Anti-deviation compression mechanism formed by splicing fiber fabric

By designing an anti-deviation clamping mechanism, the problem of lack of clamping mechanism during thermal bonding of fiber fabrics is solved, realizing automatic clamping and fixing, which is suitable for large-scale production.

CN224465285UActive Publication Date: 2026-07-07SUZHOU JIEDA CLEAN TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU JIEDA CLEAN TECH CO LTD
Filing Date
2025-08-11
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing fiber fabrics lack a pressing mechanism during thermal bonding and splicing, which requires manual pressing, resulting in high labor intensity and inconvenience for large-scale production.

Method used

An anti-deviation pressing mechanism was designed, including a pressing machine base, a worktable, a limiting slide groove, a limiting slider, a rotating connecting shaft, and a fastening screw. Through the cooperation of these components, the fabric is automatically pressed and fixed to prevent deviation.

Benefits of technology

It achieves stable pressing of fiber fabrics during the thermal bonding process, reduces manual labor intensity, and is suitable for large-scale production.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224465285U_ABST
    Figure CN224465285U_ABST
Patent Text Reader

Abstract

The utility model relates to the technical field of fabric splicing, and disclose a kind of anti-deviation compression mechanism of fiber fabric splicing forming, including presser bar seat, the top of presser bar seat is provided with presser bar main body, the top of presser bar seat is provided with workbench, the side of workbench is provided with anti-deviation compression assembly, the utility model is provided with anti-deviation compression assembly on presser bar seat, wherein the compression of anti-deviation compression assembly Resisting contact board is rotatably arranged on the top of limiting sliding block by rotating connecting shaft, and limiting sliding block is slidably inserted in limiting sliding slot, so that the position adjustment of compression Resisting contact board on the top of workbench is more convenient, the two sides of rotating connecting plate are fixed by fastening screw cap on fastening screw rod, effectively prevent the possibility of fiber fabric from deviating during splicing, so that fabric heat bonding is more stable, and the device can quickly complete the compression of fabric splicing, meet the processing needs of user.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of fabric splicing technology, specifically to an anti-deviation pressing mechanism for splicing fiber fabrics. Background Technology

[0002] Fiber fabrics, also known as textile materials, are structured materials formed from fibrous substances through textile processing. The splicing and forming of fiber fabrics is the process of connecting different pieces or fabrics into a complete fabric or product through specific processes. The method must be selected according to the characteristics of the fabric (such as fiber type, thickness, elasticity, etc.), the product use (clothing, home furnishing, industrial use, etc.) and the performance requirements (strength, aesthetics, washability, etc.).

[0003] A search revealed that this utility model relates to the field of fiber fabric processing technology, specifically a novel fiber fabric processing device, with authorized Chinese patent publication number CN 222349307 U. The technical solution includes: a mounting panel, a top plate, and a housing. A storage box and the housing are welded to the top surface of the mounting panel. A dyeing cylinder is mounted on the bottom surface of the inner wall of the housing. A hydraulic rod is mounted on the top surface of the housing, and a frame is mounted on the output shaft of the hydraulic rod. A housing is mounted on the side surface of the frame. A drive mechanism is installed inside the housing, and a limit wheel is mounted on the output shaft of the drive mechanism. A second hydraulic rod is mounted on the top surface of the top plate, and a second frame is mounted on the output shaft of the second hydraulic rod. A second drive mechanism is mounted on the side surface of the second frame. Bearings are mounted at both ends of the inner wall of the second frame. A fiber fabric body is housed inside the housing. This utility model satisfies the requirements of fiber fabric dyeing processing, and after processing, excess dye can be collected and treated to prevent dye dripping from affecting the processing environment.

[0004] The fabric splicing in the above-mentioned patent still has some shortcomings. Because existing fiber fabrics lack corresponding pressing mechanisms when performing thermal bonding splicing, most of them are still manually pressed by hand. Manual pressing and alignment is labor-intensive and not convenient for large-scale thermal bonding fabric splicing processing operations, which does not meet the processing and use needs of users. Utility Model Content

[0005] To address the shortcomings of existing technologies, this utility model provides an anti-deviation pressing mechanism for splicing fiber fabrics. This solves the problem that existing fiber fabrics lack corresponding pressing mechanisms during thermal bonding splicing, and most of the time the fabric is still manually pressed. However, manual pressing and alignment is labor-intensive and not convenient for large-scale thermal bonding fabric splicing operations, which does not meet the processing and usage needs of users.

[0006] This utility model provides the following technical solution: a fiber fabric splicing anti-deviation pressing mechanism, including a pressing machine base, a pressing machine body is provided on the top of the pressing machine base, a worktable is provided on the top of the pressing machine base, and an anti-deviation pressing component is provided on the side of the worktable.

[0007] The anti-deviation clamping assembly includes a support connecting plate fixed to the side of the workbench. Two limiting slide grooves are symmetrically opened on both sides of the top of the support connecting plate. A limiting slider is slidably inserted in each limiting slide groove. Two fixed connecting plates are symmetrically fixed to the top of the limiting slider. A pressing contact plate is provided between the two fixed connecting plates. A rotating through hole is opened at the end of the pressing contact plate. A rotating connecting shaft is inserted through the rotating through hole. Both ends of the rotating connecting shaft are rotatably connected to the inner wall of the fixed connecting plate. A side support plate is fixed to the top of the side of the heat press base. A rotating groove is opened at the top of the side support plate. A rotating connecting plate is provided in the rotating groove. A fixed pressing plate is vertically arranged on the rotating connecting plate.

[0008] Preferred technical solution 1: Two limiting through holes are symmetrically opened on both sides of the side support plate, and two fastening screws are symmetrically arranged at both ends of the rotating connecting plate.

[0009] Preferred technical solution 2: The ends of the fastening screws all penetrate the limiting through holes, and fastening nuts are fitted on the fastening screws.

[0010] Preferred technical solution 3: The longitudinal sections of both the limiting slider and the limiting groove are trapezoidal.

[0011] This solution enables the limit slider to slide more stably in the limit groove and prevents it from falling off.

[0012] Preferred technical solution four: A handle is provided on the top side of the end of the pressing contact plate.

[0013] This solution makes it easier for users to rotate the pressure plate.

[0014] Preferred technical solution five: The fixed pressure plate abuts against the end of the pressing contact plate as the rotating connecting plate rotates.

[0015] This solution enables the fixed pressure plate to abut and fix the end of the pressing contact plate.

[0016] Compared with the prior art, this utility model provides an anti-deviation pressing mechanism for splicing fiber fabrics, which has the following advantages: This utility model provides an anti-deviation pressing component on the heat press base. The pressing contact plate in the anti-deviation pressing component is rotatably mounted on the top of the limiting slider via a rotating connecting shaft. The limiting slider is slidably inserted in the limiting groove, which makes it easier to adjust the position of the pressing contact plate on the top of the worktable. After the pressing contact plate rotates, it can limit and abut against the fabric to be spliced ​​on the top of the worktable. By rotating the rotating connecting plate, the end of the rotating connecting plate abuts and fixes against the end of the pressing contact plate. The two sides of the rotating connecting plate are fixed to the fastening screw by fastening nuts. Thus, the pressing contact plate can press the fabric placed on the top of the worktable against the worktable, effectively preventing the possibility of the fiber fabric shifting during splicing. This makes the fabric more stable during heat bonding, and the device can quickly complete the pressing of the spliced ​​fabric, meeting the user's processing needs. Attached Figure Description

[0017] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;

[0018] Figure 2 For the present utility model Figure 1 Schematic diagram of the anti-offset clamping assembly;

[0019] Figure 3 For the present utility model Figure 2 Enlarged view of the structure of the central support connecting plate;

[0020] Figure 4 For the present utility model Figure 2 Enlarged view of the middle side support plate.

[0021] In the diagram: 1. Steamer base; 2. Steamer body; 3. Workbench; 4. Anti-deviation pressing assembly; 401. Support connecting plate; 402. Limiting groove; 403. Limiting slider; 404. Fixed connecting plate; 405. Pressing contact plate; 406. Rotating perforation; 407. Rotating connecting shaft; 408. Side support plate; 409. Rotating groove; 410. Rotating connecting plate; 411. Fixed pressing plate; 412. Limiting perforation; 413. Fastening screw; 414. Fastening nut. Detailed Implementation

[0022] Please see Figure 1-4 ,

[0023] Example 1: A fiber fabric splicing anti-deviation pressing mechanism includes a heat press base 1, a heat press body 2 is provided on the top of the heat press base 1, a worktable 3 is provided on the top of the heat press base 1, and an anti-deviation pressing component 4 is provided on the side of the worktable 3.

[0024] The anti-deviation clamping assembly 4 includes a support connecting plate 401 fixed to the side of the workbench 3. Two limiting slide grooves 402 are symmetrically opened on both sides of the top of the support connecting plate 401. A limiting slider 403 is slidably inserted in each limiting slide groove 402. Two fixed connecting plates 404 are symmetrically fixed to the top of the limiting slider 403. A clamping contact plate 405 is provided between the two fixed connecting plates 404. A rotating through hole 406 is opened at the end of the clamping contact plate 405. A rotating connecting shaft 407 is inserted through the rotating through hole 406. Both ends of the rotating connecting shaft 407 are rotatably connected to the inner wall of the fixed connecting plate 404.

[0025] A side support plate 408 is fixed to the top of the side of the heat press base 1. A rotating groove 409 is opened at the top of the side support plate 408. A rotating connecting plate 410 is arranged in the rotating groove 409. A fixed pressing plate 411 is vertically arranged on the rotating connecting plate 410. Two limiting holes 412 are symmetrically opened on both sides of the side support plate 408. Two fastening screws 413 are symmetrically arranged at both ends of the rotating connecting plate 410. The ends of the fastening screws 413 all pass through the limiting holes 412. A fastening nut 414 is fitted on each fastening screw 413.

[0026] Example 2: The difference between this example and Example 1 is that the longitudinal sections of both the limiting slider 403 and the limiting groove 402 are trapezoidal.

[0027] This makes the sliding movement of the limiting slider 403 in the limiting groove 402 more stable and prevents it from falling off.

[0028] Example 3: The difference between this example and Example 1 is that a handle is provided on the top side of the end of the pressing contact plate 405.

[0029] This makes it easier for users to rotate the pressing contact plate 405.

[0030] Example 4: The difference between this example and Example 1 is that the fixed pressing plate 411 abuts against the end of the pressing contact plate 405 as the rotating connecting plate 410 rotates.

[0031] This allows the fixed pressure plate 411 to abut and fix the end of the pressing contact plate 405.

[0032] In this embodiment, since existing fiber fabrics lack corresponding pressing mechanisms when performing thermal bonding splicing, most of the time the fabric is still manually pressed. Manual pressing and alignment is labor-intensive and not convenient for large-scale thermal bonding fabric splicing operations, which does not meet the processing and usage needs of users.

[0033] In summary, when users need to form and splice two pieces of fiber fabric, they first place the two pieces of fabric on the top of the workbench 3 at the bottom of the main body 2 of the heat press machine, and then adjust the joint of the two fiber fabrics to be neat.

[0034] Next, by sliding the limiting slider 403 in the anti-offset pressing assembly 4 in the limiting groove 402, the limiting slider 403 is displaced to an appropriate position on the top side of the fabric by rotating the pressing contact plate 405 connected to the rotating connecting shaft 407. By rotating the pressing contact plate 405, the bottom end of the pressing contact plate 405 is made to fit and abut against the top of the fabric.

[0035] Finally, the user rotates the rotating connecting plate 410 located in the rotating groove 409. Since both ends of the rotating connecting plate 410 are connected by fastening screws 413 passing through the limiting holes 412, the rotating connecting plate 410 can rotate within the rotating groove 409. This causes the rotating connecting plate 410 to drive the fixed pressing plate 411 to abut against the bottom side of the pressing contact plate 405. The user then places a fastening nut 414 on the fastening screw 413 and rotates the fastening screw 413 to tighten the contact plate. The nut 414 abuts against the side of the side support plate 408 through the fastening screw 413, fixing both ends of the rotating connecting plate 410. After the end of the pressing contact plate 405 is pressed against the fixed pressure plate 411, the pressing contact plate 405 can press the fabric to be spliced ​​and heat-bonded, thereby effectively preventing the possibility of the fiber fabric shifting during the splicing process, making the fabric heat-bonded more stable. Moreover, the device can quickly complete the pressing of the fabric splicing, which meets the user's processing needs.

Claims

1. A fiber fabric splicing anti-deviation pressing mechanism, comprising a heat press base (1), wherein a heat press body (2) is disposed on the top of the heat press base (1), characterized in that: The top of the heat press base (1) is provided with a worktable (3), and the side of the worktable (3) is provided with an anti-displacement pressing component (4); The anti-deviation clamping assembly (4) includes a support connecting plate (401) fixed to the side of the workbench (3). Two limiting grooves (402) are symmetrically opened on both sides of the top of the support connecting plate (401). A limiting slider (403) is slidably inserted in each of the limiting grooves (402). Two fixing connecting plates (404) are symmetrically fixed to the top of the limiting slider (403). A clamping contact plate (405) is provided between the two fixing connecting plates (404). The end of the clamping contact plate (405) has a rotating opening. A perforation (406) is provided, and a rotating connecting shaft (407) is inserted through the rotating perforation (406). Both ends of the rotating connecting shaft (407) are rotatably connected to the inner wall of the fixed connecting plate (404). A side support plate (408) is fixed at the top of the side of the heat press base (1). A rotating groove (409) is provided at the top of the side support plate (408). A rotating connecting plate (410) is provided in the rotating groove (409). A fixed pressing plate (411) is vertically provided on the rotating connecting plate (410).

2. The anti-deviation pressing mechanism for splicing fiber fabrics according to claim 1, characterized in that: The side support plate (408) has two symmetrically arranged limiting holes (412) on both sides, and the rotating connecting plate (410) has two symmetrically arranged fastening screws (413) at both ends.

3. The anti-deviation pressing mechanism for splicing fiber fabrics according to claim 2, characterized in that: The ends of the fastening screws (413) all penetrate the limiting through holes (412), and fastening nuts (414) are fitted on the fastening screws (413).

4. The anti-deviation pressing mechanism for splicing fiber fabrics according to claim 3, characterized in that: The longitudinal sections of both the limiting slider (403) and the limiting groove (402) are trapezoidal.

5. The anti-deviation pressing mechanism for splicing fiber fabrics according to claim 4, characterized in that: A handle is provided on the top side of the end of the pressing contact plate (405).

6. The anti-deviation pressing mechanism for splicing fiber fabrics according to claim 5, characterized in that: The fixed pressure plate (411) abuts against the end of the pressing contact plate (405) as the rotating connecting plate (410) rotates.