An ironing device capable of multi-directional transfer of parts

By designing a sorting and collecting mechanism in the ironing equipment, automatic sorting and collection rod replacement are achieved by utilizing spring force and the rotation of the sliding plate. This solves the problem that existing ironing equipment cannot sort by weight, improves ironing efficiency, and reduces manual operation.

CN117702447BActive Publication Date: 2026-06-30SHAOXING XIAOXUANCHUANG FABRIC CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
SHAOXING XIAOXUANCHUANG FABRIC CO LTD
Filing Date
2023-12-28
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing ironing equipment cannot classify clothes according to their weight, which requires manual sorting after ironing, reducing work efficiency. Furthermore, the collection rods need to be replaced frequently when they are full, increasing the workload.

Method used

A sorting mechanism and a clothing collection mechanism were designed for a tunnel-type ironing machine. By utilizing the elasticity of the adjusting spring and the rotation of the slide plate, the clothes are automatically sorted according to their weight. The collection mechanism also enables automatic replacement of the collection rod, reducing manual intervention.

Benefits of technology

It enables automatic sorting of clothes based on weight, improving the efficiency of sorting clothes after ironing, reducing the need for manual sorting, and reducing the workload of staff by automatically changing the collection rod.

✦ Generated by Eureka AI based on patent content.

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    Figure CN117702447B_ABST
Patent Text Reader

Abstract

This invention provides a multi-directional transmission ironing device, relating to the field of transmission device technology. It includes a tunnel-type ironing machine with a drying channel at one side. An elliptical transmission belt is installed within the drying channel. The invention utilizes a sorting mechanism on the right side of the tunnel-type ironing machine. During ironing, the device adjusts the spring force and the rotation of the sliding plate within the U-shaped frame, allowing the clothes to slide down through either the first or second sliding hole based on their weight and the spring force. The clothes are then dispersed to the front and rear sides of the tunnel-type ironing machine. Since clothes come in various types and weights, this sorting mechanism categorizes the clothes, eliminating the need for manual sorting during subsequent operations and significantly improving the efficiency of post-ironing garment handling.
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Description

Technical Field

[0001] This invention belongs to the field of transmission device technology, and more specifically, relates to an ironing device capable of multi-directional transmission of parts. Background Technology

[0002] Ironing machines mainly refer to electrically heated ironing machines for pressing knitted T-shirts. The TSD-618 model, a fully automatic, programmable ironing machine for the front and back panels of T-shirts, was showcased at CI SMA 2004. Its main feature is that the upper mold cavity is made of a large flat aluminum alloy plate and uses electric heating.

[0003] Current ironing equipment has been found to have at least the following technical problems:

[0004] First, current ironing equipment requires the garments to be collected by a feeding mechanism after ironing. However, existing ironing equipment does not have the function of classifying garments according to their weight. As a result, when users need to classify garments of different weights, the existing ironing equipment cannot complete this classification function.

[0005] Secondly, when ironing clothes for autumn / winter or spring / summer, the variety of garments, their different lengths, thicknesses, and weights, and the need for staff to intervene after ironing, all reduce the efficiency of the entire workflow.

[0006] Third, because the clothes collection rods of the ironing equipment are not replaceable, when the collection rods are full of clothes after ironing, staff need to collect the clothes and place them in a centralized area. This increases the number of times staff need to collect the clothes, thus increasing their workload. Summary of the Invention

[0007] To address the aforementioned technical problems, this invention provides an ironing device capable of multi-directional transfer of parts.

[0008] An ironing device with multi-directional transmission of parts includes a tunnel-type ironing machine. A drying channel is provided at the side end of the tunnel-type ironing machine. An elliptical transmission belt is installed within the drying channel, and a clothing hook is connected to the inside of the elliptical transmission belt via a transmission chain. A triangular top plate is fixedly installed on the inner wall of the drying channel. A first support rod is fixedly installed at the right end of the tunnel-type ironing machine. Second support rods are fixedly installed on both the front and rear sides of the first support rod. L-shaped sliding rods are provided at the upper ends of both second support rods. A T-shaped sliding rod is provided on the left side of the first support rod. A sorting mechanism is provided at the upper end of the first support rod. The sorting mechanism includes two second L-shaped rods and a first L-shaped rod, both of which are fixedly installed on the left side of the first support rod. Each of the two first L-shaped rods has a groove on its opposite surface. A sliding plate is slidably installed between the grooves of the two first L-shaped rods. A circular hole is provided at the upper end of the sliding plate. A guide rod is slidably installed in the circular hole of the sliding plate. An adjusting spring is sleeved on the circumferential surface of the guide rod. A U-shaped frame is fixedly installed at the upper end of the guide rod. A sliding plate is connected between the two ends of the U-shaped frame through a rotating shaft. The front and rear ends of the tunnel-type ironing machine are provided with a clothing collection mechanism. The clothing collection mechanism includes a U-shaped fixing frame. The U-shaped fixing frame is fixedly installed on the tunnel-type ironing machine. A trapezoidal groove is provided at the right end of the U-shaped fixing frame. A trapezoidal slider is slidably installed in the trapezoidal groove of the U-shaped fixing frame. Two collecting rods are fixedly installed at the right end of the trapezoidal slider.

[0009] Preferably, a base rod is fixedly installed at the lower end of the trapezoidal slider, wherein the lower end of the base rod is slidably installed through the lower end of the U-shaped fixing frame, and a flip baffle is hinged to the left side of the lower end of the U-shaped fixing frame.

[0010] Preferably, an L-shaped locking block is fixedly installed on the lower right side of the U-shaped fixing frame, and the flip baffle is sleeved on the upper end of the L-shaped locking block. The lower end of the U-shaped fixing frame is provided with a bottom block, which is fixedly installed on the tunnel-type ironing machine.

[0011] Preferably, a first sliding hole is provided between the second L-shaped rod and the first L-shaped rod at the front end, and a second sliding hole is provided between the second L-shaped rod and the first L-shaped rod at the rear end. The height of the second sliding hole is lower than that of the first sliding hole. A limit baffle is fixedly installed at the rear end of the first L-shaped rod at the front end, and the limit baffle is located below the slide plate.

[0012] Preferably, a convex groove is provided on the right side end of the sliding plate, and a limiting plate is rotatably sleeved in the convex groove of the sliding plate. An adjusting screw is fixedly installed on the right side end of the limiting plate, and the adjusting screw is threaded through and installed on the right side end of the first support rod.

[0013] Preferably, a rectangular through hole is provided at the left end of the first support rod, wherein a fixed round rod is fixedly installed between the upper and lower inner walls of the rectangular through hole of the first support rod.

[0014] Preferably, a U-shaped insert plate is slidably mounted through the circumferential surface of the fixed round rod, the left end of the U-shaped insert plate is U-shaped, and a tension spring is fixedly mounted on the upper end of the U-shaped insert plate.

[0015] Preferably, the tension spring is located at the top of the inner wall of the rectangular through hole of the first support rod, and a fixing block is fixedly installed on the right side end of the first support rod. A U-shaped baffle is slidably installed between the fixing block and the first support rod, and the U-shaped baffle is slidably installed on the upper end of the U-shaped insert.

[0016] Preferably, the right end of the T-shaped clothes rail is rotatably mounted through the right side of the first support rod, wherein a rotating block is fixedly mounted on the right end of the T-shaped clothes rail.

[0017] Preferably, the lower end of the rotating block is provided with a V-shaped spring plate, wherein a fixing plate is fixedly installed at the lower end of the V-shaped spring plate, and the fixing plate is fixedly installed at the right end of the first support rod.

[0018] Compared with the prior art, the present invention has the following beneficial effects:

[0019] In this invention, a sorting mechanism located on the right side of the tunnel-type ironing machine allows the garments to slide down through either the first or second sliding hole and disperse to the front and rear sides of the machine by adjusting the spring force and the rotation of the sliding plate within the U-shaped frame. Since garments come in various types and weights, this device can effectively sort them by weight, reducing human intervention and improving overall efficiency.

[0020] In this invention, by setting clothing collection mechanisms and two collection rods at both ends of the tunnel-type ironing machine, the device has sufficient space to place the clothes to be ironed. After the clothes slide down through the two ends of the T-shaped sliding rod into the two sets of clothing collection mechanisms, when one of the collection rods in the clothing collection mechanism is full of clothes, the bottom rod will squeeze the flip-up baffle and the L-shaped locking block under the action of gravity, thereby separating the flip-up baffle from the L-shaped locking block. Then the second collection rod can be used. This avoids the need for staff to frequently collect the ironed clothes due to insufficient storage space, and only requires collecting the clothes once.

[0021] In this invention, by sliding the sliding plate between two first L-shaped rods, the user can move the sliding plate from the left to the right side of the first L-shaped rod by rotating the adjusting screw, and then pull the U-shaped baffle to separate the U-shaped baffle from the U-shaped insert. Then, under the pull of the tension spring, the sliding plate can be separated from the guide rod. The adjusting spring can then be replaced, so that the device can be adjusted according to the weight of clothing in different seasons, such as winter or summer, by changing the adjusting spring with the corresponding elasticity. This allows the device to classify different clothes and greatly improves its adaptability.

[0022] In this invention, by using a V-shaped spring plate between the rotating block and the fixed plate, the T-shaped sliding rod remains in a balanced state after the clothes on one side are conveyed downwards. This ensures that when the second piece of clothing falls, the T-shaped sliding rod can precisely control its downward movement, preventing the clothing from getting stuck between the T-shaped sliding rod and the first L-shaped rod, thus improving the smoothness of the clothing sliding down the T-shaped sliding rod.

[0023] In this invention, the tension spring installed in the rectangular through hole of the first support rod and the U-shaped baffle installed at the upper end of the U-shaped insert plate enable the device to replace the adjusting spring by separating the U-shaped baffle from the U-shaped insert plate. The tension of the tension spring causes the U-shaped insert plate to move upward, and the U-shaped insert plate then causes the U-shaped frame to move upward, thereby allowing the adjusting spring to be replaced. This is very convenient to use and enables the adjusting spring to be replaced quickly, greatly improving the efficiency of adjusting spring replacement. Attached Figure Description

[0024] Figure 1 This is a schematic diagram of the overall structure of the present invention;

[0025] Figure 2 This is a schematic diagram of the tunnel-type ironing machine of the present invention;

[0026] Figure 3 This is a schematic diagram of the U-shaped fixing frame structure of the present invention;

[0027] Figure 4 This is a schematic diagram of the second support rod structure of the present invention;

[0028] Figure 5 This is a schematic diagram of the T-shaped clothes rail structure of the present invention;

[0029] Figure 6 This is a schematic diagram of the first support rod structure of the present invention;

[0030] Figure 7 This is a schematic diagram of the adjusting spring structure of the present invention;

[0031] Figure 8 This is the present invention. Figure 6 An enlarged schematic diagram of the structure at point A.

[0032] In the figure, the correspondence between the component names and the attached drawing numbers is as follows: 11. Adjusting screw; 12. Limiting plate; 13. Circular hole; 14. Sliding plate; 15. Adjusting spring; 16. Guide rod; 17. U-shaped frame; 18. Slide plate; 21. First support rod; 22. First L-shaped rod; 23. Slide groove; 24. First sliding hole; 25. Second L-shaped rod; 26. Second sliding hole; 27. Rectangular through hole; 28. Tension spring; 29. ​​Fixed round rod; 31. Fixing block; 32. U-shaped baffle. 33. U-shaped insert plate; 34. Limiting baffle; 41. Fixing plate; 42. V-shaped spring sheet; 43. Rotating block; 44. T-shaped clothes rail; 51. U-shaped fixing frame; 52. Trapezoidal groove; 53. Trapezoidal slider; 54. Flipping baffle; 55. Base rod; 56. L-shaped locking block; 57. Collecting rod; 58. Base block; 61. Second support rod; 62. L-shaped clothes rail; 63. Tunnel-type ironing machine; 64. Oval transmission belt; 65. Clothes hook; 66. Triangular top plate. Detailed Implementation

[0033] This application provides an ironing device with multi-directional transmission components, effectively solving the problem that current ironing devices only have one transmission device at the ironing outlet, making it impossible to classify ironed clothes by weight. This results in the need for workers to sort and organize various types of clothes after ironing, greatly reducing the efficiency of garment sorting. In this invention, a sorting mechanism is provided on the right side of the tunnel ironing machine. When ironing clothes, the device can adjust the spring force and the rotation of the slide plate in the U-shaped frame, allowing the clothes to slide down from the first or second sliding hole according to the correspondence between their own weight and the spring force, and then disperse to the front and back sides of the tunnel ironing machine. Since there are many types of clothes with different weights, this device can classify the clothes through the sorting mechanism, eliminating the need for workers to sort and organize the clothes in subsequent operations, greatly improving the efficiency of garment sorting after ironing.

[0034] Example: Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 , Figure 7 and Figure 8As shown, the technical solution in this application embodiment effectively solves the technical problem that current ironing equipment only has one transmission device at its ironing outlet, which prevents the ironing equipment from classifying ironed clothes by weight. This results in the need for staff to classify and sort various types of clothes after ironing, greatly reducing the efficiency of clothes sorting. The overall idea is as follows:

[0035] To address the problems existing in the prior art, the present invention provides an ironing device with multi-directional transmission of parts, including a tunnel-type ironing machine 63. A drying channel is provided at the side end of the tunnel-type ironing machine 63. An elliptical transmission belt 64 is provided inside the drying channel, and a clothing hook 65 is connected to the inside of the elliptical transmission belt 64 via a transmission chain. A triangular top plate 66 is fixedly installed on the inner wall of the drying channel. A first support rod 21 is fixedly installed at the right end of the tunnel-type ironing machine 63. Second support rods 61 are fixedly installed on both the front and rear sides of the first support rod 21. L-shaped sliding rods 62 are provided at the upper ends of both second support rods 61. A T-shaped sliding rod 44 is provided on the left side of the first support rod 21. A classification system is provided at the upper end of the first support rod 21. The mechanism, wherein the sorting mechanism includes two second L-shaped rods 25 and a first L-shaped rod 22, both of which are fixedly installed on the left side of the first support rod 21. Each of the two first L-shaped rods 22 has a groove 23 on its opposite surface. A sliding plate 14 is slidably installed between the grooves 23 of the two first L-shaped rods 22. A circular hole 13 is provided at the upper end of the sliding plate 14, and a guide rod 16 is slidably installed within the circular hole 13. An adjusting spring 15 is fitted onto the circumferential surface of the guide rod 16. A U-shaped frame 17 is fixedly installed at the upper end of the guide rod 16. A sliding plate 18 is connected between the two ends of the U-shaped frame 17 via a rotating shaft. The tunnel-type ironing machine 63 has a clothing collection mechanism at its front and rear ends. When the tunnel-type ironing machine 63 in the device irons clothes, the user feeds the clothes through the feeding mechanism on the left side of the tunnel-type ironing machine 63 (using the existing technology), hanging the clothes on the clothes hook 65 at the lower end of the elliptical transmission belt 64. Then, under the transmission chain inside the elliptical transmission belt 64, the clothes hook 65 can be moved, and the clothes above the clothes hook 65 can be rotated. When the clothes hook 65 moves to the right side of the drying channel opened in the tunnel-type ironing machine 63, the inclined side design of the triangular top plate 66 will squeeze the clothes hook 65, thereby separating the clothes hook 65 from the clothes hanger. After separation, the hook of the hanger will fall between the two second L-shaped rods 25, passing through the right side of the tunnel-type ironing machine 63. The included sorting mechanism allows the garments to slide down through either the first sliding hole 24 or the second sliding hole 26 and disperse to the front and rear sides of the tunnel-type ironing machine 63 during ironing. This is achieved by adjusting the elasticity of the spring 15 and the rotation of the slide plate 18 within the U-shaped frame 17, based on the garments' weight and the relationship between the spring 15 and the weight. Since garments come in various types and weights, this sorting mechanism eliminates the need for manual sorting in subsequent operations, significantly improving the efficiency of garment handling after ironing. The garment collection mechanism includes a U-shaped fixing frame 51, which is fixedly mounted on the tunnel-type ironing machine 63.A trapezoidal groove 52 is provided on the right side of the U-shaped fixing frame 51. A trapezoidal slider 53 is slidably installed in the trapezoidal groove 52 of the U-shaped fixing frame 51. Two collecting rods 57 are fixedly installed on the right side of the trapezoidal slider 53. A bottom rod 55 is fixedly installed on the lower end of the trapezoidal slider 53. The lower end of the bottom rod 55 is slidably installed through the lower end of the U-shaped fixing frame 51. A flip baffle 54 is hinged to the left side of the lower end of the U-shaped fixing frame 51. An L-shaped locking block 56 is fixedly installed on the right side of the lower end of the U-shaped fixing frame 51. The flip baffle 54 is sleeved on the upper end of the L-shaped locking block 56. The lower end of the U-shaped fixing frame 51 has a bottom... Block 58, the bottom block 58 is fixedly installed on the tunnel-type ironing machine 63. Since the guide rod 16 is slidably installed through the circular hole 13 opened in the sliding plate 14, and an adjusting spring 15 is provided between the U-shaped frame 17 at the upper end of the guide rod 16 and the sliding plate 14, and the adjusting spring 15 has elasticity, when the clothes fall between the two second L-shaped rods 25, they fall onto the upper end of the slide plate 18. At this time, if the weight of the clothes is less than the elasticity of the adjusting spring 15, under the oblique action of the slide plate 18, the clothes hanger will slide down from the position of the first sliding hole 24 and then fall onto the front of the T-shaped sliding rod 44. At the end, under the weight of the clothes and with the T-shaped sliding rod 44 rotating and installed on the right side of the first support rod 21, the front end of the T-shaped sliding rod 44 will move downwards, and the clothes will slide off the T-shaped sliding rod 44 to the upper end of the L-shaped sliding rod 62. Since the angle of the L-shaped sliding rod 62 is also higher on the right and lower on the left, the clothes will slide off the L-shaped sliding rod 62 and fall onto the upper end of the collecting rod 57. Through the clothes collecting mechanism and the two collecting rods 57 inside the collecting mechanism set at both ends of the tunnel ironing machine 63, the device has enough space to place the clothes to be ironed. After the clothes slide down the two ends of the T-shaped sliding rod 44 into the two sets of clothing collection mechanisms, when one of the collection rods 57 in the clothing collection mechanism is full of clothes, the bottom rod 55 will squeeze the flipping baffle 54 and the L-shaped locking block 56 under the action of gravity, thereby separating the flipping baffle 54 from the L-shaped locking block 56. Then the second collection rod 57 can be used, thus allowing the tunnel-type ironing machine 63 of this device to iron more clothes and avoid the need for staff to frequently collect ironed clothes due to insufficient storage space. Only one collection is required.

[0036] A first sliding hole 24 is provided between the second L-shaped rod 25 and the first L-shaped rod 22 at the front end. A second sliding hole 26 is provided between the second L-shaped rod 25 and the first L-shaped rod 22 at the rear end. The height of the second sliding hole 26 is lower than that of the first sliding hole 24. A limit baffle 34 is fixedly installed at the rear end of the first L-shaped rod 22 at the front end. The limit baffle 34 is located below the slide plate 18. A convex groove is opened on the right side end of the sliding plate 14. A limit plate 12 is rotatably sleeved in the convex groove of the sliding plate 14. An adjusting screw 11 is fixedly installed on the right side end of the limit plate 12. The adjusting screw 11 is threaded through and installed on the right side end of the first support rod 21. A rectangular through hole is opened on the left side end of the first support rod 21. 27, wherein a fixed round rod 29 is fixedly installed between the upper and lower inner walls of the rectangular through hole 27 opened in the first support rod 21, and a U-shaped insert plate 33 is slidably installed through the circumferential surface of the fixed round rod 29. The left end of the U-shaped insert plate 33 is U-shaped, and a tension spring 28 is fixedly installed at the upper end of the U-shaped insert plate 33. The tension spring 28 is located at the top of the inner wall of the rectangular through hole 27 opened in the first support rod 21. A fixing block 31 is fixedly installed at the right end of the first support rod 21, and a U-shaped baffle 32 is slidably installed between the fixing block 31 and the first support rod 21. The U-shaped baffle 32 is slidably installed at the upper end of the U-shaped insert plate 33. In the second step, when the weight of the clothes is greater than the elastic force of the adjusting spring 15, the clothes will fall. The pressure will compress the slide plate 18, causing it to move downwards. When the slide plate 18 reaches the position of the limiting baffle 34, the limiting baffle 34 will lift the slide plate 18. Since the slide plate 18 and the U-shaped frame 17 are rotatably connected, the rear end of the slide plate 18 will descend and become flush with the second sliding hole 26. At this time, the clothes hanger will slide out from the second sliding hole 26 and land on the rear end of the T-shaped clothes sliding rod 44. This will then cause the rear end of the T-shaped clothes sliding rod 44 to move downwards, allowing the clothes to slide into the L-shaped clothes sliding rod 62 and the clothes collecting mechanism at the rear end. The right end of the T-shaped clothes sliding rod 44 will remain parallel when not in use due to the elastic force of the V-shaped spring plate 42. In this state, by sliding the sliding plate 14 between the two first L-shaped rods 22, the user can move the sliding plate 14 from the left side to the right side of the first L-shaped rods 22 by rotating the adjusting screw 11, and then pull the U-shaped baffle 32 to separate the U-shaped baffle 32 from the U-shaped insert 33. Then, under the pull of the tension spring 28, the sliding plate 14 can be separated from the guide rod 16. Then the adjusting spring 15 can be replaced, so that the device can be adjusted according to the weight of clothing in different seasons, such as winter or summer, and the adjusting spring 15 can be replaced with the corresponding elasticity. This allows the device to classify different clothes and greatly improves the adaptability of the device.

[0037] The right end of the T-shaped clothes rail 44 is rotatably mounted through the right side of the first support rod 21. A rotating block 43 is fixedly mounted on the right end of the T-shaped clothes rail 44. A V-shaped spring plate 42 is provided at the lower end of the rotating block 43. A fixing plate 41 is fixedly mounted at the lower end of the V-shaped spring plate 42. The fixing plate 41 is fixedly mounted on the right end of the first support rod 21. The adjusting spring 15 within the device can be replaced according to the weight of winter or summer clothing. The user rotates the adjusting screw 11, which is threaded onto the first support rod 21. The adjusting screw 11 moves to the right, causing the limiting plate 12 to move. The limiting plate 12 engages with the convex groove of the sliding plate 14. Therefore, the limiting plate 14... 2 can drive the sliding plate 14 to move, and the sliding plate 14 will drive the guide rod 16, the U-shaped frame 17 and the slide plate 18 to move. When the lower end of the U-shaped frame 17 contacts the two ends of the U-shaped insert 33, the U-shaped insert 33 will be inserted into the lower end of the U-shaped frame 17. At this time, pull the U-shaped baffle 32, so that the U-shaped baffle 32 slides inside the fixed block 31 and separates from the U-shaped insert 33. At this time, under the pulling force of the tension spring 28, the U-shaped insert 33 will be lifted upward. At this time, the U-shaped insert 33 carries the U-shaped frame 17 upward, so that the U-shaped frame 17 and the guide rod 16 are separated from the sliding plate 14. At this time, the adjusting spring 15 will also separate, and the user can take out the adjusting spring 15 for replacement.After replacement, move the U-shaped insert plate 33 downwards to insert the guide rod 16 into the circular hole 13 of the sliding plate 14. Then slide the U-shaped baffle 32 to fix the U-shaped insert plate 33. Afterwards, reverse the adjusting screw 11. Through the threaded connection between the adjusting screw 11 and the first support rod 21, drive the limiting plate 12 and the sliding plate 14 back to their original positions, so that they can be used. Through the V-shaped spring plate 42 set between the rotating block 43 and the fixed plate 41, the T-shaped clothes rail 44, after conveying the clothes on one side downwards, moves in a V-shape. Under the elastic force of the spring plate 42, the T-shaped sliding rod 44 remains in a balanced state, ensuring precise control of the T-shaped sliding rod 44 as the second garment falls. This prevents the garment from getting stuck between the T-shaped sliding rod 44 and the first L-shaped rod 22, improving the smoothness of the garment's descent. When there are too many garments on the upper part of the collecting rod 57, the collecting rod 57 and the trapezoidal slider 53 will apply pressure downwards. At this time, the bottom rod 55 at the lower end of the trapezoidal slider 53 will apply pressure to the flipping baffle 54, while the L-shaped... The material of block 56 is deformable and has a certain degree of toughness. When there are too many clothes and the weight reaches a critical point, the flip baffle 54 will separate from the L-shaped locking block 56. At this time, the trapezoidal slider 53, the bottom rod 55, and the two collecting rods 57 will slide downwards, and the upper collecting rod 57 will move to the position of the L-shaped clothes sliding rod 62, so that the dried clothes can continue to slide onto the upper collecting rod 57. The bottom rod 55 will also contact the upper end of the bottom block 58, providing support for the trapezoidal slider 53 and the two collecting rods 57. The device utilizes a tension spring 28 installed in the rectangular through hole 27 of the first support rod 21 and a U-shaped baffle 32 installed at the upper end of the U-shaped insert plate 33. When replacing the adjusting spring 15, the device can separate the U-shaped baffle 32 from the U-shaped insert plate 33, allowing the tension of the tension spring 28 to move the U-shaped insert plate 33 upward. The U-shaped insert plate 33 then moves the U-shaped frame 17 upward, thus allowing the adjusting spring 15 to be replaced. This method is very convenient and allows for quick replacement of the adjusting spring 15, greatly improving the efficiency of the adjustment spring 15 replacement.

[0038] Working principle:

[0039] The first step involves the tunnel-type ironing machine 63 using a PLC and fully computerized system to control the operation and circulation of steam, heating units, and hot air to iron the clothes. The user loads the clothes onto the garment hooks 65 at the lower end of the elliptical drive belt 64 via the existing loading mechanism on the left side of the machine. The transmission chain inside the elliptical drive belt 64 moves the garment hooks 65, simultaneously rotating the clothes above them. When the garment hooks 65 move to the right side of the drying channel in the tunnel-type ironing machine 63, the inclined edge of the triangular top plate 66 presses against them, causing the garment hooks 65 to separate from the garment hangers. After separation... The hooks of the hangers will fall between the two second L-shaped rods 25. Through the sorting mechanism provided on the right side of the tunnel-type ironing machine 63, when the device is ironing clothes, the elasticity of the spring 15 and the rotation of the slide plate 18 in the U-shaped frame 17 can be adjusted so that the clothes can slide down from the first sliding hole 24 or the second sliding hole 26 according to the correspondence between their own weight and the elasticity of the spring 15, and then be dispersed to the front and back sides of the tunnel-type ironing machine 63. Since there are many types of clothes with different weights, the device can sort the clothes through the sorting mechanism, so that the staff does not need to sort and organize the clothes in subsequent operations, which greatly improves the efficiency of sorting clothes after ironing.

[0040] In the second step, since the guide rod 16 is slidably installed through the circular hole 13 in the sliding plate 14, and an adjusting spring 15 is provided between the U-shaped frame 17 at the upper end of the guide rod 16 and the sliding plate 14, and the adjusting spring 15 has elasticity, when the clothes fall between the two second L-shaped rods 25, they fall onto the upper end of the slide plate 18. At this time, if the weight of the clothes is less than the elasticity of the adjusting spring 15, under the oblique action of the slide plate 18, the clothes hanger will slide down from the position of the first sliding hole 24 and then fall onto the front end of the T-shaped sliding rod 44. At this time, under the weight of the clothes, and because the T-shaped sliding rod 44 is rotatably installed through the right end of the first support rod 21, the front end of the T-shaped sliding rod 44 will move down, and the clothes will slide from the T-shaped sliding rod 44 to the upper end of the L-shaped sliding rod 62. The angle is also higher on the right and lower on the left, so the clothes will slide off the L-shaped sliding bar 62 and fall onto the upper end of the collection bar 57. Through the clothes collection mechanism and the two collection bars 57 in the collection mechanism set at the front and rear ends of the tunnel ironing machine 63, the device has enough space to place the clothes to be ironed. After the clothes slide down through the two sides of the T-shaped sliding bar 44 into the two sets of clothes collection mechanisms, when one of the collection bars 57 in the clothes collection mechanism is full of clothes, the bottom bar 55 will squeeze the flip baffle 54 and the L-shaped block 56 under the action of gravity, so that the flip baffle 54 and the L-shaped block 56 can be separated. Then the second collection bar 57 can be used, and the frequent collection of ironed clothes by the staff due to insufficient storage space is avoided. Only one collection is needed.

[0041] Thirdly, in the second step, when the weight of the clothes exceeds the elastic force of the adjusting spring 15, the clothes will compress the slide plate 18 as they fall, causing the slide plate 18 to move downwards. When the slide plate 18 moves to the position of the limiting baffle 34, the limiting baffle 34 will lift the slide plate 18. Since the slide plate 18 and the U-shaped frame 17 are rotatably connected, the rear end of the slide plate 18 will descend and become flush with the second sliding hole 26. At this point, the clothes hanger will slide out from the second sliding hole 26 and land on the rear end of the T-shaped sliding rod 44. This will then cause the rear end of the T-shaped sliding rod 44 to move downwards, allowing the clothes to slide into the L-shaped sliding rod 62 at the rear end and into the clothes collecting mechanism. The right end of the T-shaped sliding rod 44 is located at the V-shaped spring plate 42. Under the action of elasticity, it will always be in a parallel state when not in use. By sliding the sliding plate 14 between the two first L-shaped rods 22, the user can rotate the adjusting screw 11 to move the sliding plate 14 from the left side to the right side of the first L-shaped rod 22, and then pull the U-shaped baffle 32 to separate the U-shaped baffle 32 from the U-shaped insert 33. Then, under the pull of the tension spring 28, the sliding plate 14 can be separated from the guide rod 16. Then the adjusting spring 15 can be replaced, so that the device can be adjusted according to the weight of clothing in different seasons, such as winter or summer, and the adjusting spring 15 can be replaced with the corresponding elasticity. This allows the device to classify different clothes and greatly improves the adaptability of the device.

[0042] Fourthly, the adjusting spring 15 inside the device can be replaced according to the weight of winter or summer clothing. The user rotates the adjusting screw 11, which is threadedly connected to the first support rod 21. The adjusting screw 11 moves to the right, causing the limiting plate 12 to move. The limiting plate 12 engages with the convex groove of the sliding plate 14, allowing the limiting plate 12 to move the sliding plate 14. The sliding plate 14 then moves the guide rod 16, the U-shaped frame 17, and the sliding plate 18. When the lower end of the U-shaped frame 17 aligns with the U-shaped... When the two ends of the insert plate 33 come into contact, the U-shaped insert plate 33 will be inserted into the lower end of the U-shaped frame 17. At this time, the U-shaped baffle 32 is pulled, causing the U-shaped baffle 32 to slide inside the fixed block 31 and separate from the U-shaped insert plate 33. At this time, under the pulling force of the tension spring 28, the U-shaped insert plate 33 will be lifted upward. The U-shaped insert plate 33 will then move the U-shaped frame 17 upward, thereby separating the U-shaped frame 17 and the guide rod 16 from the sliding plate 14. At this time, the adjusting spring 15 will also separate, and the user can take out the adjusting spring 15 for replacement. After replacement, move the U-shaped insert plate 33 downwards to insert the guide rod 16 into the circular hole 13 of the sliding plate 14. Then slide the U-shaped baffle 32 to fix the U-shaped insert plate 33. Then reverse the adjusting screw 11. By adjusting the threaded connection between the adjusting screw 11 and the first support rod 21, the limiting plate 12 and the sliding plate 14 are driven back to their original positions and can be used. Through the V-shaped spring plate 42 set between the rotating block 43 and the fixed plate 41, after the T-shaped sliding rod 44 moves and conveys the clothes on one side downwards, the elastic force of the V-shaped spring plate 42 will keep the T-shaped sliding rod 44 in a balanced state. This ensures that when the second piece of clothing falls, the T-shaped sliding rod 44 can accurately control its downward movement and prevent the clothes from getting stuck between the T-shaped sliding rod 44 and the first L-shaped rod 22, thus improving the smoothness of the clothes sliding on the T-shaped sliding rod 44.

[0043] Fifth, when there are too many clothes on the upper part of the collecting rod 57, the collecting rod 57 and the trapezoidal slider 53 will apply pressure downwards. At this time, the bottom rod 55 at the lower end of the trapezoidal slider 53 will apply pressure to the flip baffle 54. The L-shaped locking block 56 is made of deformable material and has a certain degree of toughness. When there are too many clothes and the weight reaches a critical point, the flip baffle 54 will separate from the L-shaped locking block 56. At this time, the trapezoidal slider 53, the bottom rod 55, and the two collecting rods 57 will slide downwards, and the upper collecting rod 57 will move to the position of the L-shaped sliding rod 62, so that the dried clothes can continue to slide onto the upper collecting rod 57, while the bottom rod 55... It will also contact the upper end of the bottom block 58, providing support for the trapezoidal slider 53 and the two collecting rods 57. Through the tension spring 28 provided in the rectangular through hole 27 of the first support rod 21, and the U-shaped baffle 32 provided at the upper end of the U-shaped insert plate 33, when the adjusting spring 15 is replaced, the device can separate the U-shaped baffle 32 from the U-shaped insert plate 33, so that the tension of the tension spring 28 drives the U-shaped insert plate 33 to move upward, and the U-shaped insert plate 33 then drives the U-shaped frame 17 to move upward, thereby allowing the adjusting spring 15 to be replaced. It is very convenient to use and can quickly replace the adjusting spring 15, greatly improving the efficiency of the adjusting spring 15 replacement.

[0044] The embodiments of the present invention are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the invention to the forms disclosed. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described in order to better illustrate the principles and practical application of the invention, and to enable those skilled in the art to understand the invention and to design various embodiments with various modifications suitable for a particular purpose.

Claims

1. A multi-directional ironing device, comprising a tunnel ironing machine (63), wherein the tunnel ironing machine (63) is provided with an elliptical transmission belt (64), and the interior of the elliptical transmission belt (64) is connected to a garment hook (65) via a transmission chain, characterized in that: The tunnel-type ironing machine (63) has a first support rod (21) fixedly installed on the right end. The front and rear ends of the first support rod (21) are provided with L-shaped sliding rods (62), and the left side of the first support rod (21) is provided with a T-shaped sliding rod (44). Among them, the left side of the first support rod (21) is provided with two second L-shaped rods (25) and a first L-shaped rod (22), and a sliding plate (14) is slidably arranged between the two first L-shaped rods (22). The upper end of the sliding plate (14) is provided with an adjusting spring (15), the upper end of the adjusting spring (15) is provided with a U-shaped frame (17), and the upper end of the U-shaped frame (17) is provided with a rotatable sliding plate (18). The tunnel-type ironing machine (63) is provided with U-shaped fixing frames (51) at the front and rear ends, and a collection rod (57) is provided on the right side of each of the two U-shaped fixing frames (51). The first support rod (21) is provided with a U-shaped insert plate (33), the upper end of the U-shaped insert plate (33) is provided with a tension spring (28), and a fixed round rod (29) is inserted and installed on the upper part of the U-shaped insert plate (33). Among them, a first sliding hole (24) is provided between the second L-shaped rod (25) and the first L-shaped rod (22) at the front end, and a second sliding hole (26) is provided between the second L-shaped rod (25) and the first L-shaped rod (22) at the rear end. The height of the second sliding hole (26) is lower than that of the first sliding hole (24). A limit baffle (34) is fixedly installed at the rear end of the first L-shaped rod (22) at the front end. The limit baffle (34) is located below the slide plate (18). The sliding plate (14) has a convex groove on its right side. A limiting plate (12) is rotatably sleeved in the convex groove of the sliding plate (14). An adjusting screw (11) is fixedly installed on the right side of the limiting plate (12). The adjusting screw (11) is threaded through and installed on the right side of the first support rod (21). Wherein, the left end of the first support rod (21) is provided with a rectangular through hole (27), the fixed round rod (29) is fixedly installed between the upper and lower inner walls of the rectangular through hole (27) opened in the first support rod (21), and the left end of the U-shaped insert plate (33) is U-shaped; The right end of the T-shaped clothes rail (44) is rotatably mounted on the right side of the first support rod (21); a rotating block (43) is fixedly mounted on the right end of the T-shaped clothes rail (44). The lower end of the rotating block (43) is provided with a V-shaped spring plate (42), and a fixing plate (41) is fixedly installed at the lower end of the V-shaped spring plate (42). The fixing plate (41) is fixedly installed at the right end of the first support rod (21).

2. The ironing equipment capable of multi-directional transmission of parts as described in claim 1, characterized in that: The tunnel-type ironing machine (63) has a triangular top plate (66) on its side end. The U-shaped fixing frame (51) is fixedly installed on the tunnel-type ironing machine (63). The right side end of the U-shaped fixing frame (51) has a trapezoidal groove (52). The trapezoidal slider (53) is slidably installed in the trapezoidal groove (52) of the U-shaped fixing frame (51), and the two collecting rods (57) are fixedly installed on the right side of the trapezoidal slider (53).

3. The ironing equipment capable of multi-directional transmission of parts as described in claim 2, characterized in that: The lower end of the trapezoidal slider (53) is fixedly installed with a base rod (55), and the lower end of the base rod (55) is slidably installed through the lower end of the U-shaped fixing frame (51). The U-shaped fixing frame (51) has a flip baffle (54) hinged to the lower left side, and an L-shaped card block (56) fixedly installed on the lower right side of the U-shaped fixing frame (51). The flip baffle (54) is sleeved on the upper end of the L-shaped card block (56). The U-shaped fixing frame (51) has a bottom block (58) at the lower end, and the bottom block (58) is fixedly installed on the tunnel ironing machine (63).

4. The ironing equipment capable of multi-directional transmission of parts as described in claim 3, characterized in that: Two second L-shaped rods (25) are located above two first L-shaped rods (22). The opposite surfaces of the two first L-shaped rods (22) are provided with grooves (23). The sliding plate (14) is slidably installed in the grooves (23) of the two first L-shaped rods (22). The upper end of the sliding plate (14) is provided with a circular hole (13). Among them, a guide rod (16) is slidably installed in the circular hole (13) of the sliding plate (14), the circumferential surface of the guide rod (16) is sleeved inside the adjusting spring (15), and the guide rod (16) is fixedly installed at the lower end of the U-shaped frame (17).

5. The ironing equipment capable of multi-directional transmission of parts as described in claim 4, characterized in that: The tension spring (28) is fixedly installed between the top of the inner wall of the U-shaped insert plate (33) and the rectangular through hole (27). A fixing block (31) is fixedly installed on the right side end of the first support rod (21). A U-shaped baffle (32) is slidably installed between the fixing block (31) and the first support rod (21). The U-shaped baffle (32) is slidably installed on the upper end of the U-shaped insert plate (33). The lower ends of the two L-shaped clothes rails (62) are fixedly installed with second support rods (61), and the two second support rods (61) are respectively fixedly installed at the front and rear ends of the first support rod (21).