KR20050017035A - A valve - Google Patents

Abstract

PURPOSE: A valve assembly is provided to cut down the manufacturing cost by simplifying the structure, and to change the direction of actuating fluid actively by rotating and reversing a bidirectional motor in applying power and placing the assembling hole near the center of the actuating fluid pressure section. CONSTITUTION: A valve assembly(1) is composed of a valve body(5) having an inlet part(2) flowing actuating fluid in, a couple of first and second discharge part(3,4) discharging actuating fluid in the different direction and a storage space, a sealing piece(8) having an assembling hole(6) rotated in the storage space of the valve body and arranged horizontally in the lower part of the valve body and an arc outer periphery(7) including the center of arc for forming the closed section of the first and second discharge parts and opening or closing the inlet of the first or second discharge part, and a driving motor(11) arranged in the upper part of the valve body and composed of a driving shaft in the upper part of the assembling hole of the sealing piece.

Description

Valve assembly {A VALVE}

The present invention relates to a valve assembly, and more specifically, by using a bidirectional drive motor can be rotated in the forward / reverse direction to quickly adjust the direction of the working fluid can be adjusted to a high pressure according to the flow of the working fluid A valve assembly operable with respect

As is well known, there are various types of valves depending on the purpose and purpose of use.

In general, the most widely used are stop valves (globe valves and angle valves), throttle valves, check valves, pressure reducing valves, safety valves, and so-called cocks.

The type and dimensions of these valves are specified in a given standard.

Here, the stop valve is generally widely used as a cut-off device, and the production cost is mostly inexpensive, and there are a globe valve in the same direction and an angle valve in a direction perpendicular to the flow.

The check valve refers to a valve that allows flow in only one direction and prevents flow in the opposite direction in order to prevent danger or ensure function.

The pressure reducing valve is a valve for automatically reducing the pressure of the fluid and maintaining a constant pressure after the pressure reduction, and the throttle valve is a valve for adjusting the flow rate, and the pressure is not a problem.

The safety valve is a valve for releasing a portion of the fluid to suppress the increase in pressure when the pressure exceeds any limited value.

These various types of valves are appropriately used for their respective applications. The valves described above are generally installed in a pipeline in which working fluid flows in one direction.

However, in equipment such as an air conditioner or a boiler, a piping structure is usually employed in which one main pipe is branched into two branch pipes, and then a working fluid flowing in one direction through the main pipe flows to either side of the two branch pipes. do.

In this case, a so-called three-way valve (hereinafter referred to as a "valve assembly") is mounted between the main pipe and the two branch pipes.

Conventional valve assemblies are usually electronic and operate with a solenoid valve, but have the disadvantage of being substantially expensive.

Accordingly, the present invention makes it easier to change the direction of the working fluid while improving the disadvantages of the solenoid valve, such as a solenoid valve, which is expensive in the prior art, and can safely switch without damaging the components during the change of direction, and the high pressure working fluid It is designed to provide a new type of valve assembly that can be smoothly turned and has a simple structure, which reduces manufacturing costs and is easy to manufacture.

Of course, although a valve assembly having a mechanical structure which is inexpensive compared to an electronic device is also known in the related art, the present applicant, unlike the valve assemblies having a known mechanical structure, makes it easier to change the direction of the working fluid and The purpose is to provide a valve assembly that can smoothly redirect working fluids and reduce manufacturing costs while still being easy to manufacture.

The valve assembly of the present invention for achieving the object of the present invention as described above has an inlet portion to which the working fluid is introduced, and a pair of first and second outlets for discharging the introduced working fluid in different directions, Upper and lower sets of valve bodies having a predetermined accommodation space therein; A circular arc having a fastening hole arranged in the transverse direction with respect to the bottom surface of the valve body so as to be freely rotatable in the receiving space of the valve body, and having a center of a circular arc forming a closed end surface of the first and second discharge portions different from the fastening hole. A sealing piece having an outer circumferential surface and selectively opening and closing an inlet of the pair of first and second discharge portions; The drive shaft is installed in the upper end of the fastening hole of the sealing piece and includes a drive motor provided on the upper surface of the valve body.

Hereinafter, the valve assembly of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing a valve assembly of the present invention, Figures 2 to 4 is a cross-sectional view showing an operation state of the valve assembly of the present invention step by step.

As shown, Figures 1 to 4 is a view showing the valve assembly of the present invention, the valve assembly 1 of the present invention is the inlet portion 2, the working fluid flows in and the working fluid flows in different directions An upper and lower pair of valve bodies 5 having a pair of first and second discharge portions 3 and 4 and having a predetermined accommodation space therein; Has a fastening hole (6) disposed in the transverse direction with respect to the bottom surface of the valve body (5) rotatably in the receiving space of the valve body 5, the first and second discharge different from the fastening hole (6) An outer circumferential surface 7 of an arc having a center p of an arc forming a closed section of the parts 3 and 4 is formed, and selectively opens and closes the inlets of the pair of first and second discharge parts 3 and 4. Sealing piece 8; The drive shaft 10 is installed at the upper end of the fastening hole 6 of the sealing piece 8 and has a drive motor 11 provided on the upper surface of the valve body 5.

Here, the valve assembly 1 according to the present invention employs an AC motor in which the drive motor 11 is bidirectionally rotated in a state where the drive shaft 10 is located at one side of the center of the receiving space of the valve body 5. It is configured to perform the valve function by opening and closing the discharge parts (3, 4) more quickly by adjusting the rotation angle of the sealing piece (8) through the forward / reverse rotation.

As described above, according to the present invention, the sealing piece 8 is rotated by rotating the sealing piece 8 forward / reversely through the driving shaft 10 by applying the bidirectional AC motor capable of forward / reverse rotation of the driving motor 11. The first and second discharge parts 3 and 4 can be opened and closed while moving in the forward / reverse direction along the outer circumferential surface 7 having an arc shape.

In particular, in the valve assembly 1 of the present invention, the drive shaft 10 and the circular shaft (p) of the sealing piece 8 formed while rotating the circular arc-shaped sealing piece 8 is different from each other the drive shaft (10) is characterized by having a structure capable of operating at a high pressure of the working fluid as it is located close to the center of the cross section under which the working fluid pressure is applied.

In addition, since the rotation center p formed by the sealing piece 8 has a center different from that of the drive shaft 10 as described above, the accommodation space of the valve body 5 is defined by the sealing piece 8. It is natural that the sealing piece 8 is designed to have a structure capable of opening and closing the first and second discharge parts 3 and 4 without slipping in a sufficiently rotatable state in the reverse direction.

In addition, the valve body 5 needs to have corrosion resistance because a working fluid flows therein.

Therefore, the above-described components including the valve body 5 are advantageously made of copper, bronze, or other nonferrous metal, which is advantageous in corrosion resistance.

In addition, in the embodiment of the present invention, the valve body 5 is formed in a substantially rectangular block shape, and the part of the valve body 5 that is in contact with the sealing piece 8 therein is partially rounded, but this is only one embodiment. The shape of the valve body 5 may be cylindrical or other shape.

Referring to the process of switching the direction of the working fluid by the valve assembly 1 of the present invention as described above are as follows.

First, FIG. 2 shows a state in which the first discharge part 3 is shielded by the sealing piece 8, and the working fluid flows from the inlet part 2 to the second discharge part 4.

When the direction of the working fluid is to be switched to the first discharge portion (3) in the above by applying power to the drive motor 11 to drive the coupling hole 6 coupled to the drive shaft 10 of the drive motor 11 When the sealing piece 8 blocks the second discharge portion 4 as shown in FIG. 3, the second discharge portion 4 is shielded, and the first discharge portion 3 is opened so that the working fluid It flows from the inlet part 2 to the 1st discharge part 3.

In this case, the rotation angle of the drive shaft 10 of the drive motor 11 is made according to the set data, and the data is set according to the separation angle between the first discharge part 3 and the second discharge part 4. do.

The sealing piece 8 is in the shape of an arc having a center p of an arc whose outer circumferential surface 7 forms a closed end surface of the first and second discharge portions 3 and 4 different from the fastening hole 6. 3, the outer circumferential surface slides at the end of the first outlet 3 so that the outer circumferential surface is not rubbed as it is rotated while being spaced apart from the first discharge part 3 so as not to be damaged.

Since the outer circumferential surface of the sealing piece 8 is sealed without forming the trajectory of the arc even when the second discharge part 4 is closed, since the point is in contact with the second discharge part 4 side end without slipping, it is not rubbed. Therefore, the sealing surface is not damaged and there is no fear of failure even when used for a long time, and the fastening hole 6 is located near the center of the cross section which is subjected to the pressure of the fluid, so that the switching is smoothly performed at high pressure.

When the direction of the working fluid is to be changed from the inlet part 2 to the second discharge part 4 again, power may be applied to the driving motor 11, and the fastening hole 6 and the sealing piece ( 8) is reversely rotated to the first discharge portion (3) side, the first discharge portion (3) is blocked, the second discharge portion (4) is opened so that the working fluid is the second discharge portion (4) in the inlet portion (2) Will flow).

As described above, the valve assembly of the present invention can be manufactured at a low cost due to its simple structure, and can quickly change the direction of the working fluid to a desired state without a separate process by simply applying power to the driving motor. The change of direction is made, and the damage is remarkably canceled even when used for a long time because there is no damage to the parts, and the fastening hole is located close to the center of the cross section which is subject to the pressure of the fluid.

1 is an exploded perspective view showing a valve assembly of the present invention,

2 to 4 is a cross-sectional view showing an operating state of the valve assembly of the present invention step by step.

Explanation of symbols on the main parts of the drawings

1: valve assembly 2: inlet

3: first discharge part 4: second discharge part

5: valve body 6: fastening hole

7: outer peripheral surface 8: sealing piece

10: drive shaft 11: drive motor

Claims (2)

An upper and lower pair of valve bodies having an inflow portion into which the working fluid is introduced and a pair of first and second discharge portions discharging the introduced working fluid in different directions and having a predetermined accommodation space therein; An outer circumferential surface on a circular arc that is rotatably disposed in the accommodation space of the valve body and forms a closed end surface of the first and second discharge portions to selectively open and close the pair of first and second discharge portions while moving with a center different from the drive shaft; A formed sealing piece; The drive assembly is installed in the upper end of the fastening hole of the sealing piece and the valve assembly comprising a drive motor provided on the upper surface of the valve body. The method of claim 1, The drive motor is a valve assembly, characterized in that for using a bidirectional AC motor that can rotate in the reverse direction.