A fabric rack for adjusting fabric properties
By integrating temperature and humidity sensors and spray heating devices into the fabric rack, real-time temperature and humidity adjustment of high-tech or shrink-prone fabrics is achieved, solving the problem of low garment production efficiency and improving garment production efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- WUHAN ZUWANG GARMENT CO LTD
- Filing Date
- 2025-09-03
- Publication Date
- 2026-07-03
AI Technical Summary
Existing fabric racks are unable to pre-treat high-tech or shrink-prone fabrics, resulting in reduced garment production efficiency.
A fabric shelf including a support frame, adjustment device and drive device was designed. The temperature and humidity of the fabric are detected by temperature and humidity sensors, and the fabric is adjusted in real time by spray pipe and heating plate to ensure that the fabric maintains the required temperature and humidity during storage.
It enables real-time temperature and humidity regulation of fabrics during storage, eliminating the need for pre-shrinking before garment manufacturing and improving garment production efficiency.
Smart Images

Figure CN224451097U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of fabric racks, and in particular to a fabric rack for adjusting fabric properties. Background Technology
[0002] High-tech fabrics refer to new textile materials developed using modern technology. They overcome the performance limitations of traditional fabrics, addressing their shortcomings by enhancing performance and adding new functions to meet the diverse needs of modern clothing. After high-tech fabrics are transported to the factory, their technical properties often change due to transportation constraints, such as dimensional stability, moisture content, temperature, internal stress shrinkage rate, color, and weight. Simply storing them or using them directly in production can affect the quality of the finished garments.
[0003] In current technology, fabrics are typically stored by stacking them on shelves without any further treatment. When needed, the fabric is simply taken out. However, high-tech or shrink-prone fabrics often deform due to variations in temperature and humidity. Directly cutting and sewing these fabrics can cause garment deformation, rendering them unusable. Therefore, high-tech or shrink-prone fabrics are usually pre-shrunk before cutting and sewing, adjusting their temperature and humidity before proceeding with the garment manufacturing process.
[0004] Existing fabric racks only provide storage functions. When storing high-tech or shrink-prone fabrics, they cannot be pre-treated, which increases the garment production cycle and reduces the efficiency of garment production. Utility Model Content
[0005] This utility model provides a fabric rack for adjusting fabric properties, which can solve the problem of reduced efficiency in garment production in the prior art. The technical solution is as follows:
[0006] A fabric rack for adjusting fabric properties includes: a support frame, an adjusting device, and a driving device.
[0007] The support frame is provided with a horizontal tray for storing fabric. The adjustment device is located at the bottom of the tray. The driving device is used to drive the adjustment device to move in a first direction in the horizontal plane. The adjustment device includes an adjustment box, a spray pipe, a heating plate, and a temperature and humidity sensor. The adjustment box spans the tray in a second direction. The first direction is perpendicular to the second direction. The spray pipe and the heating plate are arranged inside the adjustment box. The spray pipe has multiple spray holes evenly spaced on it. The temperature and humidity sensor is located on the outside of the adjustment box. The spray pipe and the heating plate are respectively connected to the temperature and humidity sensor for signal transmission.
[0008] Optionally, multiple temperature and humidity sensors are arranged at uniform intervals along the second direction.
[0009] Optionally, the support frame is provided with a back plate arranged along the first direction. The back plate is located at one end of the adjustment box. The driving device is disposed on one side of the back plate. The driving device includes a rotating column and a chain conveyor line. The rotating column is rotatably disposed on the back plate. The rotating column is connected to the sprocket of the chain conveyor line. The chain of the chain conveyor line is fixedly connected to one end of the adjustment box.
[0010] Optionally, the support frame is provided with multiple trays, which are arranged at intervals along the vertical direction, and multiple adjustment devices, driving devices and back plates are provided.
[0011] Optionally, a motor is provided on the side of the back plate away from the drive device, and the motor is connected to the rotating columns of the plurality of drive devices in a transmission connection.
[0012] Optionally, the bottom of the adjustment box is provided with a slide rail arranged along the first direction, the slide rail is fixedly connected to the support frame, and the bottom of the adjustment box is provided with a slide groove that matches the slide rail.
[0013] Optionally, the tray is provided with clamping devices at both ends along the first direction. The clamping devices are used to clamp the fabric. The clamping devices include pressure plates and fixing plates. Both the pressure plates and the fixing plates are arranged along the second direction. The pressure plates are arranged parallel to each other above the fixing plates and the spacing is adjustable.
[0014] Optionally, the fixing plate has a fixing groove arranged along the second direction on the side away from the fabric. The height of the fixing groove is higher than the height of the fixing plate. A double-ended reverse-threaded screw, a nut seat, a connecting rod, and a movable plate are arranged in the fixing groove. The double-ended reverse-threaded screw is arranged along the length of the fixing groove. Two nut seats are provided, respectively located at both ends of the double-ended reverse-threaded screw. One end of the connecting rod is hinged to the nut seat, and the other end is hinged to the bottom of the movable plate. The movable plate is slidably arranged in the fixing groove in the vertical direction. One side of the pressure plate is slidably connected to the outer wall of the fixing groove. A U-shaped connecting frame is provided on the pressure plate and the movable plate. One end of the U-shaped connecting frame is fixedly connected to the top surface of the pressure plate, and the other end is fixedly connected to the top surface of the movable plate.
[0015] Optionally, a hollow plate is provided at one end of the clamping device, the hollow plate is arranged along the first direction, a worm gear is provided on the outside of one end of the fixing groove, the end of the double-ended reverse threaded screw passes through the fixing groove and is fixedly connected to the worm gear, a rotating rod is provided inside the hollow plate along the length direction, the two ends of the rotating rod are provided with worms that match the worm gear, a knob is provided on the outside of one end of the hollow plate, and the end of the rotating rod passes through the hollow plate and is fixedly connected to the knob.
[0016] Optionally, the support frame is provided with a delivery pipe and a diversion pipe. The delivery pipe is fixed on the support frame, and one end of the diversion pipe is connected to the delivery pipe and the other end is connected to the spray pipe.
[0017] The beneficial effects of the technical solution provided by this utility model embodiment include at least the following:
[0018] This utility model provides a fabric shelf for adjusting fabric properties. The adjustment box provides support for the spray pipe, heating plate, and temperature and humidity sensor. The fabric is laid flat on the tray. The adjustment device is driven by a drive device to move horizontally at the bottom of the tray, so that the temperature and humidity sensor detects the fabric from the bottom and compares the detected temperature and humidity data with the temperature and humidity required for this layer of fabric. When the temperature is not up to standard, a signal is sent to activate the heating plate to heat the fabric from the bottom. When the humidity is not up to standard, a signal is sent to activate the spray pipe to humidify the fabric from the bottom. This allows for real-time adjustment of the temperature and humidity of the stored fabric. The spray pipe and heating plate are both arranged along a second direction, so that the spray pipe and heating plate can cover the entire fabric for temperature and humidity adjustment during the movement of the adjustment device. This pre-shrinks the fabric, eliminating the need for separate pre-shrinking of the fabric before garment manufacturing, and effectively solving the problem of reduced garment production efficiency in the prior art. Attached Figure Description
[0019] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the description of the embodiments 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.
[0020] Figure 1 This is a schematic diagram of the overall structure provided in an embodiment of the present utility model;
[0021] Figure 2 This is a schematic front view of the overall structure provided in an embodiment of the present utility model;
[0022] Figure 3This is a schematic diagram showing the coordination of the adjustment device, driving device, and clamping device provided in this embodiment of the utility model;
[0023] Figure 4 This is an exploded schematic diagram of the adjustment device and drive device provided in the embodiment of this utility model;
[0024] Figure 5 This is a schematic diagram of the internal structure of the fixing groove provided in an embodiment of the present utility model;
[0025] Figure 6 This is a schematic diagram of the clamping device and fixing frame provided in this embodiment of the utility model;
[0026] Figure 7 This is a schematic diagram of signal transmission provided in an embodiment of the present invention.
[0027] In the diagram: 1-Support frame; 11-Pattern; 12-Back plate; 13-Slide rail; 2-Adjusting device; 21-Adjusting box; 211-Slide groove; 22-Spray pipe; 221-Spray hole; 23-Heating plate; 24-Temperature and humidity sensor; 3-Drive device; 31-Rotating column; 32-Sprocket; 33-Chain; 34-Outer frame; 35-Motor; 36-Transmission rod; 37-Driving gear; 38-Driven gear; 4-Clamping device; 41-Pressure plate; 42-Fixing plate; 43-Fixing groove; 44-Double-ended reverse threaded screw; 45-Nut seat; 46-Connecting rod; 47-Moving plate; 48-U-shaped connecting frame; 5-Hollow plate; 51-Worm gear; 52-Rotating rod; 53-Worm; 54-Knob; 6-Conveying pipe; 7-Diverting pipe. Detailed Implementation
[0028] To make the objectives, technical solutions, and advantages of this utility model clearer, the embodiments of this utility model will be described in further detail below with reference to the accompanying drawings.
[0029] Figure 1 This is a schematic diagram of the overall structure provided in an embodiment of the present utility model; Figure 2 This is a schematic front view of the overall structure provided in an embodiment of the present utility model; Figure 3 This is a schematic diagram showing the coordination of the adjustment device, driving device, and clamping device provided in this embodiment of the utility model; Figure 4 This is an exploded schematic diagram of the adjustment device and drive device provided in the embodiment of this utility model; Figure 5 This is a schematic diagram of the internal structure of the fixing groove provided in an embodiment of the present utility model; Figure 6 This is a schematic diagram of the clamping device and fixing frame provided in this embodiment of the utility model; Figure 7 This is a schematic diagram of signal transmission provided by an embodiment of this utility model. (See diagram below.) Figures 1 to 7A fabric rack for adjusting fabric properties is shown, comprising: a support frame 1, an adjusting device 2, and a driving device 3. The support frame 1 is provided with a horizontal tray 11 for storing fabric. The adjusting device 2 is located at the bottom of the tray 11. The driving device 3 is used to drive the adjusting device 2 to move in a first direction in the horizontal plane. The adjusting device 2 includes an adjusting box 21, a spray pipe 22, a heating plate 23, and a temperature and humidity sensor 24. The adjusting box 21 spans the tray 11 in a second direction, and the first direction is perpendicular to the second direction. The spray pipe 22 and the heating plate 23 are arranged inside the adjusting box 21. The spray pipe 22 has a plurality of spray holes 221 evenly spaced on it. The temperature and humidity sensor 24 is located on the outside of the adjusting box 21. The spray pipe 22 and the heating plate 23 are respectively connected to the temperature and humidity sensor 24.
[0030] Exemplary, in this embodiment of the present invention, the support frame 1 may also be provided with a base at its bottom to provide stable bottom support for the support frame 1. A horizontal tray 11 is provided on the support frame 1, which provides stable bottom support for the fabric storage. The tray 11 has horizontal ventilation holes, which facilitate the bottom adjustment device 2 to adjust the fabric through the ventilation holes. Two heating plates 23 are provided, respectively, on the two side walls of the adjustment box 21. A spray pipe 22 is provided between the two heating plates 23. The spray pipe 22 has multiple upward-opening spray holes 221 to humidify the fabric above. By installing an adjustment device 2 at the bottom of the tray 11, the temperature and humidity of the fabric can be regulated from the bottom. A temperature and humidity sensor 24 detects the temperature and humidity and transmits signals to an external control system. The external control system compares the set stable temperature and humidity with the temperature and humidity detected by the sensor 24. If the data is not up to standard, the spray pipe 22 and heating plate 23 are activated to adjust the temperature and humidity of the fabric, ensuring that the fabric maintains the required temperature and humidity during storage. This eliminates the need for pre-shrinking before garment production, improving production efficiency. The adjustment device 2 moves in a first direction. By arranging the spray pipe 22 and heating plate 23 along a second direction, and since the first and second directions are perpendicular, the entire fabric can be regulated in temperature and humidity when the drive device 3 drives the adjustment device 2 in a linear motion. Furthermore, this structure allows for temperature and humidity regulation not only of the entire fabric but also of specific areas. When a localized area of the fabric is found to be substandard in temperature and humidity, the adjustment device 2 can be moved to the desired location for adjustment, ensuring uniform temperature and humidity within the same piece of fabric.
[0031] This utility model provides a fabric shelf for adjusting fabric properties. The adjustment box 21 provides support for the spray pipe 22, heating plate 23, and temperature and humidity sensor 24. The fabric is laid flat on the tray 11. The adjustment device 2 is driven by the drive device 3 to move horizontally at the bottom of the tray 11, so that the temperature and humidity sensor 24 detects the fabric from the bottom and compares the detected temperature and humidity data with the temperature and humidity required for this layer of fabric. When the temperature is not up to standard, a signal is sent to activate the heating plate 23 to heat the fabric from the bottom. When the humidity is not up to standard, a signal is sent to activate the spray pipe 22 to humidify the fabric from the bottom. This allows for real-time adjustment of the temperature and humidity of the stored fabric. The spray pipe 22 and heating plate 23 are both arranged along the second direction, so that the spray pipe 22 and heating plate 23 can cover the entire fabric to adjust the temperature and humidity during the movement of the adjustment device 2. This pre-shrinks the fabric, eliminating the need for separate pre-shrinking of the fabric before garment manufacturing, and effectively solving the problem of reduced garment production efficiency in the prior art.
[0032] Optionally, multiple temperature and humidity sensors 24 are arranged at uniform intervals along the second direction.
[0033] Exemplary, in embodiments of this utility model, such as Figure 3 As shown, the temperature and humidity sensor 24 is arranged facing upwards and protrudes from the upper surface of the adjustment box 21, enabling it to accurately measure the temperature and humidity of the fabric above. By setting multiple temperature and humidity sensors 24, the temperature and humidity of the fabric can be detected more accurately, thus allowing for more precise control of the fabric and improving the adjustment accuracy of the structure.
[0034] Optionally, the support frame 1 is provided with a back plate 12 arranged along the first direction. The back plate 12 is located at one end of the adjustment box 21. The drive device 3 is provided on one side of the back plate 12. The drive device 3 includes a rotating column 31 and a chain conveyor line. The rotating column 31 is rotatably provided on the back plate 12. The rotating column 31 is connected to the sprocket of the chain conveyor line. The chain of the chain conveyor line is fixedly connected to one end of the adjustment box 21.
[0035] Exemplary, in embodiments of this utility model, such as Figure 4As shown, the chain conveyor line includes sprockets 32 and chains 33. Two rotating columns 31 and two sprockets 32 are provided. The two rotating columns 31 are spaced apart on the back plate 12. The center of each sprocket 32 is fixedly mounted on a rotating column 31. The chain 33 is wound around the two sprockets 32, and the sprockets 32 mesh with the chain 33. An outer frame 34 is fixedly mounted on the chain 33, and the outer frame 34 is fixedly connected to one end of the adjusting box 21. The back plate 12 is located behind the support frame 1, providing mounting support for the drive device 3. When the rotating column 31 is rotated clockwise, the sprockets 32 rotate clockwise, thereby driving the chain 33 to rotate clockwise as well. The upper end of the outer frame 34 is fixed to the chain 33, causing the outer frame 34 to move to the right along with the chain 33. Since one end of the adjusting box 21 is fixedly connected to the outer frame 34, the adjusting box 21 moves to the right. When the rotating column 31 is driven to rotate in the opposite direction, the adjusting box 21 can move to the left. This structure is simple and easy to operate. The adjustment device 2 can be moved by rotating the rotating column 31, thereby improving the ease of operation of this device.
[0036] Optionally, the support frame 1 is provided with multiple trays 11, which are arranged at intervals along the vertical direction. The adjustment device 2, the drive device 3 and the back plate 12 are all provided with multiple trays 11.
[0037] Exemplary, in embodiments of this utility model, such as Figure 1 and Figure 2 As shown, by setting multiple trays 11, the longitudinal space of the support frame 1 can be fully utilized, allowing more fabric to be placed on the shelf and multiple fabrics to be adjusted at the same time, thereby improving the adjustment efficiency of the shelf.
[0038] Optionally, a motor 35 is provided on the side of the back plate 12 away from the drive device 3, and the motor 35 is connected to the rotating column 31 of the multiple drive devices 3 in a transmission connection.
[0039] Exemplary, in embodiments of this utility model, such as Figure 3As shown, a transmission rod 36, a driving gear 37, and a driven gear 38 are also provided on the back plate 12 near the motor. The output end of the motor 35 is vertically arranged, and the transmission rod 36 is coaxially fixed to the output end of the motor 35. Multiple driving gears 37 are arranged at intervals on the transmission rod 36, and each back plate 12 is provided with a driven gear 38. The rotating column 31 passes through the back plate 12 and is fixedly connected to the driven gear 38. The driven gear 38 meshes with the driving gear 37. By starting the motor 35, the transmission rod 36 can be driven to rotate. The power is transmitted sequentially through the driving gear 37 and the driven gear 38 to drive the rotating column 31 to rotate, thereby realizing the horizontal linear movement of the adjusting device 2 at the bottom of the support plate 11. By setting multiple drive gears 37 on the transmission rod 36, power can be provided to the adjustment device 2 at the bottom of the multi-layer pallet 11 at the same time. That is, the movement of multiple adjustment devices 2 can be realized by one motor 35, without the need to set a separate motor mechanism for each adjustment device 2, which reduces the production cost of this rack. In operation control, only one motor 35 needs to be controlled, thereby further improving the ease of operation of this device.
[0040] Optionally, the bottom of the adjustment box 21 is provided with a slide rail 13 arranged along the first direction. The slide rail 13 is fixedly connected to the support frame 1, and the bottom of the adjustment box 21 is provided with a slide groove 211 that matches the slide rail 13.
[0041] Exemplary, in embodiments of this utility model, such as Figure 3 As shown, by setting the slide rail 13, on the one hand, it can provide support for the adjustment device 2 from the bottom, and on the other hand, through the cooperation of the slide rail 13 and the slide groove 211, it can provide guidance for the movement of the adjustment device 2, thereby improving the stability of the shelf.
[0042] Optionally, the pallet 11 is provided with clamping devices 4 at both ends along the first direction. The clamping devices 4 are used to clamp the fabric. The clamping devices 4 include pressure plates 41 and fixing plates 42. Both pressure plates 41 and fixing plates 42 are arranged along the second direction. The pressure plates 41 are arranged parallel to each other above the fixing plates 42 and the spacing is adjustable.
[0043] Exemplary, in embodiments of this utility model, such as Figure 3 and Figure 6 As shown, the top surface of the fixed plate 42 is at the same height as the top surface of the tray 11. When the fabric is placed on the tray 11, the clamping device 4 can be set to control the pressure plate 41 to move towards the fixed plate 42 and clamp the ends of the fabric between the pressure plate 41 and the fixed plate 42. This can clamp and fix both ends of the fabric and flatten and straighten the fabric, preventing wrinkles from forming when the fabric is stacked, which would affect the adjustment mechanism 2's regulation of the fabric temperature and humidity. By setting this structure, the adjustment effect of this shelf on the fabric is improved.
[0044] Optionally, a fixing groove 43 is provided on the side of the fixing plate 42 away from the fabric, arranged along the second direction. The height of the fixing groove 43 is higher than the height of the fixing plate 42. A double-ended reverse threaded screw 44, a nut seat 45, a connecting rod 46, and a movable plate 47 are provided in the fixing groove 43. The double-ended reverse threaded screw 44 is arranged along the length of the fixing groove 43. Two nut seats 45 are provided, respectively located at both ends of the double-ended reverse threaded screw 44. One end of the connecting rod 46 is hinged to the nut seat 45, and the other end is hinged to the bottom of the movable plate 47. The movable plate 47 is slidably arranged in the fixing groove 43 in the vertical direction. One side of the pressure plate 41 is slidably connected to the outer wall of the fixing groove 43. A U-shaped connecting frame 48 is provided on the pressure plate 41 and the movable plate 47. One end of the U-shaped connecting frame 48 is fixedly connected to the top surface of the pressure plate 41, and the other end is fixedly connected to the top surface of the movable plate 47.
[0045] Exemplary, in embodiments of this utility model, such as Figure 5 and Figure 6 As shown, the two ends of the double-ended reverse-threaded screw 44 are provided with opposite threads. The two nut seats 45 are respectively threaded to the two ends of the double-ended reverse-threaded screw 44. The nut seats 45 are restricted by the inner wall of the fixing groove 43. When the double-ended reverse-threaded screw 44 is driven to rotate, the two nut seats 45 will move closer or further away from each other along the double-ended reverse-threaded screw 44. When the two nut seats 45 move away from each other, the connecting rod 46 pulls the movable plate 47 to slide vertically downward along the opening direction of the fixing groove 43. Since the pressure plate 41 and the movable plate 47 are connected by the U-shaped connecting frame 48, the pressure plate 41 is driven to move downward, clamping and fixing the fabric between the pressure plate 41 and the fixing plate 42. When the double-ended reverse-threaded screw 44 is rotated in the opposite direction, the two nut seats 45 move closer to each other, driving the pressure plate 41 to move upward, so that the fabric is released from the fixation of the clamping device 4. This structure is simple and easy to operate. The clamping device 4 can clamp the fabric by rotating the double-headed reverse thread screw 44, which further improves the ease of operation of this shelf.
[0046] Optionally, a hollow plate 5 is provided at one end of the clamping device 4. The hollow plate 5 is arranged along the first direction. A worm gear 51 is provided on the outside of one end of the fixing groove 43. The end of the double-ended reverse threaded screw 44 passes through the fixing groove 43 and is fixedly connected to the worm gear 51. A rotating rod 52 is provided inside the hollow plate 5 along the length direction. Worms 53 matching the worm gear 51 are provided at both ends of the rotating rod 52. A knob 54 is provided on the outside of one end of the hollow plate 5. The end of the rotating rod 52 passes through the hollow plate 5 and is fixedly connected to the knob 54.
[0047] Exemplary, in embodiments of this utility model, such as Figure 6As shown, the hollow plate 5 is located at one of the outermost ends of the support frame 1, facilitating operation by the operator. When the operator rotates the knob 54, it drives the rotating rod 52 to rotate. Since the worm gear 53 is fixed to the rotating rod 52, the worm gear 53 rotates coaxially with the rotating rod 52, and the worm wheel 51 meshes with the worm gear 53, causing the worm wheel 51 to rotate. Since the worm wheel 51 is fixed to the end of the double-ended reverse threaded screw 44, the end of the double-ended reverse threaded screw 44 rotates, causing the pressure plate 41 to move closer to or away from the fixed plate 42. Because worm gears 53 are provided at both ends of the rotating rod 52, the clamping devices 4 at both ends can simultaneously clamp the fabric by rotating only one rotating rod 52, improving the synchronization rate of the operation of the clamping devices 4. This structure is simple and easy to operate. The pressure plate 41 can be moved by rotating the knob 54, and the knob 54 is located on the outermost side of the support frame 1, making it convenient for the operator to operate, thereby further improving the ease of operation of this rack.
[0048] Optionally, the support frame 1 is provided with a delivery pipe 6 and a diversion pipe 7. The delivery pipe 6 is fixed on the support frame 1, and one end of the diversion pipe 7 is connected to the delivery pipe 6 and the other end is connected to the spray pipe 22.
[0049] Exemplary, in embodiments of this utility model, such as Figure 1 and Figure 2 As shown, one end of the delivery pipe 6 is connected to an external smoke generator, and the other end is connected to a diversion pipe 7. The delivery pipe 6 is fixed on the support leg of the support frame 1, which can provide stable support for the delivery pipe 6. One end of the diversion pipe 7 is connected to the delivery pipe 6, and the other end passes through the regulating box 21 and is connected to the spray pipe 22. The diversion pipe 7 can deliver the steam in the delivery pipe 6 to the spray pipe 22.
[0050] Unless otherwise defined, the technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention pertains. The terms “first,” “second,” and similar terms used in this patent application specification and claims do not indicate any order, quantity, or importance, but are merely used to distinguish different components. Similarly, the terms “an” or “a” and similar terms do not indicate a quantity limitation, but rather indicate the presence of at least one. The terms “comprising” or “including” and similar terms mean that the elements or objects preceding “comprising” or “including” encompass the elements or objects listed following “comprising” or “including” and their equivalents, and do not exclude other elements or objects. The terms “connected” or “linked” and similar terms are not limited to physical or mechanical connections, but can include electrical connections, whether direct or indirect. The terms “upper,” “lower,” “left,” and “right” are used only to indicate relative positional relationships; when the absolute position of the described object changes, the relative positional relationship may also change accordingly.
[0051] The above description is only an optional 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 fabric shelf for conditioning the properties of a fabric, characterised in that, include: Support frame (1), adjustment device (2) and drive device (3). The support frame (1) is provided with a horizontal tray (11) for storing fabric. The adjustment device (2) is located at the bottom of the tray (11). The driving device (3) is used to drive the adjustment device (2) to move in the horizontal plane along a first direction. The adjustment device (2) includes an adjustment box (21), a spray pipe (22), a heating plate (23), and a temperature and humidity sensor (24). The adjustment box (21) spans the tray (11) along a second direction. The first direction is perpendicular to the second direction. The spray pipe (22) and the heating plate (23) are arranged inside the adjustment box (21). Multiple spray holes (221) are evenly spaced on the spray pipe (22). The temperature and humidity sensor (24) is located on the outside of the adjustment box (21). The spray pipe (22) and the heating plate (23) are respectively connected to the temperature and humidity sensor (24).
2. The fabric shelf for adjusting properties of a fabric according to claim 1, wherein, The temperature and humidity sensors (24) are arranged in multiple evenly spaced positions along the second direction.
3. The fabric conditioning product of claim 1, wherein the fabric conditioning product is a fabric conditioner. The support frame (1) is provided with a back plate (12) arranged along the first direction. The back plate (12) is located at one end of the adjustment box (21). The drive device (3) is provided on one side of the back plate (12). The drive device (3) includes a rotating column (31) and a chain conveyor line. The rotating column (31) is rotatably provided on the back plate (12). The rotating column (31) is connected to the sprocket of the chain conveyor line. The chain of the chain conveyor line is fixedly connected to one end of the adjustment box (21).
4. The fabric conditioning fabric shelf of claim 3, wherein, The support frame (1) is provided with multiple trays (11), which are arranged at intervals in the vertical direction. The adjustment device (2), the drive device (3) and the back plate (12) are all provided with multiple trays.
5. The fabric conditioning product according to claim 4, wherein the fabric conditioning product is a fabric conditioner. A motor (35) is provided on the side of the back plate (12) away from the drive device (3), and the motor (35) is connected to the rotating column (31) of the multiple drive devices (3) in a transmission connection.
6. The fabric conditioning fabric shelf of claim 3, wherein, The bottom of the adjustment box (21) is provided with a slide rail (13) arranged along the first direction. The slide rail (13) is fixedly connected to the support frame (1). The bottom of the adjustment box (21) is provided with a slide groove (211) that matches the slide rail (13).
7. The fabric conditioning product of claim 1, wherein the fabric conditioning product is a fabric conditioner. The pallet (11) is provided with clamping devices (4) at both ends along the first direction. The clamping devices (4) are used to clamp the fabric. The clamping devices (4) include pressure plates (41) and fixing plates (42). The pressure plates (41) and the fixing plates (42) are both arranged along the second direction. The pressure plates (41) are arranged in parallel and spaced above the fixing plates (42) and the spacing is adjustable.
8. The fabric conditioning fabric shelf of claim 7, wherein, The fixing plate (42) has a fixing groove (43) arranged along the second direction on the side away from the fabric. The height of the fixing groove (43) is higher than the height of the fixing plate (42). The fixing groove (43) is provided with a double-ended reverse thread screw (44), a nut seat (45), a connecting rod (46), and a movable plate (47). The double-ended reverse thread screw (44) is arranged along the length of the fixing groove (43). There are two nut seats (45), which are respectively located at both ends of the double-ended reverse thread screw (44). The connecting rod (46) is... One end of the plate (41) is hinged to the nut seat (45), and the other end is hinged to the bottom of the movable plate (47). The movable plate (47) is slidably disposed in the fixed groove (43) in the vertical direction. One side of the pressure plate (41) is slidably connected to the outer wall of the fixed groove (43). A U-shaped connecting frame (48) is provided on the pressure plate (41) and the movable plate (47). One end of the U-shaped connecting frame (48) is fixedly connected to the top surface of the pressure plate (41), and the other end is fixedly connected to the top surface of the movable plate (47).
9. A fabric rack for adjusting fabric properties according to claim 8, characterized in that, One end of the clamping device (4) is provided with a hollow plate (5), which is arranged along the first direction. A worm gear (51) is provided on the outside of one end of the fixing groove (43). The end of the double-headed reverse thread screw (44) passes through the fixing groove (43) and is fixedly connected to the worm gear (51). A rotating rod (52) is provided inside the hollow plate (5) along the length direction. Both ends of the rotating rod (52) are provided with worms (53) that match the worm gear (51). A knob (54) is provided on the outside of one end of the hollow plate (5). The end of the rotating rod (52) passes through the hollow plate (5) and is fixedly connected to the knob (54).
10. The fabric conditioning product of claim 1, wherein, The support frame (1) is provided with a delivery pipe (6) and a diversion pipe (7). The delivery pipe (6) is fixed on the support frame (1). One end of the diversion pipe (7) is connected to the delivery pipe (6), and the other end is connected to the spray pipe (22).