SU1538168A2 - Direct-action temperature regulator - Google Patents

Abstract

The invention relates to temperature control with the help of thermosensitive elements with solid filler and can be used in REA cooling systems and other objects to automatically maintain the desired temperature. The aim of the invention is to expand the scope of application of a direct temperature regulator. For this purpose, the screw of the adjusting element is in threaded connection with a nut placed inside the sleeve, on the cylindrical surface of which inclined grooves are made, through which the pin and the valve stem fixed on the nut pass, and the rod interacting with electrical contacts is fixed on the bottom of the glass. 1 hp f-ly, 2 ill.

Description

The invention relates to the field of temperature control with the help of thermosensitive elements with solid filler, can be used in cooling systems of electronic equipment and other objects to automatically maintain a given temperature and is an improvement of the invention according to the author. St. No. 1168911.

The aim of the invention is to expand the scope of application of the temperature regulator.

FIG. 1 shows a direct temperature controller, a longitudinal section; in fig. 2 - inclined groove, top view.

The direct action temperature controller includes a housing 1 with an inlet 2 and outlet openings 3 and 4 connected to cavities 5 and 6. Inside the housing 1 is placed a cup 7 with longitudinal slots 8. Inside the cup 7 there is a thermosystem 9 with a sealed chamber 10, filled with a thermoactive substance, and stem 1 1.

A flange 12 with electrocontacts 13 and 14 and a housing 15 is mounted on one Tosc of housing 1. At the bottom of glass 7 is a gatok 16, and a spring 17 is installed between flanges 12 and the bottom of glass 7. At the second end of housing 1 there is a flange 18 with sleeve 19, the cylindrical surface of which is inclined grooves 20, inside of which is placed the nut 21 with the screw of the adjusting element 22 and the lock nut 2.

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A pin 24 and a stem 25 of the crane 25 are mounted on the nut 21, passing through the inclined grooves 20. There is a tuning gap 26 between the ends of the rod 11 and the end of the screw of the tuning element 22.

The direct action temperature controller operates as follows.

The coolant, entering through the inlet 2, washes the thermal system 9 and through the slot 8 of the cup 7 enters the cavity 5, through the opening 3 into the main channel of the cooling system.

When the temperature of the coolant begins to expand, the thermosetting substance in chamber 10 begins its expansion and increase in pressure, which, acting on the rod 11, pushes it out of chamber 10. The rod moves until the adjustment gap 26 passes and the end of the adjustment screw touches element 2.2. After that, the thermal system 9 will begin to move along with the glass 1 and with the rod 16, which closes the electrical contact 13 and at the same time a signal about the lower permissible temperature of the heat transfer medium is issued. The temperature value is adjusted by changing the size of the gap 26. When the cup 7 moves, the passage through the slots 8 into the cavity 5 decreases and a passage through the slots 8 into the cavity 6 appears, the coolant begins to flow into the cavity 6 and the outlet 4, into the radiator channel of the cooling system and mixing with the flow of the main channel, enters the cooled object, but at a lower temperature. When the cup 7 is moved by the stroke (which is specified constructively), in which the gap in slot 8 with cavity 5 disappears completely, and with cavity 6 is maximum, the entire flow of heat-transfer fluid will go through the radiator channel. At this moment, the rod 16 closes the electrical contact 14 and a signal is issued on the maximum allowable temperature of the heat transfer medium.

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When the temperature of the heat carrier in the chamber 10 decreases, the pressure decreases and under the action of the springs 17 the cup 7 begins to move in the opposite direction, the gap in slot 8 with cavity 6 begins to decrease and the gap with cavity 5 goes, part of the coolant flows through the main channel through hole 3 „

During normal operation of the regulator, the cup 7 occupies a middle position, ensuring the temperature of the coolant in the specified range, as indicated by the electrical contact 13.

In order to force the sleeve 7 to move, when it is necessary that the inlet openings 2 communicate with the outlet openings 3 and 4 simultaneously when filling the cooling system with coolant, it is necessary to rotate the rod 25 relative to the axis of the sleeve 19 to remove air from the radiator channel, while the pin 24 and the rod 25, moving along the inclined groove, will move the nut 21 together with the screw 22 along the axis of the sleeve 19 and accordingly will move the thermal system 9 together with the cup 7, i.e. The direct temperature controller acts as a manually operated valve.

Claims (2)

1. Temperature controller for direct operation by aut. St. No. 1168911, t - characterized in that, in order to expand the field of use, the screw of the adjusting element is connected by means of a threaded connection with a nut placed inside the sleeve, on the cylindrical surface of which there are inclined grooves in which the pin and the stem of the crane are mounted, fixed to the nut. I 2. The regulator according to claim 1, a to t a and - that the regulator is equipped with a signaling device, made in the form of a rod attached to the bottom of the glass, and electrical contacts located outside the housing. IB s j / ;; u 8 914 166 11 (# 21 20 FI.1 Fie.2