Auxiliary workbench for assembling injection mold

By designing an auxiliary worktable for injection mold assembly and adopting a combination structure of lifting bars, hinge rods and cylinders, the template can be flipped with less effort, solving the problem of high physical exertion during mold assembly and improving assembly efficiency and convenience.

CN224476472UActive Publication Date: 2026-07-10ZHONGSHAN BOYU PRECISE MOULD MAKING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN BOYU PRECISE MOULD MAKING CO LTD
Filing Date
2025-09-12
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

During the assembly process of injection molds, workers need to manually flip and move them, which results in a significant physical exertion, and existing technologies cannot provide labor-saving solutions.

Method used

Design an auxiliary workbench for injection mold assembly, which adopts a combination structure of lifting bars, hinge rods and cylinders. The template can be flipped in a labor-saving manner through a pneumatic control system. The cylinder drives the connecting rod to rotate the hinge rod and lifting bars, thereby realizing the automatic flipping of the template.

Benefits of technology

It reduces the physical exertion of staff, improves the efficiency and convenience of mold assembly, and reduces the difficulty of operation.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an auxiliary workbench for injection mold assembly relates to injection mold assembly technical field. The device includes the horizontal setting's platform, and the middle part of platform front side surface is equipped with two to its rear extension and vertical through device groove. The auxiliary workbench for injection mold assembly, through setting lifting strip, hinged link and cylinder, when the staff needs to carry out the operation of turning over the template, can be transferred from the platform to the two lifting strips above the template, then the piston rod of control cylinder elongation, drives the link to move forward, so as to be able to drive the hinged link to move forward, because the front end of hinged link is hinged with lifting strip, and lifting strip is restricted only to be able to rotate by fixed shaft, so it will drive lifting strip to rotate upwards and turn over the template above it, so that the staff can turn over the template more labor saving and convenient, reduce physical consumption, also can improve assembly efficiency to some extent.
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Description

Technical Field

[0001] This utility model relates to the field of injection mold assembly technology, and in particular to an auxiliary workbench for injection mold assembly. Background Technology

[0002] Injection molding, also known as injection molding, is a molding method that combines injection and molding. The advantages of injection molding include high production speed and efficiency, automated operation, a wide variety of designs and shapes (from simple to complex), and sizes ranging from large to small. It also produces dimensionally accurate products, facilitates product updates and replacements, and can create complex shapes. Injection molding is suitable for mass production and molding processes involving complex shapes.

[0003] Injection molding requires the use of injection molds. The materials of injection molds are generally special alloy steel or carbon steel, which makes the weight of a single injection mold relatively large. Furthermore, the assembly of injection molds requires manual operation, and workers need to constantly flip and move the molds, which consumes a lot of physical strength.

[0004] Therefore, how to make it easier for workers to flip the templates and other structures of injection molds is a technical problem that the industry urgently needs to solve. Utility Model Content

[0005] The main purpose of this utility model is to provide an auxiliary workbench for injection mold assembly, which aims to make it easier for workers to flip the template and other structures of the injection mold.

[0006] This utility model proposes an auxiliary workbench for injection mold assembly, including a horizontally arranged platform. Two device slots extending rearward and vertically penetrating the center of the front surface of the platform are formed. The inner ends of both device slots are horizontally fixedly connected to fixed shafts. The outer surfaces of both fixed shafts are rotatably connected to lifting bars adapted to the length of the device slots. The lower surfaces of the front ends of both lifting bars are fixedly connected to connecting seats. The bottom ends of both connecting seats are hinged to hinge rods. A cylinder is fixedly connected to the rear part of the lower surface of the platform along the length of the device slots. The front end of the piston rod of the cylinder is fixedly connected to a horizontally arranged connecting sleeve perpendicular to the length of the device slots. A connecting rod coaxial with the connecting sleeve is rotatably connected inside the connecting sleeve. The rear ends of the two hinge rods are respectively hinged to the two ends of the connecting rod.

[0007] Preferably, the upper parts of the front ends of the two device slots extend to both sides of the platform to form support slots, and the outer surfaces of the front ends of the two lifting bars are respectively fixedly connected with extension blocks corresponding to the two support slots.

[0008] Preferably, when the two lifting bars are in a horizontal state, the upper surfaces of the two lifting bars and the upper surface of the platform are located on the same plane.

[0009] Preferably, a device box is fixedly connected to one side of the upper surface of the platform, and multiple sliding grooves are opened along the width direction on the other side of the upper surface of the platform. Sliding blocks are slidably connected inside the multiple sliding grooves. A rectangular placement box is fixedly connected to the top of the multiple sliding blocks laterally. Multiple partition plates are fixedly connected inside the placement box. The multiple partition plates are arranged perpendicularly to each other to divide the interior of the placement box into multiple placement compartments.

[0010] Preferably, tool boxes with open front ends are fixedly connected to both sides of the lower surface of the platform, and multiple support legs are vertically fixedly connected to the outer edge of the lower surface of the platform.

[0011] Preferably, a control box is fixedly connected to the lower surface of the platform and to one side of the cylinder, and a control pedal is provided below the platform. Both the cylinder and the control pedal are signal connected to the control box.

[0012] This invention, by incorporating lifting bars, hinge rods, and cylinders, allows for efficient template flipping. When workers need to flip a template, the template is moved horizontally from the platform above the two lifting bars. The piston rod of the cylinder then extends, driving the connecting rod forward, which in turn moves the hinge rod forward. Since the front end of the hinge rod is hinged to the lifting bars, and the lifting bars are restricted to rotation by a fixed shaft, the lifting bars rotate upwards, flipping the template above them. This allows workers to flip the template more easily and effortlessly, reducing physical exertion and improving assembly efficiency to some extent. Attached Figure Description

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

[0014] Figure 2 This is a schematic diagram of the lower structure of this utility model;

[0015] Figure 3 This is a schematic diagram of the lifting structure in this utility model.

[0016] In the diagram: 1. Platform, 2. Device slot, 3. Support slot, 4. Lifting bar, 5. Extension block, 6. Connecting seat, 7. Hinge rod, 8. Cylinder, 9. Connecting sleeve, 10. Connecting rod, 11. Control pedal, 12. Control box, 13. Support leg, 14. Device box, 15. Slide, 16. Placement box, 17. Divider plate, 18. Tool box.

[0017] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation

[0018] It should be understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the present invention.

[0019] Reference Figure 1-3 This invention proposes an embodiment of an auxiliary workbench for injection mold assembly, comprising a horizontally arranged platform 1. Two device slots 2 extending vertically and extending to the rear are formed in the middle of the front surface of the platform 1. The inner ends of both device slots 2 are horizontally fixedly connected to fixed shafts. The outer surfaces of both fixed shafts are rotatably connected to lifting bars 4 adapted to the length of the device slots 2. The lower surfaces of the front ends of both lifting bars 4 are fixedly connected to connecting seats 6. The bottom ends of both connecting seats 6 are hinged to hinge rods 7. A cylinder 8 is fixedly connected to the rear part of the lower surface of the platform 1 along the length of the device slots 2. The front end of the piston rod of the cylinder 8 is fixedly connected to a horizontally arranged connecting sleeve 9 perpendicular to the length of the device slots 2. A connecting rod 10, coaxial with the connecting sleeve 9, is rotatably connected inside the connecting sleeve 9. The rear ends of the two hinge rods 7 are respectively hinged to the two ends of the connecting rod 10.

[0020] When the device is in use, if the operator needs to flip the template, the template can be moved horizontally from the platform 1 to above the two lifting bars 4. Then, the piston rod of the cylinder 8 is extended, which drives the connecting rod 10 to move forward. This drives the hinge rod 7 to move forward. Since the front end of the hinge rod 7 is hinged to the lifting bar 4, and the lifting bar 4 is restricted by the fixed shaft to only rotate, it will drive the lifting bar 4 to rotate upward, thereby flipping up the template above it. This allows the operator to flip the template more easily and effortlessly, reducing physical exertion and improving assembly efficiency to a certain extent.

[0021] Furthermore, the upper parts of the front ends of the two device slots 2 extend to both sides of the platform 1 to form support slots 3, and the outer surfaces of the front ends of the two lifting bars 4 are respectively fixedly connected with extension blocks 5 corresponding to the two support slots 3.

[0022] When the two lifting bars 4 are in a horizontal state, the upper surfaces of the two lifting bars 4 and the upper surface of the platform 1 are located on the same plane.

[0023] The support groove 3 and the extension block 5 provide support, allowing the lifting bar 4 to remain horizontal under normal conditions. At the same time, since the upper surfaces of the two lifting bars 4 and the upper surface of the platform 1 are on the same plane when the lifting bar 4 is horizontal, the workers will not be obstructed when moving the template above the lifting bar 4.

[0024] Furthermore, a device box 14 is fixedly connected to one side of the upper surface of the platform 1, and multiple sliding grooves 15 are opened along the width direction on the other side of the upper surface of the platform 1. Sliding blocks are slidably connected inside the multiple sliding grooves 15. Rectangular placement boxes 16 are fixedly connected to the top of the multiple sliding blocks laterally. Multiple partition plates 17 are fixedly connected inside the placement box 16. The multiple partition plates 17 are arranged perpendicularly to each other to divide the interior of the placement box 16 into multiple placement compartments.

[0025] The interior of the device box 14 is divided into multiple cavities by multiple horizontal partitions. Each cavity is equipped with a drawer, which can store small tools inside the device box 14 for easy access. Small parts such as ejector pins in the mold can be placed in the multiple placement compartments for easy access and use. When not in use, the placement box 16 can be pushed backward to prevent it from affecting the assembly operation. Limit blocks are provided at both ends of the multiple slides 15 to prevent the placement box 16 from detaching from the inside of the slide.

[0026] Furthermore, tool boxes 18 with open front ends are fixedly connected to both sides of the lower surface of the platform 1, and multiple support legs 13 are fixedly connected vertically to the outer edge of the lower surface of the platform 1.

[0027] The toolbox 18 can store larger tools, and multiple support legs 13 provide support.

[0028] Furthermore, a control box 12 is fixedly connected to the lower surface of the platform 1 and to one side of the cylinder 8. A control pedal 11 is provided below the platform 1. Both the cylinder 8 and the control pedal 11 are signal connected to the control box 12.

[0029] The control box 12 is equipped with modules such as a signal receiving module and a control module. The operator controls the operation of the cylinder 8 by stepping on the control pedal 11. The deeper the pedal is stepped, the longer the piston rod of the cylinder 8 will extend.

[0030] When the device is in use, if the operator needs to flip the template, the template can be moved horizontally from the platform 1 to above the two lifting bars 4. Then, the piston rod of the cylinder 8 is extended, which drives the connecting rod 10 to move forward. This drives the hinge rod 7 to move forward. Since the front end of the hinge rod 7 is hinged to the lifting bar 4, and the lifting bar 4 is restricted by the fixed shaft to only rotate, it will drive the lifting bar 4 to rotate upward, thereby flipping up the template above it. This allows the operator to flip the template more easily and effortlessly, reducing physical exertion and improving assembly efficiency to a certain extent.

[0031] The above description is only a preferred embodiment of the present utility model and does not limit the patent scope of the present utility model. Any equivalent structural transformations made based on the contents of the present utility model specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of the present utility model.

Claims

1. An auxiliary workbench for injection mold assembly, characterized in that, The device includes a horizontally arranged platform (1). Two device slots (2) extending vertically to the rear are opened in the middle of the front surface of the platform (1). The inner ends of the two device slots (2) are horizontally fixedly connected to fixed shafts. The outer surfaces of the two fixed shafts are rotatably connected to lifting bars (4) adapted to the length of the device slots (2). The lower surfaces of the front ends of the two lifting bars (4) are fixedly connected to connecting seats (6). The bottom ends of the two connecting seats (6) are hinged to hinge rods (7). The rear part of the lower surface of the platform (1) is fixedly connected to a cylinder (8) along the length direction of the device slots (2). The front end of the piston rod of the cylinder (8) is fixedly connected to a horizontally arranged connecting sleeve (9) that is perpendicular to the length direction of the device slots (2). The connecting sleeve (9) is rotatably connected to a connecting rod (10) that is coaxial with it. The rear ends of the two hinge rods (7) are respectively hinged to the two ends of the connecting rod (10).

2. The auxiliary workbench for injection mold assembly according to claim 1, characterized in that, The upper part of the front end of the two device slots (2) extends to both sides of the platform (1) to form support slots (3), and the outer surface of the front end of the two lifting bars (4) is fixedly connected with extension blocks (5) corresponding to the two support slots (3).

3. The auxiliary workbench for injection mold assembly according to claim 1, characterized in that, When the two lifting bars (4) are in a horizontal state, the upper surfaces of the two lifting bars (4) and the upper surface of the platform (1) are located on the same plane.

4. The auxiliary workbench for injection mold assembly according to claim 1, characterized in that, A device box (14) is fixedly connected to one side of the upper surface of the platform (1). A plurality of sliding grooves (15) are provided along the width direction on the other side of the upper surface of the platform (1). A slider is slidably connected inside the plurality of sliding grooves (15). A rectangular placement box (16) is fixedly connected to the top of the plurality of sliders laterally. A plurality of partition plates (17) are fixedly connected inside the placement box (16). The plurality of partition plates (17) are arranged perpendicularly to each other to divide the interior of the placement box (16) into a plurality of placement compartments.

5. The auxiliary workbench for injection mold assembly according to claim 1, characterized in that, Tool boxes (18) with open front ends are fixedly connected to both sides of the lower surface of the platform (1), and multiple support legs (13) are fixedly connected vertically to the outer edge of the lower surface of the platform (1).

6. The auxiliary workbench for injection mold assembly according to claim 1, characterized in that, A control box (12) is fixedly connected to the lower surface of the platform (1) and to one side of the cylinder (8). A control pedal (11) is provided below the platform (1). Both the cylinder (8) and the control pedal (11) are signal connected to the control box (12).