KR102342747B1 - Vacuum pump - Google Patents

Abstract

The present invention relates to a vacuum pump, comprising: a housing having an inlet and an outlet, and having an operating chamber therein; a rotating shaft that receives power from a motor and rotates in the operating chamber; an impeller coupled to the rotating shaft and comprising an impeller body having a wing mounting groove on an outer circumferential surface, and a rubber blade detachably installed in the wing mounting groove to generate a vacuum according to rotation in the operating chamber; The wing mounting groove portion and the rubber wing are equipped with a magnet mounted so that attractive or repulsive force acts with each other; characterized in that it is provided.
According to this, it is divided into rubber wings so that only the corresponding parts can be replaced when the rubber wings are damaged, thereby reducing the replacement cost, and there are advantages in that it is easy to separate and install during the replacement operation.

Description

vacuum pump

The present invention relates to a vacuum pump, and more particularly, to a vacuum pump capable of firmly fixing a rubber blade and greatly improving the convenience of work by being very convenient to separate and install when replacing the rubber blade.

In general, a vacuum pump is a means of forcibly transporting a fluid that forcibly sucks and discharges a fluid by a pumping action by vacuum pressure.

Such a vacuum pump is configured to generate vacuum pressure by frictional rotational force, and an impeller receiving power by a motor is installed inside the vacuum pump.

A typical vacuum pump includes: a housing having a suction port and a discharge port and having a rotating shaft eccentrically disposed in an operation chamber by receiving power from a motor (not shown); a cover sealing the opening of the housing; It is built into the housing and rotates by the rotating shaft, and it is composed of an impeller in which a plurality of blades molded with rubber material on the outer circumferential surface are arranged radially.

Such a conventional vacuum pump uses the bending deformation force of the blades of the impeller when performing rotational force in close contact with the inner surface of the housing to generate vacuum pressure. There was a problem in terms of structural use in that it was easily damaged or worn by deformation stress.

Due to this, when partial damage or wear occurs to the impeller blade, there was a problem of causing considerable economic loss because the entire configuration had to be disposed of due to the structural characteristics of the impeller integrally formed by molding.

As a prior art for solving the above problems, Republic of Korea Registered Utility Model No. 20-0186657 (separable impeller) is widely known.

Looking at the structure of the prior art, a drive shaft in which a plurality of slits at regular intervals are formed in the axial direction from the circumference; a detachable wing having an insert detachably inserted into the slit formed in the drive shaft and integrally formed with an insert tab; It is positioned on both sides of the drive shaft and consists of a fixing ring for fixing the detachable blade to the drive shaft via a fastening bolt.

According to the prior art as described above, by separating the blades constituting the impeller, the replacement cost can be reduced by allowing only the worn or damaged blades to be replaced when the blades are worn or partially worn or damaged.

However, in the prior art, when the detachable wing is in close contact with the inner surface of the housing and rotates at high speed, the detachable wing is stretched. In the end, there is a serious problem in that the separable wing is separated from the drive shaft and loses its original function.

1. Republic of Korea Registered Utility Model No. 20-0186657 (Separable Impeller)

The present invention has been devised to solve the above problems, and it is intended to provide a vacuum pump that can firmly fix the rubber blade, and can greatly improve the convenience of work because separation and installation are very convenient when replacing the rubber blade. There is a purpose.

The present invention for achieving the above object,

a housing having an inlet and an outlet, the housing having an operating chamber therein;

a rotating shaft that receives power from a motor and rotates in the operating chamber;

an impeller coupled to the rotation shaft and comprising an impeller body having a wing mounting groove on an outer circumferential surface, and a rubber wing that is detachably installed in the wing mounting groove and generates a vacuum according to rotation in the operating chamber;

The wing mounting groove portion and the rubber wing are equipped with magnets mounted so that attractive or repulsive forces act with each other.

Here, the magnet is

It is characterized in that it is installed in the wing mounting groove portion and the rubber wing, respectively, and arranged so that different polarities face each other so that mutual attraction can act.

Here, the magnet is

It is characterized in that it is installed in the wing mounting groove portion and the rubber wing, respectively, and arranged so that the same polarity faces each other so that a mutual repulsive force can act.

Also, in the present invention,

The rubber wings,

a body and a root portion having an extended shape at an end of the body;

The wing mounting groove portion,

It characterized in that it comprises a locking part and a compression fixing part provided with a space having a width smaller than the width of the body at an upper side of the locking part so that the root part can be inserted and fixed by being caught.

Here, the compression fixing portion in contact with the body is characterized in that the arc-shaped round.

According to the present invention, since the first magnet installed in the wing mounting groove portion and the second magnet installed in the root portion of the rubber wing are pulled together by manpower, the fixing property of the rubber wing together with the locking portion, the compression fixing portion and the root portion can be guaranteed more reliably.

In addition, since slip is possible even if the first magnet and the second magnet are in close contact with each other by manpower, the rubber wings can be easily and conveniently installed in the wing mounting groove or separated from the wing mounting groove. It becomes very easy, and there is an advantage in that the convenience of work is greatly improved.

According to the present invention, when a concentrated stress is applied to the rubber wings, the gap between the third and fourth magnets spaced apart by the repulsive force is reduced and the stress applied to the rubber wings is partially relieved by buffering this. There is an advantage in that it is possible to reduce the damage of the rubber wings, thereby extending the life and improving the durability.

In addition, since the state spaced apart by the repulsive force is more free to slip than the state that is closely adhered to each other by manpower, the rubber wings can be easily and conveniently mounted and detached from the impeller body with little force, thereby reducing the detachment operation. It becomes very easy, and there is an advantage in that the convenience of work is greatly improved.

1 is an exploded perspective view of a vacuum pump according to the present invention.
Figures 2a to 2c is an exploded perspective view, a front view, and a partial enlarged view showing the impeller of the first embodiment in the vacuum pump according to the present invention.
3 is a view for explaining the operation of the impeller of the first embodiment.
4A to 4C are an exploded perspective view, a front view, and a partial enlarged view showing an impeller of a second embodiment in a vacuum pump according to the present invention.

Hereinafter, it will be described in detail based on the accompanying drawings.

1 is an exploded perspective view of a vacuum pump according to the present invention. When described with reference to this, the vacuum pump of the present invention has a suction port 12 and a discharge port 13, and is installed from a motor (not shown) in the operating chamber 11. a housing 10 on which the rotating shaft 14 rotated by receiving power is eccentrically disposed; a cover 20 sealing the opening of the housing 10; The housing 10 is built-in, rotated by the rotating shaft 14, and is composed of an impeller 30 having a plurality of rubber wings 32 arranged in a radial direction to forcibly suck and discharge the fluid by a pumping action by vacuum pressure, This is the same as in the prior art.

The housing 10 has a known configuration, and an operation chamber 11 that is a cylindrical space is provided therein, and the operation chamber 11 is sealed by a cover 20, and an inlet port ( 12) and a discharge port 13 through which the introduced fluid is discharged are provided, respectively.

In addition, inside the housing 10, the rotating shaft 14 rotated by a motor (not shown) is arranged to be eccentric (deviated) from the inner center (center).

For example, the operating chamber 11 of the housing 10 may be formed as in Republic of Korea Registered Utility Model No. 20-0189636 (eccentric structure of vacuum pump) or Japanese Utility Model Publication No. H2-110285, and the rotating shaft Formed as in Korean Patent Application Laid-Open No. 2001-0035796 (pump) or Korean Patent Application Laid-Open No. 10-2017-0070606 (monoflex pump) so that 14 is deviated from the center of the operating chamber 11 of the housing 10 It can be done, and in this embodiment, it was formed in the same structure as the latter.

2A to 2C are an exploded perspective view, a front view, and a partially enlarged view showing an impeller of a first embodiment in a vacuum pump according to the present invention, and FIG. and interactions are as follows.

The impeller 30 is composed of an impeller body 31 and rubber wings 32, and in this embodiment is coupled to a rotation shaft 14 that is rotated by a motor (not shown) so that it can be rotated by the rotation shaft 14. do.

The impeller body 31 is a member made of metal or synthetic resin (plastic), and the wing mounting groove portion 31a having a predetermined depth along the longitudinal direction is formed on the outer circumferential surface, and the blade mounting groove portion 31a is the rotation shaft 14 ) is radially arranged on the outer circumferential surface of the impeller body 31 as a center.

In addition, on the inner surface of the distal end (refer to FIG. 2b) of the wing mounting groove portion 31a, a locking fixing part 31a-1 and a compression fixing part 31a-2 are integrally formed, and the compression fixing part 31a-2 is It is formed to be round in an arc shape, and if necessary, it may be manufactured in a concave-convex shape rather than an arc shape so that it can be engaged while widening the contact area with the body 32a of the rubber wing 32 .

For example, the rubber wings 32 are detachably fitted in the wing mounting groove portion 31a in a slide manner, and the rubber wings 32 fitted in the wing mounting groove portion 31a are compressed with the locking fixing portion 31a-1. Detachment is restricted by the fixing part 31a-2.

The rubber wing 32 is composed of a body 32a and a root portion 32b having an extended shape at the end of the body 32a. Such a rubber wing 32 has one end with a root portion 32b It is detachably fitted into the wing mounting groove part 31a in a slide manner, and the other end of the body 32a protrudes from the outer peripheral surface of the impeller body 31 and is bent against the inner peripheral surface of the operating chamber 11 of the housing 10. lose

On the other hand, it is good to form a width (D1) between the compression fixing part (31a-2) is relatively smaller (narrow) than the width (D2) of the body (32a) of the rubber wings (32), the reason is that the compression When the body 32a of the rubber wing 32 is inserted between the fixing parts 31a-2, the body 32a is naturally compressed and fixed, and the root part 32b of the inserted rubber wing 32 is a wing mounting groove part. This is because the rubber wing 32 can be firmly fixed to the impeller body 31 without a separate fixing means because it is abutted against the lower surface of the engaging and fixing part 31a-1 of the 31a.

Subsequently, the magnet is interposed (arranged) between the wing mounting groove 31a and the rubber wing 32, so that attractive or repulsive force is applied between the wing mounting groove 31a and the rubber wing 32. It serves to make it possible, and in the following, the attractive force by the magnet will be described first.

The magnet is composed of a first magnet (40a) and a second magnet (40b), the first magnet (40a) is fixed to the wing mounting groove (31a) of the impeller body 31 by a known fixing method, The two magnets 40b are fixed to the lower surface of the root portion 32b of the rubber wings 32 by a known fixing method, and are arranged to face each other with different polarities (S pole - N pole or S pole - N pole). attached to each other by force.

For example, if the second magnet 40b is installed on the lower surface of the root portion 32b of the rubber wing 32, the second magnet 40b reinforces the root portion 32b made of a rubber material, so the root portion 32b ) can be further suppressed from being separated from the locking part 31a-1 and the compression fixing part 31a-2.

Furthermore, since the first magnet 40a installed in the wing mounting groove 31a and the second magnet 40b installed in the root part 32b of the rubber wing 32 are pulled together by manpower, the locking part ( 31a-1) and the compression fixing part 31a-2 and the root part 32b together with the rubber wings 32 can be guaranteed more reliably.

Furthermore, since the first magnet 40a and the second magnet 40b are in close contact with each other by attractive force, slip is possible, so the rubber wings 32 are easily and conveniently installed in the wing mounting groove 31a or the wing It can be separated from the mounting groove (31a), so that the detachment operation is very easy, there is an advantage that the convenience of the operation is greatly improved.

On the other hand, in the present embodiment, although it has been shown and described that the magnet is installed in the wing mounting groove (31a) and the rubber wing 32, this is only one embodiment to the end, for example, the wing mounting groove (31a) has a magnet (or magnetization block) is installed, and a magnetization block (or magnet) may be installed in the root portion 32b of the rubber wing 32 .

In addition, in the case of this embodiment, although it is shown that an arc-shaped magnet is applied, this is only one embodiment, and, for example, if the bottom surface of the wing mounting groove portion 31a is flat, the magnet is preferably manufactured correspondingly.

4A to 4C are an exploded perspective view, a front view, and a partially enlarged view showing an impeller of a second embodiment in a vacuum pump according to the present invention, and the configuration and interaction thereof are as follows.

The impeller 30' according to the second embodiment has the same overall structure as the impeller 30 of the first embodiment, except that a repulsive force ( The only difference is that it is configured so that 斥力) can work.

The magnet is composed of a third magnet (40c) and a fourth magnet (40d), the third magnet (40c) is fixed to the wing mounting groove (31a) of the impeller body (31) by a known fixing method, The four magnets 40d are fixed to the lower surface of the root portion 32b of the rubber wings 32 by a known fixing method.

In addition, the third magnet 40c and the fourth magnet 40d are disposed to face each other with the same polarity (S pole - S pole or N pole - N pole) to be spaced apart from each other by mutual repulsion.

When installed so that the repulsive force can act by the third magnet 40c and the fourth magnet 40d as described above, the upper surface of the root part 32b of the rubber wing 32 is the engaging part of the impeller body 31 ( 31a-1) can be more closely adhered to the lower surface, and thus the end (contact portion) of the rubber wing 32 can be more reliably adhered to the inner surface of the housing 10, so that the vacuum pressure inside the housing 10 is can be made more certain.

In addition, when a concentrated stress is applied to the rubber wings 32, the gap between the third magnet 40c and the fourth magnet 40d spaced apart by the repulsive force is reduced while buffering the rubber wings 32. It is possible to relieve a certain part of the applied stress, and accordingly, it is possible to reduce the damage of the rubber wings 32, so that there is an advantage that it is possible to extend the life and improve the durability.

In addition, since the state spaced apart by the repulsive force is more free to slip than the state in which it is pulled by manpower, the rubber wings 32 can be easily and conveniently mounted and detached from the impeller body 31 even with a small force. , this has the advantage of greatly improving the convenience of the operation as the detachment operation becomes very easy.

The state of use and interaction of the present invention configured as described above are as follows.

First, when the rotating shaft 14 receiving power from a motor (not shown) rotates, the impellers 30 and 30 ′ connected to the rotating shaft 14 are in close contact with the inner surface of the operating chamber 11 of the housing 10 . is rotated to generate vacuum pressure, and accordingly, the fluid is forcibly introduced into the inside of the housing 10 through the suction port 12, and the forced inflow fluid is the rubber wings 32 of the rotating impellers 30 and 30'. ) and discharged through the outlet 13 to perform a continuous pumping action of the fluid.

On the other hand, since the rubber wing 32 is easily worn due to friction as it rotates in close contact with the inner surface of the operation chamber 11, if the rubber wing 32 is damaged, only the corresponding rubber wing 32 needs to be replaced.

Although the present invention has been described in detail only with respect to the specific embodiments described, it is natural for those skilled in the art that various changes and modifications can be made within the technical spirit of the present invention, and it is natural that such variations and modifications belong to the appended claims.

10: housing 11: operating chamber 12: inlet
13: outlet 14: rotation shaft 20: cover
30, 30': impeller 31: impeller body 31a: wing mounting groove
31a-1: locking part 31a-2: compression fixing part 32: rubber wing
32a: root part 40a, 40b, 40c, 40d: magnet

Claims (5)

a housing having an inlet and an outlet and having an operating chamber therein; a rotating shaft that receives power from the motor and rotates in the operating chamber; an impeller coupled to the rotating shaft and comprising an impeller body provided with a wing mounting groove on an outer circumferential surface, and a rubber wing that is detachably installed in the wing mounting groove and generates a vacuum according to rotation in the operating chamber; In the vacuum pump consisting of magnets respectively installed in the wing mounting groove and the rubber wing and mounted so that different polarities face each other so that mutual attraction can work,
The rubber wings are provided with a body and a root portion of an extended shape at the end of the body;
The wing mounting groove portion includes a locking part so that the root part is inserted and fixed by being caught, and a compression fixing part provided with a space having a width smaller than the width of the body at the upper side of the locking part;
The vacuum pump, characterized in that; the compression fixing portion in contact with the body is rounded in an arc shape. delete delete delete delete

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