KR100856578B1 - Flowmeter for chemicals discharging apparatus using slope sensor - Google Patents

Abstract

A flowmeter in a chemical input device using a tilt sensor is provided to rotate a rotary plate by including flow reduction plates stabilizing water flow on the rotary plate. A flowmeter in a chemical input device includes a flow case(11), a flow reduction plate(12a,12b,12c), a flow concentration plate(13), a rotary plate(14) and a tilt sensor(15). The flow case includes a flow passage(11a) with a predetermined width and height, is connected with a fluid supply pipe, and has an outlet(11b). The flow reduction plate reduces the flow rate of fluid. The flow concentration plate allows fluid to flow in a flow passage(13a) for accurate rotation of the rotary plate. The rotary plate is installed between the flow reduction plate and the outlet and is closely contacted to the fluid concentration plate for blocking the flow passage. The tilt sensor measures the slope of the rotary plate.

Description

FLOW METER FOR CHEMICALS DISCHARGING APPARATUS USING SLOPE SENSOR}

The present invention relates to a flow rate sensor of a chemical injection device using a tilt sensor, and more particularly to relax the flow of raw water flowing from the water pipe and to measure the inclination of the rotating plate that changes according to the height change of the flow of the raw water. The present invention relates to a flow rate detector of a chemical input device using a tilt sensor that can detect the flow rate of raw water simply and accurately.

In general, a village water supply system includes a predetermined intake source, a storage tank for storing the received raw water, a water pipe connecting the intake source and the storage tank to transfer the intake water from the intake source to the storage tank, and the storage tank It is configured to include a water level valve that is opened and closed to maintain a constant level of water, the water stored in the water storage tank is supplied to the user home through a water supply pipe connected to the lower portion of the water storage tank.

In the village water supply system as described above, not only the water level is adjusted according to the flow rate flowing into the water storage tank, but also the chemical input amount for disinfection of raw water is controlled.

Therefore, the village water supply system requires measurement of the flow rate flowing into the water storage tank. However, in the case of village water supply, the amount of raw water supplied from the water intake is variable. For example, when the intake source is valley water, water is often introduced into the drainage pipe while the water is not occupying the entire pipeline but only the lower portion of the intake pipe is filled. Therefore, it is difficult to attach the usual flow meter to the water pipe in the village water supply system and to detect the flow rate.

In addition, village waterworks can be utilized even if the flow rate is measured approximately. By the way, the conventional flowmeter has a problem that the price is expensive because it is excessively precise than the precision required by the village water supply.

Recognizing the above problems, the present applicant can easily detect the flow rate of the raw water supplied from the water intake source and stored in the water storage tank using a tilt sensor as in Korean Patent Application No. 10-2007-0078547. We have developed a detector.

However, since the flow rate sensor disclosed in Korean Patent Application No. 10-2007-0078547 has a structure in which raw water introduced from a water pipe collides or flows directly into a collision plate, accurate flow rate measurement is difficult when the flow of raw water flowing from the water pipe is very fast. Has a difficult disadvantage.

The present invention was conceived by recognizing the above point, the object of the present invention is to relax the flow of raw water flowing from the water pipe and to flow and measure the inclination of the rotating plate that changes in accordance with the change in the height of the raw water of the raw water It is to provide a flow rate detector of a chemical injection device using a tilt sensor that can detect the flow rate simply and accurately.

In order to solve the above object, the flow rate sensor of the chemical input device using the inclination sensor according to the present invention, by measuring the inclination of the rotating plate is inclined according to the flow rate of the raw water flowing through the water pipe with a tilt sensor to measure the flow rate of the raw water In a flow rate sensor using a tilt sensor for sensing, a flow path having a predetermined width and height is formed, the flow path case is formed so that the raw water flowing from the water supply pipe flows along the flow path and is discharged to the outlet side, and flowed in from the water supply pipe Between the flow rate buffering plate and the flow rate buffering plate and the outlet of the flow path is arranged in a staggered staggered arrangement in the interior of the flow path in front of the outlet of the water pipe so that the raw water collides with the flow rate is relaxed To block the flow path at the bottom of the And a tilt plate having an upper end hinged to the flow path case so as to rotate in the direction of the pressure caused by the flow, and a tilt sensor attached to the turn plate to measure the tilt of the turn plate according to the rotation of the turn plate.

In addition, the flow rate sensor of the drug injection device using the tilt sensor according to the present invention, the rear of the rotating plate is installed to block the flow path of the flow path, the flow path for the raw water flow in the center is formed so that the rotating plate is not rotated It is characterized in that it is further configured to include a water flow concentrated plate installed inside the flow path case so that the flow path is blocked by the rotating plate.

The flow rate sensor of the chemical input device using the inclination sensor according to the present invention by the configuration as described above to relax the flow of raw water flowing from the water pipe and to measure the inclination of the rotating plate that changes according to the height change of the flow of raw water It has the advantage of detecting the flow rate of raw water simply and accurately.

Hereinafter, with reference to the embodiment shown in the drawings will be described in more detail the flow rate sensor of the drug injection device using the tilt sensor according to the present invention.

1 is a perspective view showing a flow rate sensor of the drug input device using the tilt sensor according to an embodiment of the present invention, Figure 2 is a flow rate detector of the drug input device using a tilt sensor according to an embodiment of the present invention. Figure 3 is a plan view, and Figure 3 is a side view showing a flow rate detector of the drug injection device using a tilt sensor according to an embodiment of the present invention.

Referring to the drawings, the flow rate detection 10 using the tilt sensor in accordance with an embodiment of the present invention is for detecting the flow rate flowing through the water pipe (1). The flow rate sensor 10 is for detecting the flow rate of raw water by measuring the inclination θ of the rotating plate 14 rotated according to the flow of raw water.

Referring to the drawings, the flow rate detector 10 of the drug injection device using the tilt sensor according to an embodiment of the present invention is the flow path case 11, the flow rate slowing collision plate (12a, 12b, 12c), the oil distribution plate (13) ), The rotating plate 14 and the tilt sensor 15 are configured.

The flow path case 11 is formed in a case shape such that a flow path 11a having a predetermined width and height is formed and the raw water introduced from the water supply pipe 1 flows along the flow path 11a and discharged toward the outlet 11b. . One side of the flow path case 11 is connected to the water supply pipe (1) and the other side is provided with an outlet (11b) for discharging the raw water introduced from the water supply pipe (1).

The flow rate slowing collision plates 12a, 12b, and 12c collide with the raw water introduced from the water pipe 1 into the flow path 11a of the flow path case 11 so that the flow rate is reduced to flow the flow path 11a. will be. Referring to the drawings, the flow rate slowing impact plate (12a, 12b, 12c) is arranged in a staggered staggered right and left in the flow path case 11, that is, the flow path (11a) in front of the outlet of the water pipe (1) do. Accordingly, the raw water introduced from the water pipe 1 is relaxed by the flow rate buffering plates 12a, 12b, and 12c, and flows to the rotating plate 14 in a smooth and stable flow, and the rotating plate 14 is It is more precisely rotated according to the flow of raw water with a stable flow.

The water flow concentrating plate 13 flows the flow of oil water so that the flow of raw water smoothed by the flow rate buffering plates 12a, 12b, and 12c rotates the collision plate 14 reliably and accurately. This is to concentrate the flow. Referring to the drawings, the water flow plate 13 is installed to block the flow path 11a of the flow path case 11 from the rear of the rotating plate 14, the raw water in the center of the flow plate 13 A flowing passage 13a for flowing is formed by cutting in a 'V' shape. The flow passage 13a is blocked by the rotation plate 14 in a state in which the rotation plate 14 is not rotated, and when raw water flows through the flow path 13a by the flow of raw water, the rotation plate 14 ) Is pushed and rotated so that the water flow passage 13a is opened.

The rotating plate 14 is connected to the flowing plate 13 in front of the flowing plate 13 between the flow rate buffering plates 12a, 12b, 12c and the outlet 11b of the flow path case 11. It is in close contact and is installed to block the flow path (11a) of the flow path case (11). The rotary plate 14 is hinged to the flow path case 11 by the hinge 14a so that the lower end rotates in a direction in which pressure is caused by the flow of raw water. Accordingly, the rotary plate 14 is rotated to be lifted and lowered by the pressure of the flow of raw water, and opens and closes the flow passage 13a of the oil and water concentration plate 13. In particular, the rotating plate 14 is the amount of rotation is changed according to the flow rate of the raw water flowing through the water flow passage (13a), the inclination sensor 15 is to measure the inclination according to the difference in the amount of rotation, The flow rate can be measured accordingly.

The inclination sensor 15 is attached to the rotating plate 14 so as to be integrally rotated with the rotating plate 14 to measure the inclination of the rotating plate 14 according to the rotation of the rotating plate 14. The raw water flow rate flowing through the flow path 11a can be calculated from the width of the flow path 11a, the height of the raw water flow, and the flow rate of the raw water flow, and the inclination angle θ of the rotating plate 14 is increased according to the increase or decrease of the flow rate. According to the present invention, the flow rate can be calculated from the inclination angle θ sensed by the inclination sensor 15 using the correlation between the flow rate and the inclination angle θ of the rotating plate 14. That is, the flow rate is determined by the cross-sectional area of the raw water flow and its flow rate, and measures the amount of rotation of the rotating plate 14 according to the change of the flow rate, and based on the measured experimental value, the angle detected by the tilt sensor 15 ( The flow rate can be easily measured from θ). In particular, the present invention is because the flow of the raw water is relaxed by the flow rate slowing collision plate (12a, 12b, 12c) flows stably, because the flow of water flows concentrated while passing through the water flow concentration plate (13) The change in the rotational amount of the rotating plate 14 has a certain aspect, and more accurate flow rate measurement is possible.

The flow rate detector of the drug injection device using the tilt sensor described above and shown in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the claims below, and the embodiments improved and changed without departing from the gist of the present invention will be apparent to those skilled in the art. It will be said to belong to the protection scope of the present invention.

1 is a perspective view showing a flow rate detector of a drug injection device using a tilt sensor according to an embodiment of the present invention

Figure 2 is a plan view showing a flow rate sensor of the drug injection device using a tilt sensor according to an embodiment of the present invention

Figure 3 is a side view showing a flow sensor of the drug injection device using the tilt sensor according to an embodiment of the present invention

<Short description of the major reference symbols>

1 water pipe

10 Flow sensor

      11 Eurocase

           11a euro

           11b exit

      12a, 12b, 12c flow-relaxing impact plate

      13 oil concentration

      14 tumblers

      15 tilt sensor

Claims (2)

delete In the flow sensor of the chemical input device using a tilt sensor for detecting the flow of raw water by measuring the inclination of the rotating plate, the slope of which varies depending on the flow of raw water flowing through the water pipe, and injecting the chemical accordingly, A flow path having a predetermined width and height is formed, and a flow path case formed so that the raw water introduced from the water pipe flows along the flow path and discharged toward the outlet side, and the raw water introduced from the water pipe collides so that the flow rate is reduced to flow the flow path. In order to block the flow path between the flow rate buffering plate and the outlet of the flow rate buffering plate and the flow rate buffering plate and arranged in a staggered staggered interior of the flow path in front of the outlet of the water pipe, And a tilt plate having a top end hinged to the flow path case so as to rotate in a direction heard by the pressure, and a tilt sensor attached to the turn plate to measure the tilt of the turn plate according to the rotation of the turn plate. It is installed to block the flow path of the flow path case in the rear of the rotating plate, the flow path for the raw water flow in the center is formed so that the flow path is blocked by the rotating plate in the state that the rotating plate is not rotated inside of the flow path case Flow rate detector of the chemical injection device using the tilt sensor, characterized in that the oil flow concentration plate is installed further included.

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