RU2041429C1 - Conditioner - Google Patents

Abstract

FIELD: home appliances. SUBSTANCE: air loop is provided with adsorbent, gas analyzer, flow meter, and unit of temperature, humidity, and pressure pickups. The blower is constructed as an injector with the active nozzle connected with the air jacket of the evaporator. The adsorber is mounted upstream of the filter and connected with it through an adapter made up as inlet and outlet branch pipes. The branch pipes are arranged one inside the other. The outlet valve, pickup unit, gas analyzer, adapter, and adsorber are mounted vertically in series along the side wall of the housing one below the other. The injector, heater and flow meter are arranged in horizontal plane positioned above the compressor. The valve, pickup unit, gas analyzer, injector, heater, and flow meter are interconnected by way of flanges. EFFECT: enhanced efficiency. 2 cl, 3 dwg

Description

 The invention relates to air conditioning, designed to create in the serviced room the necessary temperature and humidity, as well as its cleaning from dust, harmful gases and odors and, if necessary, maintaining low excess pressure, for example, when the air conditioner is in combination with a medical pressure chamber .

 Currently, there are increasing requirements for the design and manufacture of air conditioners, which are economically advantageous, highly efficient during operation, convenient for maintenance personnel during preventive and repair work, and also environmentally friendly for the environment.

 Air conditioners are known that comprise a compressor, a condenser, an evaporator and a closed air circuit combining an exhaust valve, a supercharger, a heater, an evaporator casing with a filter installed in front of it, connected by a closed refrigeration circuit.

 General disadvantages of the known air conditioners is that the connection of the air circuit units is carried out using intermediate pipelines with a large number of sealing units, and this leads to an increase in the dimensions, weight, laboriousness of manufacture and, in general, to an increase in the cost of the entire air conditioner. A large number at the joints of the sealing nodes leads to a decrease in the tightness of the air circuit and a decrease in the operational reliability of the air conditioner.

 In these air conditioners, air filtration is carried out mainly from dust and pollutants, but the air recirculated in the treated room is not cleaned of harmful gases and odors, which reduces comfort from the point of view of ecology and sanitary norms of the human environment, and this is especially important when a person is long time is in conditions of elevated levels of harmful gases.

 The technical result created by the present invention is to reduce the economic costs of manufacturing, increase operational reliability and improve comfortable conditions in the treated room. This result is achieved by the fact that in an air conditioner containing a housing in which a compressor located on the base of the housing combined by a closed refrigeration circuit is located, a condenser, an evaporator, as well as an exhaust valve, a supercharger, a heater, an evaporator casing with a filter installed in front of it; the air circuit is equipped with a removable adsorber, gas analyzer, flow meter and a block of temperature, humidity and pressure sensors, and the supercharger is made in the form of an injector with an active nozzle connected to a high pressure source and a passive nozzle connected to the evaporator air casing, while the adsorber is installed in front of the filter and connected to the latter via an adapter in the form of inlet and outlet nozzles installed one in the other, and the exhaust valve, the sensor unit, a gas analyzer, an adapter and a removable adsorb sequentially arranged vertically along a side wall of the housing one above the other and are connected directly to each other using the flanges, and the injector, a heater and a flow meter mounted in a common horizontal plane extending over the compressor, and also are interconnected by means of flanges. In addition, at the junction of the adapter with the gas analyzer and the filter, compensators are provided with the possibility of reciprocating movement along their axes.

 The advantage of the invention is to reduce the size and weight of the air conditioner due to the direct connection of the units to each other using flanges, without connecting intermediate pipelines, which significantly eliminates the production of an excessive number of components and parts, reduces the cost, metal consumption, and therefore the economic cost of manufacturing an air conditioner in whole.

 The absence of connecting intermediate pipelines reduces the large number of sealing units and thereby increases the tightness of the air circuit and the operational reliability of the air conditioner.

Due to the fact that the air circuit in the air conditioner is equipped with a removable adsorber, gas analyzer, flow meter and a block of temperature, humidity and pressure sensors, and the supercharger is designed as an injector with an active nozzle connected to a high pressure source and a passive nozzle connected to the air jacket of the evaporator the comfort of the treated room is markedly improved in terms of temperature, humidity, pressure, and the environment surrounding the person is cleaned of harmful gases incomparably with known conditioning Example CO _2), odors, and particularly in a closed volume objects.

 The presence at the junction of the adapter with the gas analyzer and filter compensators with the possibility of reciprocating movement along their axes allows us to provide convenience to service personnel during installation and dismantling of units in the process of maintenance and repair work.

 All signs affect the achievement of a technical result, i.e. are in a causal relationship with the specified result.

 Figure 1 shows the layout of the air conditioner; figure 2 section aa in figure 1 (plan view); figure 3 the connection node of the adapter with the gas analyzer, filter and adsorber in the context.

 The air conditioner includes a housing 1, in which a compressor 2, located on the base of the housing 1, a condenser 3, an evaporator 4 and combined by an air circuit together with the processing room 5, an exhaust valve 6, a supercharger 7, a heater 8, an evaporator casing 9, are housed 4 with a filter 10 installed in front of it. The air circuit is equipped with a removable adsorber 11, a gas analyzer 12, a flow meter 13 and a block of sensors 14 for temperature, humidity and pressure. The supercharger 7 is made in the form of an injector with an active nozzle 15 connected to a high pressure source (not shown) and a passive nozzle 16 connected to the air casing 9 of the evaporator 4. The adsorber 11 is installed in front of the filter 10 and connected to the latter through an adapter 17 in the form of an input 18 and output 19 nozzles installed one in another. The exhaust valve 6, the sensor unit 14, the gas analyzer 12, the adapter 17 and the adsorber 11 are sequentially mounted vertically along the side wall of the housing 1 one after the other and are connected directly to each other via flanges 20. The injector (blower) 7, the heater 8 and the flow meter 13 are installed in a common horizontal plane passing above the compressor 2 and are also interconnected by means of flanges. At the junction of the adapter 17 with the gas analyzer 12 and the filter 10, compensators 21 and 22 are provided, respectively, with the possibility of reciprocating movement along their axes. The air conditioner is equipped with a remote control 23, on which there are devices showing pressure, flow, temperature, humidity, gas composition of the air in the treated room 5, as well as control knobs 24 for the operation of the air conditioner.

 The operation of the air conditioner is as follows.

 The treated room 5, in particular, can be a medical oxygen pressure chamber (hereinafter referred to as the pressure chamber) designed to ensure and maintain a normal supply of oxygen to the tissues of the human body during large blood loss, and is also used to treat anaerobic diseases, cardiovascular disorders and various poisonings requiring resuscitation.

 Through the active nozzle 15 of the injector 7, high pressure oxygen is supplied from the power source (not shown), which through the heater 8 and the flow meter 13 enters the pressure chamber 5. By means of vacuum, a recirculation flow is created and the working medium from the pressure chamber 5 passes through the sensor unit 14, the gas analyzer 12, the adapter 17, the adsorber 11, the filter 10, the casing 9 of the evaporator 4, the passive nozzle 16 of the injector 7 and again enters the pressure chamber 5.

 In the pressure chamber 5, oxygen is partially absorbed by the patient for respiration and is replaced by carbon dioxide and moisture released by the patient. In the adsorber 11, the working medium is cleaned of carbon dioxide and odor, dust particles are trapped in the filter 10, in the evaporator 4, the cleaned working medium is cooled and due to cooling, the moisture released by the patient drops out in the pressure chamber 5. If necessary, the working medium is heated in heater 8. Cooling or heating of the working medium is performed depending on the temperature inside the pressure chamber 5 by the signal of the temperature sensor installed in the sensor unit 14. The cooling or heating mode is set by the control knobs I am 24, placed on the remote 23.

 In the injector 7, fresh oxygen is continuously mixed with the cleaned working medium.

 In the pressure chamber 5, an increased pressure of a predetermined value can be maintained, and if it is exceeded, the exhaust valve 6 opens, and part of the air enters the environment.

 During operation, the absorption capacity of the adsorber 11 due to saturation of the adsorbent with harmful gases decreases, as a result of which a signal from the gas analyzer 12 is sent to the indicator of the remote control 23, which indicates the need to replace the adsorber 11.

Claims (2)

 1. CONDITIONER comprising a housing in which a compressor located on the base of the housing integrated in a closed refrigeration circuit is located, a condenser, an evaporator, as well as an exhaust valve, a supercharger, a heater, an evaporator casing with a filter installed in front of it, characterized in that the air the circuit is additionally equipped with an adsorber, gas analyzer, flow meter and a block of temperature, humidity and pressure sensors, while the supercharger is made in the form of an injector with an active nozzle, connected a high pressure source, and a passive nozzle connected to the air casing of the evaporator, and the adsorber is installed in front of the filter and connected to the last adapter, made in the form of inlet and outlet nozzles placed one in the other, and the exhaust valve, sensor unit, gas analyzer, adapter and the adsorber are mounted successively vertically along the side wall of the housing one below the other, and the injector, heater and flow meter in a horizontal plane located above the compressor, while the exhaust valve is bl a sensor analyzer, an adapter, an adsorber, a filter, evaporator air jacket, an injector, a heater and a flow meter are interconnected flanges.  2. The air conditioner according to claim 1, characterized in that the flanges between the gas analyzer and the adapter, as well as between the latter and the filter are made with the possibility of compensation of axial reciprocating movements.

Images