Efficient conveying table for push plate loading mobile machine

By designing guide and transition components between the pusher and the conveyor, the problem of inconvenient board movement caused by the height difference of the lifting plate was solved, achieving efficient board conveying and flexible adjustment of the production line length.

CN224466699UActive Publication Date: 2026-07-07TAICANG JIACAI DECORATION MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TAICANG JIACAI DECORATION MATERIALS CO LTD
Filing Date
2025-07-04
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

When the existing pusher plate feeding machine docks with the conveyor table, there is a height difference between the lifting plate and the conveyor table, which makes it inconvenient to move the plate and affects production efficiency.

Method used

Design a high-efficiency conveying table for a pusher plate feeding mobile machine, comprising a conveying component, a guiding component, and a transition component. The guide component adjusts the angle to adapt the transition component to the height of the lifting plate, and the overlapping plate achieves horizontal conveying.

Benefits of technology

The system enables the plates on the lifting platform to move smoothly to the top of the conveyor assembly, improving production efficiency. Furthermore, the conveyor platform can be freely docked to adapt to different production line lengths.

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    Figure CN224466699U_ABST
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Abstract

The utility model provides a kind of high-efficient conveying table for push plate feeding mobile machine, it is related to feeding conveying field.The utility model includes the conveying component, and the angle-adjustable guiding component of rotation connection with conveying component;And the transition component for butting push plate feeding mobile machine is rotationally installed in the front end of guiding component;The conveying component includes: conveying table support;And the multiple equidistance uniform distribution conveying roller of rotation installation in the inside of conveying table support.The utility model adds guiding component and transition component between lifting plate and conveying component, guiding component can be angle-adjusted according to the height of lifting plate, make the height of transition component on guiding component and lifting plate be compatible, and transition plate is placed on the top of lifting plate by lap plate, make the height of transition plate and the top surface of lifting plate be on the same horizontal plane, to facilitate plate material on lifting plate to move to the top of transition plate, and be conveyed to the top of conveying component by guide plate, realize subsequent conveying work.
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Description

Technical Field

[0001] This utility model relates to the field of material feeding and conveying, specifically a high-efficiency conveying table for a pusher plate feeding mobile machine. Background Technology

[0002] A pusher plate feeder is an automated feeding device. Its core principle is to push materials from the storage area or the previous process to the subsequent processing equipment or conveyor line through a pusher plate structure, so as to realize the automatic transfer and continuous supply of materials.

[0003] For example, the existing publicly available technical solution (CN207876652U) discloses a pusher plate feeding machine, including a base, a lifting mechanism, a bracket, and a pushing mechanism; the lifting mechanism includes a base frame, a lifting plate, a scissor fork, and a lifting cylinder. When the plates are stacked on the lifting plate, the pushing cylinder drives the pushing block to push the plates parallel into the plate processing equipment. Each time a plate is pushed out, the pushing cylinder drives the pushing block to reset once, and then the lifting cylinder pushes the lifting plate up once so that the height of the lifting plate matches the pushing block, and then the next pushing is performed. The pushing process is smooth and fast.

[0004] Current pusher feeders adjust the height of the boards using a liftable lifting plate. Through the pushing operation, the boards are pushed out one by one. The pusher feeder can directly connect with subsequent processing equipment. However, in large production lines, it is difficult to allow the pusher feeder to directly connect with processing equipment. Therefore, a conveyor table is used to connect with the pusher feeder and transport the boards to different processing stations. However, when the current conveyor table connects with the pusher feeder, if the conveyor table does not have a transition mechanism, there is a certain height difference between the lifting plate on the pusher feeder and the conveyor table. Moving the boards on the lifting plate to the top of the conveyor table is quite troublesome and affects subsequent production. Utility Model Content

[0005] The purpose of this utility model is to provide a high-efficiency conveying table for a pusher plate feeding and moving machine, so as to solve the problems mentioned in the background art and overcome its technical defects.

[0006] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is: a high-efficiency conveying table for a pusher plate feeding and moving machine, comprising: a conveying component, a guide component rotatably connected to the conveying component and adjustable in angle; and a transition component rotatably installed at the front end of the guide component for docking with the pusher plate feeding and moving machine;

[0007] The conveying assembly includes: a conveying platform support; and a plurality of equidistant and evenly distributed conveying rollers rotatably mounted on the inner side of the conveying platform support;

[0008] The guiding assembly includes: a fixed ear plate fixedly welded to the front end of the conveyor table bracket; and a guide plate rotatably mounted on the inner side of the fixed ear plate;

[0009] The transition assembly includes a transition plate rotatably mounted on the side of the guide plate away from the conveyor support; and an overlap plate fixed to the side of the transition plate near the pusher loading mobile machine.

[0010] As a further embodiment of this utility model: the guide assembly further includes a cylinder rotatably mounted on the bottom of the guide plate; connecting collars fixed to both ends of the cylinder; a pin passing through the connecting collar; and support members fixed to both ends of the pin.

[0011] As a further embodiment of this utility model, the conveying assembly further includes a crossbar fixed between the conveying table supports, and the two sets of support members are respectively fixed on the crossbar and the guide plate.

[0012] As a further improvement of this utility model: a connecting shaft is installed inside the fixed ear plate, and the guide plate is rotatably connected to the fixed ear plate through the connecting shaft, and a connecting end is welded to the front end of the guide plate.

[0013] As a further embodiment of this utility model, the transition component further includes: a connecting groove formed at the bottom of the transition plate near the guide plate; and a rotating shaft mounted inside the connecting groove via a bearing, wherein the connecting end rotates inside the connecting groove via the rotating shaft.

[0014] As a further improvement of this utility model: the front end of the transition plate is movably connected to a lifting plate, and the top of the lifting plate is provided with a slot that matches the structural size of the overlapping plate.

[0015] As a further embodiment of this utility model, the conveying assembly further includes: a connecting block fixed to the rear end of the conveying platform support; and a connecting slot formed on the front end face of the conveying platform support, wherein the connecting slot is adapted to the structural dimensions of the connecting block.

[0016] As a further embodiment of this utility model, the conveying assembly further includes: a power input motor mounted on the side of the conveying platform support by external screws; a plurality of fixing bolts threaded into the inside of the conveying platform support; and a support frame detachably connected to the bottom of the conveying platform support by fixing bolts.

[0017] Compared with the prior art, the beneficial effects of this utility model include:

[0018] 1. This utility model adds a guide component and a transition component between the lifting plate and the conveying component. The guide component can be angled according to the height of the lifting plate, so that the transition component on the guide component is adapted to the height of the lifting plate. The transition plate is placed on the top of the lifting plate through an overlapping plate, so that the top surface of the transition plate and the top surface of the lifting plate are at the same level. This facilitates the movement of the plate on the lifting plate to the top of the transition plate, and then conveys it to the top of the conveying component through the guide plate to realize the subsequent conveying work.

[0019] 2. The two sets of conveyor table supports of this utility model can be freely connected, which makes it convenient to increase the length of the production line as needed. Attached Figure Description

[0020] The disclosure of this utility model is illustrated with reference to the accompanying drawings. It should be understood that the drawings are for illustrative purposes only and are not intended to limit the scope of protection of this utility model. In the drawings, the same reference numerals are used to refer to the same parts. Wherein:

[0021] Figure 1 The schematic diagram shows an overall structural schematic diagram according to one embodiment of the present invention;

[0022] Figure 2 A schematic diagram of a conveying assembly according to one embodiment of the present invention is shown;

[0023] Figure 3 The schematic diagram shows a bottom view of a conveying assembly according to one embodiment of the present invention;

[0024] Figure 4 The diagram schematically shows a bottom view of a guide plate according to one embodiment of the present invention.

[0025] The following are the labeling elements in the diagram: 1. Conveying assembly; 101. Conveying table support; 102. Conveying roller; 103. Connecting slot; 104. Power input motor; 105. Support frame; 106. Fixing bolt; 107. Connecting block; 108. Crossbar; 2. Guiding assembly; 201. Guide plate; 202. Fixing ear plate; 203. Cylinder; 204. Support component; 205. Pin; 206. Connecting collar; 207. Connecting end; 208. Connecting shaft; 3. Transition assembly; 301. Transition plate; 302. Overlap plate; 303. Connecting groove; 304. Rotating shaft; 4. Lifting plate. Detailed Implementation

[0026] It is readily understood that, based on the technical solution of this utility model, those skilled in the art can propose various interchangeable structural methods and implementations without altering the essential spirit of this utility model. Therefore, the following detailed embodiments and accompanying drawings are merely illustrative descriptions of the technical solution of this utility model and should not be considered as the entirety of this utility model or as limitations or restrictions on the technical solution of this utility model.

[0027] An embodiment of the present invention is shown in conjunction with the accompanying drawings.

[0028] Example 1:

[0029] Please see Figures 1-4 This is the first embodiment of the present invention.

[0030] This embodiment provides a high-efficiency conveying table for a pusher plate loading and moving machine, including a conveying component 1, a guide component 2 rotatably connected to the conveying component 1 with an adjustable angle, and a transition component 3 rotatably mounted on the front end of the guide component 2 for docking with the pusher plate loading and moving machine;

[0031] The conveying assembly 1 includes: a conveying table support 101; and a plurality of equally spaced and uniformly distributed conveying rollers 102 rotatably mounted on the inner side of the conveying table support 101.

[0032] The guide assembly 2 includes: a fixed ear plate 202 fixedly welded to the front end of the conveyor table bracket 101; and a guide plate 201 rotatably mounted on the inner side of the fixed ear plate 202;

[0033] The transition assembly 3 includes a transition plate 301 rotatably mounted on the side of the guide plate 201 away from the conveyor support 101; and an overlapping plate 302 fixed to the side of the transition plate 301 near the pusher loading mobile machine.

[0034] Specifically, the guide assembly 2 also includes a cylinder 203 rotatably mounted on the bottom of the guide plate 201; a connecting collar 206 fixed to both ends of the cylinder 203; a pin 205 passing through the connecting collar 206; and a support member 204 fixed to both ends of the pin 205.

[0035] Furthermore, both ends of the cylinder 203 are rotatably connected to the pin 205 via connecting collars 206. When the cylinder 203 extends or retracts, the guide plate 201 can be pushed upward by the extension or retraction end of the cylinder 203 to adjust the angle of the guide plate 201.

[0036] Specifically, the conveying assembly 1 also includes: a crossbar 108 fixed between the conveying table brackets 101, and two sets of support members 204 fixed on the crossbar 108 and the guide plate 201 respectively.

[0037] Furthermore, the crossbar 108 is used to support the cylinder 203, a set of support members 204 is set on the front side of the crossbar 108, and another set of support members 204 is set in the middle of the bottom of the guide plate 201.

[0038] Specifically, a connecting shaft 208 is installed inside the fixed ear plate 202, and the guide plate 201 is rotatably connected to the fixed ear plate 202 through the connecting shaft 208. A connecting end 207 is welded to the front end of the guide plate 201.

[0039] Furthermore, the end of the guide plate 201 rotates inside the fixed ear plate 202 via the connecting shaft 208, thereby cooperating with the cylinder 203 to achieve angle adjustment.

[0040] Specifically, the transition component 3 also includes: a connecting groove 303 formed at the bottom of the transition plate 301 near the guide plate 201; and a rotating shaft 304 mounted inside the connecting groove 303 by a bearing, wherein the connecting end 207 rotates inside the connecting groove 303 via the rotating shaft 304.

[0041] Furthermore, the transition plate 301 and the guide plate 201 are rotatably connected. During use, the transition plate 301 remains horizontal, while the guide plate 201 can be in an inclined state. The connecting end 207 on the guide plate 201 rotates inside the connecting groove 303 via the rotating shaft 304, and rotates synchronously with the angle adjustment between the guide plate 201 and the conveyor support 101.

[0042] Specifically, the front end of the transition plate 301 is movably connected to the lifting plate 4, and the top of the lifting plate 4 is provided with a slot that matches the structural size of the overlapping plate 302.

[0043] Furthermore, the bottom of the lifting plate 4 is equipped with an existing lifting mechanism to facilitate the placement of stacked plates. During the pushing process of the pusher, the plates can move to the top of the transition plate 301 and slide down to the top of the conveying assembly 1 through the inclined guide plate 201, thereby realizing the conveying operation.

[0044] Optionally, baffles can be added to the front and rear sides of the guide plate 201 as needed to prevent the plate from slipping off (not shown in the figure).

[0045] In this embodiment, by adding a guide component 2 and a transition component 3 between the lifting plate 4 and the conveying component 1, the guide component 2 can adjust its angle according to the height of the lifting plate 4, so that the transition component 3 on the guide component 2 is adapted to the height of the lifting plate 4. The transition plate 301 is placed on the top of the lifting plate 4 through the overlapping plate 302, so that the height of the transition plate 301 and the top surface of the lifting plate 4 are on the same horizontal plane, thereby facilitating the movement of the plate material on the lifting plate 4 to the top of the transition plate 301, and then conveying it to the top of the conveying component 1 through the guide plate 201 to realize the subsequent conveying work.

[0046] Example 2:

[0047] Please see Figure 1 and Figure 4 This is the second embodiment of the present invention.

[0048] This embodiment provides a high-efficiency conveyor table for a pusher plate feeding mobile machine, including...

[0049] Specifically, the conveying assembly 1 also includes: a connecting block 107 fixed to the rear end of the conveying table support 101; and a connecting slot 103 opened on the front end face of the conveying table support 101, wherein the connecting slot 103 is adapted to the structural dimensions of the connecting block 107.

[0050] Furthermore, the two sets of conveyor brackets 101 can be connected by interlocking slots 103 and connecting blocks 107. Then, an alloy gasket is added to the bottom of the connection of the conveyor brackets 101, and the conveyor brackets 101 are combined by passing the fixing bolts 106 through the alloy gasket.

[0051] Specifically, the conveying assembly 1 also includes: a power input motor 104 mounted on the side of the conveyor support 101 by external screws; a plurality of fixing bolts 106 threaded inside the conveyor support 101; and a support frame 105 detachably connected to the bottom of the conveyor support 101 by the fixing bolts 106.

[0052] Furthermore, the power output end of the power input motor 104 is connected to a reducer. The reducer drives the conveyor roller 102 through the existing sprocket and chain belt structure. When the conveyor roller 102 rotates, the sheet material can be conveyed to the processing station through the conveyor roller 102.

[0053] It is important to note that the alloy gasket is a rectangular alloy plate, which is made by punching holes. It has two holes, and the distance between the holes is adapted to the hole position of the fixing bolt 106 on the conveyor table bracket 101. The fixing bolt 106 can pass through the alloy gasket and the hole position of the fixing bolt 106 on the conveyor table bracket 101 to achieve a fixed connection.

[0054] In this embodiment, the two sets of conveyor support brackets 101 can be freely connected, which facilitates increasing the length of the production line as needed.

[0055] Working principle: The height of the transition component 3 is adjusted according to the height of the lifting plate 4. During adjustment, the cylinder 203 is activated. When the cylinder 203 extends or retracts, the guide plate 201 is pushed upward by the extension end of the cylinder 203, thus adjusting the angle of the guide plate 201. The end of the guide plate 201 rotates inside the fixed ear plate 202 through the connecting shaft 208, thereby cooperating with the cylinder 203 to achieve angle adjustment. The transition plate 301 is rotatably connected to the guide plate 201. During use, the transition plate 301 remains horizontal, while the guide plate 201 can be in an inclined state. The connecting end 207 on the guide plate 201 rotates inside the connecting groove 303 via the rotating shaft 304. It rotates synchronously with the angle adjustment between the guide plate 201 and the conveyor support 101. The overlapping plate 302 is placed on top of the lifting plate 4, so that the top surface of the transition plate 301 and the lifting plate 4 are at the same level. When the push block pushes the plate to move, the plate can be moved to the transition plate 301 via the lifting plate 4, and then moved to the top of the conveying roller 102 via the guide plate 201. The rotating conveying roller 102 can transport the plate to the processing station.

[0056] The technical scope of this utility model is not limited to the content described above. Those skilled in the art can make various modifications and variations to the above embodiments without departing from the technical concept of this utility model, and all such modifications and variations should fall within the protection scope of this utility model.

Claims

1. A high-efficiency conveyor table for a pusher plate feeding and moving machine, characterized in that, It includes a conveying assembly (1), a guide assembly (2) rotatably connected to the conveying assembly (1) with an adjustable angle; and a transition assembly (3) rotatably mounted on the front end of the guide assembly (2) for docking with the pusher plate feeding mobile machine. The conveying assembly (1) includes: a conveying table support (101); and a plurality of equally spaced and uniformly distributed conveying rollers (102) rotatably mounted on the inner side of the conveying table support (101). The guide assembly (2) includes: a fixed ear plate (202) fixedly welded to the front end of the conveyor support (101); and a guide plate (201) rotatably mounted on the inner side of the fixed ear plate (202). The transition assembly (3) includes a transition plate (301) rotatably mounted on the side of the guide plate (201) away from the conveyor support (101); and an overlap plate (302) fixed to the side of the transition plate (301) near the pusher loading mobile machine.

2. The high-efficiency conveyor table for a pusher plate feeding and moving machine according to claim 1, characterized in that, The guide assembly (2) further includes a cylinder (203) rotatably mounted on the bottom of the guide plate (201); a connecting collar (206) fixed to both ends of the cylinder (203); a pin (205) passing through the connecting collar (206); and a support member (204) fixed to both ends of the pin (205).

3. The high-efficiency conveyor table for a pusher plate feeding and moving machine according to claim 2, characterized in that, The conveying assembly (1) further includes a crossbar (108) fixed between the conveying table brackets (101), and two sets of the support members (204) are respectively fixed on the crossbar (108) and the guide plate (201).

4. The high-efficiency conveyor table for a pusher plate feeding and moving machine according to claim 3, characterized in that, The fixed ear plate (202) is equipped with a connecting shaft (208), and the guide plate (201) is rotatably connected to the fixed ear plate (202) through the connecting shaft (208). The front end of the guide plate (201) is welded with a connecting end (207).

5. The high-efficiency conveyor table for a pusher plate feeding and moving machine according to claim 4, characterized in that, The transition assembly (3) further includes: a connecting groove (303) formed at the bottom of the transition plate (301) near the guide plate (201); and a rotating shaft (304) mounted inside the connecting groove (303) by a bearing, wherein the connecting end (207) rotates inside the connecting groove (303) by the rotating shaft (304).

6. The high-efficiency conveyor table for a pusher plate feeding and moving machine according to claim 5, characterized in that, The front end of the transition plate (301) is movably connected to the lifting plate (4), and the top of the lifting plate (4) is provided with a slot that matches the structural size of the overlapping plate (302).

7. The high-efficiency conveyor table for a pusher plate feeding and moving machine according to claim 6, characterized in that, The conveying assembly (1) further includes: a connecting block (107) fixed to the rear end of the conveying platform bracket (101); and a connecting slot (103) opened on the front end face of the conveying platform bracket (101), wherein the connecting slot (103) is adapted to the structural dimensions of the connecting block (107).

8. The high-efficiency conveyor table for a pusher plate feeding and moving machine according to claim 7, characterized in that, The conveying assembly (1) further includes: a power input motor (104) mounted on the side of the conveying platform bracket (101) by external screws; a plurality of fixing bolts (106) threaded into the inside of the conveying platform bracket (101); and a support frame (105) detachably connected to the bottom of the conveying platform bracket (101) by the fixing bolts (106).