SU1095151A1 - Climatic chamber - Google Patents

Abstract

A CLIMATIC CAMERA, containing a working chamber installed in a heat-insulated housing and equipped with temperature and humidity sensors connected respectively to a thermostatic valve and a moisture regulating device, is installed on the device to ensure reliability and simplify operation of the camera. the upper wall of the working chamber and is made in the form of a moisture-sensitive diaphragm connected by levers to an outside air supply valve installed in the opening of the upper wall an insulated casing, under the bottom of which there is an additional container, the cavities of which are filled with water and interconnected through a valve in the bottom of the insulated casing and through a bypass channel in which a thermostatic control valve is installed at the side of the insulated casing Heat cavity (L of the lined housing is installed heater, and in the cavity of additional capacity - the heater and radiator.

Description

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The invention relates to test equipment and can be used to test the moisture resistance of various products, the overall dimensions of which correspond to the volume of the chamber, which simulates the conditions of storage of products in a number of climatic zones of the USSR in conditions of high humidity.

There are climate climatic thermocameras (TCEs) containing a sealed cabinet, insulated by multilayer heat insulation, a fan inside the chamber, an evaporator with nozzles, heating devices, viewing windows, doors, streamlined channels with

blind, steam and air solenoid valves, with measuring, regulating and recording devices.

However, in these chambers there is a lot of complex equipment, requiring careful adjustment of highly qualified specialists, reliability in maintaining modes due to the likelihood of disruption of nutritional factors (electric power, water}, leakage, heat insulation, opening during loading, which leads to long restoration of the broken mode.

Known TCE consists of a heat-insulated chamber-cabinet, inside which is located the evaporator refrigeration; . machines with automatic blowing, mixing apparatus, cabinet with electronic automatic bridges, switchboard and software mechanism. Electric heaters, a fan, a pump, proportional mechanisms, air valves, a water tank, a hygrometer t2 are installed in the working chamber.

This chamber has insulated portions of the walls on the lower side and various inlets that violate their heat-tightness. The absence of additional heat insulating water jacket, the feeding of water from the water mains contributes to the rapid cooling of air in the working volume of the chamber. The use of electric power to adjust the equipment and drive of the fans, the operation of control valves creates the need for around-the-clock service and monitoring the camera mode. Long-term use of electrical energy for operation is unreliable, since there are possible power supply deviations for several days on the electric transmission line, which leads to a violation of the regime.

The aim of the invention is to increase the reliability of maintaining the desired temperature and humidity conditions, simplify operation and reduce maintenance costs while simulating the conditions for long-term storage of products and devices in the mode of 30–90 ° C at 40–100% humidity, as well as long-term operation of the camera without attendants.

This goal is achieved by the fact that the climate chamber contains a working chamber installed in a heat-insulated housing with temperature and humidity sensors connected respectively to a thermostatically controlled valve and a moisture regulating device, the latter is installed on the upper wall of the heat-insulated housing, under the bottom of which there is an additional container , the cavities of which are filled with water and are interconnected through a valve made in the bottom of the heat-insulated body and through a bypass channel, in which Oron cavity insulated housings mounted thermostatic valve, wherein the heater is installed and in the cavity, the cavity in the container -AUXILIAR insulated housing - Tel and heating radiator.

FIG. 1 shows the construction of a climate chamber; in fig. 2 Fu. National scheme.

The climate chamber (Fig. 1) contains a heat-insulated body 1, a working chamber 2, a temperature sensor 3, a humidity sensor 4, thermostatically controlled valve 5, a moisture-sensitive diaphragm b, levers 7 and 8, an outside air supply valve 9, an opening 10 in the upper wall of the heat-insulated bodies 1, additional capacity 11, valve 12, bypass channel 13, heater 14, heater 15, radiator 16, dampers 17, rod 18, load 19, fan 20, mechanical drive 21, fan 22, drive 23, object 24, stand 25, hole 26,, heating system 28 of the building, pop bench regulator 29, water supply 30.

Functional scheme of the climate chamber (Fig. 2) contains a humidity control system 31 (SRV), a moisture meter 32 (IV), a fan unit 33 (BV), a temperature meter 34 (IT), a temperature control system 35 (CPT), system 36 water level control (SRUV), the working volume of the chamber 37 (ROK).

The climate chamber operates in a dim way.

The object 24 is placed in the working volume of the chamber 2 on the easily propelled stand 25. The cavity of the heat-insulated body 1 and the additional capacitance

11 is filled with water from the water supply system. In the case of heating in an additional tank, water flows through the valve 5 by convective heat exchange, i.e. warm water will go up. Then the water in the housing 1 is heated above the specified one, for example by 2 ° C, which | The heater is provided in the additional tank 11. The water is heated by the heater 15 or by the radiator 16, which consumes heat from the heating system 28 of the Building, is brought to the back temperature t 30 ° C (more than the specified temperature).

Then the nagoperes 14 and 15 are turned off, and the water in the tank 11 can be heated to 95 ° C, since there is no direct communication of this tank 11 with the cavity of the housing 1, which prevents the air in the working chamber 2 from heating. maintaining temperature 1y, d in the working volume of the chamber is designed for i cooling. water in the range of 4 ° C (for example, CPTI, for example, when 1EJA 40 - i 42 - 38 + 4 ° С.

If the temperature in the chamber becomes lower than the set temperature, then with the help of the feed valve 5, the cavity of the housing 1 is connected to the additional tank 11 and the temperature in the chamber is restored by convective heat exchange by the method of natural circulation of water between vessels with different temperatures. Contact heat dacha from additional capacity is excluded, as it is insulated from the volume of the working chamber.

The water temperature of the tank 11 is periodically restored approximately once every 2-3 days (this depends on the amount of water in the volume of the entire chamber in advance due to the overheating of water using heaters 14 and 15 or due to the radiator 16 connected to the building heating system automatically (CPT ).

The vapor content in the air of the working volume of the chamber, i.e. Maintaining a given percentage of humidity is carried out using a humidity controller 31 which operates as follows.

Maintaining a consistent percentage of moisture using

selecting it at the time of the camera start-up by adjusting the valve 9, through which air enters the working chamber, and part of the moisture from the chamber comes out by opening the valve 38 descending downwards with the rod 18 and the load 19 due to the deflection of the membrane b, which is drained from the water impregnation . The amount of water vapor contained in the working volume air on the other hand to recharge moisture is also regulated by a moisture sensitive membrane, which simultaneously with the opening of the valves under the action of a load of 19 tons is not behind the lever 8, which raises the flaps 17, opening the surface of water evaporation in the housing 1, whereby the evaporated water is blown off from the surface by the fan 20, the fan 22 is driven by the Tvie electric actuator 23 from the wind-up spring or from the weight of the load and serves to mix the air in ochem screen chamber 2.

The accumulated condensate of water in the bottom of the working volume of chamber 2 is removed through opening 26 by means of drain 27. During the whole period of operation of the chamber, water is fed from water mains 30 using float regulator 29.

This design of the camera expands its technological and operational capabilities, allowing it to be used in any enterprise. This, eliminating the need for reliable long-term electrical power and water, provides great savings in electrical energy and pay for maintenance personnel, as well as increased fire-fighting properties.

The absence of additional inputs in the housing, the presence of high-quality insulation of a large volume of water in the chamber stably support the regime for a long time without additional automatic adjustment and systematic observation for 3 days (maybe more). The proposed camera is simple, makes it possible to reduce the time and The cost of testing to simulate long-term storage in tropical climates.

Claims (1)

. A CLIMATIC CAMERA containing a working chamber installed in a thermally insulated casing with temperature and humidity sensors associated with a thermostatic valve and a moisture control device, respectively, is distinguished by the fact that, in order to increase the reliability and simplify the operation of the camera, the moisture control device is installed on the upper wall of the working chamber and is made in the form of a moisture-sensitive diaphragm connected by levers with an external air supply valve installed in the hole of the upper wall of the heat lined body, under the bottom of which an additional container is installed, the cavities of which are filled with water and interconnected through a valve made in the bottom of the heat-insulated body, and through a bypass channel in which a thermostatic control valve <g is installed on the side of the cavity of the heat-insulated body, and in the cavity a heat-insulated case has a heater installed, and a heater and a radiator are installed in the cavity of the additional tank.