KR200353627Y1 - A gasometer - Google Patents

Abstract

Disclosed is a meter structure in which a cover portion for receiving a communication circuit element for remote metering is integrally formed with a viewing window that protects a rotating counter for metering usage of gas and the like. The structure is provided with a remote central reading of the inlet 11 through which the gas is introduced, the counter 50 for measuring the amount of gas introduced therein, the outlet 12 through which the gas is discharged through the counter, and the metering signal measured from the counter. And a sight window 40 for protecting the counter, and the sight window 40 has a structure in which an accommodating case 41 having an accommodating space 41 a therein is formed integrally with an edge thereof. Has In addition, a sensor 60 for detecting the number of revolutions of the counter 50 is provided, and the data transmission unit includes a data conversion unit for converting the detection signal of the sensor 60 into data for communication, and a transmission unit for transmitting the converted data. And a storage battery 72 for applying power. Such a meter structure is easy to assemble because the see-through window 40 for protecting the counter 50 and the housing case 41 for receiving the data conversion and transmission unit for transmitting the detection data are integrally formed. In addition, by sealing the through-hole 42a through which the wire 61 of the sensor 60 passes, the risk of gas leakage is prevented and the corrosion of circuit elements is prevented to extend the life.

Description

Meter structure {A gasometer}

The present invention relates to a meter structure, and more particularly, to a meter structure in which a viewing window for protecting a rotation counter for metering usage of gas and the like and a cover portion for receiving communication circuit elements for remote meter reading are integrally formed.

For example, the gas meter for measuring the amount of gas used in homes, officetels, and the like has a structure as shown in FIGS. 1 and 2.

This shows the diaphragm type gas meter, the inlet side 11 is formed on one side, the outlet side 12 is formed on the other side and the butterfly shaft 13 is provided on the inside to be rotatable through the hole in the front center. The upper casing 10 and the lower casing 20 are combined with the upper casing 10 and in which elements for metering such as the diaphragm 22 are installed.

The lower casing 20 is provided with a diaphragm 22 fastened to the diaphragm bracket 23 at the center thereof, the outer side of which is sealed by the diaphragm cover 21 and formed in front and rear, respectively, and one side of the diaphragm bracket ( 23 and a diaphragm bracket shaft 24 hinged to the crank rod 26 and the valve 27 on the other side thereof, and the crank rod 26 and the right angle shaft bracket 29 are hinged to both ends of one side thereof. An end shaft is provided with a right angle shaft 28 for contacting the butterfly shaft 13 to convert the linear reciprocating motion of the crank rod 26 into a rotational motion.

In addition, the first gear 31 is fastened to the other end of the butterfly shaft 13, the second gear 32 and the third gear 33 to rotate in engagement with the first gear 31, and the first The display unit 30 includes an analog display device 34 that rotates in response to the rotation of the three gears 33, and a display cover 35 that is provided outside the analog display device 34. As shown in FIG.

In the operation of the conventional diaphragm type gas meter configured as described above, when gas is introduced through the inlet side 11, the introduced gas is introduced into each of the metering chambers 25 through a metering chamber passage formed under the valve 27. The gas introduced into the metering chamber 25 causes the diaphragm 22 to flow back and forth.

When the diaphragm 22 flows back and forth by the gas introduced into the metering chamber 25, the diaphragm bracket 23 fastened to the diaphragm 22 flows to rotate the diaphragm bracket shaft 24, and the diaphragm bracket shaft Each of the valves 27 and the crank rod 26 hinged to the 24 is allowed to flow for a certain period.

As the valve 27 flows for a certain period from side to side, the metering chamber passage formed under the valve 27 is repeatedly opened and closed to control the gas flowing into the metering chamber 25 and discharged from the metering chamber 25. Gas is discharged to the outside through an outlet side passage (not shown) formed in the center of the lower casing 20 by being connected to the outlet side 12, the crank rod 26 is hinged at both ends of the right angle shaft bracket (29) The combined right angle shaft 28 is rotated.

The rotational force of the right angle shaft 28 rotates the butterfly shaft 13 provided in the upper casing 10 and causes the first gear 31 fastened to the outer end of the butterfly shaft 13 to rotate simultaneously. The rotational force transmitted to the first gear 31 operates the analog display device 34 through the second gear 32 and the third gear 33 to display the flow rate of the gas passing through the gas meter to the outside. Done.

However, the conventional gas meter as described above has a problem that the meter is visited by the reader through the analog display device 34 and manually metered, such that a metering error and metering manpower are required according to the visual metering.

In recent years, officetels, shopping malls, residential complexes, and the like have been introduced with a remote meter reading system that automatically reads the used energy (electricity, water, gas, calories, hot water). There is an advantage to reduce the number of management personnel and to increase efficiency, such as preventing a crime, reducing errors caused by visual meter reading, automatically distributing the joint partial fee, and eliminating various personnel related to the meter reading fee.

Such a remote meter reading system typically detects the number of revolutions of an analog display device and converts it to actual usage to transmit data to the central control unit.

However, in general, by drawing out the wire from the sensor that detects the rotational speed of the analog display device and applying it to a separate data transmission unit, there is a risk of gas leakage due to the wire drawing, and also the need to separately install the analog display device and the data transmission unit. There is a feeling.

The present invention has been made to solve the above problems, by integrally forming the data transmission unit for the remote reading with the transparent display window of the analog display device for visual inspection to reduce the assembly labor, and also prevents gas leakage It is an object of the present invention to provide a meter structure as much as possible.

1 is an exploded perspective view showing a conventional meter structure,

Figure 2 is an excerpt "A" of Figure 1,

3 is a perspective view showing a conventional meter,

4 is a front view showing the present invention meter structure,

5 is a sectional view of the main part of FIG. 4;

6 is an excerpt perspective view of a viewing window employed in the present invention meter structure,

7 is a schematic view for explaining the rotational speed detection means employed in the meter structure of the present invention,

8 is a schematic view for explaining a structure for sealing the through hole.

* Explanation of symbols for main parts of the drawings

11 ... inlet 12 ... outlet

40.Seeing window 41.

41a ... Accommodation 42 ... Bulk

42a ... through-through 50 ... counter

50a ... rotating body 60 ... sensor

61 ... Wire 71 ... Circuit Board

72 ... battery

The present invention for achieving the above object is a remote central meter reading the meter inlet, the counter for measuring the amount of gas introduced, the outlet through which the gas is discharged, and the metering signal measured from the counter In the meter structure comprising a data transmission unit for transmitting to the negative, and a viewing window for protecting the counter,

The see-through window is characterized in that the receiving case is formed integrally with a receiving space formed on the edge for receiving the data transmission unit.

In addition, the meter structure of the present invention is provided with a sensor for detecting the number of revolutions of the counter, the data transmission unit for converting the detection signal of the sensor into data for communication, a transmission unit for transmitting the converted data and And a storage battery for applying power.

In addition, the partition between the housing case and the viewing window is formed with a through hole through which the wire of the sensor passes, characterized in that the through hole is sealed to prevent the leakage of gas.

According to the above features of the present invention, the meter structure of the present invention is not only easy to assemble by forming a receiving window for protecting the counter and the data transmission unit integrally, but also leakage by using a battery as a power source for data transmission. It also reduces the risk of gas explosions.

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

The meter structure according to the embodiment of the present invention has a structure for measuring the amount of gas used in homes, officetels, and the like, and has a structure suitable for performing visual inspection and remote meter reading.

Since the structure for metering of the embodiment has the same structure as that of the main part of the meter structure of FIG. 1 as described above, a detailed description thereof will be omitted.

4 and 5 showing the meter structure of the present invention, a counter 50 is provided to meter the amount of gas used by the metering structure as shown in FIG.

The gas introduced through the inlet 11 is driven by rotating the counter 50 to count the amount of gas used and is discharged through the outlet 12.

The counter 50 is configured so that a plurality of rotating bodies 50a having numbers printed on the outer circumferential surface thereof are adjacent to each other, so as to interlock with each other. In other words, while the uppermost rotating body 50a rotates 10 times, the adjacent rotating body is rotated one time to meter the used gas.

The gas consumption measured as described above allows the reader to visually read the counter 50 through the viewing window 40.

On the other hand, the gas consumption displayed by the counter 50 is transmitted to the central meter reading unit located remotely through a data transmission unit (not shown) to enable remote meter reading.

As a characteristic configuration of the present invention, as shown in FIG. 7, the sensor 60 is provided adjacent to the counter 50, and the magnetic body 65 is attached to the rotating body of the counter 50 to rotate the rotating body. The number can be detected by a pulse.

On the other hand, the sensor 50 may be employed as a photosensor including a light emitting element and a light receiving element to enable the number of rotations to be light detection.

On the other hand, the see-through window 40 has a structure in which a housing case 41 is formed integrally formed with a receiving space 41a for accommodating the data transmission unit at its edge, as shown in FIGS.

A circuit board 71 and a storage battery 72 are accommodated in the accommodating space 41a, and the circuit board 71 converts the detection signal of the sensor 60 into data for communication as the data transmission unit. Circuit elements including a converter and a transmitter for transmitting the converted data are employed. The battery (or battery) 72 has a battery 72 for applying power to these circuit elements.

In addition, a through hole 42a through which the wire 61 of the sensor 60 passes is formed in the partition 42 between the housing case 41 and the viewing window 40, and the through hole 42a is It is sealed to prevent leakage of gas and is opened and closed by the cover 45.

Meanwhile, as shown in FIG. 8, first and second sealing plates 43 and 44 are fixed to the partition 42 to prevent gas from leaking into the housing case 41 through the through hole 42a. 46 and the fastening bolts 47 are fixed. At this time, the electric wire 61 passing through the through hole 42a passes between the first sealing plate 42 and the second sealing plate 44.

In addition, a wireless antenna (not shown) for transmitting data is installed in the housing case 41 or its adjacent position.

The meter structure as described above enables the user or the meter to be visually inspected through the viewing window 40, and transmits a detection signal that detects the rotation speed of the counter 50 from the sensor 60 to a central meter located remotely. This enables remote meter reading.

In addition, the see-through window 40 for protecting the counter 50 and the housing case 41 for accommodating the data conversion and transmission unit for transmitting the detection data are integrally formed to facilitate assembly.

The present invention as described above is not limited to the above embodiments without departing from the spirit and scope of the present application can be carried out with a number of modifications.

The meter structure of the present invention as described above is easy to assemble by forming a see-through window 40 for protecting the counter 50 and a housing case 41 for receiving the data conversion and transmission unit for transmitting the detection data integrally.

In addition, by sealing the through-hole 42a through which the wire 61 of the sensor 60 passes, the corrosion of circuit elements due to gas leakage is prevented, thereby extending the life.

Claims (3)

An inlet through which gas is introduced, a counter for measuring the amount of gas introduced therein, an outlet through which the gas is discharged through the counter, a data transmission unit for transmitting a metering signal measured from the counter to a remote central reading unit, and A meter structure comprising a see-through window for protecting a counter, The see-through window (40) is a meter structure, characterized in that the receiving case 41 is formed integrally with an accommodation space (41a) for receiving the data transmission portion at its edge. The method of claim 1, further comprising a sensor (60) for detecting the rotation speed of the counter (50), The data transmission unit includes a data conversion unit for converting the detection signal of the sensor 60 into data for communication, a transmitter for transmitting the converted data, and a storage battery 72 for applying power. . According to claim 2, The through-hole 42a through which the wire 61 of the sensor 60 passes through the partition 42 between the housing case 41 and the viewing window 40, the through-hole 42a is a metered structure, characterized in that it is sealed to prevent leakage of gas.