A heavy truck composite heat insulation layer material pressing machine

Abstract

The utility model discloses a kind of heavy truck composite heat insulation layer material pressing machine, it is related to pressing machine technical field, the pressing machine includes bottom plate, connecting plate is provided on the bottom plate, pressing seat is provided on the connecting plate, first movable slot is provided in the pressing seat, first reset mechanism is provided in the first movable slot, second movable slot is provided in the both sides of the first movable slot, second reset mechanism is provided in the second movable slot, symmetrical sliding slot is provided on the both sides of the pressing seat, blanking mechanism is provided in the sliding slot, the periphery of bottom plate is provided with guard plate, top plate is provided on the top of guard plate, dust can be prevented to enter the inside of pressing machine when material is pressed, by first reset mechanism and second reset mechanism, after pressing, processing plate is automatically jacked up, composite material can be taken out by blanking mechanism, staff manually takes material, improve processing efficiency.

Description

Technical Field

[0001] This utility model relates to the field of pressing machine technology, specifically a pressing machine for composite heat insulation layer materials for heavy trucks. Background Technology

[0002] Heavy-duty truck composite insulation material is a type of material with heat insulation, heat preservation, and other special properties. Its main characteristic is its low thermal conductivity, which allows it to play a good role in heat preservation in the automotive industry and other fields. The main function of this material is heat insulation and heat preservation, which helps to save energy and reduce consumption, while also reducing environmental pollution. With the development of technology, insulation materials are constantly being updated and replaced, resulting in a variety of different types and applications. Among them, composite insulation material is widely favored due to its excellent heat insulation effect. In the production process, in order to make the connection between materials tighter, pressing equipment is often used to press them together.

[0003] In existing technology, it is inconvenient for workers to remove the pressed composite material from the machine during use, and the pressed composite material will stick to the worktable. It usually relies on manual operation by the operator, which makes it difficult for the operator to remove the part, resulting in low work efficiency and wasting a lot of time. It also poses safety hazards. In addition, dust can enter the inside of the press during the pressing process, causing the dust to stick to the surface of the composite material after pressing, thereby reducing the quality of the composite material.

[0004] Based on this, a heavy-duty truck composite insulation layer material pressing machine is now provided, which can eliminate the drawbacks of existing devices. Utility Model Content

[0005] The purpose of this utility model is to provide a heavy-duty truck composite insulation layer material pressing machine to solve the problems in the prior art where it is inconvenient for operators to remove the pressed composite material from the inside of the pressing machine, and the pressed composite material will stick to the worktable. Usually, it relies on manual operation by the operator, which easily causes difficulties for the operator to remove the parts, resulting in low work efficiency and wasting a lot of time. It also poses safety hazards. In addition, dust enters the inside of the pressing machine during the material pressing process, causing the dust to stick to the surface of the composite material after pressing, thereby reducing the quality of the composite material.

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

[0007] A heavy-duty truck composite insulation layer material pressing machine includes a base plate, a connecting plate on the base plate, a pressing seat on the connecting plate, a first movable groove inside the pressing seat, a first reset mechanism inside the first movable groove, second movable grooves on both sides of the first movable groove, a second reset mechanism inside the second movable groove, symmetrical sliding grooves on both sides of the pressing seat, a feeding mechanism inside the sliding grooves, a protective plate around the base plate, a top plate on top of the protective plate, a glass protective door on one side of the protective plate, and a handle on the glass protective door.

[0008] Based on the above technical solutions, this utility model also provides the following optional technical solutions:

[0009] In one alternative: a hydraulic cylinder is provided at the top of the top plate, a hydraulic rod is provided at the output end of the hydraulic cylinder, a movable plate is provided at the bottom end of the hydraulic rod, an installation block is provided at the bottom of the movable plate, and a pressing head is provided on the bottom surface of the installation block.

[0010] In one alternative: a plurality of guide rods are provided on the connecting plate outside the pressing seat, the moving plate is slidably connected on the guide rods, and a limit block is provided at the top of the guide rod above the moving plate.

[0011] In one alternative: the bottom of the base plate is provided with a plurality of support legs, and the bottom end of the support legs is provided with an anti-slip pad.

[0012] In one alternative: the first reset mechanism includes a processing plate located in a first movable groove, the bottom of the processing plate being fixedly connected to the bottom surface of the first movable groove by a plurality of first springs, and the initial position of the processing plate being flush with the surface of the pressing seat.

[0013] In one alternative: the second reset mechanism includes a second movable groove located on both sides of the first movable groove. A pressing block is provided in the second movable groove. The pressing block is fixedly connected to the inner wall of the second movable groove by a plurality of second springs. An outwardly inclined pressing surface is provided on the pressing block near the processing plate.

[0014] In one alternative: the feeding mechanism includes a slider that is slidably connected within a groove, a scraper is provided on one end surface of the slider and the scraper contacts the surface of the pressing seat, and a fixing plate is provided on the other end of the slider, with a handle provided on the fixing plate.

[0015] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0016] This invention uses a protective plate to prevent dust from entering the press machine during material pressing. The first and second reset mechanisms automatically lift the processing plate after pressing, and the material can be removed by the unloading mechanism, eliminating the need for manual material handling and improving processing efficiency. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model.

[0018] Figure 2 This is a schematic diagram of the overall internal structure of this utility model.

[0019] Figure 3 This is a partial structural schematic diagram of the present invention.

[0020] Figure 4 This is a schematic diagram of the internal structure of the first movable groove of this utility model.

[0021] Figure reference numerals: 1. Base plate; 2. Connecting plate; 3. Pressing seat; 4. Top plate; 5. Protective plate; 6. Hydraulic cylinder; 7. Hydraulic rod; 8. Limiting block; 9. Moving plate; 10. Guide rod; 11. Mounting block; 12. Pressing head; 13. First movable groove; 14. Processing plate; 15. First spring; 16. Second movable groove; 17. Extrusion block; 18. Second spring; 19. Extrusion surface; 20. Glass protective door; 21. Handle; 22. Support leg; 23. Anti-slip pad; 24. Slide groove; 25. Sliding block; 26. Scraper; 27. Fixing plate; 28. Handle. Detailed Implementation

[0022] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments.

[0023] In one embodiment, such as Figures 1-4As shown, a heavy-duty truck composite insulation layer material pressing machine includes a base plate 1, a connecting plate 2 on the base plate 1, a pressing seat 3 on the connecting plate 2, a first movable groove 13 inside the pressing seat 3, a first reset mechanism inside the first movable groove 13, second movable grooves 16 on both sides of the first movable groove 13, and second reset mechanisms inside the second movable grooves 16. Symmetrical sliding grooves 24 on both sides of the pressing seat 3 are provided, and a feeding mechanism is provided inside the sliding grooves 24. A protective plate 5 is provided around the base plate 1, a top plate 4 is provided on the top of the protective plate 5, and a glass protective door 20 is provided on one side of the protective plate 5. A handle 21 is provided on the glass protective door 20. The protective plate 5 can prevent dust from entering the interior of the pressing machine during material pressing. The first and second reset mechanisms can automatically lift the processing plate 14 after pressing, and the composite material can be taken out by the feeding mechanism, eliminating the need for manual material handling and improving processing efficiency.

[0024] In one embodiment, such as Figure 2 As shown, a hydraulic cylinder 6 is provided at the top of the top plate 4, a hydraulic rod 7 is provided at the output end of the hydraulic cylinder 6, a movable plate 9 is provided at the bottom end of the hydraulic rod 7, an installation block 11 is provided at the bottom of the movable plate 9, and a pressing head 12 is provided on the bottom surface of the installation block 11. Starting the hydraulic cylinder 6 can drive the movable plate 9 to move downward.

[0025] In one embodiment, such as Figure 2 As shown, several guide rods 10 are provided on the connecting plate 2 outside the pressing seat 3. The moving plate 9 is slidably connected on the guide rods 10. A limit block 8 is provided at the top of the guide rod 10 above the moving plate 9, so that the moving plate 9 is more stable during the up and down movement.

[0026] In one embodiment, such as Figure 2 As shown, the bottom of the base plate 1 is provided with several support legs 22, and the bottom of the support legs 22 is provided with anti-slip pads 23 to improve the stability of the press.

[0027] In one embodiment, such as Figure 4 As shown, the first reset mechanism includes a processing plate 14, which is located in the first movable groove 13. The bottom of the processing plate 14 is fixedly connected to the bottom surface of the first movable groove 13 by several first springs 15. The initial position of the processing plate 14 is flush with the surface of the pressing seat 3. The material is placed on the processing plate 14 for pressing. The first springs 15 have a reset function. When the pressing is completed and the processing plate 14 is no longer under pressure, the first springs 15 will lift the processing plate 14 to reset.

[0028] In one embodiment, such as Figure 4As shown, the second reset mechanism includes a second movable groove 16, which is located on both sides of the first movable groove 13. A pressing block 17 is provided in the second movable groove 16. The pressing block 17 is fixedly connected to the inner wall of the second movable groove 16 by several second springs 18. An outwardly inclined pressing surface 19 is provided on the side of the pressing block 17 near the processing plate 14. During the pressing process, the processing plate 14 presses the pressing blocks 17 on both sides. After the pressing is completed, the pressing blocks 17 on both sides reset under the action of the second springs 18, supporting the processing plate 14.

[0029] In one embodiment, such as Figure 3 As shown, the feeding mechanism includes a slider 25, which is slidably connected within the groove 24. A scraper 26 is provided on one end surface of the slider 25, and the scraper 26 is in contact with the surface of the pressing seat 3. A fixing plate 27 is provided on the other end of the slider 25, and a handle 28 is provided on the fixing plate 27. Pulling the handle 28 can drive the scraper 26 to move, thereby pulling out the composite material on the processing plate 14 for easy removal.

[0030] Working principle: During use, the material is placed on the processing plate 14 for pressing. Activating the hydraulic cylinder 6 moves the moving plate 9 downwards, and the pressing head 12 presses the processing plate 14 to perform the pressing work. During the pressing process, the processing plate 14 presses the pressing blocks 17 on both sides. After pressing is completed, the first spring 15 lifts the processing plate 14 back to its original position, and the pressing blocks 17 on both sides return to their original position under the action of the second spring 18, supporting the processing plate 14. Pulling the handle 28 can drive the scraper 26 to move, pulling out the composite material on the processing plate 14. This eliminates the need for manual material removal by the operator, improving processing efficiency.

Claims

1. A pressing machine for composite thermal insulation layer materials for heavy-duty trucks, comprising a base plate (1), a connecting plate (2) disposed on the base plate (1), and a pressing seat (3) disposed on the connecting plate (2), characterized in that, The pressing seat (3) is provided with a first movable groove (13), and a first reset mechanism is provided in the first movable groove (13). A second movable groove (16) is provided on both sides of the first movable groove (13), and a second reset mechanism is provided in the second movable groove (16). Symmetrical sliding grooves (24) are provided on both sides of the pressing seat (3), and a feeding mechanism is provided in the sliding groove (24). A protective plate (5) is provided around the bottom plate (1), and a top plate (4) is provided on the top of the protective plate (5). A glass protective door (20) is provided on one side of the protective plate (5), and a handle (21) is provided on the glass protective door (20).

2. The heavy-duty truck composite heat insulation layer material pressing machine according to claim 1, characterized in that, A hydraulic cylinder (6) is provided at the top of the top plate (4), a hydraulic rod (7) is provided at the output end of the hydraulic cylinder (6), a moving plate (9) is provided at the bottom end of the hydraulic rod (7), an installation block (11) is provided at the bottom of the moving plate (9), and a pressing head (12) is provided on the bottom surface of the installation block (11).

3. The heavy-duty truck composite heat insulation layer material pressing machine according to claim 2, characterized in that, The connecting plate (2) is provided with several guide rods (10) located outside the pressing seat (3). The moving plate (9) is slidably connected to the guide rods (10). The top of the guide rods (10) is provided with a limit block (8) above the moving plate (9).

4. The heavy-duty truck composite heat insulation layer material pressing machine according to claim 1, characterized in that, The bottom of the base plate (1) is provided with several support legs (22), and the bottom end of the support legs (22) is provided with anti-slip pads (23).

5. The heavy-duty truck composite heat insulation layer material pressing machine according to claim 1, characterized in that, The first reset mechanism includes a processing plate (14), which is located in the first movable groove (13). The bottom of the processing plate (14) is fixedly connected to the bottom surface of the first movable groove (13) by a number of first springs (15), and the initial position of the processing plate (14) is flush with the surface of the pressing seat (3).

6. The heavy-duty truck composite heat insulation layer material pressing machine according to claim 5, characterized in that, The second reset mechanism includes a second movable groove (16), which is located on both sides of the first movable groove (13). A pressing block (17) is provided in the second movable groove (16). The pressing block (17) is fixedly connected to the inner wall of the second movable groove (16) by a number of second springs (18). An outwardly inclined pressing surface (19) is provided on the pressing block (17) near the processing plate (14).

7. The heavy-duty truck composite heat insulation layer material pressing machine according to claim 1, characterized in that, The feeding mechanism includes a slider (25), which is slidably connected in the groove (24). A scraper (26) is provided on one end of the slider (25), and the scraper (26) is in contact with the surface of the pressing seat (3). A fixing plate (27) is provided on the other end of the slider (25), and a handle (28) is provided on the fixing plate (27).

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