A household energy storage sodium battery folding multi-purpose storage packaging box

Abstract

The utility model discloses a kind of folding multi-purpose storage packing boxes of household energy storage sodium battery, belong to packing box technical field.This kind of folding multi-purpose storage packing boxes of household energy storage sodium battery, including energy storage component, foldable box and partition, energy storage component is used to store energy charging, foldable box is used to realize unfolding energy storage folding foldable, foldable box includes top plate, the outside both sides of top plate are connected with first movable seat, the inside rotation of first movable seat is connected with first fixed seat, the outside of first fixed seat is located center and is installed with upper side plate, second movable seat is installed at the end of first fixed seat away from upper side plate, the inside rotation of second movable seat is connected with second fixed seat, second fixed seat, the outside of second fixed seat is located center and is installed with lower side plate, third movable seat is installed at the end of second fixed seat away from lower side plate, the inside rotation of third movable seat is connected with third fixed seat, a pair of third fixed seat is connected with bottom plate.

Description

Technical Field

[0001] This utility model relates to the field of packaging box technology, specifically a foldable multi-purpose storage packaging box for household energy storage sodium batteries. Background Technology

[0002] Storage boxes are containers used to store and protect various items, and are widely used in homes, businesses, and industries. Storage boxes include plastic, wooden, paper, metal, and fabric boxes, among others. In home storage, they help organize clothing, bedding, books, toys, and miscellaneous items, making the home environment more tidy and organized. They can also be used to store seasonal items, saving space.

[0003] Based on the above, the inventors have discovered the following problems: the current packaging boxes adopt an integrated design, which cannot be folded and stored, occupy space when not in use, and cannot achieve the integration of energy storage and storage functions. For example, when camping outdoors, users need to carry separate energy storage power supplies and storage boxes, which is cumbersome.

[0004] Therefore, in view of this, we have studied and improved the existing structure and its shortcomings, and provided a foldable multi-purpose storage box for household sodium storage batteries, in order to achieve a more practical value. Utility Model Content

[0005] The purpose of this invention is to provide a foldable multi-purpose storage box for household sodium storage batteries, in order to solve the problems mentioned in the background art.

[0006] In view of the above problems, the technical solution proposed by this utility model is as follows:

[0007] A foldable multi-purpose storage box for household sodium storage batteries includes an energy storage component, a foldable box body, and a partition. The foldable box body is disposed on one side of the energy storage component, and the partition is disposed inside the foldable box body. The energy storage component is used for energy storage and charging, and the foldable box body is used for unfolding for energy storage and folding for storage. The foldable box body includes a top plate, and first movable seats are connected to both outer sides of the top plate. A first fixed seat is rotatably connected inside the first movable seat. An upper side plate is installed at the center of the outer side of the first fixed seat. A second movable seat is installed at the end of the upper side plate away from the first fixed seat. A second fixed seat is rotatably connected inside the second movable seat. A lower side plate is installed at the center of the outer side of the second fixed seat. A third movable seat is installed at the end of the lower side plate away from the second fixed seat. A third fixed seat is rotatably connected inside the third movable seat. A bottom plate is connected between the pair of third fixed seats.

[0008] Furthermore, each of the two opposing sides of the upper side plates has a sliding groove, and the partition plate is disposed between the two sliding grooves. The two ends of the partition plate extend into the interior of the two sliding grooves, and the outer walls of the two ends of the partition plate slide in cooperation with the inner walls of the two sliding grooves. A cavity is formed between the upper side plate, the lower side plate, the top plate, and the inner wall of the top plate. The partition plate divides the cavity into an upper cavity and a lower cavity of different sizes.

[0009] The beneficial effects of adopting the above-mentioned further solution are that the partition divides the interior of the cabinet into different areas, making it easier for users to classify and store items. For example, daily necessities can be placed in the lower cavity, making storage more organized and easier to access. By separating the storage space of the lower cavity from the partition, the pressure or collision of stored items on the sodium storage battery can be reduced. At the same time, the space of the upper cavity is relatively independent, which facilitates heat dissipation management of the battery.

[0010] Furthermore, the energy storage component includes a back plate, and positioning holes are respectively provided at the four corners of one side of the back plate. The inner walls of a pair of positioning holes near the top plate are respectively attached to the outer walls of one end of the two first fixing seats, and the inner walls of a pair of positioning holes near the bottom plate are respectively attached to the outer walls of one end of the two third fixing seats.

[0011] The beneficial effects of adopting the above-mentioned further solution are that the positioning hole provides a clear positioning reference for the installation of the energy storage component, making it easier for users to quickly install the energy storage component; the close connection between the positioning hole and the fixing seat ensures that there will be no relative displacement between the energy storage component and the housing, so that the entire equipment maintains structural stability during use, handling or folding.

[0012] Furthermore, the back plate is disposed on one side of the top plate, upper side plate, lower side plate and bottom plate, and one side of the back plate is in contact with one side of the top plate, upper side plate, lower side plate and bottom plate. The back plate is equipped with upper connecting buckles on both outer sides near the top plate and lower connecting buckles on both outer sides near the bottom plate. The cross-section of the upper connecting buckle and the lower connecting buckle is "L" shaped, and the inner wall of the upper connecting buckle and the lower connecting buckle is in contact with the outer wall of the upper side plate and the lower side plate, respectively.

[0013] The beneficial effect of adopting the above-mentioned further solution is that the L-shaped connecting buckle fits snugly against the outer wall of the side panel, which can apply restraint force to the side panel from multiple directions, effectively preventing the side panel from shaking or deforming during use, and improving the structural strength and stability of the entire box.

[0014] Furthermore, both the upper and lower connecting buckles have a first screw hole inside, and the upper and lower side plates have a second screw hole near the first screw hole. A bolt is threaded between adjacent first and second screw holes.

[0015] The beneficial effect of adopting the above-mentioned further solution is that the bolt connection has a high tightening force, which can ensure that the connection between the back plate and the side plate is firm and reliable, and is not easy to loosen when the equipment is subjected to vibration or external force; the operator can install or remove the back plate and the upper side plate and the lower side plate by tightening or loosening the bolts.

[0016] Furthermore, a charging interface is provided on the back plate, and an energy storage sodium battery is installed on the side of the back plate near the partition plate, the energy storage sodium battery being located inside the upper cavity.

[0017] The advantages of adopting the above-mentioned further solution are that the charging interface is located on the back panel, which makes it convenient for users to directly connect the charging cable from the outside of the box to charge the sodium storage battery, thus improving the convenience and efficiency of the charging operation; the sodium storage battery is located in the upper cavity, and the lower cavity below the partition plate is used for storage, which realizes a reasonable division between the energy storage function and the storage function, making full use of the internal space of the equipment, while avoiding mutual interference between the sodium storage battery and the stored items, thus improving the safety and functionality of the equipment.

[0018] Furthermore, the back plate is made of brass.

[0019] The beneficial effect of adopting the above-mentioned further solution is that brass has good thermal conductivity, which can quickly conduct away the heat generated by the sodium storage battery during charging or discharging, effectively reduce the temperature of the sodium storage battery, prevent the sodium storage battery from being affected by overheating, and improve the safety and stability of the sodium storage battery.

[0020] Compared with the prior art, the beneficial effects of this utility model are as follows: This foldable multi-purpose storage box for household sodium energy storage batteries is rotatably connected by a top plate, a first movable seat, a first fixed seat, an upper side plate, a second movable seat, a second fixed seat, a lower side plate, a third movable seat, a third fixed seat, and a bottom plate, allowing the box to be unfolded and folded. When unfolded, the upper and lower side plates are perpendicular to the top and bottom plates, forming a complete storage and energy storage space. When folded, the upper and lower side plates can be flipped inward along the rotatable connection point between the movable and fixed seats, reducing the thickness of the box. The partition plate divides the interior of the box into different areas, making it convenient for users to classify and store items. For example, daily necessities can be placed in the lower cavity. The partition plate separates the upper and lower cavities, reducing the pressure or collision of stored items on the sodium energy storage battery. At the same time, the space in the upper cavity is relatively independent, which facilitates heat dissipation management of the battery. By setting up an energy storage component, the sodium energy storage battery is charged and stored during off-peak electricity hours at night, which is convenient for powering external devices in emergency situations or outdoor situations. Attached Figure Description

[0021] Figure 1 A three-dimensional structural diagram of a foldable multi-purpose storage box for household sodium storage batteries provided by this utility model;

[0022] Figure 2 A three-dimensional structural diagram of the back panel of a foldable multi-purpose storage box for household sodium storage batteries provided by this utility model;

[0023] Figure 3 A schematic diagram of the exploded three-dimensional structure of the foldable box body of a foldable multi-purpose storage box for household energy storage sodium batteries provided by this utility model;

[0024] Figure 4 This utility model provides a foldable multi-purpose storage box for household sodium storage batteries. Figure 2 Enlarged schematic diagram of structure A in the middle;

[0025] Figure 5 This is a front cross-sectional view of the divider and back panel of a foldable multi-purpose storage box for household sodium storage batteries provided by this utility model.

[0026] In the diagram: 1. Energy storage component; 11. Back plate; 12. Positioning hole; 13. Upper connecting buckle; 14. Lower connecting buckle; 15. Bolt; 16. Charging interface; 17. Energy storage sodium battery; 2. Foldable housing; 21. Top plate; 22. First movable seat; 23. First fixed seat; 24. Upper side plate; 25. Second movable seat; 26. Second fixed seat; 27. Lower side plate; 28. Third movable seat; 29. ​​Third fixed seat; 210. Bottom plate; 211. Slide groove; 3. Divider plate. Detailed Implementation

[0027] 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.

[0028] Please see Figures 1-5This utility model provides a technical solution: a foldable multi-purpose storage packaging box for household sodium storage batteries, including an energy storage component 1, a foldable box body 2, and a partition plate 3. The foldable box body 2 is disposed on one side of the energy storage component 1, and the partition plate 3 is disposed inside the foldable box body 2. The energy storage component 1 is used for energy storage and charging, and the foldable box body 2 is used to realize unfolding for energy storage and folding for storage. The foldable box body 2 includes a top plate 21, and first movable seats 22 are connected to both sides of the outer side of the top plate 21. A first fixed seat 23 is rotatably connected inside the first movable seat 22. An upper side plate 24 is installed at the center of the outer side of the first fixed seat 23. A second movable seat 25 is installed at the end of the upper side plate 24 away from the first fixed seat 23. A second fixed seat 26 is rotatably connected inside the second movable seat 25. A lower side plate 27 is installed at the center of the outer side of the second fixed seat 26. A third movable seat 28 is installed at the end away from the second fixed seat 26. The third movable seat 28 is rotatably connected to a third fixed seat 29. A bottom plate 210 is connected between a pair of third fixed seats 29. Through the rotatable connection of the top plate 21, the first movable seat 22, the first fixed seat 23, the upper side plate 24, the second movable seat 25, the second fixed seat 26, the lower side plate 27, the third movable seat 28, the third fixed seat 29 and the bottom plate 210, the packaging box can be unfolded and folded. When unfolded, the upper side plate 24 and the lower side plate 27 are perpendicular to the top plate 21 and the bottom plate 210, forming a complete storage and energy storage space. When folded, the upper side plate 24 and the lower side plate 27 can be flipped inward along the rotatable connection point between the movable seat and the fixed seat, reducing the thickness of the box. By setting the energy storage component 1, the sodium storage battery 17 is charged and stored during off-peak electricity hours at night, which is convenient for powering external equipment in emergency situations, outdoor situations and other circumstances.

[0029] 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.

[0030] Please see Figures 1-5This utility model provides a technical solution: a pair of upper side plates 24 each have a groove 211 inside their opposite sides, a partition plate 3 is disposed between the pair of grooves 211, and the two ends of the partition plate 3 extend into the interior of the pair of grooves 211 respectively. The outer walls of the two ends of the partition plate 3 slide and engage with the inner walls of the pair of grooves 211 respectively. A cavity is formed between the upper side plate 24, the lower side plate 27, the top plate 21 and the inner wall of the top plate 21. The partition plate 3 divides the cavity into an upper cavity and a lower cavity of different sizes. The partition plate 3 divides the interior of the box into different areas, which makes it convenient for users to classify and store items. For example, daily sundries are placed in the lower cavity. By separating the upper cavity and the lower cavity by the partition plate 3, the pressure or collision of stored items on the sodium storage battery 17 can be reduced. At the same time, the space of the upper cavity is relatively independent, which facilitates heat dissipation management of the battery.

[0031] 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.

[0032] Please see Figures 1-5This utility model provides a technical solution: the energy storage component 1 includes a back plate 11, with positioning holes 12 respectively opened at the four corners of one side of the back plate 11. The inner walls of a pair of positioning holes 12 near the top plate 21 are respectively attached to the outer walls of one end of two first fixing seats 23, and the inner walls of a pair of positioning holes 12 near the bottom plate 210 are respectively attached to the outer walls of one end of two third fixing seats 29. The back plate 11 is disposed on one side of the top plate 21, the upper side plate 24, the lower side plate 27 and the bottom plate 210, and one side of the back plate 11 is attached to the top plate 21 and the upper side plate 24. The lower side plate 27 and the bottom plate 210 are attached to each other. The back plate 11 has upper connecting buckles 13 installed on both outer sides near the top plate 21, and lower connecting buckles 14 installed on both outer sides near the bottom plate 210. The cross-sections of the upper and lower connecting buckles 13 and 14 are both "L"-shaped. The inner walls of the upper and lower connecting buckles 13 and 14 are respectively attached to the outer walls of the upper side plate 24 and the lower side plate 27. The upper and lower connecting buckles 13 and 14 each have a first screw hole inside. The upper side plate 24 and the lower side plate 27 have holes near the first screw hole. A second screw hole is provided at the opening, and a bolt 15 is threaded between the adjacent first and second screw holes. A charging interface 16 is provided on the back plate 11. An energy storage sodium battery 17 is installed on the side of the back plate 11 near the partition plate 3. The energy storage sodium battery 17 is located in the upper cavity. The back plate 11 is made of brass. When installing, the foldable box 2 is unfolded, and then the positioning hole 12 of the back plate 11 is aligned and engaged with one end of the first fixing seat 23 and the second fixing seat 26. The first screw holes on the two upper connecting buckles 13 are aligned with the second screw holes on the two upper side plates 24. Align the first screw holes on the two lower connecting buckles 14 with the second screw holes on the two lower side plates 27, and tighten the bolts 15 to complete the installation of the back plate 11 and thus complete the assembly of the entire packaging box. The charging interface 16 is located on the back plate 11, which makes it convenient for users to directly connect the charging cable from the outside of the box to charge the sodium storage battery 17, improving the convenience and efficiency of the charging operation. Brass has good thermal conductivity and can quickly conduct away the heat generated by the sodium storage battery 17 during charging or discharging, effectively reducing the temperature of the sodium storage battery 17.

[0033] Specifically, the working principle of this household energy storage sodium battery folding multi-purpose storage packaging box is as follows: When the packaging box is assembled, the partition 3 divides the interior of the box into different areas, making it convenient for users to classify and store items. For example, daily necessities are placed in the lower cavity. The partition 3 separates the upper cavity from the lower cavity, which can reduce the squeezing or collision of stored items with the energy storage sodium battery 17. At the same time, the space of the upper cavity is relatively independent, which facilitates heat dissipation management of the battery. By setting the energy storage component 1, the energy storage sodium battery 17 is charged and stored during off-peak electricity prices at night, which can be used to power external devices in emergency situations, outdoor situations, etc. When the packaging box is not in use and needs to be folded to reduce the space occupied, first pull out the partition 3, then loosen and remove the bolt 15, and remove the back plate 11. The upper side plate 24 and the lower side plate 27 can be flipped inward along the rotation connection point of the movable seat and the fixed seat, so that the thickness of the box is reduced.

[0034] It should be noted that all standard parts used in this application can be purchased from the market, and can be customized according to the description and drawings. The specific connection methods of each part adopt conventional methods such as bolts, rivets, and welding that are mature in the prior art. The machinery, parts and equipment adopt conventional models in the prior art. Furthermore, since this application is mainly used to protect mechanical devices, the control methods and circuit connections will not be explained in detail in this application.

Claims

1. A foldable multi-purpose storage box for household sodium storage batteries, characterized in that, The device includes an energy storage component (1), a foldable housing (2), and a partition (3). The foldable housing (2) is located on one side of the energy storage component (1), and the partition (3) is located inside the foldable housing (2). The energy storage component (1) is used for energy storage and charging, and the foldable housing (2) is used to realize energy storage and foldable storage. The foldable housing (2) includes a top plate (21), and first movable seats (22) are connected to both sides of the top plate (21). A first fixed seat (23) is rotatably connected inside the first movable seat (22), and the outside of the first fixed seat (23) is located at the center. An upper side plate (24) is installed, and a second movable seat (25) is installed at the end of the upper side plate (24) away from the first fixed seat (23). A second fixed seat (26) is rotatably connected inside the second movable seat (25). A lower side plate (27) is installed at the center of the exterior of the second fixed seat (26). A third movable seat (28) is installed at the end of the lower side plate (27) away from the second fixed seat (26). A third fixed seat (29) is rotatably connected inside the third movable seat (28). A base plate (210) is connected between a pair of third fixed seats (29).

2. The foldable multi-purpose storage box for household sodium storage batteries according to claim 1, characterized in that, Each of the two upper side plates (24) has a groove (211) on its opposite side. The partition plate (3) is located between the two grooves (211). The two ends of the partition plate (3) extend into the interior of the two grooves (211). The outer walls of the two ends of the partition plate (3) slide in cooperation with the inner walls of the two grooves (211).

3. A foldable multi-purpose storage box for household sodium storage batteries according to claim 1, characterized in that, The energy storage component (1) includes a back plate (11). Positioning holes (12) are respectively provided at the four corners of one side of the back plate (11). The inner walls of a pair of positioning holes (12) near the top plate (21) are respectively attached to the outer walls of one end of two first fixing seats (23). The inner walls of a pair of positioning holes (12) near the bottom plate (210) are respectively attached to the outer walls of one end of two third fixing seats (29).

4. A foldable multi-purpose storage box for household sodium storage batteries according to claim 3, characterized in that, The back plate (11) is disposed on one side of the top plate (21), the upper side plate (24), the lower side plate (27) and the bottom plate (210), and one side of the back plate (11) is in contact with one side of the top plate (21), the upper side plate (24), the lower side plate (27) and the bottom plate (210). The back plate (11) is equipped with upper connecting buckles (13) on both outer sides near the top plate (21) and lower connecting buckles (14) on both outer sides near the bottom plate (210). The cross-sections of the upper connecting buckles (13) and the lower connecting buckles (14) are both "L" shaped. The inner walls of the upper connecting buckles (13) and the lower connecting buckles (14) are in contact with the outer walls of the upper side plate (24) and the lower side plate (27) respectively.

5. A foldable multi-purpose storage box for household sodium storage batteries according to claim 4, characterized in that, The upper connecting buckle (13) and the lower connecting buckle (14) are both provided with a first screw hole. The upper side plate (24) and the lower side plate (27) are provided with a second screw hole near the first screw hole. A bolt (15) is threaded between the adjacent first screw hole and the second screw hole.

6. A foldable multi-purpose storage box for household sodium storage batteries according to claim 5, characterized in that, A charging interface (16) is provided on the back plate (11), and an energy storage sodium battery (17) is installed on the side of the back plate (11) near the partition plate (3). The energy storage sodium battery (17) is located in the upper cavity.

7. A foldable multi-purpose storage box for household sodium storage batteries according to claim 6, characterized in that, The back plate (11) is made of brass.

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