A device for feeding and collecting compression springs.
By designing a feeding and collecting device for compression springs, and utilizing a receiving and collecting mechanism, the automated transfer and uniform distribution of springs were achieved, solving the problem of manual packing and improving the applicability and space utilization of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- KUNSHAN LICHUANG PRECISION SPRING CO LTD
- Filing Date
- 2025-05-29
- Publication Date
- 2026-06-30
Smart Images

Figure CN224429385U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of spring production and processing technology, and in particular relates to a material feeding and collection device for compression springs. Background Technology
[0002] In spring manufacturing, for some springs, especially long springs, a receiving structure is usually set at the spring generation end of the spring machine to ensure that the long springs will not deform during the production process. For example, the utility model patent with publication number CN216176250U discloses the relevant content. In this patent, the long spring is received by a receiving groove, so that the long spring will not easily deform during the generation process.
[0003] The above methods can be used to produce long springs, but the packaging of the produced springs is usually done manually, which increases labor costs. Utility Model Content
[0004] The purpose of this invention is to provide a device for feeding and collecting compression springs to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, the present invention adopts a technical solution as follows: a compression spring feeding and collecting device, comprising a spring machine, a receiving mechanism and a collecting mechanism, wherein the receiving mechanism comprises a support, a receiving groove and a flipping drive assembly, the receiving groove having an opening at the top, and the flipping drive assembly being mounted on the support and capable of controlling the receiving groove to flip so that the springs on it fall off along the opening at the top.
[0006] The receiving mechanism is located below the receiving trough. The receiving mechanism includes a linear moving platform and a receiving box. The linear moving platform drives the receiving box to move so that the springs inside the receiving box can be evenly distributed.
[0007] Preferably, the receiving mechanism further includes an inclined feeding slide, which is mounted on a bracket. Limiting guards are provided on both sides of the feeding slide, and a baffle is provided at the lowest edge of the feeding slide. A feeding port is provided on the feeding slide, and the baffle forms one side of the feeding port. The feeding port is located above the receiving box.
[0008] Preferably, a width adjustment plate is provided at the discharge port to adjust the width of the discharge port.
[0009] Preferably, the support is provided with a lifting component, the output end of which is used to control the lifting of the end of the receiving trough away from the spring machine, and the end of the receiving trough near the output end of the spring machine is movably connected to the support.
[0010] Preferably, the linear moving platform includes a slide rail, a slider, a lead screw assembly, a connecting block, and a motor. The slider slides on the slide rail, the connecting block slides on the lead screw assembly, and a placement seat is fixed together on the slider and the connecting block. The receiving box is placed on the placement seat.
[0011] Preferably, a positioning baffle is installed on the placement seat, and the receiving box is positioned by abutting the positioning baffle.
[0012] Preferably, the receiving box has several parallel partitions vertically arranged inside, and the spring falls into the space formed by the receiving box and the partitions.
[0013] The beneficial effects of this utility model are as follows: By setting up a receiving mechanism and a receiving mechanism, the springs generated by the spring machine are stably generated on the receiving groove, and then fall into the receiving box under the action of the flipping drive component, realizing the centralized transfer and processing of the springs. At the same time, through the action of the linear moving platform, the falling springs can fall evenly into the receiving box, effectively ensuring the space utilization rate of the receiving box.
[0014] Among them, by setting up a feeding slide, the trajectory of the spring entering the receiving box can be effectively ensured. At the same time, by setting up an adjustable feeding port width, this product can be used for springs of various diameters and lengths.
[0015] By setting up several parallel baffles, the springs can be stacked more neatly, further enhancing the space utilization of the receiving box. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the structure of this utility model;
[0017] Figure 2 This is a schematic diagram of the material receiving mechanism and the material collecting mechanism of this utility model;
[0018] Figure 3 This is a diagram of the material feeding chute of this utility model;
[0019] Figure 4 This is a drawing of the receiving box in this utility model;
[0020] In the diagram: 1. Spring machine; 2. Receiving mechanism; 21. Support; 22. Receiving trough; 23. Lifting assembly; 24. Tilting drive assembly; 25. Discharge slide; 251. Limiting guard; 252. Side guard; 253. Discharge port; 254. Connecting block; 255. Width adjustment plate; 256. Connecting bolt; 26. Movable groove; 3. Receiving mechanism; 31. Slide rail; 32. Screw assembly; 33. Motor; 34. Placement seat; 35. Positioning baffle; 36. Receiving box; 361. Partition. Detailed Implementation
[0021] The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, thereby making a clearer and more definite definition of the scope of protection of the present invention. Example
[0022] See Figure 1 A compression spring feeding and collecting device includes a spring machine 1, a receiving mechanism 2 and a collecting mechanism 3. The receiving mechanism 2 includes a bracket 21, a receiving groove 22 and a flipping drive assembly 24. The receiving groove 22 has an opening at the top. The flipping drive assembly 24 is mounted on the bracket 21 and can control the receiving groove 22 to flip so that the springs on it fall off along the opening at the top. The flipping drive assembly 24 can be a rotary cylinder.
[0023] The receiving mechanism 3 is located below the receiving trough 22. The receiving mechanism 3 includes a linear moving platform and a receiving box 36. The linear moving platform drives the receiving box 36 to move so that the springs in the receiving box 36 can be evenly distributed.
[0024] Among them, see Figure 2 A lifting assembly 23 is provided on the bracket 21. The output end of the lifting assembly 23 is used to control the lifting of the end of the receiving trough 22 away from the spring machine 1. The end of the receiving trough 22 near the output end of the spring machine 1 is movably connected to the bracket 21. Specifically, the lifting assembly 23 can be a cylinder, which is installed on the bracket 21 and one end is movably connected to a movable groove 26. The end of the receiving trough 22 near the output end of the spring machine 1 can be movably connected to the bracket 21 through a universal joint.
[0025] Among them, see Figure 1 , Figure 2 and Figure 3 The receiving mechanism 2 further includes an inclined feeding slide 25, which is a flat plate. The feeding slide 25 is mounted on the bracket 21. Limiting guards 251 are provided on both sides of the feeding slide 25, and a stop 252 is provided at the lowest edge of the feeding slide 25. Under the combined action of the limiting guards and the stop 252, the trajectory of the spring sliding down into the receiving box 36 can be effectively ensured. The feeding slide 25 has a feeding port 253, and the stop 252 forms one side of the feeding port 253. The feeding port 253 is located above the receiving box 36.
[0026] Among them, see Figure 3A width adjustment plate 255 is provided at the discharge port 253 to adjust the width of the discharge port 253. Specifically, a connecting block 254 is fixed at the position of the discharge slide 25 near the discharge port 253. The width adjustment plate 255 can be detachably connected to the connecting block 254 by connecting bolts 256. By using width adjustment plates 255 of different specifications, the width of the discharge port 253 can be changed.
[0027] Among them, see Figure 1 , Figure 2 The linear moving platform includes a slide rail 31, a slider, a lead screw assembly 32, a connecting block 254, and a motor 33. The slider slides on the slide rail 31, and the connecting block 254 slides on the lead screw assembly 32. A placement seat 34 is fixed on both the slider and the connecting block 254, and the receiving box 36 is placed on the placement seat 34.
[0028] The placement seat 34 is equipped with a positioning baffle 35, and the receiving box 36 is positioned by abutting the positioning baffle 35.
[0029] The receiving box 36 has several parallel partitions 361 vertically arranged inside, and the spring falls into the space formed by the receiving box 36 and the partitions 361.
[0030] Working principle and process:
[0031] In use, the lifting assembly 23 can raise the receiving trough 22 to an upward angle, which may better achieve stable spring generation. After the spring is generated and cut, the lifting assembly 23 can control the receiving trough 22 to descend to a downward angle, so that the spring can move downward along the receiving trough 22. This allows the spring to be positioned in a certain position along the tilt direction of the receiving trough 22. The purpose of this setting is that, due to the relative position between the receiving box 36 / discharge slide 25 and the spring machine 1, the spring needs to move away from the spring machine 1 so that when the receiving trough 22 is flipped, the spring can fall into the receiving box 36. It should be noted that, for this reason, a baffle should be set at the end of the receiving trough 22 away from the spring machine 1 to prevent the spring from falling off.
[0032] After the spring slides from the receiving groove 22 to the corresponding position, the rotation of the flipping drive component 24 causes the spring to fall into the unloading slide 25. The spring moves along the unloading slide 25 and enters the receiving box 36 from the unloading port 253. After the space formed by a set of partitions 361 and the receiving box 36 is filled with springs, the linear moving platform drives the receiving box 36 to move, so that the space formed by the next set of partitions 361 and the receiving box 36 is placed below the unloading port 253 of the unloading slide 25, until the receiving box 36 is full, and then the next receiving box 36 is replaced to continue the receiving process.
[0033] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural transformations made based on the description and drawings of this utility model, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.
Claims
1. A compressed spring unloading and collecting apparatus, characterized by: The device includes a spring machine (1), a receiving mechanism (2) and a receiving mechanism (3). The receiving mechanism (2) includes a bracket (21), a receiving groove (22) and a flipping drive assembly (24). The receiving groove (22) has an opening at the top. The flipping drive assembly (24) is mounted on the bracket (21) and can control the receiving groove (22) to flip so that the spring on it falls off along the opening at the top. The receiving mechanism (3) is located below the receiving trough (22). The receiving mechanism (3) includes a linear moving platform and a receiving box (36). The linear moving platform drives the receiving box (36) to move so that the springs in the receiving box (36) can be evenly distributed.
2. The compression spring feeding and collecting device according to claim 1, characterized in that: The receiving mechanism (2) further includes an inclined feeding slide (25), which is mounted on the bracket (21). Limiting guards (251) are provided on both sides of the feeding slide (25), and a baffle (252) is provided at the lowest edge of the feeding slide (25). A feeding port (253) is provided on the feeding slide (25), and the baffle (252) forms one side of the feeding port (253). The feeding port (253) is located above the receiving box (36).
3. The compression spring feeding and collecting device according to claim 2, characterized in that: A width adjustment plate (255) is provided at the discharge port (253) to adjust the width of the discharge port (253).
4. The equipment for feeding and collecting compression springs according to claim 1, characterized in that: A lifting assembly (23) is provided on the bracket (21). The output end of the lifting assembly (23) is used to control the lifting of the end of the receiving trough (22) away from the spring machine (1). The end of the receiving trough (22) near the output end of the spring machine (1) is movably connected to the bracket (21).
5. The equipment for feeding and collecting compression springs according to claim 1, characterized in that: The linear moving platform includes a slide rail (31), a slider, a lead screw assembly (32), a connecting block (254), and a motor (33). The slider slides on the slide rail (31), and the connecting block (254) slides on the lead screw assembly (32). A placement seat (34) is fixed on both the slider and the connecting block (254), and the receiving box (36) is placed on the placement seat (34).
6. The compression spring feeding and collecting device according to claim 5, characterized in that: The placement seat (34) is equipped with a positioning baffle (35), and the receiving box (36) is positioned by abutting the positioning baffle (35).
7. A device for feeding and collecting compression springs according to any one of claims 1-6, characterized in that: The receiving box (36) is vertically equipped with several parallel partitions, and the spring falls into the space formed by the receiving box (36) and the partitions (361).