KR100520818B1 - Electronic gas-meter - Google Patents

Abstract

The present invention can measure the gas consumption of various grades by one type of gas meter attached to the gas distribution line, and can accurately measure the amount of rotation of the impeller installed in the main body, as well as the usage indicator for meter reading. It relates to an electronic gas meter that can be applied regardless of the position of.

The present invention has an inlet port and an outlet port in which each channel is provided, and a main body provided with shielding means in a channel formed at the center thereof, and a connection part provided on each channel of the main body, and having a low pressure on one side of the upper surface thereof. A holding member equipped with an ejector and a high pressure ejector, an impeller rotatably held on a central axis mounted at the center of the fixing member, an upper end of the rotating shaft of the impeller, and an outer circumference of the fixing member A housing having a receiving groove enclosing the housing and a reed switch for sensing the rotation of the impeller, and a digital display connected to the reed switch of the housing to measure the gas passage amount, and is rotated on the connection part of the main body. It is composed of a casing which is mounted to be possible.

Description

Electronic gas meter {ELECTRONIC GAS-METER}

The present invention relates to an electronic gas meter, and more particularly, it is possible to measure the gas consumption of various grades by using one type of gas meter attached to the gas distribution line, and to determine the amount of rotation of the impeller installed in the main body. The present invention relates to an electronic gas meter that can be accurately measured and can be applied regardless of the position of the usage indicator for meter reading.

City gas, which is used in general industry or at home, is easy to use and clean compared to other fuels, and has a direct impact on the daily life of modern people in terms of economic efficiency and safety. It is regulated by law such as rate, facilities, and quality.

Normally, city gas is supplied to each place of use along a predetermined conduit by maintaining a constant pressure from a storage facility, and the amount of city gas can be measured by a gas meter attached to each distribution line.

As an application related to the structure of such a gas meter, for example, as disclosed in Korean Patent Publication No. 10 -0319984 (registered on December 24, 2001), the diaphragm (rubber membrane) is operated by the gas pressure supplied into the gas chamber, Due to the flow of the diaphragm, the gas can be supplied by rotating the on / off valve, and the gas consumption can be measured by the rotation of the shaft having a counter.

In addition, a magnetic element is connected to a method of detecting a rotary valve using an electric circuit, that is, a rotary valve connected to a shaft of a rubber membrane, and a coil or an inductive pick-up circuit is provided adjacent to the magnetic element to thereby rotate the magnetic element. It is also known that this magnetic field affects an electric circuit connected to the induction pick-up circuit to generate an electrical signal corresponding to the rotation of the valve, and amplifies the signal so that it is displayed as a drive signal.

However, in the conventional gas meter as described above, since the capacity is determined in proportion to the size of the diaphragm installed in the gas chamber, the same structure and size are different according to the four grades (volumes) currently determined. In addition to manufacturing a gas meter, there is a problem in that the gas meter is installed in left and right types so that the direction in which the meter reading unit is located in the front is directed.

In the case where the magnetic element is connected to the rotary valve for measurement, the rubber membrane side in the gas chamber and the speed of the rotary valve do not coincide. There is a problem that an error occurs.

On the other hand, in the technique disclosed in Korean Patent Laid-Open Publication No. 2000-0072436 (2000.12.05.), The impeller having a plurality of wing pieces is rotated in accordance with the amount of gas supplied into the main body. The rotation is detected by an optical sensor so that the gas consumption can be measured. In this case, however, the above-described problems cannot be avoided.

The present invention has been made in view of the above-described conventional problems, and an object of the present invention is to provide a low pressure and a high pressure ejector on a gas passage in a body so as to induce a flow of gas, and thus, various conventional methods. It is possible to measure each usage as one gas meter which is manufactured by class according to the capacity divided into grades, and it provides electronic gas meter which can check the rotation amount of impeller by gas flow from outside of the device as digital signal. have.

In addition, the present invention adopts a structure that can freely rotate and fix the casing provided with the digital display in any direction, to produce a single type without the need to distinguish the left type and the right type of the gas meter for the meter reading To provide an electronic gas meter that can be used.

The present invention for achieving the object as described above, the inlet and outlet having each of the flow passage is provided, the shielding means for controlling the flow of gas to the central passage at the same time the central passage is connected to the end of the inlet side A fixed member having a main body provided thereon and a low pressure ejector and a high pressure ejector mounted on one side of an upper surface of the main body, the low pressure ejector and the high pressure ejector being mounted on one side of the upper surface thereof; An impeller that is rotatably held on a central shaft mounted in the center of the fixing member, the upper end of the rotating shaft of the impeller is installed through a packing at a connection part of the main body, and a low pressure ejector of the fixing member A reed switch for sensing the rotation of the impeller at the center of the upper part is provided with a receiving groove enclosing the outer circumference of the high-pressure jet. And a casing that is connected to a reed switch mounted to the housing and has a digital display unit for measuring the gas passage amount, and is mounted on the connecting portion of the main body so as to be rotatable through a fixing band. It is characterized by.

Here, the shielding means is composed of a pressure plate that is held on the step formed in the central passage of the main body, and a spring mounted between the lower end of the central axis of the fixing member and the pressure plate to provide elasticity to the pressure plate.

The low pressure jet installed in the fixing member is connected to a flow passage formed at the inlet end of the main body, and the high pressure jet is connected to the central passage of the main body to supply gas to the impeller.

In addition, the impeller is attached to the rotating shaft via the bushing in the central portion of the plate, the circular magnet is attached to the upper surface of the plate and a plurality of wing pieces are formed on the lower surface.

In addition, an auxiliary magnet is installed around the recessed groove in which the reed switch of the upper end of the housing is mounted, and a cylindrical bearing and a supporting bearing are provided at a portion where the rotating shaft of the impeller at the lower end of the housing is maintained.

A locking jaw formed in the connecting portion of the main body and an outer circumference of the flange formed at the lower end of the casing are connected by a fixing band, and a flange formed in the housing is interposed therebetween.

In addition, the digital display portion includes a substrate to which the reed switch is connected via a support plate in a cover assembled as a fastening screw to the casing, and a liquid crystal plate mounted on the front surface of the substrate.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 6 are diagrams for explaining the electronic gas meter according to the present invention. First, as shown in FIGS. 1 to 3, the gas meter is mainly connected to the gas pipes 100A and 100B, and A fixed member 20 mounted on the main body 10 to guide the flow of gas, an impeller 30 which is rotatably held on the fixed member 20, and a rotation of the impeller 30 A housing 40 having a reed switch 45 for generating a signal and a digital display unit 51 are provided and constituted by a casing 50 which is free to rotate.

The main body 10 constituting the gas meter is provided with connection portions 10a and 10b which are tightly coupled to the gas pipes 100A and 100B on both sides thereof, and inside each of the connection portions 10a and 10b, respective flow paths are provided. An inlet 11 and an outlet 12 having 11a and 12a are formed, and a central passage 13 is connected to the end of the inlet 11 side.

In addition, a locking jaw 14a is formed at the end edge of the upper connection portion 14 in which the flow passages 11a and 12a of the main body 10 are formed, and the step 13a is formed in the central passage 13. At the same time, a shielding means for controlling the flow of gas is provided.

In the connecting portion 14 of the main body 10, a disc-shaped fixing member 20 is seated through packing (not shown) and fixed by the fastening screw 21, and the circumference of the upper surface of the fixing member 20 is fixed. The low pressure jet 22 and the high pressure jet 23 are press-fitted in the circumference, and a through hole 24 is formed in one side thereof.

The fixing member 20 is seated on the connecting portion 14 of the main body 10 so that the low pressure ejector 22 is connected to the flow passage 11a of the inlet 11, and the high pressure on the central passage 13 The ejector 23 is installed, and the through hole 24 is connected to the flow passage 12a on the outlet 12 side.

The shielding means includes a pressure plate 15 held by a step 13a formed in the central passage 13 of the main body 10 and a center of the fixing member 20 to provide elasticity to the pressure plate 15. The spring 16 is mounted between the lower end of the central shaft (20a) and the pressure plate (15) mounted on the.

In addition, the rotating shaft 31 of the impeller 30 is held on the central axis 20a of the fixing member 20 so as to be rotatable, and the impeller 30 is bushing 33 at the center of the flat plate 32. The rotary shaft 31 is mounted through the upper surface of the flat plate 32, and a circular magnet 34 is attached to the upper surface thereof, and a plurality of wing pieces 35 are formed on the lower surface thereof.

Then, a flange 40a is formed on the bottom surface of the housing 40 mounted on the fixing member 20, and the low pressure ejector 22 mounted on the fixing member 20 is formed inside the flange 40a. ) And a receiving groove 41 surrounding the outer circumference of the high-pressure jet 23 is provided, and the cylindrical bearing 42a for maintaining the upper end of the rotating shaft 31 of the impeller 30 in the inner center of the receiving groove 41. And a bearing bearing 42b is fixed to the connection portion 14 of the main body 10 as a fastening screw 44 via a packing 43.

In the recess groove 40b formed at the outer upper end of the housing 40, a reed switch 45 for detecting rotation of the impeller 30 is mounted, and an auxiliary magnet 46 is provided around the recess groove 40b. ) Is buried.

On the other hand, the seating portion 50b of the casing 50 mounted on the outer circumference of the housing 40 includes a digital display portion 51 connected to the reed switch 45 to measure the gas passage amount. It is comprised so that rotation is possible through the fixing band 52 on the locking projection 14a formed in the connection part 14 of the main body 10.

The digital display unit 51 is a substrate 55 to which the reed switch 45 is connected via a support plate 54 in a cover 53 assembled as a fastening screw 53a to a seating portion 50b of the casing 50. And a liquid crystal plate 56 mounted on the entire surface of the substrate 55.

The fixing band 52 is provided at the engaging jaw 14a formed around the outer side of the connecting portion 14 of the main body 10, the flange 40a provided in the housing 40, and the lower end of the casing 50. The outer periphery of the formed flange 50a is simultaneously connected so that the casing 50 can rotate freely.

According to the present invention configured as described above, the inlets 11 of the main body 10 in a state where the connecting portions 10a and 10b at both ends of the main body 10 constituting the gas meter are closely connected to the gas pipes 100A and 100B. The gas flows in through), and as the gas flows, the impeller 30 installed on the fixing member 20 is rotated so that the amount of gas is controlled by the digital display unit 51 installed in the casing 50. It becomes possible to measure, and is supplied to the place of use through the outlet 12 of the main body 10 again.

Here, when the gas supply amount is a small amount, for example, when supplied at about 15 l / h or less, the gas supply flows along the flow passage 11a connected to the end of the inlet port 11 of the main body 10, and on the fixing member 20 At the same time as being supplied to the low-pressure jet machine 22 is introduced into the impeller 30, it is possible to rotate the blade piece 35 of the impeller 30.

In addition, when the gas supply amount is relatively large, gas flows along the central passage 13 connected to the end of the main body 10, and the pressure plate provided in the central passage 13 by the pressure of the gas ( 15 is pushed up against the spring 16, the gas flows upwards, is supplied to the high-pressure jet 23 on the fixing member 20 and flows into the impeller 30 side at the same time, the wing piece of the impeller 30 It becomes possible to rotate 35.

As described above, when the impeller 30 is rotated by the gas provided through the respective flow paths according to the supply amount, the circular magnet 34 attached to the bushing 33 of the rotating shaft 31 also rotates, and the housing (40) It is possible to operate the reed switch 45 on-off by interaction with the auxiliary magnet 46 mounted around the recessed groove (40b) of the upper end.

That is, the reed switch 45 is operated on and off once in one rotation of the impeller 30, so that the amount of gas can be calculated by measuring the rotational speed of the impeller 30 and the volume of the gas.

In addition, since the cylindrical bearing 42a and the bearing bearing 42b are installed in the housing 40 on which the rotating shaft 31 of the impeller 30 is supported, the impeller 30 is smoothly rotated and wear is prevented. You can do it.

In addition, the signal detected by the reed switch 45 is recorded on the digital display unit 51 installed in the seating portion 50b of the casing 50 and can be observed from the outside through the lid 53. .

The reed switch 45 is a structure having a switching element inside the vacuum tube, and since the structure is well known, a detailed description of the structure and operation is omitted.

In addition, the substrate 55 on which the digital display unit 51 is installed can calculate, for example, an electric signal transmitted from the reed switch 45 in cc units per time, and adjusts and inputs 1cc to 9999cc. It is programmed to be.

On the other hand, the engaging jaw 14a and the flange 50a of the casing 50 formed on the connecting portion 14 of the main body 10 are interposed between the fixing band 52 via the flange 40a of the housing 40. Since it is fastened as, it is possible to rotate freely simply by applying a slight force to the casing 50.

Therefore, since the position of the digital display unit 51 installed on the mounting portion 50b of the casing 50 can be easily changed, the gas meter can be manufactured regardless of the installation condition or type of the gas meter. .

The above-described embodiments have been described with respect to the most preferred examples in the present invention, and are not limited to the above-described embodiments, and it will be apparent to those skilled in the art that various modifications can be made without departing from the technical spirit of the present invention.

As described above, according to the electronic gas meter according to the present invention, since the low pressure and the high pressure ejector are disposed on the gas passage in the main body so as to induce the flow of gas, the gas is divided into several classes as in the prior art according to the capacity. It is possible to measure the amount of each used as a gas meter that was produced.

In addition, since the present invention allows the casing provided with the digital display unit to be rotated freely in an arbitrary direction, the present invention can be manufactured in one type without the need to distinguish between the left type and the right type of the gas meter for meter reading. Economic effects can be achieved.

In addition, the amount of rotation of the impeller due to the gas flow can be confirmed from the outside of the device as a digital signal, and even if an error occurs between the actual amount of gas passage and the amount of rotation of the impeller, it is programmed to correct the error. Integrated management with the city can be performed.

1 is a plan view showing a state in which the electronic gas meter is installed in the pipe according to the present invention,

2 is a side configuration diagram of an electronic gas meter,

3 is a view showing separately the parts of the electronic gas meter,

4 is a cross-sectional view showing the assembled parts shown in FIG.

5 is a plan view showing the internal structure of a main body constituting the electronic gas meter of the present invention;

6 is a view showing a planar structure of a fixing member mounted on the main body shown in FIG.

<Explanation of symbols for main parts of drawing>

100A, 100B: Gas piping 10: Main body

10a, 10b: Connection 11: Inlet

12: outlet 11a, 12a: distribution path

13: central passage 13a: step

14: connecting portion 14a: locking jaw

15: pressure plate 16: spring

20: fixing member 20a: central axis

21: Tightening Screw 22: Low Pressure Jet

23: high pressure ejector 24: through hole

30: impeller 31: axis of rotation

32: Reputation 33: Bushing

34: round magnet 35: wing

40: housing 40a: flange

40b: recessed groove 41: receiving groove

42a: cylindrical bearing 42b: bearing

43: Packing 44: Tightening Screw

45: reed switch 46: auxiliary magnet

50: casing 50a: flange

50b: seating portion 51: digital display portion

52: fixing band 53: cover

53a: tightening screw 54: support plate

55: substrate 56: liquid crystal plate

Claims (7)

Each flow passage 11a, 12a has an inlet 11 and an outlet 12 provided with a central passage 13 is connected to the end of the inlet 11 side and at the same time a gas in the central passage 13 The main body 10 is provided with shielding means for controlling the flow of; The low pressure ejector 22 and the high pressure ejector 23 are mounted on one side of the main body 10 on the connection part 14 provided on each of the flow passages 11a and 12a. A fixing member 20 having a through hole 24 formed at one side thereof, An impeller 30 which is rotatably held on a central shaft 20a mounted at the center of the fixing member 20; The upper end of the rotating shaft 31 of the impeller 30 is installed to the connecting portion 14 of the main body 10 via the packing 43, the low pressure ejector 22 and the high pressure of the fixing member 20 A housing 40 having a receiving groove 41 surrounding the outer circumference of the blower 23 and a reed switch 45 for detecting rotation of the impeller 30 at the upper center thereof; It is provided with a digital display unit 51 connected to the reed switch 45 mounted on the housing 40 to measure the amount of gas passing through the fixing band 52 on the connecting portion 14 of the main body 10. Electronic gas meter, characterized in that consisting of a casing (50) mounted so as to be rotatable. The pressure shield (15) according to claim 1, wherein the shielding means is held by a step (13a) formed in the central passage (13) of the main body (10) and the fixing member for providing elasticity to the pressure plate (15). An electronic gas meter comprising a spring (16) mounted between a lower end of the central axis (20a) of the (20) and the pressure plate (15). The low pressure ejector 22 installed in the fixing member 20 is connected to the flow passage 11a formed at the end of the inlet 11 of the main body 10, The ejector (23) is connected to the central passage (13) of the main body 10, the electronic gas meter, characterized in that configured to supply the gas to the impeller (30) side. According to claim 1, The impeller 30 is mounted to the rotary shaft 31 via the bushing 33 in the center of the flat plate 32, the circular magnet 34 is attached to the upper surface of the flat plate 32 And a plurality of wing pieces 35 are formed on the lower surface thereof. The auxiliary magnet 46 is installed around the recessed groove 40b on which the reed switch 45 at the upper end of the housing 40 is mounted, and the impeller 30 at the lower end of the housing 40. The electronic gas meter, characterized in that the cylindrical bearing (42a) and the bearing bearing (42b) is provided at the portion where the rotating shaft (31) is maintained. The fixing band 52 has an outer circumference of the engaging jaw 14a formed at the connecting portion 14 of the main body 10 and the flange 50a formed at the lower end of the casing 50. And a flange (40a) formed in the housing (40) interposed therebetween. The substrate 55 of claim 1, wherein the digital display unit 51 is connected to the casing 50 through a support plate 54 in a cover 53 assembled as a fastening screw 53a. And a liquid crystal plate (56) mounted on the front surface of the substrate (55).