RU2399902C1 - Test chamber - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: test chamber has a housing in which there are sensors of parametres of the test object, a door for loading the test object, a cooling system, a heating system, and a ventilator. Outputs of the sensors of parametres of the test object are connected to inputs of a control unit, whose outputs are connected to control inputs of the cooling system, the heating system and the ventilator. Free space of the chamber is divided by a heat-reflecting, heat-insulating partition with possibility of displacement and having a detachable seal on the entire perimetre between the partition and the chamber.

EFFECT: faster testing.

1 dwg

Description

The invention relates to techniques for climate testing of various, in particular radio engineering products.

Known test chambers for testing machines containing heat-insulating rooms, in which stands are installed for accelerated simulation tests of machines in different extreme temperature conditions, the chambers are equipped with refrigeration and heating devices, sight glasses, lighting lamps, light and sound alarms, characterized in that the Arctic and tropical chambers are equipped with coil pipes located in a horizontal or vertical plane along longitudinal walls and ceilings, rigidly at parallel to the coil pipes, there are panels or frames made of steel corners coated with insulating dielectric material, thermomodules consisting of tellurium and bismuth plates glued together with a dielectric varnish having high adhesive and electrical properties are installed and rigidly fixed to the frame windows with the possibility of creating a temperature difference, in the arctic chamber temperatures up to -35 ° С, and behind the frame with thermal modules + 35 ° С, in the tropical chamber + 35 ° С, and behind the frame -35 ° С, pipe coils Both chambers are equipped with an electric pump and are configured to remove heat from the frame of the Arctic chamber to the tropical chamber and to remove cold due to the frame of the tropical chamber to the Arctic chamber, the thermal modules are interconnected on both sides and to the current source by an electric circuit, the thermal modules are connected between by themselves in sections, sections are connected to the buttons of the control panel, each button of the control panel is equipped with a temperature controller and is configured to maintain temperature parameters within measures, the control panel is equipped with an electric switch for changing the direction of the electric current in the tellurium and bismuth plates in the thermal modules, and is made with the possibility of sudden changes in temperature and converting the tropical camera into an arctic chamber, and the arctic camera into a tropical chamber and creating simulations of changing seasons, climate chambers equipped with devices for humidification, dusting, creating wind, changing atmospheric barometric pressure in the chambers and configured to create simulations climatic conditions with different parameters (2001109181 G01M 15/00 2004.03.20).

The disadvantage of such a test chamber is the impossibility of changing the volume of the chamber, for example, if it is necessary to test then large-sized machines and devices, then one, but small in size product.

The closest in technical essence is a climate chamber containing a housing in which the sensors of the parameters of the test object are located, a cooling system, a heating system and a fan, while the outputs of the sensors of the parameters of the test object are connected to the inputs of the control unit, the outputs of which are connected to the control inputs of the cooling system, heating and fan systems (See JP 2008145381 G01N 17/00 2008.06.26).

However, if it is necessary to carry out climatic tests of either large-sized products, or small-sized products, it is not possible to reduce the size of the chamber.

The technical result of the invention lies in the possibility of changing the volume of the test chamber when testing either large-sized products, or small-volume products.

To achieve the technical result, a test chamber is proposed comprising a housing in which the sensors of the test object are located, a door for loading the test object into the chamber, a cooling system, a heating system and a fan, while the outputs of the sensors of the parameters of the test object are connected to the inputs of the control unit, outputs which are connected to the control inputs of the cooling system, heating system and fan, while the interior of the chamber is divided by heat-reflecting heat an insulating partition with the ability to move inside the camera, and having a detachable seal around the perimeter between the partition and the camera.

The drawing shows a functional diagram of the test chamber, where

1 - camera body;

2 - parameters sensors;

3 - cooling system;

4 - heating system;

5 - fan;

6 - door for loading the test object;

7 - control unit;

8 - test object;

9 - thermally reflective insulating partition;

10 - seal.

The control unit is equipped with a system for regulating and maintaining the temperature in the chamber within the specified limits.

The test chamber contains a housing 1. In the housing there are sensors 2 of the parameters of the test object, a cooling system 3, a heating system 4, a fan 5 for uniform distribution of the temperature field throughout the chamber body, a door 6 for loading the test object, the outputs of the sensors of the parameters of the test object are connected to the inputs of the control unit 7, the outputs of which are connected to the control inputs of the cooling system, heating system and fan. A test object 8, a partition 9, and a seal 10 between the partition and the inner surface of the chamber are located in the camera body.

The test chamber operates as follows.

The test object 8 is installed in the chamber as close as possible to the cooling, heating and fan systems, the partition 9 is moved to the test object, and a seal 10 is installed between the partition and the inner surface of the chamber. The control unit 7 controls the heating system, cooling system, fan to maintain the temperature in the chamber within the specified limits. Reducing the volume of the chamber reduces the time of the test.

Claims (1)

A test chamber comprising a housing in which the sensors of the test object are located, a door for loading the test object, a cooling system, a heating system and a fan, while the outputs of the sensors of the parameters of the test object are connected to the inputs of the control unit, the outputs of which are connected to the control inputs of the cooling system, heating system and fan, characterized in that the inner space of the chamber is divided by a heat-reflecting insulating partition with the ability to move and have a split seal around the perimeter between the partition and the chamber.