SU972257A1 - Differential manometric temperature indicator - Google Patents

Description

(54) DIFFERENTIAL MONOMETRIC TEMPERATURE SIGNALIZER

Claims (2)

The invention relates to a technique for measuring temperature and can be used, for example, in indoor air conditioning systems to protect air heater chambers from freezing. A differential temperature gauge temperature indicator is known, comprising a housing, fixed in it sylphs with fixed and movable bases, a sensor for displacing the latter, and thermocylinders filled with a working substance with pulse lines, one of which is connected to the lower part of the bellows cavity 1. A disadvantage of the known device is the complexity the design of the displacement sensor of the movable base of the bellows. The purpose of the invention is to simplify the design and increase reliability. This goal is achieved by the fact that a transverse partition is installed in the bellows, and another pulse line is connected to the bellows cavity above the partition through a corrugated tube, and the displacement sensor is made in the form of an interacting magnet and reed switch fixed respectively on the movable base of the bellows and in the housing. The drawing shows a differential manometric temperature detector. The detector includes a housing 1, a bellows 2 located therein with a stationary 3 and a movable 4 bases, a sensor 5 for moving the latter and thermal balloons 6 and 7 filled with a working substance with impulse lines 8 and 9, one of which is connected to the lower part of the cavity 10 of the bellows 2 The bellows 2 also has a transverse partition 11 and another pulse line 9 is connected to the cavity 12 above the partition 11, and the displacement sensor 5 is designed as an interacting magnet 13 and a reed switch 14 mounted respectively on the movable force base 4 Background 2 and the housing 1. The differential manometric temperature alarm operates as follows. In normal temperature conditions, gases or liquids in thermocylinders 6 and 7 are expanded and, through pulse lines 8 and 9, act on the cavities 10 and 12 of the bellows. 2. These cavities increase and push apart both halves of the bellows 2, as a result of which the magnet 13 abuts against the reed switch 14, or is in close proximity to him, while the contact of the reed switch is closed. When the temperature regime is disturbed, gases or liquids in thermocylinders 6 and 7 are compressed, as a result of which cavities 10 and 12 are reduced, which leads to axial reduction of bellows 2, it lowers its movable base 4 with magnet 13 down, after which the magnetic field of magnet 13 in the zone the reed switch 14 is reduced and the latter opens its contact (or closes when a reed switch with an open contact is used), giving a signal to the control or signaling circuit. In the case of dropping below a predetermined value in one of the thermocouples, one of the cavities 10 or 12 decreases and the corresponding part of the bellows 2 is reduced due to the fact that the magnet 13 is slightly removed from the reed switch 14, the contact of which does not open slightly as the field of the magnet weakens slightly. Thus, due to the proposed implementation of the differential pressure gauge temperature detector, the design is simplified and reliability is improved. The invention includes a differential pressure gauge temperature sensor, comprising a housing, a bellows with fixed and movable bases located therein, a sensor for moving the latter and filled with balloons with pulse lines, one of which is connected to the lower part of the bellows cavity, characterized in that in order to simplify the design and increase reliability, a transverse partition is installed in the bellows, and another pulse line is connected to the cavity via a corrugated tube, The lofon is above the partition, and the displacement sensor is made in the form of an interacting magnet and reed switch, mounted respectively on the movable base of the bellows and in the case. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 351094, cl. G 01 K 5/32, 1970.