KR20030060291A - pressure controll style proportion gas valve - Google Patents

Abstract

PURPOSE: A rotation force of a stepping motor is used to move a diaphragm sidewise, thereby adjusting gas pressure preventing noise by vibration. CONSTITUTION: A stepping motor(10) rotates a rotation shaft(11) forming a screw line. An adjusting nut(21) is connected to the rotation shaft to convert the rotation movement to a linear movement. An adjusting screw moves along the adjusting nut moving back and forth. A sliding guide(30) comprises a slide support(35) to move the adjusting screw back and forth. A gas adjuster(40) is connected to the sliding guide to determine gas discharging amount. The gas adjuster comprises a gas inlet and a gas outlet.

Description

Pressure control proportional gas valve

The present invention relates to a pressure-controlled proportional control gas valve, and more particularly, by using the rotational force of the stepping motor, the diaphragm can move left and right, so that the gas pressure in the gas regulator can be easily adjusted. The present invention relates to a pressure-controlled proportional control gas valve capable of preventing a noise caused by vibration generated when a gas flows by forming a recessed portion of the gas regulator.

Common non-regulated gas valves include a pressure control method using a solenoid and an opening amount control method using a stepping coater.

Here, the pressure control method by the solenoid is used in the boiler, etc. to provide the resistance on the flow path and to control the secondary gas pressure, which is used in the boiler, etc., and the proportional control of the solenoid valve type used as the oven valve of the gas oven range. Although the valve uses a single actuator, it is difficult to precisely control the amount of gas. Therefore, the valve is used to control the opening amount of the gas valve by feeding back the data by measuring the temperature.However, this method is applied to the actuator depending on the temperature data value. Although the method of controlling the strength of the charge amount is used, it is difficult to expect normal operation when the external data cannot be read.

The opening amount adjustment method by the stepping motor has a sliding plate that can control the flow rate through a hole of a certain size which cannot be used in a gas boiler, etc., and controls only the fixed gas amount by a certain hole size. It becomes difficult to adjust the opening amount according to the gas component.

In particular, the solenoid actuator type proportional control gas valve is not applicable to the upper burner of the gas range because of its large volume and constant external data, and the production cost of parts is high. The electronically controlled valve using a stepping motor is limited in use because it is difficult to change the heat amount according to the gas composition by adjusting the gas amount through a certain hole (hole) rather than the conventional control function.

The present invention is intended to solve such problems in the related art, and its purpose is to allow the gas pressure in the gas regulator to be easily adjusted by moving the diaphragm left and right by using the rotating force of the stepping motor. It is possible to prevent the noise caused by the vibration generated when the gas flows so that the bent groove portion can be formed in the gas regulator.

1 is an exploded perspective view of a pressure regulating proportional control gas valve according to an embodiment of the present invention.

2 is a cross-sectional view of a pressure regulating proportional control gas valve according to an embodiment of the present invention.

3 is a partially enlarged view of FIG. 2.

Code descriptions for the main parts of the drawings

10; stepping motor 11; rotating shaft

21; adjusting nut 22; adjusting screw

30; sliding guide 35; slide support

40; gas regulator 41; gas outlet

42; gas inlet 43; control unit

45; bending groove 50; diaphragm

61; control spring 63; control pin

64; Adjustable packing 71; Closed spring

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings in order to describe in detail enough to enable those skilled in the art to easily carry out the present invention. . Other objects, features, and operational advantages, including the object, operation, and effect of the present invention will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred examples to help those skilled in the art from the various possible examples, the technical spirit of the present invention is not necessarily limited or limited only to this embodiment. However, various changes and modifications can be made within the scope without departing from the technical spirit of the present invention.

1 is an exploded perspective view of a pressure regulating proportional control gas valve according to an embodiment of the present invention, Figure 2 is a cross-sectional configuration of the pressure regulating proportional control gas valve according to an embodiment of the present invention, Figure 3 is FIG. A partial enlarged view of.

The present invention is to adjust the pressure of the gas and at the same time to control the discharge of the gas by using the rotational force of the stepping motor, as shown in Figures 1 to 3 to rotate the rotating shaft 11 formed with a screw thread Stepping motor 10 to be rotated by an external electrical signal, the control nut 21 is coupled to the rotary shaft 11 of the stepping motor 10 to linearly rotate the rotation movement, and the control nut 21 and A sliding guide 22 having a predetermined length and a sliding guide 35 integrally formed at an inner center thereof to allow the adjusting screw 22 to move forward and backward in a linear manner to move forward and backward, and to be wrapped around the outside. 30) are connected.

It is closely coupled with the slide guide 30 has a configuration that is connected to the gas regulator 40 so that the gas emissions can be determined according to the pressure of the gas.

The gas regulator 40 has a gas inlet 42 integrally formed at a predetermined portion to allow gas to flow therein, and a gas outlet 41 for allowing the gas introduced from the gas inlet 42 to be discharged. Has a configuration.

In addition, the gas regulator 40 is integrally formed with a control unit 43 is formed between the gas inlet 42 and the gas discharge port 41, the passage through which the gas is controlled to be discharged.

Subsequently, the gas regulator 40 is bent while the groove size is reduced from one side so that the gas is discharged in proportion to the pressure of the gas flowing from the gas inlet 42. It has a configuration that the bending groove portion 45 is formed to be reduced.

In addition, the gas regulator 40 is fitted into the bent groove portion 45 of the rear side and the diaphragm 50 is moved forward and backward so that the discharge of the gas by the gas pressure, one end is fitted into the inside of the diaphragm (50). The other end is fitted with an adjustment spring 61 which is supported by the adjusting screw 22 to contract or expand, and one end is fitted to the rear end side of the diaphragm 50, and the rear end is supported by the adjustment unit 43, depending on the pressure of the gas. The control pin 63 for advancing and reversing the diaphragm 50 has a configuration that is connected.

The control pin 63 is closed on the inlet of the control unit 43 by the rapidly rising gas pressure to control the packing packing 64 is fixed to the rear end so that the discharge of gas can be blocked, and the control packing ( Supported by 63) has a configuration that the closing spring 71 is connected to the expansion or contraction so that the forward and backward movement of the control pin 63 can be made smoothly.

The present invention configured as described above is to adjust the pressure of the gas at the same time using the rotational force of the stepping motor and to control the discharge of the gas, as shown in Figures 1 to 3 by the rotation of the stepping motor 10 The adjusting screw 22 and the adjusting nut 21 connected to the rotary shaft 11 are converted into a linear reciprocating motion from the slide support 35 in the sliding guide 30 to the reciprocating groove portion 45 of the gas regulator 40. The diaphragm 50 and the adjustment pin 63 fitted in the coupling to each other to open and close the gas passage of the control unit 43.

Here, when the gas regulator 40 has a high pressure at the gas inlet 42, the flow rate is increased due to an increase in the flow rate, so that the gas exerts a pressure on the control packing 64 and is connected to the control packing 64. When 63 is applied to the diaphragm 50, the diaphragm 50 is pushed toward the adjusting screw 22 to the contracting spring 61 is contracted. At this time, the adjustment packing 64 is to allow the adjustment pin 63 is pushed forward by the expansion of the closing spring (71).

On the contrary, when the pressure of the gas inlet 42 is low, the gas regulator 40 moves the control packing 64 back as the flow rate of the gas decreases, so that the adjustment pin 63 adjusts the packing 64. And at the same time it moves back and then the adjustment spring 61 is inflated by the restoring force so that the adjustment pin 63 can be made more backwards.

Here, the adjuster 43 of the gas regulator 40 is retracted as the closing of the control packing 64, the closing spring 71 is contracted as the pressure decreases, the closing spring 71 is a control spring connected to the front end (61) and the force is balanced so that they expand and contract with each other,

When the gas is to be blocked, the control pin 63 is attached to the body of the control packing 64, so that the control packing 64 is in close contact with the inlet gap of the control part 43 so that the gas does not leak, thereby eliminating gas leakage. Will be.

On the other hand, the gas regulator 40 is a joining portion of the inner surface of the adjusting portion 43 or the bending groove 45 when a liquid of gas flows in the adjusting portion 43 or the bending groove 45 forming a circular straight pipe. The flow velocity in is extremely insignificant, and the velocity increases when it is dropped from the inner surface, that is, the frictional resistance is caused by the viscosity of the liquid and the roughness of the inner surface of the bending groove 45.

Therefore, the bending recess 45 has a low pressure portion when the velocity increases when the fluid flows, so that gas dissolved in the fluid becomes bubbles to form a cavity. When such a cavity flows into a high pressure part, it is suddenly crushed to generate a very high pressure locally, and a cavitation phenomenon accompanied by erosion of abnormal noise material, pressure fluctuation, and vibration occurs.

In order to eliminate such cavitation phenomenon, the gas regulator 40 allows the bent surface to be arranged at regular intervals so that the frictional resistance of the liquid of the gas, i.e., the inner viscous portion of the liquid viscosity and the bending groove 45, can be minimized. When gas is introduced, a portion of the liquid moving along the bending recess 45 is in contact with the bent portion, and the fluid moves, and the other is rolled into the bent surface, causing a tornado phenomenon.

Therefore, when high pressure is generated, the pressure applied to the contact surface of the bent groove portion 45 is rolled inside the bent surface and collides with the liquid in which the tornado is formed so that the pressure drops, thereby eliminating fluctuations in pressure or vibration.

The present invention acting as described above allows the diaphragm to move left and right by using the rotational force of the stepping motor so that the gas pressure in the gas regulator can be adjusted, so that the flow rate of the gas can be automatically adjusted by the rotational force of the stepping motor. By forming the bent groove portion there is an effect that can prevent the noise caused by the vibration generated when the gas flows.

Claims (4)

The gas regulator 40 integrally formed with a gas inlet 42 integrally formed at a predetermined portion to allow the gas to flow therein and a gas outlet 41 integrally formed with the gas outlet 41 through which the gas introduced from the gas inlet 42 is discharged are connected. In the gas appliance, the control unit 43 is formed in the center of the flow path of the gas so that the opening and closing degree of the inlet of the gas discharge port 41 in accordance with the pressure of the gas flowing into the gas regulator 40 and the adjustment, The inlet of the adjusting part 43 is opened and closed by a diaphragm 50 inserted into one side of the part 43 so as to expand or contract and an adjustment packing 64 fitted into the diaphragm 50 and fixedly connected to the rear end. The control pin 63 and the left side of the gas regulator 40 so as to be able to be rotated to rotate the rotary shaft 11 formed a screw thread so that the diaphragm 50 and the control pin 63 can move left and right. Enable external electrical Stepping motor 10 to be rotated by the signal, the adjusting nut 21 and the adjusting screw 22 coupled to the rotary shaft 11 of the stepping motor 10 to linearly rotate the rotation, and the adjusting screw 22 Pressure-controlled proportional control gas valve consisting of a sliding guide 30 is integrally formed in the inner center so that the slide support 35 of a predetermined length is integrally formed in the center. According to claim 1, wherein the gas regulator 40 is fitted to the inside of the diaphragm 50 so that the discharge of the gas can be adjusted according to the pressure of the gas while contracting or expanding in conjunction with the left and right linear movement of the adjustment screw 22 Pressure regulating proportional control gas valve made of an adjustment spring 61 is further connected. According to claim 1 or claim 2, wherein the gas regulator is supported by the control packing 63 is expanded or contracted to further close the closing spring 71 so that forward and backward movement of the control pin 63 can be made smoothly Pressure regulating proportional gas valve. The gas regulator 40 integrally formed with a gas inlet 42 integrally formed at a predetermined portion to allow the gas to flow therein and a gas outlet 41 integrally formed with the gas outlet 41 through which the gas introduced from the gas inlet 42 is discharged are connected. In the gas appliance, the gas regulator 40 is bent while the size of the groove is reduced from one side so that the gas can be discharged in proportion to the pressure of the gas flowing from the gas inlet 42. Pressure regulating proportional control gas valve is formed by forming a bent groove portion 45 to reduce the noise caused by.