KR101221056B1 - The underwater pump will be able to accomplish the function of the inline pump - Google Patents

Abstract

PURPOSE: A submerged pump capable of functioning as an in-line pump is provided to allow the submerged pump to be used as an in-line pump by changing the configuration of the submerged pump, thereby reducing expenses. CONSTITUTION: A submerged pump capable of functioning as an in-line pump comprises a hollow outer case(20), a motor(30), an impeller(40), an oil case(50), a casing cover(60), a head cover(70), a fixing fastener(80), a priming water collecting pipe(90), and a pipe connection port(110). The motor is installed in the inside of the outer case and protected by a frame cover(36) which is respectively joined to each end portion of a frame(34). The impeller is installed in a rotary shaft(32) which penetrates through the frame cover. The oil case is mounted in between the impeller and frame cover. The casing cover covers a part of the impeller. An end portion of the outer case is joined to a side of the casing cover and an inlet(62) for a water intake is formed in a central portion of the casing cover. The head cover is mounted on the other side of the casing cover and an outlet(72) for a water discharge is formed in an central portion of the head cover. The fixing fastener is fixed to the head cover, the frame cover, and the oil case. One end portion of the priming water collecting pipe is joined to the other side of the casing cover. A base plate(100) with a through-hole(102) in a central portion is fixed to the other end portion of the priming water collecting pipe. One end portion of the pipe connection port is fixed to the through-hole of the base plate, and a flange for joining to a flange of the pipe is formed in the other end portion of the pipe connection port. An air vent(140) is mounted in one side of the pipe connection port.

Description

The underwater pump will be able to accomplish the function of the inline pump}

The present invention relates to an underwater pump capable of performing the function of an inline pump, and more particularly, to an underwater pump capable of performing the function of an inline pump that can be used as an inline pump by changing the structure of the underwater pump. will be.

In general, the centrifugal pump is a pump that pumps fluid, that is, transports or generates pressure by using centrifugal force generated by rotating the impeller in a closed casing. The fluid flowing into the center of the impeller through the inlet of the casing When it comes out of the impeller due to the centrifugal force of the rotating impeller, the pressure in the center of the impeller decreases and becomes close to the vacuum, so the fluid in the absorption tube flows toward the center of the impeller under atmospheric pressure, and the fluid out of the impeller flows out of the casing. It is discharged to the outside through the discharge port accordingly the fluid is continuously sucked, pressed to be pumped.

These centrifugal pumps are horizontal in axis with respect to the ground, and are in-line where the horizontal axis type is used for air-conditioning, industrial, building / architectural equipment, and liquid transfer equipment for agriculture, and where the installation area is narrow and convenient for pumping deep water. Are divided into types.

However, since the conventional inline pump is mounted vertically, a large portion of the configuration protrudes in the vertical direction as well as a large space for accommodating it.

In addition, the motor constituting the conventional inline pump has a problem that it is more vulnerable to moisture or water and easily damaged than the motor of the submersible pump.

Patent Publication No. 10-2011-0088616

The present invention has been made in order to solve the above problems, the object of the present invention is to change the configuration of the water pump, the water inflow can be used as an inline pump.

In addition, the objective is to minimize the installation space by installing a submersible pump that can perform the inline pump function horizontally and to solve the problems of the motor constituting the existing inline pump through a submersible motor resistant to moisture or water.

In order to achieve the above object, the outer case having a predetermined length and formed in a hollow shape; A motor installed inside the outer case and protected inside the hollow frame and the frame cover respectively coupled to both ends of the frame; An impeller installed on a rotating shaft of the motor passing through the frame cover; An oil case mounted between the impeller and the frame cover; A casing cover surrounding a part of the impeller, one side of which is coupled to the end of the outer case, and an inlet for introducing water therein; A head cover mounted on an opposite side of the outer case in close contact with the casing cover, the head cover having a discharge port through which the water flowing through the casing cover is discharged is formed in a central portion thereof; Two or more fasteners fastened and fixed to the head cover, the frame cover, and the oil case; One end is coupled to the opposite side of the casing cover that is coupled to the outer case, and the opposite side end of the pick-up collection pipe is fixed to the bottom plate is formed with a through hole in the center portion; One end is fixedly coupled to the through-hole of the base plate and the other end is connected to the pipe flange is formed with a flange for coupling with the flange of the pipe into which water is introduced; And a control unit.

According to the present invention, by changing the configuration of the water pump is a water inflow can be used not only for the use of the inline pump, but also there is an effect that can reduce the cost.

In addition, it is possible to minimize the installation space by installing a submersible pump that can perform the inline pump function horizontally, and can solve the problem of the motor constituting the existing inline pump through a submersible motor resistant to moisture or water.

1 is a front view showing an underwater pump capable of performing the function of an inline pump according to the present invention.
Figure 2 is a partial cross-sectional view showing an underwater pump capable of performing the function of the inline pump according to the present invention.
3 is a view showing a state of use of the submersible pump capable of performing the function of the inline pump according to the present invention.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings, Figure 1 is a front view showing an underwater pump capable of performing the function of the inline pump according to the present invention, Figure 2 is a function of the inline pump according to the present invention Partial cross-sectional view showing an underwater pump capable of performing.

Submersible pump 10 that can perform the function of the inline pump of the present invention is the outer case 20 formed in a hollow shape, the motor 30 is installed in the outer case 20, and the motor 30 Impeller 40 mounted on the rotating shaft 32 of the), the oil case 50 mounted between the impeller 40 and the motor 30, and a casing cover 60 surrounding a part of the impeller 40 And a head cover 70 coupled to the outer case 20 and discharging water, two or more fasteners 80 fastened and fixed to the head cover 70 and the oil case 50. In addition, the pipe fittings 110, which are coupled to the casing cover 60 and the water collecting pipe 90 is introduced, and the pipe connection pipe 110 is connected to the pipe collecting pipe 90 and coupled with the pipe 120 is introduced into the water. It is composed.

The outer case 20 has a predetermined length and is formed in a hollow shape.

That is, the outer case 20 is formed in a shape such as a hollow cylinder or a square shape.

The motor 30 installed inside the outer case 20 has a predetermined length and is formed inside the frame 34 formed in a hollow shape and the frame cover 36 coupled to both ends of the frame 34. Is mounted.

Here, the power generating means for driving the motor 30 and the motor is configured by alternatively known motor 30 and the power generating means, and a separate description thereof will be omitted.

In addition, a passage through which the rotating shaft 32 of the motor 30 penetrates is formed in a central portion of the frame cover 36 mounted on one side of the frame 34, and a frame cover for fixing and engaging parts around an outer circumferential surface thereof. Coupling holes 38 are formed at least two or more spaced apart.

The impeller 40 installed on the rotating shaft 32 of the motor 30 is mounted to the rotating shaft 32 passing through the frame cover 36.

That is, the impeller 40 is mounted on the rotating shaft 32 to move the water introduced through the casing cover 60 to the inside using centrifugal force.

Here, the shape of the impeller 40 is formed by selecting a known configuration and a separate description will be omitted.

The oil case 50 mounted between the impeller 40 and the frame cover 36 is configured to allow lubrication by supplying oil together with fixing and fastening of parts.

And the outer circumferential surface of the oil case 50 is at least two or more oil case coupling holes 52 are formed with a spiral for fixing and coupling the parts are formed at intervals.

Casing cover 60 surrounding a portion of the impeller 40 is one side is coupled to the end of the outer case 20, the opposite side of the collection pipe collection 90, respectively, the center of the collection pipe (90) An inlet 62 through which water delivered through the inlet is introduced is formed.

That is, the casing cover 60 is coupled to the outer case 20 and the pick-up collection pipe 90 so that the water delivered through the pick-up collection pipe 90 is transferred to the impeller 40 through the inlet 62. .

Here, the housing case 64 is formed in the casing cover 60 to which the outer case 20 and the pick-up collection pipe 90 are coupled, and the receiving ring 64 is equipped with an o-ring 130 for sealing. .

And the outer circumferential surface of the casing cover 60 is formed with a casing cover connector 66 is formed with a screw thread for fixing and coupling the parts.

The head cover 70 mounted on the outer case 20 is mounted on the opposite side of the outer case 20 in close contact with the casing cover 60.

In addition, a discharge port 72 is formed at a central portion of the head cover 70 to discharge water, which is introduced through the casing cover 60 and transmitted through the impeller 40, to the outside.

In addition, at least two head cover coupling holes 74 are formed in the head cover 70 to fix and couple the components.

Two or more fasteners 80 fastened and fixed to the head cover 70 and the oil case 50 have a predetermined length and are formed with a thread at one end thereof.

That is, the fixing fastener 80 passes through the head cover coupling hole 74 of the head cover 70 and the frame cover coupling hole 38 of the frame cover 36, and then combines the oil case of the oil case 50. Helix is coupled to the ball (52).

The pick-up object collection pipe 90 coupled with the casing cover 60 and water is introduced has a predetermined length and is formed in a hollow shape on one side of the casing cover 60 coupled to the outer case 20. The ends are joined.

And the bottom plate 100, the through-hole 102 is formed in the center portion of the opposite end of the pick-up collection pipe 90 is fixedly coupled.

That is, the base plate 100 is to ensure the space of the water accommodated while preventing the water is introduced to the pick-up collection pipe 90 suddenly.

In addition, the bottom plate 100 passes through the casing cover connector 64 of the casing cover 60 for fixing and fasteners 150 which are spirally coupled to the oil case coupling hole 52 of the oil case 50. It is fixedly coupled through the nut 160 to be coupled.

The pipe connection part 110 is fixedly coupled to the bottom plate 100 and coupled with the pipe 120 into which water is introduced, and one end of the pipe is fixedly coupled to the through hole 102 of the bottom plate, and water is introduced into the opposite end. Flange 112 for engagement with flange 122 of 120 is formed.

In other words, the pipe connection unit 110 is to serve to receive the water supplied through the pipe 120 and to deliver the pick-up collection pipe (90).

In this case, the shape of the pipe connecting part 110 may be formed as well as bent horizontally, and the air vent 140 is mounted in the middle of the pipe connecting part 110 for decompression and air bleeding.

Referring to the embodiment of the submersible pump capable of performing the function of the inline pump configured as described above with reference to.

First, the outer case 20 having a predetermined length and formed in a hollow shape is formed, and then the motor 30 having the rotating shaft 32 is mounted inside the outer case 20.

In this case, the motor 30 is mounted inside the frame 34 formed in a hollow shape and the frame cover 36 coupled to both ends of the frame 34 and the motor is connected to one side of the frame cover 36. The rotary shaft 32 of the protrusion 30 is mounted.

Further, the oil case 50 and the impeller 40 in which at least two oil case coupling holes 52 are formed are sequentially mounted on the rotation shaft 32 of the motor 30 protruding to the outside of the frame cover 36. do.

Next, a casing cover 60 in which a water inlet 62 is formed at one side of the impeller 40 and a casing cover connector 66 having a spiral is formed on the outer circumferential surface thereof for fixing and coupling a component. To be fitted.

At this time, the receiving groove 64 is formed in the portion coupled to the end of the outer case 20, and the o-ring 130 is mounted in the receiving groove 64.

The head cover 70 having at least two head cover coupling holes 74 formed therein and a discharge hole 72 formed at a central portion thereof on the opposite side of the outer case 20 coupled to the casing cover 60. After mounting, the head cover 70 and two or more fasteners 80 are spirally coupled to the oil case 50.

That is, the fixing fastener 80 passes through the head cover coupling hole 74 of the head cover 70 and the frame cover coupling hole 38 of the frame cover 36, and then combines the oil case of the oil case 50. Helix to the ball 52.

Next, a hollow shape having a predetermined length toward the opposite side of the casing cover 60 coupled to the outer case 20 and having a bottom plate 100 fixedly coupled to a central portion at one end thereof. Combination of the collection object pipe (90).

At this time, the receiving groove 64 is formed in the portion coupled to the end of the collection object 90, the receiving groove 64 is equipped with an o-ring 130, the bottom plate 100 and the oil case 50 In the oil case coupling hole 52, the fastener 150 and the nut 160 are formed to be spirally formed at both ends thereof, and the bottom plate 100 is fixed.

Next, when the flange 112 is formed at one end of the bottom plate 100 through the through hole 102, and the pipe connection 110 is mounted on the air vent 140, the in-line pump can perform the function of the inline pump. Assembly of the submersible pump 10 is complete.

Here, the assembly sequence of the submersible pump capable of performing the function of the inline pump may be configured differently from the above.

Looking at the state of use of the submersible pump that can perform the function of the inline pump configured as described above are as follows.

First, the water pump 10 capable of performing the function of the inline pump is horizontally mounted on the ground and then coupled with the pipe 120 to discharge water.

That is, the flange 122 of the pipe connector 110 constituting the submersible pump 10 capable of performing the function of the inline pump to the flange 122 of the pipe 120 is bolted.

When the motor 30 operates in the above state and water is supplied through the flange 122 of the pipe 120, the water delivered through the flange 122 is connected to the flange 112 and the pipe connector ( Through the inside of the 110 is introduced into the collection object (90).

Next, the water introduced into the collection object pipe 90 is delivered to the impeller 40 which is rotated through the inlet port 62 of the casing cover 60, the centrifugal force of the impeller 40 by the inline pump It is delivered to the inside of the submersible pump 10 that can perform the function of, and then proceeds in the direction of the head cover 70 along the space formed between the outer case 20 and the frame cover 36. .

In addition, the water partially arrived at the head cover 70 is discharged to the outside through the discharge port 72 located in the center portion.

Through the submersible pump which can perform the function of the inline pump operating in this way, the submersible pump can perform the functions of the inline pump using the submersible pump without a separate inline pump, and the installation space can be minimized as it is installed horizontally. You will get

In the above description of the submersible pump capable of performing the function of the inline pump according to the present invention with reference to the accompanying drawings, the present invention has been described with a particular shape and direction, but various modifications and changes can be made by those skilled in the art. And changes should be construed as being included in the scope of the present invention.

10: submersible pump capable of performing the function of an inline pump,
20: outer case, 30: motor,
32: axis of rotation, 34: frame,
36: frame cover, 40: impeller,
50: oil case, 60: casing cover,
62: inlet, 70: head cover,
72: discharge port, 80: fastening hole,
90: pick-up collection pipe, 100: base plate,
102: through hole, 110: piping connection,
120: plumbing, 130: o-ring,
140: air vent.

Claims (4)

An outer case having a predetermined length and formed in a hollow shape;
A motor installed inside the outer case and protected inside the hollow frame and the frame cover respectively coupled to both ends of the frame;
An impeller installed on a rotating shaft of the motor passing through the frame cover;
An oil case mounted between the impeller and the frame cover;
A casing cover surrounding a part of the impeller, one side of which is coupled to the end of the outer case, and an inlet for introducing water therein;
A head cover mounted on an opposite side of the outer case in close contact with the casing cover, the head cover having a discharge port through which the water flowing through the casing cover is discharged is formed in a central portion thereof;
Two or more fasteners fastened and fixed to the head cover, the frame cover, and the oil case;
One end is coupled to the opposite side of the casing cover that is coupled to the outer case, and the opposite side end of the pick-up collection pipe is fixed to the bottom plate is formed with a through hole in the center portion;
One end is fixedly coupled to the through-hole of the bottom plate, the opposite end is formed with a flange for coupling with the flange of the pipe in which water is introduced, one side is a pipe connector for mounting the air vent;
The casing cover is coupled to the outer case and the pick-up collection pipe is formed with an accommodating groove and the receiving groove is capable of performing the function of the inline pump, characterized in that the O-ring is mounted.
delete delete The method according to claim 1,
The bottom plate is a submersible pump that can pass through the casing cover and can be fixed through a nut coupled with the fastener to be screw-fastened with the oil cover.

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