Solid state battery shipping clip
By using a solid-state battery transport clip design, the battery is secured with a fixing plate, fixing strap, and snap-fit components. Combined with the protection of insulating rubber pads, this solves the problem of battery short circuits and leakage caused by collisions during transportation, ensuring battery safety and performance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SICHUAN POLICE COLLEGE
- Filing Date
- 2025-06-16
- Publication Date
- 2026-06-26
AI Technical Summary
Solid-state batteries are prone to short circuits, damage to internal components, and electrolyte leakage during transportation due to collisions, posing safety hazards.
A solid-state battery transport buckle was designed, including a fixing plate, a fixing strap, an adhesive film, and a snap-fit fixing component. The battery is fixed to the fixing plate by the snap-fit fixing component, and an insulating rubber pad is used to protect the outer wall of the battery to prevent collisions and scratches.
It effectively prevents short circuits and performance damage to solid-state batteries caused by collisions during transportation, reduces electrolyte leakage, and ensures transportation safety.
Smart Images

Figure CN224410038U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of battery technology, and in particular to a solid-state battery transport clip. Background Technology
[0002] During transportation, solid-state batteries are typically packed into a shipping box. Because the solid-state batteries are in a mobile state within the shipping box, they are susceptible to damage from impacts during transport.
[0003] The internal structure of a battery may be damaged by an impact, causing direct contact between the positive and negative electrodes and resulting in a short circuit. A short circuit can cause the solid-state battery to heat up rapidly, potentially leading to a fire or even an explosion in severe cases. Furthermore, impacts to a solid-state battery can damage critical components such as the solid electrolyte and electrode materials, affecting its charge and discharge performance, such as reducing capacity and shortening lifespan.
[0004] In addition, solid-state batteries may leak electrolyte if they are bumped or knocked during transportation. Although they are solid-state batteries, some designs may still contain a small amount of electrolyte. Collisions may cause the solid-state battery casing to crack and leak electrolyte. This will not only damage the performance of the battery itself, but may also cause corrosion and other hazards to the surrounding environment and other objects. Utility Model Content
[0005] To address the technical problem of solid-state batteries being in an active state within the transport container and being damaged during transport, this utility model provides a solid-state battery transport buckle.
[0006] The solid-state battery transport clip provided by this utility model adopts the following technical solution:
[0007] A solid-state battery transport buckle includes a fixing plate and a fixing strap. A mounting base is fixedly installed on one end of the upper surface of the fixing plate. The fixing strap is rotatably connected to the center of the mounting base. One end of the fixing strap is rotatably connected to the fixing plate, and the other end is engaged with the fixing plate through a snap-fit fixing component. An adhesive film to prevent the solid-state battery from shaking during transport is fixedly connected to the bottom of the fixing plate. A bottom rubber pad with insulating effect is fixedly installed on the upper surface of the fixing plate, and a top rubber pad with insulating effect is fixedly installed on the inner wall of the fixing strap.
[0008] Furthermore, the adhesive sheet is made of nitrile rubber.
[0009] Furthermore, the specific structure of the snap-fit fixing assembly includes a fixing sleeve and a snap-fit sleeve inserted inside the fixing sleeve. The snap-fit sleeve is fixedly connected to the end of the fixing band away from the mounting seat. The fixing sleeve is fixedly installed on the upper surface of the fixing plate away from the mounting seat. There is a snap-fit cavity inside the fixing sleeve. There is a guide groove on the inner wall of the snap-fit cavity in the fixing sleeve. There is a guide boss protruding outward on the outer wall of the snap-fit sleeve at a position corresponding to the guide groove. By inserting the guide boss into the guide groove, the snap-fit sleeve is inserted into the fixing sleeve.
[0010] Furthermore, the snap-fit sleeve has a bottom-through installation space inside, and a through installation hole is provided on the top wall of the installation space. Two snap-fit pieces are mirror-arranged within the installation space of the snap-fit sleeve.
[0011] Furthermore, the top of the snap-fit piece has a pressing handle that extends upward through the mounting hole. A angular sliding wall protrudes outward from the lower part of the pressing handle in the snap-fit piece. A sliding groove is provided on the inner wall of the mounting space in the snap-fit sleeve, and the angular sliding wall in the snap-fit piece is inserted into the interior of the sliding groove.
[0012] Furthermore, an L-shaped hook extends downward from the bottom of the angular sliding wall in the snap-fit piece. The bottom of the L-shaped hook has a circular hook head, and a rotating shaft is rotatably connected to the upper end of the L-shaped hook. The rotating shaft is fixedly installed on the inner wall of the installation space in the snap-fit sleeve, thereby allowing the snap-fit piece to be rotatably installed within the installation space of the snap-fit sleeve.
[0013] Furthermore, a spring is connected between the two snap-fit pieces located in the mounting space of the snap-fit sleeve. The spring is located at the lower part of the rotating shaft. Under the tension of the spring, the L-shaped hooks at the bottom of the two snap-fit pieces in the snap-fit sleeve move closer to each other and clamp together.
[0014] Furthermore, a locking core is located within the locking space of the fixed sleeve. The locking core is fixedly mounted on the upper surface of the fixed plate. A trapezoidal boss is located at the top of the locking core. Under the elastic force of the spring, the trapezoidal boss engages with the inside of the L-shaped hook, thereby fixing the locking sleeve in the locking space inside the fixed sleeve.
[0015] In summary, the beneficial effects of this utility model are as follows:
[0016] 1. This utility model, through the setting of a snap-fit fixing component, allows the solid-state battery to be placed on the upper surface of the fixing plate during use. The fixing strap then wraps around the outer wall of the battery to fix it to the upper surface of the fixing plate. The snap-fit sleeve at the end of the fixing strap is inserted into the inside of the fixing sleeve. The L-shaped hook at the bottom of the snap-fit piece engages with the trapezoidal protrusion at the top of the snap-fit core, fixing the snap-fit sleeve within the snap-fit space inside the fixing sleeve. This secures the solid-state battery between the fixing plate and the fixing strap. An adhesive film then bonds the solid-state battery to the inside of the transport box, allowing it to be securely attached during transport. This invention effectively prevents solid-state batteries from colliding with each other during transportation. By squeezing the pressing handle at the top of the snap-fit tab, the L-shaped hook at the bottom of the snap-fit tab moves away from the snap-fit core, causing the trapezoidal protrusion to move outward from the L-shaped hook. This removes the snap-fit sleeve from the snap-fit space of the fixed sleeve, allowing the solid-state battery to be removed from the invention. This invention is simple to operate and effectively prevents solid-state batteries from colliding during transportation, thus preventing safety hazards and ensuring that the performance of the solid-state battery is not damaged during transportation.
[0017] 2. This utility model provides an insulating bottom rubber pad on the upper surface of the fixing plate and an insulating top rubber pad on the inner wall of the fixing band. When the solid-state battery is installed between the fixing plate and the fixing band, the bottom and top rubber pads contact the outer surface of the solid-state battery, effectively preventing the fixing plate and fixing band from scratching the outer wall of the solid-state battery. Attached Figure Description
[0018] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0019] Figure 2 This is a schematic cross-sectional view of the present invention;
[0020] Figure 3 This utility model Figure 2 Enlarged view of part B in the middle;
[0021] Figure 4 This utility model Figure 1 Schematic diagram of exploded view of A in the middle.
[0022] In the diagram: 1-Fixing plate; 2-Fixing strap; 3-Adhesive sheet; 4-Mounting base; 5-Snap-fit fixing assembly; 101-Bottom rubber pad; 201-Top rubber pad; 501-Fixing sleeve; 502-Snap-fit sleeve; 503-Snap-fit piece; 504-Rotating shaft; 505-Spring; 506-Clip core; 5021-Slide groove; 5022-Mounting hole; 5031-L-shaped hook; 5061-Trapezoidal boss; 5011-Guide groove; 5023-Guide boss. Detailed Implementation
[0023] The present invention will be further described below with reference to specific embodiments. The illustrative embodiments and descriptions of the present invention are used to explain the present invention, but are not intended to limit the present invention.
[0024] Example: Figure 1 , Figure 2 , Figure 3 , Figure 4 The image shows a solid-state battery transport clip.
[0025] The first embodiment of this utility model, referred to... Figure 1 As shown, a solid-state battery transport buckle is disclosed, including a fixing plate 1 and a fixing strap 2 for fixing the solid-state battery to the fixing plate 1. A mounting base 4 is fixedly installed on one end of the upper surface of the fixing plate 1, and the fixing strap 2 is rotatably connected to the center of the mounting base 4. One end of the fixing strap 2 is rotatably connected to the fixing plate 1, and the other end is engaged with the fixing plate 1 through a snap-fit fixing component 5. An adhesive film 3 is fixedly connected to the bottom of the fixing plate 1 to prevent the solid-state battery from shaking during transportation. In order to make this utility model reusable, preferably, the adhesive film 3 is made of nitrile rubber. Nitrile rubber has good water resistance, oil resistance and wear resistance. When the adhesive film 3 loses its stickiness after multiple uses, the stains on the surface of the adhesive film 3 can be cleaned with water to restore the stickiness of the adhesive film 3.
[0026] As a preferred option, refer to Figures 2-4As shown, the specific structure of the snap-fit fixing assembly 5 includes a fixing sleeve 501 and a snap-fit sleeve 502 inserted inside the fixing sleeve 501. The snap-fit sleeve 502 is fixedly connected to the end of the fixing band 2 away from the mounting base 4. The fixing sleeve 501 is fixedly installed on the upper surface of the fixing plate 1 away from the mounting base 4. The fixing sleeve 501 has a snap-fit cavity inside. The inner wall of the snap-fit cavity in the fixing sleeve 501 has a guide groove 5011. The outer wall of the snap-fit sleeve 502 has a guide boss 5023 protruding outward at a position corresponding to the guide groove 5011. By inserting the guide boss 5023 into the guide groove 5011, the snap-fit sleeve 502 is inserted into the fixed sleeve 501. The snap-fit sleeve 502 has a bottom-through installation space. A through installation hole 5022 is provided on the top wall of this installation space. Two snap-fit pieces 503 are mirror-arranged within the installation space of the snap-fit sleeve 502. Each snap-fit piece 503 has a pressing handle at its top, which extends upward through the installation hole 5022. The lower part of the pressing handle in the snap-fit piece 503 protrudes outward to form an angular sliding wall. A groove 5021 is provided on the inner wall of the installation space. The angular sliding wall of the snap-fit piece 503 is inserted into the groove 5021. An L-shaped hook 5031 is provided extending downward from the bottom of the angular sliding wall of the snap-fit piece 503. The bottom of the L-shaped hook 5031 has a round hook head. A rotating shaft 504 is rotatably connected to the upper end of the L-shaped hook 5031. The rotating shaft 504 is fixedly set on the inner wall of the installation space in the snap-fit sleeve 502, so that the snap-fit piece 503 is rotatably set in the installation space of the snap-fit sleeve 502. A spring 505 is connected between the two snap-fit pieces 503 inside the space. The spring 505 is located at the lower part of the rotating shaft 504. Under the tension of the spring 505, the L-shaped hooks 5031 at the bottom of the two snap-fit pieces 503 inside the snap-fit sleeve 502 approach and clamp each other. There is a snap-fit core 506 in the snap-fit space of the fixed sleeve 501. The snap-fit core 506 is fixedly set on the upper surface of the fixed plate 1. There is a trapezoidal boss 5061 at the top of the snap-fit core 506. Under the elastic force of the spring 505, the trapezoidal boss 5061 is engaged inside the L-shaped hook 5031.
[0027] When using this invention, the solid-state battery is placed on the upper surface of the fixing plate 1, and the fixing strap 2 is wrapped around the outer wall of the battery to fix it to the upper surface of the fixing plate 1. The snap-fit sleeve 502 at the end of the fixing strap 2 is inserted into the interior of the fixing sleeve 501. The L-shaped hook 5031 at the bottom of the snap-fit piece 503 engages with the trapezoidal protrusion 5061 at the top of the snap-fit core 506, thus fixing the snap-fit sleeve 502 in the snap-fit space inside the fixing sleeve 501. This fixes the solid-state battery between the fixing plate 1 and the fixing strap 2. The solid-state battery is then bonded to the inside of the transport box using the adhesive film 3, effectively preventing damage during transportation. To prevent solid-state batteries from colliding with each other during transportation, the L-shaped hook 5031 at the bottom of the snap-fit 503 is moved away from the snap-fit core 506 by squeezing the pressing handle at the top of the snap-fit 503. This causes the trapezoidal protrusion 5061 to move outward from the L-shaped hook 5031, thereby removing the snap-fit sleeve 502 from the snap-fit space of the fixing sleeve 501. At this point, the solid-state battery can be removed from the present invention. The present invention is simple to operate and can effectively prevent solid-state batteries from colliding during transportation, prevent safety hazards during transportation, and ensure that the performance of solid-state batteries is not damaged during transportation.
[0028] To prevent damage to the outer wall of the solid-state battery, refer to... Figure 1 As shown, a bottom rubber pad 101 with insulating effect is fixedly installed on the upper surface of the fixing plate 1, and a top rubber pad 201 with insulating effect is fixedly installed on the inner wall of the fixing band 2. When the solid-state battery is installed between the fixing plate 1 and the fixing band 2, the bottom rubber pad 101 and the top rubber pad 201 contact the outer surface of the solid-state battery, which can effectively prevent the fixing plate 1 and the fixing band 2 from scratching the outer wall of the solid-state battery.
[0029] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. The various components mentioned in this utility model are common technologies in the existing field. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. A solid-state battery transport buckle, comprising a fixing plate (1) and a fixing strap (2), wherein a mounting base (4) is fixedly installed at one end of the upper surface of the fixing plate (1), characterized in that, A fixing strap (2) is rotatably connected to the center of the mounting base (4). One end of the fixing strap (2) is rotatably connected to the fixing plate (1), and the other end is connected to the fixing plate (1) by a snap-fit fixing component (5). An adhesive film (3) is fixedly connected to the bottom of the fixing plate (1) to prevent the solid-state battery from shaking during transportation. A bottom rubber pad (101) with insulating effect is fixedly installed on the upper surface of the fixing plate (1), and a top rubber pad (201) with insulating effect is fixedly installed on the inner wall of the fixing strap (2).
2. The solid-state battery transport clip according to claim 1, characterized in that, The adhesive sheet (3) is made of nitrile rubber.
3. A solid-state battery transport clip according to claim 1, characterized in that, The specific structure of the snap-fit fixing assembly (5) includes a fixing sleeve (501) and a snap-fit sleeve (502) inserted inside the fixing sleeve (501). The snap-fit sleeve (502) is fixedly connected to the end of the fixing band (2) away from the mounting seat (4). The fixing sleeve (501) is fixedly provided on the side of the fixing plate (1) away from the mounting seat (4). The fixing sleeve (501) has a snap-fit cavity inside the fixing sleeve (501). The inner wall of the snap-fit cavity in the fixing sleeve (501) has a guide groove (5011). The outer wall of the snap-fit sleeve (502) is provided with a guide boss (5023) protruding outward at the position corresponding to the guide groove (5011). By inserting the guide boss (5023) into the guide groove (5011), the snap-fit sleeve (502) is inserted into the fixing sleeve (501).
4. A solid-state battery transport clip according to claim 3, characterized in that, The snap-fit sleeve (502) has a bottom-through installation space inside, and a through installation hole (5022) is provided on the top wall of the installation space. Two snap-fit pieces (503) are mirror-arranged in the installation space of the snap-fit sleeve (502).
5. A solid-state battery transport clip according to claim 4, characterized in that, The snap-fit piece (503) has a pressing handle at the top, which extends upward through the mounting hole (5022). The lower part of the pressing handle in the snap-fit piece (503) protrudes outward to form an angular sliding wall. A sliding groove (5021) is provided on the inner wall of the mounting space in the snap-fit sleeve (502). The angular sliding wall in the snap-fit piece (503) is inserted into the interior of the sliding groove (5021).
6. A solid-state battery transport clip according to claim 5, characterized in that, An L-shaped hook (5031) extends downward from the bottom of the angular sliding wall in the snap-fit piece (503). The bottom of the L-shaped hook (5031) has a circular hook head. A rotating shaft (504) is rotatably connected to the upper end of the L-shaped hook (5031). The rotating shaft (504) is fixedly installed on the inner wall of the installation space in the snap-fit sleeve (502), so that the snap-fit piece (503) is rotatably installed in the installation space of the snap-fit sleeve (502).
7. A solid state battery shipping buckle as defined in claim 6, wherein, A spring (505) is connected between two snap-fit pieces (503) located in the mounting space of the snap-fit sleeve (502). The spring (505) is located at the lower part of the rotating shaft (504). Under the tension of the spring (505), the L-shaped hooks (5031) at the bottom of the two snap-fit pieces (503) in the snap-fit sleeve (502) are brought close to each other and clamped.
8. A solid state battery shipping buckle according to claim 7, wherein, A locking core (506) is located in the locking space of the fixed sleeve (501). The locking core (506) is fixedly disposed on the upper surface of the fixed plate (1). A trapezoidal boss (5061) is located at the top of the locking core (506). Under the elastic force of the spring (505), the trapezoidal boss (5061) is engaged inside the L-shaped hook (5031), thereby fixing the locking sleeve (502) in the locking space inside the fixed sleeve (501).