RU2696940C1 - Testing unit - Google Patents

Abstract

FIELD: test equipment.

SUBSTANCE: invention relates to cold-heat testing apparatus and is intended for testing large-size articles when exposed to air flows with rapidly varying temperature. Proposed plant comprises air heating and cooling systems with temperature controllers and air temperature sensors, chamber to house test object with fan and sensors of temperature parameters of tested object. At that, heating and cooling systems are located outside the chamber, in separate cases with windows for air intake and outlet with preset temperature. Chamber is made in the form of a cylindrical shell with attachment units of the tested object, which provide axisymmetric location in the chamber of the tested object. One butt end of the cylindrical chamber is open, and on the other one there is an inlet fan providing for air suction inside the shell, its passage along the test object and blowout from the chamber. Chamber is arranged on movable trolley with electric drive controlled remotely and providing during its motion of chamber its full or partial docking with open end with outlet opening of heating system. Cooling system is equipped with a flexible air duct connected to the remotely controlled electric drive ensuring the air duct branch pipe connection or detachment with the chamber open end. Air heating and cooling systems have air generation capacity with preset temperature identical to that of exhaust system of chamber.

EFFECT: elimination of influence of thermal state of test object on air medium acting on it, which provides accuracy of action on the test object of cold or hot air with a given temperature according to the required time law even under conditions of multiple temperature changes during one or several cycles, which in the final stage increases accuracy of tests.

1 cl, 1 dwg

Description

The invention relates to test installations of heat - cold and is intended for testing products in the air. The invention is most effective when conducting temperature cyclic tests of heat - cold in air.

Known thermoelectric heating and cooling installations for testing products in air, for example, according to the patent of the Russian Federation No. 2129745 H01L 35/28, F25В 21/02, G01N 30/02 (published on 04/27/1999) or according to the patent of the Russian Federation No. 2400723 G01M 19/00, G01N 25/00 (published September 27, 2010). Known test installations contain a heat-insulated chamber of constant volume to accommodate the test product, in which cooling and heating systems and a fan are installed, as well as temperature sensors of the air in the chamber. The disadvantage of these designs is the long duration of the transition periods of reaching the required air temperature at which the test time of the product begins.

A partial elimination of this drawback was achieved in the design of the test chamber according to the patent of the Russian Federation No. 2399902 G01M 19/00, G01N 25/00 (published on September 20, 2010), which was chosen as the prototype. The test chamber contains a thermally insulated body with a door for loading the test object, sensors of the parameters of the test object located in the camera body, a cooling and heating system, a fan, as well as a heat-insulating partition installed to move inside the chamber.

The test object is installed in the chamber through the existing heat-insulated door as close as possible to the cooling, heating and fan systems, which are placed in the chamber on one side of the movable partition. The septum itself is installed as close as possible to the test object, seals are installed between the septum and the inner surface of the chamber. This reduces the internal air volume in which it is necessary to achieve the temperature required for the test. In the simplest test mode, for example, maintaining the test product at a constant positive or negative air temperature for a given time, the installation works as follows. The heating or cooling system turns on. Air in a closed chamber begins to heat up or cool down depending on the mode. The test object is gradually heated or cooled to the desired temperature, while simultaneously cooling or heating the air around it. This fan heat somewhat accelerates the process, but still, in this design of the test chamber, the transition process to achieve a constant required temperature in the air chamber is quite long. Only after the transition process has ended and the temperature of the air volume reaches the desired value, the test of the object begins. If a more complex process of temperature influence of the air environment on an object is needed, for example, according to a changing temperature law, then the forced and unplanned finding of the test object in air with a temperature not provided for by the test schedule increases even more. This introduces an error in the test conditions.

The aim of the present invention is to improve the accuracy of thermodynamic testing of products.

The technical result of the claimed invention is the provision of exposure to the test object of the air environment of the required temperature according to the desired time schedule.

The technical result of the claimed invention is achieved by the fact that in a test installation containing a chamber with units for installing the test object and a fan, air heating and cooling systems with temperature controllers and temperature sensors of the generated air and a control unit, heating and cooling systems are located outside the chamber in separate cases with windows for air intake. The chamber itself is made in the form of a cylindrical shell, where the test object's installation nodes provide its axisymmetric location in the chamber, one end of which is open, and a supply fan is installed on the other, which allows air to be sucked into the shell through the open end and passing along the test object and ejected by the fan from the camera. The camera is located on a movable trolley with an electric drive, remotely controlled through the control unit and providing, during the movement of the camera, its docking with an open end to the exit window of the heating system. The cooling system is equipped with a flexible duct connected to a remote controlled by an electric drive control unit, ensuring the combination or undocking of the pipe of the cooling system with the open end of the chamber. At the same time, air heating and cooling systems have air-generating capacity with a given temperature equal to the capacity of the chamber exhaust system.

The analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information and identification of sources containing information about analogues of the claimed solution, made it possible to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype, as the closest in the totality of the features of the solution, allowed to identify the set of essential distinguishing features in the claimed object in relation to the applicant's perceived technical result set forth in the claims. Therefore, the invention meets the requirement of "Novelty" in accordance with applicable law.

The design of the installation is shown in the figure. The installation includes a chamber 1 with a test object 10 located on it at the installation nodes and a supply fan 9. The chamber is located on a movable trolley 5 with an electric drive 6. The cooling system 3 with a flexible air duct 7 equipped with an electric drive 8 and a heating system 2 are located outside the chamber in separate cases . Cooling and heating systems, electric drives and a fan are connected by an electric network to the control unit 4.

Installation works as follows. The control unit records information on the conditions of thermal testing of an object in air, for example, exposure to an object of hot air with a temperature of 100 ° C for 5 minutes, then exposure to an object of cold air with a temperature of minus 10 ° C for 5 minutes, followed by checking it health. In the heating and cooling systems, information is generated via the control unit to generate air of the required temperature. The test object is placed in the chamber at the installation nodes axisymmetrically, which ensures uniform air supply to the entire surface of the test object. The drive of the movable trolley is activated, which joins the open end of the chamber with the exit window of the heating system. The supply fan of the chamber is turned on, which drives hot air from the heating system through the test object. Hot air of a predetermined temperature of 100 ° C acts on the test object and then as an exhausted working fluid is thrown out of the chamber. After the planned time, the drive of the trolley with the camera takes the camera away from the heating system, at the same time, the drive of the flexible duct of the cooling system joins the pipe of the duct with the freed open end of the chamber. Cold air enters the chamber with a predetermined temperature of minus 10 ° C for a predetermined time of 5 minutes, acting on the test object in the process of longitudinal movement along the chamber, and is thrown out of the chamber as waste. The equality of the performance of the exhaust system of the chamber with the productivity of generating hot or cold air from the heating and cooling systems ensures that air enters the chamber only with the specified temperature parameters. During operation, the temperature of the air entering the chamber is constantly monitored by means of temperature sensors of the heating and cooling systems on the control unit.

Thus, an air of only a predetermined temperature acts on the test object for a predetermined time, which increases the accuracy of the test and reduces the time it takes.

The enterprise GosNIImashinostroeniya JSC developed and manufactured a test installation of this design. Preliminary tests have shown the operability and efficiency of this installation, even with complex cyclic temperature conditions affecting the facility.

As follows from the foregoing, the technical result, i.e. providing exposure to the test object of the air environment of the required temperature according to the required time schedule is provided only when all the essential features of the claimed design are interacting.

Claims (1)

A test installation comprising a chamber with units for mounting the test object and a fan, air heating and cooling systems with temperature controllers and temperature sensors of the generated air and a control unit, characterized in that the heating and cooling systems are located outside the chamber in separate cases with windows for intake atmospheric air, the chamber itself is made in the form of a cylindrical shell, where the nodes for mounting the test object provide its axisymmetric location in the chamber re, one end of which is open, and a supply fan is installed on the other, which ensures that air is sucked into the shell through the open end and passes along the test object and is ejected from the chamber by the fan, while the chamber is placed on a movable electric trolley controlled remotely and providing during the movement of the camera, its docking or undocking with an open end with the exit window of the heating system, and the cooling system is equipped with a flexible duct connected to a remotely controlled electric a drive that allows the connection or disconnection of the pipe of the cooling system with the open end of the chamber, while the air heating and cooling systems have the capacity of generating air with a given temperature, the same as the capacity of the exhaust system of the chamber.

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