KR20200046304A - Housing device for booster pump - Google Patents

Abstract

The present invention discloses a housing device for a booster pump. The disclosed housing device for the booster pump comprises: a fluid intake part for suctioning fluid from the outside; a fluid discharge part for discharging the fluid suctioned by the fluid intake part; and a discharge flow rate increasing part which is connected to the fluid intake part and the fluid discharge part so that the fluid from the fluid intake part is transferred without passing through the fluid discharge part, and increases the fluid discharge amount of the fluid discharge part. Therefore, the present invention uses the discharge flow rate increasing part to introduce and discharge the fluid from the fluid intake part through a different path, thereby increasing the amount of fluid transferred compared to the capacity of the pump and also increasing the capacity of the pump while reducing the power consumption of a pumping motor.

Description

Housing device for booster pump

The present invention relates to a housing device for a booster pump, and more specifically, to increase the capacity of the pump by increasing the amount of fluid transport than the capacity of the pump, as well as to improve the capacity of the pump, the housing device for the booster pump It is about.

Generally, a pump is a device for transporting or compressing a fluid such as water, oil, air, etc., and is manufactured in various forms according to an operating principle.

Double booster pump (booster pump) is also called a booster pump or a booster pump, and it is supplied by increasing the pressure of a low fluid, supplying water from a water pipe buried underground in the building to the water tank located at the top of the building or , It is often used in water supply facilities for supplying water stored in the reservoir to each floor.

Recently, a booster pump system for directly supplying water to a high-rise apartment house without employing a water tank has been spread, and it is used in various places such as an apartment house and a land farm using seawater.

However, the pump of the prior art as described above has a problem in that power efficiency is deteriorated because it is necessary to replace or increase the amount of power to transfer more fluid than the used capacity.

Therefore, there is a need to improve this.

On the other hand, Korean Patent No. 10-1861651 (Registration Date: May 21, 2018) discloses a "pump pipe header with a check valve and a booster pump system having the same".

The present invention was created by the above-described need, and an object thereof is to provide a housing device for a booster pump capable of increasing the capacity of the pump while increasing the amount of fluid transported by increasing the amount of fluid transported rather than the capacity of the pump.

In order to achieve the above object, a housing device for a booster pump according to an aspect of the present invention, a fluid inlet for sucking fluid from the outside, a fluid outlet for discharging fluid sucked through the fluid inlet, and It characterized in that it comprises a discharge flow rate increasing portion for increasing the fluid discharge amount of the fluid discharge portion is connected to the fluid inlet portion and the fluid discharge portion so that the fluid of the fluid inlet is transferred without passing through the fluid discharge portion.

In the present invention, the discharge flow rate increasing part is characterized in that the fluid inlet flows by the fluid pressure difference between the fluid inlet part and the fluid discharge part.

In the present invention, the fluid inlet includes a fluid inlet cylindrical member provided inside the fluid outlet so that a fluid discharge passage is formed on the outside, and an inlet pipe member coupled to the fluid inlet cylindrical member and connected to the fluid transfer line. It is characterized by.

In the present invention, the discharge flow rate increasing part is characterized in that it is connected to the fluid inlet cylindrical member or the inlet pipe member.

In the present invention, the fluid discharge part is provided outside the fluid discharge part so that a fluid discharge flow path is formed, and a fluid discharge case to which a pumping motor is coupled, and a discharge pipe member provided in the fluid discharge case to couple the discharge flow rate increasing part It characterized in that it comprises a.

In the present invention, the discharge flow rate increasing portion is coupled to the fluid discharge portion, the flow rate increasing member having a conical portion whose diameter gradually decreases in the direction in which the fluid is transferred, and the flow rate increasing member to cover the cone portion It is connected to the fluid inlet, and includes a fluid confluence discharge member for introducing the fluid in the fluid inlet to flow the fluid in the fluid inlet by causing the fluid pressure of the fluid inlet and the fluid inlet to be generated. It is characterized by.

In the present invention, the fluid confluence discharge member is coupled to the flow rate increasing member, a cylindrical member connected to the fluid inlet through an auxiliary transport pipe, and a diameter larger than the diameter of the conical part to be coupled to the cylindrical member And, it characterized in that it comprises a confluence discharge pipe for discharging the fluid flowing into the cylindrical member.

As described above, the housing device for the booster pump according to the present invention, unlike the prior art, uses the discharge flow rate increasing part to flow the fluid of the fluid inlet part through another path to discharge it, thereby increasing the amount of fluid transport than the pump capacity. It is possible to increase the capacity of the pump while reducing the power consumption of the pumping motor.

1 is a perspective view for explaining a housing device for a booster pump according to an embodiment of the present invention.
2 is a cross-sectional view illustrating a housing device for a booster pump according to an embodiment of the present invention.
3 is a side cross-sectional view for explaining a housing device for a booster pump according to an embodiment of the present invention.
Figure 4 is an exploded perspective view for explaining the discharge flow rate increasing unit according to an embodiment of the present invention.
5 is a partially cut-away perspective view for explaining an increase in the discharge flow rate according to an embodiment of the present invention.
6 is a perspective view showing a modified form of a housing device for a booster pump according to an embodiment of the present invention.
7 is a cross-sectional plan view of FIG. 6.

Hereinafter, preferred embodiments of the housing device for a booster pump according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. As such, definitions of these terms should be made based on the contents throughout this specification.

1 is a perspective view for explaining a housing device for a booster pump according to an embodiment of the present invention, and FIG. 2 is a plan cross-sectional view for explaining a housing device for a booster pump according to an embodiment of the present invention, and FIG. 3 is It is a side cross-sectional view for explaining a housing device for a booster pump according to an embodiment of the present invention.

In addition, Figure 4 is an exploded perspective view for explaining the discharge flow rate increasing unit according to an embodiment of the present invention, Figure 5 is a partial cut-away perspective view for explaining the discharge flow rate increasing unit according to an embodiment of the present invention.

In addition, Figure 6 is a perspective view showing a modified form of the housing device for a booster pump according to an embodiment of the present invention, Figure 7 is a cross-sectional plan view of Figure 6.

1 to 5, the housing device 100 for a booster pump according to an embodiment of the present invention increases the discharge amount of the fluid conveyed by the pumping motor 10 from the capacity of the pumping motor 10 It is configured to be.

Specifically, the housing device 100 for a booster pump according to the present embodiment includes a fluid inlet part 110 connected to the fluid transfer line 20 and a fluid discharge part through which fluid pumped by the pumping motor 10 is discharged. It includes a 120, and the discharge flow rate increasing unit 130 for increasing the discharge amount of the fluid.

In the housing device 100 for the booster pump, the fluid of the fluid inlet 110 does not pass through the pumping motor 10 by the fluid transfer pressure of the discharge flow rate increasing part 130, and the discharge flow rate increasing part 130 It is transferred and joined to the discharge fluid discharged by the pumping motor 10 and is transferred. Due to this, it is possible not only to increase the amount of fluid transport than the capacity of the pumping motor 10, but also to increase the pumping capacity than the amount of power used of the pumping motor 10.

In summary, the housing device 100 for a booster pump according to the present embodiment maintains a higher fluid transport pressure of the fluid discharge part 120 than the pressure of the fluid inlet part 110 so that the fluid of the fluid inlet part 110 is fluid. It is transferred to the discharge unit 120. That is, the fluid of the fluid inlet 110 is transferred to the fluid outlet 120 by the fluid pressure difference between the fluid inlet 110 and the fluid outlet 120.

The housing device 100 for a booster pump according to the present invention may be used as a pumping device for transporting a fluid, such as a water purification device using an injector.

The fluid inlet 110 includes a fluid inlet cylindrical member 111 and a fluid inlet cylindrical member 111 provided inside the fluid outlet 120 so that the fluid outlet passage 110a is formed on the outside. It includes an inlet pipe member 113 connected to (20).

The fluid inflow cylindrical member 111 has an open top and an open upper surface is closed by the pumping motor 10, and the fluid transferred through the fluid inflow cylindrical member 111 is transferred through the opened upper surface.

The inlet pipe member 113 is coupled to the fluid transfer line 20 through a flange, and passes through the fluid discharge unit 120 to communicate with the fluid inlet cylindrical member 111. The inlet pipe member 113 is connected to the discharge flow rate increasing unit 130, and a part of the fluid transferred to the inside due to a pressure difference in the transportation of the fluid is transferred to the discharge flow rate increasing unit 130.

The fluid discharge unit 120 discharges the fluid sucked into the pumping motor 10 through the fluid inlet cylindrical member 111. The fluid discharge part 120 is a fluid discharge case 121 provided to be spaced apart from the fluid inlet cylindrical member 111 so that the fluid discharge passage 110a is formed, and a discharge pipe member coupled to the discharge flow rate increasing part 130 (123).

The fluid discharge case 121 is formed in a cylindrical shape to have a larger diameter than the fluid inlet cylindrical member 111, the upper surface is opened and the opened upper surface is covered by the pumping motor 10. The fluid discharge case 121 is provided on the base member 125 for fixing the pumping motor 10, and the fluid discharged from the pumping motor 10 is discharged.

A discharge flow rate increasing part 130 is coupled to the discharge pipe member 123, and is connected to the fluid transfer line 20 through a flange.

The discharge flow rate increasing part 130 does not pass the fluid of the fluid inlet part 110 through the pumping motor 10 and the fluid discharge flow passage 110a, and directly transfers the fluid from the inflow tube member 113 to the discharge tube member 123. The fluid transfer pressure difference between the fluid inlet portion 110 and the fluid discharge portion 120 is generated to be discharged at the same time, and is increased.

To this end, the discharge flow rate increasing unit 130 is coupled to the flow rate increasing member 131 coupled to the discharge pipe member 123 and the fluid velocity increasing member 131 to discharge the fluid confluence through which the fluid of the inflow pipe member 113 flows in. It includes a member 133.

The flow rate increasing member 131 increases the transfer pressure of the fluid discharged from the fluid discharge case 121 so that the fluid of the inlet pipe member 113 flows. The flow rate increasing member 131 has one end coupled to the discharge pipe member 123, and a conical part 131a formed at the other end to be inserted into and coupled to the fluid confluence discharge member 133.

The conical portion 131a is gradually reduced in diameter in the direction in which the fluid is conveyed so that the flow rate of the fluid conveyed to the discharge pipe member 123 increases. At this time, the fluid of the fluid confluence discharge member 133 is transferred to the fluid transfer line 20 by the transfer pressure of the fluid discharged from the conical portion 131a while the fluid of the inlet pipe member 113 is the fluid confluence discharge member 133 ).

The fluid confluence discharge member 133 is coupled to the flow rate increasing member 131 so as to cover the conical portion 131a of the flow rate increasing member 131, and is connected to the inflow pipe member 113 to be connected to the inflow pipe by the pressure difference of the fluid. The fluid of the member 113 is transferred.

Specifically, the fluid confluence discharge member 133 allows the fluid pressure of the flow rate increasing member 131 and the fluid inflow part 110 to be generated to flow the fluid of the fluid inflow part 110 and transferred from the flow rate increase member 131 And confluent with the discharged fluid.

To this end, the fluid confluence discharge member 133 is coupled to the flow rate increasing member 131, and is connected to the cylindrical member 133a and the cylindrical member 133a connected to the inlet pipe member 113 through the auxiliary transport pipe 135. It has a combined discharge pipe (133b) for discharging the fluid that is coupled to the cylindrical member (133a) by the pressure difference. At this time, the auxiliary transfer pipe 135 is provided with a check valve 135a to prevent the fluid of the cylindrical member 133a from flowing backward.

The cylindrical member 133a is formed to be larger than the diameters of the flow rate increasing member 131 and the merged discharge pipe 133b, and a space for transferring fluid is formed between the conical portion 131a and the merged discharge pipe 133b.

The merged discharge pipe 133b is formed with a diameter larger than the diameter of the conical portion 131a, and is coupled to the cylindrical member 133a spaced apart from the end of the conical portion 131a. The combined discharge pipe 133b is coupled to the cylindrical member 133a such that the fluid inlet port is level with the discharge port of the conical portion 131a, and the diameter thereof is gradually reduced along the direction of transport of the fluid to discharge the tube member 123 Is coupled to.

That is, since the merged discharge pipe 133b and the conical portion 131a are spaced apart, the fluid inside the cylindrical member 133a is transferred to the merged discharge pipe 133b by the transfer pressure of the fluid discharged from the conical portion 131a. It flows in and out.

On the other hand, the housing device 100 for the booster pump according to the present embodiment, as shown in Figures 6 and 7, the auxiliary transport pipe 135 penetrates the fluid discharge case 121, the fluid inlet cylindrical member 111 It may be connected to. At this time, the auxiliary transport pipe 135 is connected to the fluid inlet 110 through the auxiliary nozzle 135b passing through the fluid discharge case 121 and communicating with the fluid inlet cylindrical member 111. The auxiliary nozzle 135b is formed smaller than the diameter of the auxiliary transport pipe 135.

The operation of the housing device for a booster pump according to an embodiment of the present invention configured as described above will be described.

First, when the pumping motor 10 is operated, the fluid flowing into the fluid inlet cylindrical member 111 through the fluid transfer line 20 is forcibly sucked into the pumping motor 10, and then the fluid discharge passage 110a is compressed and transported. As it is discharged to the flow rate increasing member 131.

In addition, the fluid discharged to the flow rate increasing member 131 increases the flow rate in the conical portion 131a, and a pressure difference between the cylindrical member 133a and the merged discharge pipe 133b occurs due to an increase in the flow rate. For example, the fluid transfer pressure of the merged discharge pipe 133b is maintained greater than the internal pressure of the cylindrical member 133a, so that the internal fluid of the cylindrical member 133a flows into the merged discharge pipe 133b, and the conical portion 131a It is joined to the discharged fluid.

And as the fluid of the cylindrical member (133a) flows into the confluent discharge pipe (133b), the fluid transferred to the inlet pipe member (113) flows into the cylindrical member (133a) through the auxiliary transfer pipe (135), and the combined discharge pipe ( 133b).

In the housing device 100 for a booster pump according to the present invention, the discharge flow rate increasing unit 130 transfers fluid through a different path from the fluid discharge unit 120 through the auxiliary transfer pipe 135 to join the discharge pipe ( Since it is discharged to 133b), it is possible to not only increase the amount of fluid transport than the capacity of the pumping motor 10, but also improve the performance while reducing the power consumption of the pumping motor 10.

The present invention has been described with reference to the embodiment shown in the drawings, but this is only exemplary, and those skilled in the art to which the art belongs can various modifications and equivalent other embodiments from this. Will understand.

Therefore, the true technical protection scope of the present invention should be defined by the claims.

10: pumping motor 20: fluid transfer line
100: housing device for booster pump 110: fluid inlet
111: fluid inlet cylindrical member 113: inlet pipe member
120: fluid discharge unit 121: fluid discharge case
123: discharge pipe member 125: base member
130: discharge flow rate increasing part 131: flow rate increase member
131a: conical portion 133: fluid confluence discharge member
133a: Cylindrical member 133b: Confluent discharge pipe
135: auxiliary transfer pipe 135a: check valve
135b: auxiliary nozzle

Claims (6)

A fluid inlet for sucking fluid from the outside;
A fluid discharge part that discharges a fluid sucked through the fluid inlet part; And
A discharge flow rate increasing part connected to the fluid inlet part and the fluid discharge part to increase the fluid discharge quantity of the fluid discharge part so that the fluid of the fluid inlet part is conveyed without passing through the fluid discharge part;
Housing device for a booster pump comprising a.
According to claim 1,
The discharge flow rate increasing unit, the housing device for a booster pump, characterized in that for transferring the fluid of the fluid inlet by the fluid pressure difference between the fluid inlet and the fluid outlet.
The method of claim 1 or 2,
The fluid inlet, a fluid inlet cylindrical member provided inside the fluid outlet so that a fluid discharge passage is formed on the outside; And
It is coupled to the fluid inlet cylindrical member, the inlet pipe member connected to the fluid transfer line; includes,
The discharge flow rate increasing portion housing device for a booster pump, characterized in that connected to the fluid inlet cylindrical member or the inlet pipe member.
The method of claim 1 or 2,
The fluid discharge portion, is provided on the outside of the fluid discharge portion so that a fluid discharge flow path is formed, the fluid discharge case is coupled to the pumping motor; And
A discharge pipe member provided in the fluid discharge case so that the discharge flow rate increasing portion is coupled;
Housing device for a booster pump comprising a.
The method of claim 1 or 2,
The discharge flow rate increasing portion, coupled to the fluid discharge portion, a flow rate increasing member having a conical portion whose diameter gradually decreases in the direction in which the fluid is transferred; And
It is coupled to the flow rate increasing member so as to cover the conical part, and is connected to the fluid inlet, so that the fluid pressure of the flow rate increasing member and the fluid inflow part is generated to flow fluid from the fluid inflow part and transfer it from the flow rate increasing member A fluid confluence discharge member for confluence with the fluid;
Housing device for a booster pump comprising a.
The method of claim 5,
The fluid confluence discharge member is coupled to the flow rate increasing member, a cylindrical member connected to the fluid inlet through an auxiliary transport pipe; And
A confluence discharge pipe formed to have a diameter larger than the diameter of the conical part, coupled to the cylindrical member, and discharging the fluid flowing into the cylindrical member;
Housing device for a booster pump comprising a.

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