A detachable humic acid wood pulp modular drying device

Abstract

The utility model provides a detachable humic acid wood pulp modular drying device, include: drying assembly, a plurality of drying module boxes for placing humic acid wood pulp to dry are movably installed in the inside of drying assembly, the front side, back side symmetry of drying assembly is provided with a plurality of dismouting for installing and disassembling drying module box, the left side of every dismouting is hinged with a sealing door, the upper side of drying assembly is installed with a plurality of heating module for providing drying heat source wind, compared with prior art, the utility model has the following beneficial effects: through setting up drying assembly, the conventional method through manual disassembly or local reconstruction realizes maintenance and cleaning and is easy to cause the part damage, shortens the equipment life problem, through setting up drying module box, modular drying module box can be disassembled at any time, help to promote the use flexibility of equipment and the subsequent maintenance convenience.

Description

Technical Field

[0001] This utility model belongs to the technical field of drying equipment, and specifically relates to a modular drying device for detachable humic acid wood pulp. Background Technology

[0002] Existing humic acid wood pulp drying equipment suffers from numerous shortcomings in its modular and detachable design, primarily manifested in complex structure, difficult maintenance, and poor adaptability. Due to the low degree of modularity, the tightly connected functional units hinder rapid disassembly and replacement, leading to time-consuming and labor-intensive maintenance and cleaning processes, thus impacting production efficiency. Furthermore, the fixed installation of some components and the lack of standardized interfaces result in poor module interchangeability, increasing the difficulty of equipment upgrades and expansions. These shortcomings stem mainly from outdated design concepts that fail to adequately consider maintenance and flexibility requirements throughout the equipment's entire lifecycle.

[0003] To address the aforementioned issues, conventional methods typically involve manual disassembly or partial modifications for maintenance and cleaning. However, these methods are prone to damaging components and shortening equipment lifespan. Furthermore, partial modifications often fail to meet the adaptability requirements of different operating conditions, leading to decreased equipment performance and insufficient operational stability. Therefore, we aim to design a drying device with a novel structure to solve this problem. Utility Model Content

[0004] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a detachable modular drying device for humic acid wood pulp, so as to solve the problems mentioned in the background technology.

[0005] This utility model is achieved through the following technical solution: a detachable modular drying device for humic acid wood pulp, comprising: a drying component, wherein multiple drying module boxes for placing humic acid wood pulp for drying are movably installed inside the drying component, multiple disassembly ports for installing and disassembling the drying module boxes are symmetrically arranged on the front and rear sides of the drying component, and a sealing door is hinged to the left side of each disassembly port, and multiple heating modules for providing drying heat source air are installed at equal intervals on the upper side of the drying component;

[0006] The drying module box includes a frame, and multiple storage boxes for holding humic acid wood pulp are movably inserted inside the frame. Each storage box has multiple stirring components for stirring the humic acid wood pulp rotatably installed inside it.

[0007] In a preferred embodiment, the interior of the drying assembly is connected from left to right. An exhaust pipe for discharging hot and humid air is installed on the upper left side of the drying assembly and connected to an external preheating and recovery device for preheating and recovering the incoming air. In actual use, multiple drying modules are placed inside the drying assembly, and hot air can pass through the middle of each drying module box, so that the hot air inside the drying assembly can move from left to right.

[0008] In a preferred embodiment, each set of front and rear disassembly ports is located inside the drying assembly and has two fixed positioning guide grooves in the front-to-back direction for positioning and guiding the drying module boxes. In actual use, multiple drying module boxes are movably inserted into the drying assembly through the positioning guide grooves, which gives the multiple drying module boxes the characteristics of quick installation and disassembly, and facilitates subsequent cleaning and maintenance of the drying module boxes and the interior of the drying assembly.

[0009] In a preferred embodiment, the rear interior of the drying assembly is provided with a plurality of driven shafts for driving the agitator to rotate via a mounting plate. The front side of each driven shaft is recessed to form a splined shaft groove, and the rear sides of the plurality of driven shafts are interconnected by gears and a plurality of chains.

[0010] In a preferred embodiment, the bottom and top of the frame are both formed through-cavities from right to left for hot air to enter, and the bottom and top of the frame are provided with multiple evenly distributed through holes for communicating with the upper and lower through-cavities.

[0011] In a preferred embodiment, the frame is provided with a plurality of support rods on the left and right sides, and each support rod has a screw knob threaded to its outer wall for temporarily fixing the storage box. Each support rod has a support lug on its inner wall for inserting the storage box, and the storage box has an insert strip on its left and right sides, the cross-sectional dimensions and structure of which match the cross-sectional dimensions and structure of the slot reserved in the support lug.

[0012] In a preferred embodiment, the stirring component includes a rotating shaft, and the outer wall of the rotating shaft is provided with multiple sets of stirring plates for stirring the humic acid wood pulp in the storage box to accelerate drying.

[0013] In a preferred embodiment, the rear end of the rotating shaft is equipped with a splined shaft via a coupling for insertion connection with the splined shaft groove on the front side of the driven shaft. The number of rotating shafts is the same as the number of driven shafts and their distribution positions are matched.

[0014] After adopting the above technical solution, the beneficial effects of this utility model are as follows: 1. By setting up a drying component, and by setting disassembly and assembly ports on both the front and rear sides of the drying component, and installing positioning guide grooves for guiding and positioning the drying module box at the corresponding disassembly port positions, when it is necessary to disassemble or install the drying module box, simply open the sealing door and insert it into the corresponding position or pull it out. In use, after the drying module is installed, close the sealing door, inject the humic acid wood pulp into the storage box of the drying module, and then start the heating module to stir, heat and dry the humic acid wood pulp. This solves the problem that conventional methods of maintenance and cleaning through manual disassembly or partial modification are prone to damage to components and shorten the service life of equipment.

[0015] 2. By setting up a drying module box, when drying humic acid wood pulp, multiple driven shafts on the drying component rotate under the drive of chains and motors, which in turn drive the agitator to rotate. This causes multiple agitator plates on the rotating shaft to stir the humic acid wood pulp in the storage box, which facilitates and accelerates the drying speed of the humic acid wood pulp. The modular drying module box can be disassembled at any time, which helps to improve the flexibility of equipment use and the convenience of subsequent maintenance. Attached Figure Description

[0016] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0017] Figure 1 This is a schematic diagram of the overall structure of a modular drying device for detachable humic acid wood pulp according to this utility model.

[0018] Figure 2 for Figure 1 A magnified diagram of point A in the middle.

[0019] Figure 3 This is a schematic diagram of the drying module box of a detachable modular drying device for humic acid wood pulp according to this utility model.

[0020] Figure 4 This is a schematic diagram of the stirring component of a detachable modular drying device for humic acid wood pulp according to this utility model.

[0021] In the diagram, 100 is the drying component, 110 is the disassembly port, 120 is the sealing door, 130 is the heating module, 140 is the exhaust pipe, and 150 is the positioning guide groove.

[0022] 200-Drying module box, 210-Frame, 211-Through cavity, 212-Through hole, 213-Support rod, 220-Storage box, 230-Agitator, 231-Rotating shaft, 232-Agitator plate. Detailed Implementation

[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0024] As the first embodiment of this utility model:

[0025] Please see Figures 1 to 4 A detachable modular drying device for humic acid wood pulp includes: a drying component 100, with multiple drying module boxes 200 for placing humic acid wood pulp for drying installed inside the drying component 100; multiple disassembly ports 110 for installing and disassembling the drying module boxes 200 are symmetrically arranged on the front and rear sides of the drying component 100; a sealing door 120 is hinged to the left side of each disassembly port 110; and multiple heating modules 130 for providing drying heat source air are installed at equal intervals on the upper side of the drying component 100.

[0026] The drying module box 200 includes a frame 210, and multiple storage boxes 220 for holding humic acid wood pulp are movably inserted inside the frame 210. Each storage box 220 has multiple stirring pieces 230 for stirring humic acid wood pulp rotatably installed inside it.

[0027] The interior of the drying assembly 100 is connected from left to right. An exhaust pipe 140 for discharging hot and humid air is installed on the upper left side of the drying assembly 100 and connected to an external preheating and recovery device for preheating and recovering the incoming air. In actual use, multiple drying modules are placed inside the drying assembly 100, and hot air can pass through the middle of each drying module box 200, so that the hot air inside the drying assembly 100 can move from left to right.

[0028] Each set of front and rear disassembly ports 110 is located inside the drying assembly 100 and has two fixed positioning guide grooves 150 in the front-to-back direction for positioning and guiding the drying module box 200. In actual use, multiple drying module boxes 200 are movably inserted into the drying assembly 100 through the positioning guide grooves 150, which gives the multiple drying module boxes 200 the characteristics of quick installation and disassembly, and facilitates subsequent cleaning and maintenance of the drying module boxes 200 and the interior of the drying assembly 100.

[0029] The rear interior of the drying assembly 100 is provided with multiple driven shafts for driving the agitator 230 to rotate via a mounting plate. The front side of each driven shaft is recessed to form a spline shaft groove. The rear sides of the multiple driven shafts are interconnected by gears and multiple chains.

[0030] Specifically, by setting up the drying assembly 100, in actual use, disassembly ports 110 are provided on both the front and rear sides of the drying assembly 100 (the rear disassembly port 110 is used for subsequent maintenance and repair, and the front disassembly port 110 is used for installing and disassembling the drying module box 200). Positioning guide grooves 150 are installed at the corresponding disassembly port positions to guide and position the drying module box 200. When it is necessary to disassemble or install the drying module box 200, simply open the sealing door 120 and insert it into the corresponding position or pull it out. During use, after the drying module is installed, the sealing door 120 can be closed, and humic acid wood pulp can be injected into the drying module. The humic acid wood pulp is injected into the storage box 220 (a humic acid wood pulp conveying pipe can be set on the rear side of the drying component 100, and the conveying volume of humic acid wood pulp in the outlet pipe is controlled by a solenoid valve. The outlet pipe extends to the upper rear side of the storage box 220, and its outlet pipe is set in the same vertical position as the disassembly port 110, and the number is the same as that of the storage box 220. This technology is a conventional technology, and the specific structure and working principle will not be described in detail here). Then the heating module 130 can be started to stir, heat and dry the humic acid wood pulp. This solves the problem that conventional methods of maintenance and cleaning through manual disassembly or partial modification are prone to damage to parts and shorten the service life of equipment.

[0031] As a second embodiment of this utility model:

[0032] Please see Figures 1 to 4 The bottom and top of the frame 210 are both through-cavities 211 formed from right to left for hot air to enter. The bottom and top of the frame 210 are provided with multiple evenly distributed through holes 212 for communicating with the upper and lower through-cavities 211.

[0033] The frame 210 has multiple support rods 213 on its left and right sides. Each support rod 213 has a screw knob threaded to its outer wall for temporarily fixing the storage box 220. Each support rod 213 has a support lug on its inner wall for inserting the storage box 220. The storage box 220 has an insert strip on its left and right sides for inserting. The cross-sectional dimensions and structure of the insert strip match the cross-sectional dimensions and structure of the slot reserved in the support lug.

[0034] The stirring component 230 includes a rotating shaft 231, and the outer wall of the rotating shaft 231 is provided with multiple sets of stirring plates 232 for stirring the humic acid wood pulp in the storage box 220 to accelerate drying.

[0035] The rear end of the rotating shaft 231 is equipped with a splined shaft via a coupling for insertion connection with the splined shaft groove on the front side of the driven shaft. The number of rotating shafts 231 is the same as the number of driven shafts and their distribution positions match.

[0036] Based on the first embodiment described above, further, by setting up the drying module box 200, in actual use, since the rear end of the rotating shaft 231 is equipped with a spline shaft through a coupling for insertion connection with the spline shaft groove on the front side of the driven shaft, the number of rotating shafts 231 is the same as the number of driven shafts and their distribution positions match. When drying humic acid wood pulp, the multiple driven shafts on the drying assembly 100 rotate under the drive of the chain and motor, thereby driving the stirring component 230 to rotate, so that the multiple stirring plates 232 on the rotating shaft 231 agitate the humic acid wood pulp in the storage box, which facilitates accelerating the drying speed of humic acid wood pulp. The modular drying module box 200 can be disassembled at any time, which helps to improve the flexibility of equipment use and the convenience of subsequent maintenance.

[0037] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A modular drying device for detachable humic acid wood pulp, comprising: A drying assembly (100) is characterized in that a plurality of drying module boxes (200) for placing humic acid wood pulp for drying are movably installed inside the drying assembly (100), a plurality of disassembly ports (110) for installing and disassembling the drying module boxes (200) are symmetrically arranged on the front and rear sides of the drying assembly (100), and a sealing door (120) is hinged to the left side of each disassembly port (110), and a plurality of heating modules (130) for providing drying heat source air are installed at equal intervals on the upper side of the drying assembly (100). The drying module box (200) includes a frame (210), and multiple storage boxes (220) for holding humic acid wood pulp are movably inserted inside the frame (210). Each storage box (220) has multiple stirring components (230) for stirring humic acid wood pulp rotatably installed inside it.

2. The modular detachable humic acid wood pulp drying device as described in claim 1, characterized in that: The interior of the drying assembly (100) is connected from left to right. An exhaust pipe (140) for discharging hot and humid air is installed on the upper left side of the drying assembly (100) and connected to an external preheating recovery device for preheating and recovering the incoming air.

3. The modular detachable humic acid wood pulp drying device as described in claim 1, characterized in that: Each set of front and rear disassembly ports (110) is located inside the drying assembly (100) and has two fixed positioning guide grooves (150) in the front and rear direction for positioning and guiding the drying module box (200).

4. The modular detachable humic acid wood pulp drying device as described in claim 1, characterized in that: The rear interior of the drying assembly (100) is provided with a plurality of driven shafts for driving the stirring component (230) to rotate via a mounting plate. The front side of each driven shaft is recessed to form a spline shaft groove. The rear sides of the plurality of driven shafts are interconnected with each other via gears and chains.

5. A modular detachable humic acid wood pulp drying device as described in claim 1, characterized in that: The bottom and top of the frame (210) are both through-cavities (211) formed from right to left for hot air to enter. The bottom and top of the frame (210) are provided with multiple evenly distributed through holes (212) for communicating with the upper and lower through-cavities (211).

6. The modular drying device for detachable humic acid wood pulp as described in claim 1, characterized in that: The frame (210) has multiple support rods (213) on its left and right sides respectively. Each support rod (213) has a screw knob threaded to its outer wall for temporarily fixing the storage box (220). Each support rod (213) has a support lug on its inner wall for inserting the storage box (220). The storage box (220) has an insert strip on its left and right sides respectively. The cross-sectional dimensions and structure of the insert strip match the cross-sectional dimensions and structure of the slot reserved in the support lug.

7. A modular detachable humic acid wood pulp drying device as described in claim 4, characterized in that: The stirring component (230) includes a rotating shaft (231), and the outer wall of the rotating shaft (231) is provided with multiple sets of stirring plates (232) for stirring the humic acid wood pulp in the storage box (220) to accelerate drying.

8. A modular detachable humic acid wood pulp drying device as described in claim 7, characterized in that: The rear end of the rotating shaft (231) is equipped with a spline shaft via a coupling for insertion connection with the spline shaft groove on the front side of the driven shaft. The number of rotating shafts (231) is the same as the number of driven shafts and their distribution positions match.

Images