KR101195874B1 - Floater of Folding Air Valve Type - Google Patents

Abstract

The present invention relates to a foldable air valve, the main body is composed of the upper body and the lower body, and the upper body and the lower body combined with a bolt and nut, and also provided with a hinge portion on one side of the main body side around the hinge portion It is configured to be folded. In addition, the air valve guide of the foldable air valve applied in the present invention is configured in the form of a circular round bar guide in the conventional cylindrical shape to reduce the contact area between the air valve guide and the flow valve by the foreign matter between the air valve guide and the flow valve It is to prevent jamming. In addition, the plotter of the foldable air valve applied to the present invention is characterized in that it is easy to manufacture by reducing the number of discs made of Formax material and manufacturing costs.

Description

Floater of Folding Air Valve Type

The present invention generally relates to a structure of an air valve installed at a predetermined position on a water and sewage pipeline to discharge air generated by various causes in the pipeline. The air valve as described above is to guide the air to the air valve to discharge to the outside when the air generated in the water supply and sewage pipe for various reasons to interfere with the transfer of water or sewage. The air valve having the above function is composed of a flow valve immersed by air and an air valve guide for guiding the ups and downs of the flow valve, and when air is generated in the pipeline, the air rides on the outer surface of the air valve guide. Flowing through the air outlet of the top of the air valve guide and the air outlet of the top of the valve seat structure is discharged to the outside. By discharging the air through the air valve as described above to perform a function to enable the smooth transfer of constant or sewage in the pipeline. In addition, the float ball of the air valve is made of stainless steel in relation to specific gravity, etc., and is also generally manufactured by widening the contact area in order to float up and down safely between the flow valve and the air valve guide.

The related art related to such an air valve is described in Korean Utility Model Registration No. 20-0362643 (August 21, 2004). Referring to the prior art as described above with reference to the drawings as follows. 1 is a cross-sectional view of a conventional air valve. In FIG. 1, the conventional rapid air valve 100 includes a main body 10, an air valve guide 30, a guide cover 20, a float ball 40, and a flow valve 45. .

The main body 10 is a circular hollow, the upper end comprises an exhaust port 17, the lower end includes an inlet. The lower end of the main body 10 may be connected to a water pipe or a dividing side (not shown) by forming a flange portion as shown by a dotted line, or may be integrally formed with other parts. The inlet port is connected to the water pipe and passes air or water, and the exhaust port 17 is connected to the outside to discharge the air in the main body 10 to the outside. In addition, the exhaust port 17 is equipped with an air valve guide 30 and the air valve guide 30 is mounted so as to span the upper end of the body 10, the flow valve seat 47 on the air valve guide 30 And the head 15 are sequentially mounted and fixed to the air valve guide 30. In addition, a plurality of first water passages 32 are formed at the upper end side of the air valve guide 30 in the circumferential direction, and a second water passage is formed at the center of the bottom surface of the air valve guide 30. Therefore, the water introduced into the air valve 100 through the inlet can be introduced into the air valve guide 30 through the first water hole 32 and the second water hole.

In addition, the cover 20 is disposed on the head 15 to cover the exhaust port 17. The cover 20 prevents foreign matter from flowing into the rapid air valve 100 from the outside, and the main body 10, The head 15 and the cover 20 are assembled into one by bolts. In addition, the float ball 40 and the flow valve 45 is located inside the air valve guide 30, the float ball 40 is made of stainless steel, PVC, etc. and the float ball 40 is buoyant when obtained It moves up and down with the water. A flow valve 45 is positioned above the float ball 40, and the flow valve 45 is manufactured in a disk shape, and the water is introduced into the rapid air valve 100, so that the float ball 40 is a flow valve 45. Is pushed up to closely contact the flow valve seat 47 of the exhaust port 17. In addition, a hole is formed in the center of the flow valve 45, and the hollow packing 48 and the hollow screw adjusting device 49 are mounted in the hole of the flow valve 45, so that the hollow screw adjusting device 49 is provided. The hollow packing 48 may be in close contact with the float ball 40 by adjusting the float ball 40, and the float ball 40 may be in close contact with the hollow packing 48 to prevent the outflow of air or water. The flow valve seat 47 is made of a rubber material in close contact with the upper edge of the flow valve 45 to effectively seal the exhaust port 17. At this time, a pressure several times greater than atmospheric pressure is formed inside the main body 10 connected to the water pipe, and the air passing through the water pipe is collected in the rapid air valve 100, and the float ball ( 40 and the flow valve 45 can be instantaneously lowered to expel air quickly. In addition, the air is quickly discharged through the first water hole 32 and the exhaust port 17 formed in the air valve guide 30, water is introduced into the rapid air valve 100 from the water supply pipe while the air is discharged, float The ball 40 and the flow valve 45 are raised again to act to close the exhaust port 17 to prevent leakage.

The conventional air valve as described above requires a large working space due to the length of the flow valve guide when maintaining and replacing the flow valve and the flow valve guide. Also, foreign matter is frequently caught between the air valve guide and the flow valve. Because of this, it often prevented the smooth movement of the flow valve leading to a leakage accident. In addition, since the float ball itself is made of stainless steel or PVC and must be manufactured in a spherical shape, the manufacturing process is complicated, and the manufacturing cost is high and it is difficult to manufacture.

The air valve of the present invention for solving the problems of the conventional air valve as described above forms an annular hinge portion 400 on one side of the main body of the air valve guide 216, the plotter 217 and the flow valve 225 The upper part of the main body consisting of a) is folded or unfolded to one side with respect to the hinge part 400 to repair the air valve guide 216 and the flow valve 225 in a narrow space. In addition, the air valve of the present invention is configured in the form of a conventional cylindrical air valve guide in the form of a plurality of circular round bar guide 216 to minimize the contact area between the foreign matter caught between the air valve guide 216 and the flow valve 225. To prevent it. In addition, the air valve of the present invention facilitates the manufacture of the plotter 217 by stacking a plurality of thin disks of Formax material in place of the conventional float ball to reduce the height of the entire air valve.

As described above, the air valve of the present invention has the effect of maintaining and replacing the air valve guide and the flow valve conveniently in a narrow place, and by reducing the mutual contact area while moving the flow valve stably in the air valve guide. The foreign matter between the air valve guide and the flow valve is prevented from leaking due to malfunction of the air valve. In addition, the shape of the plotter is made by stacking a large number of Formax materials in the form of a disk in the form of a sphere to facilitate the manufacture of the plotter and the manufacturing cost is also low cost effect.

1 is a cross-sectional view of a conventional air valve,
Figure 2 is a perspective view of the present inventors foldable air valve,
Figure 3 is an enlarged view of the hinge portion of the foldable air valve 700 applied to the present invention,
4 is a perspective view of a folding state of the folding air valve of the present invention around the hinge;
5 is a cross-sectional view of the folding air valve of the present invention,
6 is a cross-sectional view of the folding air valve of the present invention by rotating the upper portion of the main body 200 by about 90 degrees by using a hinge 400 configured to loosen a plurality of bolts to fasten the upper body and the lower body,
7 is a perspective view of a state in which the upper portion of the main body of the air valve of the present invention is rotated about 90 degrees around the hinge portion and the plotter is released.

Referring to the present invention as described above with reference to the drawings. 2 is a perspective view of a foldable air valve of the present invention. In FIG. 2, the present invention foldable air valve 700 is composed of a main body upper part 200 and a main body lower part 300, and the main body upper part 200 and the main body lower part 300 are coupled by a plurality of bolt nuts. In addition, the upper body 200 is a hinge portion 400 is configured to be folded and closed at one side of the lower body 300. In the above hinge unit 400 is a structure that can rotate the top of the body around the hinge axis when the main body 200 and the bolt 210 nut 220 of the lower body 300 is released and separated.

3 is an enlarged view of a hinge portion of a foldable air valve 700 applied to the present invention. In FIG. 3, the hinge part 400 of the foldable air valve of the present invention is formed at one side lower end of the main body 200 and includes an insertion part 202 having an insertion hole 201 at one side of the lower part of the main body ( 204 to insert the bolt-shaped hinge shaft 205 into the hole 203 of the receiving portion 204 and the insertion hole 201 of the inserting portion 202 and to engage and fasten the nut 206 will be.

4 is a perspective view of the foldable air valve of the present invention with the hinge portion as the center. In FIG. 4, the foldable air valve 700 rotates around the hinge part 400 to be open as shown in FIG. 4, indicating that maintenance and replacement of the flow valve or the plotter is possible. In addition, in FIG. 4, the plotter 217 is a stack of a plurality of discs, which is located inside the four circular round bar guides 216 fixed to the base 215 and the upper end 226 of the upper body, and the base 215 of the lower part. Indicates that the circular round bar guide is inserted into the other end and fixed with a nut.

5 is a cross-sectional view of the foldable air valve of the present invention. In FIG. 5, the folding air valve of the present invention is coupled to and released from the main body 200 and the lower body 300 in a bolt and nut manner, and a hinge part 400 is formed at one side of the hinge part 400. The structure of the upper body 200 can rotate around the hinge axis 205. In addition, one side of the air valve guide 216 is press-fitted inside the upper end 226 of the upper body, the air valve guide 216 is a plurality of small circular round bar guide 216 and the other end of the lower base 215 is inserted And fixed with a nut 218. In the above, a plurality of circular round bar guides 216 may be implemented in various ways such as three or five, but four are most suitable to obtain field experiment results. In addition, the base 215 is located inside the plurality of air valve guides 216, the plotter 217 consisting of four to eight 10 mm thick plate made of Formax material is located, the upper portion of the plotter 217 A disk-shaped flow valve 225 having a through hole is located. In the above, the 10 mm disc of Formax material is optimally confirmed by five field tests. When the air is generated in the water pipe, the foldable air valve 700 configured as described above collects the air in the air valve, and when the pressure due to the air rises, the flow valve 225 and the plotter 217 descend to the exhaust port 250. The air in the air valve is quickly discharged through the exhaust gas, and after the air is discharged, the foldable air valve configured as described above rapidly flows water from the water supply pipe, so that the floater 217 floats due to buoyancy and the floater 217 The upper flow valve 225 is to act to prevent the leakage of the exhaust port 250. The foldable air valve of the present invention configured as described above is not only easy to manufacture the plotter 217, but also a small contact area between the air valve guide 216 and the flow valve 225, the air valve guide 216 and the flow valve (225) It is a structure that can prevent the foreign matter caught between.

6 is a cross-sectional view of the folding air valve of the present invention by rotating the upper portion of the main body 200 by about 90 degrees using a hinge 400 formed on one side by loosening a plurality of bolts that fasten the upper body and the lower body. . As described above, after the main body 200 is rotated and folded around the hinge 400, maintenance or replacement of the air valve guide 216 or the flow valve 225 may be performed smoothly even in a narrow space. There is an advantage.

7 is a perspective view of a state in which the upper portion of the main body of the air valve of the present invention is rotated about 90 degrees around the hinge portion and the plotter is released. In FIG. 7, the base 215 shows that the circular valve-shaped air valve guide 216 is assembled by the nut 218, and a plurality of bolts are coupled to the upper body 200 and the lower body 300. This indicates that the groove 229 into which the groove is inserted is formed. In addition, the plotter 217 applied to the disease in FIG. 7 indicates that a plurality of disks having a thickness of 10 mm are laminated. The plotter 217 applied to the present invention stacks four to eight disks as described above. The plotter can be configured and five field tests proved to be the most suitable.

The present invention configured as described above is easy to maintain and replace the air valve guide 216 and the plotter 217 in a narrow space, to reduce the manufacturing cost by simplifying the configuration of the plotter 217, air valve guide The configuration of the air valve guide 216 is composed of a plurality of circular round guides to reduce the contact area between the 216 and the flow valve 225 and to stably move the flow valve 225 about the air valve guide 216. It is characterized by.

10: main body, 30, 216: air valve guide,
40; Float Ball, 49, 225: Flow Valve
200: upper part of the body, 217: plotter,
300: lower body 250: exhaust port
400: hinge part,

Claims (5)

Consists of the upper body 200, the lower body 300 coupled to the upper body, and a hinge portion 400 for folding and unfolding the upper part of the main body and one side of the lower body and the main body, In the air valve floater in which air is generated in the main body to collect the inside of the main body to discharge the air to the outside of the main body after the air is discharged after the water is ingested to prevent leakage,
The plotter is configured by stacking a plurality of flat discs, and the plotter includes a plurality of circular round bar guides 216 and one end of the circular round bar guide 216 on which one side is fastened and fixed to the upper end 226 of the main body 200. A floater, which can flow up and down inside the base 215 coupled to the portion.
The method of claim 1,
The flat disc,
A plotter in the form of a 10 mm thick disc. The method of claim 1,
The flat disc,
Plotter characterized by the number of 4 to 8. The method of claim 1,
The flat disc,
A plotter comprising five of them. The method of claim 1,
The plotter is
A plotter, whose material is Formax.

Images