KR100729869B1 - Guide Rail Structure of Membrane Gas Meter - Google Patents

Abstract

A guide rail structure of a diaphragm gas meter is provided to accurately guide reciprocation of an outlet door along a guide pin by installing the guide pin on the outlet door. An upper structure of a diaphragm gas meter includes a gas inlet(10), a measuring diaphragm(20), a crank axis(30) interlocked with the gas inlet and the measuring diaphragm, a meter operated by rotation of the crank axis. In a guide rail structure of the diaphragm gas meter, at least two outlets(50) for ejecting gas after measurement are installed at an upper part of the diaphragm gas meter. The outlet door selectively opens and closes the outlets by being interlocked with the rotation of the crank axis. A top surface of the outlet is formed of a guide rail(52) of a saw tooth shape. A bottom surface of the outlet door is operated left and right on a top surface of the guide rail.

Description

Guide Rail Structure of Membrane Gas Meter

1 is a perspective view showing a film type gas meter to which the present invention is applied.

Figure 2 is an exploded perspective view of Figure 1;

Figure 3 is an operational state diagram showing a state in which the guide rail structure according to the invention is applied to the top of the membrane-type gas meter to operate.

* Description of symbols on the main parts of the drawings *

10: inlet 20: metering film

30: crankshaft 32: rotary gear

34: hinge joint 40: ejection door

50: outlet 60: guide pin

The present invention relates to a structure of the upper guide rail of the membrane type gas meter, and more particularly to a guide rail structure of the extraction door for controlling the opening and closing of the gas taken out after the metering is finished.

As a well-known example, the last-minute gas meter is 1981 Korean Utility Model Registration Application No. 0008030 "Membrane Gas Meter", 1982 Korea Utility Model Registration Application No. 0005929 "Combination Structure of Working Piece and Shaft of Gas Meter" and 1986 Korean Utility Model Registration Application No. 0001012 "Diaphragm gas meter" and the like.

In such a film type gas meter, the metering film is stroked by the gas drawn into the valve chamber, and the meter system is operated by the rotation of the crankshaft interlocked with the motion to indicate the gas consumption.

However, the above-mentioned known film type gas meter is a crankshaft operated in conjunction with the pressure of the incoming gas simply operates the meter, and has not played a role other than the operation of the meter.

The present invention has been made to solve such a problem, an object of the present invention is to control the gas taken out of the crankshaft rotated rotationally to selectively take out a quantity of gas to be supplied to a gas machine such as a boiler, etc. To provide an upper guide rail structure.

Other objects and effects of the present invention will become apparent from the following detailed description, and the detailed description and examples showing the preferred embodiments of the present invention do not limit the scope of the present invention.

The present invention for achieving the above object, in the upper structure of the film type gas meter is provided with a gas inlet, a metering membrane, a crank shaft rotating in conjunction with this, and a metric system operated by the rotation of the crank shaft,

The upper part of the membrane type gas meter is provided with two or more outlets for taking out the finished gas, which is connected to the rotation of the crankshaft to selectively open and close the outlets, The upper surface of the outlet is formed of a guide rail formed in the shape of a tooth, characterized in that the bottom surface of the outlet door is operated left and right on the upper surface of the guide rail.

In addition, a guide pin is installed at the center of the take-out door to guide the left and right reciprocating motion of the take-out door precisely.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. First, like reference numerals designate functionally identical or similar parts throughout the drawings.

1 is a perspective view showing a film type gas meter to which the present invention is applied, FIG. 2 is an exploded perspective view of FIG. 1, and FIG. 3 is an operation showing a state where the guide rail structure according to the present invention is applied to the upper part of the film type gas meter. State diagram.

1 to 3, according to the present invention, a gas inlet 10, a metering film 20, a crank shaft 30 that rotates in association with the crank shaft 30, and rotation of the crank shaft 30 are provided. An operating metric system (not shown) is applied to the superstructure of the installed film type gas meter 100.

The gas inlet 10, the metering film 20, and the crankshaft 30 to which the present invention is applied are applied to the above known examples, and have a characteristic of interlocking with each other.

The above configurations are applied to the present invention to measure the amount of gas introduced by operating a metric system not shown for the same purpose, it is supplied to the domestic gas device not shown.

A feature of the present invention relates to the upper structure of the membrane-type gas meter 100, the upper portion of the rotary gear 32 that rotates by the operation of the crank shaft 30 as shown in the crank shaft 30 It is provided on one side, and the hinge joint 34 is provided on the other side of this rotary gear 32.

The hinge joint 34 is linked to the rotation of the rotary gear 32 to perform a joint motion, and converts the rotational motion into a horizontal motion through the hinge joint (34).

The other end of the hinge joint 34 is provided with a takeout door 40 applied to the present invention, the bottom of the takeout door 40 is usually wrapped in a micron unit.

A blowout outlet 50 is formed in an upper portion of the membrane type gas meter 100 on which the bottom of the blowout door 40 is seated, and the blowout outlet 50 is selectively opened and closed by a horizontal movement of the blowout door 40.

Preferably, the outlet 50 is formed in two places, where the gas is drawn in. Therefore, the takeout door 40 is preferably provided with two or more, and the present invention achieves such a configuration.

In the present invention, the upper surface constituting the outlet 50 is formed with a guide rail 52 to guide the bottom of the outlet door 40.

The guide rail 52 has a constant width, and the drawout door 40 moves horizontally, that is, to the left and right along this width. The above-described lapping of the micron unit is also performed on the upper surface of the guide rail 52.

Preferably the upper surface of the guide rail 52 in the present invention is formed in a sawtooth shape, and is repeated regularly.

The reason for forming the saw tooth as described above is to precisely maintain the airtightness of the gas to be taken out so as to increase the contact area between the bottom surface and the top surface of the guide rail 52 when the door 40 is operated. to be. In addition, due to the tooth shape as described above also serves to quickly discharge the foreign matter attached to the upper surface of the guide rail 52 between the teeth.

In the present invention, the drawout door 40 is converted into a horizontal motion by the rotational movement, so that the problem of twisting or lifting the bottom surface may occur.

In order to prevent this, the present invention provides a guide pin 60 on the upper portion of the ejecting door 40 to accurately guide the reciprocating movement of the ejecting door 40 to the left and right along the guide pin 60.

Preferably, the guide pin 60 is installed in the center of the takeout door 40 to solve the above problems.

And because of the structure of the guide rail 52 as described above to perform the guide of the precise take-out door 40, and to take out the foreign matter perfectly.

This invention can be implemented in other various forms, without deviating from the mind or main characteristic. For this reason, the above-described embodiments are merely examples in all respects and should not be interpreted limitedly. The scope of the present invention is shown by the scope of the claims, and is not limited by the specification text. Again, all variations and modifications belonging to the equivalent scope of the claims are within the scope of the present invention.

As described above in detail, according to the upper guide rail structure of the membrane-type gas meter according to the present invention, an object of the present invention is to control the gas taken out of the crankshaft rotated rotationally to selectively take out a quantity of gas, such as a boiler By providing the upper guide rail structure of the film type gas meter to be supplied to the gas machine to perform precise guidance of the extraction door, and to take out the foreign matter perfectly.

Claims (2)

In the upper structure of the membrane-type gas meter provided with a gas inlet, a metering membrane, a crankshaft rotated in conjunction with this, and a metric system operated by the rotation of the crankshaft, The upper part of the membrane type gas meter is provided with two or more outlets for taking out the finished gas, which is connected to the rotation of the crankshaft to selectively open and close the outlets, The upper surface of the outlet is composed of a guide rail formed in the shape of a saw, the upper guide rail structure of the membrane type gas meter, characterized in that the bottom surface of the outlet door is operated from side to side on the upper surface of the guide rail. The method of claim 1, A guide pin is installed at the center of the takeout door to guide the left and right reciprocating motion of the takeout door precisely.

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