A chipboard conveying device
By using reverse and forward threaded rods to rotate and adjust the position of the placement slotted plate, and using a telescopic hydraulic cylinder to straighten the particleboard, the problem of tilting or falling during particleboard transportation is solved, achieving stable transportation of particleboard and reducing damage.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU AOBA INTELLIGENT TECHNOLOGY CO LTD
- Filing Date
- 2025-07-17
- Publication Date
- 2026-07-07
AI Technical Summary
Existing particleboard conveying devices are prone to causing particleboard to tilt or fall when there is a large height difference, resulting in surface scratches and impacts, which affects product quality.
The position of the placement trough plate is adjusted by rotating and using reverse and forward threaded rods to keep it at the same level as the conveyor belt assembly. The position is then corrected by moving the adjustment plate with a telescopic hydraulic cylinder. Rubber pads are used to reduce damage to the particleboard.
This effectively prevents particleboard from tilting or falling during transport due to excessive height differences, ensuring smooth transport and reducing damage to the particleboard.
Smart Images

Figure CN224466865U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of particleboard conveying technology, specifically to a particleboard conveying device. Background Technology
[0002] Particleboard conveying devices are mainly used for material transport in various stages of particleboard (usually wood or other composite material boards) production. Since the production process of particleboard requires multiple steps, such as raw material preparation, drying, hot pressing, and cutting, the conveying device plays an important role. Chain conveying devices are widely used in particleboard production lines and are suitable for handling heavier or larger boards. Through the traction of the chain, the boards can be smoothly transported from one station to the next.
[0003] A prior art technology discloses a particleboard conveying device. This device utilizes a trolley, motor, transmission rod, rotating rod, first gear, first conveyor belt, and second rotating column in a coordinated configuration. During operation, the motor, connected to a power source, drives the transmission rod, first gear, and first conveyor belt, thereby moving the particleboard across the surface of the second rotating column and causing it to fall into the trolley. This effectively transports the particleboard onto the trolley. Furthermore, the device employs a first limiting frame plate, first rotating column, first conveyor belt, electric push rod, second limiting frame plate, and second conveyor belt in a coordinated configuration. During operation, adjusting the electric push rod drives the first and second conveyor belts, as well as the first and second limiting frame plates, causing them to move in opposite directions, thus allowing the particleboard to move along the first rotating column.
[0004] However, during use, the particleboard is conveyed to the conveyor device (mobile vehicle) via a conveyor belt. Since the conveyor device (mobile vehicle) and the conveyor belt are not on the same horizontal plane, during the process of conveying the particleboard by the conveyor belt, if there is a large height difference, the particleboard may tilt or fall into the conveyor device (mobile vehicle), which may cause scratches, impacts, and other phenomena on the surface of the particleboard, affecting product quality. Utility Model Content
[0005] The purpose of this invention is to provide a particleboard conveying device to solve the problems mentioned in the background art.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a particleboard conveying device, comprising a conveying assembly, the conveying assembly comprising: a base plate, a fixing groove fixedly installed on the upper end of the base plate, a reverse threaded rod and a forward threaded rod provided inside the fixing groove, the thread grooves of the reverse threaded rod and the forward threaded rod being opened in opposite directions, one end of the reverse threaded rod being rotatably connected to the inside of a bearing seat, the lower end of the bearing seat being bolted to the upper end of the base plate, a servo motor being installed on one end of the forward threaded rod, and the reverse threaded rod and the forward threaded rod being connected and fixed together.
[0007] As a further preferred embodiment of this technical solution, the outer sides of the reverse threaded rod and the forward threaded rod are rotatably connected to a threaded cylinder. The upper end of the threaded cylinder is fixedly installed with a first rotating rod and a second rotating rod. The upper ends of the first rotating rod and the second rotating rod are rotatably connected to the inside of the hinge block. The upper end of the hinge block is fixedly installed at the lower end of the placement slot plate.
[0008] As a further preferred embodiment of this technical solution, one end of the placement slot plate is connected and fixed to the sliding block by bolts, the sliding block is slidably connected inside the support guide plate, and the support guide plate has a movable guide groove inside.
[0009] As a further preferred embodiment of this technical solution, the support guide plate is bolted to the upper end of the base plate, and a pusher frame is fixedly installed on the upper end of the base plate.
[0010] As a further preferred embodiment of this technical solution, one end of the placement trough plate is at the same level as the conveyor belt assembly, and the conveyor belt assembly includes: a fixed bracket, and position adjustment components are installed on both sides of the fixed bracket.
[0011] As a further preferred embodiment of this technical solution, the position adjustment assembly includes: a telescopic hydraulic cylinder, which is mounted on one end of a fixed plate. One end of the fixed plate is fixed to one side of a fixed bracket via a fixing bolt. A telescopic guide post is mounted on one end of the telescopic guide post. An adjustment plate is fixedly mounted on one end of the telescopic guide post. A rubber pad is mounted on one end of the adjustment plate. The telescopic guide post moves through the inside of a guide sleeve. A guide post is mounted on one end of the adjustment plate. The guide post moves through the inside of the guide sleeve. The guide sleeve is installed inside the fixed bracket.
[0012] This utility model provides a particleboard conveying device, which has the following beneficial effects:
[0013] (1) By rotating the reverse and forward threaded rods together, this utility model can accurately adjust the position of the placement trough plate so that it is at the same level as the conveyor belt assembly. This can effectively prevent the particleboard from tilting or falling into the placement trough plate during the conveying process due to excessive height difference. The particleboard can move smoothly during the conveying process and will not be damaged due to tilting or impact.
[0014] (2) This utility model drives the telescopic guide column to move by driving the telescopic hydraulic cylinder, and moves back and forth inside the guide sleeve. When the telescopic guide column moves, it drives the adjustment plate to move. When the adjustment plate moves, it can adjust and straighten the position of the particleboard, which can reduce the deviation and tilting of the particleboard when it is conveyed by the conveyor belt assembly. The rubber pad contacts the particleboard, which can reduce the damage to one side of the particleboard caused by the adjustment plate. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall structure of the present invention;
[0016] Figure 2 This is a schematic diagram of the structure of the placement groove plate and the supporting guide rail plate of this utility model;
[0017] Figure 3 This is a schematic diagram of the reverse threaded rod and the forward threaded rod of this utility model;
[0018] Figure 4 This is a schematic diagram of the sliding block and hinge block structure of this utility model;
[0019] Figure 5 This is a schematic diagram of the position adjustment component of this utility model.
[0020] In the diagram: 100, Conveying assembly; 101, Base plate; 102, Placement slot plate; 103, Support guide plate; 104, Moving guide slot; 105, Pusher frame; 106, Bearing seat; 107, Reverse threaded rod; 108, Forward threaded rod; 109, Threaded cylinder; 110, Fixed slot; 111, First rotating rod; 112, Second rotating rod; 113, Servo motor; 115, Hinge block; 116, Sliding block; 200, Conveyor belt assembly; 201, Fixed bracket; 300, Position adjustment assembly; 301, Telescopic hydraulic cylinder; 302, Fixed plate; 303, Fixed bolt; 304, Telescopic guide column; 305, Adjusting plate; 306, Rubber pad; 307, Guide sleeve; 308, Guide column. Detailed Implementation
[0021] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.
[0022] This utility model provides a technical solution: such as Figure 1-4 As shown in this embodiment, a particleboard conveying device includes a conveying assembly 100. The conveying assembly 100 includes a base plate 101. A fixing groove 110 is fixedly installed on the upper end of the base plate 101. A reverse threaded rod 107 and a forward threaded rod 108 are provided inside the fixing groove 110. The thread grooves of the reverse threaded rod 107 and the forward threaded rod 108 are opened in opposite directions. One end of the reverse threaded rod 107 is rotatably connected to the inside of a bearing seat 106. The lower end of the bearing seat 106 is bolted to the base plate 101. At the upper end of component 1, a servo motor 113 is installed at one end of the forward threaded rod 108. The reverse threaded rod 107 is connected and fixed together with the forward threaded rod 108. A threaded cylinder 109 is rotatably connected to the outer side of the reverse threaded rod 107 and the forward threaded rod 108. A first rotating rod 111 and a second rotating rod 112 are fixedly installed at the upper end of the threaded cylinder 109. The upper ends of the first rotating rod 111 and the second rotating rod 112 are rotatably connected to the inside of the hinge block 115. The upper end of the hinge block 115 is fixedly installed in the placement groove. At the lower end of plate 102, in actual use, the operator first pushes the conveyor assembly 100 to one side of the conveyor belt assembly 200. The servo motor 113 drives the forward threaded rod 108 and the reverse threaded rod 107 to rotate. Although the forward threaded rod 108 and the reverse threaded rod 107 rotate simultaneously, their thread grooves move in opposite directions. The two threaded rods rotate in different directions, pushing the outer threaded cylinder 109 to move relative to them. Connected to the first rotating rod 111 and the second rotating rod 112, the first rotating rod 111 and the second rotating rod 112 rotate at the hinge block 115, further driving the hinge block 115 and the placement trough plate 102 to move up and down. When the placement trough plate 102 is moved and adjusted to maintain the same horizontal position as the conveyor belt assembly 200, the particleboard is transported into the placement trough plate 102 through the transmission of the conveyor belt assembly 200, effectively avoiding the particleboard from tilting or falling into the placement trough plate 102 when the height difference is large.
[0023] By rotating the reverse and forward threaded rods 108 in coordination, the position of the placement trough plate 102 can be precisely adjusted so that it is level with the conveyor belt assembly 200. This effectively prevents the particleboard from tilting or falling into the placement trough plate 102 during the conveying process due to excessive height differences. The particleboard can move smoothly during the conveying process and will not be damaged by tilting or impact.
[0024] Furthermore, one end of the placement slot plate 102 is connected and fixed to the sliding block 116 by bolts. The sliding block 116 is slidably connected inside the support guide plate 103. The support guide plate 103 has a movable guide groove 104 inside. The support guide plate 103 is connected to the upper end of the base plate 101 by bolts. A pusher frame 105 is fixedly installed on the upper end of the base plate 101. When the placement slot plate 102 moves up and down, the sliding block 116 moves up and down inside the support guide plate 103, which can provide support and stability for the up and down movement of the placement slot plate 102.
[0025] like Figure 1-2 As shown, one end of the placement trough plate 102 is at the same level as the conveyor belt assembly 200. The conveyor belt assembly 200 includes a fixed bracket 201, and position adjustment components 300 are installed on both sides of the fixed bracket 201.
[0026] like Figure 1 , Figure 5 As shown, the position adjustment assembly 300 includes: a telescopic hydraulic cylinder 301, which is mounted on one end of a fixed plate 302. One end of the fixed plate 302 is fixed to one side of a fixed bracket 201 via a fixing bolt 303. A telescopic guide post 304 is mounted on one end of the telescopic hydraulic cylinder 301. An adjusting plate 305 is fixedly mounted on one end of the telescopic guide post 304. A rubber pad 306 is mounted on one end of the adjusting plate 305. The telescopic guide post 304 moves through the guide sleeve 307. A guide post 308 is mounted on one end of the adjusting plate 305 and moves through the guide sleeve 307. The guide sleeve 307 is installed inside the fixed bracket 201. In actual use, the telescopic guide column 304 is moved by the telescopic hydraulic cylinder 301 and moves back and forth inside the guide sleeve 307. When the telescopic guide column 304 moves, it in turn moves the adjusting plate 305. When the adjusting plate 305 moves, it can adjust and straighten the position of the particleboard, which can reduce the deviation and tilting of the particleboard when it is conveyed by the conveyor belt assembly 200. The rubber pad 306 contacts the particleboard, which can reduce the damage to one side of the particleboard caused by the adjusting plate 305.
[0027] This utility model provides a particleboard conveying device, the specific working principle of which is as follows: First, the operator pushes the conveying assembly 100 to one side of the conveyor belt assembly 200. The servo motor 113 drives the forward threaded rod 108 and the reverse threaded rod 107 to rotate. Although the forward threaded rod 108 and the reverse threaded rod 107 rotate simultaneously, their thread grooves move in opposite directions, causing the two threaded rods to rotate in different directions, pushing the outer threaded cylinder 109 to move relative to each other. The threaded cylinder 109 is connected to the first rotating rod 111 and the second rotating rod 112. The first rotating rod 111 and the second rotating rod 112 rotate at the hinge block 115, further driving the hinge block 115 and the placement slot plate 102 to move up and down. When the placement slot plate... The 102 is moved and adjusted to maintain the same horizontal position as the conveyor belt assembly 200. The particleboard is transported into the placement trough 102 by the transmission of the conveyor belt assembly 200. This effectively avoids the particleboard tilting or falling into the placement trough 102 when there is a large height difference. First, the telescopic guide column 304 is moved by the drive telescopic hydraulic cylinder 301 and moves back and forth inside the guide sleeve 307. When the telescopic guide column 304 moves, it drives the adjustment plate 305 to move. When the adjustment plate 305 moves, it can adjust and straighten the position of the particleboard, which can reduce the deviation and tilting of the particleboard when it is transported by the conveyor belt assembly 200. The rubber pad 306 contacts the particleboard, which can reduce the damage to one side of the particleboard caused by the adjustment plate 305.
[0028] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A particleboard conveying device, comprising a conveying assembly (100), characterized in that: The conveying assembly (100) includes: a base plate (101), a fixing groove (110) fixedly installed on the upper end of the base plate (101), a reverse threaded rod (107) and a forward threaded rod (108) provided inside the fixing groove (110), the thread grooves of the reverse threaded rod (107) and the forward threaded rod (108) are opened in opposite directions, one end of the reverse threaded rod (107) is rotatably connected to the inside of the bearing seat (106), the lower end of the bearing seat (106) is bolted to the upper end of the base plate (101), a servo motor (113) is installed on one end of the forward threaded rod (108), and the reverse threaded rod (107) and the forward threaded rod (108) are connected and fixed together.
2. The particleboard conveying device according to claim 1, characterized in that: The reverse threaded rod (107) and the outside of the forward threaded rod (108) are rotatably connected to a threaded cylinder (109). The upper end of the threaded cylinder (109) is fixedly installed with a first rotating rod (111) and a second rotating rod (112). The upper ends of the first rotating rod (111) and the second rotating rod (112) are rotatably connected to the inside of a hinge block (115). The upper end of the hinge block (115) is fixedly installed at the lower end of the placement slot plate (102).
3. The particleboard conveying device according to claim 2, characterized in that: One end of the placement slot plate (102) is connected and fixed to the sliding block (116) by bolts. The sliding block (116) is slidably connected inside the support guide plate (103). The support guide plate (103) has a movable guide groove (104) inside.
4. A particleboard conveying device according to claim 3, characterized in that: The support guide plate (103) is bolted to the upper end of the base plate (101), and a pusher frame (105) is fixedly installed on the upper end of the base plate (101).
5. A particleboard conveying device according to claim 2, characterized in that: One end of the placement slot plate (102) is at the same level as the conveyor belt assembly (200), and the conveyor belt assembly (200) includes: a fixed bracket (201), and position adjustment components (300) are installed on both sides of the fixed bracket (201).
6. A particleboard conveying device according to claim 5, characterized in that: The position adjustment assembly (300) includes: a telescopic hydraulic cylinder (301), which is installed at one end of a fixed plate (302). One end of the fixed plate (302) is fixed to one side of a fixed bracket (201) by a fixing bolt (303). A telescopic guide post (304) is installed at one end of the telescopic hydraulic cylinder (301). An adjustment plate (305) is fixedly installed at one end of the telescopic guide post (304). A rubber pad (306) is installed at one end of the adjustment plate (305). The telescopic guide post (304) moves through the inside of a guide sleeve (307). A guide post (308) is installed at one end of the adjustment plate (305). The guide post (308) moves through the inside of the guide sleeve (307). The guide sleeve (307) is installed inside the fixed bracket (201).