CS254828B1 - Cooling system especially for measuring instruments - Google Patents

Abstract

The solution relates to a cooling device, especially for measuring instruments and their parts. The essence of the solution is that it is formed thermally 'insulated monoblock with the exception of entry media on the entire surface by thermal insulation, taking compressed air into the expansion the radiator is through the lid in which it is At least one throttle is fitted while the expansion cooler insert in which it is thermally bonded to a thermally insulated monoblock, it contains a system in its body parallel or serial air channel, while the inner space is usable space for cooling or temperature stabilization intent.

Description

The invention relates to a cooling device, in particular for measuring devices and parts thereof.

In the construction of measuring instruments, their parts, sensors, probes and the like (hereinafter referred to as measuring instruments) for monitoring or controlling machines in hot operations, there is often a need to cool or thermally stabilize the measuring instrument at temperatures lower than the direct ambient temperature of the measuring instrument. Until now, for this purpose, closed coolant cycles, thermoelectric cooling in combination with closed or open coolant cycles have been used, or the measuring device has been placed at a distance from the so-called hot machine where the temperature no longer reaches an unacceptable level.

All known solutions have a number of disadvantages, which often significantly affect the usability of the meter due to high cost, low reliability and high operating costs. For example, installing the meter at a greater distance from a so-called hot machine has the major disadvantage of extending the signal path. The meter processes the signal, which weakens the signal so that it is necessary to include different types of amplifiers, which again have a negative impact on the price level and reliability of the meter ·

The above-mentioned disadvantages are overcome by the cooling device according to the invention, which consists in that it consists of thermally insulated

254 828 with a monoblock provided with thermal insulation over the entire surface of the media except the inlet and outlet of the pressurized air through the lid in which at least one throttle is fitted, while the expansion cooler insert in which it is thermally conductively connected to the thermally insulated monoblock, comprises in its body a set of parallel or serial air ducts, the interior space being a usable space for cooling or temperature stabilizing purposes.

The advantage of the cooling device according to the invention is that it makes it possible to achieve by means of technically simple means cooling of the measuring device below the ambient temperature and below the temperature of the cooling medium itself - compressed air. Depending on the design of the tuning power of the order of tens of W, the devices according to the invention can be achieved, which is sufficient for a number of measuring devices equipped, in particular, with semiconductor elements and other electronic circuits.

A great advantage of the device according to the invention is the construction without rotating parts, which is characterized by 100% reliability and lifetime without limitation, especially if the compressed air is free from all undesirable impurities and moisture before entering the device.

An exemplary embodiment of a cooling device according to the invention is shown schematically in the accompanying drawing in section

The cooling device according to the invention is thermally formed

3,254,828 an isolated monoblock JL, provided with insulation 2 over its entire surface. The compressed air inlet 3 is closed by a cover 4 in which a throttle 5 is fitted,

The thermally insulated monoblock 1 consists of an expansion cooler 6 and an internal cooled space 7. The expansion cooler 6 is provided with an insert 8 which has in its body a set of parallel or serial air channels 9. In the inner; In the cooling space 7, a base plate 10 is provided, fitted with, for example, electrical components 11 with an integrated supply and output 12 of the energy and the measured signal. The compressed air outlet 13 from the thermally insulated monoblock 1 is connectable to other devices (not shown) utilizing the remainder of the compressed air pressure drop for other purposes

In operation of the cooling device according to the invention, the compressed air enters through the inlet 3 into the space of the expansion cooler 6 through the throttle valve 2. The compressed air cooled in the expansion cooler 6 bypasses the air channels 9. Since the expansion cooler 6 is part of At the same time, the compressed air is cooled or maintained at an acceptable temperature for the electric components 11 and the inner cooled space 7.

By placing the expansion cooler 6 in the monoblock .L with the internal cooling space 7, a perfect thermal connection is achieved and the thermally insulated monoblock .L. Further permits the positioning of a sensor (not shown) at the most convenient location.

254 828 monoblock temperature sensing 1 ' for temperature measurement or pulse sensing for further control intervention.

The performance of the refrigeration device of the invention may be controlled by varying the inlet air pressure, or by changing the cross-sectional size of the throttle member, or by changing the surface area of parallel or serial air ducts, or by controlling the flow rate of the air outlet.

Claims (1)

Cooling device, in particular for measuring instruments, characterized in that it comprises a thermally insulated monoblock (1) provided with thermal insulation (2) over the entire surface of the media except the inlets and outlets of the media, the compressed air inlet (3) being through a cover (4) in which at least one throttle (5) is fitted, while the expansion cooler insert (8), in which it is thermally conductively connected to the thermally insulated monoblock (1), contains a system of parallel or serial air ducts (9),