A fixing test device for cotton-polyester blended fabric
By designing a color-fixation testing device for cotton-nylon blended fabrics, and using a tracked opening structure and a transmission belt electric telescopic rod, the problems of inconvenience and large footprint of traditional devices are solved, achieving the effects of rapid opening and component protection.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG HAIHONG DYEING PRINTING
- Filing Date
- 2025-05-06
- Publication Date
- 2026-06-19
AI Technical Summary
Traditional experimental color fixation testing devices can only operate on a single container, and each container has an independent top cover, which makes them inconvenient to use and requires a large area.
A color-fixation testing device for cotton-nylon blended fabrics was designed, comprising a water tank, a vertical plate, a transverse slide seat, a shielding mechanism, a vibration mechanism, and a box mechanism. It adopts a tracked opening structure to achieve a quick opening function, and enhances the sealing performance and protects the internal components of the device through the cooperation of a transmission belt and an electric telescopic rod.
It features a quick flip-top function, reduces floor space, improves ease of use, and enhances protection for internal components.
Smart Images

Figure CN224383080U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of color fixation testing equipment, specifically a color fixation testing device for cotton-nylon blended fabrics. Background Technology
[0002] Traditional colorfastness testing often uses a single container, testing only a single piece of fabric at a time. However, existing multi-container testing devices have independent lids for each chamber, requiring personnel to open them sequentially after the test, which is extremely inconvenient for users. Utility Model Content
[0003] (a) Technical problems to be solved
[0004] To address the shortcomings of existing technologies, this utility model provides a color-fixation testing device for cotton-nylon blended fabrics.
[0005] (II) Technical Solution
[0006] To achieve the above objectives, this utility model provides the following technical solution: a color-fixing testing device for cotton-nylon blended fabrics, comprising a water tank, a vertical plate, a transverse slide seat, a shielding mechanism, an oscillation mechanism, and two box-shaped mechanisms. The vertical plate is vertically mounted on the water tank, and the transverse slide seat is mounted on the vertical plate. The box-shaped mechanisms are mounted on the transverse slide seat, and the shielding mechanism is fitted onto the box-shaped mechanism. The shielding mechanism is slidably engaged with the transverse slide seat, and the oscillation mechanism is mounted on the transverse slide seat. The oscillation mechanism corresponds to a transmission belt, and the other box-shaped mechanism is hinged to the box-shaped mechanism located on the transverse slide seat.
[0007] Preferably, the blocking mechanism includes two main drive sliders, two main electric telescopic rods, two mounting plates, and multiple drive shafts. The main drive sliders are slidably fitted onto the side of the transverse slide block, and the semi-shell is transversely disposed on the main drive sliders. The mounting plates are disposed on the movable ends of the main electric telescopic rods. The multiple drive shafts are arranged at equal angles to the front of the mounting plates, centered on the mounting plates.
[0008] Preferably, the shielding mechanism further includes a transmission belt, which is sleeved on multiple drive shafts. The top of the transmission belt has multiple openings, and the bottom of the transmission belt has multiple transparent rubber sheets.
[0009] Preferably, the housing mechanism includes a semi-shell, a limiting rod, and multiple electrically operated telescopic rods. A groove is formed on the top edge of the semi-shell, and the electrically operated telescopic rods are vertically positioned on the front of the semi-shell. The limiting rod is slidably engaged within the groove, and the limiting rod is connected to the movable end of the electrically operated telescopic rod.
[0010] Preferably, the housing mechanism further includes multiple sliding partitions and an agitating roller, with the sliding partitions movably engaged within the semi-shell. The agitating roller is pivotally connected between two adjacent sliding partitions.
[0011] Preferably, the oscillation mechanism includes a connecting rod, a slide rail, a drive slider, a motor, and an eccentric wheel. The connecting rod is vertically mounted on the top of the upright plate, and the slide rail is horizontally mounted on the connecting rod. The drive slider is slidably engaged with the slide rail, and the motor is mounted on the drive slider. The eccentric wheel is mounted on the output end of the motor and is in contact with the transparent plastic sheet.
[0012] (III) Beneficial Effects
[0013] This invention provides a device for testing the colorfastness of cotton-nylon blended fabrics. It has the following beneficial effects:
[0014] 1. This cotton-nylon blended fabric color-fixing testing device, through the coordinated arrangement of a water tank, upright plate, transverse slide seat, shielding mechanism, vibration mechanism, and two box-type mechanisms, features a tracked opening structure, enabling rapid opening and closing, greatly facilitating user operation. Furthermore, the tracked structure occupies a small area and encloses the entire device, significantly enhancing the protection of its internal components. Attached Figure Description
[0015] Figure 1 This is the first perspective view of the present utility model;
[0016] Figure 2 This is a second perspective view of the present invention;
[0017] Figure 3 This is the third perspective view of the present invention;
[0018] Figure 4 This is the fourth perspective view of the present utility model.
[0019] In the diagram: 1. Water storage tank, 2. Vertical plate, 3. Electric telescopic rod, 4. Box body mechanism, 5. Blocking mechanism, 6. Transmission belt, 7. Limiting rod, 8. Slide rail, 9. Connecting rod, 10. Opening, 11. Vibration mechanism, 12. Drive slider, 13. Motor, 14. Eccentric wheel, 15. Slide groove, 16. Mounting plate, 17. Drive shaft, 18. Half shell, 19. Main electric telescopic rod, 20. Main drive slider, 21. Horizontal slide seat, 22. Sliding partition, 23. Agitating roller, 24. Transparent plastic sheet. Detailed Implementation
[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0021] This utility model embodiment provides a color fixation testing device for cotton-nylon blended fabrics, such as... Figure 1-4 As shown, the system includes a water tank 1, a vertical plate 2, a horizontal slide seat 21, a shielding mechanism 5, a vibration mechanism 11, and two housing mechanisms 4. The vertical plate 2 is vertically mounted on the water tank 1, and the horizontal slide seat 21 is mounted on the vertical plate 2. The housing mechanism 4 is mounted on the horizontal slide seat 21, and the shielding mechanism 5 is fitted onto the housing mechanism 4. The shielding mechanism 5 is slidably fitted onto the horizontal slide seat 21, and the vibration mechanism 11 is mounted on the horizontal slide seat 21. The vibration mechanism 11 corresponds to the transmission belt 6, and the other housing mechanism 4 is hinged to the housing mechanism 4 located on the horizontal slide seat 21.
[0022] The shielding mechanism 5 includes two main drive sliders 20, two main electric telescopic rods 19, two mounting plates 16, and multiple drive shafts 17. The main drive sliders 20 are slidably fitted onto the side of the transverse slide seat 21, and the semi-shell 18 is transversely disposed on the main drive sliders 20. The mounting plates 16 are disposed on the movable ends of the main electric telescopic rods 19. The multiple drive shafts 17 are disposed at equal angles to the front of the mounting plates 16 with the mounting plates 16 as the center.
[0023] The shielding mechanism 5 also includes a transmission belt 6, which is sleeved on multiple drive shafts 17. The top of the transmission belt 6 has multiple openings 10, and the bottom of the transmission belt 6 is provided with multiple transparent plastic plates 24.
[0024] The housing mechanism 4 includes a semi-shell 18, a limiting rod 7, and multiple electrically operated telescopic rods 3. A groove 15 is formed on the top edge of the semi-shell 18, and the electrically operated telescopic rods 3 are vertically positioned on the front of the semi-shell 18. The limiting rod 7 is slidably fitted within the groove 15, and the limiting rod 7 is connected to the movable end of the electrically operated telescopic rod 3.
[0025] The housing mechanism 4 also includes multiple sliding partitions 22 and agitating rollers 23. The multiple sliding partitions 22 are movably engaged within the semi-shell 18. The agitating rollers 23 are pivotally connected between two adjacent sliding partitions 22.
[0026] The oscillation mechanism 11 includes a connecting rod 9, a slide rail 8, a drive slider 12, a motor 13, and an eccentric wheel 14. The connecting rod 9 is vertically mounted on the top of the upright plate 2, and the slide rail 8 is horizontally mounted on the connecting rod 9. The drive slider 12 is slidably fitted onto the slide rail 8, and the motor 13 is mounted on the drive slider 12. The eccentric wheel 14 is mounted on the output end of the motor 13 and is in contact with the transparent plastic plate 24.
[0027] Working Principle: In operation, multiple drive shafts 17 are first controlled to operate. This drives the transmission belt 6 so that the side with the opening 10 aligns with the top opening of the half-shell 18, facilitating the insertion of the test fabric. Next, the drive shafts 17 move the transparent sheet 24 to the top opening of the half-shell 18, while simultaneously controlling the electric telescopic rod 3 to raise the limiting rods 7, thus restricting the two sides of the transmission belt 6 and enhancing its seal with the top opening of the half-shell 18. Then, the agitating roller 23 is aligned and agitated for cleaning. After cleaning, the drive slider 12 moves along the slide rail 8, while the motor 13 drives the eccentric wheel 14 to tap the transparent sheet 24, cleaning any residual liquid adsorbed on its inner side. Next, the main drive slider 20 removes the transmission belt 6 from the half-shell 18, allowing the test sample to be removed. Simultaneously, the front half-shell 18 is folded over to quickly drain the waste liquid, facilitating the next test.
[0028] In summary, this cotton-nylon blended fabric color-fixing testing device, through the coordinated arrangement of a water storage tank 1, a vertical plate 2, a transverse slide seat 21, a shielding mechanism 5, a vibration mechanism 11, and two box-type mechanisms 4, features a tracked opening structure that enables rapid opening and closing, greatly facilitating user operation. Furthermore, the tracked structure occupies a small area and encloses the entire device, significantly enhancing the protection of its internal components.
[0029] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A device for testing the colorfastness of cotton-nylon blended fabrics, characterized in that: The device includes a water tank (1), a vertical plate (2), a horizontal slide seat (21), a shielding mechanism (5), an oscillation mechanism (11), and two box mechanisms (4). The vertical plate (2) is vertically mounted on the water tank (1). The horizontal slide seat (21) is mounted on the vertical plate (2). The box mechanism (4) is mounted on the horizontal slide seat (21). The shielding mechanism (5) is fitted onto the box mechanism (4). The shielding mechanism (5) is slidably fitted onto the horizontal slide seat (21). The oscillation mechanism (11) is mounted on the horizontal slide seat (21). The oscillation mechanism (11) corresponds to the transmission belt (6). The other box mechanism (4) is hinged to the box mechanism (4) located on the horizontal slide seat (21).
2. The color-fixation testing device for cotton-nylon blended fabrics according to claim 1, characterized in that: The shielding mechanism (5) includes a half-shell (18), two main drive sliders (20), two main electric telescopic rods (19), two mounting plates (16), and multiple drive shafts (17). The main drive sliders (20) are slidably fitted on the side of the transverse slide seat (21). The half-shell (18) is transversely arranged on the main drive sliders (20). The mounting plates (16) are arranged on the movable end of the main electric telescopic rods (19). The multiple drive shafts (17) are arranged at equal angles to the front of the mounting plates (16) with the mounting plates (16) as the center.
3. The color-fixation testing device for cotton-nylon blended fabrics according to claim 1, characterized in that: The shielding mechanism (5) also includes a transmission belt (6), which is sleeved on multiple drive shafts (17). Multiple openings (10) are provided on the top of the transmission belt (6), and multiple transparent rubber plates (24) are provided on the bottom of the transmission belt (6).
4. The color-fixation testing device for cotton-nylon blended fabrics according to claim 1, characterized in that: The box mechanism (4) includes a half shell (18), a limiting rod (7) and multiple electric telescopic rods (3). The top edge of the half shell (18) is provided with a sliding groove (15). The electric telescopic rods (3) are vertically arranged on the front of the half shell (18). The limiting rod (7) is slidably engaged in the sliding groove (15). The limiting rod (7) is connected to the movable end of the electric telescopic rod (3).
5. The color-fixation testing device for cotton-nylon blended fabrics according to claim 1, characterized in that: The housing mechanism (4) also includes multiple sliding partitions (22) and agitating rollers (23). The multiple sliding partitions (22) are movably engaged in the half-shell (18), and the agitating rollers (23) are pivotally connected between two adjacent sliding partitions (22).
6. The color-fixation testing device for cotton-nylon blended fabrics according to claim 1, characterized in that: The oscillation mechanism (11) includes a connecting rod (9), a slide rail (8), a drive slider (12), a motor (13), and an eccentric wheel (14). The connecting rod (9) is vertically mounted on the top of the upright plate (2). The slide rail (8) is horizontally mounted on the connecting rod (9). The drive slider (12) is slidably mounted on the slide rail (8). The motor (13) is mounted on the drive slider (12). The eccentric wheel (14) is mounted on the output end of the motor (13). The eccentric wheel (14) is in contact with the transparent plastic plate (24).