KR100655785B1 - Pump - Google Patents

Abstract

A pump is disclosed that allows fluid to flow smoothly into the impeller inlet. The pump is connected to the medium through a guide member having a gentle curve where a portion where a communication hole in which an inlet pipe into which a fluid is introduced and an inlet of an impeller meets meets. For this reason, since the cross-sectional area change of the flow path from an inflow pipe to an impeller inlet changes slowly, generation | occurrence | production of the eddy current by fluid flow is suppressed. Therefore, noise and vibration in driving the pump are reduced.

Description

Pump {PUMP}

1 is a cross-sectional view showing a schematic configuration of a conventional pump.

Figure 2 is a cross-sectional view showing a schematic configuration of a pump according to an embodiment of the present invention.

3 is a perspective view of a partially cut away perspective view and a guide member of the first casing shown in FIG. 2;

Explanation of symbols on the main parts of the drawings

120,130: first and second casing 121: coupling portion

121a: communication hole 121b: insertion hole

121c: coupling groove 122: discharge hole

123: inlet pipe 140: impeller

150: motor 160: guide member

161: insertion piece 163: engaging projection

165: Guide 166: discharge groove

The present invention relates to a pump that allows fluid to flow smoothly into the impeller inlet.

A pump is a device that transports a fluid by driving a motor. The whirlpool pump refers to applying a predetermined pressure to the discharged fluid so that the fluid is discharged while vortexing to cause a massage effect.

A conventional pump used for Whirlpool will be described with reference to FIG.

As shown in FIG. 1, a first casing 11 and a second casing 13 are provided, which are coupled to each other to form a fluid flow path. An inflow pipe 11a through which fluid flows is formed on the front side of the first casing 11, and a discharge pipe 13a through which the fluid is discharged is formed above the outer circumferential surface of the second casing 13.

In the inner space formed by the first casing 11 and the second casing 13, an impeller 15 for forcibly discharging the introduced fluid to the discharge tube 13a is installed, and the impeller 15 is a motor. It is connected to the shaft 17a of 17 and rotated.

Thus, the fluid introduced into the impeller 15 through the inlet 15a of the inlet pipe 11a to the impeller 15 is forcibly discharged to the discharge pipe 13a by the rotation of the impeller 15. Air of a predetermined pressure flows into the discharge tube 13a and is discharged together with the fluid. Then, the fluid is discharged while vortexing by air of a predetermined pressure, thereby obtaining a massage effect.

However, in the conventional pump as described above, since the flow path from the inlet pipe 11a to the inlet 15a of the impeller 15 is formed in the stepped binary form, the cross-sectional area change of the flow path is rapid. For this reason, there is a disadvantage in that noise and vibration are generated due to the vortex generated when the fluid flows.

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to form a smooth cross-sectional area of the flow path from the inlet pipe of the casing to the impeller inlet to reduce the vibration and noise In providing a pump.

The pump according to the present invention for achieving the above object has a first casing and a second casing which are coupled to each other to form a predetermined space therein, one side of the front inlet pipe for guiding the incoming fluid to the center side of the space; A casing having a discharge tube for discharging the fluid is formed above the outer circumferential surface, and a discharge hole for discharging the remaining fluid is formed at the inner lower end thereof: rotatably installed in the space, the fluid flowing into the central side of the space through the inlet pipe. An impeller which is taken into its center and discharged to the discharge pipe; It includes a motor for rotating the impeller,

The first casing has a communication hole communicating with the space is formed in the rear center and the outer peripheral surface is coupled to the inner peripheral surface of the second casing,

The inlet pipe is formed to protrude outward from the front of the coupling portion,

The center of the communication hole and the center of the inlet pipe is formed in a stepped binary form,

The casing is provided with a guide member for forming a curved shape of a portion where the communication hole and the inlet pipe meet.

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

2 is a cross-sectional view showing a schematic configuration of a pump according to an embodiment of the present invention, Figure 3 is a perspective view of a partially cut away perspective view and the guide member of the first casing shown in FIG.

As shown, the pump 100 according to the present embodiment is rotatably installed in the casing 110, the space 110a of the casing 110, the casing 110 to form a predetermined space (110a) therein to discharge the fluid forcibly Impeller 140, to have a motor 150 to rotate the impeller 140.

The casing 110 has a first casing 120 and a second casing 130 coupled to each other, and a space 110a is formed between the first casing 120 and the second casing 130.

The first casing 120 is formed in a cylindrical shape and protrudes forward from the front of the coupling portion 121 and the coupling portion 121 in which the communication hole 121a is formed in the center, and the inflow pipe 123 into which the fluid is introduced. Have At this time, the outer circumferential surface of the coupling portion 121 is inserted into and coupled to the inner circumferential surface of the second casing 130, and the inlet 141 of the impeller 140 is inserted into and communicated with the communication hole 121a. In addition, the inflow pipe 123 is formed to be positioned below the center of the communication hole 121a, that is, the center bottom of the space 110a, and the fluid at the water source side is impeller 140 through the inflow pipe 123. The inlet 141 is to be introduced. And, the support frame 125 is formed on the front edge portion of the coupling portion 121, the front surface of the second casing 130 in contact with the support frame 125 is supported.

Since the inflow pipe 123 is located below the center of the communication hole 121a, the center of the inflow pipe 123 and the center of the communication hole 121a are disposed to be offset from the virtual horizontal line. Therefore, the site where the inflow pipe 123 and the communication hole 121a meets is a step (段).

When the part where the inflow pipe 123 and the communication hole 121a meet is short, the cross-sectional area of the flow path is rapidly changed, so when the fluid flows, vortex occurs. In order to prevent this, the pump member 100 according to the present embodiment is coupled to the guide member 160 to form a gentle curved portion where the inlet pipe 123 and the communication hole 121a meets.

The guide member 160 has an insertion piece 161 and a guide piece 165.

Insertion piece 161 is provided in a rectangular shape is inserted into the first casing 120 is coupled. To this end, the center lower side of the communication hole 121a is formed as an insertion hole 121b having a shape corresponding to the insertion piece 161. Thus, both side surfaces and the bottom surface of the insertion piece 161 are in contact with the inner circumferential surface of the insertion hole 121b. And, the upper surface of the insertion piece 161 is formed recessed in the same shape as the center upper side shape of the communication hole 121a, the impeller 140 by the upper side of the communication hole 121a and the upper surface of the insertion piece 161. The communication hole 121a to which the inlet 141 is coupled is formed.

In order for the insertion piece 161 to be firmly coupled to the first casing 120, the coupling protrusion 163 and the coupling groove 121c which are inserted into and coupled to both sides of the insertion piece 161 and the inner circumferential surface of the insertion hole 121b. ) Are formed respectively.

The guide piece 165 extends from the front surface of the insertion piece 161 to guide the fluid introduced into the inlet pipe 123 to smoothly flow into the communication hole 121a. To this end, the guide piece 116 has a predetermined curvature, the diameter (D) of the inlet pipe 123: the radius of curvature (R) of the guide piece 165 is preferably 1: 1 to 0.9. The outer circumferential surface of the guide piece 166 is in contact with the lower inner circumferential surface of the center of the inflow pipe 123 to prevent the fluid from leaking to the bottom surface side of the guide piece 116.

In the pump 100 according to the present embodiment, a communication hole 121a to which the inlet pipe 123 and the inlet 141 of the impeller 140 are coupled communicates the guide member 160 with the medium. However, since the guide piece 165 of the guide member 160 has a predetermined curvature, the connection portion between the inlet pipe 123 and the communication hole 121a forms a gentle curve. For this reason, since the cross-sectional area change of the flow path between the inflow pipe 123 and the communication hole 121a changes gently, generation | occurrence | production of a vortex is suppressed.

Then, the fluid introduced into the inlet 141 of the impeller 140 through the inlet pipe 123 → the guide piece 166 → the communication hole 121a is rotated toward the outer circumferential surface side of the impeller 140 by the rotation of the impeller 140. It is moved and discharged to the discharge tube 133 formed above the outer circumferential surface of the casing 110. Then, the air of a predetermined pressure flows into the discharge tube 133, which causes the fluid discharged from the discharge tube 133 to be discharged to the bath while vortexing to produce a massage effect.

When the driving of the pump stops, fluid remains in the space 110a. The pump 100 according to the present embodiment is formed with a discharge hole 122 for discharging the fluid remaining in the interior of the space (110a) as much as possible.

The discharge hole 122 is formed in the shape of a bent on the outer peripheral surface of the lower end of the coupling portion 121 of the first casing (120). At this time, the discharge hole 122, the rear end and the lower end is in communication with the outside of the coupling portion 121, the front end is in communication with the inlet pipe 123. Therefore, the fluid remaining inside the space 110a naturally flows into the discharge hole 122 communicating with the outside of the coupling portion 121, and the inflow pipe ( 123).

At the end of the guide piece 165, a discharge groove 166 is formed to allow the remaining fluid introduced into the inlet pipe 123 through the discharge hole 122 to be discharged to the outside.

As described above, the pump according to the present invention is connected to the guide member having a gentle curve in the area where the communication hole in which the inlet pipe through which the fluid is introduced and the inlet of the impeller meets. For this reason, since the cross-sectional area change of the flow path from an inflow pipe to an impeller inlet changes slowly, generation | occurrence | production of the eddy current by fluid flow is suppressed. Therefore, noise and vibration in driving the pump are reduced.

In the above, the present invention has been described in accordance with one embodiment of the present invention, but those skilled in the art to which the present invention pertains have been changed and modified without departing from the spirit of the present invention. Of course.

Claims (5)

It has a first casing and a second casing coupled to each other to form a predetermined space therein, the front side is formed with an inlet pipe for guiding the incoming fluid to the center side of the space and a discharge pipe for discharging the fluid on the upper peripheral surface, Casing with a discharge hole for discharging the remaining fluid in the inner lower portion: An impeller rotatably installed in the space and receiving the fluid flowing into the central portion of the space through the inlet tube as a central portion thereof and discharging the fluid into the discharge tube; It includes a motor for rotating the impeller, The first casing has a communication hole communicating with the space is formed in the rear center and the outer peripheral surface is coupled to the inner peripheral surface of the second casing, The inlet pipe is formed to protrude outward from the front of the coupling portion, The center of the communication hole and the center of the inlet pipe is formed in a stepped binary form, The casing is provided with a guide member for forming a curved portion of the portion where the communication hole and the inlet pipe meets. The method of claim 1, A rectangular insertion hole is formed below the center of the communication hole, The guide member is formed in a shape corresponding to the insertion hole is inserted and coupled to the insertion hole, both sides and the bottom surface is in contact with the inner circumferential surface of the insertion hole and the upper surface is formed recessed to correspond to the upper portion of the center of the communication hole, And an outer circumferential surface side extending from the insertion piece and having a guide piece having a predetermined curvature in contact with an inner circumferential surface of a central lower portion of the inflow pipe to guide the fluid introduced into the inflow pipe to the communication hole side. The method of claim 2, Diameter (D) of the inlet pipe: the radius of curvature (R) of the guide piece = 1: 1, characterized in that the pump. The method of claim 2, The inner circumferential surface of the insertion hole and both sides of the insertion piece is a pump, characterized in that the coupling grooves and coupling projections are inserted into each other are formed. The method of claim 2, The discharge hole is formed in the shape of the outer end surface of the lower end portion of the coupling portion is exposed to the rear end and the lower end and the front end is in communication with the inlet pipe, And a discharge groove for discharging the remaining fluid introduced into the inlet pipe through the discharge hole to the outside of the inlet pipe at an end of the guide piece.

Images