CS259091B1 - Device for thermovision equipments' detector cooling - Google Patents

Abstract

During the operation of the thermal apparatus, the cooling medium evaporates when the detector is cooled and thus reduces the time required for the measurement itself. Often damage to the Denar vessel occurs. The aforementioned drawbacks are eliminated by the device which is characterized in that the evaporation part of the cryogenic capillary heat pipe and the working substance are permanently connected to the detector. The condensation portion is inserted into the cooling medium through which the storage vessel is filled. The cryogenic capillary heat pipe is provided with a capillary system on the inner surface.

Description

The invention relates to a device for cooling a thermo-vision detector.

At present, the thermal imaging detector is placed in the metal bottom of a special liquid nitrogen-cooled Dewar container. The container has a capacity of about 0.2 liters, so that the nitrogen spontaneously evaporates from the glass container within a relatively short time. stabilization of the whole apparatus after switching on, it is left to carry out its own thermal measurement ooa 30 minutes * which is usually insufficient for accurate and demanding measurements · Fo refilling the container with liquid nitrogen is necessary to wait again for stabilization of signal level glass jars with its metal bottom for gutters and decommissioning of the steel apparatus ·

The above-mentioned disadvantages are eliminated by the device for cooling the thermal imaging apparatus detector according to the invention, characterized in that the thermal imaging apparatus detector is contacted by a contact part of the cryogenMacapillary heat tube and its condensation part is embedded in a cooling medium placed in the storage vessel. thermal trubioe is © belongs to capillary system ·

By contacting the evaporative part of the heat pipe to the thermal imaging detector and placing its condensation part in the coolant storage tank, the refrigerant consumption is greatly reduced and the thermal imaging operation is stabilized over time.

The attached figure shows an example of the device for cooling the detector of the thermal imaging apparatus according to the invention.

The evaporator part 2 of the cryogenic capillary heat tube 2 is contacted to the detector 1 of the cryogenic capillary heat tube 2, which is partially filled with the working substance 2. The cooling medium 6 is liquid nitrogen filling a multi-liter Dewar vessel. The heat from the thermal imaging detector 6 is transferred by conduction to the wall of the cryogenic capillary heat tube 2 ^and P. The substance J evaporates.

- two pairs of working fluid 2 is condensed in the condensing section £ cryogenic capillary heat pipe 2 »which is cooled by cooling medium 6 in a container 2 · Internal surfaces of cryogenic capillary heat pipes 2 are provided with a suitable capillary system 8 which ensures the return of condensate working substance 2 ²⁵ the condensation part 6 again into the evaporation part 2.

Claims (1)

SUBJECT OF THE INVENTION Apparatus for cooling a detector of a thermal imaging apparatus, consisting of a heat pipe with a working medium and a reservoir of cooling idle, characterized in that the evaporator part (2) of the cryogenic capillary heat tube (3) and its condensation part are contacted to the detector (1). (4) a dehladium medium (6) disposed in a storage vessel (5) is inserted, the inner sheath of the cryogenic capillary heat tube (3) being provided with a capillary assembly (8).