Hot press for processing multi-layer board with easy alignment
By introducing positioning, pushing, unloading, and buffering components into the multi-layer board hot press, the misalignment problem during multi-layer board hot pressing is solved, achieving efficient and accurate multi-layer board processing, and improving production quality and convenience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- WENAN XUBO WOOD IND CO LTD
- Filing Date
- 2025-06-19
- Publication Date
- 2026-06-05
AI Technical Summary
Multilayer boards are prone to misalignment during hot pressing, which can affect production quality.
A hot press for processing multilayer boards with easy alignment was designed, including a positioning component, a pushing component, a feeding component, a buffer component, and a flipping component. These components enable precise positioning and convenient operation of multilayer boards, reducing misalignment.
It improves the production quality and positioning accuracy of multilayer boards, reduces misalignment and friction scratches during hot pressing, and enhances processing efficiency and product quality.
Smart Images

Figure CN224323262U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of multilayer board processing technology, and more specifically, to a hot press for processing multilayer boards that facilitates alignment. Background Technology
[0002] Multi-layer board is a type of engineered wood product made by arranging multiple layers of wood veneers in an alternating pattern along the grain direction and bonding them together with adhesives under heat and pressure. It has excellent strength, stability, and resistance to deformation.
[0003] Multi-layer plywood can be classified into ordinary plywood, construction formwork, decorative plywood, and special plywood according to its use. During production, veneer boards and adhesives are prepared first. The veneers are stacked in a crisscross pattern according to the grain direction. After stacking, they are first cold-pressed for preliminary shaping, and then hot-pressed using a hot press. Finally, the edges are trimmed, sanded, and quality is inspected. In the hot pressing technology of multi-layer plywood, the multi-layer plywood workpiece needs to be placed on the hot press during hot pressing. The placement position is prone to deviation, which can cause misalignment between the hot press plate and the multi-layer plywood, thus affecting the production quality of the multi-layer plywood.
[0004] Therefore, this utility model provides a hot press for processing multilayer boards that facilitates alignment. Utility Model Content
[0005] To overcome the above-mentioned defects, this utility model provides a hot press for processing multilayer boards that facilitates alignment, thus solving the technical problems in the prior art.
[0006] According to one aspect, at least one embodiment of the present invention provides a hot press for processing multilayer boards that facilitates alignment, comprising a base; a frame mounted on the top of the base; a pressure plate slidably connected to the inner side wall of the frame; a hydraulic device provided on the top of the pressure plate; a heat-conducting oil pipeline connected to the top of the pressure plate; a positioning component provided in the middle of the base; a pushing component provided in the middle of the base; a discharging component provided on the side wall of the base; a buffer component provided on the base via the discharging component; and a flipping component provided on the base via the discharging component. Through the above structure, the positioning component positions the multilayer board workpiece, forming a multilayer board hot pressing alignment structure. This achieves the function of positioning and aligning the multilayer board during hot pressing, solving the problem of misalignment between the multilayer board workpiece and the pressure plate when placed on the top of the base, which leads to a decrease in the hot pressing effect of the multilayer board, thus improving the quality of multilayer board workpiece production and increasing the accuracy of multilayer board workpiece positioning.
[0007] Preferably, the positioning assembly includes an electric push rod, a positioning plate, a first spring, and a positioning block; the electric push rod is fixedly connected to the bottom of the base; a pair of electric push rods are arranged symmetrically at the bottom of the base; the positioning plate is slidably connected to the bottom of the base; a pair of positioning plates are arranged symmetrically at the bottom of the base; the side wall of the positioning plate is fixedly connected to the transmission end of the electric push rod; the positioning block is slidably connected to the middle of the positioning plate; one end of the first spring is fixedly connected to the bottom of the positioning block; the other end of the first spring is fixedly connected to the inside of the positioning plate; the positioning block slides with the base; through the above structure, the electric push rod drives the positioning block to a suitable position to position the multilayer board, forming a multilayer board hot-press positioning structure, realizing the function of positioning and adjusting the multilayer board, solving the problem of the positioning structure obstructing the pressure plate when the pressure plate is pressed down, improving the convenience of adjusting the positioning assembly, improving the accuracy of multilayer board positioning, reducing the misalignment between the multilayer board and the pressure plate, and improving the quality of multilayer board processing.
[0008] Preferably, the pushing assembly includes a fixed frame, a servo motor, a pushing plate, and a lead screw; the fixed frame is fixedly connected to the outer wall of the base near the positioning plate; multiple sets of fixed frames are arranged symmetrically on the outer wall of the base; the servo motor is fixedly connected to the side wall of the fixed frame away from the base; the lead screw is rotatably connected to the fixed frame and the middle of the base; the lead screw is fixedly connected to the transmission end of the servo motor; the pushing plate is slidably connected to the middle of the base; multiple sets of pushing plates are arranged in the middle of the base; the pushing plate cooperates with the lead screw and nut pair; a protective component is provided on the side wall of the pushing plate near the base; through the above structure, the lead screw drives the pushing plate to push the multilayer board to move outward of the base, forming a pushing structure, realizing the function of pushing the multilayer board workpiece out of the top of the base, solving the problem that the multilayer board workpiece needs to be manually removed after hot pressing, improving the convenience of moving the multilayer board on the top of the base, and reducing the situation where the pressure plate is blocked by the pushing plate when pressing down.
[0009] Preferably, the unloading assembly includes an unloading platform and rollers; the unloading platform is fixedly connected to the side wall of the base away from the fixing frame; the rollers are rotatably connected to the top of the unloading platform; multiple sets of rollers are provided on the top of the unloading platform and are evenly distributed on the top of the unloading platform; through the above structure, the unloading platform and rollers are set to guide the unloading of the multilayer board workpiece, forming a multilayer board hot pressing unloading structure, realizing the function of guiding the multilayer board workpiece, and reducing the situation where friction between the multilayer board and the unloading platform causes scratches on the surface of the multilayer board.
[0010] Preferably, the buffer assembly includes a fixed baffle, a second spring, and a movable baffle; the fixed baffle is fixedly connected to the top of the unloading platform away from the base; the movable baffle is slidably connected to the top of the unloading platform; the second spring is fixedly connected between the fixed baffle and the movable baffle; multiple sets of the second spring are arranged between the fixed baffle and the movable baffle, and are evenly distributed between the fixed baffle and the movable baffle; a dustproof assembly is provided between the fixed baffle and the movable baffle; an anti-collision assembly is provided on the side wall of the movable baffle away from the fixed baffle; through the above structure, the second spring is set to buffer the impact when the multilayer board slides, forming a multilayer board buffer structure, which realizes the buffering of the impact generated when the multilayer board slides, reducing the damage caused by the multilayer board being bumped.
[0011] Preferably, the material turning assembly includes a bracket and a handle; the bracket is rotatably connected to the top of the unloading platform; the handle is fixedly connected to the side wall of the bracket near the base; a pair of handles are provided on the side wall of the bracket and are symmetrically arranged; the side wall of the handle is provided with an anti-slip component; the above structure increases the convenience of handling multi-layer boards and improves the convenience of standing multi-layer boards upright.
[0012] Preferably, the dustproof component includes an elastic cloth; the elastic cloth is fixedly connected between the fixed baffle and the movable baffle; through the above structure, the rubber block is set to block external dust or foreign objects, forming a dustproof structure between the fixed baffle and the movable baffle, reducing the possibility of dust or foreign objects entering between the fixed baffle and the movable baffle and causing abnormal wear of parts.
[0013] Preferably, the anti-collision component includes rubber blocks; the rubber blocks are fixedly connected to the side wall of the movable baffle near the base; multiple sets of rubber blocks are arranged on the side wall of the movable baffle and are evenly distributed on the side wall of the movable baffle; through the above structure, the rubber blocks are placed between the movable baffle and the multilayer board, playing an impact buffering role and reducing the collision between the multilayer board and the movable baffle when it slides down.
[0014] Preferably, the protective component includes a gasket; the gasket is fixedly connected to the side wall of the pusher plate near the base; through the above structure, the arrangement of the gasket in contact with the side wall of the multilayer board forms a protective structure, reducing the possibility of the pusher plate scratching the side wall of the multilayer board.
[0015] Preferably, the anti-slip component includes an anti-slip sleeve; the anti-slip sleeve is fixedly connected to the side wall of the handle away from the bracket; when the handle is pulled up, the hand contacts the anti-slip sleeve, increasing the friction between the hand and the handle and reducing slippage when pulling the handle.
[0016] The beneficial effects of this utility model are as follows:
[0017] 1. The hot press for processing multi-layer boards that facilitates alignment, as described in this utility model, uses a positioning component to position the multi-layer board workpiece, forming a multi-layer board hot pressing alignment structure. This achieves the function of positioning and aligning the multi-layer board during hot pressing, solving the problem of misalignment between the multi-layer board workpiece and the pressure plate when placed on the top of the base, which leads to a decrease in the hot pressing effect of the multi-layer board. This improves the quality of multi-layer board workpiece production and enhances the accuracy of multi-layer board workpiece positioning.
[0018] 2. The hot press for processing multilayer boards that facilitates alignment, as described in this utility model, uses an electric push rod to move a positioning block to a suitable position to position the multilayer board, forming a hot press positioning structure for the multilayer board. This achieves the function of positioning and adjusting the multilayer board, solves the problem of the positioning structure obstructing the pressure plate when it is pressed down, improves the convenience of adjusting the positioning component, improves the accuracy of multilayer board positioning, reduces misalignment between the multilayer board and the pressure plate, and improves the quality of multilayer board processing. Attached Figure Description
[0019] To more clearly illustrate the technical solutions in the embodiments of this utility model, the accompanying drawings used in the description of the embodiments of this utility model will be briefly introduced below. Obviously, the drawings described below are merely some exemplary embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on the content of the exemplary embodiments of this utility model and these drawings without any creative effort.
[0020] Figure 1 This is a perspective view of the present invention;
[0021] Figure 2 This is a schematic diagram of the structure of the positioning block and the base in this utility model;
[0022] Figure 3 This is a schematic diagram of the structure of the pusher plate and the lead screw in this utility model;
[0023] Figure 4 This is a schematic diagram of the structure of the baffle and the unloading platform in this utility model;
[0024] Figure 5 This is a schematic diagram of the structure of the bracket and the unloading platform in this utility model.
[0025] In the diagram: 1. Base; 11. Frame; 12. Pressure plate; 13. Electric push rod; 14. Positioning plate; 15. First spring; 16. Positioning block; 2. Fixing frame; 21. Servo motor; 22. Push plate; 23. Lead screw; 3. Unloading platform; 31. Roller; 4. Fixed baffle; 41. Second spring; 42. Moving baffle; 5. Bracket; 51. Handle; 6. Elastic cloth; 7. Rubber block; 8. Gasket; 9. Anti-slip sleeve. Detailed Implementation
[0026] The present invention will now be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present invention and not intended to limit its scope.
[0027] To keep the drawings concise, only the parts relevant to the utility model are shown schematically in each drawing; these do not represent the actual structure of the product. Furthermore, for ease of understanding, in some drawings, only one of the components with the same structure or function is schematically shown, or only one is labeled. In this document, "a" not only means "only one," but can also mean "more than one," and "several" includes "two" and "more than two."
[0028] In this document, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to fixed connections, detachable connections, or integral connections; they can refer to mechanical connections or electrical connections; they can refer to direct connections or indirect connections through an intermediate medium; and they can refer to the internal connection between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.
[0029] In this invention, unless otherwise explicitly specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "over," and "on top" of the second feature includes the first feature directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature includes the first feature directly below or diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.
[0030] In the description of this embodiment, terms such as "upper," "lower," "left," and "right" are based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of description and simplification of operation, and are not intended to indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0031] Furthermore, in the description of this application, the terms "first," "second," etc., are used only to distinguish descriptions and should not be construed as indicating or implying relative importance.
[0032] like Figures 1 to 5As shown in the figure, a hot press for processing multi-layer boards with easy alignment according to an embodiment of the present invention includes a base 1; a frame 11 is mounted on the top of the base 1; a pressure plate 12 is slidably connected to the inner side wall of the frame 11; a hydraulic device is provided on the top of the pressure plate 12; a heat transfer oil pipeline is connected to the top of the pressure plate 12; a positioning component is provided in the middle of the base 1; a pushing component is provided in the middle of the base 1; a feeding component is provided on the side wall of the base 1; a buffer component is provided on the base 1 through the feeding component; and a tilting component is provided on the base 1 through the feeding component. During operation, the cold-pressed multi-layer board workpiece is placed on the top of the base 1, the positioning component contacts the edge of the multi-layer board to position the workpiece, and the heat transfer oil heats the pressure plate 12. The process is then started. The hydraulic equipment at the top of the pressure plate 12 drives the pressure plate 12 to press down and perform hot pressing on the multilayer board workpiece. After hot pressing, the pushing component pushes the workpiece out from the top of the base 1, the unloading component guides the workpiece while the buffer component buffers and protects it, and the flipping component lifts the multilayer board from the unloading component. Through the above structure, the positioning component positions the multilayer board workpiece, forming a multilayer board hot pressing alignment structure. This realizes the function of positioning and aligning the multilayer board during hot pressing, solving the problem of misalignment between the multilayer board workpiece and the pressure plate 12 when placed on the top of the base 1, which leads to a decrease in the hot pressing effect of the multilayer board. This improves the production quality of multilayer board workpieces and enhances the positioning accuracy of multilayer board workpieces.
[0033] like Figure 1 , Figure 2 and Figure 4As shown, the positioning assembly includes an electric actuator 13, a positioning plate 14, a first spring 15, and a positioning block 16. The electric actuator 13 is fixedly connected to the bottom of the base 1. A pair of electric actuators 13 are arranged symmetrically at the bottom of the base 1. The positioning plate 14 is slidably connected to the bottom of the base 1. A pair of positioning plates 14 are arranged symmetrically at the bottom of the base 1. The sidewall of the positioning plate 14 is fixedly connected to the transmission end of the electric actuator 13. The positioning block 16 is slidably connected to the middle of the positioning plate 14. One end of the first spring 15 is fixedly connected to the bottom of the positioning block 16. The other end of the first spring 15 is fixedly connected to the inside of the positioning plate 14. The positioning block 16 is slidably engaged with the base 1. During operation, according to the size of the multilayer board, the electric actuator 13 is activated, which drives the positioning plate 14 to slide at the bottom of the base 1, thereby driving the positioning block 16. When the multilayer board is moved to the appropriate position and placed on top of the base 1, it is pushed so that the side of the multilayer board contacts the positioning block 16 to position the multilayer board. When the pressure plate 12 is pressed down, the positioning block 16 is pressed into the positioning plate 14, and the first spring 15 is compressed. After the hot pressing is completed, the first spring 15 drives the positioning block 16 to reset. Through the above structure, the electric push rod 13 drives the positioning block 16 to the appropriate position to position the multilayer board, forming a multilayer board hot pressing positioning structure. This realizes the function of positioning and adjusting the multilayer board, solves the problem of the positioning structure obstructing the pressure plate 12 when the pressure plate 12 is pressed down, improves the convenience of adjusting the positioning component, improves the accuracy of multilayer board positioning, reduces the misalignment between the multilayer board and the pressure plate 12, and improves the quality of multilayer board processing.
[0034] like Figure 3 and Figure 4As shown, the pushing assembly includes a fixed frame 2, a servo motor 21, a pushing plate 22, and a lead screw 23. The fixed frame 2 is fixedly connected to the outer wall of the base 1 near the positioning plate 14. Multiple sets of fixed frames 2 are arranged symmetrically on the outer wall of the base 1. The servo motor 21 is fixedly connected to the side wall of the fixed frame 2 away from the base 1. The lead screw 23 is rotatably connected to the middle of the fixed frame 2 and the base 1. The lead screw 23 is fixedly connected to the transmission end of the servo motor 21. The pushing plate 22 is slidably connected to the middle of the base 1. Multiple sets of pushing plates 22 are arranged in the middle of the base 1. The pushing plate 22 and the lead screw 23 are matched with a lead screw nut pair. The side wall of the pushing plate 22 near the base 1 is provided with a protective component. During operation, the multilayer board worker... After the hot pressing is completed, the servo motor 21 is started. The servo motor 21 drives the lead screw 23 to rotate. The lead screw 23 drives the pusher plate 22 to move on the top of the base 1. The servo motor 21 pushes the multilayer board workpiece on the top of the base 1 to move and push the multilayer board out. The pusher plate 22 can move out of the pressing range of the pressure plate 12. Through the above structure, the lead screw 23 drives the pusher plate 22 to push the multilayer board to move out of the base 1, forming a pusher structure. This realizes the function of pushing the multilayer board workpiece out of the top of the base 1, solves the problem of needing to manually remove the multilayer board workpiece after hot pressing, improves the convenience of moving the multilayer board on the top of the base 1, and reduces the situation where the pressure plate 12 is blocked by the pusher plate 22 when it presses down.
[0035] like Figure 1 and Figure 4 As shown, the unloading assembly includes an unloading platform 3 and rollers 31. The unloading platform 3 is fixedly connected to the side wall of the base 1 away from the fixed frame 2. The rollers 31 are rotatably connected to the top of the unloading platform 3. Multiple sets of rollers 31 are set on the top of the unloading platform 3 and are evenly distributed on the top of the unloading platform 3. During operation, after the pusher plate 22 pushes the multilayer board out from the top of the base 1, the multilayer board contacts the top of the unloading platform 3 under the action of gravity. When the multilayer board moves on the top of the unloading platform 3, the rollers 31 change the static friction between the unloading platform 3 and the multilayer board into rolling friction, which guides the multilayer board workpiece during unloading. Through the above structure, the unloading platform 3 and the rollers 31 are set to guide the multilayer board workpiece during unloading, forming a multilayer board hot pressing unloading structure, which realizes the function of guiding the multilayer board workpiece and reduces the situation where friction between the multilayer board and the unloading platform 3 causes scratches on the surface of the multilayer board.
[0036] like Figure 4 and Figure 5As shown, the buffer assembly includes a fixed baffle 4, a second spring 41, and a movable baffle 42. The fixed baffle 4 is fixedly connected to the top of the unloading platform 3 away from the base 1. The movable baffle 42 is slidably connected to the top of the unloading platform 3. The second spring 41 is fixedly connected between the fixed baffle 4 and the movable baffle 42. Multiple sets of the second spring 41 are arranged between the fixed baffle 4 and the movable baffle 42, and are evenly distributed between the fixed baffle 4 and the movable baffle 42. A dustproof assembly is provided between the fixed baffle 4 and the movable baffle 42. An anti-collision assembly is provided on the side wall of the movable baffle 42 away from the fixed baffle 4. During operation, when the multilayer board workpiece moves on the top of the unloading platform 3, the multilayer board contacts the movable baffle 42 and is pressed towards the fixed baffle 4. The second spring 41 buffers the impact of the multilayer board. Through the above structure, the second spring 41 is set to buffer the impact when the multilayer board slides, forming a multilayer board buffer structure, which realizes the buffering of the impact generated when the multilayer board slides, reducing the damage caused by the multilayer board being bumped.
[0037] like Figure 4 and Figure 5 As shown, the flipping assembly includes a bracket 5 and a handle 51; the bracket 5 is rotatably connected to the top of the unloading platform 3; the handle 51 is fixedly connected to the side wall of the bracket 5 near the base 1; a pair of handles 51 are provided on the side wall of the bracket 5 and are symmetrically arranged; the side wall of the handle 51 is provided with an anti-slip component; during operation, after the multilayer board is pushed out of the top of the base 1 and placed on the top of the unloading platform 3, the pair of handles 51 are pulled up, which causes the bracket 5 to contact the side wall of the multilayer board and flip the multilayer board up; through the above structure, the convenience of handling the multilayer board is increased and the convenience of standing the multilayer board is improved.
[0038] like Figure 4 As shown, the dustproof component includes an elastic cloth 6; the elastic cloth 6 is fixedly connected between the fixed baffle 4 and the movable baffle 42; during operation, when the movable baffle 42 slides on the top of the unloading platform 3, the rubber block 7 seals the space between the fixed baffle 4 and the movable baffle 42, blocking dust or impurities in the external air; through the above structure, the setting of the rubber block 7 to block external dust or foreign objects forms a dustproof structure between the fixed baffle 4 and the movable baffle 42, reducing the possibility of dust or foreign objects entering the space between the fixed baffle 4 and the movable baffle 42 and causing abnormal wear of parts.
[0039] like Figure 4 As shown, the anti-collision component includes a rubber block 7; the rubber block 7 is fixedly connected to the side wall of the movable baffle 42 near the base 1; multiple sets of rubber blocks 7 are arranged on the side wall of the movable baffle 42 and are evenly distributed on the side wall of the movable baffle 42; during operation, when the multilayer board comes into contact with the movable baffle 42, the rubber block 7 contacts the side wall of the multilayer board and buffers the impact when the multilayer board slides down; through the above structure, the rubber block 7 is placed between the movable baffle 42 and the multilayer board, playing the role of impact buffering and reducing the situation of the multilayer board colliding with the movable baffle 42 when it slides down.
[0040] like Figure 4 As shown, the protective component includes a gasket 8; the gasket 8 is fixedly connected to the side wall of the pusher plate 22 near the base 1; during operation, when the pusher plate 22 pushes the multilayer board to move, the gasket 8 contacts the side wall of the multilayer board; through the above structure, the setting of the gasket 8 contacting the side wall of the multilayer board forms a protective structure, reducing the possibility of the pusher plate 22 scratching the side wall of the multilayer board.
[0041] like Figure 5 As shown, the anti-slip component includes an anti-slip sleeve 9; the anti-slip sleeve 9 is fixedly connected to the side wall of the handle 51 away from the bracket 5; during operation, when the handle 51 is pulled up, the hand comes into contact with the anti-slip sleeve 9, increasing the friction between the hand and the handle 51 and reducing the slippage that occurs when the handle 51 is pulled.
[0042] During operation, the cold-pressed multilayer board workpiece is placed on top of the base 1. The positioning component contacts the edge of the multilayer board to position the workpiece. Heat transfer oil heats the pressure plate 12. The hydraulic device on top of the pressure plate 12 is activated, causing the pressure plate 12 to press down and perform hot pressing on the multilayer board workpiece. After hot pressing, the pushing component pushes the workpiece out from the top of the base 1. The unloading component guides the workpiece while the buffer component cushions and protects it. The flipping component lifts the multilayer board from the unloading component. According to the size of the multilayer board, the electric push rod 13 is activated, which drives the positioning plate 14 to slide at the bottom of the base 1. The positioning block 16 is moved to the appropriate position. When the multilayer board is placed on top of the base 1, the multilayer board is pushed so that its side contacts the positioning block 16 to position it. When the pressure plate 12 presses down, it presses the positioning block 16 into the positioning plate 14, compressing the first spring 15. After the hot pressing is completed, the first spring 15 drives the positioning block 16 to reset. After the hot pressing of the multilayer board workpiece is completed, the servo motor 21 is started. The servo motor 21 drives the lead screw 23 to rotate, and the lead screw 23 drives the pusher plate 22 to move on top of the base 1. The servo motor 21 pushes the multilayer board workpiece on top of the base 1 to move, pushing the multilayer board out. Material plate 22 can be moved out of the pressing range of pressure plate 12; after the pusher plate 22 pushes the multilayer board out from the top of the base 1, the multilayer board contacts the top of the unloading platform 3 under the action of gravity. When the multilayer board moves on the top of the unloading platform 3, the roller 31 changes the static friction between the unloading platform 3 and the multilayer board into rolling friction, guiding the multilayer board workpiece for unloading; when the multilayer board workpiece moves on the top of the unloading platform 3, the multilayer board contacts the moving baffle 42 and is pressed towards the fixed baffle 4, and the second spring 41 buffers the impact of the multilayer board; after the multilayer board is pushed out from the top of the base 1, it is placed on the top of the unloading platform 3, and a pair of handles 51 are pulled up. The moving baffle 42 slides on the top of the unloading platform 3, and the rubber block 7 seals between the fixed baffle 4 and the moving baffle 42 to block dust or impurities in the outside air. When the multilayer board contacts the moving baffle 42, the rubber block 7 contacts the side wall of the multilayer board and buffers the impact when the multilayer board slides down. When the pusher plate 22 pushes the multilayer board to move, the gasket 8 contacts the side wall of the multilayer board. When the handle 51 is pulled up, the hand contacts the anti-slip sleeve 9, which increases the friction between the hand and the handle 51 and reduces slippage when the handle 51 is pulled up.
[0043] It should be noted that the above embodiments are only used to illustrate the technical solution of this utility model and are not intended to limit it. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solution of this utility model without departing from the spirit and scope of the technical solution of this utility model, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.
Claims
1. A hot press for processing multilayer boards that facilitates alignment, comprising a base (1); characterized in that: The base (1) has a frame (11) mounted on top; a pressure plate (12) is slidably connected to the inner wall of the frame (11); a hydraulic device is provided on the top of the pressure plate (12); a heat transfer oil pipeline is connected to the top of the pressure plate (12); a positioning component is provided in the middle of the base (1); a pushing component is provided in the middle of the base (1); a feeding component is provided on the side wall of the base (1); a buffer component is provided on the base (1) through the feeding component; and a tilting component is provided on the base (1) through the feeding component. The positioning assembly includes an electric push rod (13), a positioning plate (14), a first spring (15), and a positioning block (16); the electric push rod (13) is fixedly connected to the bottom of the base (1); a pair of electric push rods (13) are provided at the bottom of the base (1) and are arranged symmetrically; the positioning plate (14) is slidably connected to the bottom of the base (1); a pair of positioning plates (14) are provided at the bottom of the base (1) and are arranged symmetrically; the side wall of the positioning plate (14) is fixedly connected to the transmission end of the electric push rod (13); the positioning block (16) is slidably connected to the middle of the positioning plate (14); one end of the first spring (15) is fixedly connected to the bottom of the positioning block (16); the other end of the first spring (15) is fixedly connected to the inside of the positioning plate (14); the positioning block (16) is slidably engaged with the base (1).
2. The hot press for processing multilayer boards that facilitates alignment according to claim 1, characterized in that: The pushing assembly includes a fixed frame (2), a servo motor (21), a pushing plate (22), and a lead screw (23); the fixed frame (2) is fixedly connected to the outer wall of the base (1) near the positioning plate (14); multiple sets of the fixed frame (2) are arranged symmetrically on the outer wall of the base (1); the servo motor (21) is fixedly connected to the side wall of the fixed frame (2) away from the base (1); the lead screw (23) is rotatably connected to the middle of the fixed frame (2) and the base (1); the lead screw (23) is fixedly connected to the transmission end of the servo motor (21); the pushing plate (22) is slidably connected to the middle of the base (1); multiple sets of the pushing plate (22) are arranged in the middle of the base (1); the pushing plate (22) and the lead screw (23) are engaged with a lead screw nut pair; the side wall of the pushing plate (22) near the base (1) is provided with a protective component.
3. A hot press for processing multilayer boards that facilitates alignment, as described in claim 2, characterized in that: The unloading assembly includes an unloading platform (3) and rollers (31); the unloading platform (3) is fixedly connected to the side wall of the base (1) away from the fixed frame (2); the rollers (31) are rotatably connected to the top of the unloading platform (3); multiple sets of rollers (31) are provided on the top of the unloading platform (3) and are evenly distributed on the top of the unloading platform (3).
4. A hot press for processing multilayer boards that facilitates alignment, as described in claim 3, characterized in that: The buffer assembly includes a fixed baffle (4), a second spring (41), and a movable baffle (42); the fixed baffle (4) is fixedly connected to the top of the unloading platform (3) away from the base (1); the movable baffle (42) is slidably connected to the top of the unloading platform (3); the second spring (41) is fixedly connected between the fixed baffle (4) and the movable baffle (42); multiple sets of the second spring (41) are provided between the fixed baffle (4) and the movable baffle (42), and are evenly distributed between the fixed baffle (4) and the movable baffle (42); a dustproof assembly is provided between the fixed baffle (4) and the movable baffle (42); and an anti-collision assembly is provided on the side wall of the movable baffle (42) away from the fixed baffle (4).
5. A hot press for processing multilayer boards that facilitates alignment, as described in claim 3, characterized in that: The material turning assembly includes a bracket (5) and a handle (51); the bracket (5) is rotatably connected to the top of the unloading platform (3); the handle (51) is fixedly connected to the side wall of the bracket (5) near the base (1); a pair of handles (51) are provided on the side wall of the bracket (5) and are arranged symmetrically; the side wall of the handle (51) is provided with an anti-slip component.
6. A hot press for processing multilayer boards that facilitates alignment, as described in claim 4, characterized in that: The dustproof component includes an elastic cloth (6); the elastic cloth (6) is fixedly connected between the fixed baffle (4) and the movable baffle (42).
7. A hot press for processing multilayer boards that facilitates alignment, as described in claim 4, characterized in that: The anti-collision component includes a rubber block (7); the rubber block (7) is fixedly connected to the side wall of the movable baffle (42) near the base (1); multiple sets of the rubber blocks (7) are provided on the side wall of the movable baffle (42) and are evenly distributed on the side wall of the movable baffle (42).
8. A hot press for processing multilayer boards that facilitates alignment, as described in claim 2, characterized in that: The protective component includes a gasket (8); the gasket (8) is fixedly connected to the side wall of the pusher plate (22) near the base (1).
9. A hot press for processing multilayer boards that facilitates alignment, as described in claim 5, characterized in that: The anti-slip component includes an anti-slip sleeve (9); the anti-slip sleeve (9) is fixedly connected to the side wall of the handle (51) away from the bracket (5).