Ironing apparatus and application thereof
Ironing equipment that combines steam unit and high-speed airflow unit achieves contactless automatic ironing, solving the problems of high technical requirements, time-consuming and labor-intensive, and safety hazards of traditional ironing methods, and providing an efficient and safe ironing solution.
Patent Information
- Authority / Receiving Office
- WO · WO
- Patent Type
- Applications
- Current Assignee / Owner
- SHENZHEN HOOEBY TECHNOLOGY CO LTD
- Filing Date
- 2024-12-27
- Publication Date
- 2026-07-02
Smart Images

Figure CN2024143267_02072026_PF_FP_ABST
Abstract
Description
Ironing equipment and its applications Technical Field
[0001] This invention belongs to the field of electrical equipment technology, specifically relating to an ironing device and its application. Background Technology
[0002] In today's fast-paced life, people have consistently high demands for the neatness and appearance of their clothing. Whether it's for business, everyday social occasions, or special events, smooth, wrinkle-free clothing leaves a good impression. Ironing, as a key process for restoring the smoothness of clothing and eliminating wrinkles, plays a crucial role in people's daily lives and the clothing industry.
[0003] Traditionally, ironing methods have been mainly divided into two categories: steam garment steaming and flat ironing. Steam garment steamers generate high-temperature steam, which penetrates the fabric fibers to smooth out wrinkles. This process requires the user to hold the steamer nozzle, manually operate it, and control the ironing intensity of different parts of the garment throughout the process. Flat irons, on the other hand, rely on a heated metal soleplate to directly contact the surface of the garment, using high temperature to flatten wrinkles. This also requires manual movement of the iron across the garment.
[0004] However, these two mainstream traditional ironing methods have revealed many insurmountable drawbacks. On the one hand, the manual operation is complex and requires a high level of professional ironing skills from the user. Ordinary consumers, lacking sufficient experience and skills, are prone to making mistakes during the ironing process. For example, improper temperature control or inaccurate ironing time can lead to burns, discoloration, shine, or even damage to the fabric, rendering the garment unusable. When dealing with delicate materials such as silk and lace, or fabrics like wool that are extremely sensitive to temperature, even slight carelessness can cause irreversible damage. According to relevant market research statistics, over 70% of households damage at least 3-5 garments annually when ironing their own clothes, resulting in unnecessary economic losses. In commercial settings such as clothing stores and dry cleaners, the garment damage rate is even higher, reaching 10%-15%, due to the varying ironing skills of employees.
[0005] On the other hand, traditional ironing is time-consuming and laborious. Ironing an ordinary shirt typically takes 10-15 minutes with a steam iron and 8-12 minutes with a flat iron. For more complex garments like suits and coats made of thick fabrics, it's common to spend over half an hour. In today's fast-paced lifestyle and efficient business operations, this lengthy ironing time is a major pain point, affecting not only personal daily routines but also limiting the efficiency and turnover rate of clothing stores.
[0006] Even more serious is the fact that both steam ironing and flat ironing pose significant safety hazards. High-temperature steam and a scorching hot metal soleplate can easily burn the user's hands, face, and other body parts. Furthermore, equipment malfunctions or improper use leading to large steam leaks or short circuits causing electrical sparks can also cause fires, endangering life and property. Fire department data shows that small fires caused by improper use of ironing equipment are on the rise every year, posing a considerable safety threat.
[0007] With the rapid development of technology, consumption upgrades, and increased safety awareness, the market urgently needs a revolutionary ironing solution that can eliminate complex and difficult manual operations, reduce reliance on professional skills, significantly shorten ironing time to meet the needs of a fast-paced lifestyle, completely eliminate safety hazards such as burns and fires, and meet the diverse ironing requirements of various clothing fabrics. Summary of the Invention
[0008] In order to overcome the shortcomings of the prior art, the present invention provides an ironing device and its application.
[0009] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:
[0010] Ironing equipment, used for ironing textile materials, including:
[0011] Support frame;
[0012] The main body, mounted on a support frame, includes a main housing, a steam unit, a high-speed airflow unit, and a care frame unit. The care frame unit contains a textile material holding area. The steam unit, high-speed airflow unit, and care frame unit are all connected to the main housing. The main body moves relative to the textile material. The steam unit generates steam and delivers it to the care frame unit. The high-speed airflow unit creates cooling channels to cool the interior of the main housing and also generates high-speed airflow that is delivered to the care frame unit. The care frame unit receives steam and sprays it onto the textile material in the textile material holding area. It also receives high-speed airflow and sprays it onto the textile material in the textile material holding area. The care frame unit includes a care frame... The unit comprises an upper shell and a lower shell for the care frame. The upper shell is connected to the lower shell, and both are connected to the main housing. A hollow area is provided between the upper and lower shells for the care frame, which serves as a container for textile materials. The care frame unit is equipped with at least one steam nozzle and at least one set of high-speed airflow nozzles. The high-speed airflow nozzle set includes a first high-speed airflow nozzle and a second high-speed airflow nozzle. The steam nozzle is positioned facing the hollow area. Both the first and second high-speed airflow nozzles are positioned facing the hollow area and are arranged opposite to each other. The steam nozzle is connected to a steam unit. Both the first and second high-speed airflow nozzles are connected to a high-speed airflow unit. Both the first and second high-speed airflow nozzles are inclined.
[0013] Preferably, the nursing frame unit further includes a diversion section, which is disposed on the side of the lower shell of the nursing frame near the main body, and is used to divert high-speed airflow.
[0014] Preferably, the lower shell of the nursing frame is rotatably connected to the main housing via a nursing frame positioning component, which is used to position the lower shell of the nursing frame.
[0015] Preferably, the nursing frame unit includes a nursing frame inner hose, a nursing frame inner hose fixing bracket, and a nursing frame inner hose support member. One end of the nursing frame inner hose extends into the main unit housing, and the other end of the nursing frame inner hose is clamped between the upper and lower housings of the nursing frame through the nursing frame inner hose fixing bracket. The nursing frame inner hose support member is disposed inside the nursing frame inner hose on the side near the nursing frame inner hose fixing bracket.
[0016] Preferably, the lower shell of the nursing frame is annular, and includes a first extension, a connecting part, a second extension, and an arc-shaped part connected in sequence. The connecting part is connected to the main housing. The first extension and the second extension are arranged opposite to each other, and the connecting part and the arc-shaped part are arranged opposite to each other. The nursing frame unit includes a first steam pipe and a second steam pipe, both of which are connected to a steam unit. The first steam pipe and the second steam pipe are each provided with at least one steam nozzle. The first extension and the second extension are each provided with a plurality of air distribution plates. The connecting part and the arc-shaped part are each provided with a snap-fit position. One end of the first steam pipe is located in the snap-fit position of the connecting part, and the other end of the first steam pipe passes through the plurality of air distribution plates of the first extension and extends into the snap-fit position of the arc-shaped part. One end of the second steam pipe is located in the snap-fit position of the connecting part, and the other end of the second steam pipe passes through the plurality of air distribution plates of the second extension and extends into the snap-fit position of the arc-shaped part.
[0017] Preferably, the first extension and the second extension are each provided with at least one steam outlet groove, the steam outlet grooves are provided in a one-to-one correspondence with the steam nozzles, and the side of the steam outlet groove near the hollow area is provided with an inclined surface.
[0018] Preferably, the first extension and the second extension are respectively provided with high-speed airflow channel grooves. One end of the high-speed airflow channel groove extends into the connecting part and is connected to the high-speed airflow unit. The other end of the high-speed airflow channel groove is not connected to the arc-shaped part. The air distribution plate is arranged on the side of the high-speed airflow channel groove near the hollow area. The first high-speed airflow nozzle is arranged on the first extension and the second high-speed airflow nozzle is arranged on the second extension. Both the first high-speed airflow nozzle and the second high-speed airflow nozzle are connected to the high-speed airflow channel groove and are located below the steam nozzle.
[0019] Preferably, the connecting part and the arc-shaped part are respectively provided with through-beam sensors, and the through-beam sensors of the connecting part and the arc-shaped part are located on the same straight line and the straight line is not perpendicular to the rod of the support frame.
[0020] Preferably, the bottom sides of the first extension and the second extension are respectively provided with a plurality of lamps.
[0021] Preferably, the steam unit includes a water tank, a water pump, a steam generator, and an adapter. The water tank is mounted on the main housing and extends out of the main housing. The water tank has a water inlet. The water pump is connected to both the water tank and the steam generator. The adapter is connected to both the steam generator and the steam nozzle.
[0022] Preferably, the high-speed airflow unit includes a high-speed fan and a rubber air duct. Both the high-speed fan and the rubber air duct are housed inside the main unit housing. An air inlet is provided at the bottom of the main unit housing on the side away from the high-speed fan. The high-speed fan is connected to the rubber air duct, and the rubber air duct is connected to a first high-speed airflow nozzle and a second high-speed airflow nozzle. A control board is provided inside the main unit housing. A negative ion emitter is connected inside the high-speed fan. A negative ion generator is connected to the control board, and the negative ion generator is connected to the negative ion emitter.
[0023] Preferably, the lower side of the high-speed fan is mounted inside the main housing via three evenly distributed fan foot pads, and the upper part of the high-speed fan is mounted inside the main housing via four evenly distributed fan fixing rubber parts.
[0024] Preferably, it also includes a drive unit, which is disposed inside the main housing and is used to drive the main housing to move along the support frame.
[0025] Preferably, the drive unit includes a drive gearbox, a drive motor, a guide wheel assembly, a drive gear set, a drive track, and a position sensor. The drive gearbox is sleeved on the support frame's rod. The drive motor, guide wheel assembly, drive gear set, and drive track are all housed within the drive gearbox. The guide wheel assembly is located on one side of the support frame's rod, and the drive gear set is located on the other side of the support frame's rod. The drive track is sleeved on the drive gear set and is in contact with the support frame's rod. The drive motor is connected to the drive gear set, and the position sensor is located on the drive gearbox and faces the textile material holding area.
[0026] Preferably, the support frame has a protruding part at the top of the rod, which is rotatably connected to the support frame. The protruding part is provided with a textile material suspension part, and the two ends of the textile material suspension part are telescopically connected with a first telescopic part and a second telescopic part. The end of the support frame is connected to a base connector, and the base connector is provided with a movable wheel.
[0027] Preferably, the support frame has a protruding part at the top of the rod, which is rotatably connected to the support frame. The protruding part is provided with a textile material suspension part, and the two ends of the textile material suspension part are telescopically connected with a first telescopic part and a second telescopic part. The top and bottom of the support frame are respectively provided with fixing parts.
[0028] Preferably, it also includes a handheld steam injection assembly, which includes a handheld steam injection handle, a handheld steam injection nozzle, and a handle connector. The handheld steam injection nozzle is connected to the handheld steam injection handle, one end of the handle connector is connected to the handheld steam injection handle, and the other end of the handle connector passes through the main housing and is detachably connected to the steam unit.
[0029] Preferably, it also includes a textile material clip, which is used to hold textile materials.
[0030] Preferably, the air inlet is equipped with a filter and a fragrance device, the filter being used to filter the air.
[0031] The present invention also discloses the application of the above-mentioned ironing equipment in chemical fiber products and natural fiber products.
[0032] By adopting the above technical solution, the present invention has the following beneficial effects:
[0033] (1) The present invention is provided with a steam unit, a high-speed airflow unit and a care rack unit, which can be used in conjunction with each other. The steam unit generates steam and delivers it to the care rack unit and sprays it onto the textile material through the care rack unit, which steams and moistens the textile material at high temperature, making the textile material soft. The high-speed airflow unit can generate high-temperature and high-speed negative ion airflow and spray high-pressure air through the care rack unit to flatten and smooth the textile material and dry it, which is equivalent to ironing. During this process, the care rack unit does not come into contact with the textile material, and the textile material will not be damaged due to improper temperature control or inaccurate ironing time. The textile material will not be burned, discolored, shiny or even scrapped.
[0034] (2) In this invention, simply hanging the textile material is sufficient to automatically complete the wetting, care, ironing, flattening and drying of the textile material, which is easy to operate;
[0035] (3) The present invention, by combining a steam unit with a high-speed negative ion airflow unit, can quickly complete the care and smoothing drying of textile materials, with high efficiency and short time.
[0036] (4) The lower shell of the nursing frame of the present invention is rotatably connected to the main shell through the nursing frame positioning component, and the protrusion is rotatably connected to the support frame. When in use, the lower shell of the nursing frame and the protrusion can be opened. When not in use, the lower shell of the nursing frame and the protrusion can be rotated and folded to complete the storage and save space.
[0037] (5) An air inlet is provided at the bottom of the main housing of the present invention on the side away from the high-speed fan. In specific use, the present invention takes in air through the air inlet and then enters the main housing. The air entering the main housing flows in the main housing and finally approaches the high-speed fan. During this process, the components in the main housing can be cooled by air, which is convenient to reduce the overall working temperature of the present invention and extend its service life.
[0038] (6) The first high-speed airflow nozzle and the second high-speed airflow nozzle of the present invention are arranged opposite to each other and at an angle. In specific use, they can work together on the textile material, which makes it easier to flatten and dry the textile material as much as possible from top to bottom and quickly, without causing the textile material to shake.
[0039] (7) The support frame of the present invention can be moved to a different position by means of a base connector and a moving wheel, and can also be fixed to a wall by means of a fastener, offering a variety of options;
[0040] (8) The present invention also includes a handheld steam injection component for easy handheld steam injection;
[0041] In summary, this invention has the advantages of high efficiency, no damage to textile materials, simple operation, and no contact with textile materials. Attached Figure Description
[0042] Figure 1 is a schematic diagram of the structure of the present invention;
[0043] Figure 2 is an exploded view of Figure 1;
[0044] Figure 3 is a structural schematic diagram of the nursing frame unit of the present invention;
[0045] Figure 4 is an exploded view of Figure 3;
[0046] Figure 5 is a schematic diagram of the structure of the lower shell of the nursing frame of the present invention;
[0047] Figure 6 is a structural schematic diagram of Figure 5 from another direction;
[0048] Figure 7 is a magnified view of part A in Figure 6;
[0049] Figure 8 is a structural schematic diagram of the main body of the present invention with the nursing frame unit removed;
[0050] Figure 9 is an exploded view of Figure 8;
[0051] Figure 10 is a structural schematic diagram of Figure 9 from another direction;
[0052] Figure 11 is an exploded view of the driving unit of the present invention;
[0053] Figure 12 is a schematic diagram of the support frame in another embodiment of the present invention;
[0054] Figure 13 is a structural schematic diagram of the textile material clip of the present invention;
[0055] The components include: a support frame 1, a main body 2, an upper casing of the main unit 3, a lower casing of the main unit 4, a control board 5, a textile material holding area 6, an upper casing of the care frame 7, a lower casing of the care frame 8, a steam nozzle 9, a first high-speed airflow nozzle 10, a second high-speed airflow nozzle 11, a diverter 12, a care frame positioning component 13, an inner hose of the care frame 14, an inner hose fixing bracket of the care frame 15, an inner hose support component of the care frame 16, a first extension 17, a connecting part 18, a second extension 19, an arc-shaped part 20, a first steam pipe 21, a second steam pipe 22, an air distribution plate 23, a snap-fit position 24, a steam outlet slot 25, a high-speed airflow channel slot 26, a through-beam sensor 27, a rod 28, and a lamp 29. Water tank 30, water pump 31, steam generator 32, adapter 33, steam generator mounting parts 34, high-speed fan 36, rubber air duct 37, air inlet 38, filter device 39, fan foot pad 40, fan fixing rubber parts 41, gearbox 42, drive motor 43, guide wheel 44, drive gear 45, drive track 46, extension part 47, textile material suspension part 48, first telescopic part 49, second telescopic part 50, base connector 51, moving wheel 52, auxiliary circuit board 53, knob 54, knob encoder 55, fixing part 56, handheld steam injection handle 57, handheld steam injection nozzle 58, handle connector 59, textile material clamp 60. Detailed Implementation
[0056] The technical solution of the present invention will now be clearly and completely described with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments.
[0057] The components of the embodiments of the invention described and shown in the accompanying drawings can typically be arranged and designed in a variety of different configurations. Therefore, the following detailed description of the embodiments of the invention provided in the drawings is not intended to limit the scope of the claimed invention, but merely to illustrate selected embodiments of the invention.
[0058] Based on the embodiments of this invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this invention.
[0059] In the description of this invention, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing the invention and for simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.
[0060] In the description of this invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this invention based on the specific circumstances.
[0061] Example 1
[0062] In this embodiment, an ironing device is proposed that can wet, flatten, and dry textile materials without contact with them (i.e., ironing).
[0063] As shown in Figures 1-11 and 13, in one embodiment of the present invention, the ironing device of the present invention includes a support frame 1 and a main body 2. The main body 2 is disposed on the support frame 1 and includes a main housing, a steam unit, a high-speed airflow unit, and a care rack unit. The main housing can be divided into an upper main housing 3 and a lower main housing 4. The upper main housing 3 and the lower main housing 4 are adapted to each other so that the upper main housing 3 is fastened to the lower main housing 4. A control board 5 and other structures can also be disposed inside the main housing. The control board 5 can be connected to the steam unit and the high-speed airflow unit to complete the corresponding control. The care rack unit is provided with a textile material holding area 6, that is, the textile material can be located inside the care rack unit. The main body 2, high-speed airflow unit, and care frame unit are all connected to the main body housing. The main body 2 moves relative to the textile material. It is understood that the present invention does not limit the relative displacement process of the main body 2 and the textile material. It can be that the textile material does not move and the main body 2 moves relative to the textile material, or the main body 2 does not move and the textile material moves relative to the main body 2. That is, as long as the textile material moves within the textile material holding area 6, it should be covered within the protection scope of the present invention (that is, the textile material holding area 6 moves relative to the textile material or the textile material moves relative to the textile material holding area 6). The textile material in the present invention includes chemical fiber products and natural fiber products.
[0064] The steam unit generates steam and delivers it to the care rack unit. The high-speed airflow unit generates a cooling channel to cool the interior of the main housing. The high-speed airflow unit also generates a high-speed airflow and delivers it to the care rack unit. The care rack unit receives the steam and sprays it onto the textile material in the textile material holding area 6. The care rack unit also receives the high-speed airflow and sprays it onto the textile material in the textile material holding area 6. The care rack unit includes an upper care rack shell 7 and a lower care rack shell 8. The upper care rack shell 7 is connected to the lower care rack shell 8, and both the upper and lower care rack shells are connected to the main housing. A hollow area is provided between the lower shells 8 and the hollow area is a textile material holding area 6. The nursing frame unit is provided with at least one steam nozzle 9 and at least one set of high-speed airflow nozzles. The high-speed airflow nozzles include a first high-speed airflow nozzle 10 and a second high-speed airflow nozzle 11. The steam nozzle 9 is arranged facing the hollow area. The first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11 are both arranged facing the hollow area and are arranged opposite to each other. The steam nozzle 9 is connected to the steam unit. The first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11 are both connected to the high-speed airflow unit. The first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11 are both arranged at an angle.
[0065] In this embodiment, the textile material is placed in the textile material holding area 6 (or in a hollowed-out area). Then, the steam unit generates steam and sprays it out through the steam nozzle 9 on the care frame unit. The steam nozzle 9 is responsible for wetting the textile material in the textile material holding area 6 with steam, ensuring complete steam penetration. In this embodiment, the textile material can be manually moved up and down within the textile material holding area 6 to wet it. Then, the high-speed airflow unit is activated. The high-speed airflow unit can spray the textile material through the first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11. To smooth and dry the textile material, in this embodiment, manual labor can be used to move the textile material back and forth within the textile material holding area 6 to smooth and dry it. In this embodiment, both the first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11 are inclined and opposite to each other. When the first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11 are opposite to each other and inclined, the textile material will not swing within the textile material holding area 6. If the first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11 are directly opposite each other, the textile material will swing in all directions, and the first high-speed airflow... The nozzle 10 and the second high-speed airflow nozzle 11 are positioned opposite each other and at an angle. The high-speed airflow will flatten and dry the textile material (similar to ironing). Both the first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11 can be tilted downwards at an angle of 30 to 60 degrees, specifically 45 degrees, to facilitate drying of the textile material. The nozzle size of the first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11 is small, preferably less than 0.5 mm, to blow out high-speed airflow for drying. In this invention, the high-speed fan can generate high-speed airflow, and the negative ion generator and negative ion emitter work together. It can generate negative ions. The heater inside the high-speed fan can heat the airflow. Finally, it passes through the first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11, which are not less than 0.4mm (such as 0.4~2mm), and is superimposed with an inclination angle of 30°~60°. The airflow can be high pressure, high temperature and high speed and has negative ions. The wind speed can reach 500~700 kilometers per hour. It can forcefully squeeze and pull textile materials in one direction to achieve the ability to iron clothes without contact. Negative ions can eliminate static electricity and make textile materials silky and soft. The high temperature steam has a certain sterilization and softening function.
[0066] Please refer to Figure 2. The nursing frame unit of the present invention also includes a diversion part 12. The diversion part 12 is disposed on the side of the lower shell 8 of the nursing frame near the main body 2. The diversion part 12 is used to divert high-speed airflow. The diversion part 12 is similar to an A-shape and the two sides of the A-shape are arc-shaped. The lower shell 8 of the nursing frame is rotatably connected to the main body shell through the nursing frame positioning member 13. The nursing frame positioning member 13 is used to position the lower shell 8 of the nursing frame. In specific use, the lower shell 8 of the nursing frame is rotatably connected to the main body shell. That is, when in use, the lower shell 8 of the nursing frame is extended. When not in use, the lower shell 8 of the nursing frame is rotated and retracted. Of course, the upper shell 7 of the nursing frame rotates together with the lower shell 8 of the nursing frame. At this time, the positioning is completed by the nursing frame positioning member 13, and the nursing frame is successfully retracted and will no longer rotate and shake randomly. When it needs to be unfolded for use, the nursing frame positioning member 13 can be released and the lower shell 8 of the nursing frame can be used normally.
[0067] The nursing frame unit of the present invention includes a nursing frame inner hose 14, a nursing frame inner hose fixing bracket 15, and a nursing frame inner hose support member 16. One end of the nursing frame inner hose 14 extends into the main unit housing, and the other end of the nursing frame inner hose 14 is clamped between the upper housing 7 and the lower housing 8 of the nursing frame through the nursing frame inner hose fixing bracket 15. The nursing frame inner hose support member 16 is disposed inside the nursing frame inner hose 14 near the nursing frame inner hose fixing bracket 15. The present invention relies on the nursing frame inner hose 14 to complete the connection with the high-speed airflow unit. The nursing frame inner hose support member 16 can support the nursing frame inner hose 14, and the nursing frame inner hose fixing bracket 15 facilitates the fixing of the nursing frame inner hose 14. The diversion pipe is close to the nursing frame inner hose 14 to complete the diversion of high-speed airflow. The nursing frame lower housing 8 is annular. In this embodiment, the nursing frame lower housing 8 can be understood as annular. The nursing frame lower housing 8 can also be configured as a U-shaped structure. Any simple shape transformation should be covered within the protection scope of the present invention. When the nursing frame lower housing 8 is annular, the nursing frame lower housing 8 includes sequentially connected The unit comprises a first extension 17, a connecting portion 18, a second extension 19, and an arc-shaped portion 20. The connecting portion 18 is connected to the main housing. The first extension 17 and the second extension 19 are arranged opposite to each other, and the connecting portion 18 is arranged opposite to the arc-shaped portion 20. The nursing frame unit includes a first steam pipe 21 and a second steam pipe 22, both of which are connected to a steam unit. At least one steam nozzle 9 is provided on each of the first steam pipe 21 and the second steam pipe 22. The first extension 17 and the second extension 19 are located within... Each part is provided with several air distribution plates 23. The connecting part 18 and the arc-shaped part 20 are respectively provided with snap-fit positions 24. One end of the first steam pipe 21 is set in the snap-fit position 24 of the connecting part 18, and the other end of the first steam pipe 21 passes through several air distribution plates 23 of the first extension part 17 and extends into the snap-fit position 24 of the arc-shaped part 20. One end of the second steam pipe 22 is set in the snap-fit position 24 of the connecting part 18, and the other end of the second steam pipe 22 passes through several air distribution plates 23 of the second extension part 19 and extends into the snap-fit position 24 of the arc-shaped part 20. The first steam pipe 21 and the second steam pipe 22 can be made of copper, plastic, other metals or high-temperature resistant materials. The design of the hose 14 inside the nursing frame is also convenient for rotating with the nursing frame upper shell 7 and the nursing frame lower shell 8 of the nursing frame unit.
[0068] In this invention, at least one steam outlet groove 25 is provided on the first extension 17 and the second extension 19 respectively. The steam outlet groove 25 is arranged in a one-to-one correspondence with the steam nozzle 9. The side of the steam outlet groove 25 near the hollow area is provided with an inclined surface to facilitate the spraying and discharge of steam. The first extension 17 and the second extension 19 are respectively provided with a high-speed airflow channel groove 26. One end of the high-speed airflow channel groove 26 extends into the connecting part 18 and is connected to the high-speed airflow unit. The other end of the high-speed airflow channel groove 26 is connected to the arc-shaped part 20. The air distribution plate 23 is not connected to each other and is located on one side of the high-speed airflow channel groove 26 near the hollow area. The first high-speed airflow nozzle 10 is located on the first extension 17 and the second high-speed airflow nozzle 11 is located on the second extension 19. Both the first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11 are connected to the high-speed airflow channel groove 26 and are located below the steam nozzle 9. The arrangement of the air distribution plate 23 is beneficial to separating the high-speed airflow, so that it is easy to spray out from the first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11.
[0069] The connecting part 18 and the arc-shaped part 20 of the present invention are respectively provided with through-beam sensors 27. The through-beam sensors 27 of the connecting part 18 and the arc-shaped part 20 are located on the same straight line and the straight line is not perpendicular to the rod 28 of the support frame 1. The through-beam sensor 27 may include a transmitting end and a receiving end. It is convenient to detect the size of the clothes when they are located on the same straight line. The transmitting end and receiving end of the through-beam sensor 27 are located on the same straight line but are not perpendicular to the rod 28 of the support frame 1, which is more conducive to detecting textile materials. When the textile material is located in the textile material holding area 6, it may be in front or behind. If the transmitting end and receiving end of the through-beam sensor 27 are set exactly in the middle of the connecting part 18 and the arc-shaped part 20, the textile material may not be detected. A plurality of lamps 29 are respectively provided on the bottom side of the first extension 17 and the second extension 19. The through-beam sensors 27 and the lamps 29 are all connected to the control board 5.
[0070] The above describes the specific structure of the nursing frame unit. The following will continue to describe the steam unit, high-speed airflow unit, drive unit and other components of the present invention with reference to Figures 1-11. Specifically, the steam unit includes a water tank 30, a water pump 31, a steam generator 32 and an adapter 33. The water tank 30 is mounted on the main housing and extends out of the main housing. The water tank 30 is provided with a water inlet. The water pump 31 is connected to the water tank 30 and the steam generator 32 respectively. The adapter 33 is connected to the steam generator 32 and the steam nozzle 9 respectively. When in use, the water pump 31 delivers the water in the water tank 30 to the steam generator 32. The steam generator 32 vaporizes the water and then delivers it out through the adapter 33, then to the first steam pipe 21 and the second steam pipe 22, and finally to the steam nozzle 9. The main housing is also provided with a steam generator mounting part 34. Two or more steam generators 32 can be provided. All steam generators 32 are installed in the steam generator mounting part 34.
[0071] The high-speed airflow unit includes a high-speed fan 36 and a rubber air duct 37, both housed within the main unit housing. An air inlet 38 is located at the bottom of the main unit housing on the side furthest from the high-speed fan 36. A filter device 39 and a fragrance device are installed at the air inlet 38. The filter device 39 filters the air, and the fragrance device emits fragrance, which is then carried by the airflow and ultimately ejected through the first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11. The filter device 39 can be a HEPA filter, capable of filtering impurities and dust from the air. The filter device 39 is detachably connected to the air inlet 38. The filter device 39 also... The high-speed airflow of the present invention can be set at each position through which it flows. The high-speed fan 36 is connected to the rubber air duct 37, which is connected to the first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11. The air inlet 38 is located on the side away from the high-speed fan 36. In use, air is drawn in through the air inlet 38, and then the airflow passes through various components (such as the control board 5) in the main housing before reaching the high-speed fan 36. The high-speed fan 36 blows the airflow to the rubber air duct 37, which is connected to the hose 14 inside the care frame. The airflow blown out by the high-speed fan 36 is diverted by the diversion part 12 to reach the high-speed airflow channel groove 26, and finally passes through the first high-speed airflow nozzle. The high-speed airflow is ejected from nozzle 10 and the second high-speed airflow nozzle 11. During this process, in order to ensure the stability of the high-speed fan 36 and reduce vibration and noise, the lower side of the high-speed fan 36 is provided with three evenly distributed fan foot pads 40 inside the main housing, and the upper part of the high-speed fan 36 is provided with four evenly distributed fan fixing rubber parts 41 inside the main housing. The fan foot pads 40 and the fan fixing rubber parts 41 are conducive to positioning the high-speed fan 36 and reducing vibration and noise. The high-speed fan 36 is connected to the control board 5, which can control the opening and closing of the high-speed fan 36 and its speed. In this invention, the high-speed fan 36 is also equipped with a turbocharging structure and a negative ion emitter. The control board 5 is connected to a negative ion generator. The turbocharger structure can effectively increase the wind pressure. The negative ion generator can control the generation of one or more negatively charged ions and then emit them through the negative ion emitter. The negative ion generator and the negative ion emitter can be connected to the control board 5, etc. The negative ion generator is connected to the negative ion emitter. These ions reach the textile material holding area 6 after passing through the first high-speed airflow nozzle 10 and the second high-speed airflow nozzle 11, which can remove dust and particles from the textile material and facilitate the purification of the textile material. The high-speed fan 36 of the present invention is also equipped with a heater that can divert and heat the high-pressure negative ions and pressurize them through the turbocharger structure.
[0072] The present invention also includes a drive unit, which is disposed within the main housing and is used to drive the main housing to move along the support frame 1. In this embodiment, the drive unit includes a drive gearbox 42, a drive motor 43, a set of guide wheels 44, a set of drive gears 45, a drive track 46, and a position sensor. The drive gearbox 42 is sleeved on the rod 28 of the support frame 1. The drive motor 43, the set of guide wheels 44, the set of drive gears 45, and the drive track 46 are all disposed within the drive gearbox 42. The set of guide wheels 44 is disposed on one side of the rod 28 of the support frame 1, and the set of drive gears 45 is disposed on the other side of the rod 28 of the support frame 1. The drive track 46 is sleeved on the set of drive gears 45 and is in contact with the rod 28 of the support frame 1. The drive motor 43 is connected to the drive gear set 45, which includes two or more drive gears 45. The guide wheel set 44 includes two or more guide wheels 44. The position sensor is set on the drive gear box 42 and faces the textile material holding area 6. In this embodiment, the drive track 46 presses against the rod 28 of the support frame 1, and then the drive motor 43 drives the main housing and various components on the main housing to move. The drive motor 43 and the position sensor are both connected to the control board 5. The position sensor is used to detect the vertical position of the textile material to determine the size of the textile material, which facilitates the subsequent determination of the vertical displacement distance of the main housing driven by the drive unit. Before the invention is used, it can be driven by the drive unit. The main housing and its various components move up and down. The size of the textile material is then determined by a position sensor and a through-beam sensor 27. The steam unit and high-speed airflow unit are then activated to wet, smooth, and dry the textile material. Specifically, the drive motor 43 and the position sensor are connected to the control board 5. The control board 5 controls the operation of the drive motor 43, and the position sensor provides feedback. Furthermore, in this embodiment, the support frame 1 has a protruding part 47 at its rod end, which is rotatably connected to the support frame 1. A textile material suspension part 48 is provided on the protruding part 47. The two ends of the textile material suspension part 48 are telescopically connected to a first telescopic part 49 and a second telescopic part 50. The end of the support frame 1 is connected to a base. The base connector 51 is equipped with casters 52. In practical use, the protruding part 47 can extend or rotate for storage, selectable according to needs. Furthermore, the invention can select and extend the first telescopic part 49 and the second telescopic part 50 according to the size of the textile material, facilitating the suspension of the textile material on the textile material suspension part 48. A counterweight can be installed on the base connector 51, and the invention can also be moved by the casters 52. The control board 5 of the invention can also be equipped with a wireless communication module, such as a WIFI module or Bluetooth module, enabling wireless communication control with electronic devices such as mobile phones. The main casing of the invention is also equipped with a wireless remote control, which is connected to the control board 5 of this application to achieve wireless communication control.The control board 5 of this invention is also equipped with a voice module, which can realize voice intercom control. This is all prior art and will not be described in detail. The main unit shell also has corresponding control buttons, which are connected to the control board 5 to realize control. Another auxiliary circuit board 53 and a knob 54 are located on the side of the main unit shell near the nursing frame unit. The auxiliary circuit board 53 is connected to the control board 5, and the knob 54 is connected to the auxiliary circuit board 53 through a knob encoder 55, thereby realizing control, such as adjusting the high-speed airflow, etc. Temperature sensors can also be set in the upper shell 7 or the lower shell 8 of the nursing frame, or other suitable locations in this invention, to detect the temperature of the textile material and prevent overheating. The nursing frame unit of this invention can still be used normally when folded, and can be used as a vertical fan or blower.
[0073] Example 2
[0074] In this embodiment of the invention, most of the structure of the invention is the same as that in embodiment 1. The difference is the specific structure of the support frame 1. Referring to Figure 12, the rod head of the support frame 1 is provided with an extension 47, which is rotatably connected to the support frame 1. The extension 47 is provided with a textile material suspension part 48. The two ends of the textile material suspension part 48 are telescopically connected with a first telescopic part 49 and a second telescopic part 50. The rod head and rod tail of the support frame 1 are respectively provided with fixing members 56. That is, in this embodiment, the base connecting member 51 and the moving wheel 52 structure are eliminated. The rod head and rod tail are directly fixed by the fixing members 56, such as fixing to the wall for normal use.
[0075] Example 3
[0076] In this embodiment, most of the structure is basically the same as in embodiment 1. The difference is that the drive unit is removed in this embodiment and the material suspension part moves instead. At this time, the main housing and the various structures on the main housing are fixed. The material suspension part can be provided with a vertical telescopic structure so as to drive the textile material to move up and down.
[0077] Example 4
[0078] Referring to Figures 1 and 2, this embodiment also proposes that the ironing device may include a handheld steam assembly. The handheld steam assembly includes a handheld steam handle 57, a handheld steam nozzle 58, and a handle connector 59. The handheld steam nozzle 58 is connected to the handheld steam handle 57. One end of the handle connector 59 is connected to the handheld steam handle 57, and the other end of the handle connector 59 passes through the main housing and is detachably connected to the steam unit. The handle connector 59 of the handheld steam assembly passes through the steam unit and is connected to the adapter 33, and the handle of the handheld steam assembly... The connector 59 is inserted into the steam unit and connected to the adapter 33, which can cut off the first steam pipe 21 and the second steam pipe 22 connected to the adapter 33. At this time, steam is sprayed out by hand-held steam nozzle 58 and it is hand-held for use, which is very convenient. The present invention may also include a textile material clip 60, which is used to hold textile materials. That is, some existing textile materials are placed in the textile material holding area 6 and are easy to float due to their light weight. The textile material clip 60 can be used to hold the textile material clip 60 (such as holding the sleeve part of the top).
[0079] The present invention also discloses the application of all the above-mentioned types of ironing equipment in chemical fiber products and natural fiber products, that is, in textile materials.
[0080] This embodiment does not impose any limitation on the shape, material, structure, etc. of the present invention. Any simple modifications, equivalent changes and alterations made to the above embodiments based on the technical essence of the present invention shall fall within the protection scope of the technical solution of the present invention.
Claims
1. Ironing apparatus for ironing a textile material, characterized in that, include: Support frame; The main body, mounted on a support frame, includes a main housing, a steam unit, a high-speed airflow unit, and a care frame unit. The care frame unit contains a textile material holding area. The steam unit, high-speed airflow unit, and care frame unit are all connected to the main housing. The main body moves relative to the textile material. The steam unit generates steam and delivers it to the care frame unit. The high-speed airflow unit creates cooling channels to cool the interior of the main housing and also generates high-speed airflow that is delivered to the care frame unit. The care frame unit receives steam and sprays it onto the textile material in the textile material holding area. It also receives high-speed airflow and sprays it onto the textile material in the textile material holding area. The care frame unit includes a care frame... The unit comprises an upper shell and a lower shell for the care frame. The upper shell is connected to the lower shell, and both are connected to the main housing. A hollow area is provided between the upper and lower shells for the care frame, which serves as a container for textile materials. The care frame unit is equipped with at least one steam nozzle and at least one set of high-speed airflow nozzles. The high-speed airflow nozzle set includes a first high-speed airflow nozzle and a second high-speed airflow nozzle. The steam nozzle is positioned facing the hollow area. Both the first and second high-speed airflow nozzles are positioned facing the hollow area and are arranged opposite to each other. The steam nozzle is connected to a steam unit. Both the first and second high-speed airflow nozzles are connected to a high-speed airflow unit. Both the first and second high-speed airflow nozzles are inclined.
2. Ironing apparatus according to claim 1, characterized in that: The nursing frame unit also includes a diversion section, which is located on the side of the lower shell of the nursing frame near the main body. The diversion section is used to divert high-speed airflow.
3. The ironing apparatus according to claim 1, characterized in that: The lower shell of the nursing frame is rotatably connected to the main unit shell through a nursing frame positioning component, which is used to position the lower shell of the nursing frame.
4. The ironing apparatus according to claim 1, characterized in that: The nursing frame unit includes an inner tubing, an inner tubing fixing bracket, and an inner tubing support. One end of the inner tubing extends into the main unit housing, and the other end of the inner tubing is secured between the upper and lower housings of the nursing frame by the inner tubing fixing bracket. The inner tubing support is located inside the inner tubing on the side near the inner tubing fixing bracket.
5. The ironing apparatus according to claim 1, characterized in that: The lower shell of the nursing frame is annular and includes a first extension, a connecting part, a second extension, and an arc-shaped part connected in sequence. The connecting part is connected to the main housing. The first extension and the second extension are arranged opposite to each other, and the connecting part and the arc-shaped part are arranged opposite to each other. The nursing frame unit includes a first steam pipe and a second steam pipe, both of which are connected to a steam unit. The first steam pipe and the second steam pipe are each provided with at least one steam nozzle. The first extension and the second extension are each provided with a plurality of air distribution plates. The connecting part and the arc-shaped part are each provided with a snap-fit position. One end of the first steam pipe is located in the snap-fit position of the connecting part, and the other end of the first steam pipe passes through the plurality of air distribution plates of the first extension and extends into the snap-fit position of the arc-shaped part. One end of the second steam pipe is located in the snap-fit position of the connecting part, and the other end of the second steam pipe passes through the plurality of air distribution plates of the second extension and extends into the snap-fit position of the arc-shaped part.
6. The ironing apparatus according to claim 5, characterized in that: The first extension and the second extension are each provided with at least one steam outlet groove, and the steam outlet groove is provided in a one-to-one correspondence with the steam nozzle. The side of the steam outlet groove near the hollow area is provided with an inclined surface.
7. The ironing apparatus according to claim 5, characterized in that: The first extension and the second extension are respectively provided with high-speed airflow channel grooves. One end of the high-speed airflow channel groove extends into the connecting part and is connected to the high-speed airflow unit. The other end of the high-speed airflow channel groove is not connected to the arc-shaped part. The air distribution plate is set in the high-speed airflow channel groove on the side near the hollow area. The first high-speed airflow nozzle is set on the first extension and the second high-speed airflow nozzle is set on the second extension. Both the first high-speed airflow nozzle and the second high-speed airflow nozzle are connected to the high-speed airflow channel groove and are located below the steam nozzle.
8. The ironing apparatus according to claim 5, characterized in that: The connecting part and the arc-shaped part are respectively provided with through-beam sensors. The through-beam sensors of the connecting part and the arc-shaped part are located on the same straight line and the straight line is not perpendicular to the rod of the support frame.
9. The ironing apparatus according to claim 5, characterized in that: The bottom sides of the first extension and the second extension are respectively provided with a number of lamps.
10. The ironing apparatus according to claim 1, characterized in that: The steam unit includes a water tank, a water pump, a steam generator, and an adapter. The water tank is mounted on the main housing and extends out of the main housing. The water tank has a water inlet. The water pump is connected to both the water tank and the steam generator. The adapter is connected to both the steam generator and the steam nozzle.
11. The ironing apparatus according to claim 1, characterized in that: The high-speed airflow unit includes a high-speed fan and a rubber air duct. Both the high-speed fan and the rubber air duct are housed inside the main unit housing. An air inlet is located at the bottom of the main unit housing on the side away from the high-speed fan. The high-speed fan is connected to the rubber air duct, which is connected to a first high-speed airflow nozzle and a second high-speed airflow nozzle. A control board is located inside the main unit housing. A negative ion emitter is connected inside the high-speed fan. A negative ion generator is connected to the control board, and the negative ion generator is connected to the negative ion emitter.
12. The ironing apparatus according to claim 11, characterized in that: The lower side of the high-speed fan is set inside the main housing by three evenly distributed fan foot pads, and the upper part of the high-speed fan is set inside the main housing by four evenly distributed fan fixing rubber parts.
13. The ironing apparatus according to claim 1, characterized in that: It also includes a drive unit, which is located inside the main housing and is used to drive the main housing to move along the support frame.
14. The ironing apparatus according to claim 13, characterized in that: The drive unit includes a drive gearbox, a drive motor, a guide wheel assembly, a drive gear assembly, a drive track, and a position sensor. The drive gearbox is fitted onto the support frame's rod. The drive motor, guide wheel assembly, drive gear assembly, and drive track are all housed within the drive gearbox. The guide wheel assembly is located on one side of the support frame's rod, and the drive gear assembly is located on the other side of the support frame's rod. The drive track is fitted onto the drive gear assembly and is in contact with the support frame's rod. The drive motor is connected to the drive gear assembly. The position sensor is located on the drive gearbox and faces the textile material holding area.
15. The ironing apparatus according to claim 1, characterized in that: The support frame has a protruding part at the top of the rod, which is rotatably connected to the support frame. The protruding part is provided with a textile material suspension part. The two ends of the textile material suspension part are telescopically connected with a first telescopic part and a second telescopic part. The end of the support frame is connected to a base connector, and the base connector is provided with a movable wheel.
16. The ironing apparatus according to claim 1, characterized in that: The support frame has a protruding part at the top of the rod, which is rotatably connected to the support frame. The protruding part is provided with a textile material suspension part, and the two ends of the textile material suspension part are telescopically connected with a first telescopic part and a second telescopic part. The top and bottom of the support frame are respectively provided with fixing parts.
17. The ironing apparatus according to claim 1, characterized in that: It also includes a handheld steam injection assembly, which includes a handheld steam injection handle, a handheld steam injection nozzle, and a handle connector. The handheld steam injection nozzle is connected to the handheld steam injection handle, one end of the handle connector is connected to the handheld steam injection handle, and the other end of the handle connector passes through the main housing and is detachably connected to the steam unit.
18. The ironing apparatus according to claim 1, characterized in that: It also includes textile material clips, which are used to hold textile materials.
19. The ironing apparatus according to claim 11, characterized in that: The air inlet is equipped with a filter and a fragrance device, the filter being used to filter the air.
20. The application of the ironing equipment according to claims 1 to 19 in chemical fiber products and natural fiber products.