JP4368055B2 - Connecting structure of rotor and swash plate of variable capacity swash plate compressor - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a connecting structure between a rotor and a swash plate of a variable displacement swash plate compressor.
[0002]
[Prior art]
A variable displacement swash plate compressor rotor / swash plate connection structure that connects a rotor fixed to a drive shaft and a swash plate pivotally supported by the drive shaft so as to be capable of tilting displacement, from rotor to swash plate The arm extending in the direction is formed with an oval guide hole extending in a direction perpendicular to the plane determined by the center axis of the drive shaft and the top dead center of the swash plate, and the arm extending from the swash plate toward the rotor A rotor and swash plate of a variable displacement swash plate compressor in which a circular hole extending in a direction perpendicular to the plane is formed, and a straight extension pin is inserted into an oval guide hole of the rotor arm and a circular hole of the swash plate arm. In the conventional connecting structure, the rotor, the swash plate boss on which the arm is formed, and the straight extension pin are both made of an iron alloy material. The contact portion between the rotor arm and the swash plate arm, the guide hole, the circular hole and the straight extension Excessive contact with pin Fear that wear occurs was not.
[0003]
[Problems to be solved by the invention]
In order to reduce the weight of the variable capacity swash plate compressor, it is conceivable to form the swash plate boss on which the rotor and / or the arm are formed of an aluminum alloy material. In this case, there is a problem of wear countermeasures at the contact portion between the rotor arm and the swash plate arm, the guide hole, the contact portion between the circular hole and the straight extension pin.
The present invention has been made in view of the above problems, and is a coupling structure of a rotor and a swash plate of a variable displacement swash plate compressor, wherein the swash plate boss formed with the rotor and / or the arm is made of an aluminum alloy material. It is an object of the present invention to provide a connection structure that is formed and is provided with a countermeasure against wear of a contact portion between a rotor arm and a swash plate arm, a guide hole, and a contact portion between a circular hole and a straight extension pin.
[0004]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, in the present invention, the rotor of a variable displacement swash plate compressor that connects a rotor fixed to a drive shaft and a swash plate pivotally supported by the drive shaft so as to be capable of being displaced at an inclination angle is provided. In the connecting structure of the plates, an arm extending from the rotor toward the swash plate has an oval guide hole extending in a direction perpendicular to the plane determined by the center axis of the drive shaft and the top dead center of the swash plate. A circular hole extending in a direction perpendicular to the plane is formed in the formed arm extending from the swash plate toward the rotor, and a straight extension pin is inserted into the oval guide hole of the rotor arm and the circular hole of the swash plate arm. The rotor is made of an aluminum alloy material, and a bush made of an iron alloy material covering the surface of the oblong guide hole of the rotor arm and the contact portion of the swash plate arm of the rotor arm is press-fitted into the rotor arm. Providing a coupling structure of a rotor and the swash plate of the variable displacement swash plate type compressor that.
[0005]
In the connection structure according to the present invention, the rotor is made of an aluminum alloy material, thereby reducing the weight of the variable displacement swash plate compressor, and the surface of the oblong guide hole of the rotor arm and the swash plate arm of the rotor arm. By pressing a bush made of an iron alloy material covering the contact portion with the rotor arm into the rotor arm, wear reduction of the contact portion with the swash plate arm of the rotor arm and the contact portion with the straight extension pin of the guide hole is realized.
[0006]
In the present invention, a rotor and a swash plate coupling structure of a variable displacement swash plate compressor that couples a rotor fixed to a drive shaft and a swash plate pivotally supported by the drive shaft so as to be capable of tilting displacement, An arm extending from the rotor to the swash plate is formed with an oval guide hole extending in a direction perpendicular to the plane determined by the center axis of the drive shaft and the top dead center of the swash plate, and from the swash plate to the rotor A circular hole extending in a direction perpendicular to the plane is formed in the arm extending toward the surface, and straight extending pins are inserted into the oval guide hole of the rotor arm and the circular hole of the swash plate arm, and the swash plate is connected to the swash plate body. And an iron alloy that covers the surface of the circular hole of the swash plate arm and the contact portion of the rotor arm of the swash plate arm. Bush made of material presses against the swash plate arm It is to provide a coupling structure of a rotor and the swash plate of the variable displacement swash plate type compressor according to claim is.
[0007]
In the connection structure according to the present invention, the swash plate boss formed with the arm is formed of an aluminum alloy material, thereby reducing the weight of the variable capacity swash plate compressor, and the surface of the circular hole of the swash plate arm. Wearing of the contact part of the swash plate arm with the rotor arm and the contact part with the straight extension pin of the circular hole by press-fitting a bush made of an iron alloy material covering the contact part of the swash plate arm with the rotor arm into the swash plate arm Reduction is realized.
[0008]
In the present invention, a rotor and a swash plate coupling structure of a variable displacement swash plate compressor that couples a rotor fixed to a drive shaft and a swash plate pivotally supported by the drive shaft so as to be capable of tilting displacement, An arm extending from the rotor to the swash plate is formed with an oval guide hole extending in a direction perpendicular to the plane determined by the center axis of the drive shaft and the top dead center of the swash plate, and from the swash plate to the rotor A circular hole extending in a direction perpendicular to the plane is formed in the arm extending in the direction, a straight extension pin is inserted into the oval guide hole of the rotor arm and the circular hole of the swash plate arm, and the rotor is made of an aluminum alloy material. A bush made of an iron alloy material that covers the surface of the oval guide hole of the rotor arm and the contact portion between the swash plate arm of the rotor arm is press-fitted into the rotor arm, and the swash plate is formed by the swash plate body and the arm. Is The boss is made of an aluminum alloy material, and the bush made of an iron alloy material covering the surface of the circular hole of the swash plate arm and the contact portion of the rotor arm of the swash plate arm is oblique. Provided is a connecting structure between a rotor and a swash plate of a variable displacement swash plate compressor, which is press-fitted into a plate arm.
[0009]
In the connection structure according to the present invention, the rotor and the swash plate boss on which the arm is formed are made of an aluminum alloy material, so that the weight of the variable displacement swash plate compressor is reduced and the oval guide of the rotor arm is realized. A bush made of an iron alloy material covering the surface of the hole and the contact portion of the swash plate arm of the rotor arm is press-fitted into the rotor arm, and the contact portion between the surface of the circular hole of the swash plate arm and the rotor arm of the swash plate arm is By pressing a bush made of an iron alloy material covering the swash plate arm into the swash plate arm, wear of the contact portion between the rotor arm and the swash plate arm, the guide hole, and the straight extension pin of the circular hole is reduced.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
A connection structure between a rotor and a swash plate of a variable displacement swash plate compressor according to an embodiment of the present invention will be described with reference to FIGS.
A rotor 22 is fixed to a drive shaft 21 of a variable displacement swash plate compressor. A swash plate 23 is pivotally supported on the drive shaft 21 so as to be displaceable between the minimum inclination shown in FIG. 1A and the maximum inclination shown in FIG.
Two arms 22a extend from the rotor 22 toward the swash plate 23 on both sides of the plane formed by the central axis 21X of the drive shaft 21 and the top dead center 23P of the swash plate 23. An inclined oval guide hole 22a 'is formed in each arm 22a. The oval guide hole 22a 'extends in a direction perpendicular to the plane.
The swash plate 23 includes a swash plate body 23a and a boss 23b fixed to the swash plate body 23a. Two arms 23 b ′ from the boss 23 b of the swash plate 23 toward the rotor 22 are located on both sides of the plane formed by the central axis 21 </ b> X of the drive shaft 21 and the top dead center 23 </ b> P of the swash plate 23. It extends. A circular hole 23b "is formed in each arm 23b '. The circular hole 23b" extends in a direction perpendicular to the plane.
The pair of arms 23b 'are disposed with the pair of arms 22a interposed therebetween.
One straight extending pin 24 made of an iron alloy material having a circular cross section is inserted into two circular holes 23b ″ and two oval guide holes 22a ′.
[0011]
The rotor 22 is made of an aluminum alloy material, and a long cylindrical bush 25 with a flange made of an iron alloy material that covers the surface of the oval guide hole 22a 'of the arm 22a and the contact portion between the arm 23b' of the arm 22a is long. It is press-fitted into the circular guide hole 22a '.
[0012]
The boss 23b is made of an aluminum alloy material, and a flanged cylindrical bush 26 made of an iron alloy material that covers the surface of the circular hole 23b ″ of the arm 23b ′ and the contact portion of the arm 23b ′ with the arm 22a is a circular hole 23b. ″ Is press-fitted.
[0013]
In the connection structure according to the present embodiment, the rotor 22 rotates in synchronization with the rotation of the drive shaft 21, and the swash plate 23 connected to the rotor 22 via the straight extension pin 24 rotates. As the swash plate 23 slides on the drive shaft 21 in the extending direction of the central axis 21X, the engagement position between the straight extension pin 24 and the oval guide hole 22a ′ changes, and the inclination angle of the swash plate 23 changes. . Along with the change in the inclination angle of the swash plate 23, the stroke of a piston (not shown) that is reciprocally driven by the swash plate via a shoe (not shown) changes, and the discharge capacity of the compressor changes.
In the connection structure according to the present embodiment, the rotor 22 and the boss 23b on which the arm 23b 'is formed are formed of an aluminum alloy material, thereby reducing the weight of the variable displacement swash plate compressor. A bush 25 made of an iron alloy material that covers the surface of the oval guide hole 22a ′ and the contact portion between the arm 23a and the arm 23b ′ is press-fitted into the oval guide hole 22a ′ of the arm 22a, and the circular hole 23b of the arm 23b ′. By pressing a bush 26 made of an iron alloy material covering the surface of the arm 23b 'and the arm 22a of the arm 23b' into the circular hole 23b "of the arm 23b ', the contact portion between the arm 22a and the arm 23b'; The wear reduction of the contact portion between the oblong guide hole 22a 'and the circular hole 23b "with the iron alloy straight extension pin 24 is realized.
[0014]
In the above embodiment, both the rotor 22 and the boss 23b of the swash plate 23 are made of aluminum alloy, but only one of the rotor 22 and boss 23b may be made of aluminum alloy and the other may be made of iron alloy. In this case, what is necessary is just to comprise the member made from the aluminum alloy similarly to the said Example.
In the above embodiment, the pair of arms 23b is disposed with the pair of arms 22a interposed therebetween, but the pair of arms 22a may be disposed with the pair of arms 23b interposed therebetween. A pair of arms 23b may be disposed with a single arm 22a interposed therebetween, or a pair of arms 22a may be disposed with a single arm 23b interposed therebetween.
[0015]
【The invention's effect】
As described above, in the connection structure according to the present invention, the rotor is made of an aluminum alloy material, so that the weight of the variable displacement swash plate compressor is reduced, and the surface of the oblong guide hole of the rotor arm and the rotor By pressing a bush made of an iron alloy material that covers the contact portion of the arm with the swash plate arm into the rotor arm, the wear of the contact portion of the rotor arm with the swash plate arm and the contact portion of the guide hole with the straight extension pin is reduced. Realized.
In the connection structure according to the present invention, the swash plate boss formed with the arm is formed of an aluminum alloy material, thereby reducing the weight of the variable capacity swash plate compressor, and the surface of the circular hole of the swash plate arm. Wearing of the contact part of the swash plate arm with the rotor arm and the contact part with the straight extension pin of the circular hole by press-fitting a bush made of an iron alloy material covering the contact part of the swash plate arm with the rotor arm into the swash plate arm Reduction is realized.
In the connection structure according to the present invention, the rotor and the swash plate boss on which the arm is formed are made of an aluminum alloy material, so that the weight of the variable displacement swash plate compressor is reduced and the oval guide of the rotor arm is realized. A bush made of an iron alloy material covering the surface of the hole and the contact portion of the swash plate arm of the rotor arm is press-fitted into the rotor arm, and the contact portion between the surface of the circular hole of the swash plate arm and the rotor arm of the swash plate arm is By pressing a bush made of an iron alloy material covering the swash plate arm into the swash plate arm, wear of the contact portion between the rotor arm and the swash plate arm, the guide hole, and the straight extension pin of the circular hole is reduced.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a connecting structure between a rotor and a swash plate of a variable displacement swash plate compressor according to an embodiment of the present invention. (A) shows a case where the swash plate has a minimum inclination angle, and (b) shows a case where the swash plate has a maximum inclination angle.
FIG. 2 is a structural diagram of a rotor constituting a connecting structure of a rotor and a swash plate of a variable displacement swash plate compressor according to an embodiment of the present invention. (A) is a front view. (B) is a side view.
FIG. 3 is a structural diagram of a bush that is press-fitted into an arm of a rotor. (A) is a front view. (B) is a side view.
FIG. 4 is a structural diagram of a swash plate constituting a connecting structure of a rotor and a swash plate of a variable displacement swash plate compressor according to an embodiment of the present invention. (A) is a front view. (B) is a bb arrow line view of (a).
FIG. 5 is a structural diagram of a bush that is press-fitted into a boss arm of a swash plate. (A) is a front view. (B) is a side view.
[Explanation of symbols]
21 Drive shaft 22 Rotor 22a, 23b 'Arm 22a' Oval guide hole 23 Swash plate 23b Boss 23b "Circular hole 24 Straight extension pins 25, 26 Bush

Claims (3)

A variable displacement swash plate compressor rotor / swash plate connection structure that connects a rotor fixed to a drive shaft and a swash plate pivotally supported by the drive shaft so as to be capable of tilting displacement, from rotor to swash plate The arm extending in the direction is formed with an oval guide hole extending in a direction perpendicular to the plane determined by the center axis of the drive shaft and the top dead center of the swash plate, and the arm extending from the swash plate toward the rotor A circular hole extending in a direction perpendicular to the plane is formed, a straight extension pin is inserted into the oval guide hole of the rotor arm and the circular hole of the swash plate arm, the rotor is made of an aluminum alloy material, and the length of the rotor arm is The rotor and swash plate of a variable displacement swash plate compressor, wherein a bush made of an iron alloy material covering the surface of the circular guide hole and the contact portion between the swash plate arm of the rotor arm is press-fitted into the rotor arm. of Quite concrete. A variable displacement swash plate compressor rotor / swash plate connection structure that connects a rotor fixed to a drive shaft and a swash plate pivotally supported by the drive shaft so as to be capable of tilting displacement, from rotor to swash plate The arm extending in the direction is formed with an oval guide hole extending in a direction perpendicular to the plane determined by the center axis of the drive shaft and the top dead center of the swash plate, and the arm extending from the swash plate toward the rotor A circular hole extending in a direction perpendicular to the plane is formed, a straight extension pin is inserted into the oval guide hole of the rotor arm and the circular hole of the swash plate arm, and the swash plate is formed with the swash plate body and the arm. A boss fixed to the swash plate body, the boss is made of an aluminum alloy material, and a bush made of an iron alloy material covering the surface of the circular hole of the swash plate arm and the contact portion of the rotor arm of the swash plate arm. That it is press-fitted into the swash plate arm. Coupling structure of a rotor and the swash plate of the variable displacement swash plate type compressor according to symptoms. A variable displacement swash plate compressor rotor / swash plate connection structure that connects a rotor fixed to a drive shaft and a swash plate pivotally supported by the drive shaft so as to be capable of tilting displacement, from rotor to swash plate The arm extending in the direction is formed with an oval guide hole extending in a direction perpendicular to the plane determined by the center axis of the drive shaft and the top dead center of the swash plate, and the arm extending from the swash plate toward the rotor A circular hole extending in a direction perpendicular to the plane is formed, a straight extension pin is inserted into the oval guide hole of the rotor arm and the circular hole of the swash plate arm, the rotor is made of an aluminum alloy material, and the length of the rotor arm is A bush made of an iron alloy material that covers the surface of the circular guide hole and the contact portion between the swash plate arm of the rotor arm is press-fitted into the rotor arm, and the swash plate is formed with the swash plate body and the arm. Fixed A boss is made of an aluminum alloy material, and a bush made of an iron alloy material that covers the surface of the circular hole of the swash plate arm and the contact portion of the rotor arm of the swash plate arm is press-fitted into the swash plate arm. Connecting structure of rotor and swash plate of variable capacity swash plate compressor characterized in that

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