A pre-mixed ink material transfer device
By designing a pre-stirred ink raw material transfer device, the ink raw materials are automatically stirred during the transfer process, which solves the problem of uniformity caused by ink raw material sedimentation, improves production efficiency and reduces costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 东莞德芳油墨科技有限公司
- Filing Date
- 2025-07-10
- Publication Date
- 2026-07-14
Smart Images

Figure CN224490811U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of ink production technology, specifically to a pre-stirred ink raw material transfer device. Background Technology
[0002] During storage in a warehouse, ink raw materials are typically composed of a mixture of various components with different physical properties such as density and particle size. Under the influence of gravity, after a period of settling, the denser and heavier components will gradually sink, while the less dense and lighter components will float to the top, resulting in sedimentation of the ink raw materials and uneven distribution of the raw materials.
[0003] When these ink raw materials are needed for production, the storage containers containing the ink raw materials need to be transported from the warehouse to the production workshop using a transfer vehicle. However, at this time, the ink raw materials have already precipitated, and their uniformity is severely affected. If such unevenly precipitated ink raw materials are directly used in production, the quality of the produced ink will be difficult to guarantee. In order to ensure the uniformity of the ink raw materials and not affect the quality of the produced ink, the ink raw materials need to be stirred before use after being transferred from the warehouse to the production workshop.
[0004] From the overall process perspective, the time-consuming part mainly occurs during the mixing of ink raw materials. This not only increases the time cost of production and reduces production efficiency, but also increases the input costs of manpower and equipment. Utility Model Content
[0005] To address the shortcomings of existing technologies, this invention provides a pre-stirred ink raw material transfer device, which solves the problems mentioned in the background section.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a pre-stirred ink raw material transfer device, comprising:
[0007] A movable carrier, with a drive shaft rotatably connected to its bottom, and wheels mounted at both ends of the drive shaft;
[0008] An ink raw material storage tank is horizontally placed in a movable carrier, and a stirring shaft is rotatably connected inside the ink raw material storage tank.
[0009] The transmission mechanism is installed at the rear end of the movable carrier and connected between the drive shaft and the stirring shaft. During the movement of the movable carrier, the synchronous rotation of the drive shaft and the traveling wheels, in conjunction with the transmission mechanism, drives the stirring shaft to rotate.
[0010] Furthermore, the transmission mechanism includes a bracket installed at the tail end of the movable carrier and a worm gear installed in the transmission shaft section. The top of the bracket is rotatably connected to a first pulley, and the bottom is rotatably connected to a second pulley and a worm gear arranged coaxially. The worm gear meshes with the worm gear, and the first pulley and the second pulley are connected to a belt on their exteriors.
[0011] Furthermore, a first shaft is fixed to the top of the bracket, a first pulley is rotatably connected to the outside of the first shaft, the first shaft is connected to the stirring shaft, and a second shaft is fixed to the bottom of the bracket, a second pulley and a worm gear are rotatably connected to the outside of the second shaft.
[0012] Furthermore, the adjacent ends of the first shaft and the stirring shaft are provided with shaft grooves of complementary shapes, and pin holes are opened inside the shaft grooves. The first shaft and the stirring shaft are fixedly connected by bolts.
[0013] Furthermore, a tensioning bracket is integrally connected to the middle of the bracket. The tensioning bracket has a hollow structure and a tensioning wheel is built in. Adjustment holes are opened on both sides of the tensioning bracket. The tensioning wheel is rotatably connected to a third shaft. The two ends of the third shaft extend to the outside of the tensioning bracket through the adjustment holes. The end of the third shaft is threaded and connected to a nut through the thread to fix the position of the tensioning wheel inside the tensioning bracket. The belt passes around the tensioning wheel.
[0014] Furthermore, a steering wheel is rotatably connected to the bottom of the movable carrier, and a towing hook is installed at the front end of the movable carrier.
[0015] This invention provides a pre-stirred ink raw material transfer device. Compared with the prior art, it has the following advantages:
[0016] This pre-stirred ink raw material transfer device cleverly connects the moving parts of the movable carrier to the stirring shaft through a transmission mechanism. During the transfer of ink raw materials, the device's movement automatically drives the stirring shaft to rotate and pre-stir the raw materials. No additional stirring power source is required, which effectively saves energy consumption. At the same time, it simplifies the equipment structure, reduces equipment costs and operational complexity, significantly shortens the preparation time from raw material storage to production, and significantly improves the overall efficiency of ink production. Attached Figure Description
[0017] Figure 1 This is a first-view structural schematic diagram of the present invention;
[0018] Figure 2 This is a structural schematic diagram of the present invention from a second perspective;
[0019] Figure 3 This is a schematic diagram of the transmission mechanism in this utility model;
[0020] Figure 4 This is a schematic diagram of the transmission mechanism in this utility model without the bracket.
[0021] Figure 5 This is a front view of the ink raw material storage container in this utility model;
[0022] Figure 6 This is a half-sectional view of the ink raw material storage tank in this utility model.
[0023] In the diagram: 1. Movable carrier; 11. Steering wheel; 12. Drive shaft; 13. Traveling wheel; 14. Traction hook; 2. Ink raw material storage tank; 21. Stirring shaft; 3. Bolt; 4. Transmission mechanism; 41. Bracket; 42. Worm gear; 43. First shaft; 431. Shaft groove; 432. Pin hole; 44. Second shaft; 45. First pulley; 46. Second pulley; 47. Worm gear; 48. Belt; 49. Tensioning bracket; 410. Adjustment hole; 411. Third shaft; 412. Tensioning wheel; 413. Nut. Detailed Implementation
[0024] 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.
[0025] Please see Figure 1-6 This utility model provides a technical solution: a pre-stirred ink raw material transfer device, mainly composed of a movable carrier 1, an ink raw material storage tank 2, and a transmission mechanism 4. This device achieves the transfer of ink raw materials through the movable carrier, and simultaneously utilizes the transmission mechanism to pre-stir the ink raw materials during the transfer process, ensuring the uniformity of the ink raw materials, as detailed below:
[0026] The movable carrier 1 is the supporting and moving component of the entire device, and its specific structure and implementation method are as follows:
[0027] Steering wheel 11 and traveling wheel 13: At the bottom of the movable carrier 1, a steering wheel 11 is rotatably connected to the front end for controlling the steering of the device; a drive shaft 12 is rotatably connected to the rear end, and traveling wheels 13 are installed at both ends of the drive shaft 12. The traveling wheels 13 and the drive shaft 12 rotate synchronously to realize the movement of the device.
[0028] Towing hook 14: A towing hook 14 is installed at the front end of the movable carrier 1. The towing hook 14 can be used to easily connect the device to other power equipment such as a tractor, so as to realize the towing movement of the device.
[0029] The ink raw material storage container 2 is used to store ink raw materials, and its specific structure and implementation method are as follows:
[0030] The ink raw material storage tank 2 is placed horizontally in the movable carrier 1. By setting a corresponding support structure on the movable carrier 1, the ink raw material storage tank 2 is placed stably.
[0031] Stirring shaft 21: A stirring shaft 21 is rotatably connected to the ink raw material storage tank 2, and the axis of the stirring shaft 21 is parallel to the axis of the ink raw material storage tank 2. Stirring blades and other stirring components can be installed on the stirring shaft 21 as needed for stirring the ink raw materials.
[0032] The transmission mechanism 4 is installed at the tail end of the movable carrier 1 and is used to connect the transmission shaft 12 and the stirring shaft 21 to realize the rotation of the stirring shaft 21 during the movement of the device. Its specific structure and implementation method are as follows:
[0033] Support 41: The transmission mechanism 4 includes a support 41 installed at the tail end of the movable carrier 1. The support 41 is a supporting component of the entire transmission mechanism and can be made of metal. It is fixed to the movable carrier 1 by welding or bolting.
[0034] Worm 42 and worm wheel 47: A worm 42 is installed in the section of the transmission shaft 12. The bottom of the bracket 41 is rotatably connected to a coaxially arranged second pulley 46 and worm wheel 47, with the worm 42 meshing with the worm wheel 47. When the transmission shaft 12 drives the worm 42 to rotate, the worm 42 drives the worm wheel 47 to rotate, which in turn drives the second pulley 46 to rotate.
[0035] The first pulley 45 and the second pulley 46: A first shaft 43 is fixed to the top of the bracket 41, and the first pulley 45 is rotatably connected to the outside of the first shaft 43; a second shaft 44 is fixed to the bottom of the bracket 41, and the second pulley 46 and the worm gear 47 are rotatably connected to the outside of the second shaft 44. A belt 48 is connected to the outside of both the first pulley 45 and the second pulley 46, enabling power transmission between them.
[0036] Connection between the first shaft 43 and the stirring shaft 21: Specifically, the first shaft 43 and the stirring shaft 21 are connected by having complementary shaft grooves 431 at their adjacent ends. Pin holes 432 are formed inside the shaft grooves 431. By aligning the shaft grooves 431 of the first shaft 43 and the stirring shaft 21, and then using bolts 3 passing through the pin holes 432 for secure connection, power transmission between the first shaft 43 and the stirring shaft 21 is achieved. When the first pulley 45 rotates, it drives the first shaft 43 to rotate, which in turn drives the stirring shaft 21 to rotate.
[0037] Tensioner 412: To ensure the tension of the belt 48 and guarantee the stability of power transmission, a tensioning bracket 49 is integrally connected to the middle of the bracket 41. The tensioning bracket 49 has a hollow structure and houses the tensioner 412. Adjustment holes 410 are provided on both sides of the tensioning bracket 49. The tensioner 412 is internally connected to a third shaft 411. Both ends of the third shaft 411 extend to the outside of the tensioning bracket 49 through the adjustment holes 410, and the ends of the third shaft 411 are threaded, connecting to a nut 413. When adjusting the tension of the belt 48, loosen the nut 413, move the third shaft 411 in the adjustment hole 410, thereby adjusting the position of the tensioner 412 inside the tensioning bracket 49, allowing the belt 48 to pass over the tensioner 412 and achieve the appropriate tension. Then, tighten the nut 413 to fix the position of the tensioner 412.
[0038] Work process
[0039] In the warehouse, using hoisting equipment, the ink raw material storage barrel 2 is placed in a horizontal position in the movable carrier 1. Then, the stirring shaft 21 and the first shaft 43 are connected together by bolts 3. The device is connected to other power equipment by the traction hook 14, the power equipment is started, and the device is moved.
[0040] During the movement of the device, the traveling wheel 13 drives the transmission shaft 12 to rotate, and the worm gear 42 on the transmission shaft 12 rotates accordingly. The worm gear 42 drives the worm wheel 47 to rotate, which in turn drives the second pulley 46 to rotate. The second pulley 46 drives the first pulley 45 to rotate through the belt 48. The first pulley 45 drives the first shaft 43 to rotate, and the first shaft 43 then transmits power to the stirring shaft 21, causing the stirring shaft 21 to rotate, thereby stirring the ink raw materials in the ink raw material storage tank 2. This achieves pre-stirring of the ink raw materials during the transfer process. In this way, the ink raw materials can be pre-stirred during the transfer process. When the ink raw materials are transferred to the workshop, the ink raw materials are uniform and free of sediment, and can be used directly.
Claims
1. A pre-stirred ink raw material transfer device, characterized in that, include: The movable carrier (1) has a drive shaft (12) rotatably connected to its bottom, and two wheels (13) are installed at both ends of the drive shaft (12). The ink raw material storage tank (2) is placed horizontally in the movable carrier (1), and the stirring shaft (21) is rotatably connected in the ink raw material storage tank (2). The transmission mechanism (4) is installed at the tail end of the movable carrier (1) and connected between the transmission shaft (12) and the stirring shaft (21). During the movement of the movable carrier (1), the synchronous rotation of the transmission shaft (12) and the traveling wheel (13) cooperates with the transmission mechanism (4) to drive the stirring shaft (21) to rotate.
2. The pre-stirred ink raw material transfer device according to claim 1, characterized in that, The transmission mechanism (4) includes a bracket (41) installed at the tail end of the movable carrier (1) and a worm (42) installed in the section of the transmission shaft (12). The top of the bracket (41) is rotatably connected to the first pulley (45), and the bottom is rotatably connected to the coaxially arranged second pulley (46) and worm wheel (47). The worm (42) meshes with the worm wheel (47), and the outside of the first pulley (45) and the second pulley (46) are connected to the belt (48).
3. The pre-stirred ink raw material transfer device according to claim 2, characterized in that, The top of the bracket (41) is fixed with a first shaft (43), and a first pulley (45) is rotatably connected to the outside of the first shaft (43). The first shaft (43) is connected to the stirring shaft (21). The bottom of the bracket (41) is fixed with a second shaft (44), and a second pulley (46) and a worm gear (47) are rotatably connected to the outside of the second shaft (44).
4. The pre-stirred ink raw material transfer device according to claim 3, characterized in that, The first shaft (43) and the stirring shaft (21) are provided with complementary shaft grooves (431) at their adjacent ends. The shaft grooves (431) have pin holes (432) inside. The first shaft (43) and the stirring shaft (21) are fixedly connected by bolts (3).
5. A pre-stirred ink raw material transfer device according to claim 2, characterized in that, The tensioning bracket (49) is integrally connected to the middle of the bracket (41). The tensioning bracket (49) is a hollow structure with a tensioning wheel (412) inside. Adjustment holes (410) are opened on both sides of the tensioning bracket (49). The tensioning wheel (412) is rotatably connected to the third shaft (411). The two ends of the third shaft (411) extend to the outside of the tensioning bracket (49) through the adjustment holes (410). The end of the third shaft (411) is threaded and connected to a nut (413) to fix the position of the tensioning wheel (412) inside the tensioning bracket (49). The belt (48) passes around the tensioning wheel (412).
6. The pre-stirred ink raw material transfer device according to claim 1, characterized in that, The bottom of the movable carrier (1) is also rotatably connected to a steering wheel (11), and a traction hook (14) is installed at the front end of the movable carrier (1).