CN211032316U - Nuclear rescue equipment vehicle - Google Patents

Abstract

The utility model belongs to rescue equipment car field, concretely relates to nuclear rescue equipment car. The nuclear rescue equipment vehicle comprises a chassis vehicle and a carriage, wherein the carriage is arranged on the chassis vehicle; the nuclear rescue equipment vehicle further comprises: the nuclear radiation probe is used for detecting the nuclear radiation content of the environment outside the vehicle; the pressure detection device is used for monitoring the pressure in the vehicle in real time; the oxygen monitor is used for monitoring the oxygen content in the vehicle in real time; an oxygen generator for providing oxygen to the vehicle occupants; a nuclear protection device for protecting the interior of the vehicle from nuclear contamination; a controller for displaying pressure, nuclear radiation and oxygen content values in real time; the controller is respectively connected with the nuclear radiation probe, the pressure detection device, the oxygen monitor, the oxygen generator and the nuclear protection device. The utility model discloses a nuclear rescue equipment car can transport various equipment to nuclear rescue scene, makes things convenient for the convenient quick corresponding rescue instrument of seeking of rescue personnel simultaneously.

Description

Nuclear rescue equipment vehicle

Technical Field

The utility model belongs to rescue equipment car field, concretely relates to nuclear rescue equipment car.

Background

In recent years, nuclear accidents occur frequently, and a large number of tools such as: the device comprises an electric tool, an internal combustion engine, an exhaust fan, a lighting lamp, a supporting device, a motor pump, a breaking and dismantling machine power station, a water pump, a disc, an air compressor, spare parts and the like, but no special nuclear rescue vehicle exists in the existing market. A nuclear rescue vehicle is urgently needed to transport various devices to a nuclear rescue site, and meanwhile rescue workers can conveniently and quickly find corresponding rescue tools.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a nuclear rescue equipment car, nuclear rescue equipment car can transport various equipment to the nuclear rescue scene, makes things convenient for the convenient quick corresponding rescue instrument of seeking of rescue personnel simultaneously.

The utility model discloses a realize through following technical scheme:

A nuclear rescue equipment vehicle comprises a chassis vehicle and a compartment, wherein the compartment is arranged on the chassis vehicle;

The nuclear rescue equipment vehicle further comprises:

The nuclear radiation probe is used for detecting the nuclear radiation content of the environment outside the vehicle;

The pressure detection device is used for monitoring the pressure in the vehicle in real time;

The oxygen monitor is used for monitoring the oxygen content in the vehicle in real time;

An oxygen generator for providing oxygen to the vehicle occupants;

A nuclear protection device for protecting the interior of the vehicle from nuclear contamination;

A controller for displaying pressure, nuclear radiation and oxygen content values in real time;

The controller is respectively connected with the nuclear radiation probe, the pressure detection device, the oxygen monitor and the oxygen generator;

The controller is arranged in a cab of the chassis truck;

The nuclear radiation probe, the pressure detection device, the oxygen monitor and the oxygen generator are arranged in the carriage;

The nuclear protection device is arranged on a cockpit body of the chassis truck and on a shell of the carriage;

When the nuclear radiation content reaches an alarm threshold value or the oxygen content of the vehicle is lower than 18.5% under a closed condition, the controller sends out an alarm signal and simultaneously starts the toxin filtering and ventilating device to enter a protection state.

Further, the nuclear radiation comprises gamma radiation.

Further, the nuclear rescue equipment vehicle further comprises: a toxin filtering and ventilating system;

The toxin filtering and ventilating system comprises:

The mask is arranged in a cab of the chassis truck;

The poison filtering and ventilating device is arranged in the carriage;

The mask is connected with the poison filtering ventilation device.

Further, the face mask is connected with the poison filtering ventilation device through an air duct.

Further, the poison filtering ventilation device comprises:

A filter for air purification;

A fan;

The air conditioner control unit is used for adjusting the frequency of the fan and realizing timely regulation and control;

A blast line for transporting clean air into the cockpit;

A device housing;

The air supply pipeline, the fan and the filter are sequentially connected, the air conditioner control unit is connected with the fan, and an air outlet of the air supply pipeline is arranged in the cockpit; the filter, the fan and the air conditioner control unit are all arranged in the device shell.

Further, the filter precision of the filter is 0.3 μm, and the filter efficiency is 99.99%.

Furthermore, after the toxin filtering and ventilating device is started, polluted air outside the cabin is purified through the filter and is introduced into the cabin through the air inlet, so that the safety of personnel in the cabin is ensured, and the pressure difference between the inside and the outside of the cabin is not lower than 100 Pa. The air conditioner control part adjusts the frequency of the fan to realize timely regulation and control. The air supply pipeline supplies clean air to the protection area. The shell bears and integrates the system and plays a protection role. When the system works for a certain period, the filter element differential pressure resistance of the filter rises, and when the filter element differential pressure exceeds a set value, the poison filtering ventilation device can also prompt the filter element to be replaced through alarming.

Furthermore, the poison filtering ventilation device also comprises a cockpit ventilation device, and the cockpit ventilation device is arranged at the tail of the carriage; when the safe area does not need toxin filtering and ventilation, the cockpit can be ventilated, so that the interior of the cockpit is communicated with the atmosphere.

Furthermore, the nuclear protection device is a cockpit shell and comprises six sides including the bottom, the top and the periphery; the cockpit is protected by lead plates, 5-8mm lead plates are paved on the inner side of the cockpit, and 3-5mm lead plates are paved on the inner side of the cockpit top.

Furthermore, a support is arranged inside the carriage, and the support divides the inside of the carriage into six equipment compartments, namely a first left equipment compartment, a second left equipment compartment, a third left equipment compartment, a first right equipment compartment, a second right equipment compartment and a third right equipment compartment; wherein the left equipment cabin and the right equipment cabin are close to the driving cabin of the chassis truck.

Furthermore, the first left equipment cabin, the second right equipment cabin and the third right equipment cabin are sequentially provided with a plurality of layers of trays from top to bottom, and various rescue equipment is placed on the trays respectively.

Further, the rescue apparatus includes: medical equipment, a bearing air cushion, a combined rescue support column, an air compressor, an air cylinder, a motor pump, a cutting machine, a chain saw, a broken draft, a water pump, a hammer drill, a lighting lamp, a concrete crusher, medical supplies, a folding ladder, a protective clothing, a multifunctional clamp, a cutter, an expander, an electric hydraulic double-pole ejector rod, an electric hydraulic cutter, an electric hydraulic expander and a plurality of types of detecting instruments.

Further, the detectors include gas detectors, life detectors, pollution monitoring detectors, and thermal imaging detectors.

Further, the first equipment bay comprises: the tray comprises a first left equipment compartment, a second left equipment compartment, a third left equipment compartment, a first row of trays and a fourth left equipment compartment.

Further, the second-left equipment compartment includes: the tray comprises a first-layer second-row tray of a first-level second-row equipment cabin, a second-layer second-row tray of the first-level second-level equipment cabin, a third-layer second-row tray of the first-level second-level equipment cabin and a fourth-layer second-row tray of the first-level second-level equipment cabin.

Further, the left three-equipment cabin comprises an upper tray of the left three-equipment cabin and a lower tray of the left three-equipment cabin;

A water tank and a decontamination pump are arranged on the lower tray of the left three equipment cabins, and a medical box and a protective suit are arranged on the upper tray of the left three equipment cabins;

The space size of the lower part of the left three equipment cabins is set according to the sizes of the water tank and the decontamination pump, and the rest is the space size of the upper part of the left three equipment cabins.

Further, the right equipment bay includes: the device comprises a right equipment cabin, a first drawer, a right equipment cabin, a first tray, a right equipment cabin, a second drawer, a first tray, a second tray, a third tray, a fourth tray, a fifth tray, a sixth tray;

A multilayer tray is arranged at the upper part of the right equipment cabin, and the toxin filtering and ventilating device and the distribution box are arranged at the lower part of the right equipment cabin;

The space size of the lower part of the right equipment cabin is set according to the sizes of the poison filtering and ventilating device and the distribution box, and the rest is the space size of the upper part.

Further, the right two equipment bay includes: the tray comprises a second right equipment compartment layer and a second row of trays, and a second right equipment compartment layer and a second row of trays.

Further, the three right equipment bays comprise: the three-layer three-row tray of the right three equipment cabins, the two-layer three-row tray of the right three equipment cabins and the three-layer three-row tray of the right three equipment cabins.

And furthermore, the cockpit ventilation equipment is placed on three layers and three rows of trays of the right three equipment cabins.

Further, nuclear radiation probe, pressure measurement, oxygen monitor, oxygen generator, nuclear protector, controller, face guard, filter, fan, air conditioner control unit, air supply pipeline, device casing, cockpit ventilation equipment, rescue equipment etc. are current structure or device.

The utility model discloses possess following useful technological effect at least:

(1) The utility model discloses a nuclear rescue equipment car is equipped with the toxicity filtering and ventilating system, has fully guaranteed nuclear rescue scene personnel's personal safety.

(2) The utility model discloses a nuclear rescue equipment car, nuclear rescue equipment car contains multiple advanced search and rescue equipment and stores in the different regions in equipment compartment according to the kind, and the vehicle possesses certain radiation protection ability, can drive into the nuclear scene, search and rescue the survival personnel, promptly rescue and shift.

Drawings

Fig. 1 is the embodiment of the utility model provides an in the left side equipment cabin sketch map of nuclear rescue equipment car.

Fig. 2 is a right side equipment cabin schematic diagram of a nuclear rescue equipment vehicle in the embodiment of the present invention.

Fig. 3 is a schematic view of a specific structure of a left equipment compartment of a nuclear rescue equipment vehicle according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a right side equipment compartment of a nuclear rescue equipment vehicle in an embodiment of the present invention.

Description of reference numerals: 1-chassis vehicle; 2-left equipment cabin; 3-a second-left equipment cabin; 4-three left equipment cabins; 5-a right equipment compartment; 6-the right two equipment cabins; 7-three right equipment cabins; 8-a row of trays in the left equipment cabin; 9-a first left equipment cabin with two layers and one row of trays; 10-left equipment cabin three layers and one row of trays; 11-a left equipment cabin with four layers and a row of trays; 12-second-left equipment cabin one-layer two-row trays; 13-second layer and second row of trays of the second left equipment cabin; 14-left two equipment cabins three-layer two-row trays; 15-four layers and two rows of trays of the second left equipment cabin; 16-a medical kit; 17-protective clothing; 18-a water tank; 19-a decontamination pump; 20-a distribution box; 21-cockpit ventilation equipment; 22-three equipment cabins on the right, two layers and three rows of trays; 23-three equipment cabins on the right, three rows of trays on one layer; 24-two trays on one layer of the right equipment cabin; 25-two layers and two rows of trays of the second equipment cabin on the right; 26-two equipment cabins on the right have three layers and two rows of trays; 27-four layers and two rows of trays of the second right equipment cabin; 28-one equipment cabin on the right with three layers and one row of trays; 29-one equipment cabin on the right with one row of first trays; 30-two-layer drawer of the right equipment compartment; 31-one right equipment compartment with one row of pallets two.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

On the contrary, the invention is intended to cover alternatives, modifications, equivalents and alternatives which may be included within the spirit and scope of the invention as defined by the appended claims. Furthermore, in order to provide a better understanding of the present invention to the public, certain specific details are set forth in the following detailed description of the invention. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details.

Referring to fig. 1 to 4, in the present embodiment, a nuclear rescue equipment vehicle is provided, the nuclear rescue equipment vehicle includes a chassis 1 and a compartment, and the compartment is disposed on the chassis 1;

The nuclear rescue equipment vehicle further comprises:

The nuclear radiation probe is used for detecting the nuclear radiation content of the environment outside the vehicle;

The pressure detection device is used for monitoring the pressure in the vehicle in real time;

The oxygen monitor is used for monitoring the oxygen content in the vehicle in real time;

An oxygen generator for providing oxygen to the vehicle occupants;

A nuclear protection device for protecting the interior of the vehicle from nuclear contamination;

A controller for displaying pressure, nuclear radiation and oxygen content values in real time;

The controller is respectively connected with the nuclear radiation probe, the pressure detection device, the oxygen monitor and the oxygen generator;

The controller is arranged in a cab of the chassis 1;

The nuclear radiation probe, the pressure detection device, the oxygen monitor and the oxygen generator are arranged in the carriage;

The nuclear protection device is arranged on a cockpit body of the chassis truck 1 and on a shell of the carriage;

When the nuclear radiation content reaches an alarm threshold value or the oxygen content of the vehicle is lower than 18.5% under a closed condition, the controller sends out an alarm signal and simultaneously starts the toxin filtering and ventilating device to enter a protection state.

In this embodiment, the nuclear radiation comprises gamma radiation.

In this embodiment, the nuclear rescue equipment vehicle further includes: a toxin filtering and ventilating system;

The toxin filtering and ventilating system comprises:

The mask is arranged in a cab of the chassis vehicle 1;

The poison filtering and ventilating device is arranged in the carriage;

The mask is connected with the poison filtering ventilation device.

In this embodiment, the mask is connected to the canister vent via a gas line.

In this embodiment, the toxic gas filtering ventilation device includes:

A filter for air purification;

A fan;

The air conditioner control unit is used for adjusting the frequency of the fan and realizing timely regulation and control;

A blast line for transporting clean air into the cockpit;

A device housing;

The air supply pipeline, the fan and the filter are sequentially connected, the air conditioner control unit is connected with the fan, and an air outlet of the air supply pipeline is arranged in the cockpit; the filter, the fan and the air conditioner control unit are all arranged in the device shell.

In this example, the filter had a filtration accuracy of 0.3 μm and a filtration efficiency of 99.99%.

In this embodiment, after the toxic gas filtering ventilation device is started, polluted air outside the cabin is purified by the filter and introduced into the cabin through the air inlet, so that safety of personnel in the cabin is ensured, and the pressure difference between the inside and the outside of the cabin is not lower than 100 Pa. The air conditioner control part adjusts the frequency of the fan to realize timely regulation and control. The air supply pipeline supplies clean air to the protection area. The shell bears and integrates the system and plays a protection role. When the system works for a certain period, the filter element differential pressure resistance of the filter rises, and when the filter element differential pressure exceeds a set value, the poison filtering ventilation device can also prompt the filter element to be replaced through alarming.

In this embodiment, the poison filtering ventilation device further comprises a cockpit ventilation device 21, and the cockpit ventilation device 21 is arranged at the tail of the carriage; when the safe area does not need toxin filtering and ventilation, the cockpit can be ventilated, so that the interior of the cockpit is communicated with the atmosphere.

In this embodiment, the nuclear protection device is a cockpit shell, which includes six sides including a bottom, a top and a periphery; the cockpit is protected by lead plates, 5-8mm lead plates are paved on the inner side of the cockpit, and 3-5mm lead plates are paved on the inner side of the cockpit top.

In this embodiment, a support is arranged inside the carriage, and the support divides the inside of the carriage into six equipment compartments, namely a first left equipment compartment 2, a second left equipment compartment 3, a third left equipment compartment 4, a first right equipment compartment 5, a second right equipment compartment 6 and a third right equipment compartment 7; wherein the left equipment cabin 2 and the right equipment cabin 5 are close to the driving cabin of the chassis 1.

In this embodiment, the first left equipment compartment 2, the second left equipment compartment 3, the second right equipment compartment 6 and the third right equipment compartment 7 are sequentially provided with a plurality of layers of trays from top to bottom, and various rescue equipment is placed on the trays respectively.

In this embodiment, the rescue apparatus includes: medical equipment, a bearing air cushion, a combined rescue support column, an air compressor, an air cylinder, a motor pump, a cutting machine, a chain saw, a broken draft, a water pump, a hammer drill, a lighting lamp, a concrete crusher, medical supplies, a folding ladder, a protective clothing 17, multifunctional pincers, a shears, an expander, an electric hydraulic double-pole ejector rod, an electric hydraulic shears, an electric hydraulic expander and a plurality of types of detecting instruments.

In this embodiment, the detectors include gas detectors, life detectors, pollution monitoring detectors, and thermal imaging detectors.

In this embodiment, the first-left equipment bay 2 includes: the device comprises a first left equipment cabin, a first second layer and a first row of trays 8, a first left equipment cabin, a second layer and a first row of trays 9, a first left equipment cabin, a second layer and a first row of trays 10 and a first left equipment cabin, a second layer and a first row of trays 11.

In the present embodiment, the second-left equipment bay 3 includes: the first-layer second-row tray 12 of the second-layer equipment cabin, the second-layer second-row tray 13 of the second-layer equipment cabin, the third-layer second-row tray 14 of the second-layer equipment cabin and the fourth-layer second-row tray 15 of the second-layer equipment cabin.

In this embodiment, the left three-device bay 4 includes two parts, namely, an upper tray of the left three-device bay and a lower tray of the left three-device bay;

A water tank 18 and a decontamination pump 19 are arranged on the lower tray of the left three equipment cabins, and a medical box 16 and a protective clothing 17 are arranged on the upper tray of the left three equipment cabins;

The space size of the lower part of the left three equipment cabins 4 is set according to the sizes of the water tank 18 and the decontamination pump 19, and the rest is the space size of the upper part of the left three equipment cabins 4.

In this embodiment, the right equipment bay 5 includes: a first right equipment compartment three-layer one-row tray 28, a second right equipment compartment two-layer drawer 30, a first right equipment compartment one-layer one-row tray 29 and a second right equipment compartment one-layer one-row tray 31;

A multilayer tray is arranged at the upper part of the right equipment cabin 5, and the poison filtering and ventilating device and the distribution box 20 are arranged at the lower part;

The space size of the lower part of the right equipment compartment 5 is set according to the sizes of the poison filtering and ventilating device and the distribution box 20, and the rest is the space size of the upper part.

In this embodiment, the right two-equipment bay 6 includes: a second-layer second-row tray 24 of a second right equipment cabin, a second-layer second-row tray 25 of the second right equipment cabin, a third-layer second-row tray 26 of the second right equipment cabin, and a fourth-layer second-row tray 27 of the second right equipment cabin.

In this embodiment, the right three equipment bays 7 include: three equipment compartment one deck three rows of trays 23, three equipment compartment two deck three rows of trays 22 and three equipment compartment three deck three rows of trays on the right side.

In this embodiment, the cockpit ventilation devices 21 are placed on the three-layer three-row tray of the right three-device bay.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A nuclear rescue equipment vehicle comprises a chassis vehicle and a compartment, wherein the compartment is arranged on the chassis vehicle; it is characterized in that the nuclear rescue equipment vehicle further comprises:

The nuclear radiation probe is used for detecting the nuclear radiation content of the environment outside the vehicle;

The pressure detection device is used for monitoring the pressure in the vehicle in real time;

The oxygen monitor is used for monitoring the oxygen content in the vehicle in real time;

An oxygen generator for providing oxygen to the vehicle occupants;

A nuclear protection device for protecting the interior of the vehicle from nuclear contamination;

A controller for displaying pressure, nuclear radiation and oxygen content values in real time;

The controller is respectively connected with the nuclear radiation probe, the pressure detection device, the oxygen monitor and the oxygen generator;

The controller is arranged in a cab of the chassis truck;

The nuclear radiation probe, the pressure detection device, the oxygen monitor and the oxygen generator are arranged in the carriage;

The nuclear protection device is arranged on a cockpit body of the chassis truck and on a shell of the carriage.

2. A nuclear rescue apparatus vehicle as claimed in claim 1, wherein the nuclear radiation comprises gamma radiation.

3. A nuclear rescue apparatus vehicle as claimed in claim 1, further comprising: a toxin filtering and ventilating system;

The toxin filtering and ventilating system comprises:

The mask is arranged in a cab of the chassis truck;

The poison filtering and ventilating device is arranged in the carriage;

The mask is connected with the poison filtering ventilation device.

4. A nuclear rescue apparatus vehicle as claimed in claim 3, wherein the toxic substance filtering ventilation means comprises:

A filter for air purification;

A fan;

The air conditioner control unit is used for adjusting the frequency of the fan and realizing timely regulation and control;

A blast line for transporting clean air into the cockpit;

A device housing;

The air supply pipeline, the fan and the filter are sequentially connected, the air conditioner control unit is connected with the fan, and an air outlet of the air supply pipeline is arranged in the cockpit; the filter, the fan and the air conditioner control unit are all arranged in the device shell.

5. A nuclear rescue equipment vehicle as claimed in claim 3, wherein the poison filtering ventilation means further comprises a cockpit ventilation device, the cockpit ventilation device being provided at the rear of the vehicle cabin.

6. A nuclear rescue apparatus as claimed in claim 1, wherein the nuclear protection means is a cockpit shell.

7. The nuclear rescue equipment vehicle of claim 1, wherein a support is arranged inside the carriage, and the support divides the inside of the carriage into six equipment compartments, namely a left equipment compartment, a left second equipment compartment, a left third equipment compartment, a right first equipment compartment, a right second equipment compartment and a right third equipment compartment; wherein the left equipment cabin and the right equipment cabin are close to the driving cabin of the chassis truck.

8. The nuclear rescue equipment vehicle of claim 7, wherein the first equipment compartment, the second equipment compartment and the third equipment compartment are sequentially provided with a plurality of layers of trays from top to bottom, and a plurality of types of rescue equipment are respectively placed on the trays.

9. A nuclear rescue equipment cart as claimed in claim 7, wherein the left equipment bay includes: the system comprises a left equipment cabin, a right;

The second-left equipment compartment includes: the first-layer second-row tray of the second left equipment cabin, the second-layer second-row tray of the second left equipment cabin, the third-layer second-row tray of the second left equipment cabin and the fourth-layer second-row tray of the second left equipment cabin are arranged in the left-right direction;

The left third equipment cabin comprises an upper tray of the left third equipment cabin and a lower tray of the left third equipment cabin;

The right equipment bay includes: the device comprises a right equipment cabin, a first drawer, a right equipment cabin, a first tray, a right equipment cabin, a second drawer, a first tray, a second tray, a third tray, a fourth tray, a fifth tray, a sixth tray;

The second equipment compartment includes: the first-layer second-row tray of the right second equipment cabin, the second-layer second-row tray of the right second equipment cabin, the third-layer second-row tray of the right second equipment cabin and the fourth-layer second-row tray of the right second equipment cabin are arranged in the left and right direction;

The three equipment cabins on the right include: the three-layer three-row tray of the right three equipment cabins, the two-layer three-row tray of the right three equipment cabins and the three-layer three-row tray of the right three equipment cabins.

10. The nuclear rescue equipment vehicle of claim 9, wherein cockpit ventilation equipment is placed on the three-layer three-row tray of the three right equipment cabins.

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