DE69913228T2 - Swash plate compressor with improved torque transmission between shaft and swash plate - Google Patents

Description

Background of the Invention

The The present invention relates generally to an adjustable one Swash plate compressor.

With reference to the 4 to 6 a description is given regarding an earlier technology of such a compressor. The adjustable swash plate compressor 1 generally has a housing 3 , one rotatable in the housing 3 housed shaft 4 , one on the shaft 4 attached swashplate 5 and a hinge mechanism 6 who is on the shaft 4 is attached and serves the swash plate 5 in an evaluable angular relationship with respect to an axial direction of the shaft 4 to store so that the angle of inclination of the swash plate can be changed and one on the shaft 4 transmitted drive torque to the swash plate 5 is transmitted. The hinge mechanism 6 has a fixed joint 7 that on the shaft 4 is attached and a fixed arm 72 owns, and a movable joint 8th that on the shaft 4 is mounted and a movable arm 82 possesses the rotatable with the fixed arm 72 connected is. The fixed arm 72 has a fixed coupling surface 72a , The movable arm 8th has a movable coupling surface 82a that are slidable with the fixed coupling surface 72a is in contact and a drive torque from the fixed coupling surface 72a receives.

The housing 3 is at one end with a cylinder block 34 provided in a unified structure. The cylinder block 34 is with a plurality of cylinder bores 34b Mistake. A piston 12 is slidable in each of the cylinder bores 34b used. The piston 12 is with the swashplate 5 coupled, taking a pair of shoes 18 is arranged in between.

One end of the fixed arm 72 serves as a fixed coupling section on which a fixed coupling surface 72a is trained. Similarly, one end of the movable arm serves 82 as a movable coupling section on which a movable coupling surface 82a is trained.

The fixed joint 7 is coupled to the movable hinge only at the positions of the fixed coupling portion and the movable coupling portion.

During operation of the adjustable swash plate compressor 1 a force is generated, as in the 5A . 5B and 5C is shown. If the wave 4 namely, by an external drive source (not shown), a drive torque T is applied to the shaft 4 exerted a compression reaction on the piston 12 exercised. At this time, a moment M1 and a moment M2 are applied to the fixed arm at the same time 72 and the movable arm 82 exercised. The moment M1 is a four rotating shaft moment that is generated when the fixed joint 7 a drive torque T from the shaft 4 receives, then the drive torque T from the fixed joint 7 on the movable joint 8th transfer. The moment M2 is generated when the swash plate 5 absorbs a compression reaction force P and it is a moment that serves the swash plate 5 in a direction of rotation perpendicular to an axis of the shaft 4 to turn.

In the adjustable swash plate compressor 1 different moments are added to or affect the fixed arm and the movable arm during operation. Therefore, it is necessary and important that the fixed arm and the movable arm have sufficient rigidity.

Around the desired To ensure rigidity of the arm sections, the arm sections are trained to be a greater thickness have. This resulted to a big one Weight of the arm sections. That is why a balanced rotation the joint mechanism is not expected. Because the setting of a tilt angle the swashplate is not reached in an even manner and meadow consequently, the responsiveness of the volume control of the compressor is not fulfilled.

the US Patent 4,674,957 may be a swash plate type compressor according to the preamble of claim 1 are removed. The swash plate has a swash plate assembly on. The swash plate assembly 30 includes a support member that is attached to the drive shaft is attached and in the crankcase from the drive shaft extends radially, a rotatable swashplate and one on the support member mounted swashplate. The support member has an attachment through which is the support member is mounted on the drive shaft.

Summary of the invention

It is therefore an object of the present invention, a new one and to provide improved adjustable swash plate compressor, in which the articulation mechanism of the arm sections is light and the reliable responsiveness volume control of the compressor.

A such task is achieved by a swash plate compressor according to the independent claim 1 solved.

preferred Further developments of the invention can be found in the dependent claims become.

Brief description of the drawing

1 12 is a vertical sectional view of an adjustable wobble compressor according to an embodiment of the invention;

the 2A . 2 B and 2C are a front view, a side view and a plan view of the adjustable swash plate compressor, which in 1 shown showing an associated portion of the compressor in the case of a maximum volume;

the 3A . 3B and 3C are a front view, a side view and a plan view of the adjustable swash plate compressor, which in 1 shown showing an associated portion of the compressor in the case of a minimum volume;

4 Fig. 12 is a vertical sectional view of a prior art adjustable swash plate compressor;

the 5A . 5B and 5C are a front view, a side view and a plan view of the adjustable swash plate compressor, which in 4 shown showing an affected portion of the compressor in a maximum volume case;

the 6A . 6B and 6C are a front view, a side view and a plan view of the adjustable swash plate compressor, which in 4 which show an affected portion of the compressor in a case of minimum volume.

Description of the preferred embodiment

Referring to the 1 to 3 there is a description regarding an adjustable swash plate compressor according to an embodiment of the present invention.

The swash plate compressor is given a reference number 1 denotes and has a housing 3 , a drive shaft 4 , a swashplate 5 and a hinge mechanism. The housing 3 has a housing body 31 , a front end plate 32 and a cylinder head 33 , The housing body 31 is essentially cylindrical and has an opening and a cylinder block at one end 34 , which is integrally formed at the other end. The cylinder head 34 has a central hole 34a in its middle section. The central hole 34a contains a radial needle bearing 10 and a control valve 11 , On the outer peripheral surface of the cylinder block 34 is a plurality of cylinder bores 34b at a constant interval around the central hole 34a provided around. A piston 12 is slidable in every cylinder bore 34b used.

The front end plate 32 is substantially cone-shaped and at one end of the housing body 31 attached to seal the end. The front end plate 32 has a radial needle bearing at its central section 13 and a shaft sealing member 14 ,

The cylinder head 33 is essentially bowl-shaped and has a suction chamber 33a and an outlet (discharge) chamber 33b and is with the cylinder block 34 through a valve device 15 by means of a screw bolt 16 connected.

The wave 4 is at its free end section through the needle bearing 13 rotatable on the front end plate 32 stored and at its rear end by the needle bearing 10 rotatable in the cylinder block 34 stored. This is the way of the wave 4 rotatable in the housing 3 housed with the free end out of the housing 3 through the front end plate 32 protrudes. The extended section of the shaft 4 out of the housing 3 is with an electromagnetic clutch 17 that on the front end plate 32 attached, coupled.

The swashplate 5 is ring-shaped and on the shaft 4 attached so that the shaft 4 through the central hole 5a extends. The swashplate 5 is mounted on the joint mechanism. The swashplate 5 and the piston 12 are through a pair of shoes 18 connected with each other.

The hinge mechanism 6 is on the wave 4 attached and serves the swashplate 5 to store so that an angle of inclination with respect to an axis of the shaft 4 is variable, and that on the wave 4 Torque is transferred to the swashplate 5 transfer. The hinge mechanism 6 has a fixed joint 7 and the movable joint 8th on.

The fixed joint 7 has a rotor component or a fixed joint body 71 and a fixed arm 72 on. The fixed joint body 71 is ring-shaped and on the shaft 4 so attached that the shaft 4 in the central hole 71a is used. The fixed arm 72 is plat ten-shaped and in one piece as a first arm section on the fixed joint 71 educated. The fixed arm 72 extends along a surface in the state in which the fixed joint 7 on the shaft 4 attached, parallel to the axis of the shaft 4 is in contact. The free end of the fixed arm 72 serves as a fixed main coupling section. The fixed coupling section has a fixed coupling section 72a that is parallel to a plane that is parallel to an axis of the shaft 4 is in contact. Furthermore there is a spigot 61 attached to the fixed coupling portion and extends perpendicular to the fixed coupling surface 72a ,

The movable joint 8th has a flange portion 81 , a movable arm 82 and a boss portion 83 on. The flange section 81 is ring-shaped. The movable arm 82 is a second arm portion on a surface of the flange portion 81 provided and the free end serves as a movable main coupling portion, which has a movable coupling surface 82a has that is parallel to a surface that is parallel to an axis of the shaft 4 stands. Furthermore, the movable coupling section with an elongated hole or longitudinal slot 82b provided in the a pin 61 on the fixed arm 72 is attached, is used. A snap ring 62 is at the end of the spigot 61 attached to prevent the pin 61 from the slot 82b falls. This is the moveable arm 82 rotatable with the fixed arm 72 coupled. The moving coupling surface 82a is with the fixed coupling surface 72a of the fixed arm 72 with a washer 19 in sliding contact therebetween so that drive torque from the fixed coupling surface 72a is recorded. A hub bead section 83 is on the other surface of the flange section 81 provided and has an external thread 83a on its outer peripheral surface. The swashplate 5 is on the hub bead section 83 attached and a press ring 84 that has an internal thread 84a owns that with the external thread 83a can be brought into engagement with the hub bead portion 83 engaged so that the swash plate 5 on the other surface of the flange portion 81 is attached. An oblique hole 85 is at a central portion of the hub bead portion 83 and the flange section 81 intended. The central beveled hole 85 is a section that serves the shaft 4 thereby recording. The inner surface of the oblique hole 85 is with an outer peripheral surface of the shaft 4 slidably in contact. As a result, there is a smooth rotation of the movable joint 8th accomplished.

The fixed joint 7 has a fixed auxiliary coupling portion which in this embodiment has an opposite relationship from the side surfaces of the fixed joint body 71 protrudes to a pair of receiving portions or protrusions 73 to form the pair of flattened surfaces 73a have.

The flattened surfaces 73a face each other. Any of the flattened surfaces 73a is a surface that is parallel to a surface that is the axis of the shaft 4 touched in parallel, and cut through the Kopplungsab between the fixed arm 72 and the movable arm 82 passes. The tabs 73 that the surfaces 73a own, are closer or proximal to the shaft 4 with respect to the main fixed coupling portion of the fixed arm 72 intended. In this way, the protrusions 73 that the surfaces 73a own, designed in a paired configuration and additionally adjacent to the shaft 4 arranged. This is why there is a rotational equilibrium of the attached joint 7 by providing the protrusions that cover the flattened surfaces 73a own, maintain.

Similarly, the articulated joint has 8th a movable auxiliary coupling section, which in this embodiment has a pair of auxiliary arms 86 has on a surface of the flange portion 81 are provided. Each of the auxiliary arms 86 has a surface that is parallel to a surface that is parallel to the axis of the shaft 4 is in contact and through the coupling portion between the fixed arm 72 and the movable arm 82 passes. Furthermore, the auxiliary arms are 86 with a pair of the flattened surface 73a in contact in such a way that a pair of the protrusions 73 of the fixed joint 7 be taken. The paired auxiliary arms 86 are proximal or closer to the shaft 4 arranged as on the main movable coupling portion of the movable arm 82 , This is the auxiliary arm 86 in a paired ratio and close to the shaft 4 trained as described above. Therefore, a rotational equilibrium of the movable joint can 8th by providing the auxiliary arms 86 be maintained.

Due to the flattened surfaces 73a of the fixed joint 7 and the auxiliary arms 86 of the movable joint 8th , both of which are in a paired design, becomes part of the drive torque generated by the shaft 4 on the fixed joint 7 is successfully transferred to the articulated joint 8th transfer.

In the swash plate type compressor, the hinge mechanism has a fixed auxiliary coupling portion and a movable auxiliary coupling portion. Therefore, stiffness of the fixed arm of the fixed joint and the movable arm of the movable joint can be reduced in relation to the conventional compressors. In addition, the weight of the fixed arm and the movable arm can be reduced. In this way, the rotational balance of the joint mechanism can be improved in relation to the compressors of the previous technology. Furthermore, adjustment and control of the inclination angle of the swash plate can be easily performed. Accordingly, the responsiveness of the volume control of the compressor can be significantly improved.

While the present invention so far in connection with a few embodiments it has been described for easily possible for the specialist be put the invention into practice in various ways implement. For example, it should be obvious that the fixed one Auxiliary coupling section and the movable auxiliary coupling section are not limited to those of the embodiment described above. amendments and variations can carried out if part of the drive torque is due to the fixed Joint is transmitted as desired on the movable joint transmitted can be made without any disadvantages for the rotation of the movable Joint.

Claims (10)

Swash plate compressor, comprising: a rotatable shaft ( 4 ) extending in an axial direction; a swashplate ( 5 ); a hinge mechanism ( 6 ), the swashplate ( 5 ) on the wave ( 4 ) in such a way that the swash plate ( 5 ) has an angle of inclination which is variable in relation to the axial direction; the articulation mechanism ( 6 ) serves to drive shaft torque ( 4 ) on the swashplate ( 5 ) and a fixed joint ( 7 ) that is fixed to the shaft ( 4 ) is connected, and a movable joint ( 8th ) that is firmly attached to the swashplate ( 5 ) connected is; where the fixed joint ( 7 ) a fixed arm ( 72 ) owns; the movable joint ( 8th ) a movable arm ( 82 ) with the fixed arm ( 72 ) is coupled to be pivotable about an axis extending perpendicular to the axial direction; the fixed arm and the movable arm ( 7 . 8th ) some of the drive torque on the swash plate ( 5 ) transfer, interact; where the fixed joint ( 7 ) a fixed auxiliary coupling section ( 73 ) owns; the movable joint ( 8th ) a movable auxiliary coupling section ( 86 ) with the fixed auxiliary coupling section ( 73 ) is engaged so that another part of the drive torque from the shaft ( 4 ) in cooperation with the fixed auxiliary coupling section and the movable auxiliary coupling section ( 86 . 73 ) on the swashplate ( 5 ) is transmitted; characterized in that the movable joint ( 8th ) an oblique hole ( 85 ) has the purpose that the shaft ( 4 ) and that the inner surface of the tapered hole is slidably in contact with an outer peripheral surface of the shaft. The swash plate type compressor according to claim 1, wherein the fixed auxiliary coupling portion and the movable auxiliary coupling portion ( 86 . 73 ) in relation to the fixed and the movable arm ( 72 . 82 ) close to the shaft ( 4 ) are arranged. Swash plate compressor according to claim 1 or 2, wherein the fixed auxiliary coupling portion ( 73 ) parallel with an axial line of the shaft ( 4 ) is in contact and a pair of surfaces ( 73a ) extending parallel to a surface that passes through the coupling portion between the fixed and movable arms, the auxiliary movable coupling portion ( 86 ) a pair of auxiliary arms ( 86 ) which is slidable with each of the pair of surfaces ( 73a ) stay in contact. Swash plate compressor according to one of claims 1 to 3, further comprising a housing ( 3 ) which is a cylinder block ( 34 ) with a plurality of cylinder bores ( 34b ) contains a plurality of pistons ( 12 ), each slidable in the cylinder bores ( 34b ) are arranged, and a coupling device ( 18 ) with the swashplate ( 5 ) and the piston ( 12 ) is coupled to make it possible for the pistons ( 12 ) in a reciprocating movement in the cylinder bores ( 34b ) due to the inclined swashplate ( 5 ) are driven. Swash plate compressor according to one of claims 1 to 4, comprising a housing ( 3 ), the drive shaft ( 4 ) is rotatably supported by the housing, the swash plate ( 5 ) has an inclination angle and can be inclined with the drive shaft ( 4 ) is connected, wherein a rotor component ( 71 ) on the drive shaft ( 4 ) is attached to the drive shaft ( 4 ) to be rotatable, the articulation mechanism ( 6 ) the rotor component ( 71 ) with the swashplate ( 5 ) connects to the inclination of the swash plate in relation to the drive shaft ( 4 ) to change. The swash plate type compressor according to claim 5, wherein the fixed auxiliary coupling portion is a pair of receiving portions 73 has, which on radially opposite sides of the rotor component ( 71 ), and wherein the movable auxiliary coupling portion is a pair of arms ( 86 ) which extends from an axial end surface of the swash plate ( 5 ) extend from and with the pair of receiving portions ( 73 ) of the rotor component ( 71 ) are coupled. Swash plate compressor according to claim 6, wherein the receiving portions ( 73 ) of the rotor component ( 71 ) Surfaces ( 73a ) that are designed to be attached to the pair of arms ( 86 ) of the swashplate ( 5 ) to be in contact. Swash plate compressor according to claim 7, wherein the surfaces ( 73a ) of the receiving sections ( 73 ) extend parallel to each other with a space between them, the pair of arms ( 86 ) of the swashplate ( 5 ) is used in the room to match the surfaces of the receiving sections ( 73 ) to be in sliding contact. Swash plate compressor according to one of claims 5 to 8, wherein the joint mechanism ( 6 ) a first arm section ( 72 ) which extends from the rotor component ( 71 ) and a second arm section ( 82 ) that extends from the swashplate ( 5 ) extends and an elongated hole ( 82b ) through which a pin component ( 61 ) that goes firmly with the first arm section ( 72 ) connected is. Swash plate compressor according to one of claims 1 to 9, wherein the coupling device comprises a plurality of shoes ( 18 ) that is between the pistons ( 12 ) and the swashplate ( 5 ) are stored.