DE102015109079B4 - scroll compressor - Google Patents

Abstract

Spiral compressor, comprising
a shell (8),
a circumferential spiral (4) arranged in the casing (8),
a stationary scroll (5) arranged in the shell (8), wherein the orbiting scroll (4) and the stationary scroll (5) together form a compacting component,
a housing (2) which has a gas passage leading through the housing (2) and leading to the compression component,
a motor (1) disposed below the housing (2) and having a rotor (12), a stator (13), a drive shaft (3) connected to the orbiting scroll (4), and a motor shell tube (11) wherein the motor casing tube (11) is disposed inside the casing (8), an upper end of the motor casing tube (11) communicates with the casing (2), and the rotor (12) and the stator (13) in the motor casing tube (11). 11) are arranged,
a first suction port (15) arranged at a lower part of the shell (8),
a second suction port (16) arranged at a lower part of the engine cover tube (11), and
a first channel (18) formed by a gap between the shell (8) and the engine sheath tube (11) and via the gas sucked from the first output port (15) through the gas passage formed in the housing (2) into the compression member flows along the first channel (18), a second channel (17) which is formed by a gap between the rotor (12) and stator (13), wherein the gas sucked by the first suction port (15) via the second suction port (16 ) flows into the second channel (17) and through the gas channel formed in the housing (2) into the compression component along the second channel (17), characterized in that the housing (2) supports the fixed spiral (5), the second one Suction port (16) of the first suction port (15) opposite and coolant distributed through the first channel (18) and the second channel (17) flows into the compression component.

Description

Field of the invention

The present invention relates to the field of refrigeration and air conditioning technologies, in particular a scroll compressor having the features of the preamble of claim 1.

Such a scroll compressor is off DE 102 40 978 B4 known. Here, a bearing housing is provided, which is connected to the shell. The shell is also connected to the fixed spiral. Furthermore, the bearing housing has a gas channel. A drive motor is disposed below the bearing housing and includes a rotor, a stator, a drive shaft connected to the orbiting scroll, and a motor shell tube, wherein the motor shell tube is disposed within the shell, an upper end of the motor shell tube communicates with the housing, and the rotor and the stator are disposed in the engine cover tube. A first suction port is arranged at a lower part of the shell and a second suction port is arranged at the lower part of the engine shell tube. There is a channel formed by a gap between the shell and the engine shell tube.

Technical background

The existing spiral compressors are characterized by high costs and can only offer a high degree of efficiency and reliability with great effort.

DE 100 65 821 A1 shows a scroll compressor with a fixed scroll and an orbiting scroll, wherein the fixed scroll is held in a shell. A bearing housing, referred to herein as a support member, supports a drive shaft of an engine.

DE 100 84 486 B4 shows a device for aligning the bearings of the crankshaft of a scroll compressor.

EP 0 819 220 B1 shows a scroll compressor with two gas paths merging into a single gas path, which is externally guided around the bearing housing. A gap between the engine casing tube and an outer casing is provided for reflux of oil.

WO 2012/096444 A1 shows a scroll compressor with a fixed scroll and a revolving scroll, wherein the orbiting scroll is driven by a motor via a shaft. It is provided a bearing housing.

US 2004/0126261 A1 shows a scroll compressor with a shell, a shell disposed in the circumferential spiral and a fixed spiral in the shell, wherein the orbiting scroll and the fixed spiral together form a compression component. A bearing housing carries a shaft that drives the orbiting scroll.

US 2004/0170509 A1 shows another scroll compressor with a fixed spiral and a rotating spiral, which are arranged in a shell. A bearing housing is mounted in the shell and supports a shaft of the motor that drives the orbiting scroll. A shim is located within the bearing housing. In the bearing housing, a gas channel is provided through which gas can flow to the compression member formed from the two spirals.

US 2013/0251567 A1 shows a further scroll compressor with a shell, with a arranged in the shell circumferential spiral and arranged in the shell fixed scroll, wherein the orbiting scroll and the fixed spiral together form a compression component.

Disclosure of the invention

An object of the present invention is to provide a scroll compressor so as to increase the efficiency and reliability of the scroll compressor and reduce the manufacturing cost of the scroll compressor.

According to one aspect of the present invention, there is provided a scroll compressor having the features of claim 1. The scroll compressor includes a shell, a circumferential scroll disposed within the shell, a stationary scroll disposed within the shell, the orbiting scroll and the fixed scroll together forming a compacting member, a housing for supporting the stationary scroll which guides one through the housing and a gas passage leading to the compression member, a motor disposed below the housing and including a rotor, a stator, a drive shaft connected to the orbiting scroll, and a motor shell tube, wherein the motor shell tube is disposed inside the shell and an upper end of the motor shell tube is in communication with the housing and the rotor and the stator are arranged in the motor shell tube, a first suction port, which is arranged at a lower part of the shell, a second suction port, which is adapted to a lower part of the motor shell tube, and a first A channel formed by a gap between the shell and the engine sheath tube, wherein gas sucked from the first suction port through the gas channel formed in the housing flows into the compression component along the first channel.

According to one aspect of the present invention, the scroll compressor further comprises a second passage formed by a clearance between the rotor and the stator, wherein the gas sucked from the first suction port into the second passage via the second suction port and through the gas passage formed in the housing the compression component flows in along the second channel.

According to one aspect of the present invention, the scroll compressor further includes an oil sump located at the bottom of the shell, with lubricating oil returning from the compression member flowing back into the sump through the first channel.

According to one aspect of the present invention, the scroll compressor further comprises a balancer located inside the engine shroud tube and communicating with the drive shaft of the motor, which is in an axial direction between the housing and the motor and in a radial direction between the drive shaft and a sidewall of the motor Motor shell housing is arranged.

According to one aspect of the present invention, the scroll compressor further includes a seal member configured to seal the lower end of the engine cover tube.

According to one aspect of the present invention, the scroll compressor further comprises a wedge formed on one of the components and a wedge-shaped recess formed in the other one of the components, the wedge and the recess for aligning the fixed ones Spiral and the housing are arranged on each other in a radial direction and for fixing the relative position between the fixed scroll and housing in a radial direction.

According to one aspect of the present invention, the drive shaft of the motor is a stepped shaft having a first portion located at one end and connected to the orbiting scroll, a second portion adjacent to the first portion, and one at the second portion adjacent third portion, wherein the diameter of the first portion is smaller than that of the second portion, the diameter of the second portion is smaller than that of the third portion, and the balance piece is attached to the second portion of the drive shaft.

According to one aspect of the present invention, the scroll compressor further includes a support member, wherein the support member is disposed in the engine cover tube and adapted to support a lower end of the drive shaft of the engine, and an outer periphery of the support member is in communication with the engine cover tube.

According to one aspect of the invention, the scroll compressor further includes an oil sump located at the bottom of the housing and a support member arranged to support the lower end of the drive shaft of the engine and disposed inside the engine shroud tube, and a central ring portion having a center hole and a plurality of ones arms extending radially outward from the annular region, wherein at least a portion of each of the plurality of arms is immersed in lubricating oil in the oil sump.

In accordance with one aspect of the present invention, the plurality of arms each communicate with the engine hull tube via their outboard end.

According to one aspect of the invention, the compensation piece comprises a hub, via which the compensation piece is attached to the drive shaft, a fan-shaped region which extends radially outward from the hub, and an edge region which adjoins the fan-shaped region radially from the outside.

According to one aspect of the invention, the edge portion extends from the radially outer edge of the fan-shaped portion in an axial direction.

According to one aspect of the present invention, the shell is a cylindrical housing without constriction.

According to some technical embodiments of the invention, an appropriate distribution of the coolant flows and thus a more effective cooling of the engine can be achieved by these.

In addition, the shim may have a flat shape so as to reduce weight and costs. The balance is located in a closed space, which increases the turbulence of the coolant streams, increases the mass flow rate of the second channel, and improves the cooling of the engine. In addition, the compensating piece according to the present invention is designed easy to install.

In addition, the housing is easy to manipulate and the offset between the fixed scroll and the housing is reduced because of a wedge and a wedge tuned to the wedge Incision are arranged on the fixed spiral and the housing.

According to embodiments of the present invention, a rear surface of the fixed scroll is an inclined surface communicated through a radial surface having an annular outer surface (thereby fixing the fixed scroll and the housing by means of bolts), thereby reducing costs.

According to the present invention, since the drive shaft of the motor is a stepped shaft, easy installation of the balance member is enabled, so that damage to the bearing surface of the housing during mounting is prevented and assembly of affected parts is facilitated.

The support member is characterized in accordance with embodiments of the present invention by high strength, which allows a more stable drive shaft of the motor during operation of the scroll compressor and thus increases the reliability of the scroll compressor. In addition, the support member allows low cost and reduced complexity of assembly. In addition, the arms prevent the turbulence of the lubricating oil in the oil sump. Last but not least, the support member according to the present invention reduces the alignment tolerance of the compressor.

list of figures

• 1 eine schematische Darstellung eines beispielhaften Spiralverdichters gemäß der vorliegenden Erfindung,
• 2-5 schematische Darstellungen des Ausgleichsstückes eines beispielhaften Spiralverdichters gemäß der vorliegenden Erfindung, und
• 6-9 schematische Darstellungen eines Abstützbauteils eines beispielhaften Spiralverdichters gemäß der vorliegenden Erfindung.

Show it

• 1 a schematic representation of an exemplary scroll compressor according to the present invention,
• 2-5 schematic representations of the compensating piece of an exemplary scroll compressor according to the present invention, and
• 6-9 schematic representations of a support member of an exemplary scroll compressor according to the present invention.

Detailed description of embodiments of the invention

The invention will be described in more detail below with reference to concrete embodiments with reference to the accompanying drawings.

As 1 As can be seen, a scroll compressor according to an embodiment of the present invention comprises a shell 8th one in the shell 8th arranged orbiting spiral 4 one in the shell 8th arranged fixed spiral 5 and one at the bottom of the shell 8th arranged oil sump 30 which is set up for collecting lubricating oil. The orbiting spiral 4 and the fixed spiral 5 together form a compaction component. The scroll compressor further includes a housing 2 and a motor 1 , The housing 2 serves to support the fixed spiral 5 , The housing 2 has one through the housing 2 passing through and leading to the compression component gas channel, for example, one axially through the housing 2 passing and leading to the compression component gas channel on. The motor 1 is below the case 2 arranged and includes a rotor 12 , a stator 13 one through the rotor 12 guided and with the rotor 12 connected drive shaft 3 and a motor shell tube 11 , The drive shaft 3 is related to the orbiting spiral 4 , the engine cover pipe 11 is inside the shell 8th arranged, an upper end of the motor shell tube 11 is connected to the housing 2, and the rotor 12 and the stator 13 are in a room that through the engine cover tube 11 is formed, arranged. The engine cover tube 11 is in connection with the stator 13 and is set up the stator 13 , the rotor 12 and the drive shaft 3 to keep in the shell 8. The engine cover tube 11 may be cylindrical in shape and the scroll compressor may further include a sealing member 32 comprising, for sealing the lower end of the engine sheath tube 11 is set up.

As it turned out 1 results, the scroll compressor further comprises a first suction port 15 , a second suction port 16 , a first channel 18 and a second channel 17 , The first intake opening 15 leads through the lower part of the shell 8th through and at the first intake port 15 may be arranged an intake pipe. The second intake opening 16 leads through the lower part of the engine cover tube 11 therethrough. The second channel 17 is through a gap between the rotor 12 and the stator 13 formed, wherein from the first intake port 15 sucked gas through the second intake port 16 in the second channel 17 and through the inside of the case 2 formed gas channel flows into the compression component. The orbiting spiral 4 is on a thrust bearing surface of the housing 2 supported. The fixed spiral 5 is with the case 2 connected.

As in 1 is the first channel 18 through a gap between the shell 8th and the engine shell tube 11 formed, and that of the first intake 15 sucked gas flows over the first channel 18 through the inside of the case 2 trained gas channel in the compression component. The lubricating oil coming from the compression component flows through the first channel 18 in the oil sump 30 back. The lubricating oil can pass through a guide bore in the drive shaft 3 of the motor 1 be guided to the compression component and flows through the first channel 18 into the oil sump 30 back.

With the construction of the embodiment of the present invention, a proper distribution of the coolant streams and a more effective cooling of the engine can be achieved by this, since coolant through the first channel 18 and the second channel 17 flows into the compression component and the lubricating oil through the first channel 18 in the oil sump 30 flowing back.

How out 1 can be seen, the scroll compressor further comprises a with the drive shaft 3 of the motor 1 associated balance piece 31, which in an axial direction between the shell 2 and the engine 1 and in a radial direction between the drive shaft 3 and the engine cover tube is arranged. The compensation piece 31 is inside the engine cover tube 11 rotatably mounted.

As it turned out 2 to 5 results, includes the shim 31 a hub 311 via which the balance piece on the drive shaft 3 is appropriate. The compensation piece 31 further comprises a fan-shaped area 312 that is from the hub 311 extends radially outwardly, and radially from the outside to the fan-shaped portion 312 adjoining edge area 313 , The border area 313 may be different from the radially outer edge of the fan-shaped area 312 extend in an axial direction. The fan-shaped area 312 can be designed plate-shaped and a centering angle with the fan-shaped area 312 corresponds, may be less than 180 °. The border area 313 may be substantially in the form of a circular arc and forms a step on the fan-shaped portion 312 out. The hub 311 , the fan-shaped area 312 and the peripheral area 313 are formed of axially extending surfaces and radially extending surfaces. The fan-shaped area 312 and the border area 313 are substantially perpendicular to each other and thus form an L-shaped structure.

Due to the construction mentioned above, the weight and the cost of the balance piece can be reduced. The compensation piece 31 is located in a closed space and the rotational movement of the shim reinforces the turbulence of the coolant streams, increasing the mass flow rate of the second channel 17 and improves the cooling of the engine 1 , In addition, the compensating piece according to the invention 31 designed easy to install.

The scroll compressor may further comprise a coil fixed to one of the components 5 and housing 2 formed wedge (not shown) and fixed in the other of the components spiral 5 and housing 2 trained, matched to the wedge incision (not shown). The wedge and the notch are for aligning the fixed spiral 5 and the housing 2 one another in a radial direction and for fixing the relative position between the fixed scroll 5 and the housing 2 set up in the radial direction. For example, the wedge and the notch are at circumferentially outer points of contact of the fixed scroll 5 and the housing 2 educated. Thus, the housing 2 easier to machine and the offset between the fixed spiral 5 and the housing 2 is reduced.

According to an embodiment of the present invention, a surface (upper surface) comprises that of the movable scroll 4 opposite side of the fixed spiral 5 a central central surface, an annular oblique surface extending radially outward from the central surface and to a side (lower side) of the orbiting scroll 4 , an annular outer surface on the radially outermost side, and a domed surface that connects between the annular inclined surface and the annular outer surface. On the annular outer surface, the fixed spiral and the housing can be fastened by means of bolts. Thus, one achieves appropriate material allocation, ensures strength and reduces costs.

According to an embodiment of the present invention, it may be in the case 8th to act around a cylindrical housing without constriction.

As it turned out 1 results, it may be at the drive shaft 3 of the motor 1 to act a stepped wave, which one at the end and with the orbiting spiral 4 related first section 37 and one to the first section 37 adjacent second portion, wherein the diameter of the first portion is smaller than that of the second portion. Alternatively, the drive shaft 3 of the motor 1 be formed as a stepped wave, which has one at the end and with the orbiting spiral 4 related first section 37, one to the first section 37 adjacent second section 38 and one to the second section 38 adjacent third section 39 includes, wherein the diameter of the first section 37 smaller than that of the second section 38 is the diameter of the second section 38 smaller than the third section 39 is and the compensation piece 31 at the second section 38 the drive shaft 3 is appropriate. The use of a stepped shaft allows easy installation of the shim, prevents damage to the bearing surface of the housing 2 during assembly and facilitates the assembly of affected parts.

How out 1 and 6 to 9 can be seen, the scroll compressor can also be a support member 50 include. The support component 50 is for supporting the lower end of the drive shaft 3 of the motor 1 furnished and inside the engine cover tube 11 arranged and a periphery of the support member 50 is connected to the engine duct 11 connected. The support member may have a central ring portion 51 with a center hole and several of the ring area 51 radially outwardly extending arms 52 comprise, wherein the plurality of arms at least partially in the lubricating oil in the oil sump 30 are immersed, with the several arms 52 each over its outer end with the engine cover tube 11 are connected. Every single arm 52 may have a width extending from the side of the annulus area 51 gradually reduced to the side of the end at the outer periphery. In this way, each individual arm has a higher strength on the part of the annular portion 51 than on the outer periphery of the end.

As it turned out 1 and 6 to 9 In addition, the scroll compressor may further comprise a bracket provided on the lower side of the engine and configured to support the engine. In an axial direction, the support member is between the engine 1 and the bracket provided to coaxially hold the parts in the housing of the scroll compressor.

As in 1 and 6 to 9 is shown, comprises the support member 50 According to some embodiments, further a bearing 53 , The bearing 53 may be an annular bushing. Thus, the bearing has a simple shape and less machinable surfaces, and the bearing is easy to machine, has high strength and low tolerance. The drive shaft of the motor is supported between the bearing surface of the housing and the bearing of the support member, whereby the drive shaft of the motor is more stable.

As 1 and 6 to 9 it can be seen, serves the camp 53 in the middle of the support component 50 as a neck bearing, while the upper surface of the bearing 53 acts as a thrust bearing to support the drive shaft of the engine. The ring area 51 and the camp 53 in the middle have a groove 55 on, and the groove 55 sets the central bore with the environment radially in direct connection and serves as a discharge channel for oil and sewage. In one example, the ring area is used 51 and the arms as a bearing plate.

The bearing plate is in communication with the bearing 53 to stabilize the lubricating oil in the oil sump at the bottom of the shell of the scroll compressor.

The bearing of the support member according to embodiments of the invention has a high strength, so that the drive shaft of the motor during operation of the scroll compressor is more stable, which increases the reliability of the scroll compressor. In addition, the support member allows low cost and reduced complexity of assembly. In addition, the arms prevent the turbulence of the lubricating oil in the oil sump. Not least, the support member according to the invention reduces the calibration tolerance of the compressor.

Claims (12)

A scroll compressor comprising a shell (8), a peripheral scroll (4) disposed in the shell (8), a fixed scroll (5) disposed in the shell (8), the orbiting scroll (4) and fixed scroll (5 ) together form a compression component, a housing (2) which has a gas channel leading through the housing (2) and leading to the compression component, a motor (1) which is arranged below the housing (2) and a rotor (12) a stator (13), a drive shaft (3) connected to the orbiting scroll (4) and a motor shell tube (11), the motor shell tube (11) being disposed inside the shell (8), an upper end of the motor shell tube (11 ) is in communication with the housing (2) and the rotor (12) and the stator (13) are arranged in the motor shell tube (11), a first suction port (15) which is arranged at a lower part of the shell (8) , a second suction opening (16), which at an unt a first channel (18), which is formed by a gap between the sheath (8) and the engine sheath tube (11) and through which from the first output port (15) sucked gas through the in the housing (2) formed gas channel flows into the compression member along the first channel (18), a second channel (17) formed by a gap between the rotor (12) and stator (13), which from the first suction port (15) sucked gas via the second suction port (16) into the second channel (17) and through the gas channel formed in the housing (2) flows into the compression component along the second channel (17), characterized in that the housing (2 ) the fixed scroll (5) is supported, the second suction port (16) of the first suction port (15) opposite and coolant distributed through the the first channel (18) and the second channel (17) flows into the compression component. Spiral compressor according to Claim 1 characterized by a bottom of the shell (8) arranged oil sump (30), wherein coming from the compression component lubricating oil flows back through the first channel (18) in the oil sump (30). Spiral compressor according to Claim 1 characterized by a compensating piece (31) located inside the motor casing tube (11) and communicating with the drive shaft (3) of the motor, which in an axial direction between the casing (2) and the motor and in a radial direction between the Drive shaft (3) and a side wall of the motor casing tube (11) is arranged. Spiral compressor according to Claim 1 characterized by a sealing member (32) adapted to seal a lower end of the engine sheath tube (11). Spiral compressor according to Claim 1 characterized by a wedge formed on one of the components of the fixed spiral (5) and housing (2) and a notch in the other of the components (5) and housing (2) adapted to the wedge, the wedge and the An indentation for aligning the fixed scroll (5) and the housing (2) with each other in a radial direction and for fixing the relative position between the fixed scroll (5) and the housing (2) in a radial direction. Scroll compressor according to one of the Claims 3 to 5 characterized in that the drive shaft (3) of the motor is a stepped shaft having a first portion (37) located at one end and connected to the orbiting scroll (4), a second portion adjacent to the first portion (38) and a third portion (39) adjacent the second portion (38), wherein the diameter of the first portion is smaller than that of the second portion (38), the diameter of the second portion (38) smaller than that of the third Section (39) is, and the compensating piece (31) on the second portion (38) of the drive shaft (3) is mounted. A scroll compressor according to claim 6, characterized in that the balance piece (31) has a hub (311), via which the compensation piece (31) is attached to the drive shaft (3), a fan-shaped area (312) extending from the hub (31). 311) extends radially outward, and a radially adjoining from the outside of the fan-shaped area edge region (313). Spiral compressor according to Claim 7 characterized in that the edge portion (313) extends from the radially outer edge of the fan-shaped portion (312) in an axial direction. Spiral compressor according to Claim 1 or 2 characterized in that a support member (50), wherein the support member (50) is disposed in the motor shell tube (11) and adapted to support a lower end of the drive shaft (3) of the motor and an outer periphery of the support member (50) the engine cover tube (11) is in communication. Spiral compressor according to Claim 1 or 2 characterized in that an oil sump (30) disposed at the bottom of the sheath (8) and a support member (50) adapted to support the lower end of the drive shaft (3) of the engine and disposed inside the engine shroud tube (11) and one central ring portion (51) having a center hole and a plurality of arms (52) extending radially outwardly from the ring portion (51), at least a portion of each of the plurality of arms (52) being immersed in lubricating oil in the oil sump (30) is. Spiral compressor according to Claim 10 , characterized in that the plurality of arms (52) in each case via its outer end with the motor shell tube (11) are in communication. Scroll compressor according to one of Claims 1 to 11 , characterized in that it is the shell (8) is a cylindrical housing without constrictions.

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