A base station fire-fighting tool box for electric power engineering

By combining the first and second box structures and connecting parts, the problems of mixed tools and insufficient stability in traditional toolboxes are solved, enabling the classified storage and secure enclosure of fire-fighting tools, and improving the emergency response capability of power engineering base stations.

CN224464659UActive Publication Date: 2026-07-07SHANDONG QIHAO CONSTR ENG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG QIHAO CONSTR ENG CO LTD
Filing Date
2025-08-12
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Traditional power engineering base station fire-fighting toolboxes have an unreasonable structure, resulting in tools being mixed together, easily damaged, and lacking in sealing and stability, which affects their use and lifespan.

Method used

The system employs a combination structure of a first housing and a symmetrically arranged second housing. The connection and relative movement are achieved through connectors. The two ends of the second housing are rotatably connected to the top cover to form an independent storage space. The stability is enhanced by the cooperation of the rotating block and the slot and the friction of the friction strip. The connecting rod provides support, and the sealing ring increases friction and sealing.

Benefits of technology

It enables the categorized storage of fire-fighting tools, improving accessibility and tool safety, ensuring that the toolboxes are not easily opened or fall apart during transport, and enhancing emergency response speed.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224464659U_ABST
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Abstract

The utility model discloses a base station fire fighting tool box for electric power engineering, including first box, its characterized in that the upside of first box is provided with the second box of symmetrical setting, the second box is connected first box through connecting piece, the downside of second box can be attached the upside of first box, the utility model relates to base station fire fighting tool box equipment technical field for electric power engineering, specifically, it is related to a kind of base station fire fighting tool box for electric power engineering, adopt first box and the combination structure of second box of symmetrical setting, realize connection and relative motion by connecting piece. Second box both ends rotary connection upper cover, form independent storage space, can classify the storage of different types of fire fighting tools, first box can store larger fire fighting tool, second box and upper cover closed space can be used to store small, easily lost fire fighting tool or accessory, avoid tool mixed, facilitate user to find required tool quickly.
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Description

Technical Field

[0001] This utility model relates to the technical field of fire-fighting toolboxes for power engineering, and more specifically, to a fire-fighting toolbox for base stations used in power engineering. Background Technology

[0002] Fire safety is crucial in the daily operation of power engineering base stations, and the proper storage of fire-fighting tools is key to ensuring their effective use in emergencies. Currently, traditional fire-fighting toolboxes are mostly single-box structures with unclear internal space divisions, resulting in different types of tools being stored together. This not only makes them inconvenient to access but also easily leads to collisions and damage. Furthermore, traditional toolboxes lack adequate sealing and stability, potentially leading to tools falling, getting damp, or entering dust during transport or in the base station environment, affecting their performance and lifespan. Therefore, there is an urgent need for a fire-fighting toolbox with a reasonable structure, convenient storage, and a secure, sealed design to meet the fire safety requirements of power engineering base stations. Utility Model Content

[0003] The technical problem this utility model aims to solve is to provide a fire-fighting toolbox for power engineering base stations. It employs a combination structure of a first box and symmetrically arranged second boxes, connected and allowing relative movement via connectors. The two ends of the second box are rotatably connected to a top cover, forming independent storage spaces. This allows for the categorized storage of different types of fire-fighting tools. The first box can store larger fire-fighting tools, while the second box and the enclosed space of the top cover can be used to store small, easily lost fire-fighting tools or accessories, preventing tool mixing and facilitating quick retrieval of necessary tools.

[0004] A fire-fighting toolbox for power engineering base stations includes a first box body. The first box body has a symmetrically arranged second box body on its upper side. The second box body is connected to the first box body via a connector. The lower side of the second box body fits against the upper side of the first box body. The two ends of the second box body are rotatably connected to the two ends of a top cover, which matches the second box body. Side strips are fixedly connected to opposite sides of the upper side of the top cover. A rotating block is rotatably connected to the upper side of one of the top covers. The rotating block has a circular structure with a flat surface. The two side strips have slots corresponding to the positions of the rotating block, allowing the rotating block to engage with the slots.

[0005] Furthermore, a set of friction strips arranged in a specific pattern are fixed at the upper edge of the rotating block.

[0006] Furthermore, the friction strip is a rubber strip that can contact the upper side of the slot. When the friction strip enters the slot along with the rotating block, the friction strip can deform under the action of extrusion force.

[0007] Furthermore, a knob is fixedly provided at the upper center of the rotating block.

[0008] Furthermore, the connecting member is a connecting rod, and the two ends of each second box are respectively rotatably connected to one end of the symmetrical connecting rod corresponding to one side of the middle part of the first box, and the other end of each pair of connecting rods is respectively rotatably connected to the lower outer part of the two ends of the first box.

[0009] Furthermore, when the rotating block disengages from the slot and the connecting rod swings outward to open, the lower part of the second housing, corresponding to one side of the first housing, can be positioned at the upper edge of the first housing, at which point the upper opening of the first housing is exposed.

[0010] Furthermore, the lid is rotatably connected to a handle.

[0011] Furthermore, a sealing ring is fixedly provided on the upper side of the first box to increase the friction between it and the second box.

[0012] Compared with the prior art, the advantages and positive effects of this utility model are:

[0013] The system employs a combination structure of a first housing and a symmetrically arranged second housing, connected and allowing relative movement via connectors. The second housing has a rotating top cover at both ends, forming independent storage spaces. This allows for the categorized storage of different types of fire-fighting tools. The first housing can store larger fire-fighting tools, while the second housing and the enclosed space under the top cover can be used to store smaller, easily lost fire-fighting tools or accessories, preventing tools from becoming mixed up and allowing users to quickly find the tools they need.

[0014] The upper cover is fixed by the cooperation of the rotating block on the top cover and the slot on the side strip, thus ensuring the closed state of the second box. The friction strip on the rotating block increases the connection stability and prevents the rotating block from easily rotating or loosening in the slot. The upper cover rotatably connected to both ends of the second box matches the second box. The rotating block and the slot achieve a stable seal, ensuring that the second box and the first box are in a closed state when the rotating block is inserted into the slot. Especially when the friction strip is a rubber strip, it deforms under the action of extrusion force, which can further fill the gap, increase friction and sealing, and ensure that the toolbox will not be easily opened or fall apart during handling, vibration and other processes, thus ensuring the safe storage of tools.

[0015] The knob design at the center of the upper side of the rotating block allows users to easily and manually rotate the block to open and close the top cover without the need for other tools. The connecting rod acts as a connector, enabling the second compartment to swing relative to the first compartment. When the connecting rod swings outward and opens, the upper opening of the first compartment is exposed, allowing users to quickly and comprehensively access the fire-fighting tools inside, thus improving emergency response speed.

[0016] The sealing ring on the upper side of the first housing is compressed when the second housing is attached, filling the gap between the two and effectively increasing friction and sealing. Attached Figure Description

[0017] The accompanying drawings, which are included to provide a further understanding of this application and form part of this application, illustrate exemplary embodiments and are used to explain this application, but do not constitute an undue limitation of this application. Obviously, the drawings described below are merely some embodiments of this utility model, and those skilled in the art can obtain other drawings based on these drawings without creative effort. In the drawings:

[0018] Figure 1 The three-dimensional representation of this utility model Figure 1 ;

[0019] Figure 2 For the present utility model Figure 1 A magnified view of a section at point A in the middle;

[0020] Figure 3 A perspective view of the second housing and top cover of this utility model when opened;

[0021] Figure 4 The three-dimensional representation of this utility model Figure 2 ;

[0022] Figure 5 The three-dimensional representation of this utility model Figure 3 ;

[0023] In the diagram: 1. Top cover; 2. Second housing; 3. First housing; 4. Connecting rod; 5. Handle; 6. Side strip; 7. Rotating block; 8. Friction strip; 9. Slot; 10. Knob; 11. Rubber ring. Detailed Implementation

[0024] The present invention will be further described below with reference to the accompanying drawings and embodiments:

[0025] A fire-fighting toolbox for power engineering base stations includes a first box body 3. The first box body 3 has a symmetrically arranged second box body 2 on its upper side. The second box body 2 is connected to the first box body 3 via a connector. The lower side of the second box body 2 fits against the upper side of the first box body 3. The two ends of the second box body 2 are rotatably connected to the two ends of an upper cover 1, which matches the second box body 2. Side strips 6 are fixedly connected to opposite sides of the upper side of the upper cover 1. A rotating block 7 is rotatably connected to the upper side of one of the upper covers 1. The rotating block 7 is a circular structure with a flat surface. The two side strips 6 have slots 9 corresponding to the positions of the rotating block 7, allowing the rotating block 7 to be inserted into the slots 9.

[0026] The first housing 3 is connected to the symmetrically arranged second housing 2 via connectors, enabling relative movement and combination between the two. The top covers 1, rotatably connected to both ends of the second housing 2, match the housing to form a closed space. The side strips 6 on opposite sides of the top covers 1 are provided with slots 9, which cooperate with the planar circular rotating block 7 rotatably connected to one of the top covers 1. The rotation of the rotating block 7 achieves engagement or disengagement with the slot 9. When the rotating block 7 is engaged with the slot 9, the relative position of the two top covers 1 is fixed by mechanical limiting, thereby keeping the second housing 2 in a closed state. At the same time, the lower side of the second housing 2 can fit against the first housing 3. The upper part forms an integral structure, enabling the toolbox to have layered storage function. The first box 3 can store large fire-fighting tools, while the enclosed space formed by the second box 2 and the top cover 1 can store small tools or accessories, realizing the classification and storage of tools and improving the convenience of access. The cooperation between the rotating block 7 and the slot 9 provides a convenient way to fix the top cover 1. When the rotating block 7 is inserted into the slot 9, the second box 2 and the first box 3 are in a locked state, ensuring that the first and second boxes are stably closed during transportation and use, preventing the tools inside from falling out. The connector ensures the combination stability of the first box 3 and the second box 2.

[0027] A set of evenly arranged friction strips 8 are fixed at the upper edge of the rotating block 7. With the friction strips 8 on the rotating block 7, when the rotating block 7 rotates and engages with the slot 9, the friction strips 8 will contact the inner wall of the slot 9. The friction of the friction strips 8 increases the connection stability between the rotating block 7 and the slot 9, preventing the rotating block 7 from easily rotating or loosening within the slot 9. This further enhances the firmness of the connection between the second housing 2 and the first housing 3, ensuring that the toolbox will not easily open or fall apart during use. The more rotating blocks 7 are engaged in the slot 9, the more secure the connection.

[0028] The friction strip 8 is a rubber strip that can contact the upper side strip 6 inside the slot 9. When the friction strip 8 enters the slot 9 along with the rotating block 7, it deforms under the pressure. The rubber strip is elastic, and when it enters the slot 9 along with the rotating block 7, it deforms under the pressure of the inner wall of the slot 9, filling the gaps in the slot 9 and further increasing the friction and sealing performance.

[0029] This design improves the fixing effect between the rotating block 7 and the slot 9, making the toolbox more stable during transportation and other processes.

[0030] A knob 10 is fixedly installed at the center of the upper side of the rotating block 7. The knob 10 at the center of the upper side of the rotating block 7 allows the user to manually rotate the rotating block 7. By applying external force through the knob 10, the rotating block 7 can be easily inserted into or rotated out of the slot 9, improving the convenience of operation. The user can easily open or close the toolbox without the need for other tools.

[0031] The connecting component is a link 4. Each end of the second housing 2 is rotatably connected to one end of a symmetrical link 4, corresponding to one side of the middle of the first housing 3. The other end of each pair of link 4 is rotatably connected to the lower outer sides of both ends of the first housing 3. Using the link 4 as the connecting component, the rotational characteristics of the link 4 allow the second housing 2 to swing relative to the first housing 3. The second housing 2 is rotatably connected to the first housing 3 via the link 4. When the link 4 swings, it moves the second housing 2, enabling it to be opened. This allows users to easily open the second housing 2 and retrieve the fire-fighting tools inside the first housing 3. Simultaneously, the connection method of the link 4 also provides a certain degree of support and stability to the second housing 2.

[0032] When the rotating block 7 disengages from the slot 9 and the connecting rod 4 swings outward to open, the lower part of the second box 2, corresponding to one side of the first box 3, can be positioned at the upper edge of the first box 3, thus exposing the upper opening of the first box 3. When the second box 2 is pulled, the connecting rod 4 swings outward, and the lower part of the second box 2 gradually moves away from the upper surface of the first box 3 until the lower part of the second box 2 is positioned at the upper edge of the first box 3, thereby exposing the upper opening of the first box 3. This allows the internal space of the first box 3 to be exposed, facilitating quick and comprehensive access to the fire-fighting tools inside and improving emergency response speed.

[0033] The lid is rotatably connected to the handle 5. The handle 5 allows the lid 1 to be easily opened or closed. By utilizing the matching relationship between the lid 1 and the second box 2, the second box 2 is closed, providing an additional sealing structure for the second box 2. This can be used to store some small, easily lost fire-fighting tools or accessories, preventing them from falling or being lost. At the same time, the handle 5 makes it convenient for users to operate the opening and closing of the lid 1.

[0034] A sealing ring is fixedly installed on the upper side of the first housing 3 to increase the friction between it and the second housing 2. The sealing ring is elastic. When the second housing 2 is attached to the first housing 3, the sealing ring is compressed and fills the gap between the first housing 3 and the second housing 2, increasing the friction and sealing between them.

[0035] The method of using this utility model is as follows: Hold the knob 10 of the rotating block 7 on the top cover 1 and rotate the knob 10 in the direction that makes the rotating block 7 disengage from the slot 9, so that the rotating block 7 rotates until the rotating block 7 is completely rotated out of the slot 9 of the side strip 6, releasing the fixation between the top covers 1, opening the top cover 1, and then pulling the second box 2 outward. Since the second box 2 is rotatably connected to the first box 3 through the connecting rod 4, the second box 2 drives the connecting rod 4 to swing, so that the lower part of the second box 2 gradually leaves the upper surface of the first box 3 until the lower part of the second box 2 is placed at the upper edge of the first box 3. At this time, the upper opening of the first box 3 is exposed, and the required fire-fighting tools can be taken out from the inside of the first box 3.

[0036] Pull the second box 2 in the opposite direction to cause the connecting rod 4 to swing in the opposite direction, so that the lower side of the second box 2 gradually fits into the upper side of the first box 3. Cover the top cover 1, hold the knob 10 and rotate it in the direction that makes the rotating block 7 fit into the slot 9 until the rotating block 7 fits into the slot 9 of the side strip 6, thus completing the fixation between the top covers 1 and closing the first box 3.

[0037] Hold the handle 5 on the top cover 1 or operate the top cover 1 directly, turn the knob 10 in the direction that causes the rotating block 7 to disengage from the slot 9, open the top cover 1, take out small fire-fighting tools or accessories from inside the second box 2, after taking them out, close the top cover 1, hold the knob 10, and turn it in the direction that causes the rotating block 7 to engage with the slot 9, until the rotating block 7 engages with the slot 9 of the side strip 6, and the second box 2 is closed.

[0038] With all boxes and the top cover 1 closed and secured, the toolbox can be moved through appropriate stress points. Due to the stable connection between the rotating block 7 and the slot 9, as well as the effect of the sealing ring, the toolbox can remain stable and sealed during transportation.

[0039] The above-disclosed embodiments are merely specific examples of this utility model. However, this utility model is not limited thereto, and any variations that can be conceived by those skilled in the art should fall within the protection scope of this utility model.

Claims

1. A fire-fighting toolbox for power engineering base stations, comprising a first box body (3), characterized in that, The first box (3) is provided with a symmetrically arranged second box (2) on its upper side. The second box (2) is connected to the first box (3) through a connector. The lower side of the second box (2) can fit against the upper side of the first box (3). The two ends of the second box (2) are respectively rotatably connected to the two ends of the cover (1). The cover (1) matches the second box (2). The upper side of the cover (1) is fixedly connected to the opposite side of the upper side of the cover (1). The upper side of one cover (1) is rotatably connected to a rotating block (7). The rotating block (7) is a circular structure with a flat surface. The two side strips (6) are provided with slots (9) corresponding to the position of the rotating block (7). The rotating block (7) can be inserted into the slots (9).

2. The fire-fighting toolbox for power engineering base stations according to claim 1, characterized in that, A set of friction strips (8) arranged in a row are fixed at the upper edge of the rotating block (7).

3. The fire-fighting toolbox for power engineering base stations according to claim 2, characterized in that, The friction strip (8) is a rubber strip that can contact the upper side strip (6) inside the slot (9). When the friction strip (8) enters the slot (9) along with the rotating block (7), the friction strip (8) can deform under the action of extrusion force.

4. A fire-fighting toolbox for power engineering base stations according to claim 2, characterized in that, A knob (10) is fixedly installed at the center of the upper side of the rotating block (7).

5. A fire-fighting toolbox for power engineering base stations according to any one of claims 3 or 4, characterized in that, The connecting component is a connecting rod (4). Each end of the second box (2) is rotatably connected to one end of the symmetrical connecting rod (4) corresponding to one side of the middle part of the first box (3). The other end of each pair of connecting rods (4) is rotatably connected to the lower outer part of both ends of the first box (3).

6. A fire-fighting toolbox for power engineering base stations according to claim 5, characterized in that, When the rotating block (7) disengages from the slot (9) and the connecting rod (4) swings outward and opens, the lower part of the second box (2) can be positioned on the upper edge of the first box (3), and the upper opening of the first box (3) is exposed.

7. A fire-fighting toolbox for power engineering base stations according to claim 6, characterized in that, The upper cover (1) is rotatably connected to the handle (5).

8. A fire-fighting toolbox for power engineering base stations according to claim 7, characterized in that, A sealing ring is fixedly provided on the upper side of the first box (3) to increase the friction between it and the second box (2).