Conveniently operated film material raw material stirring machine

By designing a membrane material raw material mixer with multi-section electric telescopic rods and pen-type electric push rods, the problems of long mixing time and insufficient storage of existing equipment have been solved, realizing automated storage and efficient mixing of membrane material raw materials.

CN224408115UActive Publication Date: 2026-06-26ZHEJIANG BOYANG NEW MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG BOYANG NEW MATERIALS CO LTD
Filing Date
2025-08-04
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing membrane material mixing equipment has a long mixing time and lacks material feeding and storage functions, resulting in inconvenient operation.

Method used

A membrane material raw material mixer was designed, comprising a multi-section electric telescopic rod, a pen-type electric push rod, and a vibration motor. It has multiple storage chambers and cooperating mixing blades, enabling automated storage and efficient mixing of raw materials.

Benefits of technology

It enables convenient storage and rapid mixing of membrane material raw materials, thus improving operational efficiency.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224408115U_ABST
    Figure CN224408115U_ABST
Patent Text Reader

Abstract

The utility model provides a convenient operation's membrane material raw material stirring machine, including frame, the frame is lastly connected with the stirring barrel that has the opening in upper portion, the stirring barrel lower part is connected with the output pipe, the horizontal rotation of stirring barrel in installation has the main shaft, the fixed stirring structure of main shaft, the frame is through the crosspiece and the solid connection of multisection electric telescopic link, multisection electric telescopic link's push rod end and the stage of going up and down are linked, the stage of going up and down is through a plurality of springs and the box body is connected, the box body is lastly connected with a plurality of baffle plates that are arranged up and down in the inclination, and the baffle plate divides the box body into a plurality of storage rooms, the storage room one side is connected with the feeding hopper, the storage room other side is connected with the discharge pipe, the discharge pipe has the electric control valve on, the stirring barrel upper portion is fixed with U type platform, U type platform has the auxiliary mechanism for guiding the raw material at the discharge pipe into the stirring barrel.
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Description

Technical Field

[0001] This utility model belongs to the field of membrane material processing technology and relates to a membrane material raw material mixer that is easy to operate. Background Technology

[0002] Membrane materials are materials with special properties that play an important role in many fields. These materials are commonly used to manufacture various products, such as specific components or overall structures in industries like packaging, construction, medical, and electronics.

[0003] During the manufacturing process, it is necessary to thoroughly stir and mix various raw materials. Existing membrane material mixing equipment uses a single stirring blade, resulting in a long mixing time. In addition, the equipment lacks a feeding and storage function, making it impossible to store weighed raw materials in advance. Therefore, it is essential to design a membrane material mixing machine that is easy to operate. Summary of the Invention

[0004] The purpose of this invention is to address the aforementioned problems in existing technologies by proposing a convenient membrane material mixer.

[0005] The objective of this utility model can be achieved through the following technical solution: A convenient membrane material raw material mixer includes a frame, a mixing tank with an opening at the top fixedly connected to the frame, an output pipe connected to the lower part of the mixing tank, a main shaft horizontally rotatably mounted inside the mixing tank, a mixing structure fixed on the main shaft, a crossbar and multiple sections of electric telescopic rods fixedly connected to the frame, the push rod ends of the multiple sections of electric telescopic rods connected to a lifting platform, a lifting platform connected to a housing via multiple springs, several partitions arranged vertically fixedly connected to the housing at an incline, the partitions dividing the housing into multiple storage chambers, a feeding hopper connected to one side of each storage chamber, a discharge pipe connected to the other side of each storage chamber, an electrically controlled valve on the discharge pipe, a U-shaped platform fixed to the upper part of the mixing tank, and an auxiliary mechanism for guiding the raw material from the discharge pipe into the mixing tank on the U-shaped platform.

[0006] The auxiliary mechanism includes an L-shaped intermediate hopper and a test electric push rod. The L-shaped intermediate hopper is slidably connected to the U-shaped platform through upper and lower guide wheel sets. The test electric push rod is horizontally fixed to the U-shaped platform through a mounting block. The push rod end of the test electric push rod is fixedly connected to the L-shaped intermediate hopper.

[0007] A vibration motor is also fixedly connected to the box.

[0008] The stirring structure includes a flat stirring plate and a spiral stirring plate, with the flat stirring plate arranged on both sides of the spiral stirring plate; the stirring tank also contains several auxiliary plates arranged at an angle.

[0009] The mixing tank is fixedly connected to the frame by multiple mounting seats.

[0010] An electrical control box is also fixedly connected to the frame, and the multi-section electric telescopic rod, electric control valve, electric push rod and vibration motor are all electrically connected to the electrical control box through wiring.

[0011] Compared with existing technologies, this easy-to-operate membrane material mixer has the following advantages:

[0012] In this invention, the weighed membrane material raw materials are first added to the storage chamber. Since there are multiple storage chambers, multiple sets of membrane material raw materials can be stored. After the previous set of raw materials is stirred, the box is moved upward by a multi-section electric telescopic rod, so that the corresponding discharge pipe reaches the discharge height. The L-shaped intermediate hopper is moved horizontally by a pen-type electric push rod and positioned below the discharge pipe. Then, the electric control valve is opened to add a set of raw materials from the storage chamber into the mixing tank. With the synergistic action of the flat plate mixing plate, the spiral mixing plate and the auxiliary plate, the stirring operation of the membrane material raw materials can be completed conveniently. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the planar structure of this utility model;

[0014] Figure 2 This is a three-dimensional structural diagram of the removed portion of this utility model;

[0015] In the diagram, 1. Frame; 2. Electrical control box; 3. Reducer; 4. Power motor; 5. Mixing tank; 6. Electric push rod; 7. Mounting block; 8. U-shaped platform; 9. Upper and lower guide wheel assembly; 10. L-shaped intermediate hopper; 11. Discharge pipe; 12. Electrically controlled valve; 13. Box body; 13a. Storage chamber; 14. Partition; 15. Spring; 16. Vibration motor; 17. Crossbar; 18. Multi-section electric telescopic rod; 19. Output pipe; 20. Main shaft; 21. Auxiliary plate; 22. Flat plate mixing plate; 23. Spiral mixing plate; 24. Mounting base; 25. Lifting platform. Detailed Implementation

[0016] The following are specific embodiments of the present invention, which are described in conjunction with the accompanying drawings. However, the present invention is not limited to these embodiments.

[0017] like Figures 1-2As shown, this easy-to-operate membrane material mixer includes a frame 1, on which a mixing tank 5 with an open top is fixedly connected. Specifically, the mixing tank 5 is fixedly connected to the frame 1 via multiple mounting seats 24; an output pipe 19 is connected to the lower part of the mixing tank 5; a main shaft 20 is horizontally rotatably mounted inside the mixing tank 5. In practice, a power motor 4 and a reducer 3 are also fixedly connected to the frame 1. One end of the reducer 3 is fixedly connected to the output shaft of the power motor 4, and the other end of the reducer 3 is fixedly connected to the main shaft 20; a mixing structure is fixed on the main shaft 20; a crossbar 17 and a multi-section electric telescopic rod 18 are fixedly connected to the frame 1; the push rod end of the multi-section electric telescopic rod 18 is connected to a lifting platform 25; and multiple springs 1 are connected to the lifting platform 25. 5 is connected to the housing 13. Specifically, a vibration motor 16 is also fixedly connected to the housing 13. With this structure, the vibration motor 16 can make the housing 13 vibrate up and down, so that the film raw material in the storage chamber 13a can be smoothly output. Several partitions 14 are inclined and fixedly connected inside the housing 13, and the partitions 14 divide the housing 13 into multiple storage chambers 13a. A feeding hopper is connected to one side of the storage chamber 13a, and a discharge pipe 11 is connected to the other side of the storage chamber 13a. The discharge pipe 11 has an electrically controlled valve 12, which is an existing product. A U-shaped platform 8 is fixed on the upper part of the mixing tank 5. The U-shaped platform 8 has an auxiliary mechanism for guiding the raw material at the discharge pipe 11 into the mixing tank 5.

[0018] The auxiliary mechanism includes an L-shaped intermediate hopper 10 and a test electric push rod 6. The L-shaped intermediate hopper 10 is slidably connected to the U-shaped platform 8 via upper and lower guide wheel sets 9. The test electric push rod 6 is horizontally fixed to the U-shaped platform 8 via mounting block 7. The push rod end of the test electric push rod 6 is fixedly connected to the L-shaped intermediate hopper 10. In practice, when the box body 13 moves up and down, the L-shaped intermediate hopper 10 is in a retracted state; when it is necessary to add material, the L-shaped intermediate hopper 10 is in an extended state.

[0019] The stirring structure includes a flat stirring plate 22 and a spiral stirring plate 23, with the flat stirring plate 22 arranged on both sides of the spiral stirring plate 23; a number of auxiliary plates 21 arranged at an incline are also fixed inside the stirring tank 5. In this embodiment, the flat stirring plate 22, the spiral stirring plate 23 and the auxiliary plates 21 work together to make the membrane material raw material quickly and evenly stirred, which is a prior art.

[0020] An electrical control box 2 is also fixedly connected to the frame 1. The multi-section electric telescopic rod 18, the electric control valve 12, the electric push rod 6 and the vibration motor 16 are all electrically connected to the electrical control box 2 through the circuit. This adopts the existing technology, and its circuit does not need to be redesigned.

[0021] In this invention, the weighed membrane material raw materials are first added to the storage chamber 13a. Since there are multiple storage chambers 13a, multiple sets of membrane material raw materials can be stored. After the previous set of raw materials is stirred, the box body 13 is moved upward by the multi-section electric telescopic rod 18, so that the corresponding discharge pipe 11 reaches the discharge height. The L-shaped intermediate hopper 10 is moved horizontally by the electric push rod 6 and positioned below the discharge pipe 11. Then, the electric control valve 12 is opened to add a set of raw materials from the storage chamber 13a into the mixing tank. With the synergistic action of the flat stirring plate 22, the spiral stirring plate 23 and the auxiliary plate 21, the stirring operation of the membrane material raw materials can be completed conveniently. In this embodiment, a set of membrane material raw materials refers to a combination of multiple different raw materials according to the required weight.

[0022] All of the above components are general standard parts or components known to those skilled in the art. Their structure and principles can be learned by those skilled in the art through technical manuals or conventional experimental methods.

[0023] The specific embodiments described herein are merely illustrative examples illustrating the spirit of this utility model. Those skilled in the art to which this utility model pertains may make various modifications or additions to the described specific embodiments or use similar methods to substitute them, without departing from the spirit of this utility model or exceeding the scope defined by the appended claims.

Claims

1. A convenient membrane material raw material mixer, comprising a frame (1), characterized in that, A mixing tank (5) with an opening at the top is fixedly connected to the frame (1). An output pipe (19) is connected to the lower part of the mixing tank (5). A main shaft (20) is horizontally rotatably installed inside the mixing tank (5). A mixing structure is fixed on the main shaft (20). The frame (1) is fixedly connected to a crossbar (17) and a multi-section electric telescopic rod (18). The push rod end of the multi-section electric telescopic rod (18) is connected to a lifting platform (25). The lifting platform (25) is connected to a housing (13) through multiple springs (15). The box (13) is inclined and fixed with several partitions (14) arranged vertically, and the partitions (14) divide the box (13) into multiple storage chambers (13a). A feeding hopper is connected to one side of the storage chamber (13a), and a discharge pipe (11) is connected to the other side of the storage chamber (13a). An electrically controlled valve (12) is provided on the discharge pipe (11). A U-shaped platform (8) is fixed on the upper part of the mixing tank (5). The U-shaped platform (8) has an auxiliary mechanism for guiding the raw material at the discharge pipe (11) into the mixing tank (5).

2. The easy-to-operate membrane material mixer according to claim 1, characterized in that, The auxiliary mechanism includes an L-shaped intermediate bucket (10) and a test electric push rod (6). The L-shaped intermediate bucket (10) is slidably connected to the U-shaped platform (8) through upper and lower guide wheel groups (9). The test electric push rod (6) is horizontally fixed to the U-shaped platform (8) through a mounting block (7). The push rod end of the test electric push rod (6) is fixedly connected to the L-shaped intermediate bucket (10).

3. The easy-to-operate membrane material mixer according to claim 2, characterized in that, A vibration motor (16) is also fixedly connected to the housing (13).

4. The easy-to-operate membrane material mixer according to claim 1, characterized in that, The stirring structure includes a flat stirring plate (22) and a spiral stirring plate (23), with the flat stirring plate (22) arranged on both sides of the spiral stirring plate (23); the stirring tank (5) also has several auxiliary plates (21) arranged at an inclination fixed inside.

5. The easy-to-operate membrane material mixer according to claim 1, characterized in that, The mixing tank (5) is fixedly connected to the frame (1) by a plurality of mounting seats (24).

6. The easy-to-operate membrane material mixer according to claim 4, characterized in that, An electrical control box (2) is also fixedly connected to the frame (1). The multi-section electric telescopic rod (18), the electric control valve (12), the electric push rod (6), and the vibration motor (16) are all connected to the electrical control box (2) via lines.