Multifunctional rescue vehicle for war operations

By using container-style partitioning and quick-release shelves, the problems of low space utilization and insufficient functional integration in combat support and rescue vehicles have been solved, enabling rapid response and efficient rescue.

CN224323895UActive Publication Date: 2026-06-05商河县消防救援大队

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
商河县消防救援大队
Filing Date
2025-06-10
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The existing combat support and rescue vehicles have low space utilization and insufficient functional integration, resulting in inconvenient equipment loading and unloading and cumbersome operation, which affects rapid response efficiency.

Method used

The container design features partitioned storage compartments and quick-release shelves, combined with roller shutters, rotating panels, and electric hose reels for rapid access to fire-fighting equipment and hoses. The generator and control box are integrated to form an independent power and water supply system, and the rear compartment is used for layered equipment storage, enabling modular management.

Benefits of technology

It improves space utilization and functional integration, enabling rapid response, efficient integration and classified management, and enhances the efficiency of multi-functional switching in complex rescue scenarios.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224323895U_ABST
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Abstract

The utility model belongs to emergency rescue vehicle technical field especially relates to a kind of multifunctional war and work guarantee rescue vehicle, including rescue vehicle, container is arranged on rescue vehicle, container two sides are in open state, first storage compartment, second storage compartment and third storage compartment are set in container, quick detachable article rack is arranged in the inside of first storage compartment and third storage compartment, water tank is arranged in the inside of second storage compartment, water pump is arranged on the top of water tank, generator is arranged in the inside of first storage compartment, control box is electrically connected with one side of generator, second bottom plate is arranged below third storage compartment, lower compartment is arranged below second bottom plate, electric water belt winding machine is arranged in the inside of lower compartment, spare tire is arranged in the rear side of container.The utility model solves the industry problem of low space utilization and low function integration of traditional fire engine, realizes the efficient rescue mode of fast response, multi-system parallel operation.
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Description

Technical Field

[0001] This utility model belongs to the technical field of emergency rescue vehicles, and in particular relates to a multi-functional combat support rescue vehicle. Background Technology

[0002] Combat support and rescue vehicles are multi-functional special rescue vehicles in fire and rescue teams, designed to provide efficient logistical and technical support for fire fighting, disaster relief and rescue, and large-scale disaster sites.

[0003] While combat support and rescue vehicles play an important role in rescue missions, there are still some shortcomings in their use:

[0004] 1. Low space utilization: The storage compartment layout of some rescue vehicles is not reasonable enough, making it inconvenient to retrieve and place equipment. In particular, large equipment is prone to disorder when stored, which affects the efficiency of rapid response.

[0005] 2. Limited functional integration: Although it has multiple protection capabilities, some functions require additional equipment, the operation process is cumbersome, and it is difficult to switch efficiently in emergency situations. Utility Model Content

[0006] The purpose of this utility model is to provide a multi-functional combat support and rescue vehicle to solve the problems existing in the prior art.

[0007] To achieve the above objectives, the present invention adopts a multi-functional combat support and rescue vehicle, including a rescue vehicle and a container mounted on the rescue vehicle. The container has open sides and contains a first storage compartment, a second storage compartment, and a third storage compartment. The first and third storage compartments are equipped with roller shutter doors on both sides and quick-release shelves for storing fire-fighting equipment. The second storage compartment has hinged rotating plates on both sides and contains a water tank. A water pump is located above the water tank and can be connected to a water pipe for fire rescue. The first storage compartment contains a generator, which is electrically connected to a control box on one side. The third storage compartment has a second floor plate below it, and a lower compartment below the second floor plate. The lower compartment contains an electric hose reel that can automatically retract fire hoses. A rear compartment is located at the rear of the container, and a second partition divides the rear compartment into an upper cavity and a lower cavity. The lower cavity contains multiple fire racks.

[0008] Preferably, the quick-release shelf includes an upright plate, a support plate, an insert plate, and a groove. The upright plate is vertical and symmetrically arranged inside the first and third storage compartments. The support plate is arranged between the upright plates and is used to support fire-fighting equipment on the top of the support plate. The insert plate is arranged on the side of the support plate. The groove is opened on the inside of the upright plate. Both the groove and the insert plate are T-shaped, and the insert plate is inserted into the groove.

[0009] Preferably, a first base plate is provided below the first storage compartment, and the first base plate is divided into a left compartment and a right compartment by a first partition.

[0010] Preferably, the left compartment is provided with a fixed base, and a lifting frame is provided above the fixed base. The lifting frame is provided with a hopper for holding the components. The upper side of the lifting frame is welded and fixed to the top of the container to enhance the stability and sturdiness of the lifting frame during operation.

[0011] Preferably, a surveillance camera is installed on the top of the container, and warning lights are installed on the upper periphery of the container.

[0012] Preferably, a fire nozzle holder is provided on one side of the water tank for storing fire nozzles.

[0013] Preferably, the inner wall of the container is provided with a fireproof and heat-insulating layer made of ceramic fiber composite material to improve the high-temperature resistance of the whole vehicle.

[0014] Compared with the prior art, the advantages and positive effects of this utility model are as follows:

[0015] This utility model effectively solves the problems of low space utilization and insufficient functional integration in traditional fire-fighting vehicles. The container adopts a two-sided open structure combined with a partitioned storage compartment design. The roller shutter doors and quick-release shelves of the first and third storage compartments enable rapid access to fire-fighting equipment, significantly improving emergency response speed. The rotating plate design of the second storage compartment creates an open working space for the water tank and water pump, facilitating rapid fire-fighting operations. The specially designed electric hose reel and layered rear compartment structure optimize hose storage efficiency and achieve modular management of equipment through classified storage in upper and lower compartments. The integrated layout of the generator and control box ensures the stability of the power supply for the on-board equipment. The independent partition design of each functional compartment allows key systems such as water, electricity, and equipment to operate collaboratively or independently, significantly improving the efficiency of multi-functional switching and space utilization in complex rescue scenarios. Overall, it meets the modern fire-fighting needs of rapid response, efficient integration, and classified management. Attached Figure Description

[0016] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0017] Figure 1 A three-dimensional view of the overall structure of a multi-functional combat support and rescue vehicle;

[0018] Figure 2 Left side view of a multi-functional combat support and rescue vehicle

[0019] Figure 3 A rear-view stereoscopic view of a multi-functional combat support and rescue vehicle;

[0020] Figure 4 A frontal stereoscopic view of a multi-functional combat support and rescue vehicle;

[0021] Figure 5 Rear view of a multi-functional combat support and rescue vehicle;

[0022] Figure 6 This is a structural diagram of a quick-release shelf;

[0023] Figure 7 This is a structural diagram of a fire nozzle holder.

[0024] In the above diagrams, 1. Rescue vehicle, 2. Container, 3. First storage compartment, 4. Second storage compartment, 5. Third storage compartment, 6. Quick-release shelf, 601. Load-bearing plate, 602. Vertical plate, 603. Insert plate, 604. Plate groove, 7. First base plate, 8. Left compartment, 9. Right compartment, 10. First partition, 11. Second base plate, 12. Lower compartment, 13. Electric hose reel, 14. Lifting frame, 15. Hopper, 16. Generator, 17. Control box, 18. Rear compartment, 19. Water tank, 20. Fixed base, 21. Water pump, 22. Turning plate, 23. Surveillance camera, 24. Warning light, 25. Fire rack, 26. Second partition, 27. Lower cavity, 28. Upper cavity, 29. Fire nozzle insert, 30. Roller shutter door. Detailed Implementation

[0025] To better understand the above-mentioned objectives, features, and advantages of this utility model, the present utility model will be further described below with reference to the accompanying drawings and embodiments. It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments can be combined with each other.

[0026] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Therefore, the present invention is not limited to the specific embodiments disclosed in the following specification.

[0027] Example 1, such as Figure 1-7As shown, the specific design of the aforementioned key components is described below: A multi-functional combat support and rescue vehicle 1 includes a rescue vehicle 1 and a container 2 mounted on the rescue vehicle 1. The container 2 has open sides and contains a first storage compartment 3, a second storage compartment 4, and a third storage compartment 5. The first storage compartment 3 and the third storage compartment 5 are equipped with roller shutter doors 30 on both sides and quick-release shelves 6 for storing fire-fighting equipment inside. The second storage compartment 4 has hinged rotating plates 22 on both sides and a water tank 19 inside. A suction pump is installed above the water tank 19. Water pump 21, which can be connected to water pipes for fire rescue, is installed inside the first storage compartment 3. A generator 16 is electrically connected to a control box 17 on one side of the generator 16. A second base plate 11 is installed below the third storage compartment 5. A lower compartment 12 is installed below the second base plate 11. An electric hose reel machine 13 that can automatically retract water hoses is installed inside the lower compartment 12. A trunk 18 is installed on the rear side of the container 2. A second partition 26 is installed inside the trunk 18. The second partition 26 divides the trunk 18 into an upper cavity 28 and a lower cavity 27. Multiple fire racks 25 are installed in the lower cavity 27. Modular functional zoning enables rapid emergency rescue. Container 2 features an open design on both sides, forming a two-way operating channel with roller shutter door 30 and rotating plate 22. The first storage compartment 3 has a built-in generator 16 to power the entire vehicle. The second storage compartment 4 has a water tank 19 and a water pump 21 forming an independent water supply system. The third storage compartment 5 uses an electric hose reel 13 to automatically store the hose. All functional compartments work together, and the control box 17 centrally manages power distribution. Quick-release shelves 6 ensure quick access to equipment. The rear compartment 18 stores fire-fighting equipment in layers. During operation, rescuers can work from both sides simultaneously. The generator power supply, water pump supply, and equipment access do not interfere with each other. The electric hose reel automatically recycles the hose, achieving integrated and efficient rescue by combining power supply, water delivery, and equipment dispatch, significantly improving emergency response speed and operational effectiveness.

[0028] The quick-release shelf 6 includes an upright plate 602, a support plate 601, an insert plate 603, and a groove 604. The upright plate 602 is vertical and symmetrically arranged inside the first storage compartment 3 and the third storage compartment 5. The support plate 601 is arranged between the upright plates 602, and the top of the support plate 601 is used to support fire-fighting equipment. The insert plate 603 is arranged on the side of the support plate 601. The groove 604 is opened inside the upright plate 602. Both the groove 604 and the insert plate 603 are T-shaped, and the insert plate 603 is inserted into the groove 604. The quick-release shelving unit 6 is designed to achieve rapid assembly and disassembly through the precise fit between the T-shaped insert plate 603 and the slot 604. First, the upper end of the T-shape of the insert plate 603 is inserted into the upper end of the T-shape of the slot 604. Then, the insert plate 603 of the support plate 601 is locked into the slot 604 by sliding the support plate 601 down. When it needs to be removed, the support plate 601 is lifted up and slid up, so that the upper end of the T-shape of the insert plate 603 is removed from the upper end of the T-shape of the slot 604. This completes the installation and removal of the support plate 601. The structure is quick and simple and easy to use. The upright plate 602 is set vertically in the storage compartment as a fixed support frame. The support plate 601 slides and engages with the corresponding T-shaped slot 604 on the inner side of the upright plate 602 through the T-shaped insert plate 603 on its side, forming a stable shelf structure. This mechanical connection method utilizes the self-locking characteristics of the T-section, which can automatically enhance the structural stability when bearing weight in the vertical direction, while maintaining flexible adjustment capability for installation and disassembly. Adopting a zoned design concept, container 2 is divided into three functionally independent storage compartments and a rear compartment 18. Each area is optimized for specific rescue needs. A two-way fast passage is achieved through an open structure on both sides. Combined with the opening and closing design of the roller shutter door 30 and the rotating panel 22, an efficient logistics path is formed. The integrated layout scientifically partitions and organically links the generator 16 of the power system, the water tank 19 and water pump 21 of the water supply system, and the storage racks of the equipment system, thereby improving overall space utilization. A three-dimensional layered design, including the lower compartment 12 and the rear compartment 18, achieves three-dimensional space utilization, shortening operational response time. The two-way passage design minimizes the path for retrieving and placing equipment. The system's reliability is enhanced, enabling one-stop support for water, electricity, and equipment. The electric hose reel 13 can automatically and quickly retract, improving efficiency compared to traditional manual retraction. The quick-release shelf 6, combined with the roller shutter door 30, shortens equipment retrieval time, meeting the requirements of the golden rescue time while allowing for flexible adjustment of storage needs. The rotating plate 22 can be flipped up and down via hinges, facilitating the transfer of hoses and protection of the water tank 19. This design, through a partitioned layout combined with bidirectional channels and a three-dimensional storage architecture, successfully solves the core pain points of low space utilization and low functional integration in traditional fire trucks, achieving a rapid response and efficient rescue mode. It is particularly suitable for the multi-task collaborative handling needs at large-scale disaster sites.

[0029] Below the first storage compartment 3 is a first base plate 7, which is divided into a left compartment 8 and a right compartment 9 by a first partition 10. The left compartment 8 has a fixed base 20, and a lifting frame 14 is mounted above the fixed base 20. A hopper 15 for holding components is mounted on the lifting frame 14. The upper side of the lifting frame 14 is welded to the top of the container 2 to enhance its stability and robustness during operation. A monitoring camera 23 is mounted above the container 2, and warning lights 24 are mounted on the upper periphery of the container 2. A fire nozzle holder 29 is mounted on one side of the water tank 19 for storing fire nozzles. The inner wall of the container 2 is equipped with a fireproof and heat-insulating layer made of ceramic fiber composite material to improve the overall high-temperature resistance of the vehicle. The double fixing method of the fixed base 20 and the top welding creates a stable load-bearing structure. The lifting frame 14 adopts a hydraulic drive system, the hopper 15 is a detachable aluminum alloy container, which facilitates the vertical logistics transportation of equipment. The ceramic fiber insulation layer is 50mm thick, which allows the internal temperature to remain fire-resistant even in the high-temperature fire scene outside. The monitoring camera 23 is a 360° panoramic camera that supports night vision. The warning light 24 provides a warning function to remind pedestrians to pay attention. The fire nozzle holder 29 is designed to enable quick access to fire nozzles. The right compartment 9 can be used as a workbench for equipment assembly and temporary access to tools. The overall design solves the industry problems of low space utilization and low functional integration of traditional fire trucks, and realizes a high-efficiency rescue mode of rapid response and parallel operation of multiple systems.

[0030] The contents not described in detail in this specification are existing technologies known to those skilled in the art.

[0031] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the technical solution of the present utility model.

Claims

1. A multi-functional combat support and rescue vehicle, comprising a rescue vehicle and a container mounted on the rescue vehicle, characterized in that, The container has open sides and contains a first, second, and third storage compartment. Both the first and third storage compartments have roller shutters on both sides and quick-release shelves for storing fire-fighting equipment. The second storage compartment has hinged rotating panels on both sides and contains a water tank with a pump above it, which can be connected to a water pipe for fire suppression. The first storage compartment contains a generator with a control box electrically connected to one side. Below the third storage compartment is a second floor, and below that is a lower compartment containing an electric hose reel for automatic hose reel storage. A rear compartment is located at the rear of the container, with a second partition dividing it into an upper and lower chamber. The lower chamber contains multiple fire-fighting racks.

2. The multi-functional combat support and rescue vehicle according to claim 1, characterized in that, The quick-release shelf includes an upright plate, a support plate, an insert plate, and a groove. The upright plate is vertical and symmetrically arranged inside the first and third storage compartments. The support plate is arranged between the upright plates and is used to support fire-fighting equipment on top of the support plate. The insert plate is arranged on the side of the support plate. The groove is opened on the inside of the upright plate. Both the groove and the insert plate are T-shaped, and the insert plate is inserted into the groove.

3. A multi-functional combat support and rescue vehicle according to claim 2, characterized in that, The first storage compartment is provided with a first base plate, and the first base plate is divided into a left compartment and a right compartment by a first partition.

4. A multi-functional combat support and rescue vehicle according to claim 3, characterized in that, The left compartment is equipped with a fixed base, and a lifting frame is installed above the fixed base. The lifting frame is equipped with a hopper for holding devices. The upper side of the lifting frame is welded and fixed to the top of the container to enhance the stability and sturdiness of the lifting frame during operation.

5. A multi-functional combat support and rescue vehicle according to claim 4, characterized in that, A surveillance camera is installed on top of the container, and warning lights are installed around the top of the container.

6. A multi-functional combat support and rescue vehicle according to claim 5, characterized in that, A fire nozzle holder is provided on one side of the water tank for storing fire nozzles.

7. A multi-functional combat support and rescue vehicle according to claim 6, characterized in that, The inner wall of the container is equipped with a fireproof and heat-insulating layer made of ceramic fiber composite material, which is used to improve the high-temperature resistance of the whole vehicle.