A pack module anti-theft cabinet that is easy to locate
The design of the carriage and limiting components solves the problem of inconvenient operation during the assembly and disassembly of the pack module of the anti-theft cabinet, achieving stable locking and quick disassembly, and improving assembly efficiency and convenience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU FENGHAIYANG ENERGY TECHNOLOGY CO LTD
- Filing Date
- 2025-08-11
- Publication Date
- 2026-07-03
AI Technical Summary
Existing security cabinets are inconvenient to operate during the assembly and disassembly of pack modules, which can easily lead to deviations, affecting efficiency and cost.
The design employs a slide and limiting components. Through the cooperation of the slide and the support components, the pack module can be stably locked and quickly disassembled. The elastic support of the spring and the locking of the block simplify the fixing method and avoid the single fixing of traditional bolts and buckles.
It improves the assembly efficiency and disassembly convenience of the pack module, reduces operational complexity, and ensures the stability of the assembly process and the speed of disassembly.
Smart Images

Figure CN224448650U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of anti-theft cabinet technology, and more specifically, to an anti-theft cabinet for a pack module that is easy to locate. Background Technology
[0002] With the rapid development of the new energy industry, the storage and management security of pack modules, as the core component of battery systems, is receiving increasing attention. Currently, pack modules are commonly stored in electronic anti-theft cabinets in production workshops, warehouses, and transportation, using electronic locks and monitoring systems such as combination locks, fingerprint locks, and iris recognition locks to improve anti-theft performance and convenience.
[0003] Existing security cabinets often use a single fixing method such as bolts and clips when assembling pack modules. Operators need to manually tighten the bolts or laboriously fasten the clips inside the cabinet. This is not only inconvenient to operate, but also prone to deviations during alignment, requiring repeated adjustments and affecting assembly efficiency. The same problems exist when disassembling, further increasing the complexity and time cost of disassembling and assembling pack modules. Utility Model Content
[0004] The purpose of this invention is to provide an anti-theft cabinet for pack modules that is easy to locate, enabling convenient and stable locking and installation of pack modules, as well as quick disassembly for maintenance or replacement.
[0005] The above-mentioned technical objective of this utility model is achieved through the following technical solution: a burglarproof cabinet for easy positioning of pack modules, comprising: an electronic burglarproof cabinet; the electronic burglarproof cabinet has several pack modules mounted inside, handles are fixed on both sides of the front of each pack module, a partition is fixed inside the electronic burglarproof cabinet and located behind the pack modules, a slide is slidably connected to the outer side of each pack module, the slide passes through the partition and extends to the rear of the electronic burglarproof cabinet, the outer side of the slide is fixed to both sides of the inner wall of the electronic burglarproof cabinet, a support component is slidably connected in the slide, the support component overlaps with the back of the pack module, the end of the support component slides through the partition, a fixing sleeve is fixed in the middle of the back of the slide, and a limit component slides within the fixing sleeve;
[0006] The limiting component includes a fixed post, one end of which is fixed to the middle of the back of the pack module, and the other end of which passes through the support component and is fixed with a conical seat. A movable block is slidably sleeved on the outside of the fixed post. Four locking components are provided between the conical seats. Slide grooves are opened on the inner wall of the fixed sleeve corresponding to the positions of the locking components. The locking components slide through the slide grooves.
[0007] Furthermore, the carriage has a U-shaped design and conductive wires are fixed on both sides of the back. One end of each conductive wire is connected to a connecting terminal, which is installed on the back of the pack module.
[0008] Furthermore, the support component includes a slide plate, the concave grooves at both ends of the slide plate slide on both sides of the carriage, the front of the slide plate overlaps with the back of the pack module, and the fixing post slides through the middle of the slide plate.
[0009] Furthermore, two limiting rods are fixed on the side of the skateboard away from the pack module. The limiting rods slide through the partition and are fitted with a first spring. The two ends of the first spring are fixed between the skateboard and the partition, respectively.
[0010] Furthermore, slide rails are provided on both sides of the pack module, and the two extended ends of the carriage are slidably connected in the two slide rails respectively.
[0011] Furthermore, the electronic security cabinet is hinged to the front with a cabinet door, and an observation window is installed in the middle of the cabinet door.
[0012] Furthermore, the conical seat and the movable block are symmetrically arranged about the locking component, and the movable block and the conical seat have the same shape.
[0013] Furthermore, a retaining ring is fixedly connected to the outer wall of the fixed column, and one side of the retaining ring overlaps with the planar portion of the movable block.
[0014] Furthermore, the locking assembly includes a slide rod that slides through a groove, with one end of the slide rod extending to the outside of the fixing sleeve, and a locking block fixed to the other end of the slide rod. One side of the locking block is designed with a bevel and the other side is designed with a flat surface, and the flat part of the locking block overlaps with the conical seat.
[0015] Furthermore, a second spring is fitted over the slide bar, with both ends of the second spring fixed between the locking block and the inner wall of the slide groove, respectively.
[0016] Compared to existing technologies, the advantages of this solution are as follows:
[0017] 1. This solution, during pack module assembly, pushes the pack module into the carriage, allowing the two extended ends of the carriage to slide into two tracks respectively, providing limiting support for the pack module and improving its horizontal sliding stability. Simultaneously, the rear limiting component penetrates the slide plate and slides into the fixing sleeve, enabling the conical seat to contact the inclined surfaces of the four locking blocks until the blocks are pushed into the grooves, preventing interference with the conical seat's travel. When the conical seat passes through the four locking blocks, the second spring's elasticity supports the blocks, bringing them closer together. It is snapped between the conical seat and the movable block, and the connecting terminal can be inserted into the end of the conductive wire. When the pack module is no longer pushed, the spring force of the first spring supports the slide plate, which pushes the pack module forward and applies a forward thrust to the conical seat behind the pack module, so that the conical seat is in close contact with the flat part of the snap-fit block, preventing the conical seat from sliding forward. This achieves the purpose of locking and installing the pack module, abandoning the traditional single fixing method of bolts and buckles, preventing deviations during alignment from affecting assembly efficiency, and reducing the complexity of assembling the pack module.
[0018] 2. In this solution, when maintaining or replacing the pack module, pushing the pack module moves it into the electronic security cabinet and compresses the sliding plate. Simultaneously, the fixed post at the rear drives the conical seat and the movable block to slide within the fixed sleeve. The movable block compresses multiple locking blocks until the edge of the movable block passes through the locking blocks. At this point, the second spring supports the locking blocks, causing them to extend out of the slide groove and contact the outer wall of the movable block. After stopping the pack module, the two first springs support the sliding plate, causing it to push the pack module forward. The end of the locking block can push the movable block to slide outside the fixed post, causing the movable block to overlap with the conical block. This allows the end of the locking block to slide off the connection between the movable block and the conical seat, releasing the locking state between the locking block and the conical seat. This allows the pack module to be removed using the handle. Therefore, when removing the pack module, simply pressing the pack module achieves quick disassembly, improving operational convenience and facilitating the maintenance or replacement of the pack module. Attached Figure Description
[0019] Figure 1 A three-dimensional structural diagram illustrating this utility model;
[0020] Figure 2 This is a cross-sectional structural diagram of an electronic anti-theft cabinet used to illustrate this utility model;
[0021] Figure 3 This is a schematic diagram illustrating the pack module and carriage structure of this utility model;
[0022] Figure 4This is a schematic diagram of the support component structure used to illustrate the present invention;
[0023] Figure 5 This is a schematic diagram of the cross-sectional structure of the fixing sleeve used to illustrate the present invention;
[0024] Figure 6 This is a schematic diagram illustrating the structure of the limiting component used to demonstrate this utility model;
[0025] Figure 7 For the purpose of embodying this utility model Figure 5 Enlarged structural diagram at point A in the middle.
[0026] In the diagram: 1. Electronic security cabinet; 2. Cabinet door; 3. Pack module; 4. Handle; 5. Partition; 6. Carriage; 7. Slide rail; 8. Connecting terminal; 9. Conductor wire; 10. Support assembly; 101. Slide plate; 102. Limiting rod; 103. First spring; 11. Fixing sleeve; 12. Limiting assembly; 121. Fixing column; 122. Conical seat; 123. Movable block; 124. Retaining ring; 13. Slide groove; 14. Locking assembly; 141. Slide rod; 142. Locking block; 143. Second spring. Detailed Implementation
[0027] The utility model will be further described in detail below with reference to the accompanying drawings and specific embodiments. The following embodiments are only descriptive and are not intended to limit the scope of protection of this utility model.
[0028] Example 1: A burglarproof cabinet for easy-to-locate pack modules, such as... Figure 1-7 As shown, the device includes an electronic security cabinet 1; several pack modules 3 are installed inside the electronic security cabinet 1, and handles 4 are fixed on both sides of the front of the pack modules 3. A partition 5 is fixed inside the electronic security cabinet 1 and behind the pack modules 3. A slide 6 is slidably connected to the outside of the pack modules 3. The slide 6 passes through the partition 5 and extends to the rear of the electronic security cabinet 1. The outside of the slide 6 is fixed to both sides of the inner wall of the electronic security cabinet 1. A support component 10 is slidably connected in the slide 6. The support component 10 overlaps with the back of the pack modules 3. The end of the support component 10 slides through the partition 5. A fixing sleeve 11 is fixed in the middle of the back of the slide 6. A limit component 12 slides in the fixing sleeve 11.
[0029] The limiting component 12 includes a fixed post 121. One end of the fixed post 121 is fixed to the middle of the back of the pack module 3. The other end of the fixed post 121 passes through the support component 10 and is fixed with a conical seat 122. A movable block 123 is slidably sleeved on the outside of the fixed post 121. Four locking components 14 are provided between the conical seats 122. The inner wall of the fixed sleeve 11 is provided with grooves 13 corresponding to the positions of the locking components 14. The locking components 14 slide through the grooves 13. The conical seats 122 and the movable blocks 123 are symmetrically arranged about the locking components 14, and the movable blocks 123 have the same shape as the conical seats 122. A retaining ring 124 is fixedly connected to the outer wall of the fixed post 121. One side of the retaining ring 124 overlaps with the planar part of the movable block 123.
[0030] In practical applications, the pack module 3 pushes the fixed post 121 to slide into the fixed sleeve 11. The fixed post 121 then drives the conical seat 122 and the movable block 123 to slide within the fixed sleeve 11. The locking component 14, under pressure, moves into the slide groove 13. The retaining ring 124 limits the movable block 123 to prevent it from detaching from the fixed post 121. After the edge of the movable block 123 passes through the locking component 14, the limiting component 12 supports the pack module 3. The end of the locking component 14 can push the movable block 123 to slide outside the fixed post 121, so that the movable block 123 coincides with the conical block. The movable block 123 and the conical seat 122 have the same shape, allowing the end of the locking component 14 to slide off from the connection between the movable block 123 and the conical seat 122. At this point, the locking state of the pack module 3 is released, making it easy to remove.
[0031] Example 2: A burglarproof cabinet for easy-to-position pack modules, which differs from Examples 1 and 3 in that, as shown in Example 2... Figure 1-4 As shown, the slide 6 has a U-shaped design and conductive wires 9 are fixed on both sides of the back. One end of the conductive wire 9 is connected to a connecting terminal 8, which is installed on the back of the pack module 3. The support component 10 includes a slide plate 101. The concave grooves at both ends of the slide plate 101 slide on both sides of the slide 6. The front of the slide plate 101 overlaps with the back of the pack module 3, and the fixing post 121 slides through the middle of the slide plate 101. Two limiting rods 102 are fixed on the side of the slide plate 101 away from the pack module 3. The limiting rods 102 slide through the partition 5. A first spring 103 is sleeved on the limiting rod 102. The two ends of the first spring 103 are fixed between the slide plate 101 and the partition 5, respectively. Slide tracks 7 are opened on both sides of the pack module 3. The two extended ends of the slide 6 are slidably connected to the two slide tracks 7, respectively. A cabinet door 2 is hinged to the front of the electronic anti-theft cabinet 1. An observation window is installed in the middle of the cabinet door 2.
[0032] In practical applications, by pushing the pack module 3 into the carriage 6, the two extended ends of the carriage 6 slide into the two slide rails 7 respectively, which serves to limit and support the pack module 3.
[0033] When the pack module 3 stops being pushed, the two first springs 103 support the slide plate 101, causing the slide plate 101 to push the pack module 3 forward. The connecting terminal 8 at the rear of the pack module 3 is disconnected from the conductor 9. Then, the two handles 4 pull the pack module 3 forward until the pack module 3 is disconnected from the slide 6, making it easy to remove the pack module 3 from the electronic anti-theft cabinet 1.
[0034] Example 3: A burglarproof cabinet for easy-to-position pack modules, which differs from Example 1 in that, as shown in Example 1... Figure 5 and 6 As shown in Figure 7, the locking assembly 14 includes a slide rod 141, which slides through the slide groove 13. One end of the slide rod 141 extends to the outside of the fixing sleeve 11, and the other end of the slide rod 141 is fixed with a locking block 142. One side of the locking block 142 is designed with a bevel and the other side is designed with a flat surface. The flat part of the locking block 142 overlaps with the conical seat 122. A second spring 143 is sleeved on the slide rod 141. The two ends of the second spring 143 are respectively fixed between the locking block 142 and the inner wall of the slide groove 13.
[0035] In practical applications, when the pack module 3 is pushed, the limiting component 12 at the rear can pass through the slide plate 101 and slide into the fixing sleeve 11, so that the conical seat 122 can contact the inclined part of the four blocks 142 until the blocks 142 are pushed into the slide groove 13, so that it will not interfere with the stroke of the conical seat 122.
[0036] When the conical seat 122 passes through the four locking blocks 142, the second spring 143 supports the locking blocks 142, causing the four locking blocks 142 to approach each other and engage between the conical seat 122 and the movable block 123. When the pack module 3 is no longer pushed, the first spring 103 supports the slide plate 101, causing the slide plate 101 to push the pack module 3 forward, applying a forward thrust to the conical seat 122 behind the pack module 3, so that the conical seat 122 is pressed tightly against the flat part of the locking block 142, so as to lock the position of the pack module 3.
[0037] Working principle: When the pack module 3 is taken out from the electronic anti-theft cabinet 1, the pack module 3 is pushed to move into the electronic anti-theft cabinet 1 and squeeze the slide plate 101 in the support assembly 10, so that the slide plate 101 can slide in the slide frame 6 and squeeze the first spring 103 outside the limit rods 102 on both sides. At the same time, the pack module 3 will push the fixed column 121 to slide into the fixed sleeve 11. The fixed column 121 will drive the conical seat 122 and the movable block 123 to slide in the fixed sleeve 11. When the inclined part of the locking block 142 contacts the edge of the movable block 123, the locking block 142 will be pressed and move into the slide groove 13, and simultaneously squeeze the slide rod 141 and the second spring 143 until the edge of the movable block 123 passes through the locking block 142. At this time, the elastic force of the second spring 143 supports the locking block 142, so that the locking block 142 extends out of the slide groove 13 and contacts the outer wall of the movable block 123.
[0038] At this point, the pack module 3 is no longer pushed. The two first springs 103 support the slide plate 101, causing the slide plate 101 to push the pack module 3 forward. At the same time, the end of the locking block 142 can push the movable block 123 to slide outside the fixed post 121, so that the movable block 123 coincides with the conical block. The movable block 123 and the conical seat 122 have the same shape, so that the end of the locking block 142 can slide off from the connection between the movable block 123 and the conical seat 122. At this time, the locking state between the locking block 142 and the conical seat 122 is released, and the connection terminal 8 at the rear of the pack module 3 is disconnected from the conductor 9. Then, the pack module 3 is pulled forward by the two handles 4 until the pack module 3 is disengaged from the slide 6, so that the pack module 3 can be removed.
[0039] When assembling the pack module 3, the pack module 3 is pushed into the carriage 6, so that the two extended ends of the carriage 6 slide into the two slide rails 7 respectively, which serve to limit and support the pack module 3. The pack module 3 will first squeeze the slide plate 101, and at the same time, the rear limiting component 12 can pass through the slide plate 101 and slide into the fixing sleeve 11, so that the conical seat 122 can contact the inclined part of the four locking blocks 142 until the locking blocks 142 are pushed into the slide groove 13, so that it will not interfere with the stroke of the conical seat 122. When the conical seat 122 passes through the four locking blocks 142, it is pushed into the slide groove 13 by the second spring. The elastic force of spring 143 supports the locking blocks 142, causing the four locking blocks 142 to approach each other and engage between the conical seat 122 and the movable block 123. At the same time, the connecting terminal 8 can be inserted into the end of the conductive wire 9. When the pack module 3 is no longer pushed, the elastic force of the first spring 103 supports the slide plate 101, causing the slide plate 101 to push the pack module 3 forward, applying a forward thrust to the conical seat 122 behind the pack module 3, so that the conical seat 122 is tightly attached to the flat part of the locking block 142, thereby achieving the purpose of locking the conical seat 122 and the pack module 3.
[0040] This specific embodiment is merely an explanation of the present utility model and is not intended to limit the present utility model. After reading this specification, those skilled in the art can make modifications to this embodiment without contributing any inventive step, but as long as they are within the scope of the claims of the present utility model, they are protected by patent law.
Claims
1. A burglarproof cabinet for easy-to-position pack modules, characterized in that, include: Electronic anti-theft cabinet (1); several pack modules (3) are installed inside the electronic anti-theft cabinet (1). Handles (4) are fixed on both sides of the front of the pack module (3). A partition (5) is fixed inside the electronic anti-theft cabinet (1) and behind the pack module (3). A slide (6) is slidably connected to the outside of the pack module (3). The slide (6) passes through the partition (5) and extends to the rear of the electronic anti-theft cabinet (1). The outside of the slide (6) is fixed to both sides of the inner wall of the electronic anti-theft cabinet (1). A support component (10) is slidably connected in the slide (6). The support component (10) overlaps with the back of the pack module (3). The end of the support component (10) slides through the partition (5). A fixing sleeve (11) is fixed in the middle of the back of the slide (6). A limit component (12) slides in the fixing sleeve (11). The limiting component (12) includes a fixed post (121), one end of which is fixed to the middle of the back of the pack module (3), and the other end of which passes through the support component (10) and is fixed with a conical seat (122). A movable block (123) is slidably sleeved on the outside of the fixed post (121). Four locking components (14) are provided between the conical seat (122) and the conical seat (122). The inner wall of the fixed sleeve (11) is provided with a sliding groove (13) corresponding to the position of the locking component (14). The locking component (14) slides through the sliding groove (13).
2. A pack module security cabinet for easy positioning according to claim 1, characterized in that, The carriage (6) is U-shaped and has conductive wires (9) fixed on both sides of the back. One end of the conductive wire (9) is connected to a connecting terminal (8), which is installed on the back of the pack module (3).
3. The pack module security cabinet for easy positioning according to claim 1, characterized in that, The support assembly (10) includes a slide plate (101), the concave grooves at both ends of the slide plate (101) slide on both sides of the carriage (6), the front of the slide plate (101) overlaps with the back of the pack module (3), and the fixing post (121) slides through the middle of the slide plate (101).
4. A pack module security cabinet for facilitating positioning according to claim 3, characterized in that, Two limiting rods (102) are fixed on the side of the slide plate (101) away from the pack module (3). The limiting rods (102) slide through the partition (5). The limiting rods (102) are fitted with a first spring (103). The two ends of the first spring (103) are fixed between the slide plate (101) and the partition (5).
5. The pack module security cabinet of claim 1, wherein, The pack module (3) has slides (7) on both sides, and the two extended ends of the carriage (6) are slidably connected in the two slides (7).
6. The pack module security cabinet of claim 1, wherein, The electronic anti-theft cabinet (1) is hinged to the front with a cabinet door (2), and an observation window is installed in the middle of the cabinet door (2).
7. The pack module security cabinet of claim 1, wherein, The conical seat (122) and the movable block (123) are symmetrically arranged about the locking component (14), and the movable block (123) and the conical seat (122) have the same shape.
8. A pack module security cabinet for facilitating positioning according to claim 7, characterized in that, A retaining ring (124) is fixedly connected to the outer wall of the fixed column (121), and one side of the retaining ring (124) overlaps with the planar part of the movable block (123).
9. The pack module security cabinet of claim 1, wherein, The locking assembly (14) includes a slide rod (141) that slides through the groove (13) and one end of the slide rod (141) extends to the outside of the fixing sleeve (11). The other end of the slide rod (141) is fixed with a locking block (142). One side of the locking block (142) is designed with a bevel and the other side is designed with a flat surface. The flat part of the locking block (142) overlaps with the conical seat (122).
10. A burglarproof cabinet for a pack module that is easy to position, as described in claim 9, is characterized in that... The slide bar (141) is fitted with a second spring (143), and the two ends of the second spring (143) are respectively fixed between the locking block (142) and the inner wall of the slide groove (13).