T-type lead-acid battery rack
By designing a T-shaped lead-acid battery rack, a stable connection is achieved using rectangular ring supports and limiting plates or magnets, solving the problems of poor stability and column damage of rectangular battery racks, thus improving stability and making storage convenient.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HENGYANG RITAR POWER CO LTD
- Filing Date
- 2025-08-11
- Publication Date
- 2026-07-03
AI Technical Summary
Existing rectangular lead-acid battery racks are unstable as their height increases, making them prone to tipping over, and the bottom of the uprights can damage the ground.
A T-shaped lead-acid battery holder is designed. By symmetrically sliding rectangular ring supports at both ends of the ring-shaped rectangular base, the battery holder is made into an inverted T shape, which increases the grounding area and improves stability. Convenient switching and stable connection are achieved through limiting plates and screws or magnets.
The increased grounding area prevents damage to the ground from the bottom of the column, improves the stability of the battery rack, and makes it easier to store.
Smart Images

Figure CN224448674U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of sampling device technology, specifically a T-shaped lead-acid battery holder. Background Technology
[0002] During production and storage, lead-acid batteries often need to be placed in rows and layers on battery racks. Existing battery racks are mostly rectangular, and their stability decreases as the height of the rack increases; they are prone to tipping over when full of lead-acid batteries. Furthermore, since the uprights of the rack directly impact the ground, the concentrated pressure on the floor at the base of the uprights can easily damage the surface. To address these problems, this invention provides a T-shaped lead-acid battery rack. Utility Model Content
[0003] To address the aforementioned technical deficiencies, the purpose of this utility model is to provide a T-shaped lead-acid battery rack. This rack features symmetrically sliding rectangular ring supports at both ends of a ring-shaped rectangular base. During use, the two rectangular ring supports are pulled out from the inside of the ring-shaped rectangular base towards both ends, making the battery rack in an inverted T-shape. This increases the grounding area, prevents damage to the ground from the bottom of the column, and improves the stability of the battery rack. This solves the technical problems mentioned in the background art.
[0004] To solve the above-mentioned technical problems, the present invention adopts the following technical solution: The present invention provides a T-shaped lead-acid battery rack, comprising: several parallel columns in two rows, several parallel shelves evenly distributed along the length of the columns between the two rows, the bottom ends of the columns being fixedly mounted on an annular rectangular base, and rectangular annular supports symmetrically slidingly mounted at both ends of the annular rectangular base; when the rectangular annular supports are in the working state, the two rectangular annular supports are pulled out from the annular rectangular base towards both ends, making the battery rack in an inverted T-shape; when the rectangular annular supports are in the idle state, the two rectangular annular supports slide into the annular rectangular base relative to each other, making the battery rack in a vertical rectangular frame shape.
[0005] Preferably, the rectangular annular support includes two parallel limiting plates with a T-shaped cross-section, and the two ends of the limiting plates are connected by end plates. Two T-shaped limiting slots are symmetrically opened on the sides of the left and right side plates of the annular rectangular support. The limiting plates are slidably installed in the limiting slots, and the lower bottom surface of the limiting plates is coplanar with the lower bottom surface of the annular rectangular support. This ensures that the lower bottom surfaces of the annular rectangular support and the rectangular annular support are coplanar, providing a flat contact surface and stable support by increasing the contact area.
[0006] Preferably, two pin holes are symmetrically opened on the sides of the left and right side plates of the annular rectangular seat. Screws are threaded onto the end plates, and the screws pass through the pin holes and are fastened to the left and right side plates of the annular rectangular seat by nuts. When the rectangular annular support is in the working state, the end plate located on the inner side of the annular rectangular support is fastened to the left and right side plates of the annular rectangular support by screws. When the rectangular annular support is in the idle state, the end plate located on the outer side of the annular rectangular support is fastened to the left and right side plates of the annular rectangular support by screws. By setting screws and pin holes, convenient switching between the working and idle states of the annular rectangular support is ensured, as well as stable connection after switching.
[0007] Preferably, two first magnets are embedded in the left and right side plates of the annular rectangular base, and a second magnet that attracts the first magnets and is positioned corresponding to them is embedded in the end plate; this ensures convenient switching between the working state and the idle state of the annular rectangular base, as well as a stable connection after switching.
[0008] Preferably, the shelf includes a number of short support rods and a number of long support rods. The short support rods are fixedly installed between two corresponding columns in the front and rear rows, and the number of long support rods are fixedly installed on the upper surface of the number of short support rods in the same shelf. Stable support is provided by placing lead-acid batteries on the number of long support rods in the same layer.
[0009] Preferably, the columns in the same row are connected by long guard rods, and the corresponding columns in two rows are connected by short guard rods; the long guard rods and the short guard rods are located between the two shelves and close to the lower shelf; by setting the long guard rods and short guard rods at the bottom between the shelves, the safety protection of lead-acid batteries can be ensured without affecting the loading and unloading.
[0010] The beneficial effects of this utility model are as follows:
[0011] 1. This utility model involves symmetrically sliding rectangular ring supports at both ends of a ring-shaped rectangular base. When in use, the two rectangular ring supports are pulled out from the inside of the ring-shaped rectangular base towards both ends, making the battery rack in an inverted T-shape, increasing the grounding area, avoiding damage to the ground from the bottom of the column, and improving the stability of the battery rack. When the battery rack is not in use, the two rectangular ring supports slide into the ring-shaped rectangular base, making the battery rack a vertical rectangular frame shape for easy storage.
[0012] 2. The bottom surface of the limiting plate of this utility model is coplanar with the bottom surface of the annular rectangular seat, ensuring that the bottom surfaces of the annular rectangular seat and the rectangular annular support are coplanar, providing a flat contact bottom surface and stable support, thereby increasing the contact area.
[0013] 3. This utility model ensures convenient switching between the working and idle states of the annular rectangular seat by setting screws and pin holes, as well as a stable connection after switching. Attached Figure Description
[0014] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0015] Figure 1 This is a schematic diagram of the rectangular ring support in the working state of the T-shaped lead-acid battery holder provided by this utility model.
[0016] Figure 2 for Figure 1 Enlarged view of part A in the middle.
[0017] Figure 3 This is a schematic diagram of the rectangular ring support in the T-shaped lead-acid battery holder provided by this utility model when it is in an idle state.
[0018] Figure 4 for Figure 3 Enlarged view of section B in the middle.
[0019] Figure 5 for Figure 3 A schematic diagram of the structure without the rectangular ring support installed.
[0020] Figure 6 for Figure 5 Enlarged view of section C.
[0021] Figure 7 This is a schematic diagram of the rectangular ring support in this utility model.
[0022] Explanation of reference numerals in the attached drawings: 1-Column, 11-Long guard rod, 12-Short guard rod, 2-Shelf, 21-Short support rod, 22-Long support rod, 3-Ring-shaped rectangular base, 31-Limiting slot, 32-Pin hole, 33-First magnet, 4-Ring-shaped rectangular support, 41-Limiting plate, 42-End plate, 421-Screw, 422-Second magnet. Detailed Implementation
[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0024] Example 1:
[0025] like Figures 1 to 7 As shown, this embodiment provides a T-shaped lead-acid battery rack, including: several parallel columns 1 arranged in two rows; several parallel shelves 2 evenly distributed along the length of the columns 1 between the two rows; the bottom ends of the columns 1 are fixedly mounted on an annular rectangular base 3; and rectangular annular supports 4 are symmetrically slidably mounted at both ends of the annular rectangular base 3. When the rectangular annular supports 4 are in the working state, the two rectangular annular supports 4 are pulled out from the annular rectangular base 3 towards both ends, making the battery rack in an inverted T-shape; when the rectangular annular supports 4 are in the idle state, the two rectangular annular supports 4 slide relative to each other into the annular rectangular base 3, making the battery rack a vertical rectangular frame. By symmetrically sliding rectangular ring supports 4 at both ends of the ring-shaped rectangular base 3, when in use, the two rectangular ring supports 4 are pulled out from the inside of the ring-shaped rectangular base 3 to both ends, making the battery rack in an inverted T shape, increasing the grounding area, avoiding damage to the ground at the bottom of the column 1, and improving the stability of the battery rack; when the battery rack is not in use, the two rectangular ring supports 4 slide into the ring-shaped rectangular base 3, making the battery rack a vertical rectangular frame shape, which is convenient for storage.
[0026] For further details, please refer to Figure 6 and Figure 7 As shown, the rectangular ring support 4 includes two parallel limiting plates 41. The cross-section of the limiting plates 41 is T-shaped, and the two ends of the two limiting plates 41 are connected by end plates 42. The left and right side plates of the ring rectangular seat 3 have two T-shaped limiting slots 31 symmetrically opened on their sides. The limiting plates 41 are slidably installed in the limiting slots 31. The bottom surface of the limiting plates 41 is coplanar with the bottom surface of the ring rectangular seat 3, ensuring that the bottom surfaces of the ring rectangular seat 3 and the rectangular ring support 4 are coplanar, providing stable support by ensuring a flat contact with the bottom surface and increasing the contact area.
[0027] For further details, please refer to Figure 6 and Figure 7 As shown, two pin holes 32 are symmetrically opened on the sides of the left and right side plates of the annular rectangular seat 3. Screws 421 are threaded onto the end plate 42. The screws 421 pass through the pin holes 32 and are fastened to the left and right side plates of the annular rectangular seat 3 by nuts. When the rectangular annular support 4 is in the working state, the end plate 42 located inside the annular rectangular seat 3 is fastened to the left and right side plates of the annular rectangular seat 3 by screws 421. When the rectangular annular support 4 is in the idle state, the end plate 42 located outside the annular rectangular seat 3 is fastened to the left and right side plates of the annular rectangular seat 3 by screws 421. By setting screws 421 and pin holes 32, convenient switching between the working and idle states of the annular rectangular seat 3 is ensured, as well as stable connection after switching.
[0028] For further details, please refer to Figure 1 and Figure 3As shown, the shelf 2 includes several short support rods 21 and several long support rods 22. The short support rods 21 are fixedly installed between two corresponding columns 1 in the front and rear rows, and the several long support rods 22 are fixedly installed on the upper surface of the several short support rods 21 in the same shelf 2. The lead-acid batteries in the same layer are placed on the several long support rods 22 to provide stable support.
[0029] For further details, please refer to Figure 1 and Figure 3 As shown, the columns 1 in the same row are connected by long guard rods 11, and the corresponding columns 1 in the front and back rows are connected by short guard rods 12. The long guard rods 11 and short guard rods 12 are located between the two shelves 2 and close to the lower shelf 2. By setting the long guard rods 11 and short guard rods 12 at the bottom between the shelves 2, the safety protection of lead-acid batteries can be ensured without affecting the loading and unloading.
[0030] Example 2:
[0031] Please see Figure 2 , Figure 4 as well as Figure 6 and Figure 7 As shown, for ease of use, the screw 421 in the embodiment can be replaced by a magnet. The specific solution is as follows: two first magnets 33 are embedded in the left and right side plates of the annular rectangular base 3, and a second magnet 422 that attracts the first magnets 33 and corresponds in position is embedded in the end plate 42. By setting the first magnets 33 and the second magnets 422 that attract each other, the convenient switching between the working state and the idle state of the annular rectangular base 3 is ensured, as well as the stable connection after switching.
[0032] Obviously, those skilled in the art can make various modifications and variations to this utility model without departing from its spirit and scope. Therefore, if these modifications and variations fall within the scope of the claims of this utility model and their equivalents, this utility model also intends to include these modifications and variations.
Claims
1. A T-shaped lead-acid battery rack, characterized by include: A number of parallel columns (1) are arranged in two rows, and a number of parallel shelves (2) are evenly distributed between the columns (1) in the two rows. The bottom ends of the columns (1) are fixedly installed on the ring-shaped rectangular base (3), and the two ends of the ring-shaped rectangular base (3) are symmetrically slidably installed with rectangular ring supports (4). When the rectangular ring support (4) is in working condition, the two rectangular ring supports (4) are pulled out from the inside of the ring rectangular seat (3) to both ends, so that the battery rack is in an inverted T shape; When the rectangular ring support (4) is in an idle state, the two rectangular ring supports (4) slide into the ring rectangular seat (3) through relative movement, so that the battery rack is in the shape of a vertical rectangular frame; The rectangular ring support (4) includes two parallel limiting plates (41). The cross-section of the limiting plate (41) is T-shaped. The two ends of the two limiting plates (41) are connected by end plates (42). The left and right side plates of the ring rectangular seat (3) are symmetrically opened with two T-shaped limiting slots (31). The limiting plate (41) is slidably installed in the limiting slot (31). The bottom surface of the limiting plate (41) is coplanar with the bottom surface of the ring rectangular seat (3).
2. The T-type lead-acid battery rack of claim 1, wherein, Two pin holes (32) are symmetrically opened on the sides of the left and right side plates of the annular rectangular seat (3). A screw (421) is threaded on the end plate (42). The screw (421) passes through the pin hole (32) and the end plate (42) is fastened to the left and right side plates of the annular rectangular seat (3) by a nut. When the rectangular ring support (4) is in working condition, the end plate (42) located inside the ring rectangular seat (3) is fastened to the left and right side plates of the ring rectangular seat (3) by screws (421); When the rectangular ring support (4) is in an idle state, the end plate (42) located outside the ring rectangular seat (3) is fastened to the left and right side plates of the ring rectangular seat (3) by screws (421).
3. The T-type lead-acid battery rack of claim 1, wherein, Two first magnets (33) are embedded in the left and right side plates of the annular rectangular base (3), and a second magnet (422) is embedded in the end plate (42) that attracts the first magnets (33) and is positioned accordingly.
4. The T-type lead-acid battery rack of claim 1, wherein, The shelf (2) includes several short support rods (21) and several long support rods (22). The short support rods (21) are fixedly installed between two corresponding columns (1) in the front and rear rows. The several long support rods (22) are fixedly installed on the upper surface of several short support rods (21) in the same shelf (2).
5. The T-type lead-acid battery rack of claim 4, wherein, The columns (1) in the same row are connected by long guard rods (11), and the corresponding columns (1) in the front and back rows are connected by short guard rods (12); the long guard rods (11) and the short guard rods (12) are located between the two shelves (2) and close to the shelf (2) below.