KR102120471B1 - Blocking rotor type flow meter - Google Patents

Abstract

By applying the magnetic sensor method to the rotational speed measuring method of the blocking rotor type flow meter, the shaft does not protrude to the outside, thereby improving the explosion-proof property, as well as reducing the overall volume while rotating due to iron attached to the magnet provided at the end of the shaft. The end of one shaft provided to be connected by an external counter and a magnetic sensor to the space between the end plate and the bearing plate constituting the housing of the blocking rotor type flowmeter so as not to interfere does not protrude outside the housing. A magnet installed at its end to sense the number; An opening provided in the end plate in which the magnet is located; A cleaning plate provided with a brush for removing iron attached to the magnet while being detachable through an O-ring on the opening; And a sensor that is mounted on a portion where the magnet is located on an outer surface of the cleaning plate and detects the number of rotations of the magnet mounted on the shaft.
Accordingly, along with the effect of securing high reliability due to the excellent explosion-proof property, the production of a miniaturization furnace also has an excellent effect, and also has an effect that can be smoothly performed without disturbing the discharge flow rate.

Description

Blocking rotor type flow meter

The present invention relates to a blocking rotor type flowmeter, and more specifically, to apply a magnetic sensor method to the rotational speed measuring method of the blocking rotor type flowmeter, so that the shaft does not protrude to the outside, improves explosion-proof properties, and also reduces the overall volume. While it relates to a blocking rotor type flow meter that does not interfere with the rotation caused by iron attached to the magnet provided at the end of the shaft.

In general, a refueling machine is installed at a gas station and used to refuel oil, such as gasoline or light oil, etc. in a vehicle. It sucks oil from an oil reservoir installed in the underground, etc., and refuels it through a hose.

In accordance with the law on weighing, these oil pumps are tested as statutory meters at the national level. As for the test, the flow rate discharged from the lubricator is measured through a reference machine and compared with the value displayed on the lubricator's display device, or the method of physical sealing to the train regulator that can change the lubricating flow value in accordance with the standards prescribed by law is used. .

In this way, the bar is connected to the counter to check the amount of oil supplied from the lubricator, that is, the flow rate, and the flow meter provided in the conventional lubricator is divided into electronic and mechanical types. It protrudes to the outside and is connected to the counter.

However, due to the risk of explosion due to the shaft protruding to the outside of the housing, strict explosion-proof regulations apply, that is, electronic circuit parts are installed at a certain distance from the body of the flowmeter to prevent explosions due to sparks. Doing.

As a result, the configuration of the flowmeter as well as the volume of the entire device has a disadvantage that the configuration is also quite complicated.

In addition, a blocking rotor type flow meter is generally applied to most of the flow meters applied in the lubricator.

That is, the blocking rotor type flow meter includes a housing having a cavity having an inlet and an outlet, a plurality of shafts provided to be rotated by a plurality of gear engagements on a bearing plate provided inside the housing, and on the plurality of shafts Each of the rotor is provided, but one of the plurality of shafts is provided to protrude to the outside of the housing to be connected to an external counter.

In addition, the cavity is divided into an inlet chamber and an outlet chamber, and the rotor is also composed of a blocking rotor and a displacement rotor on both sides thereof, and has a technical configuration of discharging the inflowing flow by interaction.

Accordingly, the above-described blocking rotor type flow meter has a problem in that one shaft is protruded in order to connect with the counter to the outside of the housing, thereby maintaining the risk of explosion.

As described above, prior art related to the blocking rotor type flow meter has been published in US 3465683 (hereinafter referred to as'prior technical document 1') and US US 8752425 (hereinafter referred to as'prior technical document 2').

United States US No. 3465683 United States US #8752425

However, in the prior art documents 1 to 2, one shaft of the plurality of shafts provided with each rotor is formed to protrude to the outside of the housing, thereby maintaining the risk of explosion, which is a problem due to the shaft protruding to the outside of the housing.

The specific problem of the present invention for solving the above-mentioned problems in general is to apply a magnetic sensor method to the rotational speed measuring method of the blocking rotor type flow meter to prevent the shaft from protruding to the outside, thereby improving the explosion-proof property as well as overall. It is intended to provide a blocking rotor type flow meter that does not interfere with rotation due to iron attached to a magnet provided at the end of the shaft while slimming the volume.

Another specific problem of the present invention is to make it possible to minimize the adhesion of iron to the magnet.

The specific problem of the present invention for solving the above technical problem is a housing provided with a cavity having an inlet and an outlet, and a plurality provided by rotation of a plurality of gears on a bearing plate provided inside the housing. Blocking rotor type flowmeter including a shaft of each of the rotor provided on the plurality of shafts, provided in the space between the end plate and the bearing plate constituting the housing to be connected by an external counter and a magnetic sensor method A magnet installed at an end of the shaft to sense the number of revolutions without protruding the end of one shaft; An opening provided in the end plate in which the magnet is located; A cleaning plate provided with a brush for removing iron attached to the magnet while being detachable through an O-ring on the opening; And a sensor that is mounted on a portion where the magnet is located on the outer surface of the cleaning plate and detects the number of rotations of the magnet mounted on the shaft.

The magnet further includes a coating layer that inhibits the adhesion of iron.

The brush is provided detachably from the cleaning plate to be replaceable.

The present invention applies a magnetic sensor method to the rotational speed measuring method of a blocking rotor type flow meter to prevent the shaft from protruding to the outside, and improves explosion-proof properties, as well as iron attached to a magnet provided at the end of the shaft while slimming the overall volume. By not interfering with the rotation, it is possible to secure high reliability due to excellent explosion-proof properties, and the production of a miniaturization furnace has an excellent effect as well as an effect that can be made smoothly without disturbing the discharge flow rate. .

In addition, by minimizing the attachment of iron to the magnet, it has the effect of providing a more accurate discharge flow rate.

1 is a conceptual diagram for explaining a blocking rotor type flow meter to which the present invention is applied,
2 is a side cross-sectional view according to FIG. 1 to which the present invention is applied.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail as follows, and the present invention is not limited or limited by the embodiments.

1 is a conceptual view for explaining a blocking rotor type flow meter to which the present invention is applied, and FIG. 2 is a side cross-sectional view according to FIG. 1 to which the present invention is applied.

The illustrated bar and the blocking rotor type flow meter 100 is an article that is usually provided in a lubricator or the like and connected to a counter provided outside to check the flow rate.

The blocking rotor type flow meter 110 is provided on a housing 110 having a cavity 115 having an inlet 112 and an outlet 114, and a bearing plate 120 provided inside the housing 100. It includes a plurality of shafts 125 provided to rotate by engagement of a plurality of gears 122, and each rotor 126 provided on the plurality of shafts 125.

The cavity 115 is divided into an inlet chamber 115A and an outlet chamber 115B, and the rotor 126 is also composed of a shut-off rotor 126A and a displacement rotor 126B on both sides thereof, to interact the inflowing flow. It has the technical composition to be discharged.

Since the blocking rotor type flow meter has the same technical configuration as the specific technical configuration in the prior art documents 1 to 2 described in the background technology of the invention, detailed operation description is omitted.

The conventional blocking rotor type flow meter 100 has an explosion risk because one shaft of a plurality of shafts is protruded and connected to the outside of the housing to connect with a counter indicating the flow rate.

The present invention applies a magnetic sensor method to the rotational speed measuring method of a blocking rotor type flow meter to prevent the shaft from protruding to the outside, improves explosion-proof properties, and reduces the overall volume, while iron attached to the magnet provided at the end of the shaft. The aim is not to disturb the rotation.

The blocking rotor type flow meter 100 according to the present invention is provided to be connected by an external counter and a magnetic sensor method to a space between the end plate 110A and the bearing plate 120 constituting the housing 110 The end of the shaft 125 of the housing 110 includes a magnet 10 installed by a conventional interference fitting or screwing method, etc., to sense the number of revolutions without protruding out of the housing 110.

In addition, an opening 20 provided in the end plate 110A in which the magnet 10 is located; Conventional magnetic flux provided with the iron removal brush 34 attached to the magnet 10 while being detachable by a conventional screw or bolting through the O-ring 32 for airtightness on the opening 20 It includes a cleaning plate 30 of the material to pass through.

In addition, the outer surface of the cleaning plate 30 is mounted on the portion where the magnet 10 is located, the sensor 40, such as a conventional hall sensor for detecting the number of rotation of the magnet mounted on the shaft 125; includes do.

Mounting of the sensor 40 to the cleaning plate 30, the sensor housing is provided by a conventional screw coupling method or the like.

In addition, the magnet 10 further includes a coating layer 12 that inhibits adhesion of iron.

At this time, the coating layer is coated with a synthetic resin series such as fluorine resin or parylene, such as ordinary ethylene tetrafluoride resin, which can be easily removed even if iron is attached to the magnet without affecting the magnetic field. It is preferred.

The brush 34 is also preferably provided detachably from the cleaning plate 30 by a conventional screw, bolting or bracket, etc. so that it can be replaced by wear or the like after a certain period of use. At this time, it is preferable that the brush is disposed in a lightly close contact with the magnet, and it is preferable to use a material that can minimize rotational resistance while being generally wear-resistant.

The present invention configured as described above, first, as the shaft for connecting with the counter for checking the flow rate of the outside is formed so as not to protrude to the outside, the risk of sparks and the like is eliminated.

In addition, the technical configuration for checking the flow rate is installed at its end to detect the number of revolutions without protruding out of the housing in the space between the end plate and the bearing plate constituting the housing, that is, applying the magnetic sensor method. As the magnet is rotated, it is possible to check the flow rate accurately discharged through the counter by the detection of the sensor provided on the outside of the cleaning plate.

Therefore, it is possible to solve all the risk factors due to the projecting of the shaft to the outside of the conventional housing, that is, the present invention has excellent explosion-proof conditions.

In addition, as the magnetic sensor method in which the shaft does not protrude to the outside of the housing is applied, the overall volume of the flow meter is also not large, so it can be reduced in size.

In addition, even if the iron contained in the oil is attached to the end of the shaft, by being eliminated by a brush provided on the inner surface of the cleaning plate, it is possible to maintain a constant discharge flow rate at all times as it does not cause any trouble to rotate the shaft. At this time, since the brush is provided to be detachable from the cleaning plate, there is also a condition that the cleaning performance does not deteriorate by simply replacing it without hassle or inconvenience every period.

Moreover, as the coating layer is formed on the surface of the magnet, that is, iron is not easily attached, but also easily detached even if attached, the condition that the rotation of the shaft due to the iron does not cause any trouble can be smoothly rotated. Have

Therefore, the present invention does not have a complicated technical configuration, but by applying a simple magnetic sensor method, it is possible to secure high reliability as it secures high safety from the risk of explosion, and of course, the overall volume of the flow meter can also be significantly reduced, thereby miniaturizing. It also has ideal conditions.

10: magnet 12: coating layer
20: opening 30: cleaning plate
32: O-ring 34: brush
40: sensor
100: blocking flow meter
100A: End plate 110: Housing
112: inlet 114: outlet
115: cavity 115A: inlet chamber
115B: discharge chamber 120: bearing plate
122: gear 125: shaft
126: rotor 126A: blocking rotor
126B: displacement rotor

Claims (3)

A housing having a cavity having an inlet and an outlet, a plurality of shafts provided to rotate by a plurality of gear engagements on a bearing plate provided inside the housing, and respective rotors provided on the plurality of shafts As a blocking rotor type flow meter comprising,
The end of one shaft provided to be connected to the space between the end plate and the bearing plate constituting the housing by an external counter and a magnetic sensor method does not protrude to the outside of the housing to detect the number of revolutions. Magnet installed on;
An opening provided in the end plate in which the magnet is located;
A cleaning plate provided with a brush for removing iron attached to the magnet while being detachable through an O-ring on the opening; And
Included on the outer surface of the cleaning plate sensor mounted on the portion where the magnet is located to detect the number of rotation of the magnet mounted on the shaft;
The brush is a blocking rotor type flow meter that is detachably provided from the cleaning plate to be replaceable. According to claim 1,
Blocking rotor type flow meter further comprising a coating layer to inhibit the adhesion of the iron to the magnet. delete

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