A belt conveyor for a code tube device
By combining a belt conveyor and a rotating shaft, the problem of insufficient applicability of existing automatic steel pipe palletizing machines to non-magnetic steel pipes has been solved, achieving stable transmission and palletizing and improving the applicability of the device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FANGCHENGGANG RONGDING METAL PROD CO LTD
- Filing Date
- 2025-07-16
- Publication Date
- 2026-06-30
AI Technical Summary
Existing automatic steel pipe palletizing machines have limited applicability when handling non-magnetic steel pipes such as austenitic stainless steel, which restricts the use of the equipment.
A combination of belt conveyor and rotating shaft is used to transfer and stack steel pipes by flipping the bracket, avoiding the use of magnetic suction mechanism.
It enables stable transport and stacking of non-magnetic steel pipes, improves the applicability and transport stability of the device, and avoids the drawbacks of magnetic attraction.
Smart Images

Figure CN224429427U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of steel pipe conveying and stacking technology, and in particular to a belt conveyor device for pipe stacking equipment. Background Technology
[0002] Steel pipes refer to steel products with a hollow cross-section, whose length is much greater than their diameter or circumference. They are classified by cross-sectional shape into round, square, rectangular, and irregularly shaped steel pipes; by material into carbon structural steel pipes, low-alloy structural steel pipes, alloy steel pipes, and composite steel pipes; and by application into pipes for transportation, engineering structures, thermal equipment, petrochemical industry, machinery manufacturing, geological drilling, and high-pressure equipment. During steel pipe production, steel pipe stacking machines are often used for transporting and stacking the pipes.
[0003] An automatic steel pipe palletizing machine with publication number CN106219239B is currently available. This patent uses guide rails and electromagnetic suction blocks to complete the palletizing of steel pipes very well. The pallets are neat, beautiful and consistent. Moreover, by adjusting the angle between the two palletizing rollers, various palletizing methods can be achieved to meet various packaging requirements, improve labor productivity and facilitate steel pipe inventory management.
[0004] In their daily work, the inventors discovered that the aforementioned automatic steel pipe palletizing machine mainly uses a magnetic attraction mechanism to grab steel pipes. However, in daily use, many steel pipes, such as austenitic stainless steel, cannot be magnetically attracted, resulting in low applicability of the device. Utility Model Content
[0005] The purpose of this utility model is to solve the problems mentioned above in the background art by proposing a belt conveyor for code tube equipment.
[0006] To achieve the above objectives, the present invention adopts the following technical solution: a belt conveyor for a steel pipe stacking device, comprising a base, a temporary storage box placed on the surface of the base, and an auxiliary device for conveying and stacking steel pipe bodies on the surface of the base.
[0007] Preferably, the auxiliary device includes two support frames fixedly installed on the surface of the base and a belt conveyor assembled between the two.
[0008] Preferably, the auxiliary device further includes a vertical plate fixedly installed on the surface of the base and a rotating shaft rotatably connected to the surface of the plate, with a bracket fixedly installed at one end of the rotating shaft.
[0009] Preferably, the auxiliary device further includes a groove formed on the surface of the base and a vertical strip plate that slides inside the groove. A rack is fixedly installed at the end of the vertical strip plate away from the groove, and a gear is fixedly installed on the outer wall surface of the rotating shaft. The gear and the rack mesh with each other.
[0010] Preferably, the auxiliary device further includes a support plate fixedly installed on the surface of the base and an electric telescopic rod fitted on its surface, the electric telescopic rod driving the vertical plate to move inside the slide groove.
[0011] The effect achieved by the above components is that the steel pipe body can be transported to the inside of the bracket by a belt conveyor, and then the bracket can be rotated by a rotating shaft, so that the steel pipe body is flipped into the inside of the temporary storage box, thus completing the transport and stacking of the steel pipe body, avoiding the various drawbacks of using magnetic attraction.
[0012] Preferably, the surface of the base is provided with a limiting device for restricting the position of the steel pipe body on the surface of the belt conveyor. The limiting device includes two vertical plates fixedly installed on the surface of the base and a sleeve fitted on the surface of the base. A top rod is slidably connected inside the sleeve, and a limiting plate is fixedly installed at the end of the top rod away from the sleeve.
[0013] Preferably, the limiting device further includes an L-shaped base fixedly installed on the surface of the base. The inner wall surface of the vertical end of the L-shaped base is provided with a vertical groove and a T-shaped plate that slides inside it. The T-shaped plate and the two limiting plates are hinged together by a hinge plate.
[0014] Preferably, a cylinder is fixedly installed on the surface of the bottom horizontal end of the L-shaped base, and the cylinder drives the T-shaped plate to move inside the vertical groove.
[0015] The effects achieved by the above components are as follows: the setting of the limiting plate has the effect of limiting the steel pipe body on the surface of the belt conveyor; the setting of the hinge plate has the effect of driving the limiting plate to move; and the setting of the cylinder has the effect of driving the T-shaped plate to move inside the vertical groove.
[0016] Compared with the prior art, the advantages and positive effects of this utility model are as follows:
[0017] In this invention, by setting an auxiliary device, the steel pipe body can be transported to the inside of the bracket by a belt conveyor, and then the bracket is rotated by a rotating shaft, so that the steel pipe body is flipped into the inside of the temporary storage box, thus completing the transport and stacking of the steel pipe body, avoiding the various drawbacks of using magnetic attraction. Attached Figure Description
[0018] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0019] Figure 2 This utility model Figure 1 Another structural diagram from a different angle;
[0020] Figure 3This utility model Figure 2 Another structural diagram from a different angle;
[0021] Figure 4 This utility model Figure 1 A schematic diagram of the three-dimensional structure at point A in the middle.
[0022] Legend: 1. Base; 2. Auxiliary device; 201. Support frame; 202. Belt conveyor; 203. Vertical plate; 204. Rotating shaft; 205. Bracket; 206. Slide groove; 207. Vertical bar plate; 208. Rack; 209. Gear; 210. Support plate; 211. Electric telescopic rod; 3. Limiting device; 31. Vertical plate; 32. Sleeve; 33. Top rod; 34. Limiting plate; 35. L-shaped base; 36. Vertical groove; 37. T-shaped plate; 38. Hinge plate; 39. Cylinder; 4. Temporary storage box. Detailed Implementation
[0023] Example 1, as Figure 1-4 As shown, a belt conveyor for a steel pipe stacking device includes a base 1, a temporary storage box 4 placed on the surface of the base 1, and an auxiliary device 2 for conveying and stacking steel pipe bodies on the surface of the base 1.
[0024] Reference Figure 1-2 As shown in this embodiment: the auxiliary device 2 includes two support frames 201 fixedly installed on the surface of the base 1 and a belt conveyor 202 assembled between them. The auxiliary device 2 also includes a vertical plate 203 fixedly installed on the surface of the base 1 and a rotating shaft 204 rotatably connected to its surface. A bracket 205 is fixedly installed at one end of the rotating shaft 204. The auxiliary device 2 also includes a groove 206 formed on the surface of the base 1 and a vertical strip 207 that slides inside it. A rack 208 is fixedly installed at the end of the vertical strip 207 away from the groove 206. A toothed rack is fixedly installed on the outer wall surface of the rotating shaft 204. The wheel 209, gear 209 and rack 208 mesh with each other. The auxiliary device 2 also includes a support plate 210 fixedly installed on the surface of the base 1 and an electric telescopic rod 211 fitted on its surface. The electric telescopic rod 211 drives the vertical plate 207 to move inside the slide 206, so that the steel pipe body can be transferred to the inside of the bracket 205 by the belt conveyor 202. Then, the bracket 205 is rotated by the rotating shaft 204, so that the rotation of the bracket 205 causes the steel pipe body to flip into the inside of the temporary storage box 4, completing the transfer and stacking of the steel pipe body, avoiding the various drawbacks of using magnetic attraction.
[0025] Reference Figure 1-4As shown in this embodiment: the surface of the base 1 is provided with a limiting device 3 for restricting the position of the steel pipe body on the surface of the belt conveyor 202. The limiting device 3 includes two vertical plates 31 fixedly installed on the surface of the base 1 and sleeves 32 fitted to their surfaces. A push rod 33 is slidably connected inside the sleeve 32. A limiting plate 34 is fixedly installed at the end of the push rod 33 away from the sleeve 32. The limiting device 3 also includes an L-shaped base 35 fixedly installed on the surface of the base 1. The inner wall surface of the vertical end of the L-shaped base 35 is provided with a vertical groove 36 and... The device is equipped with a sliding T-shaped plate 37. The T-shaped plate 37 and the two limiting plates 34 are hinged together by a hinge plate 38. A cylinder 39 is fixedly installed on the surface of the bottom horizontal end of the L-shaped base 35. The cylinder 39 drives the T-shaped plate 37 to move inside the vertical groove 36. The setting of the limiting plate 34 has the effect of limiting the steel pipe body on the surface of the belt conveyor 202. The setting of the hinge plate 38 has the effect of driving the limiting plate 34 to move. The setting of the cylinder 39 has the effect of driving the T-shaped plate 37 to move inside the vertical groove 36.
[0026] Working principle: When the device is needed, the steel pipe is first placed on the surface of the belt conveyor 202, and then the belt conveyor 202 is started to transport the steel pipe. When the steel pipe moves to the bracket 205, the electric telescopic rod 211 is activated. The electric telescopic rod 211 drives the vertical plate 207 to move inside the slide chute 206. The movement of the vertical plate 207 inside the slide chute 206 drives the rack 208 to move. The rack 208 moves and meshes with the gear 209, which in turn causes the gear 209 to rotate. The rotation of the gear 209 drives the rotating shaft 204 to rotate, which in turn drives the bracket 205 to rotate. The rotation of the bracket 205 flips the steel pipe, causing it to fall into the temporary storage box 4, completing the steel pipe stacking operation. This avoids the various drawbacks of using magnetic attraction. When it is necessary to restrict the movement of the steel pipe on the belt... When the steel pipe body is positioned on the surface of the belt conveyor 202, the cylinder 39 is first activated. The activation of the cylinder 39 drives the T-shaped plate 37 to move inside the vertical groove 36. The movement of the T-shaped plate 37 inside the vertical groove 36 drives the hinge plate 38 to move. The movement of the hinge plate 38 drives the two limiting plates 34 to move closer to each other. The movement of the two limiting plates 34 towards each other causes the push rod 33 to move outward from inside the sleeve 32. At the same time, the movement of the two limiting plates 34 towards each other can restrict the position of the steel pipe body on the surface of the belt conveyor 202. When the two limiting plates 34 move to the appropriate position, the cylinder 39 is deactivated. Through the cooperation of the above structure, the two limiting plates 34 can restrict the position of the steel pipe body on the surface of the belt conveyor 202, thereby preventing the steel pipe body from falling off the surface of the belt conveyor 202 and improving the stability of the transmission.
[0027] The above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model in any other way. Any person skilled in the art may use the disclosed technical content to make changes or modifications to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of this utility model, without departing from the scope of the utility model's technical solution, still fall within the protection scope of this utility model's technical solution. In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. For those skilled in the art, the specific meaning of the above terms in this utility model can be understood through specific circumstances.
Claims
1. A belt conveyor for a code tube device, comprising a base (1), wherein a temporary storage box (4) is placed on the surface of the base (1), characterized in that: The surface of the base (1) is provided with an auxiliary device (2) for transporting and stacking the steel pipe body.
2. A belt conveyor for a piling apparatus according to claim 1, characterized in that: The auxiliary device (2) includes two support frames (201) fixedly installed on the surface of the base (1) and a belt conveyor (202) assembled between the two.
3. A belt conveyor for a piling apparatus according to claim 2, characterised in that: The auxiliary device (2) also includes a vertical plate (203) fixedly installed on the surface of the base (1) and a rotating shaft (204) rotatably connected to its surface. A bracket (205) is fixedly installed at one end of the rotating shaft (204).
4. A belt conveyor for a piling apparatus according to claim 3, characterised in that: The auxiliary device (2) also includes a groove (206) formed on the surface of the base (1) and a vertical strip plate (207) that slides inside it. A rack (208) is fixedly installed at one end of the vertical strip plate (207) away from the groove (206). A gear (209) is fixedly installed on the outer wall surface of the rotating shaft (204). The gear (209) and the rack (208) mesh with each other.
5. A belt conveyor for a piling apparatus according to claim 4, characterised in that: The auxiliary device (2) also includes a support plate (210) fixedly installed on the surface of the base (1) and an electric telescopic rod (211) fitted on its surface. The electric telescopic rod (211) drives the vertical plate (207) to move inside the slide groove (206).
6. A belt conveyor for a piling apparatus according to claim 5, characterised in that: The base (1) is provided with a limiting device (3) for limiting the position of the steel pipe body on the surface of the belt conveyor (202). The limiting device (3) includes two vertical plates (31) fixedly installed on the surface of the base (1) and a sleeve (32) fitted on its surface. A top rod (33) is slidably connected inside the sleeve (32). A limiting plate (34) is fixedly installed at the end of the top rod (33) away from the sleeve (32).
7. A belt conveyor for a piling apparatus according to claim 6, characterised in that: The limiting device (3) also includes an L-shaped base (35) fixedly installed on the surface of the base (1). The inner wall surface of the vertical end of the L-shaped base (35) is provided with a vertical groove (36) and a sliding T-shaped plate (37) inside it. The T-shaped plate (37) and the two limiting plates (34) are hinged together by a hinge plate (38).
8. A belt conveyor for a piling apparatus according to claim 7, characterised in that: A cylinder (39) is fixedly installed on the surface of the bottom horizontal end of the L-shaped base (35), and the cylinder (39) drives the T-shaped plate (37) to move inside the vertical groove (36).