SU1027539A1 - Temperature indicator - Google Patents

Description

The invention relates to the measurement and control of temperature and power used to signal that an object has reached a predetermined temperature under specific operating conditions (presence of electric fields, high-frequency vibrations of acoustic oscillations, high temperatures, low ambient temperature),. An indicator device for temperature control is known, which contains a temperature-sensitive element made of a magnetic material that changes its magnetic properties when heated to the temperature corresponding to its Curie 1 type. ........ .. Device output - Low reliability of measurement / especially when monitoring the temperature of objects or environments that are difficult to access in low light and high room temperatures. The closest in technical essence and attainable to the proposed invention is a temperature indicator, comprising a housing with a movable magnet and a fixed magnet fixed in the housing and a sensing element made of a Fero-magnetic material with a certain point Cu .. Pu 2. The disadvantages of the known signaling device are low measurement reliability and operational difficulty in the presence of electric fields, lack of access to the sensor, etc. The purpose of the invention is to increase the reliability of signaling and convenience in operation. The unalloyed goal is achieved by the fact that a fixed magnet and a sensitive element made of a ferromagnetic material — with a certain Curie point — are inserted into the body with a movable magnet and heat insulating pads. The light guides, the control unit and the radioactive-luminescent light source connected by light fluxes through the holes in the casing blocked by a movable magnet, while the heat insulating gasket is located between the movable magnet and the sensitive element, and the elastic between the movable and fixed magnets. The drawing shows the proposed temperature detector. The detector includes a housing 1 made of a diamagnetic material, a thermosensitive element 2 made of a ferromagnetic material with a Curie point corresponding to the controlled temperature, a permanent magnet 3, not exposed (but fixed in a box, a heat shield 4, a permanent permanent magnet 5 that can move along the axis of Kopity-, sa, elastic gasket b, luminescent light source fixed in the housing and containing ampoule 7 filled with a radioactive isotope, the inner surface of one of the ends 8 of which has a fluorescent coating, and a spherical glass 9 is attached to the same surface to focus the light flux, a cover 10 with an opening, light guides 11 and 12, which are fixed at one end to the through hole of the cover, and the other to the through holes made in the housing and 13 14 are flush with the inner surface of the housing, coaxially with the said holes in the housing, there are made through outlets 15 and 16, respectively, in which each light guide 17 .and 18 are flush with the housing with one end and the other ends are inserted in block 19 control. The dimensions of the through holes 13 - 16 and their location in the housing 1 are chosen so that the mobile permanent magnet 5 in the extreme upper and extreme lower positions completely overlaps the two through holes: 13 and 15 or 14 and 16. Fixed In case 1, a permanent magnet 3, a movable permanent magnet 5 and an elastic gasket b are chosen so that when the thermosensitive element 2 loses its ferromagnetic properties, the moving permanent magnet 5 is attracted stationary in the housing 1 by a permanent magnet 3 to the elastic gasket 6 (the second extreme position). In the presence of the ferromagnetic properties of the thermosensitive element 2, a movable permanent magnet 5 is attached to the heat shield 4 (the first extreme position, the initial state). The temperature detector operates as follows. In the initial state, when the value of the controlled temperature is less than specified (), the temperature sensor is ferromagnetic, and the T-moving permanent magnet 5 is in the first extreme position. With this input 13; and the outlet 15 of the hole is perpendicularly covered by a moving permanent magnet 5, and the holes 14 and 16 are not blocked. The radioactive isotope 7, bombarded by the end of 8 ampoules 7, covered with a layer of fluorescent substance, causes it to glow, which is focused by spherical glass 9 and through optical fibers 11. and 12 in, is given in the entrance holes 13 and 14. Since holes 13 and 15 are completely the movable 1 ″ 1 permanent magnet 5 is blocked, the transmission of the glow to the outlet 15, the light guide 17 and the control equipment occurs, In turn, due to the coaxiality of the holes 14 and 16, the light is transmitted to the output opening 16, the light guide 18 and the control unit state of ni and this signal of the initial state is transferred to the OLC control continuously. When the controlled temperature increases and the Curie point is reached (thermal motion destroys the areas of spontaneous magnetization of the temperature-sensitive element 2, and it, having lost its properties, turns into a paramagnetic substance. This is iodite that the mobile permanent magnet 5 turns out to be pulled and fixed by the permanent magnet 3 to the elastic spacer 6 and compresses it (the second extreme position of the transition of the mobile permanent magnet 5 in the second The extreme end position causes the holes 14 and 16 to be completely blocked, and the transmission of light to the light guide 18 stops, on the other hand, the coaxial holes 13 and 15 are not blocked, which leads to a continuous transfer of light to the light hole. 15, light guide 17 and a control unit (temperature alarm trigger signal),. If the thermosensitive element 2 has ferromagnetic properties, the movable permanent magnet 5 under the action of its force attracts and the elastic force of the gasket b returns to its original state, closing the apertures 13 and 15 and opening the apertures 14 in 16. The temperature indicator, ready for work Thus, the initial state of the temperature indicator (Tj) is appropriate. the presence of continuous. the light in the light guide 18 and the absence of light in the light guide 17. After cgg of the temperature detector (), the light is continuously transmitted by the light guide 17, while S is not present at the light guide 18. The presence of continuous luminescence in one of the optical fibers 17 or 18 (except for the moments of the transition of the moving permanent magnet 5 to the first and second, extreme positions) allows, in addition to monitoring the object temperature T, to monitor the temperature indicator itself as in its initial state (T ( (f ds), and after it is triggered (T). The possibility of returning the constant positive magnet 5 from the second extreme position to the initial state in the presence of the ferromagnetic properties of the thermosensitive element 2 reuse the temperature detector. The presence of a heat shield 4 eliminates the effect of temperature on the quality of the detector operation. Vibrational, acoustic oscillations and electric fields do not cause false alarms of the detector. Thus, the proposed temperature detector allows to increase reliability of measurements, and use luminescence transmitted by light conductors makes it very easy for a human operator to monitor the state of O ekta and signaling, ie creates ease of operation. High reliability of measurements and ease of operation of the detector. The topics allow it to be used in various areas of national economy, where during expensive {Responsible tests of complex objects or during their operation, it is necessary to control their temperature, on which the further processes in the object depend.

Claims (1)

(5f) TEMPERATURE ALARM,. comprising a housing with a movable magnet and a fixed magnet fixed in the housing and a sensitive element made of ferromagnetic material with a certain Curie point, characterized in that, in order to increase the reliability of measurement and ease of operation, elastic and heat-insulating gaskets, a control unit and a radioactive fluorescent are introduced into it a light source connected by optical fibers through openings in the housing, overlapped by a movable magnet, while being heat-insulating: the gasket is placed between the movable! a magnet and a sensitive element, and elastic - between the movable and fixed magnets.