An injury simulation device
By integrating components such as immersion tanks and combustion chambers into a damage simulation device, the cost problem of multiple devices for damage simulation in existing technologies has been solved, and efficient experiments for various damage simulations have been achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHONGQING TIEWEI MEDICAL TECHNOLOGY CO LTD
- Filing Date
- 2025-07-17
- Publication Date
- 2026-07-07
Smart Images

Figure CN224461844U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of animal experimental technology, and in particular to an injury simulation device. Background Technology
[0002] Detecting vital signs and treating injuries in animals is a common research method for researchers to explore trauma treatment. The aim is to obtain a more complete and efficient treatment plan to help human health. There are technologies that can be used to treat animal injuries in a basic way, such as through high-pressure airflow shock waves, high-speed fragments, or burns.
[0003] However, existing technologies do not incorporate multifunctional combinations, such as providing only injury-causing mechanisms or only trauma environments. Therefore, when conducting experiments, two or even three sets of devices are required, increasing the cost of the experiments. Utility Model Content
[0004] The purpose of this invention is to provide an injury simulation device that can simulate multiple scenarios of animal injury using a single device.
[0005] To achieve the above objectives, this utility model provides an injury simulation device, including a device body, a movable component at the bottom of the device body, and a cooperating component;
[0006] The assembly includes a mounting plate, a small press, an immersion tank, a sealing cap, a combustion chamber, a support frame, a heat-resistant plate, a discharge pipe, a burner, mounting components, and a scald simulation component. The mounting plate is welded to the device body and located in the central cavity of the device body. The small press is detachably mounted on the mounting plate and located on the front left side of the mounting plate. The immersion tank is located behind the small press. The sealing cap is threaded to the immersion tank and located on top of the immersion tank. The combustion chamber is detachably mounted on the right front side of the mounting plate. The support frame is detachably mounted at the bottom of the combustion chamber, and the heat-resistant plate is placed on its top. The discharge pipe is connected to one side of the top of the combustion chamber. The burner is mounted on the top of the combustion chamber, and its flame nozzle is located directly above the heat-resistant plate. The mounting components are located on the left rear side of the device body for mounting the immersion tank. The scald simulation component is located on the right side of the small press.
[0007] The mounting component includes a positioning plate and a mating component. The positioning plate is detachably connected to the device body and is located on the left rear side of the device body. The mating component is located on the side of the positioning plate near the soaking tank.
[0008] The mating components include a horizontal plate and a locking screw ring. The horizontal plate is detachably connected to the positioning plate and is located in front of the positioning plate, and is detachably connected to the soaking tank. The locking screw ring is threaded to the soaking tank and abuts against the top of the horizontal plate.
[0009] The burn simulation component includes a base, a drive unit, and an electric heating plate. The base is detachably mounted on the mounting plate and located on the right side of the small press. The drive unit is located on top of the base. The electric heating plate is mounted on the output end of the drive unit.
[0010] The injury simulation device further includes a smoke simulation component, which includes a smoke box and an auxiliary pipe. The smoke box is located on the left rear side of the combustion chamber. The auxiliary pipe is connected to the rear side of the smoke box, and two auxiliary pipes are provided, each with an electric valve on its outlet side.
[0011] This invention discloses an injury simulation device that can simulate animal immersion in seawater using an immersion tank and a sealing cap, simulate animal compression using a small press, simulate animal combustion using a combustion chamber, support frame, heat-resistant plate, discharge pipe, and burner, and finally simulate animal burns using a scald simulation component. This application directly integrates the corresponding simulation modules into a single device, eliminating the need for multiple separate devices, greatly reducing the number of equipment setups and lowering experimental costs. As a result, a single device can be used to simulate multiple scenarios of animal injury. Attached Figure Description
[0012] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.
[0013] Figure 1 This is a schematic diagram of the overall structure of the injury simulation device according to the first embodiment of this utility model.
[0014] Figure 2 This is a schematic diagram of the structure of the horizontal plate according to the first embodiment of this utility model.
[0015] Figure 3 This is a schematic diagram of the soaking tank according to the first embodiment of this utility model.
[0016] Figure 4 This is a structural schematic diagram of the support frame according to the first embodiment of this utility model.
[0017] Figure 5 This is a schematic diagram of the installation position of the smoke box according to the second embodiment of this utility model.
[0018] In the diagram: 101-device body, 102-mounting plate, 103-small press, 104-immersion tank, 105-sealing cover, 106-combustion box, 107-support frame, 108-heat resistant plate, 109-discharge pipe, 110-burner, 111-positioning plate, 112-horizontal plate, 113-locking screw ring, 114-base, 115-driving component, 116-electric heating plate, 201-smoke box, 202-auxiliary pipe. Detailed Implementation
[0019] The embodiments of the present invention are described in detail below. Examples of the embodiments are shown in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, but should not be construed as limiting the present invention.
[0020] Example 1:
[0021] like Figures 1 to 4 As shown, where Figure 1 This is a schematic diagram of the overall structure of the injury simulation device. Figure 2 This is a structural diagram of the horizontal plate 112. Figure 3 This is a schematic diagram of the structure of soaking tank 104. Figure 4 This is a structural schematic diagram of the support frame 107. This utility model provides an injury simulation device: it includes a device body 101, a moving component, and a mating component. The mating component includes a mounting plate 102, a small press 103, a soaking tank 104, a sealing cover 105, a combustion chamber 106, a support frame 107, a heat-resistant plate 108, a discharge pipe 109, a burner 110, mounting components, and a burn simulation component. The mounting component includes a positioning plate 111 and mating parts. The mating parts include a horizontal plate 112 and a locking screw ring 113. The burn simulation component includes a base 114, a driving component 115, and an electric heating plate 116. The aforementioned solution allows for the simulation of multiple animal injury scenarios using a single device.
[0022] In this embodiment, a movable component is provided at the bottom of the device body 101, and a control knob and a data display screen are provided at the top front side of the device body 101. The movable component is used for convenient movement of the device and adopts universal self-locking wheels.
[0023] The mounting plate 102 is welded inside the device body 101 and located in the middle cavity of the device body 101. The small press 103 is detached and installed on the mounting plate 102 and located on the front left side of the mounting plate 102. The soaking tank 104 is located on the rear side of the small press 103. The sealing cover 105 is threadedly connected to the soaking tank 104 and located on the top of the soaking tank 104. The combustion chamber 106 is detached and installed on the right front side of the mounting plate 102. The support frame 107 is detached and installed at the bottom of the combustion chamber 106, and the heat-resistant plate 108 is placed on its top. The discharge pipe 109 is connected to one side of the top of the combustion chamber 106. The burner 110 is installed on the top of the combustion chamber 106, and its flame pipe is located directly above the heat-resistant plate 108. The mounting component is located on the left rear side of the device body 101 for mounting the soaking tank 104. The scald simulation component is located on the right side of the small press 103. The device body 101 is provided with a switch door on the front side of the mounting plate 102 for sealing. The small press 103 is fixed to the mounting plate 102 by bolts. The sealing cover 105 is provided on the stepped external thread end of the top of the soaking tank 104 for sealing. Seawater can be stored in the tank. The combustion chamber 106 is fixed with bolts, and an I-shaped support frame 107 is bolted to its inner bottom. The support frame 107 has a placement groove on its top for placing the heat-resistant plate 108. Both the combustion chamber 106 and the heat-resistant plate 108 are made of high-temperature resistant materials. The combustion chamber 106 has an exhaust pipe 109 on its top for discharging flue gas during combustion. The exhaust pipe 109 is connected to a waste gas treatment module, which is located in the bottom cavity of the device body 101. A gas pump can be installed on the exhaust pipe 109 to extract waste gas. The burner 110 can directly adopt existing technology, such as the natural gas burner disclosed in CN217875834U, and includes a flame nozzle. It is fixed with bolts during installation, and the natural gas pipe passes through a hole in the side wall of the device body 101. The mounting component is used for installing the immersion tank 104, and the burn simulation component is used for burn simulation experiments.
[0024] Secondly, the positioning plate 111 is detachably connected to the device body 101 and is located on the left rear side of the device body 101; the mating component is located on the side of the positioning plate 111 near the soaking tank 104. The positioning plate 111 is fixed by bolts, and a cable hole or corresponding pipe through hole is provided on the positioning plate 111 for mating. The mating component is used for installation and mating.
[0025] Then, the horizontal plate 112 is detached from the positioning plate 111 and located in front of the positioning plate 111, and is also detached from the soaking tank 104; the locking screw ring 113 is threadedly connected to the soaking tank 104 and abuts against the top of the horizontal plate 112. The horizontal plate 112 is fixed by bolts and has through holes. The soaking tank 104 is U-shaped with a stepped top end. It passes through the through hole of the horizontal plate 112 from bottom to top, and the locking screw ring 113 is installed on its top outer shell to facilitate subsequent removal.
[0026] Finally, the base 114 is detached and installed on the mounting plate 102, located on the right side of the small press 103; the drive component 115 is disposed on the top of the base 114; the electric heating plate 116 is installed on the output end of the drive component 115. The base 114 is fixed by bolts, and the drive component 115 is an electric telescopic rod, the output end of which is connected to the insulated connection part of the electric heating plate 116. During operation, the drive component 115 moves to drive the electric heating plate 116 downward to contact the animal, thus conducting a scalding simulation experiment. Clamping mechanisms of pressure plates and screws are respectively provided on both sides of the base 114 and the small press 103. The screws penetrate the pressure plates and are threadedly connected to the mounting plate 102, and are T-shaped. The electric heating plate 116 can adopt existing technology, such as the structure disclosed in CN207201011U.
[0027] When using this invention to simulate multiple scenarios of animal injury with a single device, firstly, an animal seawater immersion simulation experiment can be conducted using the immersion tank 104 and the sealing cover 105. Then, an animal compression simulation experiment can be conducted using the small press 103. Further, an animal combustion simulation experiment can be conducted using the combustion chamber 106, the support frame 107, the heat-resistant plate 108, the discharge pipe 109, and the burner 110. During the experiment, the sealing door of the combustion chamber 106 is first opened, then the animal is placed in the heat-resistant plate 108 and the sealing door is closed. Then, the burner 110 is controlled to operate to conduct the combustion experiment. Finally, an animal scalding simulation experiment is conducted using the scalding simulation component. This application directly sets the corresponding simulation modules in one device, eliminating the need for multiple separate devices, greatly reducing the number of equipment setups and lowering experimental costs. Thus, a single device can be used to simulate multiple scenarios of animal injury.
[0028] Example 2:
[0029] like Figure 5 As shown, where Figure 5This is a schematic diagram of the installation position of the smoke box 201. Based on the first embodiment, this utility model provides an injury simulation device, which further includes a smoke simulation component, including a smoke box 201 and an auxiliary pipe 202.
[0030] The smoke box 201 is located on the left rear side of the combustion box 106. Two auxiliary pipes 202 are connected to the rear side of the smoke box 201, each with an electric valve at its outlet. The smoke box 201 is fixed to a bracket by bolts arranged from bottom to top. The bracket is fixed to the device body 101 by bolts. The front of the smoke box 201 is a rotating sealed door, and the auxiliary pipes 202 are located on the rear side. One side is for smoke input, and the other side is for smoke output. The smoke generating device and the waste mist treatment device are both existing technologies and are located in the bottom cavity of the device body 101, with corresponding pipes connected to the auxiliary pipes 202. Electric valves are installed on the rear side of the device body 101 between the auxiliary pipes 202 and the working pipes of the smoke generating device and the waste mist treatment device for on / off control.
[0031] In this embodiment, when conducting an animal smoke simulation experiment, first open the front sealed door of the smoke box 201 and place the animal inside. Then, close the electric valve on the auxiliary pipe 202 on the smoke output side and open the electric valve on the auxiliary pipe 202 on the smoke input side to introduce smoke into the smoke box 201. After a certain period of time, close the electric valve on the auxiliary pipe 202 on the smoke input side, and store the smoke in the smoke box 201. After the experiment, first open the electric valve on the auxiliary pipe 202 on the smoke output side, and exhaust the smoke using the air pump in the waste fog treatment device to complete the smoke simulation experiment.
[0032] The above-disclosed embodiments are merely one or more preferred embodiments of this application and should not be construed as limiting the scope of this application. Those skilled in the art can understand that all or part of the processes for implementing the above embodiments and equivalent changes made in accordance with the claims of this application still fall within the scope of this application.
Claims
1. A damage simulation device, comprising a device body, wherein a movable component is disposed at the bottom of the device body, characterized in that: It also includes mating components; The assembly includes a mounting plate, a small press, an immersion tank, a sealing cap, a combustion chamber, a support frame, a heat-resistant plate, a discharge pipe, a burner, mounting components, and a scald simulation component. The mounting plate is welded to the device body and located in the central cavity of the device body. The small press is detachably mounted on the mounting plate and located on the front left side of the mounting plate. The immersion tank is located behind the small press. The sealing cap is threaded to the immersion tank and located on top of the immersion tank. The combustion chamber is detachably mounted on the right front side of the mounting plate. The support frame is detachably mounted at the bottom of the combustion chamber, and the heat-resistant plate is placed on its top. The discharge pipe is connected to one side of the top of the combustion chamber. The burner is mounted on the top of the combustion chamber, and its flame nozzle is located directly above the heat-resistant plate. The mounting components are located on the left rear side of the device body for mounting the immersion tank. The scald simulation component is located on the right side of the small press.
2. The injury simulation device as described in claim 1, characterized in that: The mounting component includes a positioning plate and a mating component. The positioning plate is detachably connected to the device body and is located on the left rear side of the device body. The mating component is located on the side of the positioning plate near the soaking tank.
3. The injury simulation device as described in claim 1, characterized in that: The mating components include a horizontal plate and a locking screw ring. The horizontal plate is detachably connected to the positioning plate and is located in front of the positioning plate, and is also detachably connected to the soaking tank. The locking screw ring is threadedly connected to the soaking tank and abuts against the top of the horizontal plate.
4. The injury simulation device as described in claim 1, characterized in that: The scald simulation component includes a base, a drive unit, and an electric heating plate. The base is detachably mounted on the mounting plate and located on the right side of the small press. The drive unit is disposed on the top of the base. The electric heating plate is mounted on the output end of the drive unit.
5. The injury simulation device as described in claim 1, characterized in that... : The injury simulation device also includes a smoke simulation component, which includes a smoke box and an auxiliary pipe. The smoke box is located on the left rear side of the combustion chamber. The auxiliary pipe is connected to the rear side of the smoke box, and two auxiliary pipes are provided, each with an electric valve on its outlet side.