• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A scroll hydraulic device is provided that can prevent abnormal wear of the keyway of the front case and reduce the number of parts even when lubricant is consumed. Scroll hydraulics allow a fixed scroll, a swirl scroll to perform a swirling vortex while engaged with the fixed scroll, and a key to move the swirl scroll into the swirling vortex while preventing the swirl scroll from rotating from the front case. An Oldham joint having a fixed scroll, a swirl scroll, and a case body for accommodating the Oldham joint in a housing formed by attaching the front case to the end opening of the case body. The key groove portion 50 to which the keys of the Oldham joint are joined and the portion 51 supporting the axial stress acting on the swirl scroll of the front case are made of iron alloy.
    公开号:KR19980070771A
    申请号:KR1019980002076
    申请日:1998-01-23
    公开日:1998-10-26
    发明作者:미우라시게키;다케우치마코토
    申请人:마스다 노부유키;미츠비시쥬고교가부시키가이샤;
    IPC主号:
    专利说明:

    Scroll hydraulic system
    The present invention relates to a scroll hydraulic device used as a compressor or expansion device. This application is based on Japanese Patent Application No. Hei 9-24466, the contents of which are described herein by reference.
    An hydraulic device having a swirl scroll that engages a fixed scroll and a fixed scroll to perform a swirl movement is provided with an Oldham joint that allows the swirl scroll to perform a rotational movement while preventing the swirl scroll from rotating. The fixed scroll, swirl scroll and Oldham joint are placed in a housing formed by the front case attached to the opening of the case body and its end along with the other parts.
    A vertical sectional view of a conventional front case is shown in FIG. 3, where the old ham joint and the front case 6 are connected to each other by a key formed in the old ham joint and a key groove 50 penetrating the front case 6. In addition, a thrust bearing 36 for supporting a thrust force acting on the swirl scroll is disposed at the peripheral edge of the inner end face of the front case 6.
    In the conventional scroll hydraulic apparatus described above, in order to lighten the weight, the case body, the front case, the fixed scroll and the swirl scroll are usually made of aluminum alloy.
    However, since the old ham joint is formed of an iron alloy and the surface thereof is hardened by heat treatment, there is a problem in that the key groove of the front case is abnormally worn when the lubricant flows out. In addition, since it is necessary to provide a thrust bearing, there is a problem that the number of parts is increased and the cost is increased.
    Accordingly, an object of the present invention is to provide a scroll hydraulic device that is configured to prevent abnormally worn key grooves of the front case even when lubricating oil flows out, and that the number of parts can be reduced.
    According to the present invention, a fixed scroll, a swirl scroll that performs a rotating swirl movement while engaging a fixed scroll, an Oldham joint having a key to cause the swirl scroll to perform a rotating swirl movement while preventing the swirl scroll from rotating, Fixed case, swirl in the housing formed by attaching the keyway portion of the Oldham joint to which the keyway and the thrust force acting on the swirl scroll are made of iron alloy, and by attaching the front case to the opening of its end. A scroll hydraulic device is provided having a case body for receiving scroll and oldham joints.
    According to the present invention, since the key groove portion where the key of the old ham joint is installed and the part supporting the thrust force acting on the swirl scroll of the front case are made of iron alloy, the lubricant oil is excellently preserved in the key groove, and the lubricant oil flows slightly. When coming out, there is no abnormal wear. In addition, since the thrust bearing can be omitted, the number of parts can be reduced and thereby the cost can be reduced.
    According to the present invention, there is provided a structure in which the key groove portion and the portion for supporting the thrust force acting on the swirl scroll are individually configured to be integrally connected to the front case through the fixing means. In this case, the cost can be further reduced.
    1 is a vertical sectional view showing a scroll compressor according to an embodiment of the present invention;
    2 is a vertical sectional view showing a front case of a scroll compressor according to an embodiment of the present invention;
    3 is a vertical sectional view showing a front case of a conventional scroll compressor.
    Explanation of symbols for the main parts of the drawings
    1: housing
    2: case body
    6: front case
    7: rotating shaft
    10: fixed scroll
    12: spiral wrap
    14: swirling scroll
    26: Oldham joint
    31: high pressure chamber
    50: keyway
    The invention will now be described in detail below on the basis of examples.
    1 is a vertical sectional view of the scroll compressor according to the present embodiment, Figure 2 is a vertical sectional view of the front case according to the present embodiment.
    In Fig. 1, reference numeral 1 denotes a housing having a case body 2 and a front case 6 attached to an opening at an end thereof.
    The rotating shaft 7 extending through the front case 6 is rotatably supported by the housing 1 via bearings 8, 9.
    The fixed scroll 10 and swirl scroll 14 which are coupled to each other are arranged in the housing 1.
    The fixed scroll 10 is provided with an end plate 11 and a spiral wrap 12 disposed upright on its inner surface, the end plate 11 being bolted (not shown) to the case body (not shown). 2) is fixed.
    The space in the housing 1 is separated by contacting the outer circumferential surface of the end plate 11 with the inner circumferential surface of the case body 2, so that the high pressure chamber 31 is formed on the outer surface of the end plate 11 and the low pressure chamber 28 ) Is formed on the inner side of the end plate 11.
    In addition, the discharge port 29 penetrates the center of the end plate 11 and the discharge port 29 is configured in such a manner that it is opened and closed by the discharge valve 30.
    The swirl scroll 14 is provided with an end plate 15 and a spiral wrap 16 disposed upright on its inner surface, the spiral wrap 16 being substantially the same as the spiral wrap 12 of the fixed scroll 10. It has a shape.
    The swirl scroll 14 and the fixed scroll 10 are in such a manner as shown in the figure with their centers eccentrically displaced at an angle of swirl radius with respect to each other and their angles eccentrically displaced by 180 degrees. When joined together, the tip seal 17 embedded on the front end face of the spiral wrap 12 is in close contact with the inner side of the end plate 15 and the tip seal embedded in the front end face of the spiral wrap 16 ( 18 is in close contact with the inner surface of the end plate 11, so that the side surfaces of the spiral wraps 12, 16 are in line contact at various parts, thereby forming a plurality of compression chambers 19a which form a point of symmetry with respect to the center of the spiral. , 19b) is formed.
    The drive bush 21 is end plate in such a manner as to protrude through the swirl bearing 23 in such a manner as to have an eccentrically displaced center slidably installed in the slide groove 24 penetrating the drive bush 21. It is rotatably provided on the inner side of the cylindrical boss 20 provided in the center on the outer surface of the 15, and the eccentrically displaced drive pin 25 provided on the inner end of the rotating shaft 7. As shown in FIG.
    At this time, the counterweight 27 for stabilizing the dynamic imbalance due to the swirl motion of the swirl scroll 14 is mounted to the drive bush 21.
    In this case, reference numeral 26 denotes an Oldham joint made of iron sintered alloy (JIS Z 2550 SMF5 containing 0.2 / 0.8 wt.% Mo), where the key is the periphery of the outer surface of the end plate 15 to vibrate and slide. It is provided in the keyway penetrating the edge and the peripheral edge of the inner side of the front case 6, whereby the swirl movement of the swirl scroll 14 is allowed, but its rotation is prevented.
    Reference numeral 35 denotes a counterweight fixed to the rotary shaft 7, and reference numeral 30 denotes a relief valve that opens when gas pressure in the high pressure chamber 31 abnormally rises.
    Thus, power generated from an automobile engine (not shown) is transmitted to the rotating shaft 7 through the belt 38 and the electromagnetic clutch 37 by using the electromagnetic clutch 37 as a contact point.
    When the rotary shaft 7 is rotated, the swirl scroll 14 moves the eccentrically displaced drive pin 25, the slide groove 24, the drive bush 21, the swirl bearing 23 and the boss 20. The amount of eccentric displacement between the rotating shaft 7 and the eccentrically displaced drive pin 25 is driven by the rotating swirl driving mechanism which also acts as a swirl radius converting mechanism. A circular swirl movement is performed around the line passing through the axial center of the rotary shaft 7 on a circular track having a swirl radius of while its rotation is prevented by the Oldham joint 26.
    At this time, the line contact portion between the side surfaces of the spiral wraps 12 and 16 gradually moves toward the center of the spiral, and as a result, the compression chambers 19a and 19b move toward the center of the spiral and their volume is reduced.
    Correspondingly, gas flowing from the suction port (not shown) into the low pressure chamber 28 is introduced into the respective compression chambers 19a, 19b from the openings formed at the outer peripheral ends of the spiral wraps 12, 16, and compressed. Is supplied to the central chamber 22 while being discharged from there through the discharge port 29 to the high pressure chamber 31 by pressurizing and opening the discharge valve 30 and then through the discharge pipe (not shown). Flows out.
    When the swirl scroll 14 performs a swirl motion, the centrifugal force toward the eccentrically displaced direction and the gas pressure due to the compressed gas in each of the compression chambers 19a and 19b act on the swirl scroll 14, Thus, the swirl scroll 14 is pressurized in a direction in which the swirl radius thereof increases due to its coupling force, so as to prevent the gas in the compression chambers 19a and 19b from leaking, and the inner surface of the spiral wrap 16 is fixed scroll ( It comes in close contact with the inner surface of the spiral wrap 12 of 10).
    At this time, when the side of the spiral wrap 12 and the side of the spiral wrap 16 slide in close contact with each other, the swirl radius of the swirl scroll 14 is automatically changed, the drive pin 25 displaced eccentrically It slides in this slide groove 24.
    The front case 6 is made of aluminum alloy (JIS ADC12) and has a thrust force acting on the swirl scroll 14 with the keys of the old ham joint 26 installed at its inner end, ie at least the keyway 50. The support 51 for is made of a cast iron alloy as shown in FIG. Cast iron alloys suitable for this purpose are JIS FC or FCD having a tension of 200 N / mm 2 or more with HB 200 to 250. These are integrally formed in the front case 6 by insertion, welding, or the like.
    In this case, the support 51 can be composed of individual parts and fixed to the front case 6 via such fasteners such as bolts or the like (not shown).
    In this case, since the key groove 50 of the old ham joint 26 is installed and slides in a vibrating manner, oil is retained there and made of high hardness iron alloy, so that abnormal wear does not occur even when a little lubricating oil flows out. .
    Furthermore, the thrust bearing 36 is omitted since the support portion 51 supporting the thrust force is made of iron material having excellent abrasion resistance by being in close contact with the outer peripheral edge of the outer end face of the end plate 15 of the swirl scroll 14. Can be reduced, thereby reducing the number of parts and also reducing the cost.
    According to the present invention, since at least the key groove portion where the keys of the old ham joint are installed and the portion supporting the thrust force acting on the swirl scroll of the front case are made of iron alloy, the key groove retains oil and even when the lubricant flows slightly. No abnormal wear occurs.
    Moreover, since the thrust bearing can be omitted, the number of parts can also be reduced, and therefore the cost can be reduced.
    When the keyway portion and the portion supporting the thrust force are formed as separate parts and integrally connected to the front case via the fastener, the cost can be further reduced.
    权利要求:
    Claims (2)
    [1" claim-type="Currently amended] Fixed scroll;
    A swirl scroll that combines with a fixed scroll while performing a rotating swirl motion;
    An Oldham joint having a key to rotate the swirl scroll while preventing the swirl scroll from rotating;
    A front case configured such that a key groove portion in which the keys of the old ham joint are installed and a portion supporting the thrust force acting on the swirl scroll are made of iron alloy; And
    And a case body for receiving a fixed scroll, a swirl scroll and an Oldham joint in a housing formed by attaching the front case to an opening at its end.
    [2" claim-type="Currently amended] 2. The scroll hydraulic apparatus according to claim 1, wherein the portion supporting the thrust force acting on the key groove portion and the swirl scroll is individually configured to be integrally connected to the front case via the fastener means.
    类似技术:
    公开号 | 公开日 | 专利标题
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    同族专利:
    公开号 | 公开日
    CA2227685A1|1998-07-24|
    CN1088158C|2002-07-24|
    AU700167B2|1998-12-24|
    CN1192509A|1998-09-09|
    EP0855509A1|1998-07-29|
    DE69802119D1|2001-11-29|
    US6146117A|2000-11-14|
    CA2227685C|2001-12-18|
    TW347441B|1998-12-11|
    DE69802119T2|2002-03-14|
    JPH10205463A|1998-08-04|
    EP0855509B1|2001-10-24|
    AU5269798A|1998-07-30|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    1997-01-24|Priority to JP97-024466
    1997-01-24|Priority to JP2446697A
    1998-01-23|Application filed by 마스다 노부유키, 미츠비시쥬고교가부시키가이샤
    1998-10-26|Publication of KR19980070771A
    2002-01-15|Application granted
    2002-01-15|Publication of KR100299506B1
    优先权:
    申请号 | 申请日 | 专利标题
    JP97-024466|1997-01-24|
    JP2446697A|JPH10205463A|1997-01-24|1997-01-24|Scroll type fluid machine|
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