CN210199073U - Inhalation type dynamic contamination device - Google Patents

Abstract

The utility model particularly relates to an inhalation type dynamic poisoning device, which comprises a poisonous gas tank, an air tank is arranged on the right side of the poisonous gas tank, a poisoning cabinet is arranged on the right side of the air tank, and an air pressure valve is arranged on the upper end of the poisonous gas tank. One is connected with a gas flow meter, one is connected with an air inlet pipe, the upper end of the air tank has a second air pressure valve, the second air pressure valve is connected with a second gas flow meter, the second gas flow meter is connected with an intake pipe, and the upper end of the poisoning cabinet has a top plate , There is a status board on the bottom plate of the poisoning cabinet, a fan in the middle of the inner surface of the rear panel of the poisoning cabinet, a gas detector on the right side of the inner surface of the rear panel of the poisoning cabinet, and a sealing plug 2 on the right side of the top plate, and the sealing plug 2 is connected. There is an exhaust pipe, and the end of the exhaust pipe is connected with a tail gas treatment tank; the utility model is easy to disassemble and assemble when in use, adopts an air pressure valve to control the gas pressure, is convenient to operate, occupies a small space, and is provided with a tail gas treatment tank at the end to ensure the exhaust gas. The gas does not pollute the atmosphere.

Description

Inhalation type dynamic contamination device

Technical Field

The utility model belongs to the technical field of an animal experiment, in particular to suction-type developments toxicant exposure device.

Background

More toxic gas can be generated in the livestock and poultry house, which can affect the health of animals and bring more and more diseases to the animals. At present, no method is available for effectively controlling the toxic substances in the animal husbandry, and the harm to animals caused by the toxic substances is not clearly understood in many farms, so that research on the influence of the gaseous toxic substances on the health of the animals is urgently needed.

The dynamic contamination experiment is generally carried out in a contamination cabinet, and the contamination cabinet can be divided into a movable contamination cabinet and a static contamination cabinet according to whether air in the contamination cabinet exchanges with the outside in the contamination process; the movable toxicant exposure cabinet has many advantages because the external air is continuously supplemented in the toxicant exposure process, mainly can keep the concentration of toxicant exposure substances unchanged, and ensures that the partial pressure of carbon dioxide in the toxicant exposure cabinet is constant and the temperature and humidity are constant; in the static toxicant exposure cabinet, air in the cabinet is isolated from the outside in the toxicant exposure process, and as the toxicant exposure time goes on, the animals continuously inhale oxygen and exhale carbon dioxide, the oxygen concentration in the cabinet continuously decreases, and the carbon dioxide concentration continuously increases. Meanwhile, the body temperature of the animals is higher than the ambient temperature, so that the temperature in the cabinet can be increased along with the body temperature in the toxicant exposure process, and the humidity in the cabinet can be gradually changed under the influence of the respiration of the animals. It follows that in most tests dynamic contamination has become a trend to replace static contamination, except for a few special requirements.

At present, the dynamic inhalation contamination technology in China is developed rapidly, great progress is made in the aspect of automatic control, but the stable mature stage is not achieved, and particularly further improvement is needed in the aspects of atomized particle size, waste gas and waste water discharge, airflow pressure change, interaction relation between the airflow pressure change and a laboratory and the like. The animal gas contamination device disclosed in the chinese patent CN202426685 of researchers in this field comprises an inner cavity, an outer cavity, a first path of air inlet pipe, a second path of air inlet pipe, an exhaust pipe, a host computer control system, a temperature control system, a humidity control system, a pressure difference control system, a first path of air inlet concentration control system, and a second path of air inlet concentration control system, the device is simple and fast to operate, and can greatly improve the experimental efficiency, but the device has the problems of inconvenient disassembly and assembly of the body type, improper tail gas treatment, single experimental environment, high price, and incapability of being widely applicable to people to develop research, and the like, and aims at the defects of the prior art, we have designed a suction-type developments device of being contaminated with poison, adopt poison gas pitcher and air tank to provide toxic gas easy dismounting when using to the exposure cabinet, occupation space is less, the end is provided with tail gas treatment tank, guaranteed that the combustion gas can not cause the pollution to the atmosphere, can do spacious field experiment and seek food experiment through changing the state board, compare in some current device low price on the market, the device can be with people to the more extensive popularization of the research of toxic gas.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provide a suction type dynamic toxicant exposure device.

The purpose of the utility model is realized like this: an inhalation type dynamic contamination device comprises a contamination gas tank, and is characterized in that: the right side of the poison gas tank is provided with an air tank, the right side of the air tank is provided with a contamination cabinet, the upper end of the poison gas tank is provided with a first air pressure valve, the first air pressure valve is connected with a first gas flowmeter through a plastic pipe, and the first gas flowmeter is connected with a gas inlet pipe; the upper end of the air tank is provided with a second air pressure valve, the second air pressure valve is connected with a second gas flowmeter through a plastic pipe, and the second gas flowmeter is connected with an air inlet pipe; the upper end of the toxicant exposure cabinet is provided with a top plate, the left part of the top plate is provided with a first sealing plug, the tail end of the air inlet pipe is connected with the first sealing plug, the upper plane of the bottom plate of the toxicant exposure cabinet is provided with a state plate, the outer surface of the rear plate of the toxicant exposure cabinet is provided with a camera, the middle part of the inner surface of the rear plate of the toxicant exposure cabinet is provided with a fan, the right side of the inner surface of the rear plate of the toxicant exposure cabinet is provided with a gas detector, the middle part of the top plate is provided with a second sealing plug, the inside of the second sealing plug is provided with.

The air inlet pipe is a three-way pipe.

The first sealing plug, the second sealing plug and the third sealing plug are in interference fit with the top plate.

The material of the toxicant exposure cabinet is transparent glass.

The utility model discloses adopt poison gas pitcher and air tank to provide poisonous gas easy dismounting when using to the toxicant exposure cabinet during the use, occupation space is less, the end is provided with tail gas treatment jar, guaranteed that the combustion gas can not cause the pollution to the atmosphere, can do spacious field experiment and find food experiment through changing the status board, it can more conveniently observe the experimental effect to set up transparent toxicant exposure cabinet, it can take notes the experimentation to be provided with the camera, compare in some current device low price on the market, the device can be with people to the more extensive popularization of research of poisonous gas.

Drawings

Fig. 1 is a schematic structural diagram of the utility model.

Detailed Description

Embodiment 1, as shown in fig. 1, an inhalation type dynamic contamination device includes a toxic gas tank 1, the toxic gas tank 1 provides toxic gas for an experiment, an air tank 4 is provided on the right side of the toxic gas tank 1, the air tank 4 provides air for the experiment, a contamination cabinet 9 is provided on the right side of the air tank 4, the contamination cabinet 9 is a place for placing an experimental object and observing experimental phenomena; the material of the contamination cabinet 9 is transparent glass, the transparent contamination cabinet 9 can conveniently observe the influence of toxic gas on an experimental object, the upper end of a toxic gas tank 1 is provided with a first air pressure valve 2, the first air pressure valve 2 can control the pressure of the discharged toxic gas, the first air pressure valve 2 is connected with a first gas flow meter 3 through a plastic pipe, the first air flow meter and a second air flow meter are preferably Dandong M-type embedded B series QZL-5BM type gas mass flow meters, the first gas flow meter 3 is used for detecting the flow rate of the toxic gas, the first gas flow meter 3 is connected with an air inlet pipe 7, the air inlet pipe 7 is a three-way pipe sealing plug, one end of the three-way pipe sealing plug is connected with the first gas flow meter 3, the other end of; the upper end of the air tank 4 is provided with a second air pressure valve 5, the second air pressure valve 5 can control the pressure of discharged air, the second air pressure valve 5 is connected with a second gas flowmeter 6 through a plastic pipe, and the second gas flowmeter 6 is used for detecting the flow rate of air; the top end of the contamination cabinet 9 is provided with a top plate 20, the inner side of the side edge of the top plate 20 is provided with a sealing ring, the contamination cabinet 9 and the top plate 20 are sealed through the sealing ring, the left part of the top plate 20 is provided with a sealing plug I8, and the sealing plug I8 is in interference fit with the top plate 20, so that the sealing performance of the contamination cabinet 9 is ensured; the upper plane of the bottom plate of the contamination cabinet 9 is provided with a state plate 15, the state plate 15 is used for providing a specific living environment for the experimental object so as to research the experimental object under different living states, the state plate 15 is divided into an open field experimental state plate and a foraging experimental state plate, and the state plate 15 can use different state plates 15 according to the experimental content; the outer surface of the back plate of the contamination cabinet 9 is provided with a camera 16, and the camera 16 is opened during the experiment to observe and record the real-time state of the research object. The middle part of the inner surface of the back plate of the contamination cabinet 9 is provided with a fan 10, the fan 10 is intelligently controlled by a remote controller, and the rotating speed of the fan 10 can be controlled by the remote controller; the fan 10 is used for mixing the toxic gas and the air more fully, a gas detector 18 is arranged on the right side of the inner surface of the back plate of the toxicant exposure cabinet 9, the gas detector is preferably an air station of Hanwei E1-LITE model, and the gas detector 18 is used for detecting the temperature and the humidity of the gas. The middle part of the top plate 20 is provided with a second sealing plug 19, the second sealing plug 19 is internally provided with a toxic gas detector 14, the toxic gas detector 14 is preferably a Huarui SP-2104Plus toxic gas detector, the toxic gas detector 14 is used for detecting the concentration of the toxic gas, and an LED display screen arranged on the toxic gas detector 14 can display the concentration of the toxic gas, so that the observation is convenient. The right part of the top plate 20 is provided with a third sealing plug 11, and the third sealing plug 11 is in interference fit with the top plate 20, so that the sealing performance of the toxicant exposure cabinet 9 is ensured. The third sealing plug 11 is connected with an exhaust pipe 12, the tail end of the exhaust pipe 12 is connected with a tail gas treatment tank 13, a honeycomb type absorption device 17 is arranged in the tail gas treatment tank 13, the honeycomb type absorption device is composed of a wet curtain and toxic absorbing reagents (different toxic absorbing reagents can be selected according to different toxic gases, for example, water is selected as a reagent when ammonia gas is used as the toxic gas, and calcium hydroxide solution is selected as a reagent when carbon monoxide is used as the toxic gas), the reagents are absorbed by the wet curtain, when the discharged toxic gas enters the wet curtain, the toxic gas is absorbed by the reagents on the wet curtain, and the honeycomb type absorption device 17 is used for purifying the discharged gas and avoiding the pollution of the discharged gas to the air.

When the utility model is used, firstly, the sealing door is opened, the experimental object is put into the contamination cabinet, the sealing container is closed, then the air pressure valve II is opened and the air pressure is adjusted to the required air pressure value, the air flows out, and the flow velocity of the air can be observed through the gas flowmeter II; opening the first air pressure valve to adjust the air pressure to a required air pressure value, enabling toxic gas to flow out, and observing the flow rate of the toxic gas through the first gas flow meter; air and toxic gas flow into the contamination cabinet through the air inlet pipe, the air and the toxic gas are fully mixed by the rotation of the fan, the experimental animal is positioned in the contamination cabinet with the flowing air, the toxic air is continuously input into the cabinet at a constant speed, and meanwhile, the gas is exhausted from the cabinet at a constant speed. The camera observes and records the real-time status of study object, and the concentration of poison gas in the toxicant exposure cabinet is shown in real time to the poison gas detector, and air detector can show temperature, the humidity of poison gas in the toxicant exposure cabinet in real time, and the even toxic gas of misce bene flows out the tail gas treatment jar through the blast pipe, and honeycomb absorbing device is used for purifying the gas of emission, avoids the gas of emission to cause the pollution to the air.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (4)

1. An inhalation type dynamic contamination device comprises a contamination gas tank, and is characterized in that: the right side of the poison gas tank is provided with an air tank, the right side of the air tank is provided with a contamination cabinet, the upper end of the poison gas tank is provided with a first air pressure valve, the first air pressure valve is connected with a first gas flowmeter through a plastic pipe, and the first gas flowmeter is connected with a gas inlet pipe; the upper end of the air tank is provided with a second air pressure valve, the second air pressure valve is connected with a second gas flowmeter through a plastic pipe, and the second gas flowmeter is connected with an air inlet pipe; the upper end of the toxicant exposure cabinet is provided with a top plate, the left part of the top plate is provided with a first sealing plug, the tail end of the air inlet pipe is connected with the first sealing plug, the upper plane of the bottom plate of the toxicant exposure cabinet is provided with a state plate, the outer surface of the rear plate of the toxicant exposure cabinet is provided with a camera, the middle part of the inner surface of the rear plate of the toxicant exposure cabinet is provided with a fan, the right side of the inner surface of the rear plate of the toxicant exposure cabinet is provided with a gas detector, the middle part of the top plate is provided with a second sealing plug, the inside of the second sealing plug is provided with.

2. An inhaled dynamic toxicant exposure device according to claim 1, wherein: the air inlet pipe is a three-way pipe.

3. An inhaled dynamic toxicant exposure device according to claim 1, wherein: the first sealing plug, the second sealing plug and the third sealing plug are in interference fit with the top plate.

4. An inhaled dynamic toxicant exposure device according to claim 1, wherein: the material of the toxicant exposure cabinet is transparent glass.

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