KR101155172B1 - A fluid flow meter - Google Patents

Abstract

The present invention relates to a fluid flow meter, the object of which is to improve the indicator to rise due to the fluid discharge pressure and its arrangement structure so that the indicator can accurately display the value according to the fluid discharge flow rate.
According to the fluid flow meter according to the present invention for this purpose; The inlet 311 is drilled so that the fluid flows in the center of the upper surface, and the outlet 312 is drilled so that the fluid escapes to the edge side compared to the inlet 311, and the base thread 310 is processed with the male screw 313 on the upper wall. )Wow; An inner tube 320 installed on the center of the upper surface of the base 310 and opened up and down to communicate with the inlet 311, and having a scale 321 marked in a longitudinal direction on a wall thereof; The lower end 331 is fitted into the inlet 311 of the base 310 and the upper end 332 is fitted into the lower end of the inner tube 320 is coupled, the gas passage 333 in the longitudinal direction in the center A rubber cap 330; The gas guide path 341 is installed on the upper end of the gas passage 333 of the rubber cap 330 and guides the fluid flowing through the gas passage 333 of the rubber cap 330 to the inner tube 320. A rod-supporting member 340 having a perforated hole and a support groove 342 formed at the top center thereof; The lower end is fitted into the support groove 342 of the rod-supporting member 340 and the upper end is disposed to extend to the upper end of the inner tube 320, and the indicator 360 is installed on the outside so as to slide up and down. A guide rod 350 rising upward when fluid is introduced into the 320; An ejection cap 370 disposed at an upper end of the inner tube 320 and fitted at an upper end of the guide rod 350 to a center thereof, and having a plurality of ejection holes 372 perforated at an edge thereof; The upper end is closed and the lower end is opened and the lower end is enclosed so as to contact the upper edge of the base 310 while surrounding the inner tube 320, and the fluid discharged through the ejection cap 370 to the outlet 312. An outer tube 380 for guiding; Fastening ring 390 is fastened to the male screw portion 313 of the base 310 by a screw coupling method for sealing the lower end of the outer tube 380 through the O-ring 314 to the upper end of the base 310. of; .

Description

Fluid Flow Meter {A FLUID FLOW METER}

The present invention relates to a fluid flow meter, and more particularly to a fluid flow meter that can be checked with the naked eye by the indicator rises to a constant height by the resistance according to the flow amount of the fluid.

In general, the fluid flow meter is widely used in a manufacturing facility using various fluids, or a welding facility using many kinds of reaction gases. Such a conventional fluid flow meter is configured to be visually confirmed by the user by displaying the flow amount of the fluid used in a simple position.

Such a conventional fluid flow meter is also disclosed in Patent Registration No. 10-0846457, to which the applicant is entitled. Referring to FIG. 1; The conventional fluid flow meter 10 disclosed in the gas-saving valve assembly for welding machines of Patent Registration No. 10-0846457 has a lower portion mounted in a bypass bore (not shown) of the valve block 1 and a bypass bore on the center. A first head (not shown) communicating with the gas inlet (not shown) of the mounting head 11 which is perforated in the lengthwise direction, and a second channel (not shown) for venting the gas is perforated at an edge thereof; An inner tube 13 installed in a central portion of the upper end of the mounting head 11 and communicating with a first flow path, and having an indicator 12 having a ball shape therein, and having an upper end opened; It is installed on the upper end of the mounting head 11 through the tightening ring 15 while enclosing the outside to guide the gas (fluid) discharged through the inner tube 13 to escape to the second flow path of the mounting head 11. The tube 14 is provided.

Therefore, the gas (fluid) introduced into the inner tube 13 through the first passage is lifted to the second passage side through the gap between the inner tube 13 and the outer tube 14 while lifting up the indicator 12 in the form of a ball. do. Therefore, the gas discharge flow rate can be adjusted while visually confirming the height of the indicator 12 raised due to the gas (fluid) discharge pressure.

However, the ball-type indicator 12 applied to the conventional fluid flow meter 10 maintains the elevated state and performs an irregular circular motion (rotational motion) by gas (fluid) resistance, and at the same time with the inner tube 13 wall surface. By hitting, there is a disadvantage that the flow rate value is not displayed accurately. In addition, if the conventional fluid flow meter 10 is not installed in the upright state, it becomes difficult to accurately display the flow rate by lifting up and down while the ball-type indicator 12 collides with the inner tube 13 wall surface. Therefore, there is a problem that requires great care when assembling and installing the conventional fluid flow meter (10).

As a result, since the flow rate display through the indicator 12 in the form of a ball is not made correctly, the operator cannot accurately operate the valve, which may cause excessive gas (fluid) to escape.

The present invention is to solve this problem; An object of the present invention is to provide a fluid flow meter that can accurately display the indicator according to the fluid discharge flow rate by improving the indicator and the arrangement structure thereof rises due to the fluid discharge pressure.

Another object of the present invention is to provide a fluid flow meter that can display the accurate flow rate by changing the height of the lift rapidly without the phenomenon of the indicator is not in contact with the wall and irregular circular motion in accordance with the fluid discharge flow rate control will be.

It is still another object of the present invention to provide a fluid flow meter that can be applied to flow rate products having various capacities by improving an inlet structure into which fluid is first introduced.

According to an aspect of the present invention, A fluid flow meter capable of indicating an amount of fluid flowing;

The fluid flow meter; An inlet is drilled on the central portion of the upper surface to allow fluid to flow therein, and an outlet is drilled to allow the fluid to escape to the edge of the inlet, and a male thread is machined to the upper wall; An inner tube installed on the center of the upper surface of the base and opened up and down to communicate with the inlet, and a scale marked in the longitudinal direction on the wall; A lower end is coupled to the inlet of the base and the upper end is fitted to the lower end of the inner tube, and the rubber cap has a gas passage in the center thereof in the longitudinal direction; A rod-supporting member fitted to the upper end of the gas passage of the rubber cap and having a perforated gas guide to guide the fluid flowing through the gas passage of the rubber cap to the inner tube, and having a support groove formed at the upper center thereof; A lower end is coupled to the support groove of the rod-supporting member, and an upper end is disposed to extend to the upper end of the inner tube, and the guide rod is installed on the outside so that the indicator slides up and down, and the upper side of the guide rod moves upward when the fluid flows into the inner tube; An ejection cap disposed at an upper end of the inner tube and coupled to an upper end of the guide rod at a center thereof, and having a plurality of ejection holes formed at an edge thereof; An outer tube which closes the upper end and opens the lower end and surrounds the inner tube while the lower end is in contact with the upper edge of the base to guide the fluid discharged through the ejection cap to the outlet; A fastening ring fastened by a screw coupling method to an external thread portion of the base to couple a lower end of the outer tube to an upper end of the base; .

The present invention also provides The through-hole is vertically communicated to the center so that the indicator can be fitted to the guide rod, and the conical shape is gradually narrowed from the top to the bottom; In the center of the upper surface of the indicator is characterized in that the stepped jaw protrudes so that the gap is formed even when the indicator is lifted to the maximum and in contact with the lower surface of the injection cap.

The present invention also provides The inner tube is characterized in that the inner diameter is formed in a tapered form gradually widening from the top to the top.

The present invention also provides An orifice member having a perforated orifice hole is inserted into the gas guide path of the rod-supporting member.

According to the fluid flow meter according to the present invention configured as described above; Since the indicator is configured to move up and down through the guide rod in the inner tube, when the fluid flows into the inner tube, the indicator moves accurately along the guide rod only in the up and down direction so that the numerical value according to the fluid discharge flow rate can be displayed accurately. There is. In particular, even when the fluid flow meter is installed slightly crooked, the cone-shaped indicator moves up and down along the guide rod without contacting the inner tube wall, thereby displaying an accurate flow rate. There is an advantage of easier installation of the applied product.

In addition, according to the fluid flow meter according to the present invention; When the orifice member having different inner diameters of the orifice holes is installed in the gas guide path of the rod-supporting member, there is an advantage in that a flow flow meter product having various capacities can be implemented while using other components as they are.

Figure 1 shows an extract of the conventional fluid flow meter portion disclosed in Patent Registration No. 10-0846457.
2 is a cross-sectional view showing a gas reduction valve assembly for a welder to which a fluid flow meter according to the present invention is applied.
3 is a cross-sectional view showing a fluid flow meter according to the present invention.
4 is an exploded perspective view showing a fluid flow meter according to the present invention.
5 is an exploded cross-sectional view showing a fluid flow meter according to the present invention.
6 and 7 show the operating state of the fluid flow meter according to the present invention.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. Briefly the accompanying drawings, Figure 2 schematically shows the configuration of the gas-saving valve assembly for a welder to which the present invention is applied, Figures 3 to 5 show the configuration of the fluid flow meter according to the present invention, Figure 6 and Figure 7 shows the operating state of the fluid flow meter according to the present invention. (In the embodiment of the present invention the present invention in the gas reduction valve assembly for a welder disclosed in Korean Patent No. 10-0846457 to which the applicant has a right. It will be described that the fluid flow meter according to).

First, the gas reduction valve assembly for the welder is disposed at the end of the flexible gas hose connecting the welding tank and the storage tank side in which the welding gas is stored so that the gas is stable at a constant pressure in the welding torch at the beginning of work. Herein, the fluid flow meter according to the present invention for visually confirming the weld gas (fluid) flow rate is applied.

That is, as shown in Figure 2, the gas reduction valve assembly for welding machine to which the present invention is applied, the regulator part 100 for discharging the welding gas (fluid) of the storage tank (not shown) at a constant pressure, and the welding base body The solenoid valve (not shown) of the (not shown) is automatically divided according to the gas pressure of the gas hose (not shown) according to the opening and closing operation is divided into a gas reduction valve part 200 that can reduce the welding gas.

The regulator part 100 includes a metal regulator block 110 in which a gas flow path is processed so that welding gas from a storage tank flows in and exits the gas reduction valve part 200 at a set pressure, and the regulator block 110. A pressure gauge 120 mounted on an upper side of the pressure gauge 120 for displaying an inlet gas pressure, a pressure valve unit 140 mounted on a valve bore 130 formed inside the regulator block 110, and the pressure valve unit 140. A pressure setting unit 150 is provided for adjusting the 140 to set the welding gas supply pressure.

In addition, the gas reduction valve part 200 includes a metal valve block 210 in which a gas flow path is processed so that gas flows from the regulator part 100 at a predetermined pressure and exits to the gas hose side, and the valve block 210. And a needle valve unit 230 for opening / closing the orifice 220 formed in the valve block 210 and the fluid flow meter 300 for checking the flow rate of gas entering and exiting the upper side of the The valve driving unit 240 for operating the unit 230 is provided.

Therefore, when the welding worker presses the switch of the welding torch for the welding operation, the solenoid valve of the welding body is opened and the welding gas of the storage tank passes through the pressure valve unit 140 of the regulator part 100 to reduce the gas saving valve part. It is supplied to the (200) side. At this time, since the orifice opening degree of the pressure valve unit 140 of the regulator part 100 is set to a constant pressure through the pressure setting unit 150, the welding gas is supplied at a constant pressure. Subsequently, the welding gas introduced into the gas reduction valve part 200 passes through the orifice 220 and the outlet 250 of the valve block 210 after passing through the fluid flow meter 300. When the welding worker releases the switch of the welding torch, the solenoid valve of the welding main body is closed and the orifice 220 of the valve block 210 is also closed to maintain the pressure inside the gas hose.

Therefore, the welding gas is stably ejected at the initial stage when the solenoid valve of the welding main body is opened by the repeated welding operation, thereby stably generating the initial arc. Since the configuration and the resulting effects of the gas reduction valve assembly for welders to which the present invention is applied are described in detail in Korean Patent No. 10-0846457, detailed description thereof will be omitted.

<Description of Configuration of Fluid Flow Meter According to the Present Invention>

Meanwhile, the fluid flow meter 300 according to the present invention is disposed in the middle of a flow path through which the welding gas (fluid) of the gas reduction valve part 200 is discharged, and visually confirms the discharge flow rate, as shown in FIGS. 2 and 3. As described above, the inlet 311 into which the welding gas (fluid) flows in and the outlet 312 exiting therefrom are punctured, and the base 310 in which the external thread 313 is processed on the upper outer wall, and the upper surface center of the base 310. The inner tube 320, which is built up in the installation, the rubber cap 330 for connecting the lower end of the inlet 311 and the inner tube 320 of the base 310, and is fitted to the upper end of the rubber cap 330 And a rod-supporting member 340 in which a gas guide path 341 is perforated to guide the welding gas (fluid) to the inner tube 320, and in the inner tube 320 through the rod-supporting member 340. It is installed upright and the guide rod 350 is installed on the outside so that the indicator 360 slides up and down, and the top of the inner tube 320 It is disposed in the ejection hole 372 is perforated blower cap 370, and installed to surround the inner tube 320, and has an outer tube 380 that is placed in the upper end of the base 310 through the tightening ring 390 and have. Hereinafter, each component of the fluid flow meter 300 according to the present invention will be described in detail with reference to FIGS. 3 to 5.

First, the base 310 is made of an aluminum block, the inlet 311 is communicated in the vertical direction so that the welding gas (fluid) flows in the center and the longitudinal direction in which the welding gas (fluid) is escaped to the edge The outlet 312 communicated with is punctured. And the male screw 313 is processed on the upper outer wall of the base 310, which is for coupling with the tightening ring (390). When the fluid flow meter according to the present invention is applied to a gas reduction valve assembly for a welder, the lower end of the base 310 is configured in the form of a male screw so as to be connected to the bypass flow path midway of the valve block 210. In addition, reference numeral 400 denotes a spacer that is fitted into the inlet 311 of the base 310 to guide the welding gas inflow, and is installed in the valve block 210 of the gas reduction valve assembly for the welder. It is a necessary component.

The inner tube 320 is installed on the center of the upper surface of the base 310, the upper and lower portions are opened to communicate with the inlet 311 of the base 310, and the scale 321 is marked on the wall surface in the longitudinal direction. The inner tube 320 is configured in the form of a taper tube in which the inner diameter D2 of the upper side is gradually larger than the lower inner diameter D1 (D1 <D2), which is an indicator even when a large amount of welding gas (fluid) is introduced. The purpose of the present invention is to allow the user to smoothly escape while raising the 360 (in the embodiment of the present invention, the innermost diameter of the uppermost end of the inner tube 320 is about 1 mm larger).

And the rubber cap 330 is to connect the inlet 311 and the inner tube 320, the lower end of the base 310, the gas passage 333 in the longitudinal direction in the center as described above, The lower end 331 of the tooth is fitted into the inlet 311 of the base 310 in the form of interference fit, and the upper end of the tooth 332 consisting of a small diameter portion is inserted into the lower end of the inner tube 320 is coupled to fit. Therefore, the inner tube 320 is installed at the center of the base 310 so as to be connected to the inlet 311 of the base 310.

The rod-supporting member 340 is installed on the upper end of the gas passage 333 of the rubber cap 330, and includes a welding gas (fluid) introduced through the gas passage 333 of the rubber cap 330. A gas guide path 341 is drilled to guide the pipe 320, and a support groove 342 is formed at the upper center thereof so that the lower end of the guide rod 350 may be fitted thereto. In addition, an orifice member 343 in which the orifice hole 343a is drilled is detachably fitted to the gas guide path 341 of the rod-supporting member 340, which is different from the opening degree of the orifice hole 343a. As the orifice member 343 is installed, it is to implement a flow rate flow meter 300 product having various capacities while using other components as they are.

On the other hand, the guide rod 350 is coupled to the lower end is fitted into the support groove 342 of the rod-support member 340 and the upper end is extended to the upper end of the inner tube 320, the indicator 360 is vertically sliding up and down It is installed as possible. Therefore, when the welding gas (fluid) is introduced into the inner tube 320, the indicator 360 is moved upward along the guide rod 350. The indicator 360 is drilled through the through hole 361 is vertically communicated to the center so as to be fitted to the guide rod 350, the diameter is increased from the top to the bottom without touching the inner wall of the inner tube (320) It is made up of a conical shape that gradually narrows. Therefore, the welding gas (fluid) coming from the bottom side is raised to the indicator 360 smoothly, and then exits to the upper side. In addition, a stepping jaw 362 is formed at the center of the upper surface of the indicator 360 so that a gap is formed even when the indicator 360 is raised to the maximum and comes into contact with the lower surface of the ejection cap 370. Step height 362 is 0.5mm})

In addition, the ejection cap 370 is inserted into the upper end of the inner tube 320, the coupling hole 371 is perforated so that the upper end of the guide rod 350 is fitted in the center thereof, a plurality of ejection openings at the edge thereof 372 is perforated at equal intervals.

And the outer tube 380 is formed of a tube shape of the upper end is closed and the bottom is open, this is a welding gas (fluid) escaped through the ejection cap while the inner tube is laid so that the lower end is in contact with the upper edge of the base ) Is guided to the outlet side of the base. In addition, a plurality of support ribs are provided on the upper inner wall of the outer tube 380 to maintain a predetermined gap between the upper end of the inner tube 320 and the ejection cap 370 to allow the welding gas to smoothly escape. 381 is integrally molded.

In addition, the fastening ring 390 is fastened to the male screw 313 of the base 310 by a screw coupling method is to seal the lower end of the outer tube 380 through the O-ring 314 to the top of the base 310 via the medium. .

<Description of Operation and Effect of Fluid Flow Meter According to the Present Invention>

Next, the operation of the fluid flow meter according to the present invention configured as described above and the effects thereof will be described with reference to FIGS. 6 and 7.

First, when a welding gas (fluid) flows into the inlet 311 of the base 310, this is the gas passage 333 of the rubber cap 330 → the orifice member 343 → the gas guide of the rod-supporting member 340. It enters the inner tube 320 through the furnace 341. Then, the welding gas (fluid) is lifted up while returning the cone-shaped indicator 360 disposed on the guide rod 350 and exits to the upper side of the outer tube 380 through the ejection opening 372 of the ejection cap 370.

Subsequently, the welding gas (fluid) which escapes to the upper side of the outer tube 380 descends downward and exits to the outlet 312 of the base 310.

At this time, the user (worker) can properly check the discharge flow rate of the welding gas (fluid) while visually confirming the height of the scale 321 (see FIG. 4) on which the indicator 360 is raised as the welding gas (fluid) escapes. I can adjust it.

In this fluid flow meter 300, the indicator 360 is moved up and down inside the inner tube 320 through the guide rod 350 according to the welding gas (fluid) discharge flow rate, so as not to hit the inner wall of the inner tube 320, The flow rate can be displayed. In particular, even when the fluid flow meter 300 is installed slightly at an angle, the indicator 360 having a conical shape moves up and down along the guide rod 350 without contacting the inner tube 320 wall, thereby displaying an accurate flow rate. can do.

During the welding operation, a large amount of welding gas (fluid) may be discharged in the gas hose at once. In this case, as shown in FIG. 7, the indicator 360 of the fluid flow meter 300 is lifted up to the top of the inner tube 320 to be in contact with the bottom surface of the ejection cap 370. In this case, the gap between the lower surface of the ejection cap 370 and the ejection cap 370 is maintained by the stepping jaw 362 without blocking the ejection openings 372, and thus the welding gas (fluid) is ejected from the ejection cap. It is smoothly exited to the outer tube 380 through the outlets 372 of 370.

In addition, in the fluid flow meter 300 according to the present invention, when the orifice member 343 having a different inner diameter of the orifice hole 343a is installed in the rod-supporting member 340, the flow flow meter having various capacities may be used as it is. The product can be implemented.

On the other hand, in one embodiment according to the present invention has been described as applying the flow rate meter to the gas reduction valve assembly for welders, without being limited to this, of course, it can be installed in the flow path of the various products flowing fluid. In addition, the configuration of the base 310 constituting the flow rate flow meter according to the present invention may vary in structure and mounting form of the inlet 311 and the outlet 312 for guiding fluid in and out according to where the present invention is applied.

310..Base 311.Inlet 312..Outlet
320 .. Inner pipe 330. Rubber cap 340. Rod-support member
350.Guide rod 360.Indicator 370.Spray cap
380..External pipe 390..Tightening ring

Claims (4)

The inlet 311 is drilled in the vertical direction in the vertical direction so that the fluid flows in the upper surface center, and the outlet 312 is drilled so that the fluid escapes to the edge side compared to the inlet 311, and the male screw 313 is machined to the upper wall. A base 310; An inner tube 320 installed on the center of the upper surface of the base 310 and opened up and down to communicate with the inlet 311, and having a scale 321 marked in a longitudinal direction on a wall thereof; A guide rod 350 disposed vertically in the inner tube 320 and installed to move the indicator 360 vertically according to whether the fluid is introduced into the inner tube 320; The upper end is closed and the lower end is opened and the lower end is enclosed with the upper edge of the base 310 while surrounding the inner tube 320, and the fluid exited through the upper portion of the inner tube 320 is discharged to the outlet 312. An outer tube 380 guiding to the side; A fastening ring 390 that is fastened to a male screw 313 of the base 310 by a screw coupling method and couples a lower end of the outer tube 380 to an upper end of the base 310; A fluid flow meter provided;
The fluid flow meter (300);
The lower end 331 is fitted into the inlet 311 of the base 310 and the upper end 332 is fitted into the lower end of the inner tube 320 is coupled, the gas passage 333 in the center in the longitudinal direction A rubber cap 330;
The gas guide path 341 is installed on the upper end of the gas passage 333 of the rubber cap 330 and guides the fluid flowing through the gas passage 333 of the rubber cap 330 to the inner tube 320. A rod-support member 340 having a support groove 342 formed therein to be drilled and fitted with a lower end of the guide rod 350 at the center of the upper end thereof;
An orifice member 343 fitted into the gas guide path 341 of the rod-supporting member 340 and perforated to allow the orifice hole 343a to penetrate therethrough;
An ejection cap 370 disposed at an upper end of the inner tube 320 and fitted with an upper end of the guide rod 350 at a center thereof, and having a plurality of ejection holes 372 perforated at an edge thereof; A fluid flow meter further comprising. delete delete delete

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