Bead composite assembly trolley
By designing the optical axis and the top material mechanism, the problem of inconsistent positions of the wire rings on the trolley was solved, achieving the effect of consistent wire ring picking positions and low work intensity, and reducing the risk of deformation and falling.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO REFINE INTELLIGENT TECH CO LTD
- Filing Date
- 2025-08-20
- Publication Date
- 2026-06-26
AI Technical Summary
In existing technologies, the wire rings are prone to deformation when placed on the trolley, and the positions they are picked up are inconsistent, leading to increased workload and the problem of the wire rings falling off.
The design employs an optical axis, a top-feeding mechanism, and nylon baffles. The circular array of the optical axis and the sliding placement plate of the top-feeding mechanism ensure that the steel wire ring is consistently gripped each time. The tension spring and support structure reduce the risk of deformation and falling.
This method ensures consistent placement of the wire rings, reduces workload, minimizes the risk of deformation and falling, and improves transportation efficiency.
Smart Images

Figure CN224409337U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of wire ring transfer technology, and more specifically, to a wire ring composite trolley. Background Technology
[0002] Steel wire ring composites are functional components made by combining metal steel wire rings with other materials (such as rubber, plastic or fiber) through a specific process. They combine the strength of metal with the elasticity, sealing or wear resistance of composite materials. A steel wire ring composite trolley is a tool specifically designed to transport steel wire ring composites.
[0003] In related technologies, in order to solve the problem that the steel wire rings are easily deformed due to their small area when placed, for example, the prior art patent with publication number CN204472858U provides a steel wire ring storage trolley. This device uses a rectangular frame as the base of the trolley and provides a roller at each right angle. The steel wire rings are hung on the horizontal hanging arm, and the steel wire rings are stored without deformation and with good quality. The rectangular horizontal hanging arm makes the horizontal hanging arm more robust and less likely to be bent or deformed by the steel wire rings.
[0004] Although the existing technical solution mentioned above solves the problem of the steel wire ring not being easily deformed by using a rectangular horizontal hanging arm, when the steel wire ring is placed or picked up on the hanging wall, the gaps between several steel wire rings on the hanging wall mean that after continuously picking up the steel wire ring, each placement and grab is not in the same position. It is necessary to pull the steel wire ring to slide it out on the hanging wall, which undoubtedly increases the subsequent work intensity. Moreover, the horizontally placed steel wire ring is prone to falling off the hanging wall during the movement of the trolley.
[0005] In view of this, we propose a steel wire ring composite component trolley. Utility Model Content
[0006] The purpose of this application is to provide a steel wire ring composite trolley, which can effectively solve the problem in the prior art that the steel wire ring is not picked up in the same position each time, thus achieving the effect of consistent steel wire ring picking position and low work intensity.
[0007] This application provides a steel wire ring composite component trolley, including:
[0008] Frame;
[0009] An optical axis is fixedly connected to the top of the vehicle frame, the optical axes are arranged in a circular array, and a connecting plate is fixedly connected to the top of the optical axis;
[0010] The material feeding mechanism is slidably disposed on the outside of the optical axis;
[0011] A nylon partition, which is sleeved on the outside of several optical axes and located at the top of the top material mechanism;
[0012] The top material mechanism includes a placement plate that slides on the outer wall of the optical axis for placing and supporting multiple steel wire ring composite parts. The placement plate slides up and down on the outer wall of the optical axis under tension, and the nylon partition is located above the placement plate.
[0013] As an optional solution to the technical solution of this application, the top material mechanism further includes a tension spring installed at the bottom of the connecting plate, a base installed at the other end of the tension spring, a plurality of support blocks fixedly connected to the top of the base for supporting the placement plate, the support blocks being slidably disposed on the outside of the optical axis, a plurality of hollow square tubes fixedly connected to the top of the base, the hollow square tubes being disposed through the placement plate, a connecting frame being fixedly connected to the top of each adjacent hollow square tube, and a support rod for supporting the nylon partition being provided on the top of the hollow square tube.
[0014] As an optional solution to the technical solution of this application, the hollow square tube has movable grooves on both sides, a rotating shaft is slidably connected to the inner wall of the movable groove, a support rod is fixedly connected to the outer side of the rotating shaft, a limiting groove is opened at the top of the hollow square tube, and the support rod is horizontally arranged inside the limiting groove for supporting the nylon partition.
[0015] As an optional solution to the technical solution of this application, the top of the tension spring is fixedly connected to a mounting plate B, the top of the mounting plate B is fixedly connected to a square shaft, the square shaft is inserted into the inner wall of the connecting plate, the tension spring is through-hole in the middle of the base, the bottom of the tension spring is fixedly connected to a mounting seat, the top of the mounting seat is fixedly connected to a limiting shaft, multiple sleeves are fixedly connected to the inner side of the base, the limiting shaft is inserted into the inner side of the sleeves, and the square shaft and the connecting plate are fixedly connected by mounting bolts.
[0016] As an optional solution to the technical solution of this application, a vehicle frame is fixedly connected to the outer wall of the vehicle frame, multiple transfer wheels are rotatably mounted on the bottom of the vehicle frame, a grip frame is fixedly connected to the side wall of the vehicle frame, and protective pads are fixedly connected to the corners of the vehicle frame.
[0017] As an optional solution to the technical solution in this application, the top of the vehicle frame is provided with two workstations, and each of the two workstations is provided with an optical shaft and a material feeding mechanism.
[0018] As an optional solution to the technical solution of this application, the top of the vehicle frame and the vehicle frame is fixedly connected to a mounting plate A, the mounting plate A is located between two workstations, the top of the vehicle frame is fixedly connected to two limiting rods, the top of the mounting plate A is fixedly connected to a placement platform, the top of the placement platform is a sloping structure, and the top of the placement platform is fixedly connected to a placement rod for storing and placing nylon partitions.
[0019] As an optional solution to the technical solution in this application, rubber pads are provided at the top of the tension spring and the bottom of the base.
[0020] One or more technical solutions provided in the embodiments of this application have at least the following technical effects or advantages:
[0021] (1) Since the application adopts the top material mechanism, the placed or grabbed goods can be kept at almost the same height, so that the subsequent personnel can pick up and put down the goods. This solves the problem that the steel wire ring is not picked up in the same position each time, and achieves the effect of consistent steel wire ring picking position and low work intensity. Under the action of unfolding nylon partition, the problem of deformation and damage caused by a large number of steel wire rings placed around the optical axis and the large load on the bottom end can be reduced.
[0022] (2) By using a limiting shaft inserted into the inner wall of the sleeve, this application allows for disassembly using only the separation bolts, reducing the problem of decreased elasticity of the tension spring after long-term use, which would affect the subsequent lifting of the wire ring. Attached Figure Description
[0023] Figure 1 This is a schematic diagram of the overall structure of the wire ring composite trolley disclosed in a preferred embodiment of this application;
[0024] Figure 2 This is a schematic diagram of the optical axis structure of the wire ring composite trolley disclosed in a preferred embodiment of this application;
[0025] Figure 3 for Figure 2 Enlarged view of point A;
[0026] Figure 4 This is a schematic diagram of the hollow square tube structure of the steel wire ring composite trolley disclosed in a preferred embodiment of this application;
[0027] Figure 5 This is a schematic diagram of the tension spring structure of the wire ring composite trolley disclosed in a preferred embodiment of this application;
[0028] Figure 6 This is a schematic diagram of the placement platform structure of the wire ring composite trolley disclosed in a preferred embodiment of this application;
[0029] The following are the labels in the diagram: 1. Chassis; 11. Chassis frame; 12. Transfer wheel; 13. Grip frame; 14. Protective pad; 15. Mounting plate A; 16. Limiting rod; 17. Placement platform; 18. Placement rod; 2. Optical shaft; 21. Connecting plate; 3. Top material mechanism; 31. Placement plate; 32. Tension spring; 321. Mounting plate B; 322. Square shaft; 323. Mounting seat; 324. Limiting shaft; 325. Mounting bolt; 33. Base; 34. Support block; 35. Hollow square tube; 36. Connecting frame; 37. Movable groove; 38. Sleeve; 4. Nylon partition; 41. Rotating shaft; 42. Support rod. Detailed Implementation
[0030] The present application will be further described in detail below with reference to the accompanying drawings.
[0031] Reference Figure 1 , Figure 2 , Figure 3 and Figure 6 This application discloses a steel wire coil composite trolley, comprising a frame 1, optical shafts 2, a top-loading mechanism 3, and nylon partitions 4. The optical shafts 2 are fixedly connected to the top of the frame 1 and arranged in a circular array. A connecting plate 21 is fixedly connected to the top of each optical shaft 2. The top-loading mechanism 3 is slidably disposed outside the optical shafts 2. The nylon partitions 4 are sleeved on the outer sides of several optical shafts 2 and located on top of the top-loading mechanism 3. The top-loading mechanism 3 includes a placement plate 31 that slides on the outer wall of the optical shafts 2 for supporting and placing multiple steel wire coil composites. The placement plate 31 slides up and down on the outer wall of the optical shafts 2 under tension. The nylon partitions 4 are located above the placement plate 31. A connecting plate 21 is fixedly connected to the outer wall of the frame 1. The frame 11 has multiple transfer wheels 12 at its bottom, a grip frame 13 fixed to its side wall, and protective pads 14 fixed to its corners. The top of the frame 1 has two workstations, and each workstation is equipped with an optical shaft 2 and a top material mechanism 3. The top of the frame 1 and the frame 11 are fixed with a mounting plate A15, which is located between the two workstations. The top of the frame 1 has two limiting rods 16, and the top of the mounting plate A15 has a placement platform 17. The top of the placement platform 17 has a sloping structure, and the top of the placement platform 17 has a placement rod 18 for storing and placing nylon partitions 4.
[0032] The gripping frame 13 needs to be pushed to move the frame 11 to the area for mounting wire rings. Multiple wire rings can then be sequentially placed on top of the placement plate 31 via multiple optical shafts 2. Under tension, the placement plate 31 maintains a relatively constant height during each placement and gripping of the wire ring composite until a certain load is reached. At this point, the operator can open the support within the top-loading mechanism 3 and remove a nylon partition 4 from the top of the placement table 17. This partition is then placed on the optical shaft 2 and lifted by the support. Wire rings can then be stacked onto the nylon partition 4. When the frame 1 is pushed forward, the protective pads 14 at the corners of the frame 11 will contact obstacles before they are reached. This step, combined with the elastic placement plate 31, ensures that the wire rings placed on the placement plate 31... When there are goods, the placed or grabbed goods can be kept at almost the same height to facilitate subsequent handling and placement by personnel. At the same time, it can avoid the phenomenon of steel wire rings falling when placed horizontally, and solve the problem of steel wire rings not being grabbed in the same position each time. It achieves the effect of consistent steel wire ring retrieval position and low work intensity. With the help of unfolding nylon partition 4, the problem of deformation and damage caused by a large number of steel wire rings placed around the optical axis 2 and the large load on the bottom can be reduced. The placement platform 17 can support multiple unused nylon partitions 4, reducing the problem of multiple nylon partitions 4 being placed separately and difficult to retrieve and use immediately. Two sets of optical axes 2 are set up to increase the storage capacity of steel wire rings through dual workstations. With the help of soft protective pad 14, the problem of bump damage to the edge of the frame 11 can be reduced.
[0033] Reference Figures 1-6 Based on the above embodiments, in order to enable the placement plate 31 to slide on the outer wall of the optical axis 2 to achieve the effect of lifting different numbers of wire rings, the lifting mechanism 3 specifically includes a tension spring 32 installed at the bottom of the connecting plate 21. The other end of the tension spring 32 is equipped with a base 33. Multiple support blocks 34 are fixedly connected to the top of the base 33 to support the placement plate 31. The support blocks 34 are slidably arranged on the outside of the optical axis 2. Multiple hollow square tubes 35 are fixedly connected to the top of the base 33. The hollow square tubes 35 are through the placement plate 31. A connecting frame 36 is fixedly connected to the top of each adjacent hollow square tube 35. A support rod 42 for supporting the nylon partition 4 is provided on the top of the hollow square tube 35.
[0034] When the placement plate 31 moves downwards under the influence of the top gravity, the length of the tension spring 32 can be changed. The support block 34 and the support block 35 can support and limit the working position of the placement plate 31. According to the weight on the top of the placement plate 31, the extension length of the tension spring 32 can be changed. At the same time, when the base 33 moves, the multiple hollow square tubes 35 and the connecting frame 36 can move synchronously. When the steel wire ring decreases, the placement plate 31 can be lifted upwards under the action of the tension spring 32. The nylon partition 4 can be placed and fixed by the unfolded support rod 42. This step, under the action of the elastic tension spring 32, can complete the adjustment and change of the position of the top steel wire ring, so as to make it easier for the staff to pick up the steel wire ring later.
[0035] Reference Figure 2 , Figure 3 and Figure 4 Hollow square tube 35 has movable grooves 37 on both sides. A rotating shaft 41 is slidably connected to the inner wall of the movable groove 37. A support rod 42 is fixed to the outer side of the rotating shaft 41. A limiting groove is opened at the top of the hollow square tube 35. The support rod 42 is horizontally set inside the limiting groove to support the nylon partition 4. When the nylon partition 4 needs to be placed, the worker can pull the support rod 42 out from the inner wall of the hollow square tube 35 in sequence. At the same time, the rotating shaft 41 can slide in the inner wall of the movable groove 37 until the support rod 42 is adjusted to the limiting groove and perpendicular to the hollow square tube 35. Then the nylon partition 4 can be sleeved on the outer wall. This step, together with the unfolded nylon partition 4, can complete the support of the nylon partition 4, so that the steel wire ring stored on the nylon partition 4 can transfer the force to the hollow square tube 35, avoiding the problem of the steel wire ring at the bottom of the placement plate 31 being squeezed, damaged or deformed.
[0036] Reference Figure 3 and Figure 5 A mounting plate B321 is fixedly connected to the top of the tension spring 32, and a square shaft 322 is fixedly connected to the top of the mounting plate B321. The square shaft 322 is inserted into the inner wall of the connecting plate 21. The tension spring 32 is through the middle of the base 33. A mounting seat 323 is fixedly connected to the bottom of the tension spring 32. A limiting shaft 324 is fixedly connected to the top of the mounting seat 323. Multiple sleeves 38 are fixedly connected to the inner side of the base 33. The limiting shaft 324 is inserted into the inner side of the sleeves 38. The square shaft 322 is fixed to the connecting plate 21 by mounting bolts 325.
[0037] When the tension spring 32 needs to be replaced, the base 33 must first be lifted to reset the tension spring 32. Then, the operator can use tools to separate the mounting bolt 325 from the square shaft 322. Under the action of gravity, the tension spring 32 will move downwards, and the bottom mounting seat 323 and the limiting shaft 324 of the tension spring 32 will be disengaged from the sleeve 38. After removing the tension spring 32, it can be replaced. When installing the new tension spring 32, the square shaft 322 at the top of the tension spring 32 needs to be inserted into the inner wall of the connecting plate 21, and the connecting plate 21 and the square shaft 322 can be fixed again with the mounting bolt 325. This step, together with the limiting shaft 324 inserted into the inner wall of the sleeve 38, allows for disassembly by simply separating the mounting bolt 325, reducing the problem of decreased elasticity of the tension spring 32 after long-term use, which could affect the subsequent lifting of the wire ring.
[0038] In summary, when using the wire ring composite trolley disclosed in this application, it is necessary to push the gripping frame 13 and transfer the trolley frame 11 to the wire ring loading area. Then, multiple wire rings can be placed sequentially on the top of the placement plate 31 through multiple optical axes 2. Under the action of tension, the placement plate 31 can keep the wire ring composite at a basically constant height during each placement and gripping until the load on the placement plate 31 reaches a certain amount. At this time, the operator can open the support in the top material mechanism 3 and remove the trolley from the placement plate. 17. A nylon partition 4 is removed from the top and fitted onto the optical axis 2. It is then lifted by the support member. Steel wire rings can then be stacked onto the nylon partition 4. When the frame 1 is pushed forward, the protective pads 14 at the corners of the frame 11, after approaching an obstacle, will make contact with the obstacle before it. When the placement plate 31 moves downwards under the influence of the top gravity, the length of the tension spring 32 can be changed. The support block 34 and the support block 35 can then support and limit the working position of the placement plate 31. Based on the placement plate 31... The weight at the top can change the extension length of the tension spring 32. Simultaneously, when the base 33 moves, the multiple hollow square tubes 35 and the connecting frame 36 can move synchronously. When the steel wire ring decreases, the tension spring 32 resets, allowing the placement plate 31 to be lifted upwards. The nylon partition 4 can then be placed and fixed by the unfolded support rod 42. To place the nylon partition 4, the operator can sequentially pull the support rod 42 out from the inner wall of the hollow square tube 35. Simultaneously, the rotating shaft 41 can slide along the inner wall of the movable groove 37 until the support rod 42 is adjusted into the limiting groove and perpendicular to the hollow square tube 35. Afterwards, the nylon partition 4 can be fitted onto... When replacing the tension spring 32, the base 33 must be lifted to reset the tension spring 32. Then, the operator can use tools to separate the mounting bolt 325 from the square shaft 322. Under the influence of gravity, the tension spring 32 will move downwards, and the mounting base 323 and 234 at the bottom of the tension spring 32 will be disengaged from the sleeve 38. After removing the tension spring 32, it can be replaced. When installing the new tension spring 32, the square shaft 322 at the top of the tension spring 32 needs to be inserted into the inner wall of the connecting plate 21, and the connecting plate 21 and the square shaft 322 can be fixed again with the mounting bolt 325.
Claims
1. A steel wire ring composite component trolley, characterized in that, Include: Frame (1); Optical axis (2), the optical axis (2) is fixed to the top of the frame (1), the optical axis (2) is arranged in a ring array, and a connecting plate (21) is fixed to the top of the optical axis (2). The top material mechanism (3) is slidably disposed on the outside of the optical axis (2); Nylon partition (4), the nylon partition (4) is sleeved on the outside of several optical axes (2) and located on top of the top material mechanism (3); The top material mechanism (3) includes a placement plate (31) that slides on the outer wall of the optical axis (2) for placing and supporting multiple steel wire ring composite parts. The placement plate (31) slides up and down on the outer wall of the optical axis (2) under the action of tension. The nylon partition (4) is located above the placement plate (31).
2. The steel wire ring composite trolley according to claim 1, characterized in that: The top material mechanism (3) also includes a tension spring (32) installed at the bottom of the connecting plate (21). The other end of the tension spring (32) is equipped with a base (33). The top of the base (33) is fixed with a plurality of support blocks (34) for supporting the placement plate (31). The support blocks (34) are slidably arranged on the outside of the optical axis (2). The top of the base (33) is fixed with a plurality of hollow square tubes (35). The hollow square tubes (35) are connected through the placement plate (31). The top of each adjacent hollow square tube (35) is fixed with a connecting frame (36). The top of the hollow square tube (35) is provided with a support rod (42) for supporting the nylon partition (4).
3. The steel wire ring composite trolley according to claim 2, characterized in that: The hollow square tube (35) has movable grooves (37) on both sides. A rotating shaft (41) is slidably connected to the inner wall of the movable groove (37). A support rod (42) is fixed to the outer side of the rotating shaft (41). A limiting groove is opened at the top of the hollow square tube (35). The support rod (42) is horizontally set inside the limiting groove to support the nylon partition (4).
4. The steel wire ring composite trolley according to claim 2, characterized in that: The top of the tension spring (32) is fixedly connected to the mounting plate B (321), and the top of the mounting plate B (321) is fixedly connected to the square shaft (322). The square shaft (322) is inserted into the inner wall of the connecting plate (21). The tension spring (32) is through-hole in the middle of the base (33). The bottom of the tension spring (32) is fixedly connected to the mounting seat (323). The top of the mounting seat (323) is fixedly connected to the limiting shaft (324). Multiple sleeves (38) are fixedly connected to the inner side of the base (33). The limiting shaft (324) is inserted into the inner side of the sleeve (38). The square shaft (322) and the connecting plate (21) are fixedly connected by mounting bolts (325).
5. The steel wire ring composite trolley according to claim 1, characterized in that: The outer wall of the frame (1) is fixed with a frame (11), the bottom of the frame (11) has multiple transfer wheels (12) that rotate, the side wall of the frame (11) is fixed with a grip frame (13), and the corners of the frame (11) are all fixed with protective pads (14).
6. The steel wire ring composite trolley according to claim 5, characterized in that: The top of the frame (1) is provided with two workstations, and the top of the frame (1) is provided with an optical axis (2) and a top material mechanism (3) for each of the two workstations.
7. The steel wire ring composite trolley according to claim 6, characterized in that: Mounting plate A (15) is fixedly connected to the top of the frame (1) and the frame (11). Mounting plate A (15) is located between two workstations. Two limiting rods (16) are fixedly connected to the top of the frame (1). A placement platform (17) is fixedly connected to the top of the mounting plate A (15). The top of the placement platform (17) is a sloping structure. A placement rod (18) is fixedly connected to the top of the placement platform (17) for storing and placing nylon partitions (4).