KR20030077329A - Electronic measuring instrument - Google Patents

Abstract

PURPOSE: An electronic meter is provided to prevent the electronic meter from being broken in the cold winter season and to precisely measure amount of used gas or water by installing an electronic sensor in the electronic meter. CONSTITUTION: An electronic meter includes a body section(10), a piston(20), a sliding casing section(30), a spring member(40) and an electronic sensor(50). A fluid path(11) is formed in the body section(10). The body section(10) is formed at both sides thereof with an inlet port(12) and an outlet port(13). A narrow path(14) is formed adjacent to the inlet port(12) of the body section(10). The piston(20) is coupled to a supporting bar(21). The piston(20) is installed at the narrow path(14) so as to open/close the narrow path(14). The sliding casing section(30) is installed in the body section(10) and coupled to the piston(20) so as to allow the piston(20) to be slidably moved in the sliding casing section(30).

Description

Electronic meter {ELECTRONIC MEASURING INSTRUMENT}

The present invention relates to an electronic meter, and more particularly, by using an electronic sensor such as a variable resistor or a pressure sensor, the amount of household water or gas can be measured, so that accurate amount of use can be measured and the meter is prevented from freezing in winter. It is invented so that it can be done.

In general, water and gas bills used at home are to be paid as a pay-as-you-go fee, and the amount used is to be read by reading meters installed on supply lines (water pipes and gas pipes).

In addition, the conventional water and gas metering is performed by a visitor's visit, and reports and records the water and gas meter installed in the customer, and then collects it from each jurisdiction and issues a bill by mail.

In addition, the conventional water and gas meter installed in each consumer is provided with an instrument panel interlocked with the rotating plate rotated by the flow of the fluid, and the amount of fluid is introduced into the body of the meter and discharged to indicate the amount of usage on the instrument panel. .

However, the conventional meter has a gear system that is connected to the rotating plate and the instrument panel to be interlocked by the gear, so that it breaks when frozen in winter, or the precision of the gear is degraded, resulting in a closed end that cannot accurately measure the amount of use.

In addition, when a small amount of water or gas is used, it is impossible to measure and is installed outside so that the meter can be easily checked.

In addition, the conventional meter is confirmed by the visitor's visit and issuing a bill, it requires a lot of manpower from the meter to the bill issuing process, the error occurs frequently due to the error of the meter, and it is frequently required to re-read There was a problem of delaying the collection and deteriorating the reliability of the meter reading.

An object of the present invention is to use an electronic sensor, such as a variable resistance or pressure sensor, to measure the amount of domestic water or gas used, so that accurate amount of use can be measured, and to provide an electronic meter that can prevent the meter from being damaged by freezing in winter. There is.

Another object of the present invention is to transmit the electrical signal detected by the electronic sensor to the central server using wired or wireless leased line, calculate each amount of usage in the central server to notify each customer over the Internet, or output and send it by mail. In addition, the present invention provides an electronic meter that can minimize the manpower required for gas meter reading and increase the reliability of the meter.

1 is a cross-sectional view showing a configuration using a variable resistor as the electronic sensor of the present invention.

Figure 2 is a cross-sectional view showing the configuration using a pressure sensor as an electronic sensor of the present invention.

Figure 3 is a block diagram showing an embodiment of the present invention.

* Description of the major symbols in the drawings *

10-Body 11-Pipeline

12-Inlet 13-Outlet

14-Pressurized Furnace 20-Piston

21-Support bar 30-Sliding casing

31-Spring support plate 40-Spring member

50-Electronic sensor 51-Data conversion device

52-Central Server 53-Internet

54-Printout 60-Variable resistor

61-Movable terminal 62-Fixed terminal

63-Moving groove 70-Pressure sensor

The object of the present invention is to form a conduit 11 through which the fluid flows inside the hollow, the inlet 12 and the outlet 13 which the fluid is introduced and discharged, respectively provided on both sides, the inlet ( 12, the body portion 10 is formed with a predetermined length of the pressurizing passage 14 in which the width of the conduit 11 is narrowed;

A support bar 21 having a predetermined length is coupled and positioned in a pressurization passage 14 formed at an inlet side of the body portion 10 so as to slide by a flow pressure of a fluid. A piston 20 for opening and closing;

Sliding casing is provided in the body portion 10, the piston 20 is coupled to the sliding movement in the inner side, and the spring support plate 31 is inserted into the support bar 21 of the piston 20 is inserted therein Section 30;

One end is fixed to the spring support plate 31 of the sliding casing 30, the other side is a spring member 40 for supporting the piston (20);

Located at the end of the support bar 21 of the piston 20, by detecting the sliding movement of the piston 20, the electronic sensor 50 that can measure the amount of fluid flowing into the body portion 10 Configured and achieved.

That is, when a fluid such as water or gas flows through the inlet 12 of the body part 10, the piston 20 slides by the pressure of the inflowing fluid to open the pressurizing passage 14, thereby introducing the fluid. It is discharged through the outlet (13).

Then, the electronic sensor 50 can measure the amount of fluid discharged to the outlet 13 through the inlet 12 by detecting the sliding movement of the piston (20).

In addition, when the inflow of the fluid is stopped, the piston 20 is returned to its original position by the elastic restoring force of the spring member 40 compressed between the piston 20 and the spring support plate 31 by the sliding movement of the piston 20. To block the pressurizing furnace 14.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

Figure 1 is a cross-sectional view showing a configuration using a variable resistor as an electronic sensor of the present invention, the movable terminal of the variable resistor is located at the end of the support bar of the piston, the movable terminal is the resistance of the fixed terminal by sliding the piston This indicates that the resistance is varied by moving.

Figure 2 is a cross-sectional view showing a configuration using a pressure sensor as an electronic sensor of the present invention, it shows that the end of the support bar of the piston can measure the pressure applied by the sliding movement of the piston in contact with the pressure sensor.

FIG. 3 is a block diagram illustrating an embodiment of the present invention, in which data sensed by an electronic sensor is calculated in a central server and notified to the customer through the Internet or printed out.

That is, as shown in FIGS. 1 and 2, the body portion 10 is formed in a hollow shape, and a conduit 11 through which fluid such as water or gas flows is formed, and conduits 11 are formed on both sides thereof. It is provided with an inlet 12 for introducing the fluid and an outlet 13 for discharging the fluid is connected to the supply pipe for supplying water or gas to the customer.

In addition, the inlet 12 of the body portion 10 is formed with a predetermined length of the pressurizing passage 14 in which the conduit 11 is narrowed to a predetermined width to increase the flow velocity and pressure of the fluid flowing into the inlet 12. Let's do it.

In addition, the pressurization passage 14 of the body portion 10 is opened and closed by a piston 20, the piston 20 is coupled to the support bar 21 having a predetermined length and the flow pressure of the fluid flowing in It slides and moves to open and close this pressurization path 14.

On the other hand, the piston 20 is coupled to the sliding casing 30, which is installed in the body portion 10 is sliding in the sliding casing portion 30 to move the pressurizing passage 14 of the body portion 10 To open and close.

The piston 20 can be used for a long time without being corroded by a fluid such as water or gas, and is formed of a non-ferrous metal material to reduce weight, and has a predetermined space therein so as to move more easily even in the flow of minute fluid. Is formed.

In addition, a spring support plate 31 is provided inside the sliding casing 30 so that the support bar 21 of the piston 20 is fitted and coupled thereto, and one end of the support bar 21 of the piston 20 is coupled to the support bar 21. The spring member 40 fixed to the spring support plate 31 is coupled.

In addition, the end of the support bar 21 is equipped with an electronic sensor 50 for detecting the sliding movement of the piston 20 to measure the amount of fluid flowing into and out of the conduit 11 in the body portion 10. .

That is, when a fluid such as water or gas supplied to the consumer flows through the inlet 12, the flow velocity and pressure of the fluid increase while passing through the pressurizing passage 14, thereby sliding the piston 20 to move the pressurizing passage 14. ) Is discharged to the outlet 13 to supply the fluid to the receiver.

When the piston 20 is slid and moved, the electronic sensor 50 detects this and measures the amount of the fluid supplied to the consumer. When the flow of the fluid is stopped, the elastic member of the spring member 40 is stopped. The piston 20 is to be returned to the original state to block the pressurizing passage (14).

In addition, since the pressurization passage 14 narrowing the width of the conduit 11 is formed at the inlet 12 side of the body portion 10 to increase the flow rate and pressure, even when a small amount of fluid is introduced, the amount of use can be measured. It will be possible.

On the other hand, the electronic sensor 50 is mounted to the end of the support bar 21 of the piston 20, as shown in Figure 1, the movable terminal 61 formed of a resistor and the movable terminal 61 is coupled The movable groove 63 is provided to move and is composed of a fixed terminal 62 formed of a conductor, it is possible to use a variable resistor 60, the resistance is variable according to the position of the movable terminal 61.

That is, the movable terminal 61 of the variable resistor 60 is installed at the end of the support bar 21 of the piston 20 which is slid and moved by the flow of fluid and is interlocked with the movement of the piston 20 to move the movable terminal. The point where 61 is located is to measure the amount of fluid used by the difference in resistance value.

In addition, the electronic sensor 50 may use a pressure sensor 70 for detecting the pressure of the fluid applied to the piston 20, as shown in FIG.

That is, when the fluid flows in and the piston 20 slides, the end of the support bar 21 of the piston 20 pressurizes the pressure sensor 70 and senses a difference in pressure according to the pressure of the inflowing fluid. It is to measure the amount of fluid used.

Meanwhile, the electrical signal sensed by the electronic sensor 50 is transmitted to the central server 51 through which data of each customer is collected through wired or wireless dedicated lines through the data conversion device 51 as shown in FIG. In this case, the central server 51 calculates the usage fee and notifies the Internet 53 to each customer, or prints 54 to notify the mail.

That is, the electrical signal sensed by the electronic sensor 50, that is, the resistance difference due to the variable resistor 60 or the pressure difference due to the pressure sensor 70, is determined by using a constant equation in the data conversion device 51. The fee is converted to the usage amount and transmitted to the central server 51 via wired or wireless leased line to notify the customer of the fee.

Therefore, it is possible to save manpower because the meter does not have to visit each customer, and can eliminate the occurrence of the error of the meter at the source to measure the exact amount of use, thereby reliably reporting the fee to each customer.

According to the configuration of the present invention, when the fluid is introduced, the piston is slidingly moved by the pressure of the fluid, by detecting the piston moved by an electronic sensor such as a variable resistance or a pressure sensor or the like gas used in each customer It is possible to accurately measure the amount of fluid, such as water.

In addition, the fluid usage detected by the electronic sensor is transmitted to the central server through wired and wireless leased lines, and the usage fee is notified, thereby preventing the reader from the hassle of visiting the customer and reading the usage amount quickly and accurately. Notification is possible.

In addition, the meter does not need to visit and read the meter, it is possible to prevent the freezing in winter by installing a meter in the water.

Therefore, it is a very useful invention that can increase the convenience and reliability of the meter reading, and save manpower and equipment.

Claims (4)

The inside forms a conduit 11 through which the fluid can flow, and the inlet 12 and the outlet 13 are respectively provided with the fluid flowing in and out, and the inlet 12 has a conduit 11 Body portion 10 is formed in a predetermined length of the pressurizing passage 14 to narrow the width of the; A support bar 21 having a predetermined length is coupled and positioned in a pressurization passage 14 formed at an inlet side of the body portion 10 so as to slide by a flow pressure of a fluid. A piston 20 for opening and closing; Sliding casing is provided in the body portion 10, the piston 20 is coupled to the sliding movement in the inner side, and the spring support plate 31 is inserted into the support bar 21 of the piston 20 is inserted therein Section 30; One end is fixed to the spring support plate 31 of the sliding casing 30, the other side is a spring member 40 for supporting the piston (20); Located at the end of the support bar 21 of the piston 20, by detecting the sliding movement of the piston 20, the electronic sensor 50 that can measure the amount of fluid flowing into the body portion 10 Electronic meter, characterized in that configured. The method of claim 1, wherein the electronic sensor 50 is mounted to the end of the support bar 21 of the piston 20, the movable terminal 61 formed of a resistor and the movable terminal 61 is coupled to move An electronic meter, characterized in that it is provided with a moving groove (63), consisting of a fixed terminal (62) formed of a conductor, the variable resistor (60) of which resistance varies according to the position of the movable terminal (61). The electronic meter according to claim 1, wherein the electronic sensor (50) uses a pressure sensor (70) for detecting the pressure of the fluid applied to the piston (20). The electric signal sensed by the electronic sensor 50 is transmitted to the central server 51 through which data of each customer is collected through wired and wireless leased lines through the data conversion device 51. The electronic meter, characterized in that the central server (51) calculates a usage fee and notifies the Internet (53) to each customer, or prints (54) and notifies by mail.