KR200236543Y1 - Pump - Google Patents

Abstract

The present invention relates to a pump, and a conventional pump has a gear for driving a rotor and a lubrication device as a peripheral device for driving the gear, which is essential, so that the volume and weight of the pump are excessive and precision parts are adopted. Because it should be, there was a problem that productivity is reduced due to the precision of the production.

Accordingly, the present invention, as shown in Figures 3 to 5, by supplementing the rotor end of the rigid body with an elastic body so that the rotors move directly, simplifying the structure of the drive unit and adding flexibility of the elastic body to the rotor, The support frame 10 and the elastic rotor 12 made of an elastic body are provided to couple the elastic rotor 12 to the support frame 10 to form the rotor 14, while the rotor 14 is moved linearly. The elastic rotor 12 and the support frame 10 are formed in a curved surface and a helical shape in contact with each other.

In the center of the rotor 14, the fluid is pressurized so that the expansion of the elastic rotor 12 is adjustable, so that the elastic supplement tube 16 for replenishing the amount of wear when the elastic rotor 12 is worn is provided.

Description

Pump

The present invention relates to a pump, and more particularly, to a pump that simplifies the fabrication and simplifies the structure of the driving unit by supplementing the front end of a rigid rotor with an elastic body so that the rotors move directly.

As is well known, the pump is sucked and discharged by the volume change according to the rotation of the rotor in the housing. The structure of the pump is a housing 1 having a suction port and a discharge port as shown in FIG. 1A and the housing 1. Consists of a pair of rotors (2) installed in.

The illustrated rotor 2 is a bi-lobe bidirectional rotor 2 in which the movable plate is disposed at 180 degrees from the rotational axis. When the rotor 2 is rotated in the housing 1, the space between the movable plate and the housing is moved. Suction and discharge are performed continuously.

The pump for this purpose is provided with a drive source of the rotor 2 such as the motor 3 is installed on the side of the pump, as shown in Figure 1b, so that any one of the rotor and the rotation axis of the motor 3 is integrally rotated have.

Then, the rotor is used as a driving rotor and the other rotor is installed as a manual rotor to rotate through engagement with the gear.

However, such a pump has a problem in that components are complicated, so that volume and weight are excessive, high precision is required, and manufacturing cost is excessive and productivity is not good.

That is, a gear 4 device for transmitting the rotational force of the motor 3 is essential for driving the rotor 2 as described above, and the gear 4 device includes a lubrication device 5 for driving thereof. And the like must also be fitted.

Therefore, the volume and dry weight of the pump were excessive due to the installation of peripheral parts for driving the rotor 2.

In addition, the rotor 2 is rotated in a state in which the micro clearance is maintained between the rotors and the housing. For this purpose, the precision of the gear 4 and the rotor 2 must be high and the regular arrangement of the rotor 2 rotating shaft is performed. The installation of high precision parts was essential.

In addition, when foreign matter penetrated into the rotor 2, damage to the rotor 2 was easy, and the pumping capacity of the pump was reduced, and an increase in noise by the gear 4 as the driving unit was inevitable.

On the other hand, as a pump of another driving method is a pump by a flexible impeller 6 as shown in Figure 2, which is provided with a plurality of elastic blades (7) made of a radially elastic body on the rotating shaft and this elastic blade (7) Suction and discharge are performed by volume change by.

By the way, such a pump has the advantage that the structure is simple because it uses a flexible impeller 6 capable of deformation, but it is difficult to expect a sufficient discharge pressure in view of the characteristics of the elastic body to be deformed.

In addition, since the pumping pressure of the pump due to the deformation of the elastic blade 7 is performed, the elastic blade is continuously and periodically subjected to the pressing by the pump housing, the deformation caused by the fatigue load occurs so that the elastic blade (7) There was a problem that the elastic blade is not in close contact with the pump housing due to the lean or worn.

The present invention has been made to improve the above problems, it is to provide a pump that is easy to manufacture by simplifying the structure of the pump drive unit and adding some flexibility to the manufacturing precision.

The present invention for this purpose is to simplify the structure of the drive unit by supplementing the rotor end of the rigid body with an elastic body so that the rotors move directly, and add flexibility of the elastic body to the rotor, and the support frame made of the rigid body and the elastic rotor made of the elastic body In addition, the rotor is coupled to the support frame to form a rotor, and the rotor and the support frame are formed in a curved surface and a helical shape so that the rotor moves directly.

In the center of the rotor, the fluid is pressurized so that the expansion of the elastic rotor can be adjusted so that an elastic supplement tube is provided to replenish the amount of wear when the elastic rotor is worn.

Therefore, in the present invention, a high-precision gear and a lubrication device for driving the conventional pump are eliminated, thereby reducing the number of parts and reducing the weight and volume, thereby improving productivity and making the pump easy to manufacture and use.

1A is a front explanatory view showing a rotor of a conventional pump;

1B is a plan explanatory view showing a conventional pump;

Figure 2 is a front explanatory view showing a conventional pump equipped with a flexible impeller,

Figure 3a is a front explanatory view showing a pump according to the present invention,

Figure 3b is a facility name showing the rotor of the pump according to the present invention,

4 is an explanatory diagram showing another embodiment of the rotor according to the present invention;

Figure 5a is a facility name showing the integrally fitted rotor according to the invention,

Figure 5b is a private facility showing a single-fit rotor in accordance with the present invention,

Figure 5c is a facility name showing the molded rotor according to the present invention.

-Explanation of symbols for the main parts of the drawings-

1-housing, 2-rotor,

3-motor, 4-gear,

5-lubricator, 6-flexible impeller,

7-elastic blade, 10-support frame,

12-elastic rotor, 14-rotor,

16-refill tube 18-main rotor,

20-subrotor,

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

Exemplary drawings Figure 3 is an explanatory view showing a pump according to the present invention, Exemplary drawings Figure 4 is an explanatory view showing a rotor of the pump according to the present invention, the present invention is performed by the pump by direct drive of a multi-lobe rotor containing an elastic body The support frame 10 made of a rigid body is installed in the housing 1 with the support frame 10 connected to the drive shaft of the motor and the support frame 10 rotatably installed in the housing 1. An elastic rotor 12 made of an elastic body is coupled to 10 so that the rotor 14 which is in contact with the outer circumferential surface of the elastic rotor 12 and the support frame 10 is provided with a pump.

Here, the rotor 14 is characterized in that the outer circumferential surface of the support frame 10 and the elastic rotor 12 has a helical shape so as to be continuously engaged with the rotor 14 interlocked therewith.

In addition, the elastic rotor 12 is characterized in that the elastic replenishment tube 16 is formed at the center thereof so that the expansion of its tip is adjusted.

As described above, the present invention provides a pump that fuses the advantages of the multi-lobe rotor and the flexible impeller.

That is, the front end of the multi-leaf rotor, which is a rigid body, is supplemented with an elastic body so that the rotors 14 move directly, and the flexibility of the elastic body is added to the rotor 14 to simplify the structure of the driving unit and simplify the manufacture.

Here, the multi-lobe rotor is not limited to the four-lobe rotor shown.

In order to provide a multi-lobe rotor that is a rigid body including the elastic body, the present invention is first provided with a support frame 10 constituting a rigid body in the housing 1.

The support frame 10 is a support part of the elastic body, one is connected to the drive shaft of the motor 3 to form a driving part, and the other is rotatably coupled to the housing 1 to form a passive part.

An elastic rotor 12 made of an elastic body is inserted into the support frame 10 to form a rotor 14 including an elastic body.

In addition, since the rotor 14 of the present invention is rotated by the direct drive of the driving unit and the passive unit, the outer surfaces of the elastic rotor 12 and the support frame 10 are formed in a curved surface that is in and out of each other, which serves as a conventional gearbox. Including the outer peripheral surface is formed in a helical shape.

The helical shape provides continuous engagement in the transmission of the driving force of the rotor 14 by providing a continuous engagement in the twisted helix of the engaging engagement line as is well known and facilitates the transfer of large forces.

And, the helical torsion angle should be less than 180 degrees, so that the support frame by the helical does not connect the inlet and outlet of the housing.

Exemplary drawings Figure 4 is another embodiment of the rotor according to the present invention, the rotor 14 is divided into the main rotor 18 and the sub-rotor 20 installed on the same rotation shaft, the sub-rotor 20 is a helical Characterized in that the shape.

This is because the driving force can be transmitted even if the rotor 14 is in the shape of a spur gear, and the driving force of the rotor is sufficient to assist the rotational force transfer of the rotor at the point where the rotor is engaged with the helical shape.

Therefore, the present invention is divided into the main rotor 18, the majority of the rotor 14 is in the form of a spur gear, and the sub-rotor 20 in which the tip is part of the helical shape, and at the point where the engagement of the main rotor 18 ends. The sub-rotor 20 will assist the rotational force transmission.

In addition, the helical shape is preferably provided separately from the main rotor 18 for the replacement of the sub-rotor 20 due to wear or the like, in view of the greater load acting than the spur gear shape. .

In addition, as the size of the housing 1 varies according to the capacity of the pump, and the length of the rotor 14 installed therein increases, when the main rotor 18 is divided into a plurality of pieces, the pump housing has a different capacity. It is mounted as an enemy.

In addition, the rotor 14 of the present invention is provided with an elastic supplement tube 16 in the center thereof is the elastic force of the elastic rotor 12 is complemented.

That is, when the center of the elastic rotor 12 is pressed, the pressure is transmitted in the direction of the outer circumferential surface of the elastic rotor 12 and the front end portion of the elastic rotor 12 which is not supported by the support frame 10 is expanded.

As a result, the elastic force of the elastic rotor 12 can be adjusted and replenished, and even if the elastic rotor is worn, the front end of the elastic rotor 12 can be expanded to replenish the worn portion.

The elastic replenishment tube 16 is a natural connection portion (not shown) is formed on the outside of the elastic rotor 12 to be connected to the pressing means for pressurizing it, through which the liquid replenishment tube 16 is filled with liquid or gas When pressurized, the elastic force of the elastic rotor 12 can be adjusted.

On the other hand, the rotor 14 is supplemented with such an elastic body is provided as an embodiment as shown in FIG.

Exemplary Drawing FIG. 5A is an integrally fitted type, in which a four-way integral elastic rotor 12 is inserted and installed in the support frame 10, and an elastic supplement tube 16 is provided at the center of the elastic rotor 12. The rotor is characterized by being formed integrally with (12).

In addition, Figure 5b is a single-fit, the elastic rotor 12 is separated in each direction of the rotor 14 is formed, the elastic rotor 12 is inserted in each direction of the support frame 10, In the center of the support frame 10 is shown a rotor, characterized in that the elastic replenishment tube 16 is inserted into contact with the elastic rotor 12.

In addition, Figure 5c is a molding type of the support frame 10 as a core material, the elastic rotor 16 is molded on the outer peripheral surface of the core material, and the inner circumferential surface of the support frame 10 as the core material and the elastic rotor 12 It shows the rotor, characterized in that the inner circumferential surface is a replenishment tube (16).

Therefore, in the present invention, any one rotor 14 becomes a driving rotor, and when the rotor is rotated, the other manual rotor is rotated to drive the pump.

As a result, the gearbox, which is a conventional driving unit, is deleted, and the rotor and the rotor and the rotor and the housing are in contact with each other, so that a closed space is formed between the rotor and the housing, thereby increasing suction and earth output of the pump by the closed space.

In addition, even if foreign matter enters the pump, the rotor is in contact with the elastic body so that the foreign matter is inserted into the elastic body and the damage of the rotor is extremely small.

As described above, in the present invention, a rotor in which an elastic body is included is installed in the pump, and the rotor is interlocked to drive the pump.

Therefore, in the present invention, a high-precision gear and a lubrication device for driving the conventional pump are eliminated, thereby reducing the number of parts and reducing the weight and volume, thereby improving productivity and making the pump easy to manufacture and use.

Claims (6)

The support frame 10 rotatably installed in the housing 1 and the support frame 10 connected to the drive shaft of the motor 3 in the housing 1 so that the suction discharge of the pump is performed by the direct drive of the multi-lobe rotor including the elastic body. The support frame 10 made of a rigid body is installed in a set, and the support rotor 10 is coupled to an elastic rotor 12 made of an elastic body so that the rotor 14 is provided, and the elasticity of the rotor 14 is provided. The rotor and the support frame is formed of a curved surface whose outer peripheral surface is in contact with each other, the elastic rotor 12 is a pump having an elastic replenishment tube (16) is formed at the center thereof to adjust the expansion of its tip. 2. The pump as claimed in claim 1, wherein the rotor (14) is helically shaped to interlock with and interlock with the rotor (14) interlocked therewith. 2. The rotor (14) according to claim 1, wherein the rotor (14) is divided into a main rotor (18) and a sub rotor (20) installed on the same rotary shaft, and the sub rotor (20) is continuously engaged with the sub rotor (20) interlocked with it. A pump characterized in that the helical shape to interlock. The rotor 14 is a four-way integral rotor 12 is inserted into the support frame 10, and in the center of the elastic rotor 12, the replenishment tube 16 is an elastic rotor. A pump, characterized in that formed integrally with (12). The rotor (14) according to claim 1, wherein the rotor (14) is formed with an elastic rotor (12) separated in each direction of the rotor (14), and the elastic rotor (12) is inserted and installed in each direction of the support frame (10). In the center of the support frame 10 is an elastic replenishment tube 16 is inserted into the pump, characterized in that made in contact with the elastic rotor (12). The rotor 14 is formed of an elastic rotor 16 on the outer circumferential surface of the core material with the support frame 10 as the core material, and the inner circumferential surface and the elastic rotor 12 of the support frame 10 as the core material. The inner circumferential surface of the pump, characterized in that the replenishment tube (16).