KR101340702B1 - Gas meter - Google Patents

Abstract

The present invention relates to a gas meter which can prevent fraudulent gas usage which is visually checked by preventing the reverse rotation of a rotary valve and halting a reverse operation when the gas meter is fraudulently installed in a reverse direction, and effectively prevent actual fraudulent gas usage by blocking the flow of gas by the valve, which opens a single flow path, while halting the reverse rotation. The gas meter according to the present invention comprises: a crank bridge (30) through which an installation hole (32) vertically penetrates at one side of a conventional gas meter; a horizontal rotating bar (40) which rotates a rotary valve (20) according to the rotation of a valve rotating shaft (16); and a vertical pivot bar (50) which is extended downwards from a hinge shaft (51), which is formed in the radial direction of the valve rotating shaft on the top of the installation hole (32), through the installation hole (32) and comes into contact with the horizontal rotating bar (40). When the horizontal rotating bar (40) collides with the vertical pivot bar (50) while rotating in one direction, the vertical pivot bar (50) pivots on the hinge shaft (51) and the horizontal rotating bar (40) continues to rotate. When the horizontal rotating bar (40) collides with the vertical pivot bar (50) while rotating in the other direction, the vertical pivot bar (50) cannot pivot because of an inner side (33) of the installation hole and the horizontal rotating bar (40) stops rotating.

Description

Gas meter

The present invention relates to a gas meter, and more particularly, to a gas meter that can effectively prevent the actual use of gas by blocking the flow of gas while preventing the reverse rotation of the rotary valve to stop the operation of the flow rate display of the gas It is about.

1 and 2 illustrate an example of a diaphragm type gas meter for measuring the amount of gas used in the related art. The gas meter includes a lower case 1 having a pair of gas chambers 2 each provided with a diaphragm 3. And an upper case 10 coupled to cover the upper surface of the lower case 1 and having gas inlets 11 and gas outlets 12 formed on both upper sides thereof, and connected to the diaphragm 3 to provide a gas chamber ( A pair of rotating shafts 13 and 14 extending outwardly of 2) and a crank mechanism 15 connected to the rotating shafts 13 and 14 to convert the rotating movements of the rotating shafts 13 and 14 into circular motions. ), A valve rotating shaft 16 rotated by the crank mechanism 15, a flow rate display portion 13 which is connected to the valve rotating shaft 16 to display a flow rate, and is coupled to the valve rotating shaft 16. Rotating valve 20 to rotate and supply and discharge gas to each gas chamber (2) while rotating It is sex.

And, as shown in Figure 2 (a), inside the lower case 1, the gas in front and behind the diaphragm 3 of the discharge passage 4 and the two gas chambers 2 communicating with the gas outlet 12, respectively. Four flow paths are formed to communicate with each other. At this time, the inlet and outlet of the flow path is formed on the upper surface of the lower case (1) along the inlet circumference of the discharge passage (4). In addition, a circular valve seat 5 having a central through hole 6 communicating with the inlet of the discharge path 4 and a plurality of communication holes 7 communicating with the inlet and outlet of the flow path in the circumferential direction thereof is formed in the circumferential direction thereof. Is installed on the upper surface of the lower case (1). On the other hand, the rotary valve 20 is formed with a control hole 21 penetrated up and down so as to communicate with one of the communication holes (7) of the valve seat 5, the lower surface facing the control hole 21 The discharge groove 22 is formed in communication with the communication hole 7 and the central through hole 6 of the valve seat 5. Reference numeral 18 denotes a crank bridge for supporting the rotary valve 20, and reference numeral 17 denotes a reduction gear engaged with an unshown gear of the flow rate display unit 13.

In the conventional gas meter configured as described above, as the diaphragm 3 moves forward or backward by the pressure of the gas supplied to the gas chamber 2, the valve rotation shaft 16 and the rotation valve 20 are moved by the crank mechanism 15. Since the gas is rotated, the gas is alternately supplied to each gas chamber 2 and then discharged to supply gas to the gas device connected to the gas meter. In addition, since the valve rotation shaft 16 is continuously rotated by the gas supplied to the gas chamber 2 alternately, the flow rate display unit 13 driven to the valve rotation shaft 16 is operated to operate the gas apparatus. Used gas consumption can be measured.

However, when the gas inlet 11 and the gas outlet 12 are installed in the reverse direction, since the gas introduced into the gas outlet 12 flows in the reverse direction, the rotary valve 20 is reversed and the flow rate display part 13 is reversed. Since it works, there was a problem of installing gas meters in the reverse direction to misuse gas.

Accordingly, by installing the ratchet (not shown) in the crank bridge 18 which is caught when the reduction gear 17 is reversely rotated to prevent reverse rotation of the rotary valve 20 when gas flows in the reverse direction, the rotary valve 20 Reverse rotation of the flow was interrupted so that the reverse operation of the flow rate display part 13 was stopped. However, since the reduction gear 17 is caught by the ratchet immediately after the reverse rotation, the adjustment hole 21 of the rotary valve 20 stops at an arbitrary position regardless of the position of the communication hole 7 of the valve seat 5. Therefore, when the control hole 21 and the discharge groove 22 of the rotary valve 20 communicates with the two communication holes 7 at the same time, when the gas flows into the two communication holes 7, the rotary valve 20 As the rotary valve 20 flows due to the pressure applied to the gas, the gas flows into and out of the other communication hole 7, thereby continuously flowing the gas. Therefore, the reverse operation of the flow rate display part 13 can be stopped, and the illegal use of the gas which is visually confirmed is prevented, but there is a problem that practical use of the gas cannot be prevented.

Korean Patent Publication No. 10-0319984

The present invention is to solve the problems of the conventional gas meter as described above, the object of the present invention is to visually confirm by stopping the reverse operation of the flow rate display by preventing the reverse rotation of the rotary valve when the device is installed in the reverse direction It is to provide a gas meter that can prevent the illegal use of the gas, as well as effectively prevent the actual use of the gas by blocking the flow of the gas by opening only a single flow path when preventing the reverse rotation.

According to a feature of the present invention, gas chambers 2 having diaphragms 3 are formed on both sides, and a plurality of flow paths communicating with the gas chamber 2 in the center and selectively communicating with the flow paths discharge gas. Discharge path 4 is formed, the upper surface of the lower case (1) formed with the inlet and outlet of the flow path along the circumference of the discharge path (4); It is installed on the upper surface of the lower case (1), the valve seat (5) formed with a central through hole (6) and a plurality of communication holes (7) around it so as to communicate with the inlet and outlet of the discharge passage (4), respectively ); An upper case covering an upper surface of the lower case 1 and having gas inlets 11 communicating with the flow path on both sides of the upper case, and gas outlets 12 communicating with the outlet 4a of the discharge passage 4; 10); A crank mechanism (15) for converting the reciprocating motion of the diaphragm (3) into a circular motion; A valve rotation shaft 16 rotated by the crank mechanism 15; And a control hole 21 for selectively opening the communication hole 7 of the valve seat 5 on one side thereof, and the communication hole 7 and the central through hole (12) on the lower surface of the valve hole 5 opposite to the control hole 21. 6 is formed with a discharge groove 22 for communicating, and the rotary opening and closing valve 20 to be supplied and discharged to the gas chamber (2) alternately as it is rotated about the valve rotation shaft (16) In the gas meter comprising;

A horizontal portion 31 provided between the crank mechanism 15 and the rotary opening / closing valve 20 and vertically penetrating the valve rotating shaft 16 at the center thereof, and extending downward from both ends of the horizontal portion 31 so as to be lowered. A crank bridge 30 having a fixing part 35 fixed to the case 1 and having an installation hole 32 vertically penetrated to one side of the horizontal part 31;

The lower end of the valve rotation shaft 16 protruding downward of the crank bridge 30 extends radially outward and the end is coupled to the edge of the rotary opening and closing valve 20 to rotate the opening and closing according to the rotation of the valve rotation shaft 16 Horizontal rotating bar 40 for rotating the valve 20;

The horizontal rotating bar 40 extends downwardly to penetrate the installation hole 32 in the hinge shaft 51 formed in the radial direction of the valve rotation shaft 16 on one side of the installation hole 32 of the crank bridge 30. It includes; vertical contact bar 50 in contact with,

When the horizontal rotating bar 40 hits the vertical rotating bar 50 when rotating in one direction, the vertical rotating bar 50 is rotated about the hinge shaft 51 so that the horizontal rotating bar 40 continues to rotate. When the rotation hits the vertical rotation bar 50, the vertical rotation bar 50 is caught on the inner surface 33 of the installation hole 32, so that the rotation is limited, the rotation of the horizontal rotation bar 40 is stopped,

When the gas flows in the reverse direction, when the horizontal rotation bar 40 rotates in the other direction and collides with the vertical rotation bar 50 to stop the rotation of the rotary opening and closing valve 20 as the rotation is stopped, the adjustment of the rotary opening and closing valve 20 is performed. A gas meter is provided, characterized in that the balls 21 and the discharge grooves 22 are each aligned with a single communicating hole 7 of the valve seat 5.

According to another feature of the present invention, the inclined surface 42 is inclined downward in one direction of the rotation direction of the horizontal rotating bar 40 is formed on the upper side of the horizontal rotating bar 40 is caught by the vertical rotation bar (50) There is provided a gas meter, characterized in that.

According to another feature of the invention, the horizontal portion 31 of the crank bridge 30 is made of a disc, the installation hole 32 is the tangent of the rotary opening and closing valve 20 to the edge of the horizontal portion 31 A gas meter is provided, characterized in that it is made in the form of a long hole along a direction.

According to the present invention as described above, from the lower end of the valve rotation shaft 16 penetrating through the crank bridge 30 formed with the installation hole 33 on one side radially outward and the end of the edge of the rotary opening and closing valve 20 When the horizontal rotating bar 40 coupled to the hinged to the upper surface of the installation hole 33 is in contact with the vertical rotation bar 50 through the installation hole 33, the horizontal rotation bar 40 is reverse rotation When hitting the vertical rotation bar 50, the vertical rotation bar 50 hits the inner surface (33a) of the installation hole 33, when the rotation is limited, the control hole 21 of the rotary opening and closing valve 20 is the gas chamber By communicating with the single communication hole (7) of the valve seat (5) in communication with (2), when the gas flows in the reverse direction when the rotary opening and closing valve 20 is reversely rotated, the horizontal rotating bar 40 is vertically rotated bar (50) to stop the reverse rotation of the rotary opening and closing valve 20 to stop the reverse operation of the flow rate display portion 13 to only prevent unauthorized use that is visible to the naked eye As well as the flow of the gas by the flow of the rotary opening and closing valve 20 is blocked, there is an effect that can effectively prevent even the illegal use of the gas.

In addition, the inclined surface 42 is formed on the upper side of the horizontal rotation bar 40 for rotating the vertical rotation bar 50 when it hits the vertical rotation bar 50, the rotation distance of the vertical rotation bar 50 By shortening it has an effect that can mitigate the noise generated when colliding with the installation hole 33 when the original return. In addition, the horizontal portion 31 of the crank bridge 30 may be formed as an extended disc so that the installation hole 33 may be formed at a position substantially spaced apart from the valve rotation shaft 16, such that the vertical pivot bar 50 is horizontal. Even when the moment acting on the edge of the rotary open / close valve 20 is increased by the pressure of the gas when the rotary bar 40 is pressurized, the reverse rotation of the rotary open / close valve 20 can be more effectively prevented.

1 is an exploded perspective view showing a conventional gas meter
FIG. 2 is a view illustrating a relationship between a flow path inlet and a valve of the lower case of FIG.
3 is a perspective view showing an embodiment of a gas meter according to the present invention;
4 is an exploded perspective view of the main parts of the embodiment;
5 and 6 are a perspective view and a cross-sectional view showing the operation of the main portion of the embodiment

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 3 is a perspective view showing a gas meter according to a preferred embodiment of the present invention, Figure 4 is an exploded view of the main portion of the embodiment, Figure 5 and Figure 6 shows the operation of the main portion of the embodiment to be.

As shown, the gas meter according to an embodiment of the present invention has a plurality of flow paths in which gas chambers 2 having diaphragms 3 are formed on both sides, and gas flows into and out of the gas chamber 2 in the center thereof. And a discharge path 4 selectively communicating with the flow path for discharging the gas, the upper case having a lower case 1 having an entrance and exit of the flow paths along the periphery of the discharge path 4; The valve seat 5 is installed on the upper surface of the lower case 1, and has a central through hole 6 and a plurality of communication holes 7 formed therein so as to communicate with the inlet of the discharge passage 4 and the outlet of the flow paths, respectively. ; An upper case covering an upper surface of the lower case 1 and having gas inlets 11 communicating with the flow path on both sides of the upper case, and gas outlets 12 communicating with the outlet 4a of the discharge passage 4; 10); A crank mechanism (15) for converting the reciprocating motion of the diaphragm (3) into a circular motion; A valve rotation shaft 16 rotated by the crank mechanism 15; A flow rate display portion 13 which is connected to the valve rotation shaft 16 to display gas consumption; And a control hole 21 for opening the communication hole 7 of the valve seat 5 at one side thereof, and a communication hole 7 and a central hole 6 formed at a lower surface of the valve hole 5 opposite to the control hole 21. A new type of crank bridge 30, horizontal rotating bar 40, and vertical rotating bar 50 are further added to a conventional gas meter including a rotary opening and closing valve 20 having a discharge groove 22 communicating therewith. do. On the other hand, when gas is injected through the gas inlet 12 and flows in the forward direction, the rotary opening and closing valve 20 is rotated in one direction, that is, the same as the conventional rotation.

In the illustrated embodiment, the crankbridge 30 extends horizontally at a disc-shaped horizontal portion 31 at both ends thereof, and is horizontally extended at opposite ends of the horizontal portion 31 and bent downward at an end portion thereof, so that the upper surface of the lower case 1 is closed. It consists of a fixed portion 35 fixed to. At this time, a through hole 32 through which the valve rotation shaft 16 penetrates is formed at the center of the horizontal portion 31, and the valve rotation shaft 16 penetrates through the crank bridge 30 to form the center of rotation of the rotary opening and closing valve 20. Is coupled to.

On the other hand, the installation hole 33 is penetrated vertically through the horizontal portion 31 of the crank bridge 30, the installation hole 33 is in the tangential direction of the rotary opening and closing valve 20 to the edge of the horizontal portion 31 Therefore, it is preferable that the length is made in the form of a long hole.

The horizontal rotation bar 40 extends horizontally from the lower end of the valve rotation shaft 16 protruding downward of the crank bridge 30, the front end is coupled to the upper edge of the rotary opening and closing valve 20, the valve rotation shaft 16 Rotate the rotary opening and closing valve 20 when is rotated. And, the upper surface of the horizontal rotating bar 40, the protrusion catching portion 41 is formed extending in the longitudinal direction, the protrusion catching portion 41, the inclined surface inclined downward along the forward rotation direction of the rotary opening and closing valve 20 ( 42) is formed.

The vertical pivot bar 50 is formed in a substantially T-shape, the upper hinge shaft 51 is formed on the radial direction of the valve rotation shaft 16, the upper surface of one side of the installation hole 33 of the crank bridge 30 Rotatably mounted on the In addition, the vertical pivot bar 50 extends downwardly to penetrate the installation hole 33 in the hinge shaft 51 of the upper end and protrudes to the lower side of the crank bridge 30, the lower portion of the horizontal rotating bar 40 It comes in contact with the protruding engaging portion 41.

The hinge shaft 31 is installed on the upper surface of one end of the installation hole 33 of the long hole shape, the other end direction at one end of the installation hole 33 is preferably configured to match the forward rotation direction of the rotary opening and closing valve 20. Do. Accordingly, the vertical rotation bar 50 is caught by the inner side surface 33a of one end of the installation hole 33 in the reverse rotation direction of the rotary opening and closing valve 20 to limit the rotation. At this time, the mounting groove 34 to which the hinge shaft 51 of the vertical pivot bar 50 is coupled is formed on the upper surface of one end of the installation hole 33 of the crank bridge 30 to protrude the vertical pivot bar 50. Since the intermediate part is caught by the inner surface 33a of the installation hole 33, the rotational restriction of the vertical rotation bar 50 is more stable.

When the horizontal rotation bar 40 configured as described above is rotated in one direction, that is, in the forward rotation direction of the rotary open / close valve 20, the vertical rotation bar that collides with the inclined surface 42 of the protruding portion 41 of the horizontal rotation bar 40 is rotated. 50 is rotated about the hinge shaft 31, the horizontal rotation bar 40 is rotated through the vertical rotation bar 50 as it is, the forward rotation of the rotary opening and closing valve 20 is made. On the other hand, when the horizontal rotation bar 40 is rotated in the other direction, that is, the reverse rotation direction of the rotary opening and closing valve 20, the vertical rotation bar 50 that collides with the protruding engaging portion 41 of the horizontal rotation bar 40 is installed The rotation is limited by hitting the inner surface 33a of the ball 33, so that the horizontal rotation bar 40 is caught by the vertical rotation bar 50, so that the reverse rotation of the rotary opening and closing valve 20 is prevented.

On the other hand, when the reverse rotation of the rotary opening and closing valve 20 is stopped as the horizontal rotation bar 40 is caught by the vertical rotation bar 50 as described above, the rotary opening and closing valve 20 as shown in Figs. The adjusting hole 21 and the discharge groove 22 of the valve seat 5 is configured to be matched with each of the single communication hole (7). This is a vertical rotation that is caught on the inner surface (33a) of the installation hole 33 by hitting the horizontal locking bar 40 is coupled to the rotary opening and closing valve 20 and the projecting engaging portion 41 of the horizontal rotating bar (40) It may be implemented by appropriately selecting the position of the bar 50. For example, as shown in the illustrated embodiment, the front end of the horizontal rotation bar 40 is fixed to the side wall (21a) of the adjustment hole 21 of the rotary opening and closing valve 20, and is caught in the vertical rotation bar (50) By making the projection catching part 41 of the true horizontal rotation bar 40 and the side wall 21a of the adjustment hole 21 of the rotation opening / closing valve 20 line up, the reverse rotation of the rotation opening / closing valve 20 When stopped, the adjustment hole 21 and the discharge groove 22 may be in communication with a single communication hole 7 of the valve seat 5, respectively.

When the gas inlet 11 and the gas outlet 12 of the gas meter according to the embodiment of the present invention configured as described above are installed in the gas pipe in reverse, gas is discharged through the gas outlet 12 and the valve 4. The gas chamber 2 is introduced into the gas chamber 2 through the communication hole 7 of the seat 5 so that the diaphragm 3 and the crank mechanism 15 are operated in the reverse direction. Since the 40 is rotated in reverse, the rotary opening and closing valve 20 is reversed.

When the rotary opening and closing valve 20 is reversely rotated, and the projecting catching portion 41 of the horizontal rotating bar 40 collides with the vertical rotating bar 50, the vertical rotating as shown in FIGS. 5 and 6 (a). Bar 50 is caught by the inner surface (33a) of the installation hole 33, the rotation is limited, the rotation of the horizontal rotation bar 40 and the reverse rotation of the rotary opening and closing valve 20 stops. At this time, as the rotation of the valve rotation shaft 16 stops, the reverse operation of the flow rate display part 13 connected thereto is also stopped.

In addition, since the adjusting hole 21 and the discharge groove 22 of the rotary opening and closing valve 20 are aligned with the single communication hole 7 of the valve seat 5 as shown in FIG. When flowing into the single communication hole (7) the pressure applied in the forward and reverse rotational direction of the rotary opening and closing valve 20 is kept constant to prevent the flow of the rotary opening and closing valve 20. Therefore, the other communication hole 7 of the valve seat 20 is not opened so that gas does not enter or exit the gas chamber 2 through the other communication hole 7 so that the flow of gas is completely blocked, and the negative that is visually confirmed Not only the use but also the actual fraud can be prevented.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

Claims (3)

Gas chambers 2 with diaphragms 3 are formed on both sides, and a plurality of flow paths communicating with the gas chamber 2 in the center and discharge passages 4 for selectively communicating with the flow paths to discharge gas are provided. A lower case (1) formed at an upper surface thereof and having an entrance and exit of flow paths along an inlet of the discharge path (4) and a circumference thereof; It is installed on the upper surface of the lower case (1), the valve seat (5) formed with a central through hole (6) and a plurality of communication holes (7) around it so as to communicate with the inlet and outlet of the discharge passage (4), respectively ); An upper case covering an upper surface of the lower case 1 and having gas inlets 11 communicating with the flow path on both sides of the upper case, and gas outlets 12 communicating with the outlet 4a of the discharge passage 4; 10); A crank mechanism (15) for converting the reciprocating motion of the diaphragm (3) into a circular motion; A valve rotation shaft 16 rotated by the crank mechanism 15; And a control hole 21 for selectively opening the communication hole 7 of the valve seat 5 on one side thereof, and the communication hole 7 and the central through hole (12) on the lower surface of the valve hole 5 opposite to the control hole 21. 6 is formed with a discharge groove 22 for communicating, and the rotary opening and closing valve 20 to be supplied and discharged to the gas chamber (2) alternately as it is rotated about the valve rotation shaft (16) In the gas meter comprising;
A horizontal portion 31 provided between the crank mechanism 15 and the rotary opening / closing valve 20 and vertically penetrating the valve rotating shaft 16 at the center thereof, and extending downward from both ends of the horizontal portion 31 so as to be lowered. A crank bridge 30 having a fixing part 35 fixed to the case 1 and having an installation hole 32 vertically penetrated to one side of the horizontal part 31;
The lower end of the valve rotation shaft 16 protruding downward of the crank bridge 30 extends radially outward and the end is coupled to the edge of the rotary opening and closing valve 20 to rotate the opening and closing according to the rotation of the valve rotation shaft 16 Horizontal rotating bar 40 for rotating the valve 20;
The horizontal rotating bar 40 extends downwardly to penetrate the installation hole 32 in the hinge shaft 51 formed in the radial direction of the valve rotation shaft 16 on one side of the installation hole 32 of the crank bridge 30. It includes; vertical contact bar 50 in contact with,
When the horizontal rotating bar 40 hits the vertical rotating bar 50 when rotating in one direction, the vertical rotating bar 50 is rotated about the hinge shaft 51 so that the horizontal rotating bar 40 continues to rotate. When the rotation hits the vertical rotation bar 50, the vertical rotation bar 50 is caught on the inner surface 33 of the installation hole 32, so that the rotation is limited, the rotation of the horizontal rotation bar 40 is stopped,
When the gas flows in the reverse direction, when the horizontal rotation bar 40 rotates in the other direction and collides with the vertical rotation bar 50 to stop the rotation of the rotary opening and closing valve 20 as the rotation is stopped, the adjustment of the rotary opening and closing valve 20 is performed. Gas meter, characterized in that the ball (21) and the discharge groove (22) are each aligned with a single communication hole (7) of the valve seat (5).
According to claim 1, characterized in that the inclined surface 42 is inclined downward in one direction of the rotation direction of the horizontal rotating bar 40, the upper side of the horizontal rotating bar 40 is caught by the vertical rotating bar (50). Gas meter
According to claim 1 or 2, wherein the horizontal portion 31 of the crank bridge 30 is made of a disc, the installation hole 32 of the rotary opening and closing valve 20 on the edge of the horizontal portion 31 Gas meter, characterized in that made in the form of a long hole along the tangential direction.

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