JP6701895B2 - Scroll compressor - Google Patents

Description

  The present invention relates to a scroll compressor, and more particularly to a technique for suppressing damage to the outer peripheral side end of a spiral wrap formed on a movable scroll.

  Conventionally, scroll compressors generally include a compression mechanism and a drive mechanism inside a casing. The compression mechanism has a fixed scroll and a movable scroll, and the fixed scroll and the movable scroll are end plates (fixed side end plate part and movable side end plate part) arranged to face each other, and are integrally formed on each end plate. It has a spiral wrap (fixed side wrap and movable side wrap) that are formed and mesh with each other.

  In the compression mechanism of the scroll compressor, the wrap of the fixed scroll (the fixed side wrap) and the wrap of the movable scroll (the movable side wrap) mesh with each other to form a compression chamber between the fixed scroll and the movable scroll. A crank pin of a crank shaft (drive shaft) provided in the drive mechanism is connected to the movable scroll. When the movable scroll orbits with respect to the fixed scroll due to the rotation of the crankshaft, the volume of the compression chamber repeats expansion and contraction. The compression mechanism draws in the refrigerant when the volume of the compression chamber expands, and compresses the refrigerant when it shrinks and discharges the refrigerant.

  Here, in many scroll compressors, the performance is improved by utilizing the pressure contact force when the movable scroll is pressed against the fixed scroll by the centrifugal force to obtain a sealing effect. However, since the winding end portion of the outer peripheral side end portion of the spiral of the movable side wrap is structurally weak, there is a risk of damage due to the pressure contact force. In particular, in the winding end portion of the movable side wrap, the strength of the root portion with respect to the movable side end plate portion is weak, and there is a problem that it is easily damaged.

  On the other hand, in Patent Document 1, the winding end portion is slightly thinner than other portions so that the inner peripheral surface and the outer peripheral surface of the winding end portion of the movable side wrap are close to each other, and the sealing point (fixed side A technique is disclosed in which the contact of the wrap and the movable side wrap) is moved in the winding start direction of the wrap by a small distance to disperse the pressure contact force between the fixed scroll and the movable scroll, thereby suppressing damage to the movable side wrap. Further, Patent Document 2 discloses a technique in which an extension portion that does not contact the fixed-side wrap is provided at the winding end portion of the movable-side wrap.

JP, 2014-231800, A JP, 2014-231750, A

  However, since the technique of Patent Document 1 is configured to disperse the pressure contact force between the fixed scroll and the movable scroll, the pressure contact force is inevitably weakened. In this respect, Patent Document 1 describes that the sealing effect of the fixed scroll and the movable scroll can be secured by the lubricating oil between the fixed side wrap and the movable side wrap, but in reality, even if the pressure contact force becomes weak. It is difficult to prevent the sealing effect from decreasing, and there is a possibility that the compression efficiency may decrease due to refrigerant leakage.

  Further, in the technique of Patent Document 2, by providing the extension portion at the winding end portion of the movable side wrap, the spiral shape of the movable side wrap requires more space than originally necessary. Therefore, in the technique of Patent Document 2, the compression mechanism may become large.

  The present invention has been made in view of such a problem, and an object thereof is to suppress the deterioration of the sealing effect while suppressing the damage of the winding end portion of the outer peripheral side end portion of the movable scroll, and at the same time, to reduce the compression mechanism. It is also necessary to suppress the increase in size.

  A first aspect of the present invention has a fixed scroll (40) and a movable scroll (35), and the fixed scroll (40) and the movable scroll (35) are respectively arranged on the fixed side end plate portion (41) facing each other. ) And the movable side end plate portion (36), and the spiral side fixed side wrap (42) and movable side wrap (42) that are integrally formed with the fixed side end plate portion (41) and the movable side end plate portion (36) and mesh with each other. 37) and a scroll compressor provided with a compression mechanism (30) having

  In this scroll compressor, a concave portion (80) for forming an elastic portion (85) is formed in a portion of the fixed side wrap (42) with which the outer peripheral side end of the movable side wrap (37) abuts. It is characterized by being.

  In the first aspect of the present invention, when the movable scroll (35) revolves around the fixed scroll (40), the spiral end portion of the spiral at the outer peripheral side end of the movable side wrap (37) is fixed side wrap (42). The elastic portion (85) formed on the fixed side wrap (42) elastically deforms when it comes into contact with. Therefore, application of a strong force to the outer peripheral side end of the movable side wrap (37) is suppressed.

Further, in the first invention, the recess (80) is not in communication with the outermost peripheral end of the compression chamber (31), and the elastic portion of the fixed side wrap (42) is the movable side wrap (37). It is characterized in that the thickness of the portion with which the outer peripheral side end contacts is made up of a thinner portion (85) that is thinner than the portion with which the outer peripheral side end of the movable side wrap (37) does not contact.

In the first aspect of the invention, when the orbiting scroll (35) revolves with respect to the fixed scroll (40), the end of the spiral at the outer peripheral side end of the orbiting side wrap (37) is fixed side wrap (42). When it comes into contact with, the thin portion (85) is elastically deformed, and a strong force is suppressed from being applied to the outer peripheral side end of the movable side wrap (37).

A second aspect of the present invention has a fixed scroll (40) and a movable scroll (35), and the fixed scroll (40) and the movable scroll (35) are arranged to face each other, respectively. ) And the movable side end plate portion (36), and the spiral side fixed side wrap (42) and movable side wrap (42) that are integrally formed with the fixed side end plate portion (41) and the movable side end plate portion (36) and mesh with each other. 37), a scroll compressor having a compression mechanism (30) having an elastic part (42) on the fixed side wrap (42) at which the outer peripheral side end of the movable side wrap (37) abuts. (80) to form a concave portion (80), and the concave portion (80) and the elastic portion (85) are positioned radially inward with respect to the outer peripheral side end portion of the movable side wrap (37). It is characterized in that it is formed on the side wrap (42) .

In the second aspect of the invention, the concave portion (80) and the elastic portion (85) are formed in the fixed side wrap (42) located radially inward of the outer peripheral side end of the movable side wrap (37). Since the elastic portion (85) is elastically deformed when the movable scroll (35) revolves, it is possible to prevent a strong force from being applied to the outer peripheral side end portion of the movable side wrap (37).

A third invention is characterized in that, in the first or second invention, the recess (80) is a groove extending in a spiral winding direction of the fixed side wrap (42) .

In the third aspect of the invention, when the movable scroll (35) revolves around the fixed scroll (40), the winding end portion of the outer peripheral side end of the movable side wrap (37) contacts the fixed side wrap (42). Upon contact, the elastic portion (85) formed on the fixed side wrap (42) is elastically deformed by the groove that is the recess (80), and a strong force is applied to the outer peripheral side end of the movable side wrap (37). Is suppressed.

4th invention is a 1st, 2nd, or 3rd invention, Comprising: The said recessed part (80) and the elastic part (85) are radial direction outer side with respect to the outer peripheral side edge part of the said movable side wrap (37). It is characterized in that it is formed on the fixed side wrap (42) located .

In the fourth aspect of the invention, the concave portion (80) and the elastic portion (85) are formed in the fixed side wrap (42) located radially outside of the outer peripheral side end of the movable side wrap (37). Since the elastic portion (85) is elastically deformed when the movable scroll (35) revolves, it is possible to prevent a strong force from being applied to the outer peripheral side end portion of the movable side wrap (37).

A fifth invention, in the first one of the fourth invention, the recess (80), based on the winding end position of the fixed side wrap (42), the center of the fixed side wrap (42) It is characterized in that it is formed in an angle range of 5° or more in the winding start direction and 0° or more in the direction opposite to the winding start direction.

  In a sixth aspect based on any one of the first to fifth aspects, the height dimension (H) of the fixed side wrap (42) and the depth dimension (H′) of the recess (80) are: It is characterized in that the relationship of 0.1≦H′/H≦0.5 is satisfied.

In a seventh aspect based on any one of the first to sixth aspects, a thickness dimension (T) of the fixed side wrap (42) and an elastic portion of the fixed side wrap (42) are configured. The thickness of the thin portion (85) in which the thickness of the portion of the movable side wrap (37) with which the outer peripheral side end contacts is thinner than that of the portion of the movable side wrap (37) with which the outer peripheral side end does not contact. It is characterized in that the dimension (T′) satisfies the relationship of 0.2≦T′/T≦0.5.

  According to the present invention, when the orbiting scroll (35) revolves with respect to the fixed scroll (40), the end of the spiral at the outer peripheral side end of the orbiting side wrap (37) becomes the fixed side wrap (42). Upon contact, the elastic portion (85) formed on the fixed side wrap (42) is elastically deformed, so that a strong force is suppressed from being applied to the outer peripheral side end of the movable side wrap (37). Therefore, it is possible to prevent the outer peripheral side end portion of the movable side wrap (37) from being damaged, particularly at the root of the movable side end plate portion (36). Further, according to the present invention, it is not necessary to change the position of the seal point, and since the fixed side wrap (42) and the movable side wrap (37) are reliably pressed against each other while the elastic portion (85) is elastically deformed, It is also possible to suppress deterioration of the sealing effect. Furthermore, according to the present invention, it is not necessary to lengthen the length of the movable side wrap (37) in the winding end direction of the spiral, so the spiral does not become large. Therefore, according to the present invention, it is possible to prevent the compression mechanism (30) from increasing in size, and thus prevent the scroll compressor from increasing in size.

According to the first aspect of the present invention, the thin portion (85) is further elastically deformed when an external force is applied to the outer peripheral end of the movable side wrap (37).

According to the second aspect of the invention, the recess (80) and the elastic portion (85) formed in the fixed side wrap (42) located radially inward of the outer peripheral side end of the movable side wrap (37). As a result, it is possible to prevent the outer peripheral end of the movable side wrap (37) from being damaged, while suppressing the reduction of the sealing effect and the increase in size of the mechanism. In particular, the recess (80) is formed in both the fixed side wrap (42) located radially outside and the fixed side wrap (42) located radially inward of the outer peripheral side end of the movable side wrap (37). By forming the elastic portion (85) and the elastic portion (85), it is possible to more reliably prevent the outer peripheral end of the movable wrap (37) from being damaged.

According to the third aspect of the invention, since the recess (80) for forming the elastic portion (85) of the fixed side wrap (42) is a groove, the effect of claim 1 can be obtained with a simple configuration. You can

According to the fourth aspect of the invention, the concave portion (80) and the elastic portion (85) formed in the fixed side wrap (42) located radially outside of the outer peripheral side end of the movable side wrap (37). As a result, it is possible to prevent the outer peripheral side end of the movable side wrap (37) from being damaged, and to prevent the sealing effect from decreasing and the mechanism from increasing in size.

According to the fifth aspect, the recess (80), based on the winding end position of the fixed side wrap (42), the fixed side wrap (42) around an angle in the winding start direction 5 ° or more, the winding start It is formed in a range of 0° or more in the direction opposite to the direction. If the range is narrower than that, the effect of suppressing damage to the outer peripheral side end of the movable side wrap (37) may be reduced. On the other hand, the damage suppressing effect can be surely obtained.

  According to the sixth aspect of the present invention, the height dimension (H) of the fixed side wrap (42) and the depth dimension (H') of the recess (80) are 0.1≤H'/H≤0. 5 is satisfied, and the recess (80) can be formed in a size suitable for suppressing damage to the movable side wrap (37).

According to the seventh aspect of the present invention, the thickness dimension (T) of the fixed side wrap (42) and the thickness dimension (T′) of the thin portion (85) are set to 0.2≦T′/T≦0. .5, the thin portion (85) can be formed with a size suitable for suppressing damage to the movable side wrap (37).

FIG. 1 is a vertical cross-sectional view showing the configuration of a scroll compressor according to an embodiment of the present invention. 2 is a sectional view taken along the line II-II in FIG. FIG. 3 is a partially enlarged view of FIG. FIG. 4 is a partially cutaway perspective view of the fixed scroll. FIG. 5 is a partially enlarged view of FIG. FIG. 6 is a bottom view of the fixed scroll of Modification 1 of the embodiment. FIG. 7 is a partially enlarged view of FIG. FIG. 8 is a bottom view of the fixed scroll of the second modification of the embodiment. FIG. 9 is a partially enlarged view of FIG.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a vertical sectional view showing a configuration of a scroll compressor according to an embodiment of the present invention, and FIG. 2 is a sectional view taken along line II-II of FIG. The scroll compressor (10) is connected to, for example, a refrigerant circuit that performs a vapor compression refrigeration cycle in an air conditioner. The scroll compressor (10) includes a casing (11), a rotary compression mechanism (30), and a drive mechanism (20) that rotationally drives the compression mechanism (30).

  The casing (11) is composed of a vertically elongated cylindrical hermetically closed container with both ends closed, and has a cylindrical body (12) and an upper end plate (13) fixed to the upper end of the body (12). And a lower end plate (14) fixed to the lower end of the body (12).

  The inside of the casing (11) is vertically divided by a housing (50) joined to the inner peripheral surface of the casing (11). A space above the housing (50) constitutes an upper space portion (15), and a space below the housing (50) constitutes a lower space portion (16).

  An oil sump (17) is provided at the bottom of the lower space (16) of the casing (11) to store oil that lubricates the sliding portion of the scroll compressor (10).

  A suction pipe (18) and a discharge pipe (19) are attached to the casing (11). One end of the suction pipe (18) is connected to the suction pipe joint (47). The discharge pipe (19) penetrates the body (12). The end of the discharge pipe (19) is open to the lower space (16) of the casing (11).

  The drive mechanism (20) includes a motor (21) and a drive shaft (23). The motor (21) is housed in the lower space portion (16) of the casing (11). The motor (21) includes a stator (21a) and a rotor (21b) formed in a cylindrical shape. The stator (21a) is fixed to the body (12) of the casing (11). A rotor (21b) is arranged in the hollow portion of the stator (21a). A drive shaft (23) is fixed to the hollow portion of the rotor (21b) so as to penetrate the rotor (21b), and the rotor (21b) and the drive shaft (23) rotate together. ..

  A suction nozzle (61) as a suction member for sucking up oil is provided at the lower end of the drive shaft (23). The suction nozzle (61) constitutes a positive displacement pump. The embodiment does not limit the pump type, and may be a centrifugal pump or a differential pressure pump. The suction port (61a) of the suction nozzle (61) is open to the oil sump (17) of the casing (11). The discharge port of the suction nozzle (61) is connected so as to communicate with the oil supply passage (27) of the drive shaft (23). The oil sucked up from the oil sump (17) by the suction nozzle (61) flows through the oil supply passage (27) and is supplied to the sliding portion of the scroll compressor (10).

  The compression mechanism (30) is a so-called scroll-type compression mechanism including a movable scroll (35), a fixed scroll (40), and a housing (50). The housing (50) and the fixed scroll (40) are fastened together by bolts, and the movable scroll (35) is housed therebetween.

  The movable scroll (35) has a movable side end plate portion (36) having a substantially disc shape. A movable side wrap (37) is erected on the upper surface of the movable side end plate portion (36), and the movable side wrap (37) is formed integrally with the movable side end plate portion (36). As shown in FIG. 2, the movable side wrap (37) is a wall extending spirally outward from the center of the movable side end plate portion (36) in the radial direction along an involute curve. Further, a boss portion (bearing portion) (38) is provided on the lower surface of the movable side end plate portion (36).

  The fixed scroll (40) has a substantially disk-shaped fixed side end plate portion (41). A fixed side wrap (42) is erected on the lower surface of the fixed side end plate portion (41), and the fixed side wrap (42) is formed integrally with the fixed side end plate portion (41). As shown in FIG. 2, the fixed side wrap (42) extends in a spiral shape from the vicinity of the center of the fixed side end plate portion (41) outward in the radial direction along an involute curve, and the movable scroll (35) is movable. It is a wall body formed so as to mesh with the side wrap (37). The fixed side end plate portion (41) and the movable side end plate portion (36) are arranged to face each other. A compression chamber (31) is formed between the fixed side wrap (42) and the movable side wrap (37).

  The fixed scroll (40) has an outer edge portion (43) that extends radially outward from the outermost peripheral wall of the fixed side wrap (42). The lower end surface of the outer edge portion (43) is fixed to the upper end surface of the housing (50). Further, the outer edge portion (43) is formed with an opening portion (44) that opens upward. A suction port (34) that connects the inside of the opening (44) and the outermost peripheral end of the compression chamber (31) is formed in the outer edge (43). The suction port (34) is open at the suction position of the compression chamber (31). The above-mentioned suction pipe joint (47) is connected to the opening (44) of the outer edge (43).

  Further, the fixed scroll end plate (41) of the fixed scroll (40) is formed with a discharge port (32) located near the center of the fixed scroll wrap (42) and extending vertically. The lower end of the discharge port (32) is open at the discharge position of the compression chamber (31). The upper end of the discharge port (32) is open to the discharge chamber (46) defined in the upper part of the fixed scroll (40). Although not shown, the discharge chamber (46) communicates with the lower space portion (16) of the casing (11).

  2, which is a view (cross-sectional view taken along the line II-II in FIG. 1) of the bottom surface of the fixed scroll (40) and the spiral shape of the movable side wrap (37), and FIG. 3 which is a partially enlarged view of FIG. 2. As shown in FIG. 4 which is a partially broken perspective view of the fixed scroll (40) and FIG. 5 which is a partially enlarged view of FIG. 4, the fixed side wrap (42) has an outer periphery of the movable side wrap (37). A recess (80) for forming an elastic portion is formed at a portion with which the side end portion abuts. In the elastic portion of the fixed side wrap (42), the thickness of the portion where the outer peripheral side end of the movable side wrap (37) abuts is such that the outer peripheral side end of the movable side wrap (37) does not abut. It is composed of a thinner portion (85) thinner than the above.

  In this embodiment, the recess (80) is formed by a groove extending in the spiral winding direction of the fixed side wrap (42). As shown in FIG. 2, the recess (80) is formed within the range of an angle θ in the winding start direction with reference to the winding end position of the spiral (involute) of the fixed side wrap (42). Specifically, as shown in FIG. 2, the range of the angle θ in which the concave portion (80) is formed is, as shown in FIG. The range is 5° or more (angle α) in the starting direction and 0° or more (angle β) in the direction opposite to the winding start direction. In the illustrated example, β=0° and θ=α.

  The recessed portion (80) includes an outer recessed portion (81) formed in a fixed side wrap (42) located radially outward of an outer peripheral side end of the movable side wrap (37), and the movable side wrap (81). 37) includes an inner recess (82) formed in the fixed side wrap (42) located radially inward with respect to the outer peripheral side end.

  As shown in FIG. 5, the height dimension (H) of the fixed side wrap (42) and the depth dimension (H′) of the recess (80) are 0.1≦H′/H≦0.5. Meet the relationship.

  Further, the thickness dimension (T) of the fixed side wrap and the thickness dimension (T') of the thin portion (85) satisfy the relationship of 0.2≤T'/T≤0.5.

  The housing (50) is formed in a substantially cylindrical shape. The outer peripheral surface of the housing (50) is formed such that the upper part has a larger diameter than the lower part. The upper part of the outer peripheral surface is fixed to the inner peripheral surface of the casing (11).

  The drive shaft (23) is inserted into the hollow portion of the housing (50). The hollow portion is formed such that the upper portion (crank chamber (54)) has a larger diameter than the lower portion of the hollow portion. A bearing portion (53) is formed in the lower portion of the hollow portion. The bearing portion (53) rotatably supports the upper end portion of the main shaft portion (24) of the drive shaft (23). Further, the upper portion of the hollow portion is partitioned by the seal member (55) to form a back pressure space. The back pressure space faces the back surface of the movable scroll (35). The seal member (55) is fitted between the upper surface of the housing (50) and the back surface of the movable scroll (35). The boss portion (38) of the movable scroll (35) is located in this back pressure space. An eccentric part (crank pin) (25) of the drive shaft (23) protruding from the upper end of the bearing part (53) is engaged with the boss part (38), and the compression mechanism (20) causes the drive shaft ( It is driven to rotate in 23).

The eccentric part (25) of the drive shaft (23) is attached to the boss (38) of the orbiting scroll (35) at the bearing (29a).
) Is rotatably supported via. The main shaft portion (24) of the drive shaft (23) is rotatably supported by a bearing portion (53) of the housing (50) via a bearing (29b). Further, the lower main shaft portion (26), which is the lower side portion of the main shaft portion of the drive shaft (23), is mounted on the lower bearing portion (28) fixed near the lower end of the body portion (12) of the casing (11). It is rotatably supported via (29c).

  As described above, the upper part of the hollow part of the housing (50) becomes the crank chamber (54) in which the connecting part between the compression mechanism (30) and the eccentric part (25) of the drive shaft (23) is housed. ing. The housing (50) has an oil drain passage (70) extending from the crank chamber (54) to the outer peripheral surface of the housing (50) and extending downward at the outer peripheral surface. An oil return guide (75) for guiding oil to the oil sump is provided below the oil drain groove (73) of the housing (50).

-Driving operation-
Next, the operation of the scroll compressor (10) described above will be described. When the motor (21) of the scroll compressor (10) is energized, the drive shaft (23) rotates together with the rotor (21b), and the orbiting scroll (35) orbits. The volume of the compression chamber (31) periodically increases and decreases with the revolution of the movable scroll (35).

  Specifically, when the drive shaft (23) rotates, the refrigerant is sucked into the compression chamber (31) from the suction port (34). The compression chamber (31) is completely closed as the drive shaft (23) rotates. Further, as the rotation of the drive shaft (23) progresses, the volume of the compression chamber (31) starts to decrease, and the compression of the refrigerant in the compression chamber (31) is started.

  Then, when the volume of the compression chamber (31) is further reduced and the volume of the compression chamber (31) is reduced to a predetermined volume, the discharge port (32) is opened. Through this discharge port (32), the refrigerant compressed in the compression chamber (31) is discharged to the discharge chamber (46) of the fixed scroll (40). The refrigerant in the discharge chamber (46) is discharged from the discharge pipe (19) through the lower space portion (16) of the casing (11). As described above, the lower space portion (16) communicates with the back pressure space, and the movable scroll (35) is pressed against the fixed scroll (40) by the refrigerant pressure in the back pressure space.

  During the operation of the compressor (10), the oil in the oil sump (17) is pumped up by the suction nozzle (61) to rise in the oil supply passage (27) and is supplied to each sliding portion. The lubricating oil supplied to the sliding surfaces of the eccentric part (25) and the bearing (29a) flows out from the sliding surfaces and accumulates in the crank chamber (54). The lubricating oil (65) that has entered the crank chamber (54) flows out of the crank chamber (54) through the oil discharge passage (70) and returns to the oil sump (17).

  Further, during orbital motion of the orbiting scroll (35), as shown in FIG. 3, the winding end portion of the outer peripheral side end of the orbiting side wrap (37) is located on the radially outer side of the fixed side wrap (42). ) And the fixed side wrap (42) located on the radially inner side are alternately pressed.

  Here, in the present embodiment, the fixed side wrap (42) is provided with a recess (80) for forming an elastic thin portion (85) at a portion where the outer peripheral side end of the movable side wrap (37) abuts. Is formed in the above predetermined range (angle θ range), so that when the outer peripheral side end of the movable side wrap (37) comes into contact with the thin portion (85), the thin portion (85) is elastically deformed. To do. Therefore, it is possible to prevent a strong force from being applied to the end portion of the spiral at the outer peripheral side end of the movable side wrap (37).

-Effect of embodiment-
According to the present embodiment, when the movable scroll (35) revolves around the fixed scroll (40), the spiral end portion of the spiral at the outer peripheral side end of the movable side wrap (37) is fixed side wrap (42). When it comes into contact with the movable wrap (37), the thin portion (85) formed in the fixed wrap (42) is elastically deformed, so that a strong force is suppressed from being applied to the outer peripheral end of the movable wrap (37). .. Therefore, it is possible to prevent damage to the outer peripheral side end of the movable side wrap (37), particularly to the base of the fixed side end plate (36).

  Moreover, according to the present embodiment, it is not necessary to change the position of the seal point, and the fixed-side wrap (42) and the movable-side wrap (37) are reliably pressed against each other while the thin portion (85) is elastically deformed. Also, it is possible to suppress deterioration of the sealing effect.

  Furthermore, according to the present embodiment, since it is not necessary to increase the length of the movable side wrap (37) in the spiral end direction, the shape of the spiral does not become large. Therefore, it is possible to prevent the compression mechanism (30) and hence the scroll compressor from becoming large.

  Further, according to the present embodiment, since the recess (80) for forming the thin portion (85) of the fixed side wrap (42) is a groove, the effect of claim 1 can be obtained with a simple configuration. You can

  Further, according to the present embodiment, the fixed side wrap (42) located radially outside and the fixed side wrap (42) located radially inside with respect to the outer peripheral side end of the movable side wrap (37). Since the concave portion (80) and the thin portion (85) are formed on both sides, it is possible to reliably reduce the risk of the outer peripheral side end of the movable side wrap (37) being damaged.

Further, according to the present embodiment, the concave portion (80) is set at a central angle in the winding start direction of 5° or more with respect to the winding end position of the fixed side wrap (42) in the direction opposite to the winding start direction. It is formed in the range of 0° or more, and if the range is narrower than that, the effect of suppressing damage to the end of the spiral at the outer peripheral side end of the movable side wrap (37) may be reduced. On the other hand, the damage suppressing effect can be surely obtained.

  Further, according to the present embodiment, the height dimension (H) of the fixed side wrap (42) and the depth dimension (H′) of the recess (80) are set to 0.1≦H′/H≦0. The relationship of 5 is satisfied, and if it is out of the range of the above formula, the effect of suppressing the breakage of the movable side wrap (37) may be reduced, or the strength of the fixed side wrap (42) may be weakened. Whereas conceivable, the recess (80) can be formed with suitable dimensions.

  Further, according to this embodiment, the thickness dimension (T) of the fixed side wrap (42) and the thickness dimension (T′) of the thin portion (85) are set to 0.2≦T′/T≦0. .5, and if it is out of the range of the above formula, the damage suppressing effect may be reduced or the strength of the fixed side wrap (42) may be weakened. The thin portion (85) can be formed with a suitable size.

-Modification of the embodiment-
<Modification 1>
FIG. 6 is a bottom view of the fixed scroll of the first modification of the embodiment, and FIG. 7 is a partially enlarged view of FIG.

  In this example, the recess (80) is formed in the winding start direction in a narrower range than the embodiment of FIG. 2 with the winding end position of the fixed side wrap (42) as a reference, and in the direction opposite to the winding start direction. Is formed in a wider area than the embodiment of FIG. That is, the recess (80) is formed at a position closer to the winding end direction of the spiral as a whole as compared with the embodiment of FIG.

  Even if the recess (80) is formed in this way, the same effect as that of the above-described embodiment can be obtained.

<Modification 2>
FIG. 8 is a bottom view of the fixed scroll of the second modification of the embodiment, and FIG. 9 is a partially enlarged view of FIG.

  In this example, the recess (80) is formed in substantially the same range as in the first modification, but the recess (80) in the second modification is different from the first modification in that it is not a groove but a plurality of recesses. It is composed of holes.

  When the recess (80) is configured in this way, the same effect as in the above-described embodiment can be achieved, and in addition, the recess can be formed by machining with a drill, so that the fixed scroll (40) can be easily manufactured. It can be carried out.

<<Other Embodiments>>
The above embodiment may have the following configurations.

  For example, in the above-described embodiment, the recesses (80) are formed in both the fixed side wrap (42) located radially outside the movable side wrap (37) and the fixed side wrap (42) located radially inward. However, it may be formed only on the outer fixed side wrap (42) or only on the inner fixed side wrap (42).

In addition, in the above-described embodiment, as the preferable dimensional range of the recess (80) and the thin portion (85),
The dimensions satisfying the relation of 0.1≦H′/H≦0.5 and the relation of 0.2≦T′/T≦0.5 have been exemplified, but the dimensions capable of forming a thin portion having elasticity. If so, the dimensions of the recess (80) and the meat fillet (85) are not necessarily limited to this range.

  Further, in the above embodiment, the present invention is applied to the scroll compressor (40) having an asymmetric spiral structure in which the spiral lengths of the fixed side wrap (42) and the movable side wrap (37) are different from each other. May be applied to a scroll compressor having a symmetrical spiral structure in which the fixed side wrap (42) and the movable side wrap (37) have the same spiral length.

  Note that the above embodiments are essentially preferable examples, and are not intended to limit the scope of the present invention, its application, or its application.

  INDUSTRIAL APPLICABILITY As described above, the present invention is useful for a technique for suppressing damage to the outer peripheral side end of a wrap (spiral wall) of a movable scroll in a scroll compressor.

10 scroll compressor
30 compression mechanism
35 Movable scroll
36 Movable end plate
37 Movable side wrap
40 fixed scroll
41 Fixed side end plate
42 Fixed side wrap
80 recess
85 Thin section

Claims (7)

It has a fixed scroll (40) and a movable scroll (35), and the fixed scroll (40) and the movable scroll (35) are arranged to face each other, respectively, a fixed side end plate portion (41) and a movable side end plate portion. (36), a fixed side wrap (42) and a movable side wrap (37) that are integrally formed with the fixed side end plate part (41) and the movable side end plate part (36) and mesh with each other A scroll compressor having a mechanism (30),
The fixed side wrap (42) is formed with a recess (80) for forming an elastic portion (85) at a portion where the outer peripheral side end of the movable side wrap (37) abuts ,
The recess (80) is not in communication with the outermost peripheral end of the compression chamber (31),
In the elastic portion of the fixed side wrap (42), the thickness of the portion where the outer peripheral side end of the movable side wrap (37) abuts is such that the outer peripheral side end of the movable side wrap (37) does not abut. A scroll compressor characterized by being made up of a thinner portion (85) thinner than the scroll compressor. It has a fixed scroll (40) and a movable scroll (35), and the fixed scroll (40) and the movable scroll (35) are arranged to face each other, respectively, a fixed side end plate portion (41) and a movable side end plate portion. (36), a fixed side wrap (42) and a movable side wrap (37) that are integrally formed with the fixed side end plate part (41) and the movable side end plate part (36) and mesh with each other A scroll compressor having a mechanism (30),
The fixed side wrap (42) is provided with a recess (80) for forming an elastic portion (85) at a portion where the outer peripheral side end of the movable side wrap (37) abuts,
The scroll compressor , wherein the recess (80) is formed in a fixed side wrap (42) located radially inward of an outer peripheral side end of the movable side wrap (37) . In claim 1 or 2 ,
The scroll compressor, wherein the recess (80) is a groove extending in a spiral winding direction of the fixed side wrap (42). In Claim 1, 2, or 3 ,
The scroll compressor, wherein the recess (80) is formed in a fixed side wrap (42) located radially outside with respect to an outer peripheral side end of the movable side wrap (37). In any one of Claim 1 to 4,
The recess (80), based on the winding end position of the fixed side wrap (42), the fixed side wrap (42) around an angle in the winding start direction 5 ° or more, 0 ° to the winding start direction opposite direction A scroll compressor formed in the above range. In any one of Claim 1 to 5,
The height dimension (H) of the fixed side wrap (42) and the depth dimension (H′) of the recess (80) are
0.1≦H′/H≦0.5
A scroll compressor characterized by satisfying the relationship of. In any one of Claim 1 to 6 ,
The thickness (T) of the fixed side wrap (42) and the wall thickness of the portion where the outer peripheral side end of the movable side wrap (37) abuts so as to form the elastic portion of the fixed side wrap (42). The thickness dimension (T′) of the thin-walled portion (85) obtained by making the movable side wrap (37) thinner than the portion where the outer peripheral side end does not contact is
0.2≦T′/T≦0.5
A scroll compressor characterized by satisfying the relationship of.

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