A light industry textile dyeing paint toning mixing device
By employing multiple separating rods and a synchronous transmission mechanism in textile dyeing equipment, combined with a rotating mechanism and a stirring rod, the problem of uneven coating mixing was solved, achieving efficient and uniform coating mixing and improving color matching quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- NAN TONG KAI RUI JIA YONG FANG ZHI PIN YOU XIAN GONG SI
- Filing Date
- 2024-01-15
- Publication Date
- 2026-07-03
AI Technical Summary
Existing textile dyeing equipment has poor functionality during the coating mixing process, resulting in the coating not being fully and evenly mixed and the color matching quality being low.
By employing multiple separating rods and a synchronous transmission mechanism, combined with multiple sets of rotating mechanisms and stirring rods, the coating can be mixed in various ways. The mixing uniformity is improved through material screening by separating rods, stirring by stirring rods, and flushing by floating plates.
It achieves complete and uniform mixing of coatings, improves color matching quality and accuracy, and enhances the functionality of the equipment.
Smart Images

Figure CN117772035B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the technical field of mixing equipment, and in particular to a color mixing equipment for dyeing coatings for light industrial textiles. Background Technology
[0002] As is well known, textile dyeing refers to placing fabric in a dyeing vat, allowing the dye to penetrate the fabric and change its color. To achieve a fixed color, the dye needs to be mixed and tinted. Generally, the dye is mixed by directly rotating and stirring multiple dyes with a stirring blade. However, this mixing method is relatively simple, the equipment can only rotate in one direction, the equipment has poor functionality, and the dyes cannot be fully and uniformly mixed, resulting in low dyeing quality. Summary of the Invention
[0003] To solve the above-mentioned technical problems, the present invention provides a coating color mixing device for dyeing light industrial textiles.
[0004] To achieve the above objectives, the technical solution adopted by the present invention is as follows:
[0005] A color mixing and tinting device for dyeing textiles in light industry includes a color mixing box and a feed pipe. A discharge pipe and a discharge valve are installed at the bottom of the color mixing box. The feed pipe is inserted into the color mixing box through the top of the color mixing box. A first opening is provided on the side wall of the feed pipe inside the color mixing box. The bottom of the feed pipe is sealed.
[0006] The color mixing box is equipped with a rotating ring, and the bottom of the rotating ring is equipped with multiple separation rods, which are arranged in a ring.
[0007] The feed pipe is equipped with a synchronous transmission mechanism, and multiple sets of rotating mechanisms are arranged on the outside of the synchronous transmission mechanism. Each set of rotating mechanisms is equipped with two first rotating shafts, which are located on the outside of the rotating ring. Each first rotating shaft is equipped with multiple first stirring rods.
[0008] Furthermore, the rotating mechanism includes a fixed plate mounted on the top of the inner wall of the palette box, a second rotating shaft disposed on the fixed plate, the second rotating shaft passing through the fixed plate and rotatably connected, the outer end of the second rotating shaft being rotatably mounted on the palette box, a transmission wheel disposed on the second rotating shaft near the fixed plate, the outer circumference of the transmission wheel being provided with straight teeth, the end face of the transmission wheel facing away from the fixed plate being provided with conical teeth, the top of the rotating ring being provided with teeth, and an annular groove being formed on the top of the rotating ring, the straight teeth on the transmission wheel meshing with the teeth on the rotating ring, a mounting plate being slidably disposed in the annular groove, and the top of the mounting plate being fixed on the palette box;
[0009] Two areas on the outer wall of the second shaft are provided with reciprocating threads, and movable sleeves are screwed onto the reciprocating threads in both areas. A first sprocket is rotatably mounted on the bottom of the movable sleeve, and the top of the first shaft is fixed to the bottom of the first sprocket.
[0010] A support plate is provided at the bottom of the second rotating shaft. The support plate is installed on the inner wall of the color mixing box. The support plate is slidably connected to the movable screw sleeve. Two second sprockets are rotatably mounted on the support plate. A chain is provided on the two second sprockets. The chain is located outside the two first sprockets. The first sprockets are connected to the chain for transmission.
[0011] The top of a second sprocket on the chain near the fixed plate is tapered, and the tapered teeth on the second sprocket mesh with the tapered teeth on the transmission wheel.
[0012] Furthermore, the synchronous transmission mechanism includes a movable sleeve sleeved on the outer wall of the feed pipe, a plurality of first cylinders are installed on the outer wall of the movable sleeve, a support sleeve is slidably fitted on the first cylinders, an arc-shaped frame is rotatably installed on the outer side of the support sleeve, a second cylinder is rotatably installed on the top of the arc-shaped frame, and the second cylinder is connected to the end of the second rotating shaft.
[0013] A motor is installed on the outer wall of the color mixing box, and the output end of the motor is connected to a second rotating shaft.
[0014] Furthermore, the outer wall of the feed pipe is provided with threads, the inner wall of the movable sleeve is provided with threads, and the movable sleeve is connected to the feed pipe by threaded screws.
[0015] A material dispersing cone is installed at the bottom of the inner wall of the feed pipe, and multiple centrifugal plates are installed on the outer wall of the material dispersing cone;
[0016] The feed pipe is rotatably connected to the color mixing box.
[0017] Furthermore, a connecting cylinder is installed at the bottom of the movable sleeve, the connecting cylinder is sleeved on the outside of the feed pipe, the connecting cylinder has multiple second ports, and a floating plate is installed at the bottom of the connecting cylinder.
[0018] Furthermore, multiple second stirring rods are installed at the bottom of the first rotating shaft, and a rotating ring is installed at the bottom of the multiple second stirring rods. The outer wall of the rotating ring is provided with a notch, and multiple fan blades are installed on the inner wall of the rotating ring.
[0019] Furthermore, a third rotating shaft is installed at the bottom of the feed pipe, and a plurality of third stirring rods are installed on the outer wall of the third rotating shaft. The cross-section of the third stirring rod is conical, and the shape of the third stirring rod is wavy.
[0020] Furthermore, multiple agitator rods are installed on the top of the floating plate.
[0021] Compared with the prior art, the beneficial effects of the present invention are as follows: multiple separating rods screen the raw materials, and the particulate matter in the raw materials is intercepted between the multiple separating rods, which facilitates the independent storage of the particulate matter. At the same time, the multiple separating rods in the rotating state can agitate the raw materials in the color mixing box, so that the raw materials rotate and flow. The flowing raw materials can continuously wash the particulate matter intercepted between the multiple separating rods, so that the particulate matter is quickly dissolved and mixed into the raw materials. The separating rods simultaneously crush the particulate matter. The multiple separating rods can achieve the purpose of segmenting the raw materials in the color mixing box. The raw materials located outside the multiple separating rods can be agitated by the first rotating shaft and the first stirring rod, thereby achieving the purpose of mixing and color matching of the paint. Attached Figure Description
[0022] To more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments recorded in the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0023] Figure 1 This is a schematic diagram of the structure of the present invention;
[0024] Figure 2 yes Figure 1 Schematic diagram of the internal structure of the midtone color box;
[0025] Figure 3 yes Figure 2 Schematic diagram of the internal cross-sectional structure of the feed pipe;
[0026] Figure 4 yes Figure 2 Enlarged schematic diagram of the synchronous transmission structure;
[0027] Figure 5 yes Figure 2 A magnified schematic diagram of the second rotating shaft in the middle;
[0028] Figure 6 yes Figure 3 Enlarged structural diagram of the connection position between the central feed pipe and the third rotating shaft;
[0029] Figure 7 yes Figure 2 Enlarged schematic diagram of the rotating ring structure;
[0030] The attached diagram shows the following components: 1. Toner box; 2. Feed pipe; 3. Rotating ring; 4. Separating rod; 5. First rotating shaft; 6. First stirring rod; 7. Fixed plate; 8. Second rotating shaft; 9. Transmission wheel; 10. Mounting plate; 11. Moving screw sleeve; 12. First sprocket; 13. Support plate; 14. Second sprocket; 15. Chain; 16. Moving sleeve; 17. First cylinder; 18. Support sleeve; 19. Bow-shaped frame; 20. Second cylinder; 21. Dispersing cone; 22. Centrifugal plate; 23. Connecting cylinder; 24. Floating plate; 25. Second stirring rod; 26. Rotating ring; 27. Fan blade; 28. Third rotating shaft; 29. Third stirring rod; 30. Stirring bent rod; 31. Motor. Detailed Implementation
[0031] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments.
[0032] In the description of this invention, it should be noted that the orientations or positional relationships indicated by terms such as "center", "up", "down", "left", "right", "vertical", "horizontal", "inner", and "outer" are based on the orientations or positional relationships shown in the accompanying drawings. They are only for the convenience of describing this invention and simplifying the description, and do not indicate or imply that the device or element 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 this invention.
[0033] In the description of this invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to fixed connections, detachable connections, or integral connections; they can refer to mechanical connections or electrical connections; they can refer to direct connections or indirect connections through an intermediate medium; and they can refer to the internal communication between two components. Those skilled in the art can understand the specific meaning of the above terms in this invention based on the specific circumstances. This embodiment is written in a progressive manner.
[0034] like Figures 1 to 7 As shown, a color mixing device for dyeing coatings for light industrial textiles according to the present invention includes a color mixing box 1 and a feed pipe 2. The bottom of the color mixing box 1 is equipped with a discharge pipe and a discharge valve. The feed pipe 2 is inserted into the color mixing box 1 through the top of the color mixing box 1. A first opening is provided on the side wall of the feed pipe 2 inside the color mixing box 1. The bottom of the feed pipe 2 is sealed.
[0035] The color mixing box 1 is provided with a rotating ring 3, and the bottom of the rotating ring 3 is provided with multiple separation rods 4, which are arranged in a ring.
[0036] The feed pipe 2 is provided with a synchronous transmission mechanism. Multiple sets of rotating mechanisms are provided on the outside of the synchronous transmission mechanism. Each set of rotating mechanisms is equipped with two first rotating shafts 5. The first rotating shafts 5 are located on the outside of the rotating ring 3. Each first rotating shaft 5 is provided with multiple first stirring rods 6.
[0037] In this embodiment, the paint raw material is introduced into the color mixing box 1 through the feed pipe 2 between multiple separating rods 4. Rotating the rotating ring 3 causes the multiple separating rods 4 to rotate synchronously. The raw material between the multiple separating rods 4 flows through the gaps between adjacent separating rods 4 to the outside of the multiple separating rods 4. The multiple separating rods 4 can screen the raw material, intercepting particulate matter between them, facilitating independent storage of the particulate matter. Simultaneously, the rotating multiple separating rods 4 can agitate the raw material in the color mixing box 1, causing it to rotate and flow. The flowing raw material can continuously flush the particulate matter intercepted between the multiple separating rods 4, thus reducing the particle size. The material is quickly dissolved and mixed into the raw material. The separating rod 4 simultaneously crushes the particulate matter. Multiple separating rods 4 can achieve the purpose of segmented processing of the raw material in the color mixing box 1. The raw material located outside the multiple separating rods 4 can be agitated by the first rotating shaft 5 and the first stirring rod 6. Since the raw material in the color mixing box 1 is in a rotating and flowing state, the first rotating shaft 5 and the first stirring rod 6 can easily perform comprehensive agitation of the raw material in the color mixing box 1, thereby achieving the purpose of mixing and color matching of the paint. This equipment can achieve the purpose of multi-form agitation and mixing of paint, effectively improving the functionality of the equipment, improving the uniformity of paint mixing, and thus improving the quality and accuracy of paint color matching.
[0038] As a preferred embodiment of the above embodiment, the rotating mechanism includes a fixed plate 7 installed on the top of the inner wall of the palette box 1, a second rotating shaft 8 provided on the fixed plate 7, the second rotating shaft 8 passing through the fixed plate 7 and rotatably connected, the outer end of the second rotating shaft 8 being rotatably installed on the palette box 1, a transmission wheel 9 provided on the second rotating shaft 8 near the fixed plate 7, straight teeth provided on the outer circumference of the transmission wheel 9, and the end face of the transmission wheel 9 facing away from the fixed plate 7 being provided with conical teeth, the top of the rotating ring 3 being provided with teeth, and an annular groove being opened on the top of the rotating ring 3, the straight teeth on the transmission wheel 9 meshing with the teeth on the rotating ring 3, and a mounting plate 10 being slidably arranged in the annular groove, the top of the mounting plate 10 being fixed on the palette box 1;
[0039] Two areas on the outer wall of the second rotating shaft 8 are provided with reciprocating threads, and movable threaded sleeves 11 are screwed onto the reciprocating threads in both areas. A first sprocket 12 is rotatably mounted on the bottom of the movable threaded sleeve 11, and the top of the first rotating shaft 5 is fixed to the bottom of the first sprocket 12.
[0040] The second rotating shaft 8 is provided with a support plate 13 at its bottom. The support plate 13 is installed on the inner wall of the color mixing box 1. The support plate 13 is slidably connected to the movable screw sleeve 11. Two second sprockets 14 are rotatably mounted on the support plate 13. A chain 15 is provided on the two second sprockets 14. The chain 15 is located outside the two first sprockets 12. The first sprockets 12 are connected to the chain 15 in a transmission connection.
[0041] In this design, the top of a second sprocket 14 on the chain 15 near the fixed plate 7 is tapered, and the tapered teeth on the second sprocket 14 mesh with the tapered teeth on the transmission wheel 9.
[0042] In this embodiment, rotating the second rotating shaft 8 drives the transmission wheel 9 to rotate, which in turn drives the rotating ring 3 to rotate, thereby causing the multiple separating rods 4 to rotate. Simultaneously, the transmission wheel 9 drives the two second sprockets 14 and the chain 15 to rotate synchronously. The chain 15 drives the two first sprockets 12 to rotate, and the first sprockets 12 drive the first rotating shaft 5 to rotate, thus causing the first stirring rod 6 on the first rotating shaft 5 to agitate the raw materials. Since the movable screw sleeve 11 is connected to the reciprocating thread on the second rotating shaft 8, the second rotating shaft 8 pushes the two movable screw sleeves 11 to move synchronously relative to each other, thereby causing the two... The first sprockets 12 move closer or further apart from each other, and the two first sprockets 12 drive the two first rotating shafts 5 to move closer or further apart from each other, so that the first rotating shafts 5 and the first stirring rods 6 on them reciprocate to stir the raw materials. This makes it easy for the first rotating shafts 5 and the first stirring rods 6 to thoroughly stir and mix the raw materials rotating in the color mixing box 1. Since the two first rotating shafts 5 rotate in the same direction, it is easy to form a vortex between the two first rotating shafts 5, which improves the diversity of the raw material mixing form. When the first rotating shafts 5 move, the first sprockets 12 and the chain 15 always maintain a transmission state.
[0043] As a preferred embodiment of the above embodiment, the synchronous transmission mechanism includes a movable sleeve 16 sleeved on the outer wall of the feed pipe 2, a plurality of first cylinders 17 are installed on the outer wall of the movable sleeve 16, a support sleeve 18 is slidably fitted on the first cylinders 17, an arc-shaped frame 19 is rotatably installed on the outer side of the support sleeve 18, a second cylinder 20 is rotatably installed on the top of the arc-shaped frame 19, and the second cylinder 20 is connected to the end of the second rotating shaft 8;
[0044] A motor 31 is installed on the outer wall of the color mixing box 1, and the output end of the motor 31 is connected to a second rotating shaft 8 for transmission.
[0045] In this embodiment, the motor 31 drives the second rotating shaft 8 to rotate, and the second rotating shaft 8 drives the second cylinder 20 to rotate. The second cylinder 20 drives the movable sleeve 16 to swing through the bow-shaped frame 19, the support sleeve 18 and the first cylinder 17. At this time, the movement trajectory of the outer end of the first cylinder 17 is a ring with the axis of the second rotating shaft 8 as the center. The movable sleeve 16 drives the remaining multiple first cylinders 17 to move synchronously. The outer end of each first cylinder 17 moves in a ring, so that each first cylinder 17 drives the corresponding second rotating shaft 8 to rotate through the support sleeve 18, the bow-shaped frame 19 and the second cylinder 20, thereby driving multiple sets of rotating mechanisms to move synchronously. This facilitates the synchronous movement of the first rotating shaft 5 and the first stirring rod 6 on each set of rotating mechanisms. When the second rotating shaft 8 rotates, the second rotating shaft 8 drives the movable sleeve 16 to swing back and forth through the first cylinder 17, and the movable sleeve 16 moves up and down synchronously.
[0046] As a preferred embodiment of the above, the outer wall of the feed pipe 2 is provided with threads, the inner wall of the movable sleeve 16 is provided with threads, and the movable sleeve 16 is connected to the feed pipe 2 by threaded connection.
[0047] A material dispersing cone 21 is installed at the bottom of the inner wall of the feed pipe 2, and multiple centrifugal plates 22 are installed on the outer wall of the material dispersing cone 21.
[0048] The feed pipe 2 is rotatably connected to the color mixing box 1.
[0049] In this embodiment, when the movable sleeve 16 moves up and down, the movable sleeve 16 pushes the feed pipe 2 to rotate through its threads. The feed pipe 2 drives the material dispersing cone 21 and the centrifugal plate 22 inside it to rotate synchronously. The raw material in the feed pipe 2 is discharged into the color mixing box 1 through the first port. Since the material dispersing cone 21 and the centrifugal plate 22 are in a rotating state, the material dispersing cone 21 and the centrifugal plate 22 can easily push the raw material in the feed pipe 2 to be discharged quickly through the first port, thereby avoiding the residue of raw material in the feed pipe 2 and improving the diffusion area and discharge speed of the raw material.
[0050] As a preferred embodiment of the above, a connecting cylinder 23 is installed at the bottom of the movable sleeve 16. The connecting cylinder 23 is sleeved on the outside of the feed pipe 2. A plurality of second ports are opened on the connecting cylinder 23. A floating plate 24 is installed at the bottom of the connecting cylinder 23.
[0051] In this embodiment, the moving sleeve 16 reciprocates and moves up and down, and the moving sleeve 16 drives the floating plate 24 to reciprocate and move up and down through the connecting cylinder 23. The raw material in the feed pipe 2 flows into the color mixing box 1 through the first port and the second port. Since the moving sleeve 16 is driven by the first cylinder 17 to reciprocate, and the feed pipe 2 is driven by the up and down movement of the moving sleeve 16 to reciprocate, the moving sleeve 16 and the feed pipe 2 perform staggered differential motion. The first port and the second port rotate alternately. The first port and the second port can crush larger particles in the raw material.
[0052] In this embodiment, as the floating plate 24 moves up and down, when the floating plate 24 moves downward, it can push the raw material in the multiple separating rods 4 on the lower side of the floating plate 24 to the outside of the multiple separating rods 4. At this time, the raw material on the outside of the multiple separating rods 4 on the upper side of the floating plate 24 flows into the multiple separating rods 4. When the floating plate 24 moves upward, the raw material on the upper and lower sides of the floating plate 24 flows in opposite directions, which facilitates the continuous passage of the raw material through the multiple separating rods 4 and facilitates the reciprocating flushing treatment of the particles intercepted between the multiple separating rods 4. At the same time, it can improve the diversity of the movement form of the raw material in the color mixing box 1 and improve the uniformity of the raw material mixing. By setting the floating plate 24, it is convenient to make the raw material particles discharged from the second port stay on the upper surface of the floating plate 24. As the floating plate 24 moves up and down and rotates back and forth, it can conveniently drive the granular raw material to move up and down and rotate back and forth, thereby making the raw material flush the particles in multiple directions.
[0053] As a preferred embodiment of the above embodiment, a plurality of second stirring rods 25 are installed at the bottom of the first rotating shaft 5, and a rotating ring 26 is installed at the bottom of the plurality of second stirring rods 25. A notch is opened on the outer wall of the rotating ring 26, and a plurality of fan blades 27 are installed on the inner wall of the rotating ring 26.
[0054] In this embodiment, when the first rotating shaft 5 rotates, it drives the second stirring rod 25, the rotating ring 26 and the fan blade 27 to rotate synchronously. The fan blade 27 can push the raw material in the rotating ring 26 upward. The multiple second stirring rods 25 in the rotating state can continue to stir the upward flowing raw material, thereby facilitating the crushing of smaller raw material particles deposited at the bottom of the inner wall of the color mixing box 1, and at the same time facilitating the diffusion of the raw material with a higher density at the bottom of the inner wall of the color mixing box 1, improving the uniformity of raw material mixing. The raw material in the color mixing box 1 can enter the rotating ring 26 through the notch on the rotating ring 26.
[0055] As a preferred embodiment of the above embodiment, a third rotating shaft 28 is installed at the bottom of the feed pipe 2, and a plurality of third stirring rods 29 are installed on the outer wall of the third rotating shaft 28. The cross section of the third stirring rods 29 is conical, and the shape of the third stirring rods 29 is wavy.
[0056] In this embodiment, by setting a third rotating shaft 28 and a third stirring rod 29, the raw materials at the bottom of the floating plate 24 can be easily stirred.
[0057] As a preferred embodiment of the above, the floating plate 24 is equipped with a plurality of agitating bending rods 30 on its top.
[0058] In this embodiment, by setting the stirring rod 30, the raw materials on the upper side of the floating plate 24 can be easily stirred.
[0059] The present invention relates to a coating mixing and color matching device for dyeing light industrial textiles. Its installation method, connection method, or setting method are all common mechanical methods, and any method that can achieve its beneficial effect can be implemented.
[0060] The above description is only a preferred embodiment of the present invention. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present invention, and these improvements and modifications should also be considered within the scope of protection of the present invention.
Claims
1. A color mixing and blending device for dyeing coatings for light industrial textiles, characterized in that, It includes a color mixing box (1) and a feed pipe (2). The bottom of the color mixing box (1) is equipped with a discharge pipe and a discharge valve. The feed pipe (2) is inserted into the color mixing box (1) through the top of the color mixing box (1). A first opening is provided on the side wall of the feed pipe (2) inside the color mixing box (1). The bottom of the feed pipe (2) is sealed. The color mixing box (1) is provided with a rotating ring (3), and the bottom of the rotating ring (3) is provided with multiple separation rods (4), which are arranged in a ring. A synchronous transmission mechanism is provided on the feed pipe (2). Multiple sets of rotating mechanisms are provided on the outside of the synchronous transmission mechanism. Two first rotating shafts (5) are installed on each set of rotating mechanisms. The first rotating shafts (5) are located on the outside of the rotating ring (3). Multiple first stirring rods (6) are provided on each first rotating shaft (5). The rotating mechanism includes a fixed plate (7) installed on the top of the inner wall of the color mixing box (1). A second rotating shaft (8) is provided on the fixed plate (7). The second rotating shaft (8) passes through the fixed plate (7) and is rotatably connected. The outer end of the second rotating shaft (8) rotates... The second rotating shaft (8) is mounted on the color box (1). A transmission wheel (9) is provided on the second rotating shaft (8) near the fixed plate (7). The outer circumference of the transmission wheel (9) is provided with straight teeth. The end face of the transmission wheel (9) away from the fixed plate (7) is provided with conical teeth. The top of the rotating ring (3) is provided with teeth, and the top of the rotating ring (3) is provided with an annular groove. The straight teeth on the transmission wheel (9) mesh with the teeth on the rotating ring (3). A mounting plate (10) is slidably arranged in the annular groove. The top of the mounting plate (10) is fixed on the color box (1). Two areas on the outer wall of the second rotating shaft (8) are provided with reciprocating threads, and movable screw sleeves (11) are screwed onto the reciprocating threads in both areas. A first sprocket (12) is rotatably mounted on the bottom of the movable screw sleeve (11), and the top of the first rotating shaft (5) is fixed to the bottom of the first sprocket (12). The second rotating shaft (8) is provided with a support plate (13) at the bottom. The support plate (13) is installed on the inner wall of the color mixing box (1). The support plate (13) is slidably connected to the movable screw sleeve (11). Two second sprockets (14) are rotatably installed on the support plate (13). A chain (15) is provided on the two second sprockets (14). The chain (15) is located outside the two first sprockets (12). The first sprockets (12) are connected to the chain (15) in a transmission. Among them, the top of a second sprocket (14) on the chain (15) near the fixed plate (7) is set as conical, and the conical teeth on the second sprocket (14) mesh with the conical teeth on the transmission wheel (9); the synchronous transmission mechanism includes a movable sleeve (16) sleeved on the outer wall of the feed pipe (2), a plurality of first cylinders (17) are installed on the outer wall of the movable sleeve (16), a support sleeve (18) is slidably sleeved on the first cylinder (17), an arc frame (19) is rotatably installed on the outer side of the support sleeve (18), and a second cylinder (20) is rotatably installed on the top of the arc frame (19), and the second cylinder (20) is connected to the end of the second rotating shaft (8); A motor (31) is installed on the outer wall of the color mixing box (1), and the output end of the motor (31) is connected to a second rotating shaft (8) for transmission; the outer wall of the feed pipe (2) is provided with threads, the inner wall of the movable sleeve (16) is provided with threads, and the movable sleeve (16) and the feed pipe (2) are connected by threaded screws. A material dispersing cone (21) is installed at the bottom of the inner wall of the feed pipe (2), and multiple centrifugal plates (22) are installed on the outer wall of the material dispersing cone (21). The feed pipe (2) is rotatably connected to the color mixing box (1); a connecting cylinder (23) is installed at the bottom of the movable sleeve (16), the connecting cylinder (23) is sleeved on the outside of the feed pipe (2), a plurality of second ports are opened on the connecting cylinder (23), and a floating plate (24) is installed at the bottom of the connecting cylinder (23).
2. The coating mixing and color matching equipment for dyeing light industrial textiles according to claim 1, characterized in that, The bottom of the first rotating shaft (5) is equipped with multiple second stirring rods (25), and the bottom of the multiple second stirring rods (25) is equipped with a rotating ring (26). The outer wall of the rotating ring (26) is provided with a notch, and the inner wall of the rotating ring (26) is equipped with multiple fan blades (27).
3. The color mixing and dyeing equipment for dyeing light industrial textiles according to claim 2, characterized in that, The bottom of the feed pipe (2) is equipped with a third rotating shaft (28), and a plurality of third stirring rods (29) are installed on the outer wall of the third rotating shaft (28). The cross section of the third stirring rod (29) is conical, and the shape of the third stirring rod (29) is wavy.
4. The color mixing and dyeing equipment for dyeing light industrial textiles according to claim 3, characterized in that, Multiple agitator rods (30) are installed on the top of the floating plate (24).