JPH08327425A - Intelligent gas meter - Google Patents

Abstract

PURPOSE: To obtain an intelligent gas meter which prevents an insect and water from creeping into an equipment box by a method wherein a bush which comprises a lead-wire insertion and passage part and a fine ventilation hole is installed at a through hole which has been made in the sidewall of the equipment box. CONSTITUTION: An equipment box 40 is composed of a base 41 and of a cover 42. A pressure sensor 52 which has been insatlled at the lower end part of a mounting plate 50 at the base 41 senses a pressure inside a secondary-side flow passage 33. In addition, an acceleration seismographic device and a battery are mounted on a printed-circuit board 69 which is fixed to the base 41, and a connecting terminal 73 which is installed at the lower end part connects an external alarm or the like electrically. On the other hand, a front chamber 75 is formed at the corner part of the cover 42 by a partition wall 74, and the front chamber 75 communicates with the inside of the box 40 by means of a through hole 76. A bush 79 is mounted on, and attached to, a ring-shaped groove 78 which has been formed on the thick part of the wall 74, and a lead-wire insertion and passage part 81 is formed in its central thick part 79a so as to insert and pass a lead wire 80. In addition, many fine ventilation holes 83 for air introduction are made in a thin part 79b. Thereby, it is possible to prevent an insect and water from creeping, and the front chamber 75 and the inside of the box 40 can be ventilated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention
The present invention relates to a microcomputer gas meter equipped with a shutoff valve that shuts off gas flow when an earthquake occurs, gas pressure drops, or in other emergency situations.

[0002]

2. Description of the Related Art A gas meter body has a built-in shutoff valve, a seismic sensor for detecting an earthquake, a pressure sensor for detecting a gas pressure drop, and a control circuit. 2. Description of the Related Art There is known a microcomputer gas meter that operates a shutoff valve to shut off gas flow in an emergency.

The microcomputer gas meter is provided with a device storage chamber in its main body, and a vibration sensor, a printed circuit board, a pressure sensor, and a battery (not shown) are stored in the device storage chamber. Further, a cutoff valve is provided at the gas communication port so that the gas communication port is blocked in an emergency.

A connection terminal is provided on the printed circuit board, and a lead wire is connected to the connection terminal.
The lead wire is led out from a through hole provided in the side wall of the equipment storage chamber and electrically connected to an external sensor such as an external gas leak alarm or a notification device. Then, when a gas leak is detected, an alarm is issued from an alarm device, and a shutoff valve shuts off the gas communication port. Further, when the microcomputer gas meter detects an abnormality, the notification device notifies the security monitoring center via a telephone line.

[0005]

By the way, in the microcomputer gas meter constructed as described above, a through hole for inserting a lead wire is provided in the side wall of the equipment housing chamber. Therefore, insects and water that live near the place where the microcomputer gas meter is installed enter the inside of the equipment storage room through the through holes, and the insects and water adhere to the printed circuit board and electronic parts, causing electrical contact failure and various safety measures. It may adversely affect the equipment and cause malfunction.

It is possible to seal the through hole with a rubber bush to prevent the invasion of insects, but the pressure sensor in the equipment storage chamber needs to be installed in an atmosphere of atmospheric pressure and cannot be sealed. Insects are forced through the holes.

The present invention has been made in view of the above circumstances, and its purpose is to keep the inside of a device box containing a safety device at atmospheric pressure, and to invade insects and water into the device box. It is to provide a microcomputer gas meter that can prevent the above.

[0008]

In order to achieve the above-mentioned object, the present invention provides a gas meter main body, an upper case having a gas inlet and a gas outlet, and a lower case constituting a measuring chamber. And a partition wall for partitioning a primary side flow passage communicating with the gas inlet and a secondary side flow passage communicating with the metering chamber in the upper case, and the primary side is provided on the partition wall. In a microcomputer gas meter provided with a communication port for communicating the flow passage and the secondary side flow passage with a shut-off valve for shutting off the communication port in an emergency, the gas meter body is provided with an equipment box containing a safety device. A through hole for inserting a lead wire for electrically connecting the safety device and an external device is provided on a side wall of the equipment box, and a lead wire insertion for inserting the lead wire in the through hole. Characterized in that a bushing having parts and fine vent for air introduction.

According to a second aspect of the present invention, the safety device is a shutoff valve, a pressure sensor, a printed circuit board, and a seismic sensor. According to a third aspect of the present invention, the gas meter main body is provided with an equipment box containing a safety device, and a front wall is provided inside the equipment box by a partition wall separated from a side wall of the equipment box, and the side wall and the partition wall are provided with the security box. A bush having a through hole for inserting a lead wire for electrically connecting a device and an external device, a lead wire insertion part for inserting the lead wire in the through hole of the partition wall, and a fine ventilation hole for introducing the atmosphere is provided. It is characterized by being provided.

According to a fourth aspect of the present invention, the bush is made of a rubber material, and a notch portion is formed so as to communicate with a lead wire insertion portion from a peripheral portion of the bush, and the lead wire can be inserted through the notch portion. Characterize.

[0011]

[Function] The bush that closes the through hole is attached to the through hole that inserts the lead wire that electrically connects the safety device and the external device, and the lead wire insertion portion that inserts the lead wire into the bush and the atmosphere introduction Since it has the fine ventilation holes, the fine ventilation holes block the invasion of insects and water and at the same time provide the breathability.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. 1 and 2 show the entire configuration of a microcomputer gas meter, FIG. 1 is a side view in which a part is sectioned, and FIG. 2 is a front view with a cover removed. Gas meter body 1
The upper case 31 is formed by die casting, for example, and a partition wall 34 that divides the primary side flow passage 32 and the secondary side flow passage 33 is integrally provided inside.

The primary side flow passage 32 has a forward passage 36 that is bent toward the front of the gas meter body 1. Further, the forward passage 36 penetrates to an opening 37 provided in the front wall of the upper case 31. In addition, front passage 3
6 has a downward passage 38 which is bent downward at a right angle from the end portion of the partition wall 34 along the vertical wall 34a of the partition wall 34. The end portion of the downward passage 38 is closed by the lateral wall 34b of the partition wall 34. ing.

As described above, the primary side flow passage 32 is guided from the gas inflow port 4 to the front part of the gas meter body 1 by bypassing the gas inflow port 4, and the circulation port 3 provided in the opening 37 and the partition wall 34.
It communicates with 9.

An equipment box 40 is provided at the front of the gas meter body 1. This equipment box 40
A plate-shaped base 4 similar to the front surface of the gas meter body 1
1 and a cover 42 made of a synthetic resin material that fits into the base 41 to form a space 43 inside.

A plurality of screw holes (not shown) are provided in a portion of the base 41 facing the upper case 31.
The base 41 is fixed to the upper case 31 by screwing the mounting screw 46 into the screw hole from the base 41 side.

Therefore, the opening 37 of the upper case 31 is formed.
Is closed by a base 41 of the equipment box 40, and the base 41 also serves as a part of a member forming the primary side flow passage 32.

Further, the base 41 is provided with a through hole 48 concentrically opposed to the communication port 39 of the upper case 31, and the through hole 48 is attached to the base 41 by a plurality of attaching screws 49. It is closed by the attached mounting plate 50. The mounting plate 50 has a vertically long rectangular shape, and a shutoff valve 51, which will be described later, is provided at an upper end portion thereof, and a pressure sensor 52 is provided at a lower end portion thereof.

The shutoff valve 51 is composed of a self-holding solenoid 53. Self-holding solenoid 5
3 is the mounting plate 50 and the coil portion 54 is the mounting screw 5
5 and the plunger 56 is fixed to the through hole 48.
To the primary side flow passage 32. A valve body 57 is provided at the tip of the plunger 56 so as to be able to come into contact with and separate from the peripheral edge of the communication port 39, and a seal ring 58 is provided on the front surface of the valve body 57.

Plunger 5 of self-holding solenoid 53
6, a spring 59 is provided to urge the valve body 57 in the valve closing direction. However, when the coil portion 54 is not energized, the plunger 56 overcomes the spring 59 to attract the magnet (not shown), The body 57 is kept open.

When the coil portion 54 is momentarily energized so as to generate a magnetic field opposite to that of the magnet, the restoring force of the spring 59 presses the valve body 57 against the peripheral edge of the communication port 39, and the communication port 39. It is designed to shut off.

Further, when returning to the valve open state, when the coil portion 54 is energized with the opposite polarity to the energization when shutting off, the magnetic field by the coil portion 54 is generated in the same direction as the magnetic field of the magnet, and the plunger 56 is turned on. The valve body 57 is pulled back and separated from the peripheral portion of the communication port 39.

Further, as shown in FIG. 3, the pressure sensor 52 is mounted by screwing the flange portion 60 into the mounting plate 50 with a mounting screw 61, and the gas pressure introducing hole 52a is provided in the mounting plate 50. Through hole 62
The through hole 62 faces the gas introduction passage 63 described later.
Through the secondary side flow passage 33 in the upper case 31.

That is, the partition wall 34 of the upper case 31
A gas introduction hole 64 is formed in the lateral wall 34b of the
This one end opens to the secondary side flow passage 33, and the other end opens to the lateral wall 34.
It has an opening at the front end face of b. Further, the base 41 is provided with a communication hole 65 concentrically opposed to the gas introduction hole 64 provided in the lateral wall 34b. Furthermore, the base 41
On the contact surface side of the mounting plate 50 that contacts with the long groove 6 having one end communicating with the communication hole 65 and the other end communicating with the through hole 62.
6 is provided.

Then, the gas in the secondary side flow passage 33 flows in the order of the gas introduction hole 64, the communication hole 65, and the long groove 66 to pass through the through hole 6.
The gas pressure introducing hole 52a of the pressure sensor 52 detects the pressure in the secondary side flow passage 33.

The pressure sensor 52 and the mounting plate 50,
Connection portion between the gas introduction hole 64 and the communication hole 65, the communication hole 6
The connecting portion between 5 and the long groove 66 and the peripheral portion of the long groove 66 are hermetically sealed by a packing (not shown) to prevent gas leakage.

Further, although the long groove 66 is provided on the surface of the mounting plate 50 which comes into contact with the base 41, the mounting plate 5 of the base 41 is provided.
The long groove 66 may be provided on the surface in contact with 0. further,
When the mounting position of the pressure sensor 52 is located further below the position of the secondary side flow passage 33 of the upper case 31, it can be dealt with by extending the length of the long groove 66, and the mounting position of the pressure sensor 52 is restricted. Never receive.

Further, a printed board 69 having a control circuit printed thereon is fixed to the base 41 by a mounting screw 70. The printed circuit board 69 has a shock absorber 7
1 and a battery 72 are mounted. Further, a connection terminal 73 is provided at the lower end of the printed circuit board 69, and the connection terminal 73 is electrically connected to an external alarm device (not shown) or the like.

That is, as shown in FIG. 4, a front chamber 75 is provided at the corner of the cover 42 by a partition wall 74. The partition wall 74 is provided with a first through hole 76 that communicates the inside of the device box 40 with the front chamber 75, and the cover 42 is provided with a second through hole 77 facing the first through hole 76. Has been drilled.

Further, the plate 75 is located inside the front chamber 75 and is located between the first through hole 76 and the second through hole 77.
a is provided. Further, the partition wall 74 located at the peripheral portion of the first through hole 76 is formed thick, and an annular groove 78 is provided in the thick portion over the inner peripheral surface of the first through hole 76. There is. Then, the bush 7 is inserted in the annular groove 78.
9 is attached.

As shown in FIG. 5, the bush 79 is a rectangular plate-like member formed of rubber or a synthetic resin material. Is formed in the thin portion 79b. The lead wire 80 is attached to the thick portion 79 at the center of the bush 79.
Is provided with a lead wire insertion portion 81 for inserting the bush 7.
The elasticity of 9 itself grips the middle of the lead wire 80 so that no gap is created. Further, a cutout portion 82 is formed from the peripheral portion of the bush 79 to the lead wire insertion portion 81. The cutout portion 82 is formed.
By opening in the direction of the arrow, the middle of the lead wire 80 can be inserted. Further, the middle part of the lead wire 80 is bent in the front chamber 75 so as to bypass the plate 75a.

Further, the thin portion 79b of the bush 79 is provided with a large number of fine ventilation holes 83 for introducing the atmosphere.
The large number of fine ventilation holes 83 has a diameter of about 0.3 mm, and although insects and water cannot pass therethrough, the front chamber 75 and the inside of the equipment box 40 can be ventilated. One end of the lead wire 80 is connected to the connection terminal 7 of the printed circuit board 69.
3, the other end is led out to the outside through the second through hole 77, and is connected to an alarm device (not shown) or the like.

Although the bush 79 is formed in a rectangular plate shape in the above-described embodiment, it may be formed in a disk shape as shown in FIG. 6, and the shape is not limited. Further, the annular groove 78 is provided on the partition wall 74, but the annular groove is provided on the outer peripheral surface of the bush 79, and the first wall of the partition wall 74 is provided.
You may make it fit in the rim of the through-hole 76 of this.

Next, according to the microcomputer gas meter constructed as described above, since the inside of the equipment box 40 is ventilated through the numerous fine ventilation holes 83 provided in the bush 79, it should be kept at atmospheric pressure. Therefore, the pressure sensor 52 is not adversely affected in operation. Moreover, since the fine ventilation holes 83 have a diameter that does not allow insects to pass through, the insects do not enter the inside of the device box 40, and the insects become dead bodies and adhere to the printed circuit board 69 and electronic parts, resulting in poor electrical contact. It does not wake up or adversely affect various safety equipment.

In normal use, the gas inlet 4
The gas flowing in from the secondary flow passage 33 flows in the order of the front passage 36 of the primary flow passage 32 and is guided to the front side of the gas meter main body 1, and further through the downward passage 38 from the communication port 39 to the secondary flow passage 33.
Be led to. The gas introduced into the secondary side flow passage 33 is distributed to the metering chamber (not shown) by the distribution valve mechanism 11 and the crank mechanism 12, and then is guided from the gas outlet 5 to the gas demand side.

At this time, the gas in the secondary side flow passage 33 is
The gas is introduced into the through hole 62 through the gas introduction passage 63, and the through hole 6
Since the gas pressure introduction hole 52a of the pressure sensor 52 faces the pressure sensor 52, the gas pressure in the secondary side flow passage 33 is controlled by the pressure sensor 52.
Is always sensing. When the pressure sensor 52 senses an abnormal pressure fluctuation, an operation signal is input to the shutoff valve 51. When an earthquake occurs and the seismoscope 71 senses an abnormal vibration, the shutoff valve 51 operates. Is entered.

When the coil portion 54 of the self-holding solenoid 53 constituting the shutoff valve 51 is momentarily energized to give a reverse magnetic field, the restoring force of the spring 59 causes the valve body 57 to be pressed against the peripheral portion of the communication port 39. To shut off the communication port 39. That is, in an emergency, the flow of gas can be cut off inside the gas meter body 1 to stop the supply to the gas demand side.

[0038]

As described above, according to the present invention, the gas meter body is provided with the equipment box containing the safety equipment, and the security equipment and the external equipment are electrically connected to the side wall of the equipment box. Is provided with a through hole through which a lead wire is inserted, and a bush having a lead wire insertion portion through which the lead wire is inserted and a fine ventilation hole for introducing air into the through hole is provided.

Therefore, the fine ventilation holes can prevent insects and water from entering the equipment box and can provide the ventilation inside the equipment box. Therefore, there is an effect that insects and water do not adhere to the printed circuit board and electronic parts to cause poor electrical contact and adversely affect various security devices.

[Brief description of drawings]

FIG. 1 is a side view in which a part of a gas meter showing an embodiment of the present invention is shown in section.

FIG. 2 is a front view showing a state in which a cover provided on a device box of the gas meter of the embodiment is removed.

FIG. 3 is a cross-sectional view of a gas introduction passage of the same embodiment.

FIG. 4 is an enlarged cross-sectional view of part A in FIG.

FIG. 5 is a perspective view of the bush of the embodiment.

FIG. 6 is a perspective view showing a modified example of the bush.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Gas meter main body, 4 ... Gas inflow port, 5 ... Gas outflow port, 31 ... Upper case, 32 ... Primary side flow passage, 33 ... Secondary side flow passage, 34 ... Partition wall, 39 ... Communication port, 40 ... Equipment Box, 51 ... Shut-off valve, 52 ... Pressure sensor, 76 ...
First through hole, 79 ... Bush, 80 ... Lead wire, 81
… Lead wire insertion part, 83… Fine ventilation holes.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Kyonobu Sato 4-26-17-305 Tokumaru, Itabashi-ku, Tokyo

Claims (4)

[Claims] 1. A primary side flow passage, which comprises a gas meter main body including an upper case having a gas inlet and a gas outlet and a lower case constituting a measuring chamber, and the inside of the upper case communicating with the gas inlet. And a partition wall that separates the secondary side flow passage that communicates with the measuring chamber, and a communication port that connects the primary side flow passage and the secondary side flow passage to the partition wall In a microcomputer gas meter provided with a shutoff valve for shutting off a mouth, the gas meter main body is provided with a device box containing a safety device, and a lead wire for electrically connecting the safety device and an external device to a sidewall of the device box. And a bush having a lead wire insertion portion for inserting the lead wire and a fine ventilation hole for introducing the atmosphere into the through hole. Microcomputer gas meter that. 2. The safety device includes a shutoff valve, a pressure sensor,
The microcomputer gas meter according to claim 1, wherein the microcomputer gas meter is a printed circuit board and a vibration sensor. 3. The gas meter main body is provided with an equipment box having a built-in safety device, and a front chamber is provided inside the equipment box by a partition wall separated from a side wall of the equipment box, and the security is provided on the side wall and the partition wall. A bush having a through hole for inserting a lead wire for electrically connecting a device and an external device, a lead wire insertion part for inserting the lead wire in the through hole of the partition wall, and a fine ventilation hole for introducing the atmosphere is provided. The microcomputer gas meter according to claim 1, wherein the microcomputer gas meter is provided. 4. The bush is made of a rubber material, and a cut portion is formed so as to communicate with a lead wire insertion portion from a peripheral portion of the bush, and the lead wire can be inserted through the cut portion. The microcomputer gas meter according to claim 1.