KR101901686B1 - disc and hub assembly of electromagnetic clutch for compressor - Google Patents

Abstract

The present invention can stably operate without any modification even in a high temperature environment, and also can reduce the rush torque momentarily generated at the beginning of driving the compressor and prevent the slip of the disk when the compressor is instantaneously loaded To a disk hub assembly of a new type of electromagnetic clutch for a compressor.
To this end, the present invention provides a compressor comprising: a hub coupled to a drive shaft of a compressor; an inner ring coupled to the hub to form an inner body; and an outer body surrounding the inner ring, The outer ring of the outer ring and the inner ring of the outer ring are fixed to the outer ring and the outer ring of the outer ring, And a resilient member provided to transmit a rotational force to rotate the inner ring and to provide a restoring force in an axial direction of the driving shaft. The present invention also provides a disk hub assembly for an electromagnetic clutch for a compressor.

Description

[0001] The present invention relates to a disc hub assembly for an electromagnetic clutch for a compressor,

The present invention relates to an electromagnetic clutch, and more particularly, to an electromagnetic clutch which can stably operate without any characteristic distortion even in a high temperature environment, and also to reduce a rush torque momentarily generated at the beginning of driving of the compressor, The present invention relates to a disk hub assembly of a new type of electromagnetic clutch for a compressor.

2. Description of the Related Art Generally, an electromagnetic clutch used in a vehicle is a series of arrangements for selectively providing a driving force of an engine to a compressor of an air conditioning system.

The electromagnetic clutch as described above includes a pulley 10, a disk hub assembly 30, and a field coil assembly 20 as shown in FIG. 1 attached hereto.

Here, the pulley 10 is configured to receive the drive force of the engine through a belt, and the disk hub assembly 30 transmits the rotational force of the pulley 10 to the drive shaft 60 of the compressor. The coil assembly 20 is configured to generate a magnetic attraction flux by power application to allow the disk 35 of the disk hub assembly 30 to contact the front surface of the pulley 10.

That is, when operation control of the compressor is performed, power is applied to the field coil assembly 20, and thereby the disk of the disk hub assembly 30 is rotated by the suction magnetic flux generated from the field coil assembly 20 35 receives the drive force of the engine from the pulley 10 while being in contact with the pulley 10 and then provides the transmitted drive force to the drive shaft 60 coupled with the disk hub assembly 30, A compression operation is performed.

The disk hub assembly 30 includes a hub 31 coupled to the drive shaft 60, an inner ring 32 coupled to the hub 31, An elastic member for elastically connecting the inner ring 32 and the outer ring 33 and an elastic member for elastically connecting the outer ring 33 and the outer ring 33 of the pulley 10, And a disc 35 selectively contacting the front surface of the disc hub 35. The disc hub 35 is composed of a disc hub assembly of an Around Rubber Type and a disc hub 35 of a leaf spring type according to the material and the installation structure of the elastic member. Assembly.

In this case, the disk hub assembly of the AAL type is constituted by a rubber (34) filled between the inner ring (32) and the outer ring (33) as shown in the accompanying drawings, The leaf spring type disk hub assembly is configured such that the resilient member is a leaf spring connecting the inner ring 32 and the outer ring 33. That is, when the supply of power to the field coil assembly 20 is interrupted and the inner ring 32 and the outering ring 33 are connected by the rubber 34 or the leaf spring so as to transmit power, (35) is released from the pulley (10).

The disk hub assembly 30 described above allows an easy separation between the disk 35 and the pulley 10 when the supply of power to the field coil assembly 20 is interrupted while an instantaneous load increase occurs during driving of the compressor It is necessary to provide a function of relieving the load from being transmitted to the disc 35. From this point of view, it can be seen that the aero-type disc hub assembly, in which the elastic member is made of rubber 34, have.

However, in the case of the a-al type disk hub assembly, the rubber 34 may be easily deformed in a high temperature environment owing to its material characteristics, It can not be supported.

In addition, since the rubber hub 34 is filled between the inner ring 32 and the outer ring 33 in manufacturing the disk hub assembly, it takes a long time to manufacture the disk hub assembly. There is a disadvantage in that it is difficult to obtain a uniform quality by varying the restoring force or durability according to the filling amount of the rubber 34.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a compressor which is stably operated without characteristic distortion even in a high temperature environment, the present invention provides a disk hub assembly for a new type of electromagnetic clutch for a compressor, which has a function of preventing a slip of the disk when the compressor is instantly increased in load.

According to an aspect of the present invention, there is provided a disk hub assembly for an electromagnetic clutch for a compressor, comprising: a pulley that receives driving force from a driving source; and a disk hub assembly that receives the driving force from the pulley and transmits the driving force to a driving shaft of the compressor. Wherein the hub assembly includes a hub coupled to a drive shaft of the compressor, an inner ring coupled to the hub to form an inner body, and an outer body surrounding the inner ring, The outer ring of the outer ring and the outer ring of the outer ring are fixed to the outer ring and the inner ring of the outer ring, respectively. And transmits the rotational force so that the inner ring can be rotated in the rotating direction Along the axial direction of the drive shaft is characterized in that it consists, including elastic members provided so as to provide a restoring force.

Here, the elastic member may include a wrap spring made of a thin metal material whose surface is in contact with an inner circumferential surface of the outer ring in accordance with rotation of the outer ring.

Further, the elastic member is determined such that both ends of the elastic member are not overlapped with each other when the outer ring rotates due to the rotation of the disk.

The plurality of resilient members are provided at equal intervals, and are fixed between the outer circumferential surface of the inner ring and the inner circumferential surface of the outer ring, respectively.

The electromagnetic clutch for a compressor according to the present invention as described above has a structure for transmitting power between the outer ring and the inner ring as a resilient member composed of a wrap spring instead of a rubber, It is possible to reduce the effect of the present invention. That is, since there is a difference between the rotation time of the outer ring and the rotation time of the inner ring by the resilient member composed of the wrap spring, the inner ring can be gradually rotated so that the rush torque can be reduced .

In addition, the electromagnetic clutch for a compressor according to the present invention has the effect that when a load of a compressor is momentarily increased, a load provided through a drive shaft is buffered by a resilient member, thereby preventing slip of the disk due to the load .

1 is a cross-sectional view illustrating a structure of a conventional electromagnetic clutch for a compressor
2 is a perspective view illustrating a disk hub assembly of a conventional electromagnetic clutch for a compressor.
3 is a cross-sectional view illustrating a structure of an electromagnetic clutch for a compressor according to a preferred embodiment of the present invention
4 is a perspective view illustrating a disc hub assembly of an electromagnetic clutch for a compressor according to a preferred embodiment of the present invention.
5 is a plan view for explaining a disc hub assembly of an electromagnetic clutch for a compressor according to a preferred embodiment of the present invention
6 is a cross-sectional view illustrating an operating state of a disk hub assembly of an electromagnetic clutch for a compressor according to a preferred embodiment of the present invention
7 is a cross-sectional view illustrating an operating state of a disk hub assembly of an electromagnetic clutch for a compressor according to a preferred embodiment of the present invention
8 is a plan view for explaining a disc hub assembly of an electromagnetic clutch for a compressor according to another embodiment of the present invention

Hereinafter, a preferred embodiment of the electromagnetic clutch for a compressor of the present invention will be described with reference to Figs. 3 to 8 attached hereto.

FIG. 3 schematically shows a structure of an electromagnetic clutch for a compressor according to a preferred embodiment of the present invention. The electromagnetic clutch for a compressor according to an embodiment of the present invention includes a pulley 100, a field coil assembly 200, And a disk hub assembly 300. The disk hub assembly 300 includes a disk hub 300,

4 and 5 show a disc hub assembly 300 of an electromagnetic clutch for a compressor according to a preferred embodiment of the present invention, wherein the disc hub assembly 300 includes a resilient member 340). ≪ / RTI >

Hereinafter, the structure of the electromagnetic clutch according to the embodiment of the present invention and the detailed structure of the disk hub assembly 300 constituting the electromagnetic clutch will be described in detail.

First, the pulley 100 is a portion provided with driving force from a driving source. In this embodiment, the driving source is an engine of a vehicle. At this time, a belt (not shown) is connected to the outer circumferential surface of the pulley 100, So as to receive the driving force of the engine.

A mounting groove 110 is formed on the back surface of the pulley 100 to provide a space for installing a field coil assembly 200 to be described later and an inner circumferential surface of the pulley 100 is connected to the front housing 50 And is rotatably installed at the end. At this time, a bearing (51) is installed between the inner peripheral surface of the pulley (100) and the end of the front housing (50).

In addition, the front surface of the pulley 100 is provided with a contact surface 120 in contact with the disk 320 of the disk hub assembly 300, which will be described later.

Next, the field coil assembly 200 is a portion that generates a suction magnetic flux by power application.

The field coil assembly 200 includes a core 210 inserted into a mounting groove 110 formed in a rear surface of the pulley 100 and a coil 220 accommodated in the core 210 And generates a magnetic flux while forming a magnetic circuit according to the shape of the core 210 by application of a current to the exciting coil 220.

Next, the disc hub assembly 300 is a portion that selectively receives the driving force of the pulley 100 and rotates the driving shaft 60 of the compressor.

The disk hub assembly 300 according to an embodiment of the present invention includes a hub 310, an inner ring 320, an outer ring 330, a disk 350, and an elastic member 340 .

The hub 310 is coupled to the drive shaft 60 of the compressor and the inner ring 320 is coupled to the hub 310 to form an inner body.

The inner ring 320 is formed in a ring-shaped body portion 321 and an outer circumferential surface of the body portion 321 is protruded in the axial direction to form an outer circumferential surface of the inner ring 320 And the hub 310 is fixedly coupled to a body end 321 of the inner ring 320. The inner ring 322 is formed of a metal plate.

The outer ring 330 surrounds the inner ring 320 and is spaced apart from the inner ring 320. The outer ring 330 has a body section 331 formed in a ring shape having an inner opening and an inner circumferential surface of the outer ring 330 protruding in the axial direction on the inner circumferential surface of the body section 331, And an inner peripheral end 332 which forms the inner peripheral edge. At this time, the inner ring 320 is positioned inside the body stage 331 forming the outer ring 330, and the outer peripheral edge 322 of the inner ring 320 is positioned at the inner peripheral edge of the outer ring 310 (332).

The outering 330 and the disc 350 are coupled to each other through a rivet, a bolt, or the like, so that the driving force transmitted through the disc 350 is transmitted to the outering 330.

The disc 350 is selectively brought into contact with the contact surface 120 of the pulley 100 by the attracting magnetic flux generated from the field coil assembly 200, 100, and rotates the hub 310, and is formed of a disc made of a metal.

The elastic member 340 is a portion that provides elasticity and restoring force while connecting the inner ring 320 and the outer ring 330 so as to transmit power, 322 and the inner circumferential surface of the inner circumferential edge 332 constituting the outer circumferential surface 330 are fixed to the outer circumferential surface of the outer circumferential surface of the outer ring 330 to rotate the inner ring 320 in the rotating direction of the outer ring 330 And is provided to provide a restoring force in the axial direction of the drive shaft (60).

In the embodiment of the present invention, the elastic member 340 is composed of a wrap spring made of a thin metal material whose surface is in contact with the inner circumferential surface of the outer ring 330 in accordance with the rotation of the outer ring 330 . 5, one end 341 of each of the opposite ends 341 and 342 of the elastic member 340 is fixed to the inner ring 320 and the other end 342 of the elastic member 340 is fixed to the inner ring 320. [ And is fixed to the outering ring 330 while being extended from the one end 341 in a direction opposite to the rotation direction of the outering ring 330.

The structure of the elastic member 340 as described above may be configured such that the inner ring 320 is not rotated by the elastic force of the elastic member 340 but may be rotated by the elastic force of the elastic member 340 A portion of the elastic member 340 is brought into surface contact with the inner circumferential surface of the inner circumference 332 of the outer ring 330 when the outer ring 330 rotates, And it is also possible to prevent the rotational force from being rapidly transmitted from the outer ring 330 to the inner ring 320 at the initial stage of rotation of the disk 350, The rush torque generated instantaneously at the beginning of the driving can be reduced and the slip of the disk due to the instantaneous load increase of the compressor can be prevented.

The length of the elastic member 340 is determined such that the both ends 341 and 342 of the elastic member 340 do not overlap with each other when the outer ring 330 rotates according to the rotation of the disk 350. [ . Such a structure prevents interference between the both ends 341 and 342 of the elastic member 340 during the rotation of the disk 350 due to the driving force from the pulley 100, 340 can be stably brought into close contact with the inner circumferential surface of the inner peripheral edge 332 of the outer ring 330.

Hereinafter, the operation of the electromagnetic clutch for a compressor according to the embodiment of the present invention constructed as described above will be described in more detail.

3 and 5 are states in which the operation of the electromagnetic clutch is not controlled.

In this state, power supply to the exciting coil 220 constituting the field coil assembly 200 is cut off, and only the pulley 100 receives the driving force of the engine, Since the disk 350 constituting the hub assembly 300 is separated from the pulley 100, the disk hub assembly 300 and the drive shaft 60 of the compressor are maintained in an inoperative state.

When the operation of the compressor is controlled according to the need of the driver without the operation of the compressor as described above, power is supplied to the excitation coil 220 constituting the field coil assembly 200.

In this case, by applying a current to the exciting coil 220, a magnetic flux is generated while forming a magnetic circuit according to the shape of the core 210, and the disk 350 is attracted to the pulley 100 by the attracting magnetic flux. And is adsorbed. This is the same as in FIGS. 6 and 7 attached hereto.

As described above, when the disc 350 is completely self-attracted to the pulley 100, the disc 350 is rotated together with the pulley 100, 330 are also rotated together with the disc 350.

When the outering 330 is rotated, the elastic member 340, which is coupled to the inner circumferential surface of the inner circumference 332 of the outering 330, is rotated together with the outering 330, Since the inner ring 320 is stopped and the load from the drive shaft 60 of the compressor is provided at the initial stage of rotation of the turling 330, the inner ring 320 is rotated simultaneously with the rotation of the outer ring 330 The resilient member 340 is elastically deformed without being rotated and is brought into close contact with the inner peripheral surface of the inner peripheral edge 332 forming the outer ring 330. [

That is, during the time when the rotation of the inner ring 320 is started by the elastic member 340 from the start of the rotation of the outer ring 330, although the rotation of the outer ring 330 and the inner ring There is a term between the rotation of the elastic ring 320 and the inner ring 320 so that the inner ring 320 does not rotate suddenly and the elastic ring 340 is gradually rotated Therefore, the instantaneous rush torque generated at the start of the compressor can be reduced.

When the inner ring 320 is also rotated together with the outer ring 330 through the above-described process, the driving shaft of the compressor is driven through the hub 310 coupled to the inner ring 320, do.

The instantaneous increase in the load of the compressor may occur during the compression operation of the compressor as described above. If an instantaneous increase in the load of the compressor occurs, the contact force between the disk 350 and the pulley 100 is exceeded The slip phenomenon of the disk due to the load may occur.

However, when the load of the compressor is instantaneously increased, the resilient member 340 is buffered while being preferentially provided with the load, so that the slip phenomenon of the disk 350 can be substantially prevented.

On the other hand, when the operation of the compressor is interrupted according to the driver's need during the compression operation of the compressor, power supply to the field coil assembly 200 constituting the electromagnetic clutch is interrupted.

In this case, the suction flux provided by the field coil assembly 200 is removed and the restoring force of the elastic member 340 constituting the disc hub assembly 300 causes the disc 350 to contact the contact surface 120 of the pulley 100 . That is, the resilient member 340 provides axial restoring force to move the disc 350 away from the pulley 100 such that the rotational force of the pulley 100 is no longer provided to the disc 350 .

As a result, the electromagnetic clutch for a compressor according to the present invention includes a resilient member 340 composed of a wrap spring rather than a rubber structure for transmitting power between the outer ring 330 and the inner ring 320, And the slip phenomenon of the electromagnetic clutch can be prevented by preventing the occurrence of slip of the disk 350 due to the instantaneous increase of the load of the compressor.

On the other hand, the disk hub assembly 300 of the electromagnetic clutch for a compressor according to the present invention is not limited to being provided with only one elastic member 340 as in the above-described embodiment.

That is, the elastic members 340 may be provided in a plurality of two or more in order to provide stable power transmission, and the elastic members 340 may be spaced at equal intervals from each other and may be spaced apart from the outer circumferential surface of the inner ring 320, As shown in Fig. This is shown in Fig. 8 attached hereto.

As described above, the disk hub assembly of the electromagnetic clutch for a compressor according to the present invention is a useful invention that can be implemented in various forms.

100. Pulley 110. Mounting groove
120. Contact surface 200. Field coil assembly
210. Core 220. Excitation coil
300. Disk hub assembly 310. Hub
320. Inner ring 330. Outer ring
340. Elastic member 350. Disk

Claims (4)

A pulley (100) provided with a driving force from a driving source and a disc hub assembly (300) which receives the driving force from the pulley (100) and transfers the driving force to a driving shaft of the compressor,
The disk hub assembly 300 includes
A hub 310 coupled to the drive shaft 60 of the compressor,
An inner ring 320 coupled to the hub 310 to form an inner body,
An outer ring 330 that surrounds the inner ring 320 and forms an outer body and is spaced apart from the inner ring 320,
A disc 350 selectively coupled to the contact surface 120 of the pulley 100 while being coupled to the outer ring 330,
Both ends of the outer ring 330 are fixed to the outer circumference of the inner ring 320 and the inner ring 330 of the outer ring 330, respectively, so that the inner ring 320 can be rotated in the rotating direction of the outer ring 330 And a resilient member (340) provided to provide a restoring force in an axial direction of the drive shaft (60)
The elastic member (340)
As the inner ring 320 is stopped at the initial stage of the rotation of the outer ring 330, the outer ring 330 is elastically deformed by the load, so that a part of the outer ring 330 is in surface contact with the inner peripheral surface of the outer ring 330, 330 and a wrap spring made of a thin metal material for providing a rotation time difference of the inner ring 320,
Wherein a length of the elastic member (340) is determined so that both ends of the elastic member (340) overlap with each other when the outer ring (330) is rotated according to the rotation of the disc (350). delete delete The method according to claim 1,
The elastic members 340 are provided in plural,
Wherein the plurality of resilient members (340) are equally spaced from each other and fixed between an outer circumferential surface of the inner ring (320) and an inner circumferential surface of the outer ring (330), respectively.

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