A surface mount inductor storage device to prevent detachment
By designing a storage device for surface-mount inductors to prevent them from falling off, and utilizing the cooperation of a pusher and a spring, the problem of surface-mount inductors falling off during the handling process is solved, thus improving both safety and convenience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BAOKANG MINXING ELECTRONICS CO LTD
- Filing Date
- 2025-09-08
- Publication Date
- 2026-06-30
AI Technical Summary
Existing surface mount inductor storage devices are prone to causing stacked surface mount inductors to accidentally fall off and be damaged during retrieval.
A surface mount inductor storage device to prevent detachment is designed, including components such as a storage box, a support plate, a storage drawer, a second partition, a pusher, and a spring. Through the cooperation of the pusher and the spring, the surface mount inductor can be stably stored and easily retrieved.
This improves the safety and convenience of storing and retrieving surface mount inductors, reduces the chance of accidental detachment and damage, and ensures operational stability and ease of use.
Smart Images

Figure CN224428264U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of surface mount inductors, and more particularly to a surface mount inductor storage device to prevent it from falling off. Background Technology
[0002] Surface mount inductors are small inductive components packaged using surface mount technology. Their main functions include energy storage, filtering, interference suppression, and electromagnetic shielding. They are often used in conjunction with surface mount capacitors and resistors. Surface mount inductors have advantages such as small size, light weight, and high automated placement efficiency, while also possessing high operating frequencies and good electrical performance. During the manufacturing process, finished surface mount inductors are typically stored in a surface mount inductor storage device.
[0003] In related technologies, after surface mount inductors are processed, they are mainly stored inside storage devices. Existing surface mount inductor storage devices are usually made of anti-static materials and have a multi-layer partition structure. Operators can place different models of surface mount inductors on different layers to prevent confusion between different models and facilitate the operation of operators to retrieve them.
[0004] However, surface mount inductors are usually small in size and may be stacked on shelves during storage. This can cause them to fall off accidentally during handling, potentially damaging them and hindering their use.
[0005] Therefore, it is necessary to provide a surface mount inductor storage device to prevent it from falling off in order to solve the above problems. Utility Model Content
[0006] To address the technical problem that stacked surface mount inductors may accidentally fall off and be damaged during the handling process, this invention provides a surface mount inductor storage device to prevent them from falling off.
[0007] This utility model provides a surface mount inductor storage device to prevent detachment, comprising: a storage box, multiple support plates uniformly and fixedly connected to the inner wall of the storage box, multiple storage drawers uniformly and movably connected inside the storage box, the multiple storage drawers being spaced apart from the multiple support plates, a second partition plate, and a pushing member. The second partition plate is provided in multiple quantities and is uniformly and fixedly connected to the inner wall of the storage drawer. Multiple pushing members are provided and are uniformly and movably connected inside the storage drawer, spaced apart from the multiple second partition plates. Both ends of the pushing member slide through the storage drawer and are slidably connected to the inner wall of the storage box. Multiple springs are provided, the upper end of each spring correspondingly and elastically connected to the lower surface of each pushing member, and the lower end of the spring elastically connected to the bottom of the inner wall of the storage drawer.
[0008] Preferably, the storage box includes a rectangular box body, the outer wall of the support plate is fixedly connected to the inner wall of the rectangular box body, multiple S-shaped guide grooves are symmetrically opened on both sides of the inner wall of the rectangular box body, multiple straight guide grooves are symmetrically opened on both sides of the inner wall of the rectangular box body, each S-shaped guide groove is connected to each straight guide groove, and the end of the pusher is located inside the S-shaped guide groove and the straight guide groove.
[0009] Preferably, the storage drawer includes a rectangular drawer, the outer wall of the second partition is fixedly connected to the inner wall of the rectangular drawer, the rectangular drawer is located inside the rectangular box, and multiple slides are symmetrically opened on both sides of the rectangular drawer, with the two ends of the pusher passing through the symmetrically arranged slides respectively.
[0010] Preferably, the pusher includes a rectangular plate located inside the rectangular drawer. The upper end of the spring is elastically connected to the lower surface of the rectangular plate. Sliders are symmetrically fixedly connected to both ends of the rectangular plate. Each slider is located inside each slide groove. A roller is rotatably connected to the end of the slider away from the rectangular drawer. The roller is located inside the S-shaped guide groove and the straight guide groove.
[0011] Preferably, a plurality of female magnetic plates are uniformly fixedly connected to one side of the inner wall of the rectangular box, and a male magnetic plate is fixedly connected to one side of the rectangular drawer. One side of the male magnetic plate is magnetically connected to one side of the female magnetic plate.
[0012] Preferably, the rectangular drawer has a pull groove on the side away from the magnetic closure.
[0013] Compared with related technologies, the surface mount inductor storage device for preventing detachment provided by this utility model has the following beneficial effects:
[0014] 1. This anti-detachment surface mount inductor storage device improves the safety and convenience of surface mount inductor storage and retrieval: different storage drawers can hold different models of surface mount inductors, and multiple second dividers can divide the space inside the storage drawers, making the storage of surface mount inductors more organized. When placing the surface mount inductors, they can be placed on the pusher. When the operator pushes or pulls the storage drawer, the pusher can be adjusted up and down under the limit of the storage box. When the storage drawer is pulled outward, the pusher can be adjusted upward under the limit of the storage box. When the pusher is pulled out of the storage box, the spring can keep the pusher in an upward state, so that the placed surface mount inductors can be moved to the top of the storage drawer, making it easier for the operator to retrieve the surface mount inductors. This improves the safety and convenience of surface mount inductor storage and retrieval, and can minimize the possibility of surface mount inductors accidentally falling off during the retrieval process, thus reducing the probability of damage to the surface mount inductors.
[0015] 2. The surface mount inductor storage device for preventing detachment features a rectangular housing that restricts the installation position of the support plate. The S-shaped guide groove cooperates with the straight guide groove to guide the movement of the pusher. The end of the S-shaped guide groove near the outside of the rectangular housing is higher than the end near the straight guide groove, so that when the pusher moves into the rectangular housing, it can move down inside the storage drawer to facilitate adjustment of the surface mount inductor position. The rectangular drawer restricts the installation position of the second partition plate, and the slide groove restricts the installation and movement position of the pusher end. Under the elastic force of the spring, when the pusher moves into the rectangular housing, the end of the pusher can align with the groove of the S-shaped guide groove.
[0016] 3. This anti-detachment surface mount inductor storage device features a rectangular plate for placing surface mount inductors. The slider and groove work together to restrict the movement of the rectangular plate. When the rectangular plate moves into the rectangular housing, the rollers can move within the S-shaped guide groove and the straight guide groove, thereby adjusting the movement of the rectangular plate. When the rectangular drawer is pushed into the rectangular housing, the female magnetic chuck and the female magnetic chuck are magnetically connected, thereby improving the stability of the rectangular drawer. The operator can easily push and pull the rectangular drawer using the pull groove. Attached Figure Description
[0017] Figure 1 A schematic diagram of the overall structure of this utility model;
[0018] Figure 2 This is a cross-sectional structural schematic diagram provided for this utility model;
[0019] Figure 3 A schematic diagram of the storage drawer structure provided by this utility model;
[0020] Figure 4 A schematic diagram of the pushing component structure provided by this utility model;
[0021] Figure 5 A schematic diagram of the storage box structure provided by this utility model.
[0022] The following are the labels in the diagram: 1. Storage box; 101. Rectangular box body; 102. S-shaped guide groove; 103. Straight guide groove; 2. Support plate; 3. Storage drawer; 301. Rectangular drawer; 302. Slide groove; 4. Second divider; 5. Pushing component; 501. Rectangular plate; 502. Slider; 503. Roller; 6. Spring; 7. Female magnetic clasp; 8. Female magnetic clasp; 9. Pull groove. Detailed Implementation
[0023] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0024] Please refer to the following: Figures 1 to 5A surface mount inductor storage device for preventing detachment includes: a storage box 1, with multiple support plates 2 uniformly fixedly connected to the inner wall of the storage box 1, multiple storage drawers 3 uniformly movably connected inside the storage box 1, the multiple storage drawers 3 being spaced apart from the multiple support plates 2, a second partition plate 4, and a pusher 5. Multiple second partition plates 4 are provided, uniformly fixedly installed on the inner wall of the storage drawers 3, multiple pushers 5 are provided, uniformly movably installed inside the storage drawers 3, the multiple pushers 5 being spaced apart from the multiple second partition plates 4, both ends of the pushers 5 penetrating the storage drawers 3 and slidably connected to the inner wall of the storage box 1, and multiple springs 6, the upper end of each spring 6 correspondingly elastically connected to the lower surface of each pusher 5, and the lower end of the spring 6 elastically connected to the bottom of the inner wall of the storage drawers 3.
[0025] In the specific implementation process, the surface mount inductor storage device that prevents detachment uses multiple support plates 2 to divide the internal space of the storage box 1, facilitating the placement of multiple storage drawers 3. Each storage drawer 3 is used to store surface mount inductors, and different models of surface mount inductors can be placed in different drawers. Furthermore, multiple second partition plates 4 are evenly fixedly installed inside the storage drawers 3, dividing the internal space and making it easier for operators to place the surface mount inductors neatly. Pushing members 5 are evenly arranged inside the storage drawers 3, spaced apart from the second partition plates 4. When placing surface mount inductors, they can be directly placed on the pushing members 5, with both ends of the pushing members 5 slidingly connected to the inner wall of the storage box 1 through the storage drawer 3. A spring 6 is elastically installed between the lower surface of the pushing member 5 and the bottom of the inner wall of the storage drawer 3, allowing the inductor to be pushed by the operator. When the storage drawer 3 is moved, it moves inward into the storage box 1. Under the limit of the storage box 1, the pusher 5 can be adjusted to move downward. The downward movement of the pusher 5 moves the surface mount inductor downward, allowing it to fully enter the storage drawer 3, thus improving the safety of the surface mount inductor. When the storage drawer 3 moves outward from the storage box 1, the pusher 5 can be adjusted to move upward under the limit of the storage box 1. When the pusher 5 is pulled out of the storage box 1, the spring 6 keeps the pusher 5 in an upward state. The upward movement of the pusher 5 moves the surface mount inductor upward, allowing its top to move above the storage drawer 3, making it easier for operators to retrieve the surface mount inductor. This improves the safety and convenience of storing and retrieving the surface mount inductor, minimizing the risk of accidental detachment during retrieval and reducing the probability of damage. This makes the application more practical.
[0026] See Figure 1, Figure 2 and Figure 5 As shown, the storage box 1 includes a rectangular box body 101. The outer wall of the support plate 2 is fixedly connected to the inner wall of the rectangular box body 101. Multiple S-shaped guide grooves 102 are symmetrically opened on both sides of the inner wall of the rectangular box body 101. Multiple straight guide grooves 103 are symmetrically opened on both sides of the inner wall of the rectangular box body 101. Each S-shaped guide groove 102 is connected to each straight guide groove 103. The end of the pusher 5 is located inside the S-shaped guide groove 102 and the straight guide groove 103.
[0027] In the specific implementation process, the rectangular box 101 can restrict the installation position of the support plate 2. The S-shaped guide groove 102 and the straight guide groove 103 can cooperate to guide the movement of the pusher 5. The end of the S-shaped guide groove 102 near the outside of the rectangular box 101 is higher than the end near the straight guide groove 103, so that when the pusher 5 moves into the rectangular box 101, it can move down inside the storage drawer 3 to adjust the position of the surface mount inductor and ensure that the top of the surface mount inductor touches the upper structure.
[0028] See Figure 1 , Figure 2 and Figure 3 As shown, the storage drawer 3 includes a rectangular drawer 301. The outer wall of the second partition 4 is fixedly connected to the inner wall of the rectangular drawer 301. The rectangular drawer 301 is located inside the rectangular box 101. Multiple slides 302 are symmetrically opened on both sides of the rectangular drawer 301. The two ends of the pusher 5 pass through the symmetrically arranged slides 302 respectively.
[0029] In the specific implementation process, the rectangular drawer 301 can restrict the installation position of the second partition 4, and the symmetrically opened slide groove 302 can restrict the installation position of both ends of the pusher 5. The slide groove 302 can also restrict the movement position of the pusher 5. Under the elastic force of the spring 6, when the pusher 5 moves into the rectangular box 101, the end of the pusher 5 can be aligned with the groove of the S-shaped guide groove 102.
[0030] See Figure 3 , Figure 4 and Figure 5 As shown, the pusher 5 includes a rectangular plate 501, which is located inside the rectangular drawer 301. The upper end of the spring 6 is elastically connected to the lower surface of the rectangular plate 501. Slider 502s are symmetrically fixedly connected to both ends of the rectangular plate 501. Each slider 502 is located inside each slide groove 302. A roller 503 is rotatably connected to the end of the slider 502 away from the rectangular drawer 301. The roller 503 is located inside the S-shaped guide groove 102 and the straight guide groove 103.
[0031] In the specific implementation process, the rectangular plate 501 is used to place the surface mount inductor. The slider 502 cooperates with the slide groove 302 to restrict the movement position of the rectangular plate 501. When the rectangular plate 501 moves into the rectangular box 101, the roller 503 can move inside the S-shaped guide groove 102 and the straight guide groove 103, thereby adjusting the movement of the rectangular plate 501.
[0032] See Figure 2 As shown, a plurality of female magnetic plates 7 are uniformly fixedly connected to one side of the inner wall of the rectangular box 101, and a male magnetic plate 8 is fixedly connected to one side of the rectangular drawer 301. One side of the male magnetic plate 8 is magnetically connected to one side of the female magnetic plate 7.
[0033] In the specific implementation process, when the operator pushes the rectangular drawer 301 into the rectangular box 101, one side of the sub-magnetic plate 8 is magnetically connected to one side of the mother magnetic plate 7, thereby improving the stability of the rectangular drawer 301 and minimizing the possibility of the rectangular drawer 301 opening and closing arbitrarily.
[0034] See Figure 1 , Figure 2 and Figure 3 As shown, the rectangular drawer 301 has a pull groove 9 on the side away from the magnetic chuck 8.
[0035] In the specific implementation process, the slot 9 makes it easy for operators to push and pull the rectangular drawer 301.
[0036] The working principle of the surface mount inductor storage device for preventing detachment provided by this utility model is as follows:
[0037] When the surface mount inductor storage device that prevents detachment is in operation, the rectangular box 101 of the storage box 1 provides overall support. The support plate 2 divides the internal space of the rectangular box 101 into rectangular drawers 301 for storing multiple storage drawers 3. Different rectangular drawers 301 can store different models of surface mount inductors. The second partition plate 4 inside the rectangular drawer 301 further divides the internal space of the rectangular drawer 301 for easy and orderly placement. The rectangular plate 501 of the pusher 5 is placed inside the rectangular drawer 301 for placing surface mount inductors. The sliders 502 at both ends of the rectangular plate 501 pass through the slide grooves 302, and the rollers 503 on the sliders 502 are located at... When the rectangular drawer 301 is pushed into the S-shaped guide groove 102 and the straight guide groove 103, the roller 503 moves along the S-shaped guide groove 102 under the limit of the storage box 1, causing the rectangular plate 501 to move down, so that the surface mount inductor can be fully inserted into the rectangular drawer 301, improving safety. At this time, the sub-magnetic clasp 8 and the female magnetic clasp 7 are magnetically attracted, which can improve the stability of the rectangular drawer 301. When pulled out, the guide groove guides the roller 503 to move, and with the spring force of the spring 6, the rectangular plate 501 is kept in an upward state. The surface mount inductor is moved to the top of the rectangular drawer 301, so that the operator can take it out, which can minimize the risk of the surface mount inductor falling off and being damaged.
[0038] 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 or procedural transformations made based on the content of this utility model specification and drawings, 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 patch inductance storage device for preventing detachment, characterized by comprising: include: A storage box, wherein multiple support plates are uniformly and fixedly connected to the inner wall of the storage box, and multiple storage drawers are uniformly and movably connected inside the storage box, with the multiple storage drawers and the multiple support plates being spaced apart; A second partition and a pushing member, wherein multiple second partitions are uniformly fixedly disposed on the inner wall of the storage drawer, and multiple pushing members are uniformly movably disposed inside the storage drawer, with the pushing members spaced apart from the multiple second partitions, and both ends of the pushing members slidingly connecting to the inner wall of the storage drawer and the storage box; and Multiple springs are provided, with the upper end of each spring elastically connected to the lower surface of each push member, and the lower end of each spring elastically connected to the bottom of the inner wall of the storage drawer.
2. The patch inductance storage device of claim 1, wherein The storage box includes a rectangular box body. The outer wall of the support plate is fixedly connected to the inner wall of the rectangular box body. Multiple S-shaped guide grooves are symmetrically opened on both sides of the inner wall of the rectangular box body. Multiple straight guide grooves are symmetrically opened on both sides of the inner wall of the rectangular box body. Each S-shaped guide groove is connected to each straight guide groove. The end of the pusher is located inside the S-shaped guide groove and the straight guide groove.
3. A patch inductance storage device to prevent falling according to claim 2, characterized in that, The storage drawer includes a rectangular drawer, the outer wall of the second partition is fixedly connected to the inner wall of the rectangular drawer, the rectangular drawer is located inside the rectangular box, and multiple slide grooves are symmetrically opened on both sides of the rectangular drawer, and the two ends of the pusher pass through the symmetrically arranged slide grooves respectively.
4. The patch inductance storage device of claim 3, wherein The pushing component includes a rectangular plate located inside the rectangular drawer. The upper end of the spring is elastically connected to the lower surface of the rectangular plate. Slider blocks are symmetrically fixedly connected to both ends of the rectangular plate. Each slider is located inside each slide groove. A roller is rotatably connected to the end of the slider away from the rectangular drawer. The roller is located inside the S-shaped guide groove and the straight guide groove.
5. The surface mount inductor storage device for preventing detachment according to claim 3, characterized in that, Multiple female magnetic clasps are evenly fixedly connected to one side of the inner wall of the rectangular box, and a male magnetic clasp is fixedly connected to one side of the rectangular drawer. One side of the male magnetic clasp is magnetically connected to one side of the female magnetic clasp.
6. The surface mount inductor storage device for preventing detachment according to claim 5, characterized in that, The rectangular drawer has a pull groove on the side away from the sub-magnetic plate.