KR20150001654U - self priming pump - Google Patents

Abstract

The present invention relates to a self-assisted breathing pump for improving seawater separation, in which the nasal water mixture introduced into an auxiliary tank is in contact with a nasal water separating member so that the flow rate is further reduced and the nervous water separation is smoothly performed.
In order to improve the separation of nose water according to the present invention,
A casing provided with an impeller accommodation chamber for accommodating the impeller;
A suction pipe for fluid flow from the outside of the casing to the impeller containing chamber;
A discharge pipe for fluid flow from the impeller containing chamber to the outside of the casing;
And an auxiliary tank for forming a water storage space between the impeller accommodation chamber and the discharge pipe,
Wherein the auxiliary tank is provided with a water separation member having a plurality of protruding pieces formed therein.

Description

Self priming pump for improved nose separation

The present invention relates to a self-assisted breathing pump, and more particularly, to a self-assisted breathing pump, more particularly, to a self-assisted self-assisted self-assisted breathing pump which is provided with a water separating member in an auxiliary tank having a relatively slow water flow, The present invention relates to a self-assisted breathing pump for improving seawater separation so that the self-breathing performance can be improved as the flow velocity is further reduced and the nodule separation is smoothly performed.

Various kinds of pumps are used as means for transporting fluids.

On the other hand, the pump can be divided into a visa suction pump and a self-priming pump depending on whether or not the self-suction pump is used.

At this time, in the case of the visa suction pump, the air in the suction pipe can not be discharged by itself, so that the pump and the inside of the casing and the suction pipe must be filled with water.

Therefore, in the case of the visa suction pump, there is a problem that it is necessary to prevent leakage in the suction pipe so that the casing and the suction pipe can be filled with water even when the pump is stopped.

In order to solve the problem of the above-mentioned visa suction pump, a self-discharge pump as disclosed in Japanese Laid-Open Patent Application No. 10-2004-0106935 (published on December 20, 2004) is used.

In the case of the self-priming pump, the air in the suction pipe is pumped and discharged, and the water can be drawn up through the suction pipe without a separate external device.

At this time, the air in the suction pipe is mixed with the primer inside the casing, and the self-discharge pump is discharged.

However, in the case of the self-assisted breathing pump, when the air mixed with the priming fluid is not smoothly discharged from the casing, not only the self-breathing performance is lowered but also the self-breathing is disabled and the pumping can not be performed.

For the above reasons, in the related field, development of a self-assisted breathing pump capable of enhancing the self-breathing performance by facilitating the separation of the nasal water mixture in the casing, that is, the mixture of the nervous water and the air, However, the results have not been satisfactory until now.

The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a method and apparatus for improving seawater separation, which can solve the problem that the self- The purpose of the pump is to provide.

According to an aspect of the present invention, there is provided a self-

A casing provided with an impeller accommodation chamber for accommodating the impeller;

A suction pipe for fluid flow from the outside of the casing to the impeller containing chamber;

A discharge pipe for fluid flow from the impeller containing chamber to the outside of the casing;

And an auxiliary tank for forming a water storage space between the impeller accommodation chamber and the discharge pipe,

Wherein the auxiliary tank is provided with a water separation member having a plurality of protruding pieces formed therein.

Here, the casing is provided with a partition wall leading to the upper portion of the discharge pipe.

And grooves are formed in one side surface of the partition wall of the casing.

And the backflow preventing side is provided on the suction pipe.

And the auxiliary tank is provided with a water inlet which can be opened and closed.

And the projecting pieces of the water separation member are provided in the longitudinal direction, the lateral direction and the diagonal direction.

And a protrusion that is fitted in a groove provided in a partition wall of the casing is provided on a part of the protrusion of the water separation member.

The present invention relates to a self-assisted breathing pump for improving seawater separation. The self-extinguishing pump is provided with a water separating member in which a plurality of protruding pieces are formed in an auxiliary tank. The self-oiling pump is directed from an impeller containing chamber of a relatively large- The separation of the nasal water mixture is slower due to the resistance caused by the contact with the protruding pieces of the nasal water separating member, so that the nasal water separation can be smoothly performed according to the reduction of the flow rate,

1 is an exploded perspective view for explaining the structure of a self-assist pump for improvement of water separation according to the present invention;
FIG. 2 is a sectional view for explaining the structure of a self-assist pump for improvement of the water separation according to the present invention
FIG. 3 is a perspective view for explaining the structure of a water separating member in a self-priming pump for improvement of water separation according to the present invention; FIG.
FIG. 4 is an exemplary diagram for explaining the separation of odd water from a self-assisting pump for improvement of the water separation according to the present invention

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

1 and 2, the self-dis- charge pump A for improving the water separation according to the present invention comprises a casing 10, a suction pipe 20, a discharge pipe 30, an auxiliary tank 40, .

The casing (10) is provided with an impeller accommodation chamber (12) for accommodating the impeller (11).

The casing 10 is provided with the impeller accommodation chamber 12 for accommodating the impeller 11 so that the impeller 11 can be pumped by the pressure generated by the rotation of the impeller 11.

It is preferable that the casing 10 is provided with a partition wall 13 leading to the upper portion of the discharge pipe 30.

When the water in the impeller accommodation chamber 12 can not reach the upper end of the partition wall 13 by providing the partition wall 13 leading to the upper portion of the discharge pipe 30 in the casing 10, So that a certain amount of water can always remain in the impeller accommodation chamber 12, so that idling prevention can be achieved when the impeller 11 rotates.

It is preferable that a groove (not shown) is formed on one side surface of the partition wall 13.

A groove is formed in one side surface of the partition wall 13 so that protrusions (not shown) formed on a protruding piece 51 of a later-described water separating member 50 are inserted into the groove of the partition wall 13, And the nose separating member 50 can be engaged with each other.

The suction pipe (20) is for fluid flow from the outside of the casing (10) to the impeller containing chamber (12).

A suction pipe 20 for fluid flow from the outside of the casing 10 to the impeller accommodation chamber 12 is provided so that water outside the casing 10 can be introduced into the impeller accommodation chamber 12 through the suction pipe 20 do.

It is preferable that the suction pipe 20 is provided with the backflow prevention side 21.

It is possible to prevent the water from the impeller accommodation chamber 12 from flowing through the suction pipe 20 through the backflow prevention side 21 by providing the backflow prevention side 21 in the suction pipe 20. [

At this time, the backflow prevention side 21 may be of any structure and system as long as it can block the water in the impeller accommodation chamber 12 from flowing out through the suction pipe 20, so that the backflow prevention side 21 The detailed description thereof will be omitted.

The discharge pipe (30) is for fluid flow from the impeller containing chamber (12) to the outside of the casing (10).

The water in the impeller accommodation chamber 12 flows out of the casing 10 through the discharge pipe 30 by providing the discharge pipe 30 for the fluid flow from the impeller accommodation chamber 12 to the outside of the casing 10. [ .

Since the discharge pipe 30 is the same as the discharge pipe of the general self-discharge pump, a detailed description of the discharge pipe 30 will be omitted.

The auxiliary tank (40) forms a water storage space between the impeller accommodation chamber (12) and the discharge pipe (30).

It is preferable that the auxiliary tank 40 is provided with a water inlet 41 which can be opened and closed.

When the water is not filled in the impeller accommodation chamber 12 in the casing 10 as in the case of the initial operation of the pump by opening the water inlet 41 which can be opened and closed in the auxiliary tank 40, Water can be filled in the impeller accommodation chamber 12 by opening the valve 41 and injecting water.

At this time, the opening of the water inlet 41 can be easily accomplished by opening the cap (not shown), and a detailed description of the opening of the water inlet 41 will be omitted.

On the other hand, the auxiliary tank 40 is preferably provided with a water separating member 50 having a plurality of protruding pieces 51 formed thereon.

The auxiliary water tank 50 is provided with the plurality of protruding pieces 51 in the auxiliary tank 40 so that the radial mixing liquid from the impeller accommodation chamber 12 of the casing 10 toward the discharge pipe 30, Since the flow rate is reduced due to the resistance caused by the contact with the protruding pieces 51 of the water separating member 50 in the process of flowing the mixed liquid of the mixed liquid 100 into the auxiliary tank 40, Can be smoothly separated.

At this time, it is preferable that the projecting pieces 51 formed on the water separating member 50 are provided in the longitudinal direction, the transverse direction and the oblique direction.

The projecting pieces 51 formed on the nacre separating member 50 are provided in the longitudinal, transverse and oblique directions so that the nacreous mixed liquid flowing from the impeller accommodation chamber 12 to the discharge pipe 30 is projected from the projecting pieces 51 in various directions. The flow rate of the entire nacreous mixed solution can be uniformly lowered, so that the nuclide separation can be performed more smoothly.

In addition, protrusions are preferably formed on the protruding pieces 51 of the water separating member 50.

A projection provided on a part of the projecting piece 51 of the water separating member 50 allows the projection provided on a part of the projecting piece 51 of the water separating member 50 to be inserted into the groove provided on the partition wall 13 of the casing 10 It is possible to prevent the movement of the water separating member 50 in the auxiliary tank 40 by connecting the water separating member 50 and the partition wall 13 with each other.

The separation of the water in the self-priming pump (A) for improvement of the water separation according to the present invention as described above will be described in detail as follows.

In the present invention, an impeller accommodation chamber 12 in which an impeller 11 is accommodated is provided inside a casing 10.

Accordingly, when the impeller 11 is rotated, the air 100 in the suction pipe 20 is sucked and flows toward the discharge pipe 30 through the impeller accommodation chamber 12 prior to the inflow of water through the suction pipe 20.

The air 100 in the suction pipe 20 sucked by the rotation of the impeller 11 is mixed with the supernatant and mixed with the supernatant so that the supernatant is mixed with the supernatant, .

In the present invention, an auxiliary tank 40 is provided between the impeller accommodation chamber 12 and the discharge pipe 30 to form a water storage space.

Therefore, the mixed water liquid flowing from the impeller accommodation chamber 12 to the discharge pipe 30 side flows into the water storage space of the auxiliary tank 40.

At this time, the volume of the water storage space of the auxiliary tank 40 is smaller than the volume of the impeller accommodation chamber 12, and the flow rate of the mixed water liquid flowing into the auxiliary tank 40 is lowered, That is, radix separation starts.

In addition, the auxiliary tank 40 of the present invention is provided with a water separation member 50 having a plurality of projecting pieces 51 formed thereon.

Therefore, as shown in FIG. 4, the radial velocity of the mixed liquid introduced into the auxiliary tank 40 is lowered due to the resistance of the radially projecting pieces 51 of the water separating member 50, So that it can be performed smoothly.

At this time, the projecting pieces 51 formed on the water separating member 50 of the present invention are provided in the longitudinal direction, the transverse direction and the diagonal direction as shown in FIG.

Therefore, since the radial mixing liquid flowing from the impeller accommodation chamber 12 to the discharge pipe 30 side comes into contact with the projecting piece 51 in various directions, the flow rate of the entire radix mixture can be uniformly lowered, .

As described above, the nasal water mixture flowing into the auxiliary tank 40 comes into contact with the projecting pieces 51 formed on the nasal water separating member 50, and the flow velocity is lowered to smooth the nuclide separation, thereby preventing the self- The performance can be improved. Therefore, it is needless to say that water pumping through the self-dis- charge pump (A) can be smoothly performed to improve the water separation by the present invention.

As described above, the self-extinguishing pump A for improving the water separation according to the present invention is provided with the water separating member 50 in which the plurality of projecting pieces 51 are formed in the auxiliary tank 40, As the resistance against the radial velocity of the radial direction of the mixed liquid flowing from the impeller accommodation chamber 12 of the large casing 10 to the auxiliary tank 40 having a relatively small volume and coming into contact with the projecting pieces 51 of the water separating member 50 So that the nodule separation can be smoothly performed in accordance with the reduction of the flow rate, so that the self-breathing performance can be enhanced.

As described above, the present invention is not limited to the above-described embodiments, and can be modified without departing from the gist of the present invention as claimed in the claims.

10: casing 11: impeller
12: impeller containing chamber 13: partition wall
20: suction pipe 21: reverse flow prevention valve
30: discharge pipe 40: auxiliary tank
41: water inlet port 50:
51: protruding piece 100: air
A: Self-priming pump

Claims (7)

A casing provided with an impeller accommodation chamber for accommodating the impeller;
A suction pipe for fluid flow from the outside of the casing to the impeller containing chamber;
A discharge pipe for fluid flow from the impeller containing chamber to the outside of the casing;
And an auxiliary tank for forming a water storage space between the impeller accommodation chamber and the discharge pipe,
Wherein the auxiliary tank is provided with a water separating member having a plurality of protruding pieces formed therein. The method according to claim 1,
Wherein the casing is provided with a partition wall leading to an upper portion of the discharge pipe. 3. The method of claim 2,
And a groove is formed on one side surface of the partition wall of the casing. The method according to claim 1,
Wherein the suction pipe is provided with a backflow preventing side. The method according to claim 1,
Wherein the auxiliary tank is provided with a water inlet which can be opened and closed. The method according to claim 1,
Characterized in that the projecting pieces of the water separating member are provided in the longitudinal, transverse and oblique directions. The method according to claim 6,
Characterized in that a part of the projecting piece of the water separating member is provided with a projection which is fitted in a groove provided in a partition wall of the casing.

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