A hot box plug-in guide wire system for a texturing machine
By designing a pluggable wire guide system for the texturing machine's hot box, the problem of inconvenient wire guide tube replacement was solved, enabling convenient replacement and stable installation of the wire guide tube, thereby improving production efficiency and reducing costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- WUHAN TEXTILE UNIV
- Filing Date
- 2024-06-19
- Publication Date
- 2026-07-03
AI Technical Summary
The guide tube in the first heating box of a traditional texturing machine is inconvenient to replace, which leads to difficulties in maintenance and replacement, affecting production efficiency and cost.
Design a hot box plug-in wire guide system for a texturing machine, including a box, slider, connecting rod assembly, spring, clamping assembly and mechanical claw. Through the cooperation of slider and spring, the wire guide tube can be plugged in and replaced, and the mechanical claw of clamping assembly can be used to ensure the stable fixation of the wire guide tube.
It enables convenient replacement and stable installation of the guide wire, improves operational efficiency, reduces maintenance difficulty and production costs, and ensures the stability and adaptability of the guide wire.
Smart Images

Figure CN118668345B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to an improvement in the heating box technology of a texturing machine, belonging to the field of textile machinery, and particularly to a plug-in yarn guide system for the heating box of a texturing machine. Background Technology
[0002] In texturing machinery in the textile industry, the first heating box is used to preheat and initially shape the fibers. During this process, the fibers are guided by guide tubes. Traditional guide tubes are fixed inside the heating box, making disassembly and maintenance inconvenient, especially when quick replacement or cleaning of the guide tubes is required. In addition, fixed guide tubes may also lead to low thermal efficiency and increase production costs.
[0003] Chinese patent application CN 202310465004.6, filed on April 24, 2023, discloses a texturing machine, belonging to the field of textile machinery technology. Its features include a main wall panel and a column disposed on one side of the main wall panel. The machine is characterized by the following components arranged sequentially along the yarn running direction: a first roller, a first heating box, a cooling device, a false twister, a second roller, a second heating box, a third roller, an oiling device, and a winding mechanism. The first roller is disposed on the column, and the first heating box is disposed between the column and the main wall panel. The cooling device, false twister, and... The second roller and the second hot box are mounted on the main wall panel, the oiling device is located between the column and the main wall panel, and the winding mechanism is located on the column. This invention designs a brand-new texturing machine. By improving the hot box mounting structure, cooling device, oiling device, and winding mechanism of the texturing machine, the structure of the texturing machine is optimized, the volume of the texturing machine is reduced, and the production efficiency of the texturing machine is improved. However, the above technology only improves the volume of the texturing machine and does not solve the problem of inconvenient replacement of the guide tube in the first hot box.
[0004] The information disclosed in this background section is intended only to enhance the understanding of the overall background of this patent application and should not be construed as an admission or in any way implying that the information constitutes prior art known to those skilled in the art. Summary of the Invention
[0005] The purpose of this invention is to overcome the problem of inconvenient replacement of the guide tube in the first heating box in the prior art, and to provide a plug-in guide tube system for the texturing machine heating box that facilitates the replacement of the guide tube in the first heating box.
[0006] To achieve the above objectives, the technical solution of the present invention is: a hot box pluggable wire guide system for a texturing machine, the hot box pluggable wire guide system for a texturing machine includes a box, a guide tube, a slider, a connecting rod assembly, a spring, a clamping assembly, and a partition;
[0007] The inner wall of the box is slidably connected to a slider, and a partition is installed on the inner wall of the box below the slider. A guide hole is opened on the top of the box, and one end of the guide hole passes through the guide hole and extends to the bottom of the partition. A clamping assembly is provided on the side of the guide below the partition. The top of the spring is connected to the bottom of the slider, the bottom of the spring is connected to the top of the partition, and the spring is sleeved on the side of the guide.
[0008] The slider has a groove on its front side, and a locking block is provided in the groove. The slider of the connecting rod assembly is embedded between the groove and the locking block. The bottom of the connecting rod assembly is connected to the bottom of the front side of the box. The bottom of the box has a through hole for the guide wire tube to enter and exit. The through hole and the guide tube hole are coaxially arranged.
[0009] The clamping assembly includes two sets of opposing mechanical grippers;
[0010] The mechanical gripper includes a first clamping plate, a second clamping plate, a third clamping plate, and a gripping claw. One end of the first clamping plate has a slot that engages with a guide tube. The other end of the first clamping plate has a movable slot. One end of the third clamping plate has two movable slots, which are movably connected to each other via the second clamping plate. The other end of the third clamping plate is connected to one end of the gripping claw. The side of the first clamping plate has a moving slot that communicates with the slot. A limit post is installed on the inner wall of the housing at the location corresponding to the moving slot, and the limit post slides in conjunction with the moving slot.
[0011] The front of the first clamping plate is provided with a fixing pin that is inserted into the box body, and the front of the third clamping plate is provided with two fixing pins that are inserted into the box body.
[0012] The first clamping plate and the third clamping plate are arranged one above the other.
[0013] The top of the gripper is an inclined surface, and its inclination gradually decreases from far to near along the guide tube.
[0014] Clamping blocks are provided on both the left and right sides of the conduit, and one end of the clamping block is embedded in the slot for movable connection.
[0015] The top of the slider has a through-hole, and one end of the guide tube passes through the through-hole and extends to the bottom of the partition.
[0016] The groove includes a first inclined end, a second inclined end, a third inclined end, a fourth inclined end, a fifth inclined end, a first arc end, and a second arc end. One end of the first inclined end is connected to one end of the second inclined end, the other end of the second inclined end is connected to one end of the third inclined end, the other end of the third inclined end is connected to one end of the fourth inclined end, the other end of the fourth inclined end is connected to one end of the fifth inclined end, the other end of the fifth inclined end is connected to one end of the first arc end, the other end of the first arc end is connected to one end of the second arc end, and the other end of the second arc end is connected to the other end of the first inclined end.
[0017] The card block includes a concave groove on the top and symmetrically arranged first connecting ends and second connecting ends on the sides. The left and right ends of the concave groove are respectively connected to one end of the two first connecting ends, and the other ends of the two first connecting ends are respectively connected to one end of the two second connecting ends. The other ends of the two second connecting ends are connected.
[0018] When the slide bar moves downward, it moves sequentially along the gap between the first inclined end and the concave groove, the gap between the second inclined end and the first connecting end, and the gap between the third inclined end and the second connecting end.
[0019] When the slide bar moves upward, it moves sequentially along the gap between the second connecting end and the fourth oblique end, the gap between the first connecting end and the fifth oblique end, and the gap between the concave groove and the first arc end.
[0020] The linkage assembly includes a rod body, a sliding rod, and a fixed rod. The sliding rod is inserted into the upper front end of the rod body, and the fixed rod is inserted into the lower front end of the rod body.
[0021] One end of the fixing rod passes through the rod body and is inserted into the bottom of the front of the box.
[0022] Compared with the prior art, the beneficial effects of the present invention are as follows:
[0023] 1. In a texturing machine hot box pluggable wire guide system of the present invention, a slider is slidably connected to the inner wall of the box, and a partition is installed on the inner wall of the box below the slider. A guide hole is opened on the top of the box, and one end of the guide tube passes through the guide hole and extends to the bottom of the partition. A clamping assembly is provided on the side of the guide tube below the partition. The top of the spring is connected to the bottom of the slider, and the bottom of the spring is connected to the top of the partition. The spring is sleeved on the side of the guide tube. In use, the guide tube is inserted into the guide tube and passes through the entire box. When replacing, the guide tube is pressed down, the spring deforms, and the slide rod moves upward along the left side of the slide groove, bringing the slide rod to the top of the clamping block for fixation. At the same time, the clamping assembly opens, the guide tube is released, and the guide tube can be removed for replacement. When fixation is required, the guide tube is released, the spring returns to its original state, and the slide rod slides along the right side of the slide groove to the bottom of the slide groove. At this time, the clamping assembly retracts and clamps the guide tube, which can facilitate the replacement of the guide tube. The fixation after replacement is also more flexible and convenient. Therefore, this invention is easy to replace and flexible to install.
[0024] 2. In a texturing machine hot box pluggable wire guide system of the present invention, the mechanical gripper includes a first clamping plate, a second clamping plate, a third clamping plate, and a gripping claw. One end of the first clamping plate has a slot that engages with a guide tube. The other end of the first clamping plate has a movable slot. One end of the third clamping plate has two movable slots, which are movably connected via the second clamping plate. The other end of the third clamping plate is connected to one end of the gripping claw. In application, when the guide tube is pressed down, the first clamping plate descends, and the third clamping plate remains in a fixed position. The pin moves downwards, causing the two symmetrically arranged clamping claws to open downwards, allowing the guide wire tube to be easily removed. When the spring returns, the first and third clamping plates rise, and the two clamping claws close downwards to clamp and fix the guide wire tube. This improves the stability of the guide wire tube installation and better limits its position. The clamping claws can precisely hold the guide wire tube, and their shape and size must match the guide wire tube to ensure a firm grip without damaging it. They also have a certain adjustable range to accommodate guide wire tubes of different diameters or shapes. Therefore, this invention improves the stability of guide wire tube installation and provides positioning.
[0025] 3. In the texturing machine hot box pluggable wire guide system of the present invention, the cooperation of springs, mechanical claws, and connecting rod assemblies with locking blocks makes the replacement and installation method more flexible. It eliminates the need for machining or connection of fixing parts, making the disassembly and replacement of the wire guide tube more convenient and improving operational efficiency. Therefore, the present invention is flexible in assembly and disassembly and simple in fixing. Attached Figure Description
[0026] Figure 1 This is a schematic diagram of the structure of the present invention.
[0027] Figure 2 This is a schematic diagram of the structure of the box in this invention.
[0028] Figure 3 This is a front view of the box body in this invention.
[0029] Figure 4 This is a schematic diagram of the connection between the conduit and the slider in this invention.
[0030] Figure 5 This is a side view of the chute in this invention.
[0031] Figure 6 This is a schematic diagram of the slide groove in this invention.
[0032] Figure 7 This is a schematic diagram of the card block structure in this invention.
[0033] Figure 8 This is a side sectional view of the housing of the present invention.
[0034] Figure 9 This is a schematic diagram of the mechanical gripper in this invention.
[0035] In the diagram: 1. Box body, 11. Guide hole, 12. Through hole, 2. Guide tube, 21. Clamping block, 3. Slider, 31. Connecting hole, 32. Slide groove, 32. First oblique end, 321. Second oblique end, 322. Third oblique end, 323. Fourth oblique end, 324. Fifth oblique end, 325. First arc end, 326. Second arc end, 327. Locking block, 4. Concave groove, 41. First connecting end, 42. Second connecting end, 43. Linkage assembly, 5. Rod body, 51. Slide rod, 52. Fixed rod, 53. Spring, 6. Clamping assembly, 7. Mechanical claw, 71. Slot, 72. Movable slot, 73. Second clamping plate, 74. Third clamping plate, 75. Two movable slots, 76. One fixed pin, 77. Two fixed pins, 78. Clamping claw, 79. First clamping plate, 710. Partition plate, 8. Detailed Implementation
[0036] The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.
[0037] See Figures 1 to 9 A texturing machine hot box plug-in wire guide system, the texturing machine hot box plug-in wire guide system includes a box body 1, a guide tube 2, a slider 3, a connecting rod assembly 5, a spring 6, a clamping assembly 7, and a partition 8;
[0038] The inner wall of the housing 1 is slidably connected to a slider 3. A partition 8 is installed on the inner wall of the housing 1 below the slider 3. A guide hole 11 is opened on the top of the housing 1. One end of the guide 2 passes through the guide hole 11 and the slider 3 in sequence and extends to the bottom of the partition 8. A clamping assembly 7 is provided on the side of the guide 2 below the partition 8. The top of the spring 6 is connected to the bottom of the slider 3, the bottom of the spring 6 is connected to the top of the partition 8, and the spring 6 is sleeved on the side of the guide 2.
[0039] The slider 3 has a groove 32 on its front side, and a locking block 4 is provided in the groove 32. The slider 52 of the connecting rod assembly 5 is embedded between the groove 32 and the locking block 4. The bottom of the connecting rod assembly 5 is connected to the bottom of the front side of the housing 1. The bottom of the housing 1 has a through hole 12 for the guide wire tube to enter and exit. The through hole 12 is coaxially arranged with the guide tube hole 11.
[0040] The clamping assembly 7 includes two sets of opposing mechanical claws 71;
[0041] The mechanical gripper 71 includes a first clamping plate 710, a second clamping plate 74, a third clamping plate 75, and a gripping claw 79. One end of the first clamping plate 710 has a slot 72, which engages with the guide tube 2. The other end of the first clamping plate 710 has a movable slot 73. One end of the third clamping plate 75 has two movable slots 76, which are movably connected to each other via the second clamping plate 74. The other end of the third clamping plate 75 is connected to one end of the gripping claw 79. The side of the first clamping plate 710 has a moving slot 711 that communicates with the slot 72. A limiting post 9 is installed on the inner wall of the housing 1 at the moving slot 711, and the limiting post 9 slides in cooperation with the moving slot 711.
[0042] The front of the first clamping plate 710 is provided with a fixing pin 77 that is inserted into the box body 1, and the front of the third clamping plate 75 is provided with two fixing pins 78 that are inserted into the box body 1.
[0043] The first clamping plate 710 and the third clamping plate 75 are arranged vertically.
[0044] The top of the gripper 79 is an inclined surface, and its inclination gradually decreases from far to near along the guide tube 2.
[0045] Clamping blocks 21 are provided on the left and right sides of the conduit 2, and one end of the clamping block 21 is embedded in the slot 72 for movable connection.
[0046] The top of the slider 3 has a through-hole 31, and one end of the guide tube 2 passes through the through-hole 31 and extends to the bottom of the partition 8.
[0047] The groove 32 includes a first inclined end 321, a second inclined end 322, a third inclined end 323, a fourth inclined end 324, a fifth inclined end 325, a first arc end 326, and a second arc end 327. One end of the first inclined end 321 is connected to one end of the second inclined end 322, the other end of the second inclined end 322 is connected to one end of the third inclined end 323, the other end of the third inclined end 323 is connected to one end of the fourth inclined end 324, the other end of the fourth inclined end 324 is connected to one end of the fifth inclined end 325, the other end of the fifth inclined end 325 is connected to one end of the first arc end 326, the other end of the first arc end 326 is connected to one end of the second arc end 327, and the other end of the second arc end 327 is connected to the other end of the first inclined end 321.
[0048] The card block 4 includes a concave groove 41 on the top and first connecting ends 42 and second connecting ends 43 symmetrically arranged on the sides. The left and right ends of the concave groove 41 are respectively connected to one end of the two first connecting ends 42, and the other ends of the two first connecting ends 42 are respectively connected to one end of the two second connecting ends 43. The other ends of the two second connecting ends 43 are connected.
[0049] When the slide bar 52 moves downward, it moves sequentially along the gap between the first inclined end 321 and the concave groove 41, the gap between the second inclined end 322 and the first connecting end 42, and the gap between the third inclined end 323 and the second connecting end 43.
[0050] When the slide bar 52 moves upward, it moves sequentially along the gap between the second connecting end 43 and the fourth oblique end 324, the gap between the first connecting end 42 and the fifth oblique end 325, and the gap between the concave groove 41 and the first arc end 326.
[0051] The linkage assembly 5 includes a rod body 51, a sliding rod 52 and a fixed rod 53. The sliding rod 52 is inserted into the upper front end of the rod body 51, and the fixed rod 53 is inserted into the lower front end of the rod body 51.
[0052] One end of the fixing rod 53 passes through the rod body 51 and is inserted into the bottom of the front of the box body 1.
[0053] The following are supplementary descriptions of the present invention:
[0054] The angle between the fifth oblique end 325 and the first arc end 326 is 130 degrees, and the angle between the first arc end 326 and the second arc end 327 is 115 degrees, which makes it easier for the connecting rod to move along the slide groove 32, thereby completing the sequence of pressing and locking the guide tube 2, and then pressing and releasing it.
[0055] Example 1:
[0056] A texturing machine hot box pluggable wire guide system includes a housing 1, a guide tube 2, a slider 3, a connecting rod assembly 5, a spring 6, a clamping assembly 7, and a partition 8. The slider 3 is slidably connected to the inner wall of the housing 1. A partition 8 is installed below the slider 3 on the inner wall of the housing 1. A guide tube hole 11 is opened at the top of the housing 1. One end of the guide tube 2 passes through the guide tube hole 11 and the slider 3, extending to below the partition 8. A [missing information - likely a device or component] is provided on the side of the guide tube 2 below the partition 8. The clamping assembly 7 has the top of the spring 6 connected to the bottom of the slider 3, the bottom of the spring 6 connected to the top of the partition 8, and the spring 6 sleeved on the side of the guide tube 2; the slider 3 has a sliding groove 32 on its front side, and a locking block 4 is provided in the sliding groove 32; the sliding rod 52 of the connecting rod assembly 5 is embedded between the sliding groove 32 and the locking block 4; the bottom of the connecting rod assembly 5 is connected to the bottom of the front side of the housing 1; the bottom of the housing 1 has a through hole 12 for the guide wire tube to enter and exit, and the through hole 12 is coaxially arranged with the guide tube hole 11.
[0057] When applying:
[0058] The guide wire is inserted into the guide tube 2, passing through the entire housing 1. When the guide wire needs to be replaced, press down on the guide tube 2, which causes the spring 6 to deform on the partition 8. At this time, the slide rod 52 will move upward along the left side of the slide groove 32, bringing the slide rod 52 to the top of the locking block 4 for fixation. At the same time, the clamping assembly 7 opens, releasing the guide wire, which can then be removed for replacement. When fixation is required, release the guide tube 2, the spring 6 returns to its original state, and the slide rod 52 slides along the right side of the slide groove 32 to the bottom of the slide groove 32. At this time, the clamping assembly 7 clamps the guide wire.
[0059] Example 2:
[0060] Example 2 is basically the same as Example 1, except that:
[0061] The clamping assembly 7 includes two sets of opposing mechanical claws 71; each mechanical claw 71 includes a first clamping plate 710, a second clamping plate 74, a third clamping plate 75, and clamping claws 79. One end of the first clamping plate 710 has a slot 72 that engages with the guide tube 2. The other end of the first clamping plate 710 has a movable groove 73. One end of the third clamping plate 75 has two movable grooves 76, which are movably connected via the second clamping plate 74. The other end of 75 is connected to one end of the clamping claw 79. The side of the first clamping plate 710 is provided with a moving groove 711 that communicates with the slot 72. The inner wall of the housing 1 is equipped with a limiting post 9 corresponding to the moving groove 711. The limiting post 9 slides with the moving groove 711. A fixing pin 77 is provided through the front of the first clamping plate 710 and is inserted into the housing 1. Two fixing pins 78 are provided through the front of the third clamping plate 75 and are inserted into the housing 1. The first clamping plate 710 and the third clamping plate 75 are arranged vertically.
[0062] The top of the gripper 79 is an inclined surface, and its inclination gradually decreases from far to near along the guide tube 2.
[0063] When applying:
[0064] The engagement of the slot 72 with the conduit 2 and the clamping of the conduit by the clamping claw 79 ensure the stability of the conduit 2 during operation. The design of the first movable slot 73 and the second movable slot 76 allows the second clamping plate 74 to move between them, thereby realizing the adaptability of the clamping assembly to conduits of different diameters or shapes. The presence of the fixing pins 77 and 78 helps the clamping assembly to be accurately and firmly positioned in the housing 1, preventing accidental movement during use.
[0065] The inclined surface design of the top of the clamping claw 79 makes the clamping force gradually decrease along the catheter 2 from far to near. This design can effectively clamp the guidewire without affecting it, while avoiding damage caused by excessive pressure.
[0066] Example 3:
[0067] Example 3 is basically the same as Example 1, except that:
[0068] The slide groove 32 includes a first inclined end 321, a second inclined end 322, a third inclined end 323, a fourth inclined end 324, a fifth inclined end 325, a first arc end 326, and a second arc end 327. One end of the first inclined end 321 is connected to one end of the second inclined end 322, the other end of the second inclined end 322 is connected to one end of the third inclined end 323, and the other end of the third inclined end 323 is connected to one end of the fourth inclined end 324. The fourth inclined end 325... The other end of end 324 is connected to one end of the fifth oblique end 325, the other end of the fifth oblique end 325 is connected to one end of the first arc end 326, the other end of the first arc end 326 is connected to one end of the second arc end 327, and the other end of the second arc end 327 is connected to the other end of the first oblique end 321; the locking block 4 includes a concave groove 41 at the top, and a first connecting end 42 and a second connecting end 43 symmetrically arranged on the side. The left and right ends of the concave groove 41 are respectively... The slide rod 52 is connected to one end of each of the two first connecting ends 42, and the other ends of the two first connecting ends 42 are respectively connected to one end of each of the two second connecting ends 43. When the slide rod 52 moves downward, it moves sequentially along the gap between the first inclined end 321 and the concave groove 41, the gap between the second inclined end 322 and the first connecting end 42, and the gap between the third inclined end 323 and the second connecting end 43. When the slide rod 52 moves upward, it moves sequentially along the gap between the second connecting end 43 and the fourth inclined end 324, the gap between the first connecting end 42 and the fifth inclined end 325, and the gap between the concave groove 41 and the first arc end 326. The connecting rod assembly 5 includes a rod body 51, a slide rod 52 and a fixed rod 53. The upper front end of the rod body 51 is inserted with the slide rod 52, and the lower front end of the rod body 51 is inserted with the fixed rod 53. One end of the fixed rod 53 passes through the rod body 51 and is inserted into the bottom of the front of the box body 1.
[0069] When applying:
[0070] When the conduit 2 is pressed down, under the action of the spring 6, the slide rod 52 moves sequentially along the fourth oblique end 324, the fifth oblique end 325, and the first arc end 326 until it is stuck in the concave groove 41. When the spring 6 returns to its original position, the slide rod 52 moves sequentially along the first oblique end 321, the second oblique end 322, and the third oblique end 323 until it is stuck at the bottom of the third oblique end 323, thus completing the fixation.
[0071] Example 4:
[0072] Example 4 is basically the same as Example 1, except that:
[0073] Box 1 is set between the raw yarn system A and the cooling and twisting system C. The raw yarn goes to the heating box, then to the cooling and twisting system C within the blue box, and finally to the finished yarn system B in the middle after being oiled and wound into a finished product.
[0074] The above description is only a preferred embodiment of the present invention. The scope of protection of the present invention is not limited to the above embodiments. Any equivalent modifications or changes made by those skilled in the art based on the content disclosed in the present invention should be included within the scope of protection set forth in the claims.
Claims
1. A thermobonding machine hot box plug-in guide system characterized by: The hot box plug-in wire guide system of the texturing machine includes a box (1), a guide tube (2), a slider (3), a connecting rod assembly (5), a spring (6), a clamping assembly (7), and a partition (8); The inner wall of the box (1) is slidably connected to a slider (3). A partition (8) is installed on the inner wall of the box (1) below the slider (3). A guide hole (11) is opened on the top of the box (1). One end of the guide (2) passes through the guide hole (11) and the slider (3) in sequence and extends to the bottom of the partition (8). A clamping assembly (7) is provided on the side wall of the guide (2) below the partition (8). The top of the spring (6) is connected to the bottom of the slider (3), and the bottom of the spring (6) is connected to the top of the partition (8). The spring (6) is sleeved on the side wall of the guide (2). The slider (3) has a groove (32) on its front side, and a locking block (4) is provided in the groove (32). The slider (52) of the connecting rod assembly (5) is embedded between the groove (32) and the locking block (4). The bottom of the connecting rod assembly (5) is connected to the bottom of the front side of the box (1). The bottom of the box (1) has a through hole (12) for the guide wire tube to enter and exit. The through hole (12) and the guide tube hole (11) are coaxially arranged. The clamping assembly (7) includes two sets of opposing mechanical claws (71); The mechanical claw (71) includes a first clamping plate (710), a second clamping plate (74), a third clamping plate (75), and a clamping claw (79). One end of the first clamping plate (710) is provided with a slot (72), which is engaged with the guide tube (2). The other end of the first clamping plate (710) is provided with a movable slot (73). One end of the third clamping plate (75) is provided with two movable slots (76). The movable slot (73) and the two movable slots (76) are movably connected through the second clamping plate (74). The other end of the third clamping plate (75) is connected to one end of the clamping claw (79). The side of the first clamping plate (710) is provided with a moving slot (711) that communicates with the slot (72). The inner wall of the box (1) is equipped with a limit post (9) corresponding to the moving slot (711). The limit post (9) and the moving slot (711) are slidably engaged. The front of the first clamping plate (710) is provided with a fixing pin (77) that is inserted into the box body (1), and the front of the third clamping plate (75) is provided with two fixing pins (78) that are inserted into the box body (1). The first clamping plate (710) and the third clamping plate (75) are arranged vertically. The top of the gripper (79) is an inclined surface, and its inclination gradually decreases from far to near along the guide tube (2); Clamping blocks (21) are provided on the left and right sides of the conduit (2), and one end of the clamping block (21) is embedded in the slot (72) for movable connection; The groove (32) includes a first inclined end (321), a second inclined end (322), a third inclined end (323), a fourth inclined end (324), a fifth inclined end (325), a first arc end (326), and a second arc end (327). One end of the first inclined end (321) is connected to one end of the second inclined end (322), the other end of the second inclined end (322) is connected to one end of the third inclined end (323), the other end of the third inclined end (323) is connected to one end of the fourth inclined end (324), the other end of the fourth inclined end (324) is connected to one end of the fifth inclined end (325), the other end of the fifth inclined end (325) is connected to one end of the first arc end (326), the other end of the first arc end (326) is connected to one end of the second arc end (327), and the other end of the second arc end (327) is connected to the other end of the first inclined end (321). The method of using the texturing machine's hot box pluggable wire guide system is as follows: The guide wire is inserted into the guide tube (2) and runs through the entire box (1). When the guide wire needs to be replaced, press down on the guide tube (2) to cause the spring (6) to deform on the partition (8). At this time, the slide rod (52) will move upward along the left side of the slide groove (32) and bring the slide rod (52) to the top of the locking block (4) for fixation. At the same time, the clamping assembly (7) opens and the guide wire is released, so that the guide wire can be removed for replacement. When it needs to be fixed, release the guide tube (2), the spring (6) returns to its original state, and the slide rod (52) slides along the right side of the slide groove (32) to the bottom of the slide groove (32). At this time, the clamping assembly (7) clamps the guide wire.
2. The hot box plug-type godet system of an elasticizer machine according to claim 1, characterized in that: The top of the slider (3) has a through-hole (31), and one end of the conduit (2) passes through the through-hole (31) and extends to the bottom of the partition (8).
3. The hot box plug-type godet system of claim 1, wherein: The card block (4) includes a concave groove (41) on the top and a first connecting end (42) and a second connecting end (43) symmetrically arranged on the side. The left and right ends of the concave groove (41) are respectively connected to one end of the two first connecting ends (42), and the other end of the two first connecting ends (42) is respectively connected to one end of the two second connecting ends (43). The other end of the two second connecting ends (43) is connected.
4. The hot box plug-type godet system of claim 3, wherein: When the slide bar (52) moves downward, it moves sequentially along the gap between the first inclined end (321) and the concave groove (41), the gap between the second inclined end (322) and the first connecting end (42), and the gap between the third inclined end (323) and the second connecting end (43); When the slide bar (52) moves upward, it moves sequentially along the gap between the second connecting end (43) and the fourth oblique end (324), the gap between the first connecting end (42) and the fifth oblique end (325), and the gap between the concave groove (41) and the first arc end (326).
5. The hot box plug-type godet system of claim 1, wherein: The linkage assembly (5) includes a rod body (51), a slide rod (52) and a fixed rod (53). The slide rod (52) is inserted into the upper front end of the rod body (51), and the fixed rod (53) is inserted into the lower front end of the rod body (51). One end of the fixing rod (53) passes through the rod body (51) and is inserted into the bottom of the front of the box body (1).