KR101154126B1 - Pump - Google Patents

Abstract

The pump is started. Since the check valve is provided with a valve, an elastic member, and an O-ring, the number of parts is reduced, thereby reducing the cost. One side of the check valve is installed inside the housing, and the other side opens and closes the inlet hole of the housing while entering and leaving the housing. That is, since the check valve is installed in the dead space inside the housing and the dead space outside the housing, the installation space is reduced. Thus, the volume of the pump is reduced.

Description

Pump {PUMP}

The present invention relates to a pump.

A pump is a device that transports liquid by the action of a motor.

Figure 1a is a cross-sectional view of a conventional pump, Figure 1b is an exploded perspective view of the check valve shown in Figure 1a.

As shown in FIG. 1A, a housing 11 in which a flow path of liquid such as water is formed is provided, and an impeller 13 is installed inside the housing 11. The impeller 13 rotates by a motor (not shown) while forcibly discharging the liquid introduced through the inlet port 11a of the housing 11 to the outlet port 11b side of the housing 11.

In the flow path of the housing 11 between the inlet 11a and the outlet 11b, when the motor is stopped, a check valve 20 for preventing the liquid on the outlet 11b side from flowing back to the inlet 11a side is provided. Is installed.

As shown in FIG. 1B, the check valve 20 includes a valve 21, a gasket 23 sealing the valve 21 and an inlet 11a, and a spring for returning the valve 21 to an initial state. 25, a guide member 27 for guiding the movement of the valve 21 and an O-ring 29 for sealing between the valve 21 and the guide member 27.

The conventional check valve 20 as described above has a disadvantage in that the cost increases because there are many parts.

In addition, when the check valve 20 is installed in the flow passage inside the housing 11 or in the connection pipe (not shown) communicating with the inside of the housing 11, a large installation space is required, which causes a large volume.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention to provide a pump that can reduce the cost.

Another object of the present invention is to provide a pump that can be miniaturized.

Pump according to the present invention for achieving the above object, the inlet hole is formed on one surface and the discharge hole formed on the other side; A motor installed in the housing and having a rotating shaft; An impeller installed in the inlet hole side of the housing and rotating by the rotation shaft and discharging the liquid introduced through the inlet hole to the outlet hole side; One side is supported in the inlet hole side of the housing, the other side checks for opening and closing the inlet hole while entering and exiting the inlet hole, preventing the liquid introduced into the housing from flowing backward through the inlet hole. It includes a valve.

In the pump according to the present invention, since the check valve is provided with a valve, an elastic member and an O-ring, the number of parts is reduced and the cost is reduced.

One side of the check valve is installed inside the housing, and the other side opens and closes the inlet hole of the housing while entering and leaving the housing. That is, since the check valve is installed in the dead space inside the housing and the dead space outside the housing, the installation space is reduced. Thus, the volume of the pump is reduced.

In addition, since the check valve is supported on the parts of the pump, the number of parts is reduced and the cost is further reduced.

Hereinafter, a pump according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view of a pump according to an embodiment of the present invention, Figure 3 is a cross-sectional view taken along the line "A-A" of FIG.

As shown, a housing 110 having a first housing 111 and a second housing 115 coupled to each other is provided.

The first housing 111 and the second housing 115 are opened to face each other and the open portions are coupled to each other. An inlet hole 112 (see FIG. 4) is formed in the first housing 111 to introduce a liquid such as water, and the second housing 115 is introduced into the housing 110 through the inlet hole 112. A discharge hole 116 through which the liquid is discharged is formed.

The motor 120 is installed inside the housing 110. The motor 120 has a case 121, a rotation shaft 125, a rotor 127, and a stator 129.

The case 121 is installed inside the housing 110 to be spaced apart from the inner surface of the housing 110 to form a sealed space to protect the internal components. The case 121 has a first case 122 located on the first housing 111 side and a second case 123 located on the second housing 115 side. The first case 122 and the second case 123 are opened to face each other, the open portion is coupled to each other.

The rotating shaft 125 is rotatably installed by supporting the outer circumferential surfaces of the bearings 131 and 135 respectively installed on one surface and the other surface of the case 121, and the rotor 127 is fixed to the rotating shaft 125 to rotate the rotating shaft 125. Rotate That is, the rotating shaft 125 and the rotor 127 rotate together.

The stator 129 has a core fixed to the inner surface of the case 121 and a coil wound on the core, and rotates the rotor 127 by working with the rotor 127. Then, the rotating shaft 125 is rotated.

An impeller 140 coupled to the rotation shaft 125 and rotated by the rotation shaft 125 is installed inside the first housing 111. The impeller 140 discharges the liquid introduced into the housing 110 through the inflow hole 112 to the outside of the housing 110 through the discharge hole 116. At this time, the liquid introduced into the inlet hole 112 passes through the housing 110 and the case 121 and is discharged to the outlet hole 116.

The pump is provided with a check valve which prevents the liquid discharged to the outside of the pump from flowing back to the inside when the impeller is stopped or the liquid inside the pump from flowing back to the outside of the pump.

The check valve 180 according to the present embodiment will be described with reference to FIGS. 3 to 5. 4 is a front perspective view of a main part of the valve valve illustrated in FIG. 3, and FIG. 5 is a rear perspective view of FIG. 4.

As shown, the guide member 150 is coupled to the inside of the inlet hole 112 side housing 110, that is, the first housing 111. The guide member 150 is formed with a guide hole 151 through which one side of the impeller 140 passes. The liquid introduced into the housing 110 through the inlet hole 112 is impeller through the guide hole 151. Inflow to the side (140).

A flange 160 having a communication hole 161 communicating with the inflow hole 112 is coupled to an outer surface of the inlet hole 112 side housing 110, that is, the outer surface of the first housing 111. At this time, a sealing member 170 for sealing is interposed between the flange 160 and the first housing 111. And the connection hole 50 (refer FIG. 3) connected with the water source side is couple | bonded with the communication hole 161 of the flange 160. As shown in FIG.

Check valve 180 according to the present embodiment is one side is located in the interior of the first housing 111 is supported by the guide member 150, the other side is supported by the flange 160, the linear reciprocating movement, inlet hole ( Opening and closing the inlet hole 112 while entering and exiting 112.

The check valve 180 has a valve 181, an elastic member 185, and an o-ring 187.

The valve 181 opens and closes the inlet hole 112 while linearly reciprocating. The valve 181 is formed in a cylindrical shape corresponding to the inlet hole 112 and is supported by the guide member 150 and opens and closes the inlet hole 112. And a support rod 183 extending from the body 182 and supported by the flange 160.

One side of the elastic member 185 is coupled to and supported by the guide member 150, and the other side supports the body 182 of the valve 181 to return the valve 181 to the initial state.

A coupling pipe 153 (see FIG. 5) is formed in the guide member 150 to support the elastic member 185, and a support groove 182a (see FIG. 4) on one surface of the body 182 of the valve 181. Is formed. One outer circumferential surface of the elastic member 185 is inserted and coupled to the outer circumferential surface of the coupling pipe 153, and the other outer circumferential surface of the elastic member 185 is inserted and supported by the inner circumferential surface of the support groove 182a. Thus, the elastic member 185 is coupled to the guide member 150, the valve 181 is coupled to the elastic member 185 is supported.

The support rod 183 of the valve 181 is inserted and supported by the flange 160. In detail, the support hole 161 and the support rib 165 are formed in the communication hole 161 of the flange 160. The support tube 163 is located in the center of the communication hole 161, the support rib 165 is formed integrally on the outer peripheral surface of one side of the support tube 163 and the other side integrally formed on the inner peripheral surface of the communication hole 161. To support the support tube 163. At this time, the support rib 165 is formed radially.

Since the support rod 183 of the valve 181 is inserted and supported by the support tube 163, the valve 181 stably linearly reciprocates.

A ring-shaped insertion groove 182b is formed on the outer circumferential surface of the body 182 to prevent liquid from leaking between the body 182 of the valve 181 and the inner circumferential surface of the inlet hole 112. An o-ring 187 that contacts the surface of the first housing 111 forming the inlet 112 is inserted into and inserted into the insertion groove 182b.

At this time, in order to seal more firmly, the surface of the first housing 111 to which the O-ring 187 is in contact with the taper 112a (see FIG. 6) in the form of decreasing diameter from the inside of the first housing 111 to the outside thereof. Formed). Then, as the valve 181 is linearly reciprocated, not only the O-ring 187 accurately contacts the surface of the first housing 111 forming the inlet hole 112, but also the contact area with the first housing 111. As it widens, it is sealed firmly.

Since the check valve 180 according to the present embodiment is provided with the valve 181, the elastic member 185, and the O-ring 187, the number of parts is reduced, thereby reducing the cost.

One side of the check valve 180 is installed inside the housing 110, and the other side opens and closes the inlet hole 112 of the housing 110 while entering and exiting the inside and the outside of the housing 110. That is, since the check valve 180 is installed in the dead space inside the housing 110 and the dead space outside the housing 110, the installation space is reduced. Thus, the volume is reduced.

The operation of the check valve 180 according to the present embodiment will be described with reference to FIGS. 3 and 6. FIG. 6 is a view illustrating an operation of the check valve according to the present embodiment, and is an enlarged view of part “B” of FIG. 3.

As shown, when the impeller 140 is rotated by the driving of the motor 120, since the pressure outside the housing 110 is higher than the pressure inside the housing 110, the valve 181 may be closed due to the pressure of the liquid. As shown by the dashed line, it moves to the inside of the housing 110. Then, since the inlet hole 112 is opened, the liquid is introduced into the housing 110 and discharged to the outside.

Then, when the motor 120 stops and the impeller 140 stops, the pressure inside and outside the housing 110 becomes equal. Then, the valve 181 is moved to the outside of the housing 110 by the elastic force of the elastic member 185, as shown by the solid line. Then, the o-ring 187 is sealed in contact with the surface of the housing 110 forming the inlet hole 112, the liquid is prevented from flowing back.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Of course.

1A is a cross-sectional view of a conventional pump.

1B is an exploded perspective view of the check valve shown in FIG. 1A.

2 is a perspective view of a pump according to an embodiment of the present invention.

3 is a cross-sectional view taken along the line “A-A” of FIG. 2.

Figure 4 is a front perspective view of the main portion of the valve valve portion shown in FIG.

5 is a rear perspective view of FIG. 4.

FIG. 6 is a view illustrating an operation of a check valve according to the present embodiment, and an enlarged view of a portion “B” of FIG. 3.

Explanation of symbols on the main parts of the drawings

110 housing 111 first housing

115: first housing 121: case

140: impeller 150: guide member

160: flange 170: sealing member

180: check valve 181: valve

185: elastic member 187: O-ring

Claims (11)

A housing having an inlet formed on one side thereof and an outlet formed on the other side thereof; A motor installed in the housing and having a rotating shaft; An impeller installed in the inlet hole side of the housing and rotating by the rotation shaft and discharging the liquid introduced through the inlet hole to the outlet hole side; It has a body that is formed to correspond to the inlet hole and inserted into the inlet hole and the support rod extending from the body and has a valve for opening and closing the inlet hole while reciprocating, and an elastic member for returning the valve to the original state, In the pump comprising a check valve for preventing the liquid introduced into the housing from flowing back through the inlet hole, One side of the impeller penetrates the inside of the inlet hole side of the housing to guide the liquid introduced through the inlet hole to the impeller side and at the same time a guide member for supporting the body side is installed. A communication hole communicating with the inflow hole is formed on an outer surface of the housing at the inflow hole side, and a flange supporting the support rod is coupled thereto. The communication hole of the flange is characterized in that the pump is connected to the connection pipe communicating with the water source side. The method of claim 1, A ring-shaped insertion groove is formed on an outer circumferential surface of the body, and an O-ring is inserted into the insertion groove to contact the surface of the housing forming the inlet hole. The method of claim 2, The surface of the housing which the O-ring is in contact with the pump tape, characterized in that the diameter becomes smaller toward the outside from the inside of the housing. The method of claim 2, The guide member is formed with a coupling pipe into which one side of the elastic member is inserted and coupled, and the body is formed with a support groove in which the other side of the elastic member is inserted and supported. The method of claim 4, wherein One side of the elastic member is the pump, characterized in that the inner circumferential surface is inserted and coupled to the outer circumferential surface of the coupling pipe, the other side is inserted and supported on the inner circumferential surface of the support groove. The method of claim 2, In the communication hole of the flange, the support tube into which the support rod is inserted and supported is connected to the outer circumferential surface of the support tube and the other side is connected to the inner circumferential surface of the communication hole, characterized in that a plurality of support ribs are formed to support the support tube. Pump. The method of claim 2, And a sealing member is interposed between the flange and the housing. delete delete delete delete

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