KR200423351Y1 - Gas meter - Google Patents

Abstract

A gas meter is disclosed that prevents the meter from operating if the directional meter is incorrectly installed. The gas meter according to the present invention consists of an upper case with a valve and a lower case with a diaphragm, and a gas meter for measuring the amount of use of the valve rotated by the pumping of the diaphragm. By installing a non-return valve with a stopper that prevents the valve from rotating when the valve rotates in the gasket provided between the gas passage holes, it is possible to effectively prevent the continuous supply of gas even if the conventional meter is installed incorrectly. .

Description

Gas Meter {GAS METER}

1 and 2 are a front view and a plan view schematically showing a gas meter according to the present invention.

Figure 3 illustrates a backflow prevention provided in the gas meter according to the present invention.

Figure 4 is a view for showing the backflow prevention operation of the gas meter according to the present invention.

* Brief description of the main symbols in the drawings *

1. Lower Case 2. Upper Case

5..Gas Passing Hole 6..Exhaust Hole

7..Introduction Hall 8..Introduction Hall

10.Machine 14.Crankshaft

16. Integral gear 20. Valve part

21. Valve 23. Through hole

30. Integrator 40. Gasket

50..Reflow prevention 51 ..

The present invention relates to a gas meter, and more particularly, to a gas meter that prevents gas from flowing when a meter having a directional meter in the gas flow is incorrectly installed.

Gas entering the house from an external supplier is installed to enter the room through a gas meter installed on the exterior wall of the building. In a conventional gas meter, when gas is supplied, the internal valve rotates, and the guide plate of the external integration unit rotates at the same time to charge the usage amount. Therefore, when the meter is installed incorrectly, the accumulator is reversed and cannot be charged. Therefore, the installer should carefully select a type (left to right or right to left) suitable for the gas flow direction.

However, the conventional gas meter has a problem that the user can not properly charge according to the amount of gas used because the gas is supplied normally only when the instructions are reversely rotated even if the meter is incorrectly installed by the operator.

In addition, if the user is severely installed by turning the gas meter installed arbitrarily normally, there is a problem that often occurs an abuse case to try to use gas illegally without paying money.

The present invention is to solve the above problems, an object of the present invention is to provide a gas meter to prevent operation when the gas meter having a directionality of gas flow is installed incorrectly.

Gas meter according to the present invention for achieving the above object is composed of the upper case and the lower case is installed diaphragm valve is installed in the gas meter to measure the amount of rotation of the valve by the pumping of the diaphragm, the gas cylinder of the valve and the lower case A backflow prevention device for preventing the valve from rotating in reverse is provided in the gasket provided between the overholes.

In addition, the lower surface of the valve of the gas meter according to the present invention is provided with a central groove and a concave groove communicated with each other, the gasket is provided in the concentric circle, the first hollow portion and the second hollow portion and the first hollow portion having different diameters Comprising a compartment partitioned by four partitions and the second hollow portion, the gas exiting each compartment passes through the first hollow through the recessed groove and the central groove, the backflow prevention device is a circumference of the first hollow Is provided along the circumferential direction.

In addition, the diameter of the central groove is smaller than the diameter of the first hollow portion of the gasket, the backflow prevention protrusion is provided to protrude into the circumference of the first hollow portion.

In addition, the backflow prevention device is provided with a locking projection that can be selectively rotated therein, the locking projection is supported by a hinge pin so that the other side can be recessed to the bottom side of the backflow prevention port when one side protrudes from the backflow prevention, The backflow stop bottom on the side where the machine is recessed is provided with a stepped portion recessed deeper than the backflow stop bottom on the protruding side.

In addition, the locking projection is provided with a shorter length than the backflow prevention, and the end is provided to be inclined toward the backflow prevention.

Hereinafter, a gas meter according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are a front view and a plan view showing a gas meter according to the present invention. Referring to the drawings, the meter for checking the gas usage consists of the lower case 1 and the upper case 2 is fastened by the bolt (3). The lower case 1 has a diaphragm (not shown) pumped therein according to the inflow and discharge of gas, and the upper case 2 has a mechanical part 10 and a valve part 20 interlocked with each other according to the forward and backward movement of the diaphragm. ) Is provided inside. An integration unit 30 consisting of a plurality of numeric indicator plates to display actual usage is provided on the front of the upper case 2.

The mechanical part 10 includes a rotating shaft 12 that rotates as the diaphragm of the lower case 1 moves back and forth, a crank shaft 14 that rotates according to the rotation of the rotating shaft 12, and a rotational force of the crank shaft 14. It includes an integration gear 16 to be delivered to the integration unit 30.

The valve portion 20 includes a valve 21 that rotates like the crankshaft 14 with the mechanical portion 10 and the predetermined bracket 18 therebetween, and the crankshaft 14 is disposed on the upper surface of the valve 21. A plurality of grooves 22 are provided at predetermined intervals so that pins (not shown) interlocked with each other may be fixed.

Therefore, when gas is supplied from the outside, the diaphragm of the lower case 1 is reciprocated back and forth by the pressure, and the valve is rotated clockwise so that the gas can pass through the meter. ), The number of the guide plate 32 moves so that the gas passage amount can be measured.

3 shows the valve 21 and the lower case 1 of the gas meter according to the present invention separately, and as shown, a gasket 40 is provided between the valve 21 and the lower case 1. .

The gasket 40 has two concentric circles with two first and second hollow portions 41 and 42 having different diameters so as to have the same shape as the gas passage hole 5 provided at the center side of the lower case 1. It is arranged on. Four partitions at intervals of 90 degrees between the first hollow portion 41 and the second hollow portion 42 so as to communicate with four compartments formed by a pair of diaphragms provided before and after the lower case 1, respectively. 43 is arrange | positioned and forms a compartment.

In addition, the valve 21 is provided with a through hole 23 on one side, and the gas introduced into the upper case 2 through the introduction pipe (7 of FIG. 1) from the outside passes through any one of the compartments to any one diaphragm. The inflow groove 24 is provided on the other side from the lower surface of the valve 21 so that the gas escaped from the diaphragm communicates with another compartment. In addition, the concave groove 24 is in communication with the central groove 25 provided in the center of the lower surface of the valve 21, the gas passing through the diaphragm passes through the predetermined compartment, the concave groove 24 and the central groove 25. By the discharge hole 6 of the gas passage hole 5 of the lower case (1) is drawn out to the lead-out pipe (8 of FIG. 1).

According to the gas meter of the present invention, a backflow prevention device 50 which prevents gas from flowing back is provided along the circumferential direction of the first hollow portion 41 as shown in an enlarged view of FIG. 3. Since the thickness of the conventional gasket 40 is only about 1 mm, in order to install the backflow prevention device 50 on the circumference of the first hollow portion 41, it is preferable to thicken the circumference about 2 to 3 mm. The reinforcement part 44 extending from the backflow prevention device 50 provided at the circumference of the first hollow part 41 to the partition 43 is for preventing the backflow prevention device 50 from being damaged or deformed by gas pressure. .

The backflow prevention device 50 has a streamlined inner space, and a locking protrusion 51 is provided in the longitudinal direction thereof. The catching protrusion 51 is provided to be rotatable to the backflow prevention port 50 so that the gas can be protruded from the backflow prevention port 50 when the gas is supplied in the reverse direction. That is, the locking protrusion 51 is supported by the hinge pin 52 so that one side can be recessed to the bottom side of the reverse flow prevention port 50 when one side protrudes from the reverse flow prevention port 50. The bottom of the backflow prevention device 50 on which the locking protrusion 51 is recessed is provided with a stepped portion (53 in FIG. 4) recessed deeper than the bottom of the backflow prevention device 50 on the protruding side. Hinge pin 52 is used to be bent in the 'b' shape to facilitate the assembly and at the same time to support the engaging projection 51 stably.

On the other hand, the rotation of the locking projection 51 is made by the gas pressure back flow. That is, when the gas flows in the reverse direction, the gas flows into the meter from the discharge hole 6 of the gas passage hole 5 of the lower case 1, and the discharge hole 6 is connected to the bottom surface of the valve 21. Since a closed space is formed by the gas, the backflowed gas flows into the internal space of the backflow prevention port 50 to push up the locking protrusion 51. In more detail, the diameter R1 of the central groove 25 of the valve 21 is smaller than the diameter R2 of the first hollow portion 41 of the gasket 40. This allows the gas to escape from the compartment during normal gas flow through the central groove 25 of the valve 21 to pass through the first hollow portion 41 of the relatively large diameter gasket 40, thereby smoothing the gas. It is to be able to flow. Therefore, when the gas flows in the opposite direction, the gas collided with the side wall of the central groove 25 having a smaller diameter is concentrated into the backflow prevention device 50 formed thicker than the circumference of the other first hollow portion 41 and is easily introduced. do. The locking protrusion 51 may be slightly smaller than the internal space of the backflow prevention device 50 so that the gas pressure may be more easily applied, and the end of the locking protrusion 51 may be inclined toward the bottom of the backflow prevention device 50. Is formed. In addition, a gas which flows backward by installing a blade piece 54 extending toward the discharge hole 6 side of the gas passage hole 5 on the end side of the locking protrusion 51 or by making the inside of the locking protrusion 51 hollow. By allowing the inflow, the operability of the locking protrusion 51 may be improved.

Then, the reverse flow prevention operation of the gas meter according to the present invention configured as described above will be described with reference to FIG.

When the gas meter is normally installed, the feed gas is introduced into the upper case 2 through the introduction pipe 7 of the meter, and then the lower case 1 through the through hole 23 and one compartment of the valve 21. Is supplied to the diaphragm. Then, the diaphragm rotates the rotary shaft 12 while being pumped back and forth, and the rotary shaft 12 rotates the crank shaft 14 to rotate the valve 21. Then, the valve 21 continuously supplies the gas introduced into the upper case 2 to another diaphragm through the other compartment while rotating a predetermined angle. On the other hand, the gas introduced into the diaphragm is led to the inlet groove 24 of the valve 21 through another compartment, and then through the central groove 25 communicated with the gas passage hole 5 of the lower case 1. It passes through the discharge hole 6, and then exits through the lead-out pipe (8). Due to the gas flow, the valve 21 continuously rotates, and accordingly, the integration gear 16 also rotates in association with each other to determine the gas usage by rotating the guide plate of the integration unit 30.

On the other hand, when the gas meter is abnormally installed, the supply gas flows into the valve 21 through the discharge hole 6 of the gas passage hole 5 of the discharge pipe 8 and the lower case 1 of the meter. However, since the discharge hole 6 at this time is sealed by the central groove 25 of the lower surface of the valve 21, the supply gas is a backflow prevention device 50, which is a space provided at the circumference of the first hollow part 41. Inflow to the side is to push up the locking projection (51). The locking protrusion 51 prevents the rotation of the valve 21 by protruding from one side of the push-up prevention port 50 and being caught by the side wall of the recess groove 24 of the valve 21, and the other side is stepped. While being introduced into the backflow prevention device 50, it is firmly supported by the stepped portion 53, thereby preventing the locking protrusion 51 from flipping over.

Since the gas pressure inside the conventional gas meter is only about 100 ~ 250mmHg, by preventing the rotation of the valve by only this simple structure it is possible to prevent the gas flowing in the reverse direction if the meter is installed incorrectly.

As described above in detail, the gas meter according to the present invention is composed of an upper case with a valve and a lower case with a diaphragm, the upper case through which the gas passes in the gas meter in which the valve is rotated by the pumping of the diaphragm to measure the usage amount. In the gasket provided between the valve and the gas passage hole of the lower case, by installing a non-return valve with a locking projection to prevent the valve from rotating if the valve reverse rotation, even if the conventional meter is incorrectly installed, the gas is continuously supplied You can effectively prevent that.

Claims (5)

In the gas meter which consists of the upper case with the valve and the lower case with the diaphragm is rotated by the pump of the diaphragm to measure the amount of use, The gas meter is provided between the valve and the gas passage hole of the lower case is provided with a non-return valve for preventing the valve from rotating back. The method of claim 1, The lower surface of the valve is provided with a central groove and a concave groove communicating with each other, the gasket is provided between the first hollow portion and the second hollow portion and the first hollow portion and the second hollow portion having different diameters provided on the concentric circles; With compartments partitioned by two partition walls, the gas exiting each compartment exits through the first hollow through the recessed groove and the central groove, The reverse flow prevention device is a gas meter, characterized in that provided in the circumferential direction on the circumference of the first hollow portion. The method of claim 2, The diameter of the central groove is smaller than the diameter of the first hollow portion of the gasket, The reverse flow prevention device is a gas meter, characterized in that protruding into the circumference of the first hollow portion. The method of claim 2 or 3, The backflow prevention device is provided with a locking projection that can be selectively rotated therein, The locking projection is supported by a hinge pin so that one side can be recessed to the bottom side of the backflow prevention when one side protrudes from the backflow prevention, Gas counter, characterized in that the stepped portion of the backflow prevention bottom of the projection is recessed deeper than the bottom of the backflow prevention projection protruding side is provided.  The method of claim 4, wherein The locking projection is provided with a shorter length than the non-return prevention port, the end of the gas meter, characterized in that the end is provided inclined toward the reverse flow prevention.

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