KR20090008772U - Flow measurement apparatus - Google Patents

Abstract

The present invention relates to a flow rate detection device capable of detecting a fluid flow, the flow rate.

The present invention provides a flow rate detection apparatus, comprising: a bracket having a rotating hole; A rotating member installed to rotate in the rotating hole; A weight installed at a lower portion of the rotating member; It includes a flow rate calculator for measuring the flow rate by detecting the rotation of the rotating member.

Description

Flow detection device {FLOW MEASUREMENT APPARATUS}

The present invention relates to a flow rate detection device capable of detecting a fluid flow, the flow rate.

In general, a device using a fluid, such as a gas boiler, a gas water heater, an instantaneous water heater, is equipped with a flow sensor that detects a fluid flow, which is to generate an electrical signal when there is a flow of fluid to operate another electric device.

1 (a) shows a conventional flow sensor, a main body 100 having an inlet 110, an outlet 120, and a chamber 130: a reed switch coupled to the main body 100. The cover 170 in which the reed switch 180 is molded: And the magnet 150 is rotatably connected to the cover 170 by a hinge pin 160 and operates the reed switch 180. The rotating plate 140 is attached.

As shown in FIG. 2, as shown in FIG. 2, two leads 184, which are magnetic bodies, are embedded in the glass tube 182 filled with nitrogen gas 186. When 184 is in contact with each other and is in an ON state, and the leads 184 are out of the range of influence of magnetic force, the two leads 184 are separated from each other to be in an OFF state.

In the conventional flow sensor, when a fluid flows and a force is applied to the rotating plate 140 suspended in the chamber 130, the rotating plate 140 rotates around the hinge pin 160 so that the magnet 150 is a reed switch. Turn 180 on.

If there is no flow of fluid, the rotating plate 140 and the magnet 150 return to their original positions by their own weight, and the reed switch 180 is turned off.

Since the above-described conventional flow sensor uses the reed switch 180, the glass tube 182 is ruptured due to heat when the glass tube 182 is molded by the synthetic resin, and nitrogen gas at the connection portion between the glass tube 182 and the lid 1884. There is a problem that a defect that 186 leaks often occurs.

In addition, the conventional flow sensor has a problem that can detect the flow of the fluid but not the amount of fluid flowing.

The present invention has been made to solve the problems of the prior art, an object of the present invention is to provide a flow rate detection device capable of detecting the flow of fluid, the flow rate.

The present invention provides a flow rate detection apparatus, comprising: a bracket having a rotating hole; A rotating member installed to rotate in the rotating hole; A weight installed at a lower portion of the rotating member; It includes a flow rate calculator for measuring the flow rate by detecting the rotation of the rotating member.

According to the present invention, there is an advantage that can detect the fluid flow, it can detect the flow rate.

In addition, the present invention has an advantage that can display the flow rate.

In addition, the present invention has the advantage of being able to detect the back flow of the fluid.

1 is a perspective view of a flow rate detection apparatus according to an embodiment of the present invention.

Figure 2 is a side view showing a state before the operation of FIG.

3 is a side view showing a state after the operation of FIG.

<Description of the symbols for the main parts of the drawings>

10: bracket 30: rotating member

50: weight 70: flow calculator

Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is a perspective view of a flow rate detection apparatus according to an embodiment of the present invention, Figure 2 is a side view showing a state before the operation of Figure 1, Figure 3 is a side view showing a state after the operation of FIG.

As shown in Figures 1 to 3, the present invention is a flow rate detection device, the bracket having a rotating hole 11; A rotating member 30 rotatably installed in the rotating hole 11; A weight 50 installed below the rotating member 30; It includes a flow rate calculator 70 for measuring the flow rate by detecting the rotation of the rotating member (30).

Here, the bracket 10 is preferably installed on the ceiling of the pipe through which the fluid (water, oil, steam and air) flows. In addition, the flow rate calculation unit 70 may be electrically connected to the rotating member 30 to detect an electric signal generated by the rotation of the rotating member 30 to measure the flow rate.

In addition, the rotating member 30 may include a rotating shaft 31 inserted into the rotating hole 11; Horizontal members 33 connected to both sides of the rotation shaft 31; It is preferable to include a vertical member 35 connected to the center of the horizontal member 33.

Here, the vertical member 35 may be made of steel shafts or strings. The weight 50 is connected to the end of the vertical member 35. In addition, when the flow of the fluid is generated, the weight 50 is moved, so that the vertical member 35 is rotated, thereby rotating the horizontal member 33 about the rotation shaft 31.

And, the flow rate calculation unit 70 is a plurality of fixed sensors 71 provided radially on the outside of the rotating hole (11); A movement sensor 73 provided on the rotating member 30 to correspond to the fixed sensor 71; It is preferable to further include a detection unit 75 for detecting the reaction of the fixed sensor 71 and the movement sensor 73.

In addition, the plurality of fixed sensors 71 may be arranged in a direction in which the fluid flows at a position perpendicular to the lower portion of the rotation hole 11.

Here, since the vertical member 35 is rotated when the fluid flows, the movement sensor 73 is also rotated together in the direction in which the fluid flows to come into contact with any one of the plurality of fixed sensors 71. At this time, the fixed sensor 71 which is in contact with the movement sensor 73 may be implemented as a + terminal and a-terminal, the detection unit 75 detects this when the mutual switching action.

That is, when the fixed sensor 71 positioned vertically below the rotating hole 11 and the movement sensor 73 contact each other, the detection unit 75 detects that there is no fluid flow, and the movement sensor 73 rotates. When the contact with the other fixed sensor 71 provided on one side of the fixed sensor 71 located in the lower portion of the hole 11, the detection unit 75 detects that the fluid flows. In addition, when another fixed sensor 71 provided on one side of the other fixed sensor 71 and the movement sensor 73 come into contact with each other, the detection unit 75 detects that the fluid flows quickly.

As such, the sensing unit 75 may detect the flow rate of the fluid by the detection of the other fixed sensors 71 that gradually move away from the fixed sensor 71 positioned below the rotary hole 11.

And, it is preferable to further include a back flow detection sensor 77 disposed on the opposite side of the fixed sensor 71 to detect the back flow of the fluid.

Here, the reverse flow detection sensor 77 is disposed in the direction in which the fluid flows backward based on the fixed sensor 71 positioned perpendicular to the lower portion of the rotation hole 11. That is, when the movement sensor 73 and the backflow detection sensor 77 come into contact with each other, the detection unit 75 may detect that the fluid flows back.

In addition, the display unit 90 may further include a display unit 90 that displays a detection state of the detection unit 75.

The display unit 90 may be implemented as a lamp (not shown). That is, if there is no flow of fluid, the lamp remains off, and each time the flow is faster, the brightness of the lamp may be gradually increased or the lamp blinks faster, and the same number of lamps as the fixed sensors 71 may be. It may be provided so that the lamps are sequentially turned on in accordance with the speed of the fluid.

At this time, even if the movement sensor 73 is positioned between the fixed sensors 71, the lamp reacted by the fixed sensor 71 that was in contact just before the movement sensor 73 is moved is in a reaction state (on state). It must be implemented to continue.

In addition, the display unit 90 may be implemented as a monitor (not shown) connected to the PC. That is, the detection state of the detection unit 75 may be displayed on a monitor as a graph.

In addition, when the sensing unit 75 detects the back flow of the fluid, the back flow of the fluid may be displayed by using a lamp or a monitor, and the manager may be alerted by using an alarm unit (not shown) provided separately.

As such, the administrator can easily visually check the velocity of the fluid displayed by the lamp or monitor.

The invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, but the invention is not limited to the configuration and operation as shown and described.

Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes, modifications, and equivalents should be considered to be within the scope of the present invention.

Claims (6)

In the flow rate detection device, A bracket 10 having a rotation hole 11; A rotating member 30 rotatably installed in the rotating hole 11; A weight 50 installed below the rotating member 30; Flow rate detection device comprising a flow rate calculation unit 70 for measuring the flow rate by detecting the rotation of the rotating member (30). The method of claim 1, wherein the rotating member 30 A rotating shaft 31 inserted into the rotating hole 11; Horizontal members 33 connected to both sides of the rotation shaft 31; And a vertical member (35) connected to the center of the horizontal member (33). According to claim 1, wherein the flow rate calculator 70 A plurality of fixed sensors (71) provided radially on the outside of the rotating hole (11); A movement sensor 73 provided on the rotating member 30 to correspond to the fixed sensor 71; Flow detection device further comprises a detection unit (75) for detecting the reaction of the fixed sensor (71) and the movement sensor (73). 4. The flow rate detection device according to claim 3, wherein the plurality of fixed sensors (71) are arranged in a direction in which the fluid flows at a position perpendicular to the lower portion of the rotating hole (11). 4. A flow rate detection device according to claim 3, further comprising a reverse flow sensor (77) disposed opposite the fixed sensors (71) to detect the reverse flow of the fluid. 4. The flow rate detection device according to claim 3, further comprising a display unit (90) for displaying a detection state of the detection unit (75).