A rubber product production material taking device

By using the flipping and cooling components of the rubber product manufacturing material handling device, the problem of damage to rubber products caused by the unloading hook is solved, achieving convenient material handling and efficient cooling, thus improving manufacturing and usage effects.

CN224408192UActive Publication Date: 2026-06-26CHONGQING FENGHAI KUNXIANG IND GRP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHONGQING FENGHAI KUNXIANG IND GRP CO LTD
Filing Date
2025-07-16
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing demolding devices for rubber processing cause the ejection hook to come into contact with the rubber product during use, which can easily damage the rubber product and reduce the manufacturing and usage effects.

Method used

A material handling device for rubber product manufacturing was designed. The device uses a flipping component to flip the mold and a cooling component to cool and fix the mold, thus avoiding direct contact with the rubber product and enabling convenient material handling.

Benefits of technology

It improves the manufacturing efficiency and quality of rubber products. Through the cooperation of the flipping component and the cooling component, damage to rubber products is avoided, and the material handling efficiency and usage effect are improved.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224408192U_ABST
    Figure CN224408192U_ABST
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Abstract

The utility model relates to a rubber product production material taking device belongs to the technical field of rubber products, including mould, the bottom surface of mould places has the connecting storehouse, the right side of connecting storehouse is fixedly connected with the mounting bracket, the inside of mounting bracket places has the linkage board of two and one end extends to the right side of mould, be equipped with the turnover subassembly for driving mould to carry out the turnover on mounting bracket, the turnover subassembly includes the drive motor, the drive motor fixed mounting is on the back of mounting bracket, the output shaft of drive motor is fixedly connected with the one end of the rotating rod that penetrates mounting bracket and extends to its inside. The rubber product production material taking device, through the cooperation between rotating rod and linkage board, conveniently drive mould to carry out the turnover, and then discharge rubber product from mould, conveniently carry out material taking treatment, through the cooperation between positioning plate and positioning groove, conveniently carry out the connection between linkage board and mould, make staff use conveniently.
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Description

Technical Field

[0001] This utility model relates to the field of rubber product technology, specifically to a material handling device for rubber product production. Background Technology

[0002] Rubber products refer to the activities of producing various rubber products using natural and synthetic rubber as raw materials, and also include rubber products produced by recycling waste rubber. The output of synthetic rubber has far exceeded that of natural rubber, with styrene-butadiene rubber having the largest output.

[0003] The patent CN214323943U discloses a demolding device for rubber processing. This patent discloses a convenient demolding technical solution, which solves the problem that in the existing rubber shoe sole manufacturing process, manual demolding is required. Operators need to come into contact with the mold, and the mold has a certain residual heat. Improper operation may cause burns. In addition, manual demolding is time-consuming and labor-intensive, which is not conducive to improving work efficiency.

[0004] When in use, the device conveniently removes the molded rubber from the mold groove through the action of the ejector hook. However, the ejector hook comes into contact with the rubber product, which can easily damage the rubber product and reduce the manufacturing and usage effects. Therefore, a material handling device for rubber product production is proposed to solve the above problems. Utility Model Content

[0005] To address the shortcomings of existing technologies, this utility model provides a material handling device for rubber product manufacturing, which has the advantage of convenient material handling and solves the problem that existing demolding devices for rubber processing cause damage to rubber products when the ejection hook comes into contact with them, thus reducing manufacturing and usage efficiency.

[0006] To achieve the above objectives, this utility model provides the following technical solution:

[0007] A material handling device for producing rubber products includes a mold, a connecting chamber placed on the bottom surface of the mold, an mounting frame fixedly connected to the right side of the connecting chamber, two linkage plates with one end extending to the right side of the mold placed inside the mounting frame, and a flipping component for driving the mold to flip.

[0008] The flipping assembly includes a drive motor, which is fixedly mounted on the back of the mounting frame. The output shaft of the drive motor is fixedly connected to a rotating rod that passes through the mounting frame and extends into it. The rotating rod passes through two linkage plates and is fixedly connected to them. The left side of each of the two linkage plates is provided with a positioning groove. The right side of the mold is fixedly connected to two positioning plates, one end of which extends into the two positioning grooves respectively. The right side of each of the two linkage plates is provided with a slot.

[0009] Both linkage plates are equipped with fixing components for fixing the positioning plate.

[0010] The connecting chamber is equipped with a cooling component for cooling the mold.

[0011] Furthermore, the mounting bracket is a U-shaped bracket, and the rotating rod is rotatably connected to the mounting bracket via bearings.

[0012] Furthermore, the linkage plate is an L-shaped plate, and the positioning plate and the positioning groove are slidably connected.

[0013] Furthermore, the fixing component includes a drive rod, which is rotatably connected to the inside of the slot via a bearing. A screw extending into the top surface of the drive rod is movably connected to the top surface of the drive rod. A movable plate is fixedly connected to the top surface of the screw. A clearance groove is formed on the bottom surface of both positioning plates. A fixing groove is formed inside the linkage plate. A fixing plate with one end penetrating through the clearance groove and extending into the fixing groove is fixedly connected to the top surface of the movable plate. A limiting groove is formed inside the linkage plate. A limiting plate with one end extending into the limiting groove is fixedly connected to the bottom surface of the movable plate.

[0014] Furthermore, the limiting plate is an L-shaped plate, the limiting plate and the limiting groove are slidably connected, the fixing plate and the clearance groove are slidably connected, and the fixing plate and the fixing groove are fitted together.

[0015] Furthermore, the top surface of the drive rod is provided with a threaded hole, and the screw extends into the interior of the threaded hole and is threadedly connected thereto.

[0016] Furthermore, the cooling assembly includes a partition plate fixedly connected inside the connecting chamber. A placement slot is provided inside the mold. A return pipe, with one end penetrating the mold and the connecting chamber and extending to the bottom of the partition plate, is fixedly connected inside the placement slot. A liquid pump is fixedly installed on the top surface of the partition plate. An inlet pipe, with one end penetrating the partition plate and extending to its bottom, is fixedly installed at the inlet end of the liquid pump. An outlet pipe, with one end penetrating the connecting chamber and the mold and extending to the placement slot, is fixedly installed at the outlet end of the liquid pump. A wire hole is provided on the back of the connecting chamber. A delivery pipe, with one end penetrating the connecting chamber and extending to its interior, is fixedly connected to the right side of the connecting chamber. A drain pipe, with one end penetrating the connecting chamber and extending to its interior, is fixedly connected to the right side of the connecting chamber. Solenoid valves are fixedly installed on the outer peripheral walls of both the delivery pipe and the drain pipe.

[0017] Furthermore, the connecting chamber is a hollow cuboid, the return pipe is fixedly connected to the partition, the liquid outlet pipe is fixedly connected to the mold, the liquid inlet pipe is fixedly connected to the partition, the conveying pipe is located between the partition and the drain pipe, and both the return pipe and the liquid outlet pipe are telescopic pipes.

[0018] Compared with the prior art, this utility model provides a material handling device for rubber product manufacturing, which has the following advantages:

[0019] 1. This rubber product production material handling device, through the cooperation between the rotating rod and the linkage plate, conveniently drives the mold to rotate, thereby expelling the rubber product from the mold and facilitating material handling. Through the cooperation between the positioning plate and the positioning groove, the linkage plate and the mold are conveniently connected, making it easy for workers to use.

[0020] 2. This rubber product manufacturing material handling device, through the cooperation between the fixed plate, the relief groove and the fixed groove, conveniently fixes the mold, making it easy for workers to operate. The placement groove stores coolant, thereby cooling the mold and improving material handling efficiency. At the same time, the liquid pump conveniently transports the coolant, making it even more convenient and practical. Attached Figure Description

[0021] Figure 1 This is a three-dimensional view of the structure of this utility model;

[0022] Figure 2 This is a schematic diagram of the internal structure of the present invention;

[0023] Figure 3 This is a schematic diagram of the right side of the mounting bracket in the structure of this utility model;

[0024] Figure 4 This is a partially enlarged schematic diagram of the internal structure of the linkage plate in this utility model.

[0025] In the diagram: 1. Mold, 2. Connecting chamber, 3. Placement slot, 4. Liquid outlet pipe, 5. Threading hole, 6. Partition plate, 7. Return pipe, 8. Liquid inlet pipe, 9. Liquid pump, 10. Delivery pipe, 11. Drain pipe, 12. Solenoid valve, 13. Mounting bracket, 14. Rotating rod, 15. Linkage plate, 16. Drive motor, 17. Fixing slot, 18. Clearance slot, 19. Fixing plate, 20. Moving plate, 21. Slot, 22. Screw, 23. Drive rod, 24. Limiting slot, 25. Limiting plate, 26. Positioning plate, 27. Positioning slot. Detailed Implementation

[0026] 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.

[0027] Please see Figures 1 to 4The rubber product production material handling device in this embodiment includes a mold 1, a connecting chamber 2 is placed on the bottom surface of the mold 1, and an mounting frame 13 is fixedly connected to the right side of the connecting chamber 2. The mounting frame 13 contains two linkage plates 15, one end of which extends to the right side of the mold 1. The mounting frame 13 is provided with a flipping component for driving the mold 1 to flip.

[0028] The flipping assembly includes a drive motor 16, which is fixedly mounted on the back of the mounting bracket 13. The output shaft of the drive motor 16 is fixedly connected to a rotating rod 14, one end of which passes through the mounting bracket 13 and extends into it. The rotating rod 14 passes through two linkage plates 15 and is fixedly connected to them. The left side of each of the two linkage plates 15 is provided with a positioning groove 27. The right side of the mold 1 is fixedly connected with two positioning plates 26, one end of which extends into the two positioning grooves 27 respectively. The right side of each of the two linkage plates 15 is provided with a slot 21.

[0029] Among them, the mounting bracket 13 is a U-shaped bracket, the rotating rod 14 is rotatably connected to the mounting bracket 13 through the bearing, the linkage plate 15 is an L-shaped plate, and the positioning plate 26 and the positioning groove 27 are slidably connected.

[0030] Specifically, the positioning plate 26 is inserted into the positioning groove 27 to restrict the connection plate 15 and the mold 1. The mold 1 is used to shape the rubber product. When the rubber product needs to be removed, the drive motor 16 is started. The output shaft of the drive motor 16 drives the rotating rod 14 to rotate. The rotating rod 14 drives the mold 1 to flip through the connection plate 15, thereby expelling the rubber product from the mold 1.

[0031] It should be noted that mold 1 is a conventional device known to the public in the prior art, and its specific structure and working principle will not be described in detail in this article.

[0032] Please see Figures 1 to 4 In this embodiment, both linkage plates 15 are provided with fixing components for fixing the positioning plates 26. The fixing components include a drive rod 23, which is rotatably connected to the inside of the slot 21 via a bearing. A screw 22 with one end extending into the top surface of the drive rod 23 is movably connected to the top surface of the screw 23. A movable plate 20 is fixedly connected to the top surface of the screw 22. Both positioning plates 26 have clearance grooves 18 on their bottom surfaces. A fixing groove 17 is provided inside the linkage plate 15. A fixing plate 19 with one end penetrating through the clearance groove 18 and extending into the fixing groove 17 is fixedly connected to the top surface of the movable plate 20. A limiting groove 24 is provided inside the linkage plate 15. A limiting plate 25 with one end extending into the limiting groove 24 is fixedly connected to the bottom surface of the movable plate 20.

[0033] Among them, the limiting plate 25 is an L-shaped plate, the limiting plate 25 and the limiting groove 24 are slidably connected, the fixing plate 19 and the clearance groove 18 are slidably connected, the fixing plate 19 and the fixing groove 17 are fitted together, the top surface of the drive rod 23 is provided with a threaded hole, and the screw 22 extends into the interior of the threaded hole and is threadedly connected to it.

[0034] Specifically, the fixed plate 19, the clearance groove 18, and the fixed groove 17 are located on the same center line. By rotating the drive rod 23, the screw 22 is driven to move the fixed plate 19 upward through the moving plate 20 via the threaded connection between the drive rod 23 and the screw 22 and the sliding connection between the limiting plate 25 and the limiting groove 24. The fixed plate 19 passes through the clearance groove 18 and enters the interior of the fixed groove 17. The positioning plate 26 is fixed by the fit between the fixed plate 19 and the fixed groove 17.

[0035] Please see Figures 1 to 4 In this embodiment, the connecting chamber 2 is provided with a cooling assembly for cooling the mold 1. The cooling assembly includes a partition 6, which is fixedly connected inside the connecting chamber 2. A placement groove 3 is provided inside the mold 1. A return pipe 7 is fixedly connected inside the placement groove 3, with one end penetrating the mold 1 and the connecting chamber 2 and extending to the bottom of the partition 6. A liquid pump 9 is fixedly installed on the top surface of the partition 6. An inlet pipe 8 is fixedly installed at the inlet end of the liquid pump 9, with one end penetrating the partition 6 and extending to its bottom. An outlet pipe 4 is fixedly installed at the outlet end of the liquid pump 9, with one end penetrating the connecting chamber 2 and the mold 1 and extending to the inside of the placement groove 3. A wire hole 5 is provided on the back of the connecting chamber 2. A delivery pipe 10 is fixedly connected to the right side of the connecting chamber 2, with one end penetrating the connecting chamber 2 and extending to its interior. A drain pipe 11 is fixedly connected to the right side of the connecting chamber 2, with one end penetrating the connecting chamber 2 and extending to its interior. Solenoid valves 12 are fixedly installed on the outer peripheral walls of both the delivery pipe 10 and the drain pipe 11.

[0036] The connecting chamber 2 is a hollow cuboid. The return pipe 7 and the partition 6 are fixedly connected. The liquid outlet pipe 4 and the mold 1 are fixedly connected. The liquid inlet pipe 8 and the partition 6 are fixedly connected. The conveying pipe 10 is located between the partition 6 and the drain pipe 11. Both the return pipe 7 and the liquid outlet pipe 4 are telescopic pipes.

[0037] Specifically, the top solenoid valve 12 is activated, and the coolant is delivered into the connecting chamber 2 through the delivery pipe 10. The liquid pump 9 is started, and the coolant is delivered into the placement tank 3 through the inlet pipe 8 and the outlet pipe 4. The mold 1 is cooled by the coolant. The coolant is returned to the connecting chamber 2 through the return pipe 7. The coolant is discharged through the drain pipe 11 by activating the bottom solenoid valve 12, and the coolant is replaced.

[0038] It should be noted that the liquid pump 9 and the solenoid valve 12 are conventional devices known to the public in the prior art. Their specific structure and working principle will not be described in detail in this article. The length of the return pipe 7 and the outlet pipe 4 is sufficient for the mold 1 to be flipped.

[0039] The working principle of the above embodiments is as follows:

[0040] Positioning plate 26 is inserted into positioning groove 27, restricting the connection between linkage plate 15 and mold 1. Fixing plate 19, relief groove 18, and fixing groove 17 are located on the same center line. Rotating drive rod 23 causes screw 22 to move fixing plate 19 upward via moving plate 20 through threaded connection between drive rod 23 and screw 22 and sliding connection between limiting plate 25 and limiting groove 24. Fixing plate 19 passes through relief groove 18 and enters fixing groove 17. The positioning plate 26 is fixed by the fit between fixing plate 19 and fixing groove 17. The mold 1 shapes the rubber product. The top solenoid valve 12 is activated, and the product is conveyed through the delivery pipe. Under the conveying of pump 10, coolant is conveyed into the interior of connecting chamber 2. Pump 9 is started, and coolant is conveyed into placing tank 3 through inlet pipe 8 and outlet pipe 4. The coolant cools the mold 1. Under the conveying of return pipe 7, the coolant is returned to the interior of connecting chamber 2. The coolant is discharged through drain pipe 11 by starting bottom solenoid valve 12. The coolant is replaced. When it is necessary to remove the rubber product, drive motor 16 is started. The output shaft of drive motor 16 drives rotating rod 14 to rotate. Rotating rod 14 drives mold 1 to flip through linkage plate 15, thereby expelling rubber product from mold 1.

[0041] The installation, connection, or setting methods disclosed in this embodiment are all common mechanical connection methods. Any method that can achieve its beneficial effect can be implemented. In addition, the electrical components in this embodiment are all electrically connected to the main controller and the power supply. The main controller can be a conventional known device such as a computer that plays a control role. Those skilled in the art can control the electrical components through simple programming. Moreover, the existing disclosed power connection technology is also common knowledge in the field. Therefore, the specific structural composition and working principle will not be described in detail in this embodiment.

[0042] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.

[0043] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A material handling device for producing rubber products, comprising a mold (1), characterized in that: The bottom surface of the mold (1) is provided with a connecting chamber (2), and the right side of the connecting chamber (2) is fixedly connected with a mounting frame (13). The mounting frame (13) contains two linkage plates (15) with one end extending to the right side of the mold (1). The mounting frame (13) is provided with a flipping component for driving the mold (1) to flip. The flipping assembly includes a drive motor (16), which is fixedly mounted on the back of the mounting frame (13). The output shaft of the drive motor (16) is fixedly connected to a rotating rod (14) that passes through the mounting frame (13) and extends into it. The rotating rod (14) passes through two linkage plates (15) and is fixedly connected to them. The left side of each of the two linkage plates (15) is provided with a positioning groove (27). The right side of the mold (1) is fixedly connected with two positioning plates (26) that extend into the two positioning grooves (27) respectively. The right side of each of the two linkage plates (15) is provided with a slot (21). Both linkage plates (15) are provided with fixing components for fixing the positioning plate (26), and the connecting chamber (2) is provided with a cooling component for cooling the mold (1).

2. The rubber product manufacturing material handling device according to claim 1, characterized in that: The mounting bracket (13) is a U-shaped bracket, and the rotating rod (14) is rotatably connected to the mounting bracket (13) through a bearing.

3. The rubber product manufacturing material handling device according to claim 1, characterized in that: The linkage plate (15) is an L-shaped plate, and the positioning plate (26) and the positioning groove (27) are slidably connected.

4. The material handling device for rubber product production according to claim 1, characterized in that: The fixing assembly includes a drive rod (23), which is rotatably connected to the inside of the slot (21) via a bearing. A screw (22) with one end extending into the top surface of the drive rod (23) is movably connected to the top surface of the screw (22). A movable plate (20) is fixedly connected to the top surface of the screw (22). A clearance groove (18) is provided on the bottom surface of both positioning plates (26). A fixing groove (17) is provided inside the linkage plate (15). A fixing plate (19) with one end penetrating through the clearance groove (18) and extending into the fixing groove (17) is fixedly connected to the top surface of the movable plate (20). A limiting groove (24) is provided inside the linkage plate (15). A limiting plate (25) with one end extending into the limiting groove (24) is fixedly connected to the bottom surface of the movable plate (20).

5. The rubber product manufacturing material handling device according to claim 4, characterized in that: The limiting plate (25) is an L-shaped plate. The limiting plate (25) and the limiting groove (24) are slidably connected. The fixing plate (19) and the clearance groove (18) are slidably connected. The fixing plate (19) and the fixing groove (17) are fitted together.

6. The rubber product manufacturing material handling device according to claim 4, characterized in that: The top surface of the drive rod (23) is provided with a threaded hole, and the screw (22) extends into the interior of the threaded hole and is threadedly connected to it.

7. The rubber product manufacturing material handling device according to claim 4, characterized in that: The cooling assembly includes a partition (6), which is fixedly connected to the inside of the connecting chamber (2). A placement slot (3) is provided inside the mold (1). A return pipe (7) is fixedly connected inside the placement slot (3), with one end penetrating the mold (1) and the connecting chamber (2) and extending to the bottom of the partition (6). A liquid pump (9) is fixedly installed on the top surface of the partition (6). An inlet pipe (8) is fixedly installed at the inlet end of the liquid pump (9), with one end penetrating the partition (6) and extending to its bottom. The outlet end of the liquid pump (9)... A liquid outlet pipe (4) is fixedly installed, with one end penetrating the connecting chamber (2) and the mold (1) and extending into the placement tank (3). A wire hole (5) is provided on the back of the connecting chamber (2). A conveying pipe (10) is fixedly connected to the right side of the connecting chamber (2), with one end penetrating the connecting chamber (2) and extending into its interior. A drain pipe (11) is fixedly connected to the right side of the connecting chamber (2), with one end penetrating the connecting chamber (2) and extending into its interior. Solenoid valves (12) are fixedly installed on the outer peripheral walls of both the conveying pipe (10) and the drain pipe (11).

8. A material handling device for rubber product production according to claim 7, characterized in that: The connecting chamber (2) is a hollow cuboid. The return pipe (7) and the partition (6) are fixedly connected. The liquid outlet pipe (4) and the mold (1) are fixedly connected. The liquid inlet pipe (8) and the partition (6) are fixedly connected. The delivery pipe (10) is located between the partition (6) and the drain pipe (11). Both the return pipe (7) and the liquid outlet pipe (4) are telescopic pipes.