RU2370704C1 - Temperature sensor - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: temperature sensor comprises body, inside of which a metal rod is installed, and a two-position gate is fixed on body with the help of bracket with sealants and nozzles, pulse tubers for connection to gas stop valve. Sensor is additionally equipped with polymer tube, connected to metal rod, the latter has adjustment thread, and control disk is fixed on the other end of rod, at the same time polymer tube is arranged with the possibility to adjust length of metal rod, and inside bracket there is a slider with adjustment screw, which is additionally equipped with flat spring arranged with the possibility of interaction with two-position gate that closes and simultaneously opens nozzles connected to above-membrane and under-membrane cavity of gas stop valve.

EFFECT: simplified design, reduced dimensions and higher axial shift of metal rod with lower error of connection.

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Description

FIELD OF THE INVENTION

The invention relates to energy, in particular to temperature sensors used in gas burner devices for burning gas in outdoor boilers, and can be used in domestic gas appliances to automatically maintain the temperature of the coolant.

State of the art

A well-known universal boiler installation comprising a hot-water heating boiler with a gas burner device, a gas duct, heating and return water pipes, an upper tank with a hot water supply system, the upper tank is made in the form of a cylindrical drum, and the hot water supply system is made in the form of a multi-pass high-speed water-water heater containing bundles of brass tubes separated at the ends by chambers and arranged sequentially from bottom to top (see No. 2133925, IPC F24H 1/22, publ. July 27, 1999).

The disadvantage of this installation is the high cost, the complexity of the design.

Known atmospheric gas burner containing a gas regulator, consisting of a control unit connected to a temperature sensor using a control channel, a control unit connected to a flame sensor, traction control channel, while it is equipped with a second gas regulator consisting of a control unit connected to a temperature and outdoor air sensor, a control unit, while the second gas regulator is installed with the possibility of parallel connection of the cavities of the control units and the outside temperature sensor air by connecting to the control unit of the second gas regulator, and the percentage of gas supply to the burner by both regulators is set by taps (see Pat. RU No. 2196939, IPC F23N 1/10, F23D 14/60, publ. 01.20.2003) .

The closest in technical essence and the achieved positive effect and adopted by the authors for the prototype is a temperature sensor containing a housing with holes for supplying and discharging gas from the gas regulator, inside which a metal rod is installed, and a two-position shutter with seals and nozzles is fixed on the housing with a bracket , impulse tubes for connection with a gas shut-off valve (see Temperature sensor. RGU-M1. Operation manual. Ca 2.574.023 RE Starorusspribor Plant OJSC, 175200, city C Araya Russa, Novgorod region, ul. Mineral, 24).

The disadvantage of this sensor is the design complexity, large dimensions.

Disclosure of invention

The objective of the invention is the development of a temperature sensor having small dimensions and a simplified design with a simultaneous increase in the axial displacement of the metal rod with a decrease in the switching error.

The technical result that can be obtained using the present invention is to simplify the design, reduce the size and increase the axial displacement of the metal rod with a decrease in the switching error.

The technical result is achieved using a temperature sensor containing a housing, inside which a metal rod is installed, and on the housing using a bracket a two-position shutter with seals and nozzles is fixed, impulse tubes for connecting to a gas shut-off valve, while it is additionally equipped with a polymer tube connected to metal rod, the latter has an adjusting thread, and on the other end of the rod the adjusting disk is fixedly fixed, and the polymer tube is made with possible NOSTA adjusting the length of the metal rod, and the slider is mounted inside the bracket with an adjusting screw which is further provided with a leaf spring adapted to cooperate with a two-position valve, simultaneously closing and opening of the nozzle connected to nadmembrannoy submembrane cavity and the gas shut-off valve.

Brief Description of the Drawings

Figure 1 shows the device of the temperature sensor, General view.

Figure 2 is the same, the circuit diagram of the temperature sensor with a gas shut-off valve and elements of an atmospheric burner.

The implementation of the invention

The temperature sensor consists of a housing 1 with a pipe thread connected to a polymer tube 2, which is connected to an internal metal rod 3 having an adjusting thread 4, an adjustment disk 5 is fixedly fixed at the second end of the metal rod 3, and an arm 6 is fixedly fixed to the case 1 on which a two-position shutter 7 with seals 8 and nozzles 9 and 10 is installed, and a slider 11 with an adjusting screw 12 is installed inside the bracket 6, a prism 13 with a flat spring 14 is fixed to the slider 11, which ohm enters bore bi-valve 7 and the nozzles 10 and 9 fittings (not shown) are fixed pulse tube (not designated). The pneumatic circuit for connecting a temperature sensor with a gas shut-off valve and elements of an atmospheric burner includes: a shut-off device with a gas shut-off valve 15, a membrane device 16, which contains a comb 17 connected by its nozzles (not shown) to the nozzle 10 of the temperature sensor, draft sensor 18, the flame sensor 19 and the submembrane cavity 20, the comb 17 has a nozzle 21 connected to the network gas sensor 22, and the supmembrane cavity 23 contains a nozzle 24 with a valve 25, a spring 26 and a sealing element 27, a nozzle 28 connected Seated with a temperature sensor nozzle 9, the igniter 29, thermobimetal plate 30, gas valve 31, burner 32, firebox 33 are also included in the pneumatic circuit, while all elements of the burner 32 are connected by pipes and impulse tubes (not indicated).

The temperature sensor operates as follows.

By changing the position of the slider 11 with the adjusting screw 12, a symmetrical arrangement of the flat spring 14 is achieved by moving the prism 13, and by rotating the adjusting disk 5, they close the nozzle 10 with the two-position shutter 7, raise the thermo-bimetallic plate 30, the network gas sensor 22 is opened and the igniter 29 is ignited, then after 10-12 seconds, the thermobimetallic plate 30 is released and, if the nozzles of the draft sensor 18, the flames 19 are closed, the gas flows through the nozzle 21 into the submembrane cavity 20, overcoming the gas resistance by the membrane force nth shut-off valve 15, the membrane lifts the shut-off device, open the valve 31, the burner 32 is included in the operation. Flue gases enter the furnace 33, washing the thermo-bimetallic plate 30 of the draft sensor 18, while the supra-membrane cavity 23 connected by the nozzle 28 to the open nozzle 9 of the temperature sensor housing 1 is connected to the atmosphere, there is no pressure in this cavity when lifting the shut-off device of the gas shut-off valve 15 at the end of the stroke, the seal 27 closes the gas shutoff valve 15, stopping gas from entering through the nozzle 24 into the supramembrane cavity 23, while the spring 26 is compressed, when the polymer tube reaches the set temperature 2 pushes the metal rod 3, and with it the adjusting disk 5 from the flat spring 14, the latter moves the two-position shutter 7 to the opposite position, the nozzle 10 opens and the nozzle 9 closes, the pressure decreases in the submembrane cavity 20, the spring 26 opens the valve 25 and gas through the nozzle 24 enters the supramembrane cavity 23, the shut-off device of the gas shut-off valve 15 closes, after cooling the coolant, the polymer tube 12, reducing in size, moves the metal rod 3, and in place with it, the adjusting disk 5 to the flat spring 14, which transfers the on / off valve 7, opening the nozzle 9 and closing the nozzle 10, the gas flows through the nozzle 21 into the submembrane cavity 20, since the nozzle 9 is open, the pressure in the supmembrane cavity 23 disappears, by the pressure of the membrane overcoming the resistance of the gas shut-off valve 15, the membrane raises the shut-off device, the burner 32 is included in the work. The cycle repeats.

The invention in comparison with the prototype and other known technical solutions has the following advantages:

- simplification of the design;

- reduction in size;

- an increase in the axial displacement of the metal rod with a decrease in the switching error;

- increase the life of the temperature sensor;

- reduction in the cost of the sensor.

Claims (1)

A temperature sensor comprising a housing, inside which a metal rod is mounted, and a two-position damper with seals and nozzles, pulse tubes for connecting to a gas shut-off valve, fixed on the housing, characterized in that it is additionally equipped with a polymer tube connected to the metal rod, the latter has an adjusting thread, and at the other end of the shaft the adjusting disk is fixedly fixed, while the polymer tube is made with the possibility of regulating the length of the meta of the core, and inside the bracket there is a slider with an adjusting screw, which is additionally equipped with a flat spring, made to interact with the on-off valve, which closes and at the same time opens the nozzles connected to the supmembrane and submembrane cavity of the gas shutoff valve.

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