KR20110107157A - Check valve with multi flow - Google Patents

Abstract

The present invention provides a check valve for controlling a flow path and preventing backflow: a body (10) having at least two outlets (12) and (22) communicating with one inlet (11); A coupling body 20 coupled to the second outlet 22 of the body 10 and having a support 25 on a flow path; A valve seat 30 installed circularly on the inlet 11 side in the inner space of the body 10; And an actuator 40 which is supported to move up and down on the connecting body 20 via the stem 42 and contacts the spherical plate 45 on the valve seat 30 to control the flow path. Characterized in that made.
Accordingly, the simple structure is easy to install and maintain, as well as the effect of the vortex on the multi-directional flow path of the pump is less effective to reduce the flow resistance and noise.

Description

Check valve with multi flow

The present invention relates to a check valve having a multi-directional flow path, more specifically, a simple structure is easy to install and repair, as well as less influence of the vortex on the multi-directional flow path of the pump can reduce the flow resistance and noise A check valve having a multi-directional flow path.

The check valve can be divided into swing check, lift check, tilting disc check, folding disc check, inline check, and stop check according to the appearance and operating characteristics. Among them, a swing in which the disc regulates the flow of fluid around the hinge pin. Check valves are the most typical form. However, the lift method is often used for the purpose of frequently controlling the flow rate installed in the pump of the automatic control method.

Korean Utility Model Publication No. 0188903 has an upper and lower housings having outflow holes and a plurality of fastening holes, a support tube which is located between upper and lower housings and communicates with inflow holes on the upper and lower sides, and has a threaded portion on the lower inner peripheral surface, and an elastic portion on the inner peripheral surface. A buffer ring coupled and screwed to the threaded portion of the support tube, a sealing member positioned between the upper and lower housings and the support tube, and a plurality of vortex preventing pieces radially formed on the inner circumferential surface of the support tube to form a flow-through induction hole. A check valve for a pump having a guide cover having an inclined portion in the lower portion, and a recessed recess formed in an upper inner side of the upper cover and having an opening and a tapered and coiled spring positioned between the opening and closing seat and the guide cover. to provide.

It is simple in structure and easy to assemble, which can reduce product weight and manufacturing cost, and minimize the noise generated when the pump is connected.However, when applied to multi-directional flow paths, shaking occurs, so that the backflow prevention function is reliable. Of course, there is a fear that the flow resistance and noise will increase.

According to the Korean Utility Model Utility Model Publication No. 0432125, the check valve includes: a T-shaped body having an inlet and an outlet to allow fluid to be transferred in one direction; An opening and closing cover for opening and closing an upper portion of the body; A seat ring extending and coupled to an inlet portion located inside the body in a state where a coupling end is formed at an upper edge of the edge; A hinge is provided at one end and a backflow prevention device including a disk for opening and closing the inlet of the body is provided at the other end while being rotatably coupled to the coupling end of the seat ring. Accordingly, even if the disk is in close contact with the seat ring and the disk is replaced, the fluid does not leak between the seat ring and the disk, and even a small rotation radius can be completely opened, thereby explaining the effect that the disk does not interfere with the fluid flow.

However, since it is a relatively complex structure based on a swinging method of coupling the disk with a hinge, the multi-directional flow path associated with the pump increases flow resistance and noise and prevents contact with the seat ring at a uniform pressure. It has a somewhat inadequate disadvantage.

An object of the present invention for improving the conventional problems as described above, the simple structure is easy to install and repair, as well as the influence of the vortex on the multi-directional flow path of the pump is less multi-directional that can reduce the flow resistance and noise To provide a check valve with a flow path.

In order to achieve the above object, the present invention provides a check valve for controlling a flow path and preventing backflow: a body having at least two outlets communicating with one inlet; A coupling member coupled to the second outlet of the body and having a support on the flow path; A valve seat installed in a circular shape at the inlet side in the inner space of the body; And an actuator that is supported to move up and down through the stem on the connecting body and contacts the spherical plate on the valve seat to control the flow path.

In addition, according to the present invention the body is characterized in that it further comprises a plurality of guide jaw on the inner space.

In addition, according to the present invention, the valve seat is characterized in that the upper seat made of metal and the lower seat made of metal are engaged in a laminated state.

In addition, according to the present invention is characterized in that the actuator further comprises a groove of a gentle curvature on the bottom surface of the spherical plate.

In addition, according to the invention the body is characterized in that it further comprises a connection port for connecting a gauge or sensor.

According to the present invention as described above, it is easy to install and repair with a simple structure, there is little effect of vortex on the multi-directional flow path of the pump, there is an effect that can reduce the flow resistance and noise.

1 is a block diagram showing the end of the check valve according to the present invention
Figure 2 is a block diagram showing a check valve in accordance with the present invention in a plan view
3 is a block diagram showing a cross section of the part XX of FIG.
4 is a block diagram showing a state of use of the check valve according to the present invention

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

The present invention relates to a check valve that interrupts the flow path and prevents backflow, and is particularly provided at the outlet of the automatic control pump where the flow path is interrupted frequently.

According to the invention there is provided a body 10 having at least two outlets 12, 22 communicating with one inlet 11. The body 10 has a first outlet 12 which communicates in a "a" shape with respect to the inlet 11 of the lower side, and a second outlet 22 arranged concentrically with the inlet 11. In the conventional check valve having only one-way flow path by the concentric inlet 11 and the second outlet 22, the problem of flow path resistance and operating noise is not large. On the other hand, in the case of a check valve having a multi-directional flow path including two outlets 12 and 22 as in the present invention, it is necessary to exclude a phenomenon in which a vortex occurs to hinder flow in an internal space.

In addition, according to the present invention, the connecting body 20 having the support 25 on the flow path is coupled onto the second outlet 22 of the body 10. The connector 20 has a spiral for connecting the body 10 to the inner end (lower end), and has a spiral for connecting the pipe to the outer end (upper end). At the inner end of the connecting body 20, support members 25 in a range of 2 to 4 are radially connected to the central boss. The support 25 is a part for supporting the actuator 40 to be described later to minimize the resistance of the fluid flowing to the second outlet (22).

In addition, according to the present invention, the valve seat 30 is installed in a circular shape at the inlet 11 side in the inner space of the body 10. An inner space of the body 10 is a portion communicating with the inlet 11, the first outlet 12, and the second outlet 22, wherein a circular valve seat 30 is formed at the portion communicating with the inlet 11. It is detachably installed.

At this time, the valve seat 30 is coupled to the laminated upper seat 33 and the metal lower seat 35 made of metal. The upper sheet 33 uses a resin material having heat resistance, chemical resistance, wear resistance, and high elasticity, and the lower sheet 35 uses ferrous metals or nonferrous metals having corrosion resistance and high strength. Steps are formed on the bottom surface of the top sheet 33 and the top surface of the bottom sheet 35, respectively, to be engaged with each other. In order to reduce the flow path resistance, the diameter of the upper sheet 33 is slightly smaller than the diameter of the lower sheet 35, and the corner portion is treated as round.

In addition, according to the present invention, the actuator 40 for contacting the spherical plate 45 on the valve seat 30 to control the flow path is vertically supported on the connecting body 20 via the stem 42. do. The actuator 40 preferably uses a metal material as a structure combining the spherical plate 45 in the downward direction of the stem 42 having a cylindrical shape, but may also partially use a resin material depending on the type of the applied fluid. The stem 42 of the valve seat 30 is inserted to slide on the support 25 of the connecting body 20, and the spherical plate 45 is in intimate contact with the upper seat 33 of the valve seat 30. Crack down on the flow path. The spherical surface of the spherical plate 45 is advantageous in strength compared to the plane of the general check valve, so that the deformation is small and the flow resistance of the fluid is reduced, and the noise due to contact with the peripheral part is reduced.

In this case, the actuator 40 may further include a recess 47 having a gentle curvature on the bottom surface of the spherical plate 45. The recess 47 is recessed from the curved surface of the spherical plate 45 to enlarge the surface area on the flow path of the inlet 11. Accordingly, it is advantageous in terms of preventing overheating by improving heat transfer as well as enhancing the operating force of the actuator 40.

In Figure 3, the body 10 of the present invention preferably further comprises a plurality of guide jaw 15 in the interior space. The guide jaw 15 is in contact with the side surface of the spherical plate 45 during the vertical movement of the actuator 40, and prevents the flow, 3 as shown in the interval 120 ° so as not to obstruct the flow path to the first outlet (12) It is preferable to install in a location. The height of the guide jaw 15 is made to coincide with the vertical movement distance of the actuator 40.

In use, the spherical surface of the coupling body 20 is coupled to the second outlet 22 of the body 10 in a state in which the stem 42 of the actuator 40 is fitted to the support 25 of the coupling body 20. The plate 45 is guided to the guide jaw 15 and seated on the valve seat 30. Subsequently, the inlet 11 is connected to the outlet of the pump and the service pipe is connected to the first outlet 12 and the second outlet 22 to complete the installation. Then, when the fluid is raised by the operation of the pump to send the fluid to the outlet 12, 22 while pushing up the spherical plate 45, the spherical plate 45 is lowered when the pump stops to rest on the valve seat 30 This prevents backflow of the fluid. Since the movement of the actuator 40 is prevented by the support 25 and the guide jaw 15 during the movement of the actuator 40 up and down, the flow path resistance and noise during fluid flow are significantly reduced.

At this time, the guide jaw 15 formed inside the body 10 prevents the fluctuation of the actuator 40 and also mitigates the vortex and turbulence of the fluid toward the outlets 12 and 22, so that the flow resistance and operating noise It is advantageous to reduce the

In FIG. 4, the body 10 of the present invention may further include a connection port 18 for connecting the gauge 52 or the sensor 54. In the body 10, two or more connection ports 18 are formed adjacent to the first outlet 12, and a gauge 52 or a sensor 54 for measuring discharge pressure, flow rate, temperature, etc. of the pump is installed. . As such, although a plurality of connection ports 18 are formed in addition to the outlets 12 and 22 on the body 10, the generation of vortices is remarkably generated during the flow of the fluid through the inlet 11 through the spherical plate 45. Decreases.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

10: body 11: inlet
12, 22: exit 15: guide jaw
18: connecting port 20: connecting body
25: support 30: valve seat
33: upper sheet 35: lower sheet
40: actuator 42: stem
45: spherical plate 47: groove
52: gauge 54: sensor

Claims (5)

For check valves that control the flow path and prevent backflow:
A body 10 having at least two outlets 12 and 22 in communication with one inlet 11;
A coupling body 20 coupled to the second outlet 22 of the body 10 and having a support 25 on a flow path;
A valve seat 30 installed circularly on the inlet 11 side in the inner space of the body 10; And
And an actuator 40 which is supported to move up and down through the stem 42 on the connecting body 20 and contacts the spherical plate 45 on the valve seat 30 to control the flow path. Check valve having a multi-directional flow path, characterized in that. The method of claim 1,
The body 10 is a check valve having a multi-directional flow path, characterized in that it further comprises a plurality of guide jaw (15) on the inner space. The method of claim 1,
The valve seat (30) is a check valve having a multi-directional flow path, characterized in that for coupling the upper seat (33) made of metal and the lower seat (35) of the metal meshing engagement. The method of claim 1,
The actuator 40 is a check valve having a multi-directional flow path, characterized in that the bottom surface of the spherical plate 45 further comprises a groove of a moderate curvature. The method of claim 1,
The body 10 is a check valve having a multi-directional flow path further characterized in that it further comprises a connection port (18) for connecting a gauge (52) or sensor (54).

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