KR20130001862U - Digital water meter with an electric generator - Google Patents

Abstract

The present invention is to measure the flow rate by rotating the impeller by the fluid passing through the housing, but also relates to a digital meter having a power generation and freeze protection function, and the impeller rotating by the flow of fluid in the lower space into the housing and The rotor is installed in the upper space in an opposing position, but the magnetic body is installed in the impeller and the rotor with the same or opposite magnetic poles or the magnetic body and the metal body are installed opposite to the rotor by the magnetic force of the magnetic body by the impeller rotation. Rotating, and by using the rotor's rotational force to generate electricity in the generator and storage in the capacitor, as well as using electricity stored in the generator and storage in the generator by directly heating the fluid by the metal heating plate inside the housing to prevent the meter freeze It is characterized by the effective execution of this.

Description

Digital meter with power generation and freeze protection {DIGITAL WATER METER WITH AN ELECTRIC GENERATOR}

The present invention relates to a digital meter for measuring the flow rate by rotating the impeller by the fluid passing through the housing, and more specifically, the rotor is installed on the upper part of the impeller inside the housing, the magnetic material to the impeller and the rotor It is installed with the same or opposite magnetic poles or the magnetic body and the metal body facing each other to rotate the rotor by the magnetic force of the magnetic body by the rotation of the impeller, by using the rotational force of the rotor to generate electricity in the generator and to accumulate in the capacitor Of course, the present invention relates to a digital meter having a power generation and freeze protection function that prevents freezing in winter by heating a metal heating plate inside the housing using the electricity.

In general, the meter is for metering the flow rate of the fluid through the housing.

Such a meter measures the flow rate by installing an impeller inside the housing to sense the number of revolutions of the impeller rotating by the fluid passing through the housing.

As such, there are analog and digital methods for detecting the number of revolutions of the impeller. Recently, digital meters using digital methods with excellent weighing accuracy have been used.

Since such a conventional meter has only a metering function of the simple fluid, when the internal fluid is cooled in winter, there is a problem in that the metering operation is limited by the flow of the fluid and the breakage due to freezing is generated.

In order to prevent this, many meters have been known to provide freezing protection to a conventional meter.

In particular, a technique for preventing freezing of the meter by using electricity generated by the generator by the fluid passing through the meter has been known to the Utility Model Registration No. 20-312057, 20-413622 and the like.

The Utility Model No. 20-312057 is to generate electricity in the generator by the flow energy of the fluid passing through the meter, and to accumulate in the capacitor to heat the meter, there is an inconvenience to install a number of components outside the meter, Since the efficiency is low and the entire meter is heated, there is a problem that the cooling efficiency of the internal fluid is lowered.

In addition, the Utility Model Registration No. 20-413622 is connected to the generator axis of the impeller inside the meter to generate electricity, and to accumulate in the capacitor to heat the meter body by condensing the inside of the meter has the advantage of easy installation work However, since power is generated by the rotating shaft of the impeller for metering, an error occurs in the metering operation of the fluid, so that the main function of the meter cannot be performed well, and the power generation efficiency is low and the whole of the meter housing is heated. There was a problem of this deterioration.

In addition, the above-described technique is suitable for the analog method, and installs an impeller rotating by a fluid inside the housing as in Utility Model No. 2009-195, and configures a metering unit in a space for airtight partitioning to the upper position of the impeller. However, there is a problem in that it is difficult to install and install in the digital method of measuring the flow rate by electrically counting the number of revolutions of the impeller by installing a magnet and a magnetic sensor for detecting the magnetic field of the magnet in the impeller and the metering unit.

The present invention is designed to solve the above problems of the prior art, the rotor is installed on the upper side of the impeller inside the housing, the magnetic body on the impeller and the rotor with the same or opposite magnetic poles or the magnetic material and metal The object is to install a sieve to rotate the rotor by the magnetic force of the magnetic body by the rotation of the impeller, by the rotational force of the rotor to generate electricity in the generator and to accumulate in the capacitor to use.

The present invention aims to effectively prevent the meter freeze by directly heating the fluid by a metal heating plate inside the housing using electricity generated in the generator and the electricity stored in the capacitor.

The present invention rotates the impeller of the lower space by the flow rate passing through the inlet and outlet of the housing, and detects the number of revolutions of the impeller by a metering unit installed in the upper space is hermetically partitioned on the lower space Metering fluid as well as generating electricity in the generator and accumulating in the capacitor by the fluid passing through the housing and used for freeze protection; In the center of the upper space of the housing rotatably installed the rotor in the same rotation axis position as the impeller, at least one or more circumferentially installed magnetic body on the lower portion of the rotor and the impeller at the same or opposite poles By using the magnetic force of the magnetic body by the rotation of the impeller is characterized in that the generator to generate electricity in the generator and to use the power storage in the capacitor.

At least one of the magnetic body and the metal body in the lower part of the rotor and the upper part of the impeller are installed at an equiangular position on the circumference so as to generate electricity from the generator by the rotating force of rotating the rotor by the magnetic force of the magnetic body by the rotation of the impeller. It is characterized by the fact.

The magnetic body or metal body installed in the upper part of the impeller in the lower space of the present invention is characterized in that the coating formed on the outside with a resin coating layer.

The lower space of the present invention is characterized in that the metal heating plate is installed and configured to directly heat the fluid of the lower space by the electricity generated in the generator and the electricity stored in the capacitor.

The present invention is configured to install the impeller rotating in the lower space in the lower space in the housing and the rotor in the upper space in the opposite position, the magnetic body is installed opposite to the impeller and the rotor in the same or opposite magnetic poles or By installing a magnetic body and a metal body facing each other to rotate the rotor by the magnetic force of the magnetic body by the rotation of the impeller, by using the rotational force of the rotor to generate electricity in the generator and to accumulate in the capacitor, as well as to generate electricity in the generator and the capacitor By directly heating the fluid by the metal heating plate inside the housing by using the supplied electricity has the effect of effectively preventing the meter freeze.

1 is a cross-sectional view showing a meter of the present invention.
2 is an enlarged view illustrating main parts of FIG. 1;
3 is a plan view of the present invention impeller.
4 is a bottom view of the present invention rotor.
Figure 5 is an enlarged view of the main portion showing another embodiment of the present invention.

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

Digital meter having a power generation and freeze protection function of the present invention as shown in Figures 1 to 5 of the lower space 13 by the flow rate passing through the inlet port 11 and the outlet port 12 of the housing 10 The impeller 20 is rotated, and the flow rate is sensed by sensing the rotational speed of the impeller by the metering unit 30 installed in the upper space 14 which is hermetically partitioned above the lower space.

In particular, the present invention is installed in the center of the upper space 14 of the housing so as to face the rotor 40 rotatably at the same rotation axis position as the impeller 20,

At least one or more magnetic bodies 51 and 52 are installed in the lower part of the rotor 40 and the upper part of the impeller 20 in the same or opposite magnetic poles at opposite angles in a circumferential position by the magnetic force of the magnetic body due to the rotation of the impeller. It is configured to generate electricity in the generator 60 and to accumulate it in the capacitor 70 with the rotational force to rotate the rotor.

In this case, when the magnetic bodies 51 and 52 face the same magnetic poles with each other, the magnetic force of the magnetic bodies rotates the rotor by a force pushing against each other, and the magnetic bodies 51 and 52 cause the magnetic poles opposite to each other. In the case of opposing installation, the magnetic force of the magnetic body rotates the rotor by the force of pulling each other.

And the lower portion of the rotor 40 and the upper part of the impeller 20, as shown in FIG. 5, at least one magnetic body 53 and the metal body 54 is installed at opposite angles in a circumferential position to the rotation of the impeller Of course, it can also be configured to generate electricity in the generator 60 by the rotational force for rotating the rotor by the magnetic force of the magnetic material.

In addition, the magnetic body or metal body installed in the upper impeller in the lower space portion 13 of the housing 10 is formed by coating a resin coating layer on the outside to prevent corrosion or other deterioration damage due to exposure to the fluid. This is preferred.

In addition, the lower space 13 is configured to install a metal heating plate 35 to heat the fluid of the lower space by the electricity generated from the generator 60.

In addition, the capacitor 70 is composed of a built-in overload protection system.

As the reference numeral 15, a fixed cap coupled to the upper portion of the housing and separately forming an auxiliary cap 16 for opening and closing the upper and lower portions, 18 represents an airtight shield plate for hermetically partitioning the upper and lower spaces inside the housing.

Next will be a look at the operation and action of the subject innovation configured as described above.

First, the fluid flowing into the lower space 13 through the inlet 11 of the housing is discharged to the outlet 12 after rotating the internal impeller 20.

At this time, the rotation of the impeller 20 is detected by a magnet and a magnetic sensor to measure the flow rate in the metering unit 30 of the upper space 14.

In addition, the rotor 40 of the upper space portion 14 installed in the opposite position to the impeller 20 of the lower space portion 13 is rotated by the rotation of the impeller.

This, the magnetic body 51, 52 on the lower portion of the rotor 40 and the impeller 20, the same or opposite magnetic poles are installed opposite, or the magnetic body 53 and the metal body 54 is installed oppositely of the impeller The rotor is rotated by the magnetic force of the magnetic body by the rotation.

That is, when the magnetic bodies 51 and 52 face the same magnetic poles, the rotors are rotated by a force pushing against each other by the magnetic force of the magnetic bodies, and the magnetic bodies 51 and 52 are opposite magnetic poles. In the case of installing oppositely or opposing to the magnetic body 53 and the metal body 54 is to rotate the rotor by the force to pull each other by the magnetic force of the magnetic body.

As such, the rotor 40 installed in the upper space 14 is rotated by the rotation of the impeller 20, so that electricity is generated from the generator 60 by the rotational force of the rotor to the battery of the capacitor 70. It is possible to store and use.

In this case, the electricity generated by the generator 60 is used as a power source of the digital meter or directly heats the fluid by the metal heating plate 35 inside the housing during winter, so the fluid inside the housing freezes to limit the flow of fluid or rotation of the impeller. Prevents accurate metering of fluids as well as excellent freeze protection.

On the other hand, in the case of the magnetic material or metal plate used in the present invention, in particular the magnetic material or metal plate exposed to the fluid in the lower space portion 13 of the housing to form a resin coating layer to the outside to prevent damage such as corrosion or deterioration by the fluid Therefore, it will be able to maintain long-term use durability.

10: housing 11: inlet
12: outlet 13: lower space part
14: upper space portion 20: impeller
30: meter 40: rotor
51, 52, 53: magnetic body 54: metal body
35: metal hot plate 60: generator
70: capacitor

Claims (4)

The impeller 20 of the lower space 13 is rotated by the flow rate passing through the inlet 11 and the outlet 12 of the housing 10, and the upper space 14 is hermetically partitioned on the lower space. By measuring the number of revolutions of the impeller by the metering unit 30 is installed in the metering fluid as well as the power generated in the generator by the fluid passing through the housing 10 and in the capacitor to use for the prevention of freezing and Digital meter with freeze protection function,
In the center of the upper space portion 14 of the housing and rotatably installed to the rotor 40 in the same rotation axis position as the impeller 20,
At least one or more magnetic bodies 51 and 52 are installed in the lower part of the rotor 40 and the upper part of the impeller 20 in the same or opposite magnetic poles at opposite angles in a circumferential position by the magnetic force of the magnetic body due to the rotation of the impeller. Digital meter having a power generation and freeze protection function, characterized in that it is made to generate electricity in the generator (60) and power storage in the capacitor (70) with the rotational force to rotate the rotor.
The impeller 20 of the lower space 13 is rotated by the flow rate passing through the inlet 11 and the outlet 12 of the housing 10, and the upper space 14 is hermetically partitioned on the lower space. By measuring the number of revolutions of the impeller by the metering unit 30 is installed in the metering fluid as well as the power generated in the generator by the fluid passing through the housing 10 and in the capacitor to use for the prevention of freezing and Digital meter with freeze protection function,
In the center of the upper space portion 14 of the housing to install the rotor 40 rotatably facing the same axis of rotation as the impeller 20,
At least one of the magnetic body 53 and the metal body 54 is installed in the lower portion of the rotor 40 and the upper portion of the impeller 20 at an equiangular position on the circumference thereof, thereby rotating the rotor by the magnetic force of the magnetic body by the rotation of the impeller. Digital meter having a power generation and freeze protection function, characterized in that it is made to generate electricity in the generator 60 with the rotational force to rotate the power storage in the capacitor (70).
The method according to claim 1 or 2,
In the lower space 13 of the housing 10, a magnetic body or a metal body installed on the upper part of the impeller is formed by coating a resin coating layer on the outside in order to prevent corrosion or other damage from being exposed to the fluid. Digital meter with power generation and freeze protection.
The method according to claim 1 or 2,
The lower space portion 13 is installed in the metal heating plate 35 is configured to generate electricity in the generator 60 and to directly heat the fluid of the lower space by the electricity stored in the capacitor 70, characterized in that the power generation And digital meter with freeze protection.

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