RU2100704C1 - Block-cock of gas burner automation - Google Patents

Abstract

FIELD: gas burner devices of domestic boilers and apparatus. SUBSTANCE: block-cock includes body 1 with gas supply branch pipe 2, movable valve 3 made in form of cylinder closed at one end and provided with two outer sealing rings 4 with peripheral holes between them. Interior of cylinder is brought in communication with gas distributor 13 and burner nozzles 14 through circular clearance A; other end of valve is connected with control handle 7 through cotter pin 5 and adjusting screw 6, thus ensuring axial motion of valve 3 till it rests it against diaphragm 8. EFFECT: enhanced reliability. 3 cl, 1 dwg

Description

 The invention relates to gas burner devices for burning gas in domestic boilers and apparatus.

Known designs of gas-burner devices such as AGUK, which are equipped with gas valves and membrane-type thermostats mounted in the upper part of the boiler and gas pipelines, clutch joints and locknuts associated with the burner [1]
The disadvantage of this design is the increase in metal consumption, difficulties in installing a gas burner device.

Known block crane automation of flowing gas heaters, containing a pulse tube of circulating water, a heat exchanger, an ignition burner, a bellows with a valve and a clamp, adjusting the nut [2]
The disadvantage of this design is the technological complexity, unstable operation of the unit at low pressures of water and gas.

 The invention improves safety and ease of use, reduces metal consumption.

 A gas burner automation crane block comprising a housing, a movable valve kinematically connected to a control handle, a bellows-type thermal transmitter that converts a temperature change in the displacement (stroke) of the membrane, differs in that in order to give it the functions of a gas shut-off valve, reduce metal consumption and technological complexity the movable valve has a stroke exceeding the deflection of the membrane from the bellows temperature sensor, made in the form of a cylinder closed on one side with outer o-rings and peripheral openings between them, the internal cavity of which through the annular gap with the membrane communicates with the nozzles of the burner, and the closed end of the valve is connected to the control handle by means of a check and an adjustment screw. The bellows-type temperature sensor in it is installed opposite the movable valve through a membrane connected to the housing by means of a threaded connection with a union nut, which creates additional convenience in the installation and maintenance of the burner.

 A comparative analysis of the proposed technical solution with the prototype shows that in the block-valve of the gas burner automatically the movable valve has a stroke exceeding the deflection of the membrane and is made in the form of a cylinder closed on one side with external sealing rings and peripheral holes between them, the internal cavity of which is through an annular gap communicates with the nozzles of the burner, and the closed end of the valve is connected to the control handle by means of a check and an adjusting screw. The bellows-type temperature sensor in it is mounted in opposition to the valve through a membrane in a rack connected to the housing by means of a threaded connection with a union nut.

 Thus, the claimed technical solution meets the criteria of the invention of "novelty."

 When comparing the claimed technical solution with similar solutions in the art, the features that distinguish them from the prototype are not identified in them, which allows us to conclude that the criterion of "inventive step" is met.

 The invention is illustrated in the drawing.

 The gas burner automation crane consists of a housing 1, a gas supply pipe 2, a movable valve 3, o-rings 4, checks 5, an adjusting screw 6, a control handle 7, a membrane 8, a rack 9, a movable seat 10, a bellows temperature sensor 11, a union nut 12. In the gas burner device, the block valve through the distributor 13 is connected to the nozzles of the burner 14, which is installed in the boiler 15. Ignition of the burner is carried out from the igniter 16.

 The gas burner automation crane operates as follows: by turning the handle 7, the maximum clearance A is established. Through the gas supply pipe 2 of the housing 1 and the peripheral openings of the movable valve 3, gas enters the internal cavity of the movable valve 3 and through the annular gap A enters the gas distributor 13 to the nozzles of the burner 14, where it is ignited in the furnace of the boiler 15 from the igniter 16.

 Upon reaching the temperature of the coolant in the boiler to a predetermined control handle 7, the mode of "small flame" is set. With a further increase in the temperature of the coolant in the boiler, the expansion bellows acts on the membrane 8, reducing the annular gap A and, accordingly, the volume of gas supply to the burner 14, automatically maintaining the set temperature of the coolant. The cessation of gas supply to the nozzle of the burner 14 is achieved by moving the movable valve 3 to the stop in the membrane 8 by the control handle 7.

Claims (2)

 1. The block valve of the automatic gas burner, comprising a housing, a movable valve, a control handle, a bellows temperature sensor that converts the change in temperature of the coolant into the movement (stroke) of the membrane, characterized in that, in order to give it the functions of a gas shut-off valve, the movable valve has a stroke exceeding the deflection of the membrane from the bellows temperature sensor and is made in the form of a cylinder closed on one side with external sealing rings and peripheral holes between them, the internal cavity of which is through an annular set with the membrane communicates with the nozzles of the burner, and the closed end of the valve via checks and the adjusting screw is connected to the control handle.  2. The crane according to claim 1, characterized in that the bellows-type temperature sensor in it is installed opposite the valve through a membrane in a rack connected to the housing by means of a threaded connection with a union nut.