A water rescue simulation training device

By designing a water rescue simulation training device to simulate urban flooding and dangerous water flow scenarios, the shortcomings of water rescue training have been addressed, the rescue capabilities and safety awareness of the public and professional teams have been improved, and water safety education has been promoted.

CN224472106UActive Publication Date: 2026-07-07

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Filing Date
2025-08-18
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The lack of effective water rescue simulation training devices in current technology leads to insufficient awareness of water risks among the public and professional rescue teams, resulting in low rescue efficiency and a lack of water safety education.

Method used

A water rescue simulation training device was designed, which includes a support frame and a water model to simulate dangerous water flow scenarios such as urban flooding, rapids, and whirlpools. Through the design of water supply modules and water tanks, different water flow characteristics are simulated to provide a professional rescue training environment.

Benefits of technology

It has raised public awareness of safety and self-rescue capabilities, improved the efficiency and safety of professional rescue teams, promoted the popularization of water safety knowledge, and enhanced the public's vigilance against water risks.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224472106U_ABST
    Figure CN224472106U_ABST
Patent Text Reader

Abstract

This utility model discloses a water rescue simulation training device. The upper surface of the platform is equipped with a water model, which includes an urban flooding simulation area and a river simulation area, connected to each other. The urban flooding simulation area includes a frame and a building model, with the building model housed within the frame. The river simulation area includes a boiling line simulation area, a turbulent flow simulation area, a smiling flow simulation area, a vortex flow simulation area, and a covering flow simulation area. The placement plate is equipped with water supply module one, water supply module two, water supply module three, and water supply module four. The advantages of this utility model are: it can simulate dangerous water flow scenarios such as urban flooding, rapids, and whirlpools, allowing the public to intuitively experience the characteristics and hazards of dangerous water flows, enhancing their awareness of water risks, and helping rescue personnel become familiar with rescue techniques, equipment usage, and teamwork methods under different dangerous water flow environments.
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Description

Technical Field

[0001] This utility model relates to the field of training device technology, and in particular to a water rescue simulation training device. Background Technology

[0002] With global climate change leading to more frequent severe weather events such as floods and torrential rains, higher demands are being placed on the water rescue capabilities of emergency rescue and fire brigades. Water tourism and outdoor sports such as rafting, kayaking, and surfing are increasingly popular, but these also come with safety risks. Meanwhile, safety education is a crucial part of school education, and drowning accidents are a leading cause of accidental injury or death among teenagers. Therefore, emergency management departments, fire brigades, and schools across the country need to utilize water rescue simulation training equipment for education and training.

[0003] This invention addresses these issues by proposing a water rescue simulation training device. The device aims to solve the aforementioned problems by simulating dangerous water flow scenarios such as urban flooding, rapids, and whirlpools. This allows the public to intuitively experience the characteristics and hazards of dangerous water flows, enhance their awareness of water risks, and help rescuers become familiar with rescue techniques, equipment usage, and teamwork methods in different dangerous water flow environments. Utility Model Content

[0004] To address the aforementioned shortcomings in the existing technology, this utility model provides a water rescue simulation training device.

[0005] To achieve the aforementioned objectives, the technical solution adopted by this utility model is as follows:

[0006] A water rescue simulation training device includes a support frame and a water model.

[0007] The bracket includes a tabletop, support legs, and a placement plate. The support legs are provided on the lower end of the tabletop, and the placement plate is provided between the support legs.

[0008] The upper surface of the platform is provided with a water area model, which includes an urban flooding simulation area and a river simulation area, and the urban flooding simulation area and the river simulation area are connected.

[0009] The urban flooding simulation area includes a frame and building models. The building models are installed inside the frame. The river simulation area includes a boiling line simulation area, a tumbling flow simulation area, a small smile flow simulation area, a vortex flow simulation area, and a covering flow simulation area. The boiling line simulation area, tumbling flow simulation area, small smile flow simulation area, vortex flow simulation area, and covering flow simulation area are interconnected.

[0010] The placement plate is equipped with water supply module one, water supply module two, water supply module three and water supply module four. Water supply module one supplies water to the urban flooding simulation area, water supply module two supplements water supply to the vortex flow simulation area, water supply module three increases the flow rate of the cover flow simulation area, and water supply module four performs water circulation.

[0011] Furthermore, the boiling line simulation area includes a water tank and a first protrusion. The water tank is connected to the frame. The first protrusion is provided inside the water tank. The tumbling flow simulation area includes a water tank and a second protrusion. The second protrusion is located inside the water tank on the side of the first protrusion away from the frame. The height difference between the first protrusion and the second protrusion is 40cm, and the height of the second protrusion is 30cm.

[0012] Furthermore, the smile flow simulation area includes a water tank and an arc-shaped obstacle, the arc-shaped obstacle being placed inside the water tank, and the diameter of the arc-shaped obstacle being 10cm.

[0013] Furthermore, the vortex flow simulation area includes a water tank and a protrusion model, with the protrusion model set inside the water tank.

[0014] Furthermore, the covered flow simulation area includes a water tank and a bank model. The water tank is 80cm wide, the bank model is set on the side of the water tank, and the distance between the bank models is 40cm.

[0015] Furthermore, the first water supply module includes a water tank, a pump body, and a liquid supply pipe. The first water tank is connected to the frame through the pump body and the liquid supply pipe. The second water supply module includes a second water tank, a second pump body, and a second liquid supply pipe. The second water tank is connected to the water tank in the vortex flow simulation area through the pump body and the second liquid supply pipe. The third water supply module includes a third water tank, a third pump body, and a third liquid supply pipe. The third water tank is connected to the water tank in the covered flow simulation area through the pump body and the third liquid supply pipe. The fourth water supply module includes a fourth water tank, a fourth pump body, and a return water pipe. The fourth water tank is connected to the water tank and is connected to the first, second, and third water tanks through the pump body and the return water pipe.

[0016] Compared to traditional technologies, the advantages of this utility model are:

[0017] 1. Enhance public safety awareness and self-rescue capabilities by simulating dangerous water flow scenarios such as urban flooding, rapids, and whirlpools, allowing the public to intuitively experience the characteristics and hazards of dangerous water flows and enhance their vigilance against water risks;

[0018] 2. Support the development of professional rescue teams: Provide a realistic training environment for professional teams such as firefighters, armed police, and emergency rescue teams, help rescuers become familiar with rescue techniques, equipment use, and teamwork methods in different dangerous water flow environments, improve rescue efficiency and safety, reduce secondary injuries caused by unfamiliarity with water flow environments during rescue, and save lives and property more efficiently while ensuring the safety of rescuers themselves.

[0019] 3. Promote the popularization of water safety knowledge. As a science education base, the facility will promote water safety knowledge into schools, communities and enterprises through experiential training, public welfare publicity and other activities, so as to create an atmosphere in which the whole society pays attention to water safety. Attached Figure Description

[0020] Figure 1 This is a schematic diagram of the structure of the present invention. Figure 1 ;

[0021] Figure 2 This is a schematic diagram of the structure of the present invention. Figure 2 ;

[0022] Figure 3 This is a schematic diagram of the structure of the boiling line simulation region and the tumbling flow simulation region of this utility model;

[0023] Figure 4 This is a schematic diagram of the structure of the flow simulation region covered by this utility model;

[0024] Reference table for attached figures:

[0025] 1. Tabletop; 2. Support legs; 3. Placement board; 4. Frame; 5. Architectural model; 6. Water tank; 7. Protrusion 1; 8. Protrusion 2; 9. Arc-shaped obstacle; 10. Protrusion model; 11. Shoreline model; 12. Water tank 1; 13. Pump body 1; 14. Liquid supply pipe 1; 15. Water tank 2; 16. Pump body 2; 17. Liquid supply pipe 2; 18. Water tank 3; 19. Pump body 3; 20. Liquid supply pipe 3; 21. Water tank 4; 22. Pump body 4; 23. Return water pipe. Detailed Implementation

[0026] The specific embodiments of this utility model will be further described below with reference to the accompanying drawings. Identical components are indicated by the same reference numerals.

[0027] It should be noted that the terms “front,” “back,” “left,” “right,” “up,” and “down” used in the following description refer to the directions shown in the attached diagram, while the terms “inside” and “outside” refer to the directions toward or away from the geometric center of a specific component, respectively.

[0028] To make the content of this utility model easier to understand, the technical solutions of this utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of this utility model.

[0029] Example 1

[0030] Combined with appendix Figure 1-2 The bracket includes a tabletop 1, support legs 2 and a placement plate 3. The support legs 2 are provided on the lower end surface of the tabletop 1, and the placement plate 3 is provided between the support legs 2.

[0031] The upper surface of the platform 1 is provided with a water area model, which includes an urban flooding simulation area and a river simulation area. The urban flooding simulation area includes a frame 4 and a building model 5. The building model 5 is located inside the frame 4. A water supply module 1 is provided on the placement plate 3. The water supply module 1 supplies water to the urban flooding simulation area. The water supply module 1 includes a water tank 12, a pump body 13, and a liquid supply pipe 14. The water tank 12 is connected to the frame 4 through the pump body 13 and the liquid supply pipe 14.

[0032] During operation, pump body 13 activates, pumping water from water tank 12 through supply pipe 14 into frame 4. The water submerges the lower end of the building model 5 inside frame 4, simulating urban flooding. Pump body 13 has a rated power of 300W and a flow rate of 96,000L / H.

[0033] Combined with appendix Figure 1-3 The urban flooding simulation area is connected to the river simulation area. The river simulation area includes a boiling line simulation area, a tumbling flow simulation area, a smile flow simulation area, a vortex flow simulation area, and a covering flow simulation area. The boiling line simulation area, the tumbling flow simulation area, the smile flow simulation area, the vortex flow simulation area, and the covering flow simulation area are interconnected.

[0034] The boiling line simulation area includes a water tank 6 and a first protrusion 7. The water tank 6 is connected to the frame 4. The first protrusion 7 is provided inside the water tank 6. The tumbling flow simulation area includes a water tank 6 and a second protrusion 8. The second protrusion 8 is located inside the water tank 6 on the side of the first protrusion 7 away from the frame 4. The height difference between the first protrusion 7 and the second protrusion 8 is 40cm, and the height of the second protrusion 8 is 30cm.

[0035] As the water level in frame 4 rises, the water enters tank 6. The water flowing in tank 6 passes through protrusion 7 and reaches the upper surface of protrusion 8. The height difference between protrusion 7 and protrusion 8 is 40cm, creating a boiling line through this drop. The water flows over protrusion 8, scouring the bottom surface of tank 6. The water flow impacts the bottom surface of tank 6 at an angle of 30cm, creating a tumbling flow.

[0036] Combined with appendix Figure 1-3 The vortex flow simulation area includes a water tank 6 and a protrusion model 10, with the protrusion model 10 disposed within the water tank 6.

[0037] The second water supply module provides supplemental water to the vortex flow simulation area. The second water tank 15 is connected to the water tank 6 in the vortex flow simulation area through the second pump body 16 and the second liquid supply pipe 17.

[0038] Water flows into the vortex flow simulation area within the water tank 6. Pump body 2 16 actuates, sending water from water tank 2 15 through supply pipe 2 17 into the water tank 6, increasing the water flow velocity. The water flow washes over the protruding model 10, forming a vortex flow. Pump body 2 16 has a rated power of 25W and a flow rate of 8000L / H.

[0039] Combined with appendix Figure 1-2 The smile flow simulation area includes a water tank 6 and an arc-shaped obstacle 9. The arc-shaped obstacle 9 is set inside the water tank 6 and has a diameter of 10cm.

[0040] The water continues to flow along the water tank, washing over the 10cm diameter arc-shaped obstacle 9 in the water tank. The arc-shaped obstacle 9 diverts the water flow, forming a small stream.

[0041] Combined with appendix Figure 1 , 2 4. The covered flow simulation area includes a water tank 6 and a bank model 11. The width of the water tank 6 is 80cm. The bank model 11 is set on the side of the water tank 6. The distance between the bank models 11 is 40cm.

[0042] The water supply module three increases the flow rate of the water supply to the covered flow simulation area. The water supply module three includes a water tank three 18, a pump body three 19 and a liquid supply pipe three 20. The water tank three 18 is connected to the water tank 6 at the covered flow simulation area through the pump body three 19 and the liquid supply pipe three 20.

[0043] The water continues to flow and reaches the water tank 6 in the simulated area of ​​the covered flow. Pump 319 is activated, sending water from water tank 318 to water tank 6 through liquid supply pipe 320, thereby increasing the water flow velocity. The bank model 11 narrows the simulated river channel in water tank 6 from 80cm to 40cm, forming a covered flow.

[0044] This device allows rescuers to learn professional rescue knowledge and master rescue techniques in dangerous water conditions within a simulated real-world environment, improving rescue efficiency and safety. Some water-based tourist attractions can also use this device as a visitor experience, allowing tourists to experience dangerous water currents while ensuring safety, thus enhancing their safety awareness. Simultaneously, schools and safety education institutions can use experiential learning to help students understand the dangers of dangerous water currents, learn self-rescue and mutual-rescue skills, and fill the gap in practical aspects of water safety education.

[0045] Example 2

[0046] Combined with appendix Figure 1-2 The water supply module four performs water circulation. The water supply module four includes a water tank four 21, a pump body four 22 and a return water pipe 23. The water tank four 21 is connected to the water tank 6. The water tank four 21 is connected to the water tank one 12, the water tank two 15 and the water tank three 18 through the pump body four 22 and the return water pipe 23.

[0047] Based on Example 1, when the water flows to the end of the water tank 6, it enters the water tank 21. The pump body 22 sends the water recovered from the water tank 21 to the water tank 12, water tank 25 and water tank 3 18 through the return water pipe 23 to realize water circulation and reduce water resource consumption.

[0048] The above description is only a preferred embodiment of this utility model patent and is not intended to limit this utility model patent. Any modifications, equivalent substitutions and improvements made within the spirit and principles of this utility model patent should be included within the protection scope of this utility model patent.

Claims

1. A water area rescue simulation training device, comprising a support and a water area model, characterized in that: the support comprises a table top (1), support legs (2) and a placement plate (3), the lower end surface of the table top (1) is provided with support legs (2), and the placement plate (3) is arranged between the support legs (2); the upper end surface of the table top (1) is provided with a water area model, the water area model comprises a city waterlogging simulation area and a river simulation area, and the city waterlogging simulation area is communicated with the river simulation area; the city waterlogging simulation area comprises a frame (4) and a building model (5), the frame (4) is provided with the building model (5) inside, the river simulation area comprises a boiling line simulation area, a rolling flow simulation area, a smiling flow simulation area, a vortex flow simulation area and a covering flow simulation area, and the boiling line simulation area, the rolling flow simulation area, the smiling flow simulation area, the vortex flow simulation area and the covering flow simulation area are communicated with each other; the placement plate (3) is provided with water supply module one, water supply module two, water supply module three and water supply module four, the water supply module one supplies water for the city waterlogging simulation area, the water supply module two supplements water for the vortex flow simulation area, the water supply module three supplies water for the covering flow simulation area to increase the flow rate, and the water supply module four circulates water.

2. The water area rescue simulation training device according to claim 1, characterized in that: the boiling line simulation area comprises a water tank (6) and a protrusion one (7), the water tank (6) is communicated with the frame (4), and the protrusion one (7) is arranged in the water tank (6), the rolling flow simulation area comprises a water tank (6) and a protrusion two (8), the protrusion two (8) is arranged on the side of the protrusion one (7) away from the frame (4) in the water tank (6), the height difference between the protrusion one (7) and the protrusion two (8) is 40 cm, and the height of the protrusion two (8) is 30 cm.

3. The water area rescue simulation training device according to claim 1, characterized in that: the smiling flow simulation area comprises a water tank (6) and an arc-shaped obstacle (9), the arc-shaped obstacle (9) is arranged in the water tank (6), and the diameter of the arc-shaped obstacle (9) is 10 cm.

4. The water area rescue simulation training device according to claim 1, characterized in that: the vortex flow simulation area comprises a water tank (6) and a protrusion model (10), and the protrusion model (10) is arranged in the water tank (6).

5. The water area rescue simulation training device according to claim 1, characterized in that: the covering flow simulation area comprises a water tank (6) and a shore model (11), the width of the water tank (6) is 80 cm, the shore model (11) is arranged on the side of the water tank (6), and the distance between the shore models (11) is 40 cm.

6. The water area rescue simulation training device according to claim 1, characterized in that: The water supply module one includes a water tank one (12), a pump body one (13) and a liquid supply pipe one (14), the water tank one (12) is communicated with the frame (4) through the pump body one (13) and the liquid supply pipe one (14), the water supply module two includes a water tank two (15), a pump body two (16) and a liquid supply pipe two (17), the water tank two (15) is communicated with the water tank (6) at the vortex flow simulation area through the pump body two (16) and the liquid supply pipe two (17), the water supply module three includes a water tank three (18), a pump body three (19) and a liquid supply pipe three (20), the water tank three (18) is communicated with the water tank (6) at the covering flow simulation area through the pump body three (19) and the liquid supply pipe three (20), the water supply module four includes a water tank four (21), a pump body four (22) and a backwater pipe (23), the water tank four (21) is communicated with the water tank (6), the water tank four (21) is communicated with the water tank one (12), the water tank two (15) and the water tank three (18) through the pump body four (22) and the backwater pipe (23).