is closed to perform the drying of the object (18). At this time, the lower rail extension kit (19b) is installed on the outside of the container (10) at a position lower than the door of the container (10). Therefore, it does not interfere with the opening and closing of the door (11).
[0172] Then, when the drying operation is completed, the door (11) of the container (10) is opened, and the movable trolley (50) is moved toward the door (11) on the inner lower rail (19a). The movable trolley (50) moves onto the lower rail extension kit (19b), which forms a continuous track with the inner lower rail (19a) on the outside of the container (10), and is positioned outside the container (10). Through this, the drying object (18) placed on the movable trolley (50) is removed from the container (10).
[0173] The worker can easily unload the drying object (18) taken out of the container (10).
[0174] Then, the process of disassembling the lower rail extension kit (19b) from the outside of the container (10) is performed. The lower rail extension kit (19b) may be stored inside the container (10) or on a means of transport (ship or vehicle) transporting the container (10). The container (10) is transported with the lower rail extension kit (19b) on the outside disassembled.
[0175] In this way, the second embodiment allows the movable trolley (50) to be moved to the outside of the container (10) by installing a lower rail extension kit (19b) having the same shape and height as the track of the inner lower rail (19a) and continuously connecting it to the inner lower rail (19a) outside the container (10). As a result, the operator can easily and efficiently perform the loading and unloading of the object to be dried (18) through the second embodiment.
[0176] Additionally, when transporting the container (10), the lower rail extension kit (19b) is disassembled from the outside of the container (10). As a result, the mobility of the second embodiment can be improved without the problem of parts breakage and damage caused by the protruding part on the outside of the container (10).
[0177] FIG. 19 is a schematic illustration of a third embodiment.
[0178] The third embodiment described below will focus on characteristic components compared to the first embodiment, and components identical or similar to those of the first embodiment will be utilized in the composition of the third embodiment, with descriptions thereof omitted as much as possible.
[0179] The third embodiment of the present invention adopts a problem-solving principle in which an upper rail (16) and / or a lower rail (19) are provided such that when a drying object (18) is brought into or taken out of the container (10), at least one end of the upper rail (16) protrudes outside the container (10), and when the container (10) is transported, the upper rail (16) and / or the lower rail (19) do not protrude outside the container (10). Through this, the problem that one end of the upper rail (16) and / or the lower rail (19) must protrude outside the container (10) during the drying operation, and one end of the upper rail (16) and / or the lower rail (19) must not protrude outside the container (10) during the transport of the container (10), can be resolved.
[0180] Referring to FIG. 19, the third embodiment comprises a container (10), a far-infrared ray generator (15) provided inside the container (10), an upper rail (16) provided on the upper part of the container (10) such that at least one end protrudes outside the container (10) when a drying object (18) is brought into or taken out of the container (10) and does not protrude outside the container (10) when transporting the container (10), a mounting part (17) provided on the upper rail (16), a lower rail (19) provided on the lower part of the container (10) such that at least one end protrudes outside the container (10) when a drying object (18) is brought into or taken out of the container (10) and does not protrude outside the container (10) when transporting the container (10), and a movable trolley (50) provided to be movable on the lower rail (19).
[0181] The upper rail (16) may be provided with any one of a double rail structure, a rail separation coupling structure, and a telescopic structure.
[0182] Specifically, the upper rail (16) may be provided with a double rail structure comprising a first upper rail (16a) fixedly installed on the upper part of the container (10) and a second upper rail (16b) provided on the lower part of the first upper rail (16a) and movable on the first upper rail (16a). The double rail structure is identical to the structure of the first embodiment described above.
[0183] Alternatively, the upper rail (16) may be provided with a rail separation and coupling structure comprising a first upper rail (16a) fixedly installed on the upper part of the container (10) and an additional rail (40) detachably coupled to one end of the first upper rail (16a). The rail separation and coupling structure is identical to the structure of the first modified example of the upper rail (16) of the first embodiment described above.
[0184] Alternatively, the upper rail (16) may be provided with a telescopic structure comprising a first upper rail (16a) fixedly installed on the upper part of the container (10) and a second upper rail (16b) provided inside the first upper rail (16a) and configured to be retractable from the first upper rail (16a). The telescopic structure is identical to the structure of the second modified example of the upper rail (16) of the first embodiment described above.
[0185] The third embodiment is provided with an upper rail (16) having one of a double rail structure, a rail separation and coupling structure, and a telescopic structure. This allows at least a portion of the upper rail (16) to protrude outside the container (10) when the object to be dried (18) is brought into or taken out of the container (10), thereby allowing the object to be dried (18) to be easily brought into the container (10) from the outside and the object to be dried (18) to be easily taken out of the container (10) after drying is complete. When transporting the container (10), the upper rail (16) is positioned inside the container (10), allowing for efficient transport without damage to the upper rail (16) or safety accident issues.
[0186] The lower rail (19) includes an inner lower rail (19a) fixedly installed on the floor inside the container (10) and a lower rail extension kit (19b) installed outside the container (10) and detachably coupled, having the same shape and height as the track of the inner lower rail (19a). The structure of the lower rail (19) including the inner lower rail (19a) and the lower rail extension kit (19b) is the same as the structure of the second embodiment described above.
[0187] In the third embodiment, when bringing a drying object (18) into or out of the container (10), an upper rail (16) or a lower rail (19) may be used. When using the lower rail (19), a lower rail extension kit (19b) can be installed outside the container (10) so as to be continuously connected to the inner lower rail (19a). Through this, the movable cart (50) protrudes outside the container (10), and the drying object (18) can be easily placed on the movable cart (50) from outside the container (10) and brought into the interior.
[0188] When transporting the container (10), the lower rail extension kit (19b) on the outside of the container (10) is disassembled. As a result, the container (10) can be transported efficiently without protruding parts and without causing problems with breakage or damage to parts.
[0189] In the third embodiment, at least one of the upper rail (16) and the lower rail (19) can be used to easily bring a drying object (18) from the outside of the container (10) into the inside, and to easily take out a drying object (18) from the inside of the container (10) to the outside. This can improve the efficiency of the drying operation.
[0190] In addition, when transporting the container (10), there is no protruding part on the outside of the container (10) by the upper rail (16) or lower rail (19). Accordingly, the container (10) can be transported safely without problems of breakage or damage to the parts (upper rail (16) or lower rail (19)).
[0191] The container (10) of the present invention may be provided as a single structure or may be provided as a structure having multiple units.
[0192] In a structure having a plurality of containers (10), each container (10) is arranged adjacently in at least one of the length direction (±y direction), height direction (±z direction), and width direction (±x direction), and the portions facing each other are removed, separated, or opened so as to be connected to each other.
[0193] At least one of the containers (10) is equipped with a far-infrared generating device (15) inside each container (10).
[0194] FIGS. 20 to 23 illustrate various embodiments of a structure for installing a container (10).
[0195] FIG. 20 is a schematic diagram illustrating a structure in which a plurality of containers (10) are arranged adjacently in the longitudinal direction (±y direction). In FIG. 20, a door (11) that can be removed, separated, or opened is provided in the portion facing each container (10) in the longitudinal direction (±y direction).
[0196] Each container (10) is connected continuously by removing, separating, or opening a door (11) located on a facing portion in the longitudinal direction (±y direction) to allow the interiors to communicate with each other.
[0197] For example, a container (10) located at the front in the longitudinal direction (±y direction) has its rear door (11) opened, and a container (10) located at the rear in the longitudinal direction (±y direction) has its front door (11) opened so that their interiors are connected to each other.
[0198] A far-infrared generating device (15) is provided inside at least one of the containers (10) adjacent in the longitudinal direction (±y direction). The structure of providing the far-infrared generating device (15) inside the container (10) is the same as the installation structure of the far-infrared generating device (15) described above with reference to FIG. 2.
[0199] Multiple containers (10) are arranged adjacently in the longitudinal direction (±y direction) so that their interiors are connected and are connected continuously, thereby effectively drying a drying object (18) that has a long length in the longitudinal direction (±y direction) or securing a large space in the longitudinal direction (±y direction) to improve the efficiency of the drying operation.
[0200] FIG. 21 is a schematic diagram illustrating a structure in which a plurality of containers (10) are arranged adjacently in the width direction (±x direction). In this case, preferably, a container surface portion (10b) that can be removed, separated, or opened may be provided on the portion facing each container (10) in the width direction (±x direction).
[0201] For example, a container (10) located on one side (left side in the drawing) in the width direction (±x direction) has its container surface (10b) on one side (right side in the drawing) of the container surface (10b) in the width direction (±x direction) removed, separated, or opened, and a container (10) located on the other side (right side in the drawing) in the width direction (±x direction) has its container surface (10b) on the other side (left side in the drawing) of the container surface (10b) in the width direction (±x direction) removed, separated, or opened so that the interiors are connected to each other.
[0202] Additionally, each container (10) is provided with a door (11) that can be opened and closed on either the front or rear side in the longitudinal direction (±y direction). As an example, in FIG. 20, a door (11) is provided on the front side in the longitudinal direction (±y direction) of the container (10). The door (11) is opened during the drying operation.
[0203] Multiple containers (10) are continuously connected by removing, separating, or opening the container surface portion (10b) located in the width direction (±x direction) facing each other, thereby connecting the interiors in the width direction (±x direction).
[0204] A far-infrared generating device (15) is provided inside at least one of the containers (10) adjacent in the width direction (±x direction). The structure of providing the far-infrared generating device (15) inside the container (10) is the same as the installation structure of the far-infrared generating device (15) described above with reference to FIG. 2.
[0205] Multiple containers (10) are arranged adjacently in the width direction (±x direction) so that their interiors are connected and are connected continuously. Through this, drying work on a drying object (18) having a large width in the width direction (±x direction) can be performed efficiently.
[0206] FIG. 22 is a schematic diagram illustrating a structure in which a plurality of containers (10) are arranged adjacently in the height direction (±z direction). In this case, preferably, a container surface portion (10b) that can be removed, separated, or opened may be provided on the portion facing each container (10) in the height direction (±z direction).
[0207] Additionally, each container (10) is provided with a door (11) that can be opened and closed on either the front or rear side in the longitudinal direction (±y direction). As an example, in FIG. 22, a door (11) is provided on the front side in the longitudinal direction (±y direction) of the container (10). The door (11) is opened during the drying operation.
[0208] Multiple containers (10) are continuously connected by removing, separating, or opening the container surface portion (10b) located in the height direction (±z direction) facing each other, thereby connecting the interiors in the height direction (±z direction).
[0209] For example, a container (10) located at the top in the height direction (±z direction) has its lower container surface (10b) in the height direction (±z direction) removed, separated, or opened, and a container (10) located at the bottom in the height direction (±z direction) has its upper container surface (10b) in the height direction (±z direction) removed, separated, or opened so that the interiors are connected to each other.
[0210] A far-infrared generating device (15) is provided inside at least one of the containers (10) adjacent in the width direction (±x direction). The structure of providing the far-infrared generating device (15) inside the container (10) is the same as the installation structure of the far-infrared generating device (15) described above with reference to FIG. 2.
[0211] Multiple containers (10) are arranged adjacently in the height direction (±z direction) so that their interiors are connected and are connected continuously. This allows drying work to be efficiently performed on a drying object (18) having large dimensions in the height direction (±z direction).
[0212] FIG. 23 is a schematic diagram illustrating a structure in which multiple containers (10) are arranged adjacently in the length direction (±y direction), height direction (±z direction) and width direction (±x direction).
[0213] Specifically, at least two containers (10) may be arranged adjacently in the length direction (±y direction), at least two containers (10) may be arranged adjacently in the height direction (±z direction), and at least two containers (10) may be arranged adjacently in the width direction (±x direction).
[0214] As an example, two containers (10) are arranged adjacently in the width direction (±x direction), and another container (10) is arranged adjacently in the length direction (±y direction) corresponding to each container (10) in the width direction (±x direction). Accordingly, a plurality of containers (10) are provided in a 2x2 arrangement consisting of two columns and two rows in the width direction (±x direction) and the length direction (±y direction) at the bottom of the height direction (±z direction).
[0215] In the upper portion in the height direction (±z direction), a plurality of containers (10) are provided having the same arrangement structure as the plurality of containers (10) arranged in the width direction (±x direction) and length direction (±y direction) of the lower portion. Accordingly, a plurality of containers (10) are provided in the upper portion in the height direction (±z direction) having a 2x2 arrangement form consisting of 2 columns and 2 rows in the width direction (±x direction) and length direction (±y direction). At this time, each container (10) has its container surface portion (10b) facing another container (10) arranged adjacently in the length direction (±y direction), height direction (±z direction), and width direction (±x direction) removed, separated, or opened so that the interiors are interconnected.
[0216] Multiple containers (10) are arranged adjacently in the length direction (±y direction), height direction (±z direction) and width direction (±x direction) so that their interiors are connected to each other, thereby allowing a large number of drying objects (18) to be dried in batches or large-sized drying objects (18) to be dried.
[0217] The container modular far-infrared drying facility (1000) can efficiently perform drying operations without being constrained by the size of the object to be dried (18) while having high mobility by connecting the interiors of multiple containers (10) to each other to form a large space where drying operations are performed.
[0218] As described above, although the present invention has been explained with reference to preferred embodiments, a person skilled in the art may implement the present invention with various modifications or variations without departing from the spirit and scope of the invention as described in the following claims.
[0219] [Explanation of the symbol]
[0220] Main symbols of the drawing
[0221] 10: Container
[0222] 11: Door
[0223] 15: Far-infrared generator
[0224] 16: Upper rail
[0225] 16a: First upper rail
[0226] 16b: Second upper rail
[0227] 17: Mounting part
[0228] 19: Bottom rail
[0229] 19a: Inner lower rail
[0230] 19b: Bottom rail extension kit
[0231] 31: Control Panel Section
[0232] 50: Mobile Trolley
[0233] 1000: Container Modular Far-Infrared Drying Equipment
Claims
1. A container transportable by ship or vehicle; and A container modular far-infrared drying facility comprising a far-infrared generating device provided inside the container.
2. In Paragraph 1, An upper rail provided on the upper part of the container, wherein at least one end protrudes outside the container when a drying object is brought into or taken out of the container, and does not protrude outside the container when the container is transported; and A container modular far-infrared drying facility comprising a mounting part provided on the upper rail above.
3. In Paragraph 2, The upper rail mentioned above is, A first upper rail fixedly installed on the upper part of the above container; and A container modular far-infrared drying facility comprising: a second upper rail provided at the lower part of the first upper rail.
4. In Paragraph 3, The above-mentioned second upper rail is a container modular far-infrared drying facility capable of relative movement with respect to the above-mentioned first upper rail.
5. In Paragraph 3, The above-mentioned mounting portion is configured to be movable on the second upper rail, forming a container modular far-infrared drying facility.
6. In Paragraph 3, A container modular far-infrared drying facility comprising: a stopper provided on the first upper rail to limit the range of movement of the second upper rail.
7. In Paragraph 3, An upper hole provided in the first upper rail; A lower hole provided in the second upper rail; and A container modular far-infrared drying facility comprising a fixing pin inserted through the upper hole and the lower hole.
8. In Paragraph 3, A container modular far-infrared drying facility comprising: a hanging part provided on the second upper rail.
9. In Paragraph 1, A container modular far-infrared drying facility comprising: a control panel unit that supplies power to the far-infrared generating device and controls the far-infrared generating device.
10. In Paragraph 9, The above control panel section is a container modular far-infrared drying facility provided on the exterior of the container.
11. In Paragraph 9, The above control panel is equipped with wheels to enable movement, and the container modular far-infrared drying equipment.
12. In Paragraph 2, The upper rail mentioned above is, A container modular far-infrared drying facility further comprising an additional rail detachably coupled to the end.
13. In Paragraph 2, The upper rail mentioned above is, A container modular far-infrared drying facility equipped in a telescopic form that can be withdrawn to the outside and inserted into the inside of the above container.
14. Container; A far-infrared generating device provided inside the above container; A lower rail provided at the bottom of the container, wherein at least one end protrudes outside the container when a drying object is brought into or taken out of the container, and does not protrude outside the container when the container is transported; and A container modular far-infrared drying facility comprising a movable trolley configured to be movable on the lower rail above.
15. In Paragraph 14, The above lower rail is, An inner lower rail provided inside the above container; and A lower rail extension kit that can be installed on the outside of the container, having a track of the same shape and height as the track of the inner lower rail; When the above-mentioned object to be dried is brought into or taken out of the container, the movable cart can move through the installed lower rail extension kit, and A container modular far-infrared drying facility in which the installed lower rail extension kit is disassembled to enable the transport of the container when transporting the container.
16. A plurality of containers arranged adjacently in at least one of the length direction, height direction and width direction, with the portions facing each other removed, separated, or open to communicate with each other; and A container modular far-infrared drying facility comprising: a far-infrared generating device provided inside at least one of the plurality of containers.
17. In Paragraph 16, A container modular far-infrared drying facility comprising: an upper rail provided on the upper portion of at least one of the plurality of containers, wherein at least one end protrudes to the outside of the container when a drying object is introduced into or withdrawn from the container, and does not protrude to the outside of the container when the container is transported.
18. In Paragraph 16, A container modular far-infrared drying facility comprising: a lower rail provided at the bottom of at least one of the plurality of containers, wherein at least one end protrudes outside the container when a drying object is introduced into or withdrawn from the container, and does not protrude outside the container when transporting the container.