KR20100084781A - A pump with a vacuum self-priming pump whit a device for the deflation of air - Google Patents

Abstract

PURPOSE: A vacuum self-priming pump with an air exhaust member is provided to efficiently utilize a space by driving the air exhaust member with applying power from a motor of a pump. CONSTITUTION: A vacuum self-priming pump with an air exhaust member comprises a motor(2) includes a biaxial motor. The biaxial motor includes a first pivot axis(16) rotating an impeller(3) and a second pivot axis(17) outputting torque to the other direction. An eccentric wheel(10) includes the power control unit member(19) which is allowed between the second pivot axis of the motor and a rotary shaft(18) which axis-combines in an axis hole of the eccentricity wheel and transfers the power of the second pivot axis to the rotary shaft and the applied power short-circuits. The power transmission element includes a clutch interlinking one end and the rotary shaft of the second pivot axis and turns on the transmission of the torque.

Description

A PUMP WITH A Vacuum self-priming pump whit a device for the deflation of air}

The present invention mainly relates to a pump used to pump water in reservoirs, dams and submerged ponds, and more particularly, air for discharging the air of the pump chamber to the outside of an existing pump having a pump chamber in which fluid is pumped by a motor. The discharge means is installed to force the air inside the pump chamber to the outside to generate a pressure difference, and in particular, the space can be efficiently driven by enabling the drive without having a separate power source for driving the air discharge means. It relates to a vacuum ferromagnetic pump having an air discharge means adapted for use and economical application.

Generally, pumps for pumping water are installed in reservoirs, dams and flooded areas to pump water as needed.

Such a pump is a device that pumps the fluid upward and forcibly moves it when the fluid is below the discharge port, and is used to move or circulate the fluid.

Such pumps are generally designed to be pumped only when water is completely filled into the pump chamber of the pump at the beginning of operation. Conventionally, a pump using a water-sealed vacuum pump that continuously supplies a certain amount of water is used to pump the pump. It was possible to pump by releasing the air and making it vacuum while allowing the water to be filled.

In addition, when the water is circulated, the temperature of the water rises, bubbles are generated, and pumping is not performed smoothly by the bubbles, so that a separate water tank was installed to lower the water temperature.

In addition, the large-capacity mobile pump is not possible to use a manual or water-sealed vacuum pump to fill the main pump with another pump, there is a problem that the installation cost and operating cost increases.

However, the conventional pump and the sealed vacuum pump as described above had a problem in that the pumping is not easily performed by the sludge contained in the water when pumping water containing a lot of sludge.

In order to solve the above-mentioned conventional problems, the present inventor proposes Korean Patent Registration No. 10-791044 (name: vacuum ferromagnetic pump) to draw air from the pump chamber by the air discharge means of the vacuum pump. By discharging to the outside, the fluid can be moved more easily and the work efficiency is improved.

As described in Korean Patent Application No. 10-791044, the vacuum ferromagnetic pump of the present applicant has a pump chamber consisting of a motor and a space of a predetermined size, and is connected to a rotating shaft of the motor to rotate the fluid at the inlet. In the pump having a body in which the impeller is embedded to suck the discharge to the discharge port; An air discharge pipe communicating with the pump chamber of the body to move the air of the pump chamber, an air blocking portion installed between one end of the air discharge pipe and the body pump chamber to open and close one end of the air discharge pipe; and the other end of the air discharge pipe And an air discharge means having an air pumping part communicating with the air pump to discharge the air in the body pump chamber to the outside, and making the body pump chamber in a vacuum state to lift the fluid upward.

However, it is difficult to apply the vacuum ferromagnetic pump of the present inventors to a conventional pump installed and installed, which is the air discharge means and the vacuum pump is integrated, it is almost impossible to apply to the existing pump There was a difficult problem to apply.

Accordingly, in order to solve the problem of the vacuum ferromagnetic pump having the above problems, the present cause makes it easy to configure and apply the air discharge means without largely damaging the existing pump, the pump chamber inside By forcibly discharging the air to the outside to generate a pressure difference, it was possible to more easily move the fluid pumped by the motor to provide a vacuum magnetic suction pump that can improve the work efficiency while reducing the working time.

The present inventors improved the vacuum magnetic induction pump as described in Korean Utility Model Registration No. 20-441268 (name: vacuum magnetic induction pump), as described in the publication has a pump chamber consisting of a motor and a space of a predetermined size A conventional pump having a body in which an impeller is embedded to rotate in connection with a rotating shaft of a motor to suck a fluid at an inlet and discharge to a discharge port; A one-way check valve is installed at the discharge port of the body, and an air discharge pipe is installed to communicate with the pump chamber so that the air in the pump chamber is moved. The air discharge pipe is installed between one end of the air discharge pipe and the one end of the air discharge pipe. An air blocking unit provided with a buoy to open and close and a detection sensor for detecting whether the opening and closing is provided, and is connected to the other end of the air discharge pipe pumping having a space of a predetermined size therein to discharge the air of the body pump room to the outside A diaphragm disc installed inside the seal and the pumping chamber, a rod for linearly reciprocating the diaphragm disc, an eccentric wheel inserted and rotated on an inner circumferential surface of the rotating ring provided on the rod, and an eccentric wheel having an axis fixed therein; An air pumping means comprising a rotating motor to which the pumping chamber is fixed is provided. It consists of

The vacuum ferromagnetic pump of the Korean Utility Model Registration No. 20-441268 of the present invention made as described above is provided with a separate air discharge means (air pumping means) in the existing pump without significantly damaging the existing pump. The air discharge means (air pumping means) can be easily configured to forcibly discharge the air in the pump chamber to the outside to generate a pressure difference, thereby making it possible to move the fluid pumped by the motor more easily. While shortening, the efficiency of the work was improved.

However, the vacuum ferromagnetic pump of the present inventors Korea Utility Model Registration No. 20-441268 made as described above was able to easily improve the existing pump, but is a separate drive source (power source for driving the air discharge means) Since the motor has to be provided, the unit price is increased and it is uneconomical. In particular, there is a spatial problem of expanding the space of the pumping chamber in which the existing pump is installed, and there is an inefficient problem.

The present invention has been proposed to solve the above conventional problems, an object of the present invention is to provide an air discharge means for discharging the air of the pump chamber to the outside of the existing pump having a pumping chamber in which the fluid is pumped by the motor It is installed to force the air inside the pump room to the outside to generate a pressure difference. In particular, it is possible to drive even without a separate power source for driving the air discharge means, so that the space is used efficiently and economically It is to provide a vacuum ferromagnetic suction pump having an air discharge means that can be applied to.

Vacuum ferromagnetic pump having an air discharge means of the present invention for achieving the object of the present invention as described above is a motor; A body provided with a pump chamber for sucking / discharging fluid by rotating an impeller by receiving the power of the motor and having a one-way check valve installed at a discharge port of the pump chamber; One end is provided to communicate with the pump chamber, the on-off valve is provided with a tubular air discharge pipe to control the flow of air, and the rotary ring is connected to the other end of the air discharge pipe and installed on the outer circumferential surface of the eccentric wheel rotated by power Claims [1] A vacuum ferromagnetic pump having an air discharge means having a main body having a pumping chamber in which air is pumped by a diaphragm connected to a rod of a vacuum pump; The motor is composed of a biaxial motor having a first rotating shaft to rotate the impeller and a second rotating shaft to output the rotational force to the other side, the power applied to the eccentric wheel is And a power control member interposed between the rotating shaft coupled to the shaft hole and the second rotating shaft of the motor to transfer / short circuit the power of the second rotating shaft to the rotating shaft.

The power transmission member is characterized by consisting of a conventional clutch to connect one end of the rotary shaft and the second rotation shaft to turn on or off the transmission of the rotational force.

Vacuum ferromagnetic pump having an air discharge means of the present invention made as described above is a separate motor (power source) to apply the power applied to the air discharge means for discharging the internal air of the pump having a pump chamber in which the fluid is pumped by the motor to the outside By receiving and driving from the motor constituting the pump without being transmitted through it, it is possible to improve the existing pump by forcibly discharging the air in the pump room to the outside to generate a pressure difference so that a separate power source can be used to smoothly pump the fluid. Since it is possible to drive even if it is not provided, it can be easily improved without expanding the space of the pump chamber in which the pump is installed, so that the space can be efficiently used and economically applied.

Hereinafter, with reference to the accompanying drawings, a vacuum ferromagnetic pump having an air discharge means according to a preferred embodiment of the present invention will be described in detail.

1 to 4 is a view showing a vacuum magnetic induction pump having an air discharge means according to an embodiment of the present invention, the vacuum magnetic induction pump 1 having an air discharge means of the present embodiment is a motor (2) Wow; A pump chamber 4 is provided to suck / discharge fluid by rotating the impeller 3 by receiving the power of the motor 2, and a body in which a one-way check valve 6 is installed in the discharge port 5 of the pump chamber 4. (7); One end is provided to communicate with the pump chamber (4), the on-off valve (8) is provided with a tubular air discharge pipe (9) to control the flow of air, and is connected to the other end of the air discharge pipe (9) to apply power Air discharge means provided with a main body 14 having a pumping chamber 13 in which air is pumped by a diaphragm 12 connected to a rod 11 of a rotary ring installed on an outer circumferential surface of the eccentric wheel 10 which is rotated by rotation. A vacuum ferromagnetic pump having (15); The motor 2 is composed of a biaxial motor having a first rotating shaft 16 for rotating the impeller 3 and a second rotating shaft 17 for outputting rotational force to the other side. The power applied to the eccentric wheel 10 is interposed between the rotary shaft 18 coupled to the shaft hole of the eccentric hill 10 and the second pivot shaft 17 of the motor 2 to the second pivot shaft ( 17 has a power control member 19 which is configured to transmit and short-circuit the power of 17 to the rotation shaft 18.

The power transmission member 19 is preferably made of a conventional clutch that is connected to one end of the rotary shaft 18 and the second rotation shaft 17 to turn on or off the transmission of the rotational force, the clutch is typically electronic Most preferably controlled by a solenoid valve.

Undestructed "20" is the discharge valve and "21" is the sensing sensor.

The vacuum ferromagnetic pump having the air discharge means of the present embodiment made as described above rotates the second rotating shaft 17 of the motor 2 by driving the motor 2, as shown in FIG. When the eccentric wheel 10 is axially coupled to receive power by the power transmission member 19, the rod 11 of the rotary ring reciprocates up and down accordingly.

As described above, when the rod 11 reciprocates up and down, the diaphragm 12 connected to the rod 11 reciprocates up and down in the pumping chamber 13 and remains inside the pump chamber 4. The air is sucked into the pumping chamber 13 and then discharged to the outside through the discharge valve 20.

At this time, the discharge port 5 is closed by the one-way check valve 6 provided in the discharge port 5 so that air does not flow into the pump chamber 4 from the outside, and the open / close valve 8 is opened to open the air discharge pipe ( 9) through the air is to be able to move to the pumping chamber (13) smoothly.

When the air in the pump chamber 4 is discharged to the outside according to the reciprocating motion of the diaphragm 12 as described above, the pump chamber 4 is gradually vacuumed, thereby pumping to the inlet side of the pump chamber 4 The fluid is drawn into the pump chamber 4.

At this time, the on-off valve 8 provided in the air discharge pipe 9 is closed so that fluid does not flow out to the air discharge pipe 9.

The inside of the pump chamber 4 is in a vacuum state, and the closing of the opening / closing valve 8 is sensed by the detection sensor 21 built in the opening / closing valve 8 to release the clutch, thereby transmitting power to the rotating shaft 18. Stopping the rotation of the eccentric wheel 10 to stop the reciprocating motion of the diaphragm 12 is stopped.

As described above, when the open / close valve 8 is closed and the air discharge pipe 9 is closed, the fluid (water) sucked into the pump chamber 4 is discharged to the discharge port 5, and at this time, one-way by the pressure of the pumped fluid The check valve 6 is opened so that the fluid can be pumped smoothly.

As described above, the vacuum ferromagnetic pump having the air discharge means of the present invention includes an air discharge means for discharging the air of the pump chamber to the outside of the existing pump, and the power applied to the air discharge means is applied from the double shaft motor. The present invention is not limited to the specific preferred embodiments described above, and is configured to receive the technical features, and the present invention is not limited to the specific preferred embodiments described above, and the general knowledge in the art to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, anyone with a variety of modifications can be made, of course, such changes are within the scope of the claims appended hereto.

1 is an exemplary state of use showing a vacuum magnetic induction pump having an air discharge means according to an embodiment according to the present invention,

2 to 4 illustrate the same state of use,

[Description of Signs for Important Parts of Drawing]

1: vacuum ferromagnetic pump, 2: motor,

3: impeller, 4: pump chamber,

5: discharge port, 6: one-way check valve,

7: body, 8: on-off valve,

9: air discharge pipe, 10: eccentric wheel,

11: rod, 12: diaphragm,

13 pumping chamber, 14 body,

15: air discharge means, 16: first rotational shaft,

17: second rotation shaft, 18: rotation shaft,

19: power transmission member, 20: discharge valve,

21: detection sensor.

Claims (2)

A motor 2; A pump chamber 4 is provided to suck / discharge fluid by rotating the impeller 3 by receiving the power of the motor 2, and a body in which a one-way check valve 6 is installed in the discharge port 5 of the pump chamber 4. (7); One end is provided to communicate with the pump chamber (4), the on-off valve (8) is provided with a tubular air discharge pipe (9) to control the flow of air, and is connected to the other end of the air discharge pipe (9) to apply power Air discharge means provided with a main body 14 having a pumping chamber 13 in which air is pumped by a diaphragm 12 connected to a rod 11 of a rotary ring installed on an outer circumferential surface of the eccentric wheel 10 which is rotated by rotation. A vacuum ferromagnetic pump having (15); The motor 2 is composed of a biaxial motor having a first rotating shaft 16 for rotating the impeller 3 and a second rotating shaft 17 for outputting rotational force to the other side. The power applied to the eccentric wheel 10 is interposed between the rotary shaft 18 coupled to the shaft hole of the eccentric heel 10 and the second pivot shaft 17 of the motor 2 a second time. Vacuum ferromagnetic pump having air discharge means, characterized in that it has a power control member 19 to transmit and short-circuit the power of the coaxial 17 to the rotary shaft 18. The method of claim 1; The power transmission member 19 is a vacuum having an air discharge means, characterized in that made of a conventional clutch to connect the one end of the rotary shaft 18 and the second rotation shaft 17 on and off the transmission of the rotational force Strong magnetic suction pump

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