KR20100092367A - A fluid pump - Google Patents

Abstract

PURPOSE: A fluid pump is provided to simplify a structure using coil and a permanent magnet and to enhance the energy efficiency. CONSTITUTION: A fluid pump(1) comprises a cylinder(10), a coil unit(20), a plunger(30), and a control valve(40). The cylinder comprises a supply hole(100) and a discharge hole(120) and has an internal space. The coil unit is installed on the outer circumference of the cylinder. The plunger is arranged on the inner surface of the cylinder to be able to linearly move and interacts with the coil unit. A flow path(300) is formed at the center of the plunger. The control valve is installed on one side of the plunger and if the plunger goes forth, the control valve closes the flow path and if the plunger goes back, the control valve opens the flow path.

Description

Fluid Pump {A FLUID PUMP}

The present invention relates to a fluid pump.

Conventionally, pumps used to transfer fluids have been mostly transported by rotating a motor.

Such a motor has a structure to transfer gas or liquid from one side to the other side by rotating the impeller by using rotational power, but the piston connected to the rotor of the motor and the crankshaft reciprocates in the cylinder, The fluid is conveyed by alternating opening and closing operations.

However, since the fluid pump must be equipped with a motor basically, the energy efficiency for pumping is inevitably lowered. In addition, the method using the piston and the cylinder has a structural noise in the process of converting the rotational motion of the motor into a linear reciprocating motion by a crank. If large occurs as a complex structure has a problem that the production cost is high and bulky.

The problem to be solved by the present invention is to provide a fluid pump with no noise, low power consumption, and a simple structure.

Fluid pump according to an embodiment of the present invention, there is a supply port on one side, a discharge port on the other side, a cylinder having a space therein, a coil unit installed on the outer peripheral surface of the cylinder, the linear movement to the cylinder inner surface A plunger disposed in the center and penetrating through the central part, the plunger interacting with the coil unit, and installed at one side of the plunger to block the flow path when the plunger is advanced and open and close the flow path when the plunger is retracted. have.

The plunger may include a main body disposed on the inner surface of the cylinder and penetrated in the longitudinal direction, and a permanent magnet disposed in the main body to linearly move the main body by a magnetic field generated by the coil unit. It may include.

In addition, a protruding jaw is provided inside the main body, and the permanent magnets are disposed to face the same pole at both ends of the protruding jaw, and the permanent magnets disposed at both ends of the protruding jaw are repulsed by the repulsive force. The apparatus may further include a departure preventing member coupled to the main body such that one side contacts the one side edge of the permanent magnet to prevent the main body from escaping to the outside of the main body.

In addition, the main body includes a receiving portion extending in the longitudinal direction to accommodate the opening and closing valve on one side, the opening and closing valve, the fixing member fixed to the other side of the separation preventing member disposed adjacent to the receiving portion and Is connected to the fixing member, the piston reciprocates linearly to block the flow path when the fluid is discharged to the outside of the cylinder to prevent the back flow of the fluid, when the fluid is supplied into the cylinder to open the flow path The column may include an opening and closing member.

The apparatus may further include a shock absorbing ring disposed at both ends of the cylinder to reduce abrasion of both ends of the cylinder by an impact generated when the piston reciprocates the inside of the cylinder.

In addition, the main body may include a synthetic resin or silicone.

In addition, at both ends of the main body, a projecting portion larger than the outer diameter of the main body is formed to be in contact with the inner circumferential surface of the cylinder to remove foreign matter on the inner circumferential surface of the cylinder.

The apparatus may further include an elastic member disposed at the other side of the cylinder to return the plunger to its original state.

The coil unit may include a casing surrounding the outer circumferential surface of the cylinder and having a space therein and a plurality of coils disposed in the inner space of the casing.

Fluid pump according to an embodiment of the present invention, the structure is not only simple by using a coil and a permanent magnet, it is possible to increase the output of the pump according to the amount of the coil wound and the amount of voltage supplied to the high energy efficiency There is this.

In addition, the non-motor structure has a merit that the noise generation amount is significantly lowered accordingly.

1 is a perspective view of a fluid pump according to an embodiment of the present invention.
2 is an exploded perspective view of a fluid pump according to an embodiment of the present invention.
3 is a cross-sectional view of a fluid pump according to one embodiment of the present invention.
4 to 5 are operation diagrams of the fluid pump according to an embodiment of the present invention.
6 is an exploded perspective view of a body of a fluid pump according to another embodiment of the present invention.
7 is a cross-sectional view of a body of a fluid pump according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Like parts are designated by like reference numerals throughout the specification.

Then, a fluid pump according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5.

1 is a perspective view of a fluid pump according to an embodiment of the present invention. 2 is an exploded perspective view of a fluid pump according to an embodiment of the present invention. 3 is a cross-sectional view of a fluid pump according to one embodiment of the present invention. 4 to 5 are operation diagrams of the fluid pump according to an embodiment of the present invention.

1 to 5, the fluid pump 1 according to an embodiment includes a cylinder 10, a coil unit 20, a plunger 30, and an open / close valve 40.

The cylinder 10 is a basic frame of the fluid pump 1 according to one embodiment, and is cylindrical in shape and made of brass. However, the material is not limited to brass, and may include other materials.

One side of the cylinder 10 is formed with a supply port 100 for supplying a fluid therein, and the other side is formed with a discharge port 120 for discharging the fluid supplied therein to the outside of the cylinder 10.

In this case, the supply member 110 is screwed to the supply port 100, the discharge member 130 is screwed to the discharge port 120. The supply member 110 largely includes a coupling portion 111 and a connection portion 112. Coupling portion 112 is a portion screwed to the supply port 100 corresponding to the inner diameter of the supply port (100). One side of the connection portion 112 is connected to the coupling portion 112, and the other side includes a connection portion 112 connected to the supply pipe 2 in contact with the inner diameter of the supply pipe 2 for supplying a fluid. Discharge member 130 also has the same configuration as the supply member 110 but in contact with the inner diameter of the discharge pipe (3), not the supply pipe (2).

The supply member 110 and the discharge member 130 may be arbitrarily changed by the operator according to the inner diameter of the pipe for supplying and discharging the fluid can be connected to the cylinder. In addition, the supply member 110 and the discharge member 130 may be omitted. In this case, the supply pipe 2 is inserted into the supply port 100, the discharge pipe 3 is inserted into the outlet 120 as it is.

The coil unit 20 is installed on an outer circumferential surface of the cylinder 10 and serves to linearly move the plunger 30 inside the cylinder 10 by generating a magnetic field by receiving power from an external device.

The coil unit 20 includes a casing 200 and a coil 210. The casing 200 surrounds the outer circumferential surface of the cylinder 10 and has a space formed therein. The coil 210 is disposed inside the casing 200 and wound along the lower surface of the casing 200. In this case, the operator can arbitrarily adjust the number of times the coil 210 is wound on the casing 200, thereby increasing or decreasing the strength of the magnetic field when the power is supplied. In addition, a plurality of coil units 20 may be installed on the outer circumferential surface of the cylinder 10. In the case of a plurality of installations, the magnetic field strength is increased by the installed number, so that the fluid can be transported or circulated more efficiently. In addition, the casing 200 may be omitted from the coil unit 20, and in this case, the coil 210 may be immediately wound on the outer circumferential surface of the cylinder 10.

The plunger 30 linearly moves the inner surface of the cylinder 10 by the magnetic field generated by the coil unit 20. Accordingly, it serves to supply or discharge fluid into the cylinder 10. The flow path 300 is formed in the center of the plunger 30.

To describe the plunger 30 in more detail, the plunger 30 includes a main body 310, a permanent magnet 320, a separation preventing member 330, and a receiving portion 340. The main body 310 is disposed on the inner surface of the cylinder 10 and penetrates the inside in the longitudinal direction. In addition, the projection jaw 311 is formed in a predetermined portion of the interior. Permanent magnets 320 are disposed at both ends of the protruding jaw 311. At this time, the permanent magnet 320 is disposed to face the same pole to generate a repulsive force.

The separation preventing member 330 is screwed to the main body 310 so as to contact the permanent magnet 320 to prevent the permanent magnets 320 from being separated out of the main body 310 by the repulsive force.

The accommodation part 340 extends in one longitudinal direction of the main body 310 to form a space for accommodating the opening / closing valve 40. Accordingly, the on-off valve 40 can open and close the flow path 300 more smoothly without contacting the elastic member 50.

The on-off valve 40 is installed at one side of the plunger 30 to block the flow path 300 when the plunger 30 moves forward and to open the flow path 300 when the plunger 30 retreats. In this case, the open / close valve 40 includes a fixing member 400 and an opening / closing member 410. The fixing member 400 is fixed to the other side of the separation preventing member 330 disposed adjacent to the receiving portion 340. In this case, the fixing member 400 may be fixed to the release preventing member 330 by using the fastening pin 420, but not limited to the fastening pin 340. The fixing member 400 may be fixed in various other ways. . The opening / closing member 410 is connected to one side of the fixing member 400, and the main body 310 linearly reciprocates to prevent the back flow of the fluid by covering and blocking the flow path 300 when the fluid is discharged out of the cylinder 10. When the fluid is supplied into the cylinder 10, the fluid 300 opens the flow path 300.

In addition, the shock absorbing ring 140 is disposed at both ends of the cylinder 10 to reduce the wear of both ends of the cylinder 10 by the impact generated when the plunger 20 reciprocates inside the cylinder 10. It plays a role.

When the elastic member 50 is disposed on the other side inside the cylinder 10 and power supply to the coil unit 20 is stopped and no magnetic field is generated, the plunger 30 is returned to its original state by the restoring force of the elastic member 50. It plays a role. In the case of the elastic member 50 or the shock absorbing ring 140 may be omitted.

In summary, the pump device 1 according to an embodiment of the present invention includes a first chamber 150 on one side and a second chamber 160 on the other side of the cylinder 10 based on the plunger 30 in order to simplify the description. Divide by. When the worker supplies power to the coil unit 20 using an external device, the coil unit 20 generates a magnetic field. Accordingly, the plunger 30 pushes the fluid located in the second chamber 160 toward the discharge member 130 while moving forward under the influence of the magnetic field of the coil unit 20 to discharge the cylinder 10. At this time, the plunger 30 moves forward and the on / off valve 40 connected to the plunger 30 blocks the flow path 300 so that the fluid located in the second chamber 160 does not flow back toward the first chamber 150. . Subsequently, when the power supply of the coil unit 20 is stopped, a magnetic field does not occur, and thus the plunger 30 is restored to its original position by the elastic member 50. In this case, the open and close valve 40 opens the flow path 300 so that the fluid in the first chamber 150 is supplied toward the second chamber 160, and the fluid is also supplied to the first chamber 150 by the supply member 110. Is supplied. By working continuously in this manner, the fluid can be continuously transported or circulated.

6 is an exploded perspective view of a body of a fluid pump according to another embodiment of the present invention. 7 is a cross-sectional view of a body of a fluid pump according to another embodiment of the present invention.

Components of other embodiments according to the present invention are similar to those of the components of the embodiments described with reference to FIGS. 1 to 5, and thus, detailed descriptions thereof will be omitted.

As shown, the body 310 in another embodiment includes a synthetic resin. At this time, it may be a synthetic resin or silicone. Since the main body 310 is manufactured using the synthetic resin, it is easier to install the permanent magnet 320 and the separation preventing member 330, and noise can be effectively reduced in view of the characteristics of the synthetic resin.

In addition, protrusions 350 larger than the outer diameter of the main body 310 are formed at both ends of the main body 310. Protruding portion 350 is in contact with the inner surface of the cylinder 10, when the main body 310 has the advantage of removing foreign matters such as water when the stain on the inner surface of the cylinder 10.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 fluid pump 2 supply pipe
3: discharge pipe
10 cylinder 100 supply port
110: supply member 120: outlet
111: coupling portion 112: connecting portion
130: discharge member 140: shock absorbing ring
150: first chamber 160: second chamber
20: coil unit 200: casing
210: coil
30: plunger 300: euro
310: main body 311: protruding jaw
320: permanent magnet 330: separation prevention member
340: accommodation portion 350: protrusion
40: opening and closing valve 400: fixed member
410: opening and closing member 420: fastening pin
50: elastic member

Claims (9)

One side has a supply port, the other side has a discharge port, the cylinder having a space inside,
A coil unit installed on an outer circumferential surface of the cylinder,
A plunger disposed on the inner surface of the cylinder so as to be linearly movable and having a flow path through the center thereof, the plunger interacting with the coil unit, and
An on / off valve installed at one side of the plunger to block the flow path when the plunger is advanced and open the flow path when the plunger is retracted
Fluid pump comprising a. In claim 1,
The plunger,
A main body disposed on the inner surface of the cylinder and penetrating therein in a longitudinal direction;
A permanent magnet disposed inside the main body and linearly moving the main body by a magnetic field generated by the coil unit.
Fluid pump comprising a. In claim 2,
Inside the main body, a projection jaw is provided, and the permanent magnets are disposed to face the same pole at both ends of the projection jaw,
Further comprising a separation preventing member coupled to the main body such that one side is in contact with one side edge of the permanent magnet in order to prevent the permanent magnet disposed on both ends of the protruding jaw is separated from the outside of the main body by the repulsive force;
Pump device. In claim 2,
The main body,
It includes a receiving portion extending in the longitudinal direction to accommodate the on-off valve on one side,
The on-off valve,
A fixing member fixed to the other side of the separation preventing member disposed adjacent to the receiving portion;
Is connected to the fixing member, the piston reciprocates linearly to block the flow path when the fluid is discharged to the outside of the cylinder to prevent the back flow of the fluid, when the fluid is supplied into the cylinder to open the flow path Giving opening and shutting member
Pump device comprising a. In claim 2,
And a shock absorbing ring disposed at both ends of the cylinder to reduce wear of both ends of the cylinder by an impact generated when the piston reciprocates the inside of the cylinder. In claim 2,
The main body is a pump device containing a synthetic resin or silicone. In claim 6,
Both ends of the main body, the projection unit is formed larger than the outer diameter of the main body is in contact with the inner circumferential surface of the cylinder to remove foreign matter on the inner circumferential surface of the cylinder. In claim 1,
And an elastic member disposed on the other side of the cylinder to return the plunger to its original state. In claim 1,
The coil unit,
A casing surrounding the outer circumferential surface of the cylinder and having a space therein;
A plurality of coils disposed in the inner space of the casing
Pump device comprising a.

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