A fiber fabric coating material configuration device

By designing a raw material preparation device for fiber fabric coating, the device utilizes support, drive, adjustment, and stirring components to achieve precise proportioning and mixing of raw materials, thus solving the problem of proportioning error in coating raw material preparation and improving processing results.

CN224388535UActive Publication Date: 2026-06-23WUJIANG TUTAIKE TEXTILE & FINISHING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUJIANG TUTAIKE TEXTILE & FINISHING CO LTD
Filing Date
2025-07-02
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

In the existing technology, the raw materials for fiber fabric coating are prone to adhering to the outer surface of the container during the preparation process, resulting in mixing errors and reduced processing effect.

Method used

A fiber fabric coating raw material preparation device was designed, including a support component, a drive component, a proportioning component, an adjustment component, and a stirring component. The adjustment component drives the proportioning component to adjust the ratio, the drive component controls the raw materials to be fed in a fixed ratio, and the stirring component mixes them.

Benefits of technology

It achieves precise control of raw material ratios, avoids ratio errors, and improves the processing effect of fabric coating.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of fiber fabric coating raw material configuration devices, it is related to fiber fabric application technical field.The utility model includes box body: the box body is separately provided with supporting assembly, driving assembly, proportioning assembly, adjusting assembly and stirring assembly;Supporting assembly, its top end is fixedly installed with the bottom end of driving assembly, to make supporting assembly support driving assembly;Driving assembly, its output end is fixedly connected with one end of proportioning assembly, to make driving assembly drive proportioning assembly and raw material are discharged to the inside of box body according to certain proportioning;The utility model is moved by starting adjusting assembly, to be used to adjust the proportioning between two proportioning assemblies, then starting driving assembly drives the proportioning assembly of output end installation to rotate, to make it can drive raw material to discharge at fixed proportion speed, to avoid the proportioning error between different raw materials in turn, to improve the processing effect of fabric coating.
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Description

Technical Field

[0001] This utility model belongs to the field of fiber fabric application technology, and specifically relates to a fiber fabric coating raw material preparation device. Background Technology

[0002] Fiber fabrics include fine and coarse fibers. Fabrics made from fine fibers are prone to pilling and fuzzing. Coarse fiber fabrics, on the other hand, can be used to make stiff, rugged, and thick fabrics. The length of textile fibers is also closely related to the quality of textiles and products. Longer fiber length, better length uniformity, and a lower content of short fibers are beneficial to textile processing and product quality.

[0003] Fabric coating raw materials are generally two or more that are uniformly mixed, and the raw materials need to be in a certain ratio to achieve a better processing effect. The mixed product is then sprayed onto the surface of the fiber fabric. However, in the existing technology, multiple sets of raw materials are generally prepared and poured directly into the inside of the mixing tank. During the pouring process, the raw materials are prone to adhering to the outer surface of the container, which causes errors in the ratio between the raw materials and reduces the processing effect of the fabric coating.

[0004] There are currently no effective solutions to the problems in the relevant technologies. Utility Model Content

[0005] In view of the problems in the related technologies, this utility model proposes a fiber fabric coating raw material preparation device to overcome the above-mentioned technical problems existing in the existing related technologies.

[0006] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:

[0007] This utility model relates to a device for preparing raw materials for fiber fabric coating, comprising a housing:

[0008] The housing is equipped with a support assembly, a drive assembly, a proportioning assembly, an adjustment assembly, and a stirring assembly.

[0009] The top end of the support component is fixedly installed to the bottom end of the drive component so that the support component supports the drive component.

[0010] The output end of the drive component is fixedly connected to one end of the proportioning component, so that the drive component drives the proportioning component to feed the raw materials into the inside of the box according to a certain proportion.

[0011] The adjusting component is fixedly installed on one side with one end of the proportioning component, so that the adjusting component drives the proportioning component to perform proportional conversion.

[0012] The stirring assembly is rotatably mounted on its outer surface relative to the interior of the housing, so that the stirring assembly can stir and mix the raw materials entering the housing.

[0013] Furthermore, the support assembly includes a support plate, the bottom end of which is fixedly installed with the top end of the housing, the top end of which is fixedly installed with the bottom end of the drive assembly, and a support frame is fixedly connected to the top end of the support plate. The interior of the support frame is rotatably disposed from the outer surface of the proportioning assembly.

[0014] Furthermore, the drive assembly includes a mounting bracket, the bottom end of which is fixedly mounted to the top end of the support plate, and a first motor is fixedly mounted on one side of the mounting bracket, the output end of which is fixedly connected to one end of the proportioning assembly.

[0015] Furthermore, the proportioning component includes two sets of proportioning boxes, the bottom of both sets of proportioning boxes is fixedly installed to the top of the box body, and the interior of both sets of proportioning boxes is rotatably connected to a shaft. One end of the connecting shaft is fixedly connected to an installation cylinder, and the outer surface of the installation cylinder is provided with proportioning gears.

[0016] One end of one set of mounting cylinders is fixedly connected to the output end of the first motor, the outer surface of another set of mounting cylinders is rotatably connected to the inside of the support frame, a cross shaft is slidably arranged inside one set of connecting shafts, a spring is fixedly connected inside the cross shaft, a wedge is fixedly connected to one end of the spring, the outer surface of the wedge engages with the keyway opened inside the proportioning gear, and one end of the cross shaft is fixedly connected to one side of the adjustment component.

[0017] Furthermore, the adjustment assembly includes an electric push rod, one side of which is fixedly installed on one side of the support frame, and a connecting plate is fixedly installed on the telescopic end of the electric push rod, one side of which is fixedly connected to one end of the cross shaft.

[0018] Furthermore, the stirring assembly includes a fixing frame, one side of which is fixedly installed to one side of the housing, a second motor is fixedly installed on one side of the fixing frame, a stirring shaft is fixedly connected to the output end of the second motor, and a stirring rod is fixedly installed on the outer surface of the stirring shaft.

[0019] Furthermore, a feeding pipe is fixedly connected to one side of the box, and a valve is fixedly installed inside the feeding pipe.

[0020] This utility model has the following beneficial effects:

[0021] 1. This utility model activates the adjustment component, which drives the proportioning component to move, thereby adjusting the proportion between the two proportioning components. Then, the drive component is activated to drive the proportioning component installed at the output end to rotate, so that the raw materials can be fed at a fixed speed, thereby avoiding errors in the proportion between different raw materials and improving the processing effect of the fabric coating.

[0022] 2. This utility model moves the connecting plate installed on the telescopic end by activating an electric push rod, which in turn moves the cross shaft installed on one side, causing the internally sliding wedge to move. Since the outer surface of the wedge slides with the inside of the cross shaft, and a spring is fixedly connected to the bottom of the wedge, when the cross shaft moves the wedge inside the mounting cylinder, the wedge retracts into the mounting cylinder, compressing the spring. Since the multiple sets of gear ratios rotate in integer revolutions, the keyways inside them always correspond, allowing the cross shaft to drive the wedge to engage with the keyway inside one set of gear ratios, thereby achieving the purpose of changing the gear ratio.

[0023] Of course, any product implementing this utility model does not necessarily need to achieve all of the advantages described above at the same time. Attached Figure Description

[0024] To more clearly illustrate the technical solutions of the utility model embodiments, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0025] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0026] Figure 2 This is a schematic diagram of the structure of this utility model from a rear-view perspective;

[0027] Figure 3 This is a top-view structural schematic diagram of the present invention;

[0028] Figure 4 For the present utility model Figure 3 Enlarged schematic diagram of the local structure at point A;

[0029] Figure 5 This is a schematic diagram of the internal structure of the proportioning component of this utility model;

[0030] Figure 6 For the present utility model Figure 5 An enlarged schematic diagram of the local structure at point B.

[0031] The attached diagram lists the components represented by each number as follows:

[0032] 1. Housing; 2. Support assembly; 201. Support plate; 202. Support frame; 3. Drive assembly; 301. Mounting frame; 302. First motor; 4. Proportioning assembly; 401. Proportioning box; 402. Connecting shaft; 403. Mounting cylinder; 404. Proportioning gear; 405. Cross shaft; 406. Spring; 407. Wedge block; 5. Adjustment assembly; 501. Electric push rod; 502. Connecting plate; 6. Stirring assembly; 601. Fixing frame; 602. Second motor; 603. Stirring shaft; 604. Stirring rod; 7. Discharge pipe; 8. Valve. Detailed Implementation

[0033] The technical solutions of the utility model embodiments will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the utility model, and not all embodiments. Based on the embodiments of the utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the utility model.

[0034] In the description of this utility model, it should be understood that the terms "opening", "upper", "lower", "top", "middle", "inner", etc., which indicate orientation or positional relationship, are only for the convenience of describing the utility model and simplifying the description, and do not indicate or imply that the components or elements referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the utility model.

[0035] Please see Figures 1-6 As shown, this utility model is a fiber fabric coating raw material preparation device, including a box 1:

[0036] The housing 1 is respectively equipped with a support component 2, a drive component 3, a proportioning component 4, an adjustment component 5, and a stirring component 6;

[0037] The top end of the support component 2 is fixedly installed to the bottom end of the drive component 3 so that the support component 2 supports the drive component 3.

[0038] The output end of the drive component 3 is fixedly connected to one end of the proportioning component 4, so that the drive component 3 drives the proportioning component 4 to feed the raw materials into the interior of the box 1 according to a certain proportion.

[0039] The adjusting component 5 is fixedly installed on one side with one end of the proportioning component 4, so that the adjusting component 5 drives the proportioning component 4 to perform proportional conversion.

[0040] The stirring component 6 is rotatably mounted on its outer surface relative to the interior of the housing 1, so that the stirring component 6 can stir and mix the raw materials entering the housing 1.

[0041] In use, different raw materials are poured into the two sets of proportioning components 4 respectively, and then the adjustment component 5 is activated to move the proportioning component 4 to adjust the proportion between the two sets of proportioning components 4. Then, the drive component 3 is activated to drive the proportioning component 4 installed at the output end to rotate so that it can drive the raw materials to be fed at a fixed speed. Since the inside of the proportioning component 4 is connected to the inside of the box 1, the raw materials can fall into the inside of the box 1 in a fixed proportion through the proportioning component 4. Then, the stirring component 6 is activated to stir and mix the raw materials that enter the box 1.

[0042] This invention activates the adjustment component 5, which drives the proportioning component 4 to move, thereby adjusting the proportion between the two proportioning components 4. Then, the drive component 3 is activated to drive the proportioning component 4 installed at the output end to rotate, so that the raw materials can be fed at a fixed speed, thereby avoiding errors in the proportion between different raw materials and improving the processing effect of the fabric coating.

[0043] In one embodiment, the support component 2 includes a support plate 201, the bottom end of which is fixedly installed with the top end of the housing 1, the top end of which is fixedly installed with the bottom end of the drive component 3, and a support frame 202 is fixedly connected to the top end of the support plate 201. The interior of the support frame 202 is rotatably disposed from the outer surface of the proportioning component 4.

[0044] The support frame 202 provided at the top of the support plate 201 can support the outer surface of the proportioning component 4, thereby improving the stability of the proportioning component 4 during operation.

[0045] In one embodiment, the drive component 3 includes a mounting bracket 301, the bottom end of which is fixedly mounted to the top end of the support plate 201, and a first motor 302 is fixedly mounted on one side of the mounting bracket 301. The output end of the first motor 302 is fixedly connected to one end of the proportioning component 4.

[0046] The first motor 302 is started to drive the proportioning component 4 installed at the output end to operate, so that it provides stable power to the proportioning component 4.

[0047] In one embodiment, the proportioning component 4 includes two sets of proportioning boxes 401. The bottom ends of the two sets of proportioning boxes 401 are fixedly installed to the top end of the box body 1. The interior of the two sets of proportioning boxes 401 is rotatably connected to a shaft 402. One end of the shaft 402 is fixedly connected to a mounting cylinder 403. The outer surface of the mounting cylinder 403 is provided with a proportioning gear 404.

[0048] One end of one set of mounting cylinders 403 is fixedly connected to the output end of the first motor 302, while the outer surface of another set of mounting cylinders 403 is rotatably disposed with respect to the interior of the support frame 202. A cross shaft 405 is slidably disposed inside one set of connecting shafts 402, and a spring 406 is fixedly connected inside the cross shaft 405. A wedge block 407 is fixedly connected to one end of the spring 406, and the outer surface of the wedge block 407 engages with a keyway opened inside the proportioning gear 404. One end of the cross shaft 405 is fixedly connected to one side of the adjusting component 5.

[0049] The first motor 302 drives one of the sets of mounting cylinders 403 installed at the output end to rotate, thereby driving one of the sets of proportioning gears 404 installed on the outer surface to rotate. This, in turn, drives another set of proportioning gears 404 that are surface-engaged to rotate, allowing them to rotate around the other set of mounting cylinders 403 as the center. When the other set of proportioning gears 404 rotates, it drives the wedge block 407 that is engaged with its internal keyway to rotate. Since the outer surface of the wedge block 407 is slidably disposed with the interior of the cross shaft 405, and the outer surface of the cross shaft 405 is slidably disposed with the interior of one set of connecting shafts 402, it drives the cross shaft 405 to rotate, which in turn drives the other set of connecting shafts 402 to rotate. At the same time, the other set of connecting shafts 402 can rotate with the rotation of one of the sets of mounting cylinders 403 that are fixedly connected at one end, so that the two sets of connecting shafts 402 can drive the proportioning box 401 to feed materials according to the proportion.

[0050] Since there are multiple sets of proportioning gears 404, and these multiple sets of proportioning gears 404 are meshed with each other, when one set of proportioning gears 404 rotates one revolution, another set of proportioning gears 404 meshing with it rotates an integer multiple of revolutions, thereby stably achieving the proportioning requirements.

[0051] In one embodiment, the adjustment component 5 includes an electric push rod 501, one side of which is fixedly installed on one side of the support frame 202. A connecting plate 502 is fixedly installed on the telescopic end of the electric push rod 501, and one side of the connecting plate 502 is fixedly connected to one end of the cross shaft 405.

[0052] The electric push rod 501 drives the connecting plate 502 mounted on the telescopic end to move, so that it can drive the cross shaft 405 mounted on one side to move, so that it can drive the internally sliding wedge 407 to move. Since the outer surface of the wedge 407 is slidably set with the inside of the cross shaft 405, and the bottom end of the wedge 407 is fixedly connected to the spring 406, when the cross shaft 405 drives the wedge 407 to move inside the mounting cylinder 403, the wedge 407 can retract into the inside of the mounting cylinder 403, and at the same time, the spring 406 is compressed. Since the multiple sets of ratio gears 404 rotate in integer revolutions, the keyways opened inside them can always correspond, so that the cross shaft 405 drives the wedge 407 to engage with the keyway inside one of the ratio gears 404, thereby achieving the purpose of changing the ratio.

[0053] In one embodiment, the stirring assembly 6 includes a fixing frame 601, one side of which is fixedly installed with one side of the housing 1. A second motor 602 is fixedly installed on one side of the fixing frame 601. The output end of the second motor 602 is fixedly connected to a stirring shaft 603. A stirring rod 604 is fixedly installed on the outer surface of the stirring shaft 603.

[0054] The second motor 602 is started to drive the stirring shaft 603, which is fixedly connected to the output end, to rotate, so that it can drive the stirring rod 604 installed on the outer surface to rotate, so that it can stir and mix the raw materials inside the box 1.

[0055] In one embodiment, for the aforementioned housing 1, a discharge pipe 7 is fixedly connected to one side of the housing 1, and a valve 8 is fixedly installed inside the discharge pipe 7.

[0056] The feeding pipe 7 allows for convenient connection between the paint prepared inside the housing 1 and the external spraying device.

[0057] Through the above technical solution, 1. By starting the adjustment component 5, it drives the proportioning component 4 to move, so as to adjust the proportion between the two proportioning components 4. Then, the drive component 3 drives the proportioning component 4 installed at the output end to rotate, so that it can drive the raw materials to be fed at a fixed speed, thereby avoiding errors in the proportion between different raw materials, and thus improving the processing effect of the fabric coating.

[0058] 2. The connecting plate 502 installed on the telescopic end is moved by activating the electric push rod 501, so that it can drive the cross shaft 405 installed on one side to move, so that it can drive the internally sliding wedge 407 to move. Since the outer surface of the wedge 407 is slidably set with the inside of the cross shaft 405, and the bottom end of the wedge 407 is fixedly connected to the spring 406, when the cross shaft 405 drives the wedge 407 to move inside the mounting cylinder 403, the wedge 407 can retract into the inside of the mounting cylinder 403, and at the same time, the spring 406 is compressed. Since the multiple sets of ratio gears 404 rotate in integer revolutions, the keyways opened inside them can always correspond, so that the cross shaft 405 can drive the wedge 407 to engage with the keyway inside one of the ratio gears 404, thereby achieving the purpose of changing the ratio.

[0059] In the description of this specification, references to terms such as "an embodiment," "example," "specific example," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0060] The preferred embodiments of the utility model disclosed above are merely illustrative of the utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the utility model to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of the utility model, thereby enabling those skilled in the art to better understand and utilize it. The utility model is limited only by the claims and their full scope and equivalents.

Claims

1. A fiber fabric coating raw material preparation device, comprising a housing (1), characterized in that: The housing (1) is respectively provided with a support assembly (2), a drive assembly (3), a proportioning assembly (4), an adjustment assembly (5), and a stirring assembly (6); The top end of the support component (2) is fixedly installed to the bottom end of the drive component (3) so that the support component (2) supports the drive component (3); The output end of the drive component (3) is fixedly connected to one end of the proportioning component (4) so ​​that the drive component (3) drives the proportioning component (4) to feed the raw materials into the interior of the box (1) according to a certain proportion; The adjusting component (5) is fixedly installed on one side with one end of the proportioning component (4) so ​​that the adjusting component (5) drives the proportioning component (4) to perform proportional conversion; The stirring assembly (6) is rotatably mounted on its outer surface relative to the interior of the housing (1) so that the stirring assembly (6) can stir and mix the raw materials entering the housing (1).

2. The fiber fabric coating raw material preparation device according to claim 1, characterized in that, The support assembly (2) includes a support plate (201), the bottom end of which is fixedly installed with the top end of the housing (1), the top end of which is fixedly installed with the bottom end of the drive assembly (3), and a support frame (202) is fixedly connected to the top end of the support plate (201). The interior of the support frame (202) is rotatably connected to the outer surface of the proportioning assembly (4).

3. The fiber fabric coating raw material preparation device according to claim 2, characterized in that, The drive assembly (3) includes a mounting bracket (301), the bottom end of which is fixedly mounted to the top end of the support plate (201), and a first motor (302) is fixedly mounted on one side of the mounting bracket (301). The output end of the first motor (302) is fixedly connected to one end of the proportioning assembly (4).

4. The fiber fabric coating raw material preparation device according to claim 3, characterized in that, The proportioning component (4) includes two sets of proportioning boxes (401). The bottom ends of the two sets of proportioning boxes (401) are fixedly installed to the top end of the box body (1). The interior of the two sets of proportioning boxes (401) is rotatably connected to a shaft (402). One end of the shaft (402) is fixedly connected to an installation cylinder (403). The outer surface of the installation cylinder (403) is provided with a proportioning gear (404). One end of one set of mounting cylinders (403) is fixedly connected to the output end of the first motor (302), and the outer surface of another set of mounting cylinders (403) is rotatably connected to the inside of the support frame (202). A cross shaft (405) is slidably arranged inside one set of connecting shafts (402), and a spring (406) is fixedly connected inside the cross shaft (405). A wedge (407) is fixedly connected to one end of the spring (406), and the outer surface of the wedge (407) engages with the keyway opened inside the proportioning gear (404). One end of the cross shaft (405) is fixedly connected to one side of the adjusting component (5).

5. The fiber fabric coating raw material preparation device according to claim 4, characterized in that, The adjustment assembly (5) includes an electric push rod (501), one side of which is fixedly installed on one side of the support frame (202). A connecting plate (502) is fixedly installed on the telescopic end of the electric push rod (501), and one side of the connecting plate (502) is fixedly connected to one end of the cross shaft (405).

6. The fiber fabric coating raw material preparation device according to claim 1, characterized in that, The stirring assembly (6) includes a fixing frame (601), one side of which is fixedly installed with one side of the housing (1). A second motor (602) is fixedly installed on one side of the fixing frame (601), and a stirring shaft (603) is fixedly connected to the output end of the second motor (602). A stirring rod (604) is fixedly installed on the outer surface of the stirring shaft (603).

7. The fiber fabric coating raw material preparation device according to claim 1, characterized in that, A feed pipe (7) is fixedly connected to one side of the box (1), and a valve (8) is fixedly installed inside the feed pipe (7).