KR100337238B1 - Automatic pump - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic pump capable of opening and closing a flow path of a pump in accordance with the presence or absence of a fluid flow and at the same time turning the pump on and off. Since the automatic pump opens and closes the flow path of the casing by the first magnet and the second magnet with mutual repulsive force, the pump can be freely installed without limitation in the installation direction. In addition, since the reed switch is installed inside the control unit cover, a separate work process and a separate part for sealing the wire connecting the reed switch and the control unit are not necessary. Therefore, the cost is reduced.

Description

Auto Pump {AUTOMATIC PUMP}

The present invention relates to an automatic pump, and more particularly, to an automatic pump capable of opening and closing a flow path of a pump according to the presence or absence of fluid flow and at the same time turning the pump on and off.

A pump is a device for transporting fluid by the action of a motor, and an automatic pump is a device for automatically controlling the flow of fluid flowing in and out. Such a conventional automatic pump will be described with reference to FIGS. 1A and 1B.

1A is a cross-sectional view showing a schematic configuration of a conventional automatic pump, and FIG. 1B is an enlarged view of portion “A” of FIG. 1A.

As shown, a casing 10 is provided which forms a flow path for the fluid. The casing 10 communicates with the inflow pipe 11a through which the fluid flows in and the discharge pipe 11b through which the fluid flows, respectively, and a chamber 13 is provided inside the casing 10 to temporarily store the fluid introduced therein. The fluid is forcibly introduced into and discharged from the casing 10 by the impeller 21, and the impeller 21 is rotated by the motor 20.

In the part of the casing 10 between the inflow pipe 11a and the discharge pipe 11b, the inflow pipe 11a side and the discharge pipe 11b side are provided in accordance with the presence or absence of the fluid which flows into the inside of the casing 10. At the same time, a valve switch 30 is provided for turning on and off the operation of the motor 20. The valve switch 30 is provided in the communication pipe 11c formed in the chamber 13 in the casing 10, and is connected to the control part 40 using the electric wire 41 as a medium.

The operation of the valve switch 30 will be described in detail.

When fluid does not flow through the inflow pipe 11a, as shown by the solid line in FIG. 1B, the valve 33 is located below the communication pipe 11c by the weight of the valve 33, and the communication pipe 11c is shown. ) Is closing. Then, when the faucet of the place of use is opened, the fluid on the discharge pipe 11b side is discharged to the faucet and at the same time by the action of the hydraulic car and the compression tank (not shown) on the inlet pipe 11a and the discharge pipe 11b side. The fluid flows to the discharge tube 11b side. Then, the valve 33 is raised by the flow of the fluid as shown by the dotted line in FIG. 1B. Then, the magnet 31 provided at the lower end of the valve 33 comes close to the reed switch 35, and the reed switch 35 is turned on. The on signal of the reed switch 35 is transmitted to the control unit 40 through the wire 41, and the control unit 40 receives the signal to drive the motor 20. Then, the fluid is forced into the casing 10 through the inlet pipe 11a and discharged to the discharge pipe 11b. Then, when the water tap of the place of use is locked, there will be no flow of the fluid according to the hydraulic pressure difference between the inflow pipe 11a side and the discharge pipe 11b side, and the valve 33 will be lowered by the weight of the valve 33. Then, the magnet 31 is moved away from the reed switch 35 so that the reed switch 35 is turned off, and the control unit 40 receives this signal to stop the motor 20. Reference numerals 43 and 45 are epoxy molding parts and rubber bushings.

The conventional automatic pump as described above has a disadvantage in that the lowering action of the valve 33 is made by the weight of the valve 33 in most cases, which limits the installation direction of the pump.

In addition, since the wire 41 connecting the reed switch 35 and the control unit 40 is exposed to the outside, additional work such as epoxy molding for sealing the connection part of the wire 41 and rubber bushing, etc. Material required As a result, cost increases.

The present invention has been created to solve the above problems, the object of the present invention is to provide an automatic pump that can be installed freely, without limitation of the installation direction, as well as to improve the reliability of the product.

Another object of the present invention is to provide an automatic pump that can reduce the cost by removing the unnecessary manufacturing process and manufacturing parts.

Figure 1a is a cross-sectional view showing a schematic configuration of a conventional automatic pump.

FIG. 1B is an enlarged view of the “P” portion of FIG. 1A; FIG.

Figure 2 is a cross-sectional view showing the configuration of an automatic pump according to an embodiment of the present invention.

3a and 3b are for explaining the operation of the automatic pump according to an embodiment of the present invention, an enlarged view "Q" of FIG.

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

50: casing 60: motor

61 impeller 70 control unit

80: valve switch 81: valve

83,85: 1st and 2nd magnet 87: Reed switch

An automatic pump according to the present invention for achieving the above object, the inlet pipe and the discharge pipe is in communication with the casing is formed with a flow path of the fluid, the impeller and the motor for rotating the impeller located inside the casing, and In the automatic pump having a valve switch provided in the flow path on the discharge tube side for opening and closing the flow path, and a control unit provided outside the casing to receive a signal from the valve switch to control the motor,

The valve switch is installed to be hinged around one point of the casing, one side is located outside the casing and the other side is located inside the flow path to the fluid flow according to the hydraulic difference between the inlet pipe side and the discharge pipe side A first magnet coupled to an end of the valve rotated by the valve, the first magnet coupled to an end of the valve positioned outside the casing, and a second magnet fixed to face the first magnet and having the same polarity as the first magnet. And a reed switch which is connected to the control unit and transmits a signal to the control unit while being turned on and off as the first magnet moved closer and further away by the valve.

Hereinafter, with reference to the accompanying drawings will be described in detail an automatic pump according to an embodiment of the present invention.

Figure 2 is a cross-sectional view showing the configuration of the automatic pump according to an embodiment of the present invention, a casing 50 for forming a flow path (50a) of the fluid is provided. On one side of the casing 50, an inflow pipe 51 through which fluid flows is communicated and installed, and on the other side, a discharge pipe 53 through which fluid is discharged is communicated and installed.

An impeller 61 is formed inside the casing 50 between the inflow pipe 51 and the discharge pipe 53 to form a vortex to force the fluid to flow therein. The impeller 61 is rotated by the motor 60 installed on one side of the outer surface of the casing 50, and the motor 60 is controlled by the controller 70 installed on the other side of the outer surface of the casing 50. At this time, the control unit 70 is preferably installed on the outer surface of the casing 50 adjacent to the discharge pipe 53 side, the control unit 70 is covered by the control cover 75 coupled to the casing 50 Protected.

The valve switch 80 is provided in the site | part of the casing 50 by the side of the discharge pipe 53 adjacent to the control part 70. The valve switch 80 opens and closes the flow path 50a of the casing 50 while being rotated by the flow of fluid between the inflow pipe 51 side and the discharge pipe 53 side, and controls the motor 60. The necessary signal is transmitted to the control unit 70. This will be described with reference to FIGS. 2, 3A, and 3B. 3a and 3b are for explaining the operation of the automatic pump according to an embodiment of the present invention, an enlarged view "Q" of FIG.

The valve switch 80 has a valve 81, first and second magnets 83 and 85, and a reed switch 87. The valve 81 is hingedly installed at one side of the casing 50, so that one end portion 81a is located outside the casing 50 and the other end portion 81b is located inside the casing 50. Thus, the other end portion 81b side of the valve 81 is rotated about the hinge portion 81c provided on the casing 50 by the hydraulic pressure on the inlet pipe 51 side and the hydraulic pressure on the discharge tube 53 side, The flow path 50a inside the casing 50 is opened and closed.

The first magnet 83 is coupled to one end 81a side of the valve 81, and the first magnet 83 is covered and protected by the magnet cover 89 coupled to the casing 50. The second magnet 85 facing the first magnet 83 is fixed to a predetermined position of the magnet cover 89. The first magnet 83 and the second magnet 85 have the same polarity so that mutual repulsive force acts. That is, in the normal state in which there is no fluid flow, the first magnet 83 is positioned above the magnet cover 89 by the repulsive force of the first magnet 83 and the second magnet 85. Thus, the other end portion 81b of the valve 81 is located below the hinge point 81c to close the flow path 50a of the casing 50.

The reed switch 87 is installed inside the control unit cover 75 adjacent to the first magnet 83. The reed switch 87 transmits a signal to the controller 70 while being turned on and off by the action of the first magnet 83. That is, when the first magnet 83 is located above the magnet cover 89, the reed switch 87 is turned off, and when the first magnet 83 is located below the magnet cover 89, the first switch 83 is turned off. 1 is turned on by the action with the magnet (83). The on / off state of the reed switch 87 is transmitted to the control unit 70. Since the reed switch 87 is provided inside the control unit cover 75, the electric wire 71 connecting the reed switch 87 and the control unit 70 is also embedded in the control unit cover 75.

The operation of the automatic pump according to the present embodiment configured as described above will be described with reference to FIGS. 3A and 3B.

When there is no fluid flow inside the casing 50, as shown in FIG. 3A, the first magnet 83 is magnet-covered by the repulsive force between the first magnet 83 and the second magnet 85. It is located above 89. Therefore, the flow path 50a of the casing 50 remains closed by the other end 81b of the valve 81.

In this state, when the faucet of the place of use is opened, the fluid on the discharge pipe 53 side is discharged, and the fluid on the inflow pipe 51 side overcomes the repulsive force between the first magnet 83 and the second magnet 85. It flows in the discharge pipe 53 side. Then, as shown in FIG. 3B, the other end 81b side of the valve 81 gradually rises, and the one end 81a side of the valve 81 gradually descends by hydraulic pressure. Since the end portion 81a of the valve 81 is lowered, the first magnet 83 is also lowered to be adjacent to the reed switch 87. Then, while the reed switch 87 is turned on by the first magnet 83, the signal is transmitted to the controller 70, and the controller 70 drives the motor 60 to forcibly introduce and discharge fluid.

Then, when the water tap of the place of use is locked, the fluid which flows in by the impeller 61 which rotates by the motor 60 continues to be supplied to the discharge pipe 53 side, and the hydraulic pressure of the discharge pipe 53 side will flow in inflow pipe 51 side. Will be stronger than the hydraulic pressure. Then, since the valve 81 is gradually returned to the state as shown in FIG. 3A by the hydraulic vehicle, the first magnet 83 is far from the reed switch 87. Then, the reed switch 87 is turned off, and the control unit 70 receives the signal to stop the motor 60.

As described above, the automatic pump according to the present invention, since the valve opens and closes the flow path of the casing by the first magnet and the second magnet with mutual repulsive force, it is possible to install the pump freely without limitation of the installation direction.

In addition, since the reed switch is installed inside the control unit cover, a separate work process and a separate part for sealing the wire connecting the reed switch and the control unit are not necessary. Therefore, the cost is reduced.

In the above, the present invention has been described in accordance with one embodiment of the present invention, but those skilled in the art to which the present invention pertains have been changed and modified without departing from the spirit of the present invention. Of course.

Claims (3)

An inlet pipe and a discharge pipe communicate with each other, and a casing in which a fluid flow path is formed, an impeller positioned inside the casing, a motor for rotating the impeller, and a valve installed in the flow path on the discharge pipe side to open and close the flow path. An automatic pump having a switch and a control unit installed outside the casing and receiving a signal from the valve switch to control the motor. The valve switch, It is installed to be hinged around one point of the casing, one side is located outside the casing and the other side is located inside the flow path is rotated by the fluid flow according to the hydraulic flow of the inlet pipe and discharge pipe side the flow path With valve to open and close A first magnet coupled to an end of the valve located outside of the casing; A second magnet fixed to face the first magnet and having the same polarity as the first magnet, And a reed switch connected to the control unit and transmitting a signal to the control unit while being turned on and off as the first magnet rotated by the valve nears and moves away from the first magnet. The method of claim 1, The casing is coupled to a control cover surrounding the control, the reed switch is an automatic pump, characterized in that installed inside the control cover. The method of claim 1, The casing is coupled to the magnet cover surrounding the first magnet, the second magnet is characterized in that the auto pump is fixed to the magnet cover.