KR101423048B1 - turbine flowmeter - Google Patents

Abstract

The present invention relates to a new type of turbine flowmeter capable of accurately measuring a flow rate by rotating a rotating body smoothly even if the minute flow of a fluid is generated, capable of being assembled simply, and capable of being maintained. According to the present invention for the effects above, provided is a turbine flowmeter which comprises: a housing body of which the front end is opened and the rear end has an extended fluid outlet pipe connected to a fluid pipeline; a housing cap of which the front end has an extended fluid inlet connected to the fluid pipeline and the rear end is coupled to the opened front end of the housing body; a case body formed into a pipe of which the front and the rear end are opened, mounted inside the housing body, having multiple flow path guides formed at the opened front end thereof and guiding the flow of a fluid, having hubs at the centers of the respective flow path guides, and having a rod cap detachably coupled to the opened rear end thereof; a rotating body installed inside the case body, and having a rotor and a ring-shaped magnet rotating along with the rotor; and a housing part connected to the circumferential surface of the housing body, and housing a PCB with a hall integrated circuit (IC) to sense the rpm of the rotating body according to the rotation of the magnet, wherein the rotor has multiple blades.

Description

Turbine flowmeter

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flow meter used for measuring a flow rate of a fluid passing through a pipeline while being installed on a fluid line such as a water purifier or bidet, To a new type of turbine flow meter that is simple yet maintainable.

In general, a flow meter is a measuring device for measuring the flow rate of a fluid, and is provided in various structures depending on its use and application site.

Particularly, in the case of a water purifier, the flowmeter described above is applied to accurately confirm the sound capacity through the measurement of the flow rate or the timing of replacement of the filter, and in this regard, the flowmeter is disclosed in Korean Utility Model Registration No. 20-0215042, 20-2010-0007055, and the like.

In addition, a turbine flowmeter for counting the rotation of wings placed in a pipeline is mainly used as the flowmeter used in the water purifier described above, and is disclosed in Japanese Laid-Open Patent Publication No. 10-2003-0080314.

However, in the turbine flowmeter used in the conventional water purifier described above, since the magnetic body of the magnetic rotor is formed so as to form the outer circumferential surface, there is a fear that the rotation of the turbine flowmeter is not smooth due to its heavy weight. The flow rate can not be measured smoothly.

In addition, since the turbine flowmeter according to the conventional art described above is constructed so that the outflow straight pipe portion, the connecting means, the magnetic rotor, and the intake straight pipe portion are coupled to each other and then fixedly wrapped and fixed using a cylindrical housing, In addition, the disassembly operation is more difficult. Therefore, when a damage such as breakage of a rotating blade constituting a magnetic rotor occurs, the entire flowmeter must be disposed of, and the maintenance cost is inevitably increased.

SUMMARY OF THE INVENTION The present invention has been made in order to solve various problems of the conventional art described above, and it is an object of the present invention to provide an apparatus and a method for measuring a flow rate of a fluid, To provide a new type of turbine flow meter that is simple yet maintainable.

According to an aspect of the present invention, there is provided a turbine flowmeter including: a housing body having a tubular body through which a fluid passes and forming an outer tubular body and having a distal end opened and a fluid outflow tube connected to a fluid duct at a rear end; And a rear end of the housing cap is coupled to an open front end of the housing body. A plurality of flow guides for guiding a fluid flow are formed at the open end, and a hub is provided at the center of each of the flow guides, And a rod cap detachably coupled to the rear end thereof; A rotating body provided in the case body and having a rotor having a plurality of blades formed therein and a ring-shaped magnet rotated together with the rotor; And a receiving portion connected to the circumferential surface of the housing body and receiving a PCB having a Hall IC for sensing the number of revolutions as the magnet of the rotating body is rotated .

In this case, a plurality of locking holes may be formed on the circumference of the front end of the housing body, and a locking protrusion may be formed on the circumferential surface of the housing cap to be received in the locking holes of the housing body.

In addition, the fluid outlet pipe of the housing body may have a shaft-shaped structure as compared with a portion where the case body is mounted in the housing body, and a rear end of the housing cap may be inserted into the housing body to be in contact with the circumference of the case body So that the case body in the housing body is prevented from flowing forward and backward.

In addition, a stepped protrusion having a planar structure is formed on an inner circumferential surface of a portion of the housing body where the receptacle is connected, a circumferential surface of the case body is formed with a flat surface portion having a planar structure corresponding to the step portion, A communication hole communicating the inside and the outside of the case body is formed.

In addition, each of the flow guides provided at the tip of the case body is formed in a spiral or inclined structure.

In addition, each blade of the rotor constituting the rotating body is formed of a spiral formed by the flow guide of the case body, or a spiral or inclined structure in a direction opposite to the oblique direction.

In addition, a rod is rotatably coupled to the hub and the rod cap of the case at both ends thereof, and the magnet is installed between the outer circumferential surface of the rod and the inner circumferential surface of the rotor. do.

In the turbine flowmeter of the present invention as described above, a spiral or inclined flow guide is formed on the fluid inlet side of the housing, and each blade of the rotor is formed into a spiral shape or a slant shape opposite to the flow guide Even if a minute fluid flow is generated, the rotation of the rotor can be smoothly performed, and accurate flow measurement can be performed.

In addition, the turbine flowmeter of the present invention has the effect that the unstable rotation of the rotor due to the weight of the magnet can be prevented by minimizing the size of the magnet.

In addition, the turbine flowmeter of the present invention is capable of always accurately maintaining the position of assembly between the body portion of the housing body and the circumferential surfaces of the case body, And the Hall IC has the effect that the magnetic field of the magnet can be accurately sensed at all times.

Furthermore, since the turbine flowmeter of the present invention is constructed not only to have a simple overall structure but also to be easily disassembled, the maintenance cost can be reduced.

1 is a perspective view illustrating a turbine flowmeter according to an embodiment of the present invention;
FIG. 2 is an exploded perspective view illustrating the respective components of the turbine flowmeter according to the embodiment of the present invention. FIG.
Fig. 3 is a front view showing the outer structure of the turbine flowmeter according to the embodiment of the present invention.
4 is a sectional view taken along the line I-I in Fig. 3
5 is a side view for explaining the external structure of the turbine flowmeter according to the embodiment of the present invention
6 is a sectional view taken along the line II-II in Fig. 5
7 is a plan view illustrating a step of a housing body of a turbine flowmeter according to an embodiment of the present invention.
8 is a perspective view illustrating a plane portion of a case of a turbine flowmeter according to an embodiment of the present invention.
9 is a plan view for explaining a plane portion of a case of a turbine flowmeter according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the turbine flowmeter of the present invention will be described with reference to FIGS. 1 to 9 attached hereto.

FIG. 1 is a perspective view illustrating a turbine flowmeter according to an embodiment of the present invention. FIG. 2 is an exploded perspective view illustrating components of a turbine flowmeter according to an embodiment of the present invention .

As shown in these drawings, the turbine flowmeter according to the embodiment of the present invention includes a housing body 100, a housing cap 200, a case body 300, a rotating body 400, The rotating body 400 can be smoothly rotated even by a minute fluid flow, and the assembling and disassembling of the respective components can be performed smoothly, and the magnet 400 of the rotating body 400 The Hall IC 511 of the PCB 510 is located as close as possible to the magnet 430 so that accurate sensing can be performed.

This will be explained in more detail for each configuration.

First, the housing body 100 is a portion forming an outer body of the rear side of the turbine flowmeter.

The housing body 100 includes a body 110 formed with a tube through which a fluid passes and a distal end extending from the rear end of the body 110 while being connected to a fluid conduit (not shown) And an outlet pipe (120).

Particularly, the fluid outlet tube 120 is formed in a tubular structure having an inner diameter and an outer diameter smaller than that of the body part 110, and a case body 300 mounted in the body part 110 is inserted into the housing body 110, (100).

In addition, a plurality of locking holes 111 are formed through the front end surface of the body 110 of the housing body 100. The latching hole 111 is a structure for coupling with the housing cap 200 to be described later.

Next, the housing cap 200 is a portion forming the outer body of the front side of the turbine flowmeter.

The housing cap 200 includes a coupling pipe 210 provided at the coupling portion with the housing body 100 and a fluid inlet pipe 220 extending from the tip of the coupling pipe 210 and connected to the fluid pipe, .

The rear surface of the coupling tube 210 is connected to the housing body 100. The coupling tube 210 is formed as a tubular body having a rear end opened to be inserted into the body 110 of the housing body 100, The case body 300 is formed to be in contact with the front surface of the case body 300 mounted in the body portion 110 of the housing body 100 so that the case body 300 can be prevented from flowing to the front side of the housing body 100.

A plurality of locking protrusions 211 protrude from the circumferential surface of the coupling tube 210 constituting the housing cap 200. At this time, the respective locking projections 211 are formed so as to correspond to the positions, the numbers and the shapes of the respective locking holes 111 so as to be received in the locking holes 111 of the body part 110 constituting the housing body 100 do.

At this time, since the hermetic member 230 made of an O-ring is provided on the circumference of the coupling pipe 210, the outer peripheral surface of the coupling pipe 210 and the inner peripheral surface of the body 110 of the housing body 100 So that leakage can be prevented through the clearance between the two.

Next, the case body 300 is provided as a mounting portion for rotatable mounting of the rotating body 400 to be described later.

The case body 300 is mounted in the body 110 of the housing body 100 while being formed as a tubular body having a front end and a rear end opened.

A plurality of flow guides 310 for guiding fluid flow are formed at the open end of the case body 300 and a hub 320 is provided at the center of each flow guide 310, The rod cap 330 is detachably coupled to the open rear end of the rod cap 300.

In particular, each of the channel guides 310 is formed to have a spiral or an inclined structure along the passage direction of the fluid, so that the fluid passing through the respective channel guides 310 can have a turning force.

In addition, the hub 320 may be formed to have a conical shape whose diameter gradually decreases toward the front (fluid inflow side), so that the flow of fluid through the respective flow guides 310 can be smoothly performed.

Next, the rotating body 400 is rotated by the flow of the fluid passing through the housing cap 200 and the housing body 100.

The rotating body 400 includes a rotor 410 having a plurality of blades 411 formed therein and a ring magnet 420 rotated together with the rotor 410 as shown in FIGS. 2, 4 and 6 ).

A rod 430 is inserted through the center of the rotor 410 in the axial direction and both ends of the rod 430 are rotated to the hub 320 and the rod cap 330 of the case body 300, So that the rotor 410 is rotated in a direction perpendicular to the fluid passing direction.

The magnet 420 is installed between the outer circumferential surface of the rod 430 and the inner circumferential surface of the rotor 420 so that the weight of the rotor 400 can be minimized, Thereby enabling a more smooth rotation of the rotor. At this time, the magnet 420 is divided into a plurality of magnets and is adsorbed by the magnetic force between the magnet 420 and the rod 430 to enclose the rod 430.

Particularly, in the embodiment of the present invention, each of the blades 411 formed in the rotor 410 of the rotating body 400 has a spiral formed by the flow guide 310 of the case body 300, Or a tilted structure.

When each of the blades 411 is formed so as to form a spiral or a slope in the same direction as the flow guide 310, a part of the fluid passing through the flow guide 310 rotates the blades 411 The respective blades 411 are formed in a spiral or a slope in the direction opposite to the flow path guide 310 so that the blades 411 can flow through the flow paths 411 in consideration of the possibility that the blades 411 may pass straight between the blades 411, So that the fluid can be smoothly rotated by fully providing the turning force of the fluid that has passed through the guide 310.

Next, the accommodating portion 500 is a portion in which a PCB 510 on which a Hall IC (Hall IC) 511 is mounted is accommodated. The Hall IC 511 is an integrated circuit for sensing the number of revolutions as the magnet 420 of the rotating body 400 rotates and the PC 510 has an input terminal 521 and a ground terminal 522 And an output terminal 523 are connected to each other and are drawn out to the outside.

It is preferable that the accommodating part 500 is provided on a circumferential surface of the housing body 100 at a position closest to the magnet 420 of the rotating body 400. This is because the size of the magnet 420 is minimized and the area where the magnetic field is provided from the magnet 420 is shortened due to the interposition between the rod 430 and the rotor 410, The distance between the Hall IC 511 and the magnet 420 can be minimized as much as possible considering that the Hall IC 511 of the Hall IC 511 can not accurately sense the magnetic field provided from the magnet 420. [ So that the magnetic field of the magnet 420 by the Hall IC 511 can be accurately sensed.

In addition, in the embodiment of the present invention, as shown in FIG. 7, the inner circumferential surface of a portion of the housing 110 where the receptacle 500 is connected, A planar portion 340 having a planar structure corresponding to the step portion 112 is formed on a circumferential surface of the case body 300 as shown in FIGS. 8 and 9, present.

This structure is to make the mounting directionality between the case body 300 and the housing body 100 always constant, while maximizing the distance between the magnet 420 and the Hall IC 511.

Particularly, in the embodiment of the present invention, a communication hole 341 communicating the inside and the outside of the case body 300 is formed in the plane portion 340 of the circumference of the case body 300, And the Hall IC 511 can be minimized so that the Hall IC 511 can sense the magnetic field provided from the magnet path 420 more accurately.

In the following, the assembling process of the turbine flowmeter according to the embodiment of the present invention described above will be described in more detail.

First, the housing body 100, the housing cap 200, the case body 300, and the rotating body 400 are prepared.

At this time, the housing part 500 is provided integrally with the housing body 100.

Then, the rotating body 400 is mounted in the case body 300 prepared as described above.

At this time, one end of the rod 430 constituting the rotating body 400 is rotatably coupled to a hub 320 provided at the tip of the case body 300, and the other end of the rod 430 is connected to the hub And is rotatably coupled to a rod cap 330 that closes the rear end of the case body 300.

As described above, the case body 300 on which the rotating body 400 is mounted is inserted into the body 110 of the housing body 100 and is mounted. The case body 300 has its front end directed toward the front end of the body part 110 and the plane part 340 formed on the circumferential surface of the case body 300 is positioned on the side of the housing body 100 (112) formed on the inner peripheral surface of the body part (110). Of course, if the housing body 300 is not positioned so as to face each other due to the shape between the plane portion 340 and the step portion 112, the case body 300 is not fully mounted in the body portion 110 of the housing body 100 Do not.

When the case body 300 is completely mounted, the coupling tube 210 of the housing cap 200 is inserted into the body 110 of the housing body 100, The engaging projections 211 formed on the circumferential surface of the housing body 210 are engaged with the engaging holes 111 formed on the circumferential surface of the body 110 of the housing body 100.

In this case, the rear surface of the coupling pipe 210 of the housing cap 200 is in contact with the front surface of the case body 300 positioned in the body portion 110 of the housing body 100, So that it is fixed in the body 110. That is, the case body 300 is prevented from moving or flowing backward by the stepped structure of the portion where the fluid outlet pipe 120 of the housing body 100 is extended, 210 can prevent its forward movement or flow.

The assembling of the turbine flowmeter is completed by mounting the PCB 510 having the hole IC 511 in the accommodating portion 500. The fluid inlet pipe 220 and the fluid outlet pipe 120 of the assembled turbine flowmeter The connection between the fluid conduits completes its installation.

Next, the operation of the turbine flowmeter according to the embodiment of the present invention described above will be described in more detail.

First, when a fluid flows through a fluid channel through which fluid such as a water purifier or a bidet flows, the fluid flowing in the fluid channel is passed through the fluid inlet pipe 220 forming the housing cap 200 of the turbine flowmeter, Is introduced into the coupling tube 210 of the cap 200 and then flows into the body 110 of the housing body 100 to which the coupling tube 210 is coupled.

The fluid introduced into the body 110 of the housing body 100 flows into the case body 300 mounted in the body 110 as described above.

In this process, the fluid is guided by the flow guide 310 formed at the tip of the case body 300, and the fluid passing through the flow guide 310 passes through the flow guide 310 And flows into the case body 300.

The fluid is forced to rotate the rotor 410 while hitting each blade 411 of the rotor 410 installed in the case body 300 and then the rod cap 410 coupled to the rear end of the case body 300 330 through the fluid outlet pipe 120 constituting the housing body 100, and is discharged to the fluid duct.

Particularly, considering that the flow guide 310 has a spiral (or inclined) structure in the process of rotating the rotor 410 by the fluid, the fluid passes through the respective flow guide 310 And the blades 411 of the rotor 410 are formed so as to form a helix (or a slope) in a direction opposite to the direction of rotation of the fluid, The rotation of the rotor 410 can be accurately performed even if a minute flow rate is provided.

The rotor 410 is rotated in the case body 300 under the support of the rod 430. The rotation of the rotor 410 (or rotation of the rod) The magnet 420 fixed between the rotor 410 and the rod 430 is also rotated.

When the magnet 420 is rotated as described above, the Hall ICs 511 of the PCB 510 provided in the receiving part 500 can continuously and repeatedly apply magnetic fields having different polarities as the magnet 420 is rotated And the sensed signal is transmitted to a controller (not shown) connected to the PC 510 so that flow rate confirmation based on the number of revolutions of the magnet 420 is performed.

Particularly, considering that the accommodating portion 500 in which the Hall IC 511 is located is provided at a portion opposed to the communication hole 341 formed on the circumferential surface of the case body 300, the Hall IC 511 is provided with the magnet It is possible to more accurately sense the magnetic field provided by the magnetic field sensor 420, thereby more accurately confirming the flow rate.

As a result, the turbine flowmeter according to the embodiment of the present invention forms a spiral or inclined flow path guide 310 on the fluid inlet side of the case body 300, and each blade 411 of the rotor 410 rotates Even if a minute fluid flow occurs, the rotor 410 can be smoothly rotated, and accurate flow measurement can be performed. In addition, by minimizing the size of the magnet 420, unstable rotation of the rotor 410 due to the weight of the magnet 420 can be prevented.

The turbine flowmeter according to an embodiment of the present invention includes the step portion 112 and the planar portion 340 that correspond to the body portion 110 of the housing body 100 and the circumferential surfaces of the case body 300 The positions of the step portions 112 and the planar portions 340 are matched with the positions where the hole ICs 511 accommodated in the receiving portions 500 are located The Hall ICs 511 can accurately sense the magnetic field of the magnet 420 at all times by forming a communication hole 341 in the flat surface portion 340. [

Furthermore, since the turbine flowmeter according to the embodiment of the present invention is not only simple in its overall structure, but also can be easily disassembled, the maintenance cost can be reduced.

100. Housing body 110. Body portion
111. Hanging ball 112. Step jaw
120. Fluid outlet tube 200. Housing cap
210. Coupling pipe 211. Locking projection
220. Fluid inlet tube 230. Hermetic member
300. Case body 310. Flow guide
320. Hub 330. Rod Cap
340. Flat portion 341. Communicating hole
400. Rotor 410. Rotor
411. Blade 420. Magnet
430 load 500. accommodating portion
510. FPC 511. Hall IC
521. Input terminal 521. Ground terminal
523. Output terminal

Claims (7)

A housing body having a tubular body through which a fluid passes, the tubular body having a distal end opened and a fluid outlet tube connected to a fluid duct at a rear end thereof;
And a rear end of the housing cap is coupled to an open front end of the housing body.
A plurality of flow guides for guiding the flow of fluid are formed in the open end, and a hub is provided at the center of each flow guide, And a rod cap detachably coupled to the rear end thereof;
A rotating body provided in the case body and having a rotor having a plurality of blades formed therein and a ring-shaped magnet rotated together with the rotor; And,
And a receiving part connected to the circumferential surface of the housing body and having a hole integrated circuit (IC) for sensing the rotation speed of the rotating body when the magnet is rotated,
Wherein the housing body is formed with a hollowed-out tube, and the rear end of the housing cap is inserted into the housing body to be in contact with the entire circumference of the case body, Wherein the casing body is prevented from flowing forward and backward in the housing body. The method according to claim 1,
Wherein a plurality of locking holes are formed through the front end surface of the housing body,
And a locking protrusion is formed on a circumferential surface of the housing cap so as to be received in each of the locking holes of the housing body. delete A housing body having a tubular body through which a fluid passes, the tubular body having a distal end opened and a fluid outlet tube connected to a fluid duct at a rear end thereof;
And a rear end of the housing cap is coupled to an open front end of the housing body.
A plurality of flow guides for guiding the flow of fluid are formed in the open end, and a hub is provided at the center of each flow guide, And a rod cap detachably coupled to the rear end thereof;
A rotating body provided in the case body and having a rotor having a plurality of blades formed therein and a ring-shaped magnet rotated together with the rotor; And,
And a receiving part connected to the circumferential surface of the housing body and having a hole integrated circuit (IC) for sensing the rotation speed of the rotating body when the magnet is rotated,
A stepped protrusion having a planar structure is formed on an inner circumferential surface of a portion of the housing body where a receiving portion is connected,
Wherein a planar portion of the planar structure corresponding to the step portion is formed on a circumferential surface of the case body, and a communication hole communicating the inside and the outside of the case body is formed on the planar portion. The method according to claim 1,
Wherein each flow guide provided at the tip of the case body is formed in a spiral or inclined structure. A housing body having a tubular body through which a fluid passes, the tubular body having a distal end opened and a fluid outlet tube connected to a fluid duct at a rear end thereof;
And a rear end of the housing cap is coupled to an open front end of the housing body.
A plurality of flow guides for guiding the flow of fluid are formed in the open end, and a hub is provided at the center of each flow guide, And a rod cap detachably coupled to the rear end thereof;
A rotating body provided in the case body and having a rotor having a plurality of blades formed therein and a ring-shaped magnet rotated together with the rotor; And,
And a receiving part connected to the circumferential surface of the housing body and having a hole integrated circuit (IC) for sensing the rotation speed of the rotating body when the magnet is rotated,
Wherein each flow guide provided at the tip of the case body is formed in a spiral or inclined structure,
Wherein each of the blades of the rotor constituting the rotating body is formed by a spiral formed by the flow guide of the case body or a spiral or an inclined structure in a direction opposite to the oblique direction. The method according to claim 1,
And a rod rotatably coupled to the hub and the rod cap of the case body at both ends through the center of the blade of the rotor,
Wherein the magnet is installed between an outer circumferential surface of the rod and an inner circumferential surface of the rotor.

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