KR100309598B1 - Pump for fluid - Google Patents

Abstract

PURPOSE: A fluid pump is provided, in which automatic fluid pump has an air groove formed inside of the pump, to thereby prevent fluid from being dropped along the suction pipe during pumping or upon occurrence of overflow. CONSTITUTION: A fluid pump(100) comprises a body unit having a suction pipe(20) mounted at the front end of the body unit, a battery mounting section(50) for accommodation of a battery(B), and an outlet port(11), such that the fluid is sucked from a container through the suction force generated from the rotation of a suction fan driven by a motor, and discharged through the outlet port; a suction and pumping unit arranged within the body unit, and which rotates the suction fan installed within the suction pipe by driving the motor, and sucks the fluid into the body unit; and a fluid discharge unit(40) arranged at a side of the suction pipe so as to smoothly discharge the fluid upon occurrence of overflow or when the fluid remains after completion of operation of the suction and pumping unit. The fluid discharge unit includes a contact surface(17) formed at the upper portion of an inlet opening(16), and a protrusion(22) formed at the top of the suction pipe. The inlet opening has a clearance(19) formed at the center of the inlet opening. The outlet port of the body unit has an air groove(13) formed at a transverse direction, and fluid outlet groove(15) are formed at both sides of the air groove so as to discharge fluid upon occurrence of overflow. An air supply space(18) is formed onto the fluid outlet groove.

Description

Pump for fluid

The present invention relates to a fluid pump, and more specifically, to form an air groove in the body of the automatic fluid pump for injecting and discharging the fluid as a power source of the motor, so that the fluid in the suction pipe during the pumping operation or overflow (overflow) phenomenon It is invented to prevent the phenomenon of falling in the ride.

In general, the automatic fluid pump is a device that inhales the fluid inside the container by using the suction force generated by the rotation of the suction fan driven by the motor and discharges it through the outlet of the other side, the automatic fluid pump is a bottled water In order to be inserted into the container, an elongated suction tube is mounted at the tip end, and a battery mounting chamber and a motor chamber are provided at the top of the suction tube so that a battery can be embedded therein, and a body part having a discharge port formed at one side thereof; A suction pump part provided inside the body part to rotate the suction fan installed inside the suction pipe by driving the motor by a user's switch operation so that the living water can be sucked into the body part by its suction power, and the motor of the body part It is located in the middle between the seal and the suction tube so that the body can be fixed to the inlet of the bottle. It is composed of governments.

Therefore, the automatic fluid pump is used by forming an air hole in one side of the suction pipe to remove the fluid remaining in the suction pipe and the discharge pipe of the fluid pump after the pumping operation.

That is, it forms an air hole in which external air can be introduced into the outer part of the suction pipe so that the fluid can fall through the suction pipe by the air introduced through the air hole during the overflow phenomenon or during the fluid removal work after the pumping operation. .

When the fluid pump is operated by manual pumping, an air vent is formed on the upper portion of the body to open the air vent after the pumping operation is completed so that external air is supplied to the inside of the body to remove residual fluid. It is true.

As described above, the automatic fluid pump in the conventional fluid pump removes the fluid remaining inside the body after the pumping operation and forms an air hole in one side of the suction pipe to prevent an overflow phenomenon that may occur during the pumping operation. Although it is used to inflow, since the fluid flows down the suction pipe during the pumping operation, there is a problem that the external appearance is degraded, the suction pipe is easily contaminated.

In addition, since the inflow of external air is supplied through an air hole formed at one side of the suction pipe, there is a closed end to increase the working time of removing the remaining fluid or discharging the fluid during overflow.

An object of the present invention is to form an air groove inside the body of the automatic fluid pump for sucking and discharging the fluid to the motor as a power source, to prevent the fluid from falling through the suction pipe during the pumping operation or overflow phenomenon. To provide a fluid pump.

Another object of the present invention is to provide a fluid pump that can solve the residual fluid removal and overflow phenomenon in a short time because the air is supplied from the upper portion of the body portion to remove the residual fluid or to discharge the fluid in overflow There is.

Still another object of the present invention is to provide a fluid pump that can improve the merchandise and convenience of operation.

1 is an exploded perspective view showing the internal shape of the fluid pump of the present invention.

Figure 2 is an enlarged cross-sectional view of the main portion showing the inner shape of the fluid pump of the present invention.

Figure 3 is an enlarged cross-sectional plan view of the main portion showing the inner shape of the body of the fluid pump.

Figure 4 is an enlarged side sectional view of the main portion showing the internal shape of the state in which the suction pipe is mounted on the body portion of the fluid pump of the present invention.

* Description of the symbols for the main parts of the drawings *

10-body 11-outlet

12-Support 13-Airhome

14-Floor 15-Exhaust Groove

16-Inlet groove 17-Contact surface

18-air supply space 19-clearance

20-Suction line 21-Air hole

22-protrusion 30-suction pump

31-Suction fan 40-Fluid drainage means

50-Battery compartment 60-Mobile groove

70-Connecting groove 100-Fluid pump

The object of the present invention, by using the suction force generated by the rotation of the suction fan 31 by the drive of the motor (M) to suck the fluid inside the container and to discharge through the outlet 11 of the other side, The front end is equipped with an elongated suction pipe 20, the upper portion of the suction pipe 20 is provided with a battery mounting chamber 50, so that the battery (B) is embedded therein, and the body formed with an outlet 11 on one side Section 10;

It is provided in the body portion 10 and rotates the suction fan 31 installed in the suction pipe 20 by the drive of the motor (M) by the user's switch operation to the fluid in the body portion 10 by its suction force A suction pump part 30 to be sucked in;

The fluid discharge means 40 is provided at one side of the suction pipe 20 so that the fluid can be discharged smoothly during the residual or overflow phenomenon of the fluid which may occur during or after the operation of the suction pump 30. In;

The fluid discharging means 40 forms a contact surface 17 and a protrusion 22 on an upper portion of the inlet groove 16 and an upper portion of the suction pipe 20 of the body portion 10, and a central portion of the inlet groove 16. It is provided with a predetermined clearance 19, and the air groove 13 is formed in the transverse direction to one side of the support port 12 inside the outlet port 11 of the body portion 10, the upper portion of the air groove 13 At both sides of the center, a discharge groove 15 through which the fluid is discharged during an overflow phenomenon is provided, and an air supply space 18 is formed at an upper portion of the discharge groove 15.

Therefore, in the case of the conventional fluid pump, the fluid is continuously dropped into the air hole 21 during the pumping operation of the fluid pump with the formed air hole so that the fluid can be smoothly discharged during the discharge and overflow of the remaining fluid after the pumping operation. According to the present invention, the air supply space 18 is formed in the upper portion of the body portion 10, the air can be knotted, and the air groove 13 is provided on one side of the support bar 12 of the outlet 11. Is formed in the height, the discharge groove 15 is formed higher than the height of the air groove 13 even when the overflow occurs, the suction pipe 20 is also fixed to the upper portion in close contact with the inlet groove 16 of the body portion 10 Therefore, it is possible to prevent the fluid from continuously falling into the air hole 21 of the suction pipe 20 during the pumping operation, it is possible to quickly discharge the fluid even during the discharge and overflow of the remaining fluid after the pumping operation.

Therefore, the merchandise and the convenience of work can be improved.

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

1 is an exploded perspective view showing the internal shape of the fluid pump of the present invention.

Figure 2 is an enlarged cross-sectional view of the main portion showing the internal shape of the fluid pump of the present invention.

Figure 3 is an enlarged cross-sectional plan view of the main portion showing the inner shape of the body of the fluid pump.

4 is an enlarged side cross-sectional view showing an internal shape of a state in which a suction pipe is mounted on a body part of the fluid pump according to the present invention.

That is, as shown in FIGS. 1 to 4, the fluid is sucked into the container using the suction force generated by the rotation of the suction fan 31 driven by the motor M, and then through the outlet 11 on the other side. The fluid discharge means 40 is formed at one side of the body portion 10 of the fluid pump 100 which is formed to be discharged.

The fluid discharge means 40 first forms an intimate surface 17 and a protrusion 22 on an upper portion of the inlet groove 16 of the body portion 10 and an upper portion of the suction pipe 20.

The contact surface 17 of the inlet groove 16 and the protrusion 22 of the suction pipe 20 are formed so that the suction pipe 20 is firmly fixed to the inlet groove 16 of the body portion 10 without tolerances. Will be.

In addition, the center portion of the inflow groove 16 is provided with a clearance 19 at a predetermined interval.

The clearance 19 is the upper protrusion 22 of the suction pipe 20 is completely fixed to the contact surface 17 of the inlet groove 16, but the upper center portion of the suction pipe 20 inside the inlet groove 16 The clearance 19 is formed while maintaining a small tolerance.

This is caused by an inverse sum in the suction pumping unit 30 due to a back light or a fine foreign matter during the pumping operation of the fluid pump 100, an overflow phenomenon occurs, the fluid moved through the discharge groove 15 to be described later suction pipe 20 It is formed to be discharged by moving to the air hole 21 formed on one side of the.

In addition, it is preferable to form the protrusion part 22 so that the upper end of the suction pipe 20 mounted in the inlet groove 16 of the body part 10 can be firmly in contact with the inlet groove 16.

Therefore, when the pumping operation of the fluid pump 100, an overflow phenomenon occurs due to a back pressure or the like, when the fluid rises above a certain level and moves to the discharge groove 15, both sides of the inlet groove 16 of the body portion 10 are moved. Fluid is moved through the moving groove 60 formed in the, it can be discharged to the outside through the connection groove 70 formed in the body of the suction pipe 20 in the space of the clearance 19.

On the other hand, the air groove 13 is formed in the transverse direction to one side of the support port 12 inner side of the outlet 11 formed in one side of the body portion 10 of the fluid pump 100.

The air groove 13 is formed in order to prevent the fluid from falling through the suction pipe 20 even during the pumping operation through the air hole 21 formed to discharge the residual fluid after the pumping operation of the conventional fluid pump 100 Will be.

The air groove 13 is formed in the transverse direction on one side of the inner support rib 12 of the outlet 11, is formed somewhat higher than the inner bottom surface 14 of the body portion (10).

In addition, both sides of the upper center of the air groove 13 is provided with a discharge groove 15 to discharge the fluid during the overflow phenomenon.

When the fluid overflows due to an overflow phenomenon that may occur during the pumping operation of the fluid pump 100 of the discharge groove 15 and rises above a certain level, the fluid is moved to the air hole 21 formed at one side of the suction pipe 20. It is formed to be discharged.

On the other hand, the upper portion of the discharge groove 15 in the inner portion of the body portion 10 so that the air can be supplied to the air groove 13, the air supply space 18 is formed with a predetermined height.

Unlike the conventional fluid pump 100, since the air supply space 18 places the motor M in the suction pump 30, the air supply space 18 may be secured.

In addition, the reason why the air supply space 18 may introduce external air into the inside may allow the external air to be sufficiently introduced into the inside by minute tolerances generated during the assembly of the body portion 10.

Therefore, unlike the conventional fluid pump 100, the fluid pump 100 of the present invention may discharge the fluid introduced through the air groove 13 without the fluid falling into the air hole 21 during the pumping operation.

That is, it is formed slightly higher than the bottom surface 14 of the air groove 13 formed in the transverse direction on one side of the support body 12 of the inner outlet 11 of the body portion 10, it can be discharged when the fluid inflow Since the air supply space 18 for supplying air is formed on the inner upper portion of the body portion 10, the fluid suctioned and discharged by the pumping operation is finely introduced into the bottom surface of the body portion 10 to remain When the rotational force of the motor (M) is blocked after the pumping operation, if the fluid remaining higher than the air groove 13 level is discharged by its own weight is set lower than the position of the air groove 13, of the air groove 13 The fluid can be quickly discharged through the air groove 13 by the pressure difference supplied from the air supply space 18 formed in the upper portion.

Therefore, the air groove 13 is preferably set slightly higher while approaching the bottom surface 14 of the body portion 10 for a smooth discharge of the fluid.

In addition, even when overflow occurs that may occur during the pumping operation of the fluid pump 100, the discharge groove 15 is set to be somewhat higher than the position of the air groove 13, so that the fluid up to the level of the discharge groove 15 may be increased. Until it is filled up, the fluid does not fall during the pumping operation to the air hole 21 of the suction pipe 20 as in the prior art.

Therefore, in the fluid pump 100 of the present invention, an air groove 13 is formed in a transverse direction at one side of the support port 12 of the outlet port 11 of the body portion 10, and is externally formed on the upper portion of the air groove 13. Since the air supply space 18 for introducing the air is formed, it is possible to prevent the phenomenon that the fluid falls into the air hole 21 of the suction pipe 20 during the pumping operation as in the prior art.

According to the configuration of the present invention as described above, first, problems such as deterioration of the appearance and contamination caused by the fluid dropping through the air hole 21 of the suction pipe 20 during the pumping operation generated in the conventional fluid pump, etc. I can solve it.

Second, compared to the conventional fluid pump 100 can be quickly discharged residual fluid can increase the efficiency of the work.

Third, since the height of the discharge groove 15 for discharging the fluid over the flow groove 13 of the body portion 10 is set higher, the overflow phenomenon can be significantly reduced.

Therefore, it is a very useful invention that can improve the marketability and reliability of the work of the fluid pump 100.

Claims (1)

An elongated suction pipe 20 is formed at the distal end so that the fluid inside the container is sucked by the suction force generated by the rotation of the suction fan 31 driven by the motor M, and then discharged through the discharge port 11 on the other side. A body part 10 having a battery mounting chamber 50 and an outlet 11 formed at one side thereof so that the battery B may be embedded in the upper part of the suction pipe 20; It is provided in the body portion 10 and rotates the suction fan 31 installed in the suction pipe 20 by the drive of the motor (M) by the user's switch operation to the fluid in the body portion 10 by its suction force A suction pump part 30 to be sucked in; The fluid discharge means 40 is provided at one side of the suction pipe 20 so that the fluid can be discharged smoothly during the residual or overflow phenomenon of the fluid which may occur during or after the operation of the suction pump 30. In; The fluid discharging means 40 forms a contact surface 17 and a protrusion 22 on an upper portion of the inlet groove 16 and an upper portion of the suction pipe 20 of the body portion 10, and a central portion of the inlet groove 16. It is provided with a predetermined clearance 19, and the air groove 13 is formed in the transverse direction to one side of the support port 12 inside the outlet port 11 of the body portion 10, the upper portion of the air groove 13 Both sides of the center is provided with a discharge groove (15) for discharging the fluid in the overflow phenomenon, the upper portion of the discharge groove 15, the fluid pump, characterized in that the air supply space (18) is formed.