A conveying device for factory logistics sorting
By installing buffer plates and limiting components in the conveyor system used for sorting in factory logistics, the problem of damage caused by collisions between goods and guide plates is solved, and stable conveying of goods during the sorting process is achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NORTHERN ENG DESIGN & RES INST CO LTD
- Filing Date
- 2025-05-09
- Publication Date
- 2026-06-09
AI Technical Summary
In existing technologies, goods are easily damaged when they collide with the guide plate during sorting and conveying.
A conveying device for sorting in factory logistics has been designed, including a frame, a conveying mechanism and a guide plate. Buffer plates are installed on both sides of the guide plate, and the buffer plates are fixed on the guide plate by a limiting component. The buffer plates buffer the goods and prevent collision damage.
It improves the quality stability of goods during sorting and transportation, and avoids damage to goods due to collisions.
Smart Images

Figure CN224336560U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of logistics transportation technology, specifically relating to a conveying device for factory logistics sorting. Background Technology
[0002] Logistics sorting is the process of classifying and organizing various goods according to their destination, type, or customer needs during the logistics transportation process. It aims to ensure that goods are delivered to designated locations accurately and efficiently, thereby improving the overall efficiency of logistics operations.
[0003] In existing technologies, when sorting logistics using conveyor belts, guide plates are usually installed at the end of the conveyor belt. The logistics can travel along the surface of the guide plate during the movement, thus being transferred to different locations. However, most guide plates are currently made of rigid materials. When goods come into contact with the guide plate, they are easily damaged due to collisions, which affects the quality of the goods in the later stages. Utility Model Content
[0004] This utility model provides a conveying device for factory logistics sorting, which aims to solve the problem that goods are easily damaged when they collide with the guide plate during the sorting and conveying process in the prior art.
[0005] To achieve the above objectives, the technical solution adopted by this utility model is: to provide a conveying device for factory logistics sorting, comprising:
[0006] frame;
[0007] A transport mechanism, mounted on the frame, is used to transport goods;
[0008] A guide plate is installed above the conveying mechanism and hinged to the frame. Buffer plates are installed on both sides of the guide plate. An insert block for insertion into the guide plate is fixedly installed on the side of the buffer plate near the guide plate.
[0009] A limiting component is disposed between the guide plate and the insert block, for limiting the insert block inside the guide plate.
[0010] In one possible implementation, the limiting component includes:
[0011] A pin is inserted into the guide plate, and the insert block is provided with a limiting hole for accommodating the pin;
[0012] An elastic element is installed between the pin and the guide plate to push the pin into the limiting hole.
[0013] In one possible implementation, the pin is further rotatably provided with a support block for supporting the top of the guide plate. The guide plate is provided with a receiving groove for accommodating the support block, and when the support block is supported to the top of the guide plate, the pin slides out from inside the limiting hole.
[0014] In one possible implementation, one end of the guide plate is hinged to the frame, and the frame is also equipped with an arc-shaped guide plate for guiding the other end of the guide plate to swing.
[0015] In one possible implementation, a guide wheel is rotatably mounted on one end of the guide plate, and an arc-shaped groove is provided on the arc-shaped guide plate to accommodate the guide wheel, with the guide wheel rolling inside the arc-shaped groove.
[0016] In one possible implementation, the frame is further equipped with a pusher for oscillating the guide plate, the fixed end of the pusher is hinged to the frame, and the driving end of the pusher is slidably disposed on the guide plate along the length direction of the guide plate.
[0017] In one possible implementation, a roller is rotatably mounted on the drive end of the pusher, and a guide groove for accommodating the roller is recessed on the guide plate.
[0018] In one possible implementation, the transmission mechanism includes:
[0019] A first conveyor belt is installed on the frame;
[0020] There are two second conveyor belts, located behind the first conveyor belt. The two second conveyor belts are arranged parallel to each other with a gap, and the guide plate is hinged between the two second conveyor belts.
[0021] In one possible implementation, the buffer plate includes a support plate for mounting onto the guide plate and a buffer pad mounted on the outside of the support plate.
[0022] The solution shown in this application, compared with the prior art, involves setting up a frame, mounting a conveying mechanism for transporting goods on the frame, and hinged a guide plate on the frame to guide the transport direction of the goods, thereby achieving goods sorting. This application also includes buffer plates installed on both sides of the guide plate. Inserts are provided at both ends of the buffer plates, and guide holes corresponding to the inserts are provided on both sides of the guide plate. When installing the buffer plate onto the guide plate, the inserts on the buffer plate are first inserted into the guide holes, and then the limiting components limit the inserts within the guide plate, thus fixing the buffer plate onto the guide plate. During the goods transport and sorting process, the buffer plates can provide a certain degree of cushioning, preventing the goods from being collided or damaged, and improving the stability of the goods' quality during the sorting and transport process. Attached Figure Description
[0023] Figure 1 A schematic diagram of the structure of the conveying device for factory logistics sorting provided in an embodiment of this utility model;
[0024] Figure 2 This is a schematic diagram of the connection structure between the buffer plate and the guide plate provided in an embodiment of the present utility model;
[0025] Figure 3 for Figure 2 Enlarged view of part A in the middle;
[0026] Figure 4 This is a schematic diagram of the limiting component provided in an embodiment of the present utility model.
[0027] Explanation of reference numerals in the attached figures:
[0028] 1. Frame; 2. Transmission mechanism; 21. First conveyor belt; 22. Second conveyor belt; 3. Guide plate; 31. Guide wheel; 4. Buffer plate; 41. Support plate; 42. Buffer pad; 5. Insert block; 6. Limiting component; 61. Pin; 62. Elastic element; 63. Support block; 7. Arc-shaped guide plate; 8. Pushing element; 81. Roller. Detailed Implementation
[0029] To make the technical problems, technical solutions, and beneficial effects of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present utility model and are not intended to limit the present utility model.
[0030] Please refer to the following: Figures 1 to 4The present invention provides a conveying device for factory logistics sorting. The conveying device includes a frame 1, a transmission mechanism 2, a guide plate 3, and a limiting component 6. The transmission mechanism 2 is mounted on the frame 1 for conveying goods; the guide plate 3 is mounted above the transmission mechanism 2 and hinged to the frame 1. Buffer plates 4 are mounted on both sides of the guide plate 3, and an insert block 5 for insertion into the guide plate 3 is fixedly mounted on the side of the buffer plate 4 closest to the guide plate 3; the limiting component 6 is disposed between the guide plate 3 and the insert block 5, for limiting the insert block 5 within the guide plate 3.
[0031] The factory logistics sorting conveyor device provided in this embodiment, compared with the prior art, features a frame 1 on which a conveying mechanism 2 for transporting goods is installed. A guide plate 3 is also hinged to the frame 1, guiding the transport direction of the goods and thus achieving sorting. In this application, buffer plates 4 are installed on both sides of the guide plate 3. Insert blocks 5 are provided at both ends of the buffer plate 4, and guide holes corresponding to the insert blocks 5 are provided on both sides of the guide plate 3. When installing the buffer plate 4 onto the guide plate 3, the insert blocks 5 on the buffer plate 4 can be inserted into the guide holes first, and then the limiting component 6 can limit the insert blocks 5 inside the guide plate 3, thus fixing the buffer plate 4 onto the guide plate 3. During the goods transport and sorting process, the buffer plate 4 can provide a certain buffering effect, preventing the goods from being collided or damaged, and improving the stability of the goods' quality during the sorting and transport process.
[0032] Specifically, in this embodiment, the axis of the hinge shaft of the guide plate 3 on the frame 1 is set in the vertical direction. Along the conveying direction of the goods, the width of the guide plate 3 gradually increases, thereby effectively guiding the conveying of the goods.
[0033] In some embodiments, the limiting component 6 described above may be as follows: Figure 2 , Figure 3 and Figure 4 The structure shown. See also... Figure 2 , Figure 3 and Figure 4 The limiting component 6 includes a pin 61 and an elastic element 62. The pin 61 is inserted into the guide plate 3, and the insert block 5 has a limiting hole for receiving the pin 61. The elastic element 62 is installed between the pin 61 and the guide plate 3 to push the pin 61 into the limiting hole. A mounting hole for installing the pin 61 is provided on the top of the guide plate 3, and a guide hole for installing the insert block 5 is provided on the side of the guide plate 3. The mounting hole and the guide hole are interconnected. When the buffer plate 4 abuts against the guide plate 3, the insert block 5 slides into the guide plate 3, and the pin 61 can be inserted into the insert block 5, thereby limiting the position of the insert block 5 and preventing it from sliding out of the guide plate 3.
[0034] Specifically, in this embodiment, the elastic element 62 is a spring. A support plate is fixedly installed on the pin 61. The elastic element 62 is fitted onto the outside of the pin 61, with one end of the elastic element 62 abutting against the support plate and the other end abutting against the guide plate 3. This pushes the support plate to move closer to the insertion block 5, ensuring the stability of the pin 61's position inside the insertion block 5.
[0035] Preferably, in this embodiment, the limiting hole on the insert 5 is located at the end of the insert 5, and the inserts 5 on the buffer plates 4 on both sides of the guide plate 3 are arranged opposite to each other. When both buffer plates 4 are installed on the guide plate 3, the inserts 5 on the two buffer plates 4 are abutted against each other, and the limiting holes on the two opposite inserts 5 are interconnected to form an installation hole for accommodating the pin 61. A single pin 61 can be used to limit the two opposite inserts 5 at the same time.
[0036] In some embodiments, the aforementioned pin 61 may be adopted as follows: Figure 4 The structure shown. See also Figure 4 The pin 61 is rotatably mounted with a support block 63 for supporting the top of the guide plate 3. The guide plate 3 has a receiving groove for accommodating the support block 63, and when the support block 63 is supported to the top of the guide plate 3, the pin 61 slides out from the limiting hole. The support block 63 is rotatably mounted on the pin 61, and a limiting platform is provided on the pin 61 for limiting the up and down movement of the support block 63. The guide plate 3 has a receiving groove for accommodating the support block 63. Specifically, when it is necessary to limit the insert 5 on the guide plate 3, the support block 63 can be rotated so that the support block 63 is located inside the receiving groove. At this time, the pin 61 can move inside the guide plate 3 and be inserted into the insert 5. When it is necessary to remove the insert 5, the pin 61 can be pulled to move it to the outside of the guide plate 3, and the support block 63 can be rotated to support the top of the guide plate 3. At this time, the pin 61 is located on the outside of the insert 5, and the pin 61 can be prevented from sliding into the insert 5 by the limiting of the support block 63. This makes it convenient for the operator to remove the buffer plate 4 from the guide plate 3, which facilitates the later maintenance and replacement of the buffer plate 4.
[0037] In some embodiments, the guide plate 3 described above can be as follows: Figure 1 The structure shown. See also Figure 1One end of the guide plate 3 is hinged to the frame 1, and an arc-shaped guide plate 7 is also installed on the frame 1 to guide the other end of the guide plate 3 to swing. The guide plate 3 has a hinged end and a guide end at its two ends along its length, respectively. The hinged end is hinged to the frame 1 and located at the middle of the frame 1 perpendicular to the conveying direction. By rotating and adjusting the position of the guide plate 3, goods can be guided to different directions. The arc-shaped guide plate 7 supports and guides the guide end of the guide plate 3, ensuring the stability of the guide plate 3 itself and its position.
[0038] In some embodiments, the guide plate 3 described above can be as follows: Figure 1 The structure shown. See also Figure 1 A guide wheel 31 is rotatably mounted on one end of the guide plate 3. An arc-shaped groove is provided on the arc-shaped guide plate 7 to accommodate the guide wheel 31, which is rolled within the groove. An extension plate is fixedly mounted on the end of the guide plate 3, and a guide wheel 31 is rotatably mounted on the extension plate, also rolling within the arc-shaped groove. The center of the arc-shaped groove coincides with the axis of the hinge shaft of the guide plate 3 on the frame 1. Therefore, when the guide plate 3 swings, the guide wheel 31 always rolls within the arc-shaped groove, guiding the guide plate 3 during rotation.
[0039] In some embodiments, the rack 1 described above may be as follows: Figure 1 The structure shown. See also Figure 1 The frame 1 is also equipped with a pusher 8 for oscillating the guide plate 3. The fixed end of the pusher 8 is hinged to the frame 1, and the driving end of the pusher 8 is slidably mounted on the guide plate 3 along its length. The pusher 8 is a cylinder or an electric push rod. The fixed end of the pusher 8 is hinged to the frame 1, while the driving end of the pusher 8 has the freedom to adjust its position on the guide plate 3 along its length. When the driving end of the pusher 8 is extended, it can cause the guide plate 3 to oscillate away from the pusher 8, allowing the goods to be conveyed along the side closer to the pusher 8. When the driving end of the pusher 8 is retracted, it can cause the guide plate 3 to oscillate towards the pusher 8, allowing the goods to be conveyed along the side away from the pusher 8. The conveying direction of the goods can be switched at will, making operation convenient and easy.
[0040] In some embodiments, the aforementioned pusher 8 may be adopted as follows: Figure 1 The structure shown. See also Figure 1A roller 81 is rotatably mounted on the driving end of the pusher 8, and a guide groove for accommodating the roller 81 is recessed on the top of the guide plate 3. The roller 81 is rotatably mounted on the driving end of the pusher 8, and a guide groove for accommodating the roller 81 is recessed on the top of the guide plate 3. The roller 81 is rolled inside the guide groove. When the guide plate 3 rotates, the roller 81 rotates relative to the guide plate 3 and moves relative to the guide plate 3 inside the guide groove, thereby realizing that the pusher 8 drives the guide plate 3 to swing.
[0041] Specifically, in this embodiment, the roller 81 is a bearing, the inner ring of the bearing is fixedly mounted on the pusher 8, and the outer ring of the bearing is rolled inside the guide groove.
[0042] In some embodiments, the transmission mechanism 2 described above may employ, for example... Figure 1 The structure shown. See also Figure 1 The conveying mechanism 2 includes a first conveyor belt 21 and a second conveyor belt 22. The first conveyor belt 21 is mounted on the frame 1; there are two second conveyor belts 22, located behind the first conveyor belt 21, arranged parallel to each other at intervals, and a guide plate 3 is hinged between the two second conveyor belts 22. Both second conveyor belts 22 are located behind the first conveyor belt 21, and goods are conveyed from the first conveyor belt 21 to the second conveyor belts 22. Furthermore, the guide plate 3 guides the goods to the designated second conveyor belt 22, completing the sorting and conveying operation.
[0043] Specifically, in this embodiment, a connecting plate is connected at the feed end of the two second conveyor belts 22, and the end of the guide plate 3 is hinged to the connecting plate, thereby facilitating the guidance of goods onto the second conveyor belts 22.
[0044] In some embodiments, the buffer plate 4 described above can be as follows: Figure 2 , Figure 3 The structure shown. See also... Figure 2 , Figure 3 The buffer plate 4 includes a support plate 41 for mounting onto the guide plate 3 and a buffer pad 42 mounted on the outside of the support plate 41. The support plate 41 is made of a rigid material, and the buffer pad 42 is made of rubber or polyurethane. The buffer pad 42 is adhered and fixed to the outside of the support plate 41. This improves the overall strength of the buffer plate 4 and also cushions the goods. Therefore, it enhances both the strength of the buffer plate 4 and the cushioning effect on the goods.
[0045] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A conveying device for sorting in factory logistics, characterized in that, include: Rack (1); A transmission mechanism (2), mounted on the frame (1), is used to transport goods; The guide plate (3) is installed above the transmission mechanism (2) and is hinged on the frame (1). Buffer plates (4) are installed on both sides of the guide plate (3). A plug (5) for inserting into the guide plate (3) is fixedly installed on the side of the buffer plate (4) near the guide plate (3). A limiting component (6) is disposed between the guide plate (3) and the insert (5) for limiting the insert (5) inside the guide plate (3).
2. The conveying device for factory logistics sorting as described in claim 1, characterized in that, The limiting component (6) includes: A pin (61) is inserted into the guide plate (3), and a limiting hole for accommodating the pin (61) is provided on the insert block (5); An elastic element (62) is installed between the pin (61) and the guide plate (3) to push the pin (61) into the limiting hole.
3. The conveying device for factory logistics sorting as described in claim 2, characterized in that, The pin (61) is also rotatably provided with a support block (63) for supporting the top of the guide plate (3). The guide plate (3) is provided with a receiving groove for accommodating the support block (63). When the support block (63) is supported to the top of the guide plate (3), the pin (61) slides out from the limiting hole.
4. The conveying device for factory logistics sorting as described in claim 1, characterized in that, One end of the guide plate (3) is hinged to the frame (1), and an arc-shaped guide plate (7) for guiding the other end of the guide plate (3) to swing is also installed on the frame (1).
5. The conveying device for factory logistics sorting as described in claim 4, characterized in that, One end of the guide plate (3) is rotatably provided with a guide wheel (31), and the arc-shaped guide plate (7) is provided with an arc-shaped groove for accommodating the guide wheel (31), and the guide wheel (31) is rolled inside the arc-shaped groove.
6. The conveying device for factory logistics sorting as described in claim 1, characterized in that, The frame (1) is also equipped with a pusher (8) for pushing the guide plate (3) to swing. The fixed end of the pusher (8) is hinged to the frame (1), and the driving end of the pusher (8) is slidably disposed on the guide plate (3) along the length direction of the guide plate (3).
7. The conveying device for factory logistics sorting as described in claim 6, characterized in that, The drive end of the pusher (8) is rotatably provided with a roller (81), and the guide plate (3) is recessed with a guide groove for accommodating the roller (81).
8. The conveying device for factory logistics sorting as described in claim 1, characterized in that, The transmission mechanism (2) includes: The first conveyor belt (21) is installed on the frame (1); There are two second conveyor belts (22), located behind the first conveyor belt (21). The two second conveyor belts (22) are arranged in parallel with a gap, and the guide plate (3) is hinged between the two second conveyor belts (22).
9. The conveying device for factory logistics sorting as described in claim 1, characterized in that, The buffer plate (4) includes a support plate (41) for mounting onto the guide plate (3) and a buffer pad (42) mounted on the outside of the support plate (41).