CN207960933U - Scroll compressor with capacity modulation system - Google Patents

Abstract

The present disclosure relates to a scroll compressor including a compression assembly including a non-orbiting scroll member and an orbiting scroll member cooperating with each other to compress a working fluid, and a capacity adjustment system configured to adjust a capacity of the compression assembly. The non-orbiting and orbiting scroll members each include first and second scroll blades and define therebetween first and second compression chamber groups independent of each other. The capacity modulation system includes a bypass passage that selectively bypasses at least one of the first and second compression cavity sets to a suction pressure region of the scroll compressor, thereby allowing flexible and wide range modulation of the operating capacity of the compressor without sacrificing compressor pressure ratio.

Description

Screw compressor with capacity modulation

Technical field

This disclosure relates to screw compressor technical field, more particularly, to the scroll compression with capacity modulation Machine.

Background technology

The content of this part provide only with the relevant background information of the disclosure, the prior art may not constituted.

It is known that screw compressor belongs to the compressor mechanical of capacity formula compression.The compression assembly of screw compressor is usual Including determine vortex component and dynamic vortex component.In general, determine vortex component and dynamic vortex component respectively include the vortex of single molded line Blade, be fitted to each other between two volution blades (or engagingly engaging) and formed a series of compression chambers to working medium ( Referred to as working fluid, such as gaseous refrigerant) it is compressed, and compressed high pressure gas is discharged by exhaust outlet.

According to the needs of operating mode, screw compressor may include that a variety of capacity adjusting mechanisms are held with the work for changing compressor Amount.Typically, capacity adjusting mechanism may include extending through the fluid channel of scroll element selectively to provide compressor Compression pocket and another pressure area between fluid communication.For example, in the application of refrigeration system, in order to solve sub-load The demand of cold makes the pressure ratio of scroll element become smaller often through the part molded line of bypass volution blade, and compression is adjusted to reach The purpose of the displacement volume of machine, and then preferably matched with sub-load cold.

Since the molded line length of volution blade is limited, thus the adjustable model of the pressure ratio of compressor or displacement volume It encloses also very limited.For example, if this screw compressor of the relevant technologies will reach 50% displacement volume regulating power, Need scroll element that there is longer molded line, to be unfavorable for the compact designed of compressor.For this capacity regulating side Formula, it can not the larger pressure ratio requirement of accommodation.

Utility model content

Based on this, one of the disclosure be designed to provide it is a kind of it is novel, with can neatly adjust compressor The scroll compression of the capacity modulation of displacement volume.

Another object of the present disclosure be to the scroll compression with capacity modulation make it is further improve with In the displacement volume regulating power for not increasing compressor size raising screw compressor.

Another object of the present disclosure is to provide a kind of permission flexible design, the good screw compressor knot of compatibility Structure, to improve the operational efficiency of screw compressor.

According to one aspect of the disclosure, a kind of screw compressor is provided, comprising：Compression assembly, the compression group Part includes the determine vortex component and dynamic vortex component being fitted to each other to be compressed to working medium；And capacity modulation, it is described Capacity modulation is configured to that the capacity of the compression assembly is adjusted, and the determine vortex component includes the first determine vortex leaf Piece and the second determine vortex blade, the dynamic vortex component include the first dynamic vortex blade and the second dynamic vortex blade, wherein described The first compression chamber group independent of each other and the second compression chamber group are defined between determine vortex component and the dynamic vortex component, it is described Capacity modulation includes annular ring and bypass, an open end of the bypass and the first compression chamber group and One of described second compression chamber group is connected to, and another open end of the bypass can be closed or beaten by annular ring It opens to be selectively connected to the suction pressure region of the screw compressor, wherein under full-load operation state, the annular Circle sealing covers another open end of the bypass to turn off the bypass；Under capacity regulating state, Annular ring moves away from another open end to open the bypass.

In some embodiments, it is respectively formed with back pressure cavity and variable pressure chamber in the both sides up and down of annular ring, The back pressure cavity is connected to the other of the first compression chamber group and the second compression chamber group, the variable pressure chamber energy It is enough to be selectively connected to the back pressure cavity or the suction pressure region, annular ring by means of the back pressure cavity and it is described can The difference sealing covering of active force of the pressure changeable chamber in annular ring moves away from another open end.

In some embodiments, the variable pressure chamber by control valve selectively with the back pressure cavity or the suction Atmospheric pressure area is connected to, wherein when the variable pressure chamber is connected to the suction pressure region, annular ring turns off the side Road all, and when the variable pressure chamber is connected to the back pressure cavity, annular ring opens the bypass.

In some embodiments, it is formed with restriction in the side back to the dynamic vortex component of the determine vortex component The cylindrical portion of the exhaust passage of the screw compressor, the first row gas port of the first compression chamber group and second compression chamber The second exhaust port of group is connected to the exhaust passage.

In some embodiments, it is provided with check valve at the first row gas port and second exhaust port.

In some embodiments, annular ring is fitted at the peripheral surface of the cylindrical portion, annular ring packet Include the arch suitable for sealing the straight portion for another open end for covering the bypass and being spaced apart with the cylindrical portion Shape part limits the back pressure cavity, in institute in the upside of annular ring and between the arcuate part and the cylindrical portion The downside for stating annular ring limits the variable pressure chamber by the arcuate part.

In some embodiments, the back pressure cavity and the variable pressure chamber are in the determine vortex component or the dynamic whirlpool The axis projection for revolving component is in the shape of concentric ring.

In some embodiments, two volution blades of the first compression chamber group are formed and form second compression Two volution blades of chamber group are asymmetric setting.

In some embodiments, two volution blades of the first compression chamber group are formed and form second compression Two volution blades of chamber group are arranged symmetrically.

In some embodiments, the screw compressor further includes：First injection access, the first injection access structure It causes the fluid from external fluid supply apparatus being supplied to one or more of the first compression chamber group compression chamber； And the second injection access, the second injection passway structure at will the fluid from the fluid supply apparatus supplied to described One or more of second compression chamber group compression chamber, wherein the first injection access and the second injection passway structure It is closed at when corresponding compression chamber group is bypassed via the bypass to the suction pressure region.

A kind of screw compressor another aspect of the present disclosure provides comprising compression assembly, the compression group Part includes the determine vortex component and dynamic vortex component being fitted to each other to be compressed to working medium；And capacity modulation, it is described Capacity modulation is configured to that the capacity of the compression assembly is adjusted, and the determine vortex component includes the first determine vortex leaf Piece and the second determine vortex blade, the dynamic vortex component include the first dynamic vortex blade and the second dynamic vortex blade, wherein described The first compression chamber group independent of each other and the second compression chamber group are defined between determine vortex component and the dynamic vortex component, through institute The working medium for stating the compression of the first compression chamber group is discharged from first row gas port, and the working medium through the second compression chamber group compression is from second row Gas port be discharged, the capacity modulation include bypass, the first row air cavity being connected to the first row gas port and with institute State second exhaust port connection second row air cavity, the bypass by with the first row air cavity and the second row air cavity At least one of connection and make corresponding compression chamber group selection in the first compression chamber group and the second compression chamber group Ground is bypassed to the suction pressure region of the screw compressor.

In some embodiments, the determine vortex component include the determine vortex main part that removably connects and Cover board limits the first row air cavity and the second row air cavity, institute between the determine vortex main part and the cover board It states first row air cavity and the second row air cavity is separated from one another.

In some embodiments, it is provided in the determine vortex main part and presses the first row air cavity and described first Multiple capacity regulating channels of contracting chamber group connection and the second row air cavity is connected to the second compression chamber group multiple Capacity regulating channel, and in the first row air cavity and second row air cavity list is both provided with for each capacity regulating channel To valve, the check valve only allows working medium to flow into corresponding discharge chamber from the capacity regulating channel.

In some embodiments, it is formed with the first back pressure in the side back to the determine vortex main part of the cover board Chamber and the second back pressure cavity, first back pressure cavity are connected to by the first backpressure passage with the first compression chamber group, and described second Back pressure cavity is connected to by the second backpressure passage with the second compression chamber group.

In some embodiments, it is formed with inner cylinder in the side back to the determine vortex main part of the cover board Portion, middle circle canister portion and outer cylinder portion, the inner space of the inner cylindrical section with respectively from the first row air cavity and described the Two exhaust passages connection that two discharge chambers extend, limits described the between the inner cylindrical section and the middle circle canister portion One of one back pressure cavity and second back pressure cavity limit described between the middle circle canister portion and the outer cylinder portion The other of first back pressure cavity and second back pressure cavity.

In some embodiments, the axial throwing of first back pressure cavity and the second back pressure cavity on the determine vortex component Shadow is in the shape of concentric ring.

In some embodiments, it is provided with control valve in the bypass, the bypass is controlled with selectivity It turns on and off.

According to the another aspect of the disclosure, a kind of screw compressor is provided comprising compression assembly, the compression group Part includes the determine vortex component and dynamic vortex component being fitted to each other to be compressed to working medium, and the determine vortex component is fixed to institute State the shell of screw compressor and cannot be axially displaced；And capacity modulation, the capacity modulation are configured to institute The capacity for stating compression assembly is adjusted, and the determine vortex component includes the first determine vortex blade and the second determine vortex blade, institute It includes the first dynamic vortex blade and the second dynamic vortex blade to state dynamic vortex component, wherein the determine vortex component and the dynamic whirlpool The first compression chamber group independent of each other and the second compression chamber group are defined between rotation component, through the first compression chamber group compression Working medium is discharged from first row gas port, and the working medium through the second compression chamber group compression is discharged from second exhaust port, the capacity tune Section system includes bypass and the exhaust that is connected to at least one of the first row gas port and the second exhaust port Chamber, it is right in the first compression chamber group and the second compression chamber group that the bypass is made by being connected to the discharge chamber Bypass to the suction pressure region of the screw compressor to the compression chamber group selection answered.

In some embodiments, the determine vortex component include the determine vortex main part that removably connects and Cover board limits the discharge chamber between the determine vortex main part and the cover board.

In some embodiments, the discharge chamber is connected to the first row gas port, the second exhaust port with it is described The pressure at expulsion area of screw compressor is connected to.

In some embodiments, the cross section semicircular in shape of the discharge chamber.

In some embodiments, it is provided with the discharge chamber and first compression chamber in the determine vortex main part Multiple capacity regulating channels of group connection, and be both provided with unidirectionally for each capacity regulating channel in the discharge chamber Valve, the check valve only allow working medium to flow into the discharge chamber from the capacity regulating channel.

In some embodiments, it is respectively arranged at the second exhaust port and at the discharge chamber and only allows working medium The check valve of outflow.

In some embodiments, the bypass is from the discharge chamber, extends through the scroll compression The shell of machine and be connected on the outside of the shell suction pressure region pipeline form.

In some embodiments, it is provided with control valve in the pipeline, the open-minded of the bypass is controlled with selectivity And shutdown.

It can be separately for every group of vortex by using double-round scroll compression component according to the screw compressor of the disclosure Compression chamber corresponding to blade carries out capacity regulating, thus the pressure ratio without influencing another group of volution blade allows do not sacrificing Displacement volume that is flexible and adjusting compressor on a large scale, meets wanting for compressor compact designed in the case of compressor pressure ratio It asks, the efficiency and applicability of compressor are substantially increased, is with a wide range of applications.In addition, according to the scroll compression of the disclosure Contracting machine can also adjust accordingly the injection fluid supply to each injection access according to the operational mode of screw compressor, to The flexibility for improving screw compressor application, improves the efficiency of system operation.

Description of the drawings

By description referring to the drawings, the feature and advantage of one or several embodiments of the disclosure will become more Add and be readily appreciated that, in the accompanying drawings：

Fig. 1 shows the longitudinal sectional view of the screw compressor of the first illustrative embodiments according to the disclosure, wherein Bypass is closed；

Fig. 2 schematically shows according to the determine vortex component and dynamic vortex component of disclosure embodiment in working condition Under look up transverse sectional view；

Fig. 3 is the longitudinal sectional view of the compression assembly for the screw compressor for only showing Fig. 1, wherein bypass is in and beats Open state；

Fig. 4 shows the longitudinal sectional view of the screw compressor of the second illustrative embodiments according to the disclosure；

Fig. 5 shows the exploded perspective view of the determine vortex component of the screw compressor of Fig. 4；

Fig. 6 shows the vertical view that the determine vortex component of the screw compressor of Fig. 4 is laterally splitted at the position of exhaust space Stereogram；

Fig. 7 shows the longitudinal sectional view of the screw compressor of the third illustrative embodiments according to the disclosure；And

Fig. 8 shows the example perspective of the determine vortex component of the combination fluid ejection technique according to disclosure embodiment Figure.

Specific implementation mode

It is below describe to be merely exemplary in nature and be not intended to the limitation disclosure and its application or use.It should manage It solves, corresponding reference numeral indicates identical or corresponding component and feature always in attached drawing.

As described above, it has been noted that, respectively for common, determine vortex component and dynamic vortex component in the related technology It is provided with the individual pen scroll compression component of single volution blade, in the work for adjusting compressor by way of by-passing part molded line There is significant limitation when capacity.However, being each provided with two volution blades for determine vortex component and dynamic vortex component Novel double-round scroll compression component, since it has two groups of volution blades, it is possible to separately for every group of volution blade institute Corresponding compression chamber carries out capacity regulating, the pressure ratio without influencing another group of volution blade.For this purpose, the applicant is by using double Circle scroll compression component simultaneously solves the above problem by designing following compressor.

The introduction of the disclosure is suitable for being incorporated into a variety of different types of scroll compressors, including air-tight machine, spacious Open drive-type machine and non-hermetic machines.For exemplary purposes, it is complete to be shown as low-side for the screw compressor of the disclosure Close vertical vortex.That is, the drive motor and compression assembly of screw compressor are arranged at the air-breathing of seal casinghousing In pressure area.

Referring to Fig. 1, the vertical of screw compressor 100 in accordance with one embodiment of the present disclosure is shown to the illustrated example To sectional view.Compressor 100 may include the shell 110 generally closed off and the motor 120 being arranged in shell 110, driving Axis 130, main bearing seat 140 and compression assembly.

Shell 110 may include the main housing part 111 of general cylindrical shape, the top being arranged at the upper end of main housing part 111 Lid 112 and the bottom cover 113 being arranged at the lower end of main housing part 111.It is provided between head cover 112 and main housing part 111 The inner space of shell 110 is separated into suction pressure region SL and pressure at expulsion area SH by partition board 101, partition board 101.101 He of partition board Space composition pressure at expulsion area SH between head cover 112, and the space between partition board 101, main housing part 111 and bottom cover 113 Constitute suction pressure region SL.In suction pressure region, SL is provided with the inlet suction port 102 for sucking working medium, in pressure at expulsion area SH It is provided with the exhaust joint 103 for compressed working medium to be discharged.Suction pressure region SL is referred to as low pressure lateral areas as a result, Domain, and pressure at expulsion area SH is referred to as high pressure side region.Partition board 101 includes across partition board 101 to provide compression assembly The central aperture of connection between pressure at expulsion area SH.

Motor 120 may include stator 121 and rotor 122.Any suitable way may be used relative to shell in stator 121 Body 110 is fixed.The radially inner side in stator 121 is arranged in rotor 122, and while being powered can rotate in stator 121.Drive shaft 130 extend through rotor 122 and can rotate with rotor 122.The upper end of drive shaft 130 is via base bearing by leading Bearing block 140 supports, and lower end is supported via lower bearing by step 104.Main bearing seat 140 and step 104 are fixed It is connected to the main housing part 111 of shell 110.Grease channel (not shown) is formed in drive shaft 130, by lubricating oil The parts such as main bearing seat 140, compression assembly on top are supplied to provide from the oil sump 105 positioned at 110 lower part of shell Lubrication.

Compression assembly is supported by main bearing seat 140 and includes determine vortex component 150 and dynamic vortex component 160.Determine vortex Component 150 can be fixed relative to shell 110 in any suitable manner, such as be secured by bolts in main bearing seat 140.Shape Coordinate the hub 161 in dynamic vortex component 160 at eccentric crank pin 131 in one end of drive shaft 130, with flat part In, to drive dynamic vortex component 160 relative to 150 translation rotation of determine vortex component (that is, the central axis of dynamic vortex component 160 Central axis around determine vortex component 150 rotates, but dynamic vortex component 160 itself will not be rotated around the central axis of itself), And then realize the compression of working medium.Above-mentioned translation rotation is slided by the cross engaged with determine vortex component 150 and dynamic vortex component 160 Ring 106 is realized.Cross slip-ring 106 can be arranged between dynamic vortex component 160 and main bearing seat 140, can also be arranged fixed Between scroll element 150 and dynamic vortex component 160.

Unlike individual pen scroll compression modular construction, according to the determine vortex component 150 of the screw compressor of the disclosure Respectively there are two volution blades for tool with dynamic vortex component 160.For example, according to the double-round of disclosure embodiment shown in Fig. 2 One exemplary transverse sectional view of scroll compression component can see, and include first according to the determine vortex component 150 of the disclosure Determine vortex blade 151 and the second determine vortex blade 152, and dynamic vortex component 160 includes the first dynamic vortex blade 161 and second Dynamic vortex blade 162.First dynamic vortex blade 161 is nibbled with the first determine vortex blade 151 and the second determine vortex blade 152 respectively Ground engagement is closed to form the first compression chamber group C1.First compression chamber group C1 may include being located at the first dynamic vortex blade 161 The first sub- compression chamber group of first sub- compression chamber group C1A of radially inner side and radial outside positioned at the first dynamic vortex blade 161 C1B.Similarly, the second dynamic vortex blade 162 respectively with the first determine vortex blade 151 and the second determine vortex blade 152 engagingly Engagement is to form the second compression chamber group C2.Second compression chamber group C2 may include the radial direction positioned at the second dynamic vortex blade 162 The second sub- compression chamber group C2B of second sub- compression chamber group C2A of inside and radial outside positioned at the second dynamic vortex blade 162. First compression chamber group C1 and the second compression chamber group C2 carry out independently of one another squeeze operation and include respective air inlet section and Exhaust section.It can be arranged at approximately radial opposite position on the periphery of determine vortex component 150 and be pressed respectively with described first Contracting chamber group C1 and corresponding first air entries of the second compression chamber group C2 and the second air entry.Other vortexs are designed, the One air entry and the second air entry may be at other positions, and can be merged into an air entry.It can be in determine vortex portion It is arranged on the determine vortex end plate 158 of part 150 corresponding with the first compression chamber group C1 and the second compression chamber group C2 respectively First row gas port O1 and second exhaust port O2 is compressed for being discharged respectively through the first compression chamber group C1 and the second compression chamber group C2 The high pressure gas arrived.First compression chamber group C1 and the second compression chamber group C2 (or more specifically each sub- compression chamber group) is respective May include being located substantially at radial outside and being in the low pressure chamber of pressure of inspiration(Pi), be located substantially at radially inner side and in exhaust The middle pressure chamber of the high pressure chest and pressure of pressure therebetween.With the operation of screw compressor, it is located at outermost radial outside Low pressure chamber gradually move to radially intermediate part from radial outside along the molded line direction of volution blade and become middle pressure chamber, with It is moved afterwards to radially inner side further along molded line direction and becomes high pressure chest, finally by the obtained high pressure gas of compression from corresponding Exhaust outlet discharge.

The double-round screw compressor so constructed can switch between oepration at full load pattern and capacity regulating pattern. Under oepration at full load pattern (that is, by two pairs of volution blades compressed to working medium simultaneously), two compression chamber groups C1 and C2 into The compression of row working medium.Under capacity regulating pattern, a compression chamber group in two compression chamber groups C1 and C2 (such as the first compression Chamber group C1) it can selectively be bypassed to suction pressure region so that this bypassed compression chamber group substantially will not be to work Matter is compressed, so as to realize the reduction of compressor displacement and the reduction of power consumption.

As it is shown in Fig. 1 go out embodiment screw compressor 100 longitudinal sectional view shown in, whirlpool can determined The one or more bypass BP in axial direction extending through determine vortex end plate, bypass BP are set in rotation end plate 158 May include the first open end being opened in one of the first compression chamber group C1 compression chambers and being opened in determine vortex end plate 158 The second open end in top surface.Referring to Fig. 1 and Fig. 3, determine vortex component 150 may include at the top surface of its end plate 158 The exhaust passage 157 limited by cylindrical portion 156.The first row gas port O1 and second exhaust port O2 of double-round scroll compression component can be with It is connected to the pressure at expulsion area SH positioned at 101 other side of partition board via the central aperture in exhaust passage 157 and partition board 101, with The high pressure gas compressed via compression assembly is discharged to by exhaust joint 103 outside screw compressor.Similarly, it is Prevent the fluid of pressure at expulsion area SH from flowing back into air-breathing via first row gas port O1 and second exhaust port O2 in some cases Check valve 107 can be arranged in pressure area SL at first row gas port O1 and second exhaust port O2, and check valve 107 can be arbitrary Check valve of appropriate type, such as valve block, spring check valve etc..

Annular ring 180 is fitted at the peripheral surface of cylindrical portion 156, and is such as exemplarily illustrated in Fig. 1 and Fig. 3 , annular ring 180 includes the straight portion contacted with the top surface forming face of determine vortex component 150 and is spaced with cylindrical portion 156 The central arch portion opened.First annular recess portion is limited between the central arch portion and cylindrical portion 156 of annular ring 180, And the second annular recess is limited between the central arch portion of annular ring 180 and the top surface of determine vortex component 150. First annular recess portion and the second annular recess are isolated from each other.Closed back pressure cavity 181 can be formed in first annular recess portion, and And the second closed variable pressure chamber 182 can be formed in the second annular recess.Back pressure cavity 181 can be via backpressure passage (not shown) is connected to one of compression assembly middle pressure chamber and establishes back pressure P1 wherein.As a result, in compression assembly It keeps determine vortex component 150 and dynamic vortex component 160 to abut against each other during compressed gas, while the axis of scroll element being provided To flexibility, so that it is guaranteed that operation and floating seal that compressor is safe and reliable.In this embodiment, in bypass BP and In the case of one compression chamber group C1 connection (that is, first compression chamber group C1 of bypass), backpressure passage preferably with the second compression chamber group A middle pressure chamber of C2 is connected to, and vice versa, therefore ensures that the pressure remained steady of the back pressure cavity 181 when carrying out capacity regulating. Second variable pressure chamber 182 can be connected to external pressure source (not shown) and establish pressure P2 wherein.As shown, Since back pressure cavity 181 and the second variable pressure chamber 182 are built up in the two opposite sides of annular ring 180 respectively, vertically to difference Direction applies direction opposite effect power F1 and F2 on annular ring 180.Directed force F 1, the size of F2 and pressure P1, P2 and its Active area positive correlation, that is, meet F=P*S.

When the directed force F 1 straight down that pressure P1 applies on annular ring 180 is more than pressure P2 on annular ring 180 When the directed force F 2 straight up applied, the holding of annular ring 180 is pressed on the top surface of determine vortex end plate 158, to ring The straight portion of shape circle 180 covers and closes off the second open end of bypass BP, and bypass BP closes (referring to Fig. 1), whirlpool Rotation compressor 100 is in full load operational mode.

When the directed force F 1 straight down that pressure P1 applies on annular ring 180 is less than pressure P2 on annular ring 180 The directed force F 2 straight up and directed force F 2 applied is more than directed force F 1 with the gravity of annular ring 180 in side straight down When upward resultant force, (referring to Fig. 3), thus annular ring 180 will be lifted under the action of power F2 far from determine vortex component 150 The second open end of bypass BP is set to open and be connected to the suction pressure region SL of surrounding.At this point, being connected to bypass BP Compression chamber in pressure become external lower pressure, i.e. pressure of inspiration(Pi) P3, to realize the compressor operating capacity of reduction Adjusting.

Herein, the opening and closing of bypass BP can be adjusted and the external pressure by controlling external pressure source The pressure P2 of the second variable pressure chamber 182 of source connection is realized.The case where the active area of pressure P1 and P2 immobilize Under, so that directed force F 2 is more than the active force in vertically downward direction on direction straight up by increasing pressure P2 The resultant force (once operating mode determines that the size of the resultant force is substantially constant) of F1 and the gravity of annular ring 180, it is logical to open bypass Road BP；Make directed force F 2 be less than the resultant force of directed force F 1 and the gravity of annular ring 180 by reducing pressure P2, it is logical to close bypass Road BP, and pressure P2 is smaller, directed force F 2 is just smaller, and thus, it is possible to more preferably by means of above-mentioned resultant force by annular ring 180 Straight portion is sealed against the top of the second open end of bypass BP.

For example, in embodiment as shown in Figure 1, the active area of pressure P1 can be designed to less than pressure P2's Active area so that directed force F 2 is just enough to overcome directed force F 1 and annular ring 180 in the case of pressure P1 and P2 equal The resultant force of gravity and open bypass BP, and make the bypass BP in the case where pressure P2 is equal to pressure of inspiration(Pi) P3 It closes.Thus, it is possible to which the by-passing valve using such as solenoid valve etc makes the second variable pressure chamber 182 be connected to back pressure cavity 181 (bypass is logical with making the second variable pressure chamber 182 be connected to outside suction pressure region SL for the working condition of (bypass BP is opened) Road BP close) working condition between switch over.Furthermore it is possible to when controlling the break-make of bypass BP by impulse modulation Between.

Although illustrating only the bypass in axial direction extending through determine vortex end plate 158 in the embodiment of Fig. 1 BP, but optionally, bypass BP can also include angling hole (that is, the axis relative to determine vortex component 150 obliquely prolongs The hole stretched), axial hole and be arranged in determine vortex end plate 158 and the transverse holes that are in fluid communication with each other are (that is, perpendicular to determine vortex portion The axis of part 150 and the hole extended) combination or axial hole and angling hole combination (not shown).Also, bypass BP is also It branch, the branch that multiple first open ends are corresponded to form second open end can be bypassed in determine vortex end plate 158 Path.That is, can be the installation position of the second open end and annular ring 180 that do not change bypass BP the case where Under, bypass BP is connected to as needed by designing travel paths of the bypass BP in determine vortex end plate 158 Low pressure in first row gas port O1 and/or second exhaust port O2 and the first compression chamber group C1 and/or the second compression chamber group C2 The first open end of one of chamber, middle pressure chamber and high pressure chest or more persons.Therefore, the specific set-up mode of bypass can To be adjusted according to actual conditions, it is not limited with structure described herein.

According to first embodiment, screw compressor 100 can bypass the first compression chamber group C1 or the second compression chamber group In the case of C2 the capacity regulating for example from 50%-100% is realized further combined with the make-and-break time of control bypass BP.

It is understood that it is that volution blade is symmetrical that switching of the above-mentioned compressor capacity between 50% and 100% is corresponding The compressor of (the molded line length of volution blade identical, symmetrical shape), and for two asymmetric compressors of volution blade Situation can also realize other capacity ratios, such as can switch between 70% and 100%.

In this embodiment, annular ring 180 for example can be excellent by metal material or other suitable cast molds Selection of land annular ring 180 by with scroll element 150,160 identical cast molds.Furthermore, it is possible in the bottom table of annular ring 180 Gasket is set on face or on the top surface of determine vortex end plate 158 and preferably around the second open end of bypass BP Circle, in favor of ensuring that bypass BP's is closed, the effect of to improve compressor.It is appreciated that with 150 shape of determine vortex component It is also not necessarily limited to the configuration shown by the disclosure at the configuration of annular ring 180 in sealing contact, but can be formed as any and be suitble to Configuration, as long as it can be suitble to establish pressure chamber in two opposite sides while closing bypass BP.In addition, can To understand, although not shown in the drawings, to ensure determine vortex component 150 and annular ring 180 uniform stressed in circumferential direction, back pressure Chamber 181 and the second variable pressure chamber 182 are all formed as annular and its axis projection on determine vortex component 150 is in concentric ring Form.

Next, by the screw compressor with reference to fig. 4 to fig. 6 description according to the second illustrative embodiments of the disclosure 200.In addition to the first number is by different embodiments serial number, same reference numeral will be continued to use to indicate and the first embodiment party The same or analogous component of formula, and omission is described in greater detail.

As shown in figure 4, in order to realize pressure-variable ratio (VVR), it is different from the screw compressor 100 of first embodiment It is that the determine vortex component 250 of screw compressor 200 uses split structure, that is, includes determine vortex main part 253 and cover board 254, the two is fixed together for example, by bolt (not shown).Determine vortex main part 253 is including determine vortex end plate 258 and vertically In the first determine vortex blade and the second determine vortex blade that determine vortex end plate 258 extends.In conjunction with Figures 5 and 6, in cover board 254 and determine Be formed with generally circular exhaust space CS between vortex main part 253, exhaust space CS in the embodiment as shown by The recess portion 254a of 254 downside of cover board is formed, it should be appreciated that exhaust space CS can also be by determine vortex main part 253 The recess portion of side is formed, or is collectively formed by cover board 254 and determine vortex main part 253.It is formed with lattice in recess portion 254a 254b, lattice 254b are extended downwardly from cover board 254.It is understood that lattice 254b can also be from determine vortex main part 253 upwardly extend or are collectively formed by cover board 254 and determine vortex main part 253.As shown in fig. 6, lattice 254b is determining whirlpool It is passed through between first row gas port O1 and second exhaust port O2 on rotation end plate 258, to which exhaust space CS is divided into first Discharge chamber CS1 and second row air cavity CS2, wherein, the first row air cavity CS1 and first row gas port O1 on determine vortex end plate 258 Connection, second row air cavity CS2 are connected to the second exhaust port O2 on determine vortex end plate 258.In addition, referring to Fig. 4, in cover board 254 Substantial middle position be also correspondingly provided with the first exhaust passage being connected to first row air cavity CS1 (since cutting angle is former Cause is not shown in figure) and the second exhaust channel 257a that is connected to second row air cavity CS2.In first exhaust passage and second row It is respectively set outside gas channel and (illustrates only a check valve being connected to second exhaust channel 257a there are one check valve CV CV), the discharge pressure of two exhaust outlets is set as the system pressure outside check valve CV (that is, being provided with compressor 1 The condenser inlet pressure of system), the maximum pressure of first row air cavity CS1 and second row air cavity CS2 are all by check valve as a result, System pressure outside CV determines.It will be understood by those skilled in the art that the above-mentioned list being arranged on cover board 254 can be saved To valve CV, but setting is used to control exhaust at first row gas port O1 and second exhaust port O2 on determine vortex end plate 258 Check valve.

Referring to Fig. 4 and Fig. 6, in each chamber in first row air cavity CS1 and second row air cavity CS2, in determine vortex main body It is respectively set in portion 253 there are three check valve V, and it is correspondingly provided with a capacity tune in the lower section of each check valve V Channel VL is saved, corresponding compression chamber group C1 or C2 are led to.Specifically, the appearance corresponding to the check valve V in first row air cavity CS1 Amount adjusts channel VL1 and leads to the first compression chamber group C1, and the capacity regulating corresponding to the check valve V in second row air cavity CS2 is logical Road VL2 leads to the second compression chamber group C2, and these capacity regulating channels VL1, VL2 respectively lead to the compression in different pressures In chamber.Fig. 1 shows that portion capacity adjusts channel VL1 and VL2.It is understood that different number and the list of position can also be arranged To valve V and capacity regulating channel VL, to selectively communicate with the compression chamber for being in different pressures.Pressure in corresponding compression chamber When power is more than the pressure above check valve V (pressure in first row air cavity CS1 or second row air cavity CS2), check valve V can Uniaxially open upward.And the pressure above check valve V is when being more than the pressure in compression chamber, check valve V is closed.That is, unidirectional Valve V only allows working medium uniaxially to be flow in corresponding discharge chamber from compression chamber.

When compressor 1 is capable of providing larger compression ratio (i.e. larger discharge pressure) however the compression ratio of system needs When smaller (i.e. system pressure is smaller), if working medium is compressed and in first row gas port O1 and second exhaust port by compression assembly completely O2 is discharged, then working medium will be overly compressed then demi-inflation again, cause certain power loss.However it is being provided with check valve In the case of V, when working medium compression partway when, the pressure of corresponding compression chamber may be at some or multiple check valve V Reach emission request, that is, reach system pressure, corresponding check valve V and above-mentioned check valve CV can be opened at this time, and working medium carries It is preceding discharge and without excess compression.On the other hand, the compression ratio being capable of providing when compressor is relatively small, and the pressure that system needs Contracting than it is relatively large when, the pressure at first row gas port O1 and second exhaust port O2 is likely less than system pressure, can not open lid Check valve CV on plate 254, at this time pressure gathered in first row air cavity CS1 and second row air cavity CS2, check valve CV is kept It closes, and compression assembly continues to compress more working medium, the pressure in first row air cavity CS1 and second row air cavity CS2 More than the system pressure outside check valve CV, thereby, it is possible to provide different rows in an adaptive way with same compression assembly Go out pressure.

As shown, being additionally provided with bypass BP in determine vortex end plate 258.Bypass BP be axial hole with The form of the combination of transverse holes (that is, perpendicular to hole for extending of axis of determine vortex component 150), and have and first exhaust First open end of chamber CS1 connections and the second open end being connected to suction pressure region SL, so as to selectively by first Discharge chamber CS1 is connected to suction pressure region SL, that is, so that pressure (and the first compression chamber group C1 in first row air cavity CS1 Pressure) it is reduced to pressure of inspiration(Pi).For example, can control bypass BP's by the switch valve (not shown) of solenoid valve etc Break-make.

In the state of compressor full-load operation, bypass BP is to close.When bypass BP is opened, first The pressure of discharge chamber CS1 becomes external lower pressure, i.e. pressure of inspiration(Pi).Due to the pressure reduction of first row air cavity CS1, first All check valve V in discharge chamber CS1 are opened, the first compression chamber group C1 for being connected with first row air cavity CS1 (including be located at First sub- compression chamber group C1A and C1B of the radially inner and outer both sides of the first dynamic vortex blade) in pressure release within a very short time It puts, becomes pressure of inspiration(Pi).Thus, it is possible to using only the second compression chamber group C2 (include positioned at the second dynamic vortex blade diameter it is inside Second sub- compression chamber group C2A and C2B of outer both sides) compress working medium.At this point, for the double-round whirlpool with symmetrical volution blade For revolving compressor, the capacity of compressor becomes half when full-load operation state.By controlling such as bypass BP's The capacity regulating for example from 50%-100% may be implemented in make-and-break time.As described above, due to first row air cavity CS1 and Two discharge chamber CS2 are isolated by lattice 254b, can be easily by the way that another bypass is arranged for second row air cavity CS2 With corresponding control valve, to realize from the capacity regulating of 0%-100%.Further, it is also possible to use asymmetric volution blade reality Other existing capacity ratios.

Further, as shown in Figure 4 and Figure 5, in the upside of the cover board 254 of the determine vortex component 250 of second embodiment Limit two back pressure cavities, i.e. the first back pressure cavity 281a and the second back pressure cavity 281b, wherein the first back pressure cavity 281a is via first Backpressure passage 278 is connected to the first compression chamber group C1, and the second back pressure cavity 281b is via the second backpressure passage 279 and the second compression chamber Group C2 connections.For this purpose, cover board 254 includes：Substrate 254e, above-mentioned recess portion 254a, first exhaust passage (not shown) and Two exhaust passage 257a are both formed in substrate 254e；The inner cylindrical section 254g upwardly extended from substrate 254e, inner cylindrical section First exhaust passages and second exhaust channel of the 254g on substrate 254e, that is, first exhaust passage and second exhaust channel Positioned at the inner radial of inner cylindrical section 254g, the exhaust in first exhaust passage and second exhaust channel is by inner cylindrical section 254g's Inner space formed exhaust passage 257 collect and with the central aperture of partition board 201 and the pressure at expulsion area SH of the top of partition board 201 It is connected to and is in system pressure；Outer cylinder portion 254h extends and concentric with inner cylindrical section 254g from the periphery of substrate 254e Ground is arranged；And the middle circle canister portion 254j between inner cylindrical section 254g and outer cylinder portion 254h.In inner cylindrical section 254g The first back pressure cavity 281a is limited between middle circle canister portion 254j, is limited between middle circle canister portion 254j and outer cylinder portion 254h Make the second back pressure cavity 281b.The axial direction of first back pressure cavity 281a and the second back pressure cavity 281b on determine vortex component 250 as a result, Projection, so as to provide uniform back pressure in circumferential direction, prevents determine vortex component 250 in the form of concentric ring It rolls.As mentioned above, back pressure is established to ensure the safe and reliable operation of compressor and floating seal.

Can by change two back pressure cavities 281a and 281b effective area (i.e. the back pressure cavity is in determine vortex component 250 On axial projective area) or change the position of compression chamber that backpressure passage is connected to determine back pressure that back pressure cavity can be provided Power.

It is understood that this split type knot that determine vortex component 250 is formed by determine vortex main part 253 and cover board 254 Structure is intended merely to facilitate setting check valve V, using other kinds of check valve or is being not provided with check valve V And in the case of the VL of capacity regulating channel, the determine vortex component of integral type may be used.At this point, being retouched in the above embodiment The feature of the determine vortex main part 253 and cover board 254 stated is understood as being set up directly on integrated determine vortex component.Example Such as, the first back pressure cavity and the second back pressure cavity are formed in the upside of determine vortex component, and bypass BP and backpressure passage are all It is arranged in determine vortex end plate.

The embodiment of Fig. 1 and Fig. 4 provides the example arrangement of compressor of the scroll element with axial elasticity.Under Face, by the screw compressor 300 with reference to Fig. 7 descriptions according to disclosure third embodiment.With the scroll compression of first embodiment Unlike contracting machine 100,200, screw compressor 300 fixes the knot of (that is, not having axial elasticity) using determine vortex component Structure.Therefore, it will be described below mainly for these differences.

In screw compressor 300 shown in Fig. 7, determine vortex component 350 is fixed to shell 310 by holder 301 by does not have There is axial displacement.Holder 301 can be arranged to be substantially flush with the top surface of determine vortex component 350.Holder 301, determine vortex component Space composition pressure at expulsion area SH between 350 and head cover 312, and the sky between holder 301, main housing part 311 and bottom cover 313 Between constitute suction pressure region SL.

As shown in fig. 7, due to not providing axial elasticity, the top of determine vortex component 350 directly connects with pressure at expulsion area SH It is logical, and it is not provided with back pressure cavity, floating seal etc. and the relevant component of axial elasticity.With the screw compressor of second embodiment 200 is similar, and the determine vortex component 350 of screw compressor 300 uses split structure, that is, include determine vortex main part 353 and Cover board 354, the two is fixed together for example, by bolt.Cover board 354 for example can be semicircular, in cover board 354 and determine whirlpool Rotation main part 353 between be formed with discharge chamber CS, discharge chamber CS in the embodiment shown in Fig. 7 only with the first compression chamber group The first row gas port O1 connection being located on determine vortex end plate 358 of C1, without being located at determine vortex end with the second compression chamber group C2 Second exhaust port O2 connections on plate 358.As shown, second exhaust port O2 leads directly to pressure at expulsion area SH.It can distinguish One check valve CV is set on second exhaust port O2 and cover board 354, the discharge pressure of two exhaust outlets O1, O2 are set as System pressure outside check valve CV, as a result, the maximum pressure of second exhaust port O2 and discharge chamber CS all by check valve outside System pressure determines.

In addition, it is similar with the screw compressor 200 of second embodiment, in discharge chamber CS, in determine vortex main part 253 On several check valve V can be set, and be arranged in correspondence with a capacity regulating channel in the lower section of each check valve V, this A little capacity regulating channels are respectively led in the compression chamber in different pressures of the first compression chamber group C1, to selectively communicate with place In the compression chamber of different pressures, pressure-variable ratio (VVR) is realized.When working medium compression partway when, as needed, some or it is multiple The pressure of corresponding compression chamber may have reached emission request at check valve V, that is, reach system pressure, corresponding at this time unidirectional Valve V and above-mentioned check valve CV can be opened, and working medium is discharged and in advance without excess compression.

As shown in fig. 7, discharge chamber CS is also connected to via bypass BP with suction pressure region SL.In this embodiment, Bypass BP is not arranged in the form of the intercommunicating pore in determine vortex end plate, but is provided in the form of individual pipeline.It should Since pipeline extend through the shell 310 of compressor 300 and from shell 310 leading to the first open end in discharge chamber CS Outside extends towards suction pressure region SL, eventually terminates at and is connected to the suction pressure region SL of 310 inside of shell across shell 310 The second open end.The control valve 308 of such as solenoid valve etc is provided in pipeline, to control discharge chamber CS and pressure of inspiration(Pi) The connection of area SL.Control valve 308 is opened, and discharge chamber CS is connected to suction pressure region SL, the pressure reduction in discharge chamber CS to suction Atmospheric pressure, all check valve V in discharge chamber CS are opened, the pressure in the first compression chamber group C1 being connected with discharge chamber CS Release, becomes pressure of inspiration(Pi).Thus, it is possible to compress working medium using only the second compression chamber group C2, the volume of compressor becomes complete Half when load operating conditions.Further, by control bypass BP switch off time, may be implemented for example from The capacity regulating of 50%-100%.

Certainly, in the embodiment shown in figure, according to the range and size of required discharge chamber CS, cover board 354 can be with structure Other suitable shapes are caused, and discharge chamber CS can be only connected to the second compression chamber group C2.It is also contemplated that for the second pressure Another discharge chamber, bypass and corresponding control valve is arranged in contracting chamber group C2.Implement for example, cover board 354 can be similar to second Cover board 254 in mode, to form two discharge chambers.Bypass BP can be with branch, and three-way control valve may be used Connection selectively to provide pressure of inspiration(Pi) is connected to disconnection.The second compression chamber group C2 can also be bypassed as a result, to air-breathing Pressure area SL is to carry out capacity regulating, alternatively, the first compression chamber group C1 and the second compression chamber group C2 can be made all bypassed, from And carry out the larger range of capacity regulating from 0%-100%.

Although showing that the second open end of bypass BP is connected to suction pressure region across main housing part 311 in Fig. 7 SL, but optionally, the second open end of bypass BP can be communicates directly to air inlet pipeline, such as be communicated to inlet suction port At 302.

According to the screw compressor of disclosure three of the above illustrative embodiments, by using double-round scroll compression component And allow displacement volume that is flexible in the case where not sacrificing compressor pressure ratio and adjusting compressor on a large scale, meet compressor The requirement of compact designed, the efficiency and applicability of compressor are substantially increased, is with a wide range of applications.

In addition to this, it is known that in order to adapt to the variation of screw compressor institute application environment, in individual pen screw compressor There is a fluid ejection technique through application, i.e., is sprayed by a series of one or more of compression chambers to screw compressor compression chamber Working fluid helps to reduce delivery temperature, improves pressure ratio and/or increases enthalpy difference etc., to ensure system operation reliability While improve heating/refrigerating capacity, improve system effectiveness.In general, fluid ejection technique is for example, by heat exchanger, swollen Swollen valve, economizer etc. to the gas that is discharged from screw compressor in the process of processing, by a portion central fluid (example Such as overheated gas or liquid from economizer) it is ejected into screw compressor participates in compression process again, it is achieved in institute Need purpose.

But to make cold maximize, the spray-hole for carrying out this fluid injection generally requires in the outer part to be arranged as possible, together When be arranged again within compression chamber enclosed point, therefore, for be designed to by bypass volution blade part molded line hold The individual pen scroll compression component adjusted is measured, will be unable to be normally carried out fluid injection while capacity regulating, thus is unfavorable for pressing The optimization of contracting machine integral working.As described above, since double-round scroll compression component can be separately for every group of vortex Compression chamber corresponding to blade carries out operation of the capacity regulating without influencing another group of volution blade, therefore allows in capacity regulating While for another group of volution blade be normally carried out fluid injection.

As described below, in the double-round screw compressor as above designed can also applicating fluid spraying technique, And fluid ejection technique can be used in combination with capacity modulation technique discussed above, be answered so that screw compressor is better achieved Flexibility, the raising of system effectiveness and/or the reduction of component costs.

In accordance with one embodiment of the present disclosure, as shown in figure 8, whirlpool can be determined in determine vortex component 150,250,350 The first injection access EVI1 of setting and the second injection access EVI2 on end plate 158,258,358 is revolved, outside will be come from respectively Fluid supply apparatus (not shown) fluid supplied to the first compression chamber group C1 and the second compression chamber group C2 (for example, being supplied to Respective middle pressure chamber).Optionally, the first injection access EVI1 and the second injection access EVI2 can be disposed in such a manner：Fixed It opens up and is respectively communicated in the first compression chamber group C1 and the second compression chamber group C2 accordingly on vortex end plate 158,258,358 Compression chamber (such as middle pressure chamber) injection axial hole AH1 and AH2 and the week from the determine vortex end plate 158,258,358 Face extends to the injection transverse holes (part that can see in such as Fig. 8) of described injection axial hole AH1, AH2.As a result, by this Injection axial hole is in fluid communication with each other to lead to constitute described first and spray the injections of access EVI1 and second with transverse holes are sprayed Road EVI2, so as to which corresponding first compression chamber group C1 or the second compression chamber group C2 will be introduced from external fluid.Certainly, The first injection access EVI1 and the second injection access EVI2 can also be set using other modes, not retouching with the disclosure It states and is limited.Can be that the control valve of such as switch valve is respectively arranged to control in the first injection access EVI1 and the second injection access EVI2 Beginning, end and/or the emitted dose of fluid injection processed.

When enabling bypass BP (not shown) pair the first compression chamber groups C1 is bypassed, it is connected to bypass The first compression chamber group C1 be substantially not involved in the compression to working medium, it is advantageous to be cut to the first compression chamber group C1 Fluid injection supply, with reduce energy consumption, improve effect.In this case, the switch valve of control bypass BP and control The switch valve of first injection access EVI1 can be arranged to take predetermined operation.For example, according to the disclosure embodiment party Formula can be provided with the first switch valve V1 for being used to open or closing the first injection access EVI1, and institute on screw compressor Stating first switch valve V1 can be controlled so as to：It is closed while opening the bypass BP, to block the fluid to supply Answer device to the fluid injection supply of corresponding first injection access EVI1；It, can be with and after closing the bypass BP It is opened according to the predetermined operating mode of compressor, to allow the fluid from the fluid supply apparatus to be provided to first spray Penetrate access EVI1.Electromagnetic switch valve may be used in first switch valve.

The second switch valve opened or closed for the second injection access EVI2 can be provided, so as to independently of the first spray Access EVI1 is penetrated selectively to block or allow the fluid injection of the fluid supply apparatus to the second injection access EVI2.To be controlled respectively by two groups of switch valves in corresponding first injection access EVI1 and the second injection access EVI2 Fluid injection is supplied.

Further, it is also possible to which flow control valve is arranged between the first switch valve and the fluid supply apparatus, it is used for Adjust the flow for the fluid injection supplied from the fluid supply apparatus.Further, it is also possible to be provided with for bypass BP's The third switch valve of opening and closing.Optionally, the second switch valve and third switch valve may each be electromagnetic switch valve.

As a result, under the oepration at full load pattern of screw compressor, can control first switch valve and second switch valve with It opens to the fluid injection supply of the first injection access EVI1 and the second injection access EVI2.And flow control valve can be controlled To adjust the fluid injection supply of fluid supply apparatus.Meanwhile can control third switch valve makes it keep bypass BP Closing, so as to realize the fluid injection under oepration at full load pattern.And when needing to carry out capacity regulating, it can control Third switch valve opens bypass BP and at the same time can control first switch valve and be cut to the first injection access EVI1's Fluid injection is supplied, and only so that second switch valve stays open.Thus, it is possible to only to keeping while carrying out capacity regulating The compression chamber group of squeeze operation carries out fluid injection, the effect of so as to avoid the excess waste of resource, improve system.

Using above-mentioned configuration, it is only necessary to two injection accesses and corresponding be arranged on determine vortex component 150,250,350 Bypass is all realized the control that is open and shut off of these accesses by other switch valve or control valve, that is, passes through electromagnetism The mode of control is realized.Therefore, such embodiment will not bring excessive variation to scroll compressor structure, particularly advantageous In being improved to existing double-round screw compressor and enhancing efficiency.Simultaneously as can pass through to the control of individual channel Solenoid valve carries out, and therefore, is conducive to the further integration Management and Comprehensive Control of the system that screw compressor is applied.

Alternatively it is possible to which the mechanical valve knot of the fluid injection supply for controlling the first injection access EVI1 is arranged Structure, to close the first injection access EVI1 when the bypass BP is opened, to reduce answering for system control logic Polygamy improves the reliability of system operation, reduces cost.

Various embodiments and the modification of the disclosure have been described in detail above, but those skilled in the art should manage Solution, the disclosure are not limited to above-mentioned specific embodiment and modification but may include other various possible combinations and knot It closes.Other modifications and change are may be effected by one skilled in the art without departing from the spirit and scope of the disclosure Body.All these modifications and variant are both fallen in the scope of the present disclosure.Moreover, all components described here can be by other Technical equivalent component replaces.

Claims (22)

1. a kind of screw compressor (100), including：

Compression assembly, the compression assembly include being fitted to each other with the determine vortex component (150) compressed to working medium and dynamic whirlpool Revolve component (160)；And

Capacity modulation, the capacity modulation are configured to that the capacity of the compression assembly is adjusted,

It is characterized in that,

The determine vortex component includes the first determine vortex blade (151) and the second determine vortex blade (152), the dynamic vortex component Including the first dynamic vortex blade (161) and the second dynamic vortex blade (162), wherein the determine vortex component and the dynamic vortex The first compression chamber group (C1) independent of each other and the second compression chamber group (C2) are defined between component,

The capacity modulation includes annular ring (180) and bypass (BP), an open end of the bypass with One of the first compression chamber group and described second compression chamber group are connected to, and another open end of the bypass can be by Annular ring is closed or is opened to be selectively connected to the suction pressure region of the screw compressor (SL), wherein complete Under load operating conditions, annular ring sealing covers another open end of the bypass to turn off the bypass Access；Under capacity regulating state, annular ring moves away from another open end to open the bypass.

2. screw compressor according to claim 1, wherein be respectively formed with back pressure in the both sides up and down of annular ring Chamber (181) and variable pressure chamber (182), the back pressure cavity with it is another in the first compression chamber group and the second compression chamber group One is connected to, and the variable pressure chamber can be selectively connected to the back pressure cavity or the suction pressure region, the annular Enclose the difference sealing covering or mobile remote of the active force by means of the back pressure cavity and the variable pressure chamber in annular ring From another open end.

3. screw compressor according to claim 2, wherein the variable pressure chamber by control valve selectively with institute State back pressure cavity or suction pressure region connection, wherein described when the variable pressure chamber is connected to the suction pressure region Annular ring turns off the bypass, and when the variable pressure chamber is connected to the back pressure cavity, annular ring opens institute State bypass.

4. screw compressor according to claim 2 or 3, wherein in the determine vortex component back to the dynamic vortex The side of component is formed with the cylindrical portion (156) for the exhaust passage (157) for limiting the screw compressor, first compression chamber The first row gas port (O1) of group and the second exhaust port (O2) of the second compression chamber group are connected to the exhaust passage.

5. screw compressor according to claim 4, wherein be provided at the first row gas port and second exhaust port Check valve (107).

6. screw compressor according to claim 4, wherein annular ring is fitted in the peripheral surface of the cylindrical portion Place, annular ring include be suitable for sealing another open end for covering the bypass straight portion and with the circle Canister portion arcuate part spaced apart limits in the upside of annular ring and between the arcuate part and the cylindrical portion institute Back pressure cavity is stated, the variable pressure chamber is limited by the arcuate part in the downside of annular ring.

7. screw compressor according to claim 2 or 3, wherein, the back pressure cavity and the variable pressure chamber are described The axis projection of determine vortex component or the dynamic vortex component is in the shape of concentric ring.

8. a kind of screw compressor (200,300), including：

Compression assembly, the compression assembly include be fitted to each other determine vortex component (250,350) to be compressed to working medium and Dynamic vortex component (260,360)；And

Capacity modulation, the capacity modulation are configured to that the capacity of the compression assembly is adjusted,

It is characterized in that,

The determine vortex component includes the first determine vortex blade (151) and the second determine vortex blade (152), the dynamic vortex component Including the first dynamic vortex blade (161) and the second dynamic vortex blade (162), wherein the determine vortex component and the dynamic vortex The first compression chamber group (C1) independent of each other and the second compression chamber group (C2) are defined between component, through the first compression chamber group The working medium of compression is discharged from first row gas port (O1), and the working medium through the second compression chamber group compression is arranged from second exhaust port (O2) Go out,

The capacity modulation include bypass (BP) and in the first row gas port and the second exhaust port The discharge chamber (CS) of at least one connection, the bypass make the first compression chamber group by being connected to the discharge chamber It is bypassed to corresponding compression chamber group selection to the suction pressure region of the screw compressor in the second compression chamber group (SL)。

9. screw compressor according to claim 8, wherein the determine vortex component includes removably connecting Determine vortex main part (253,353) and cover board (254,354), limited between the determine vortex main part and the cover board The discharge chamber.

10. screw compressor according to claim 9, wherein the determine vortex component is fixed to the screw compressor Shell (310) and cannot be axially displaced, the discharge chamber is connected to the first row gas port, the second exhaust port with it is described The pressure at expulsion area (SH) of screw compressor is connected to.

11. screw compressor according to claim 10, wherein be provided in the determine vortex main part by the exhaust Multiple capacity regulating channels that chamber is connected to the first compression chamber group, and each capacity regulating is directed in the discharge chamber Channel is both provided with check valve (V), and the check valve only allows working medium to flow into the discharge chamber from the capacity regulating channel.

12. screw compressor according to claim 10, wherein punished with the discharge chamber at the second exhaust port It is not provided with the check valve (CV) for only allowing working medium to flow out.

13. screw compressor according to claim 8 or claim 9, wherein the bypass be from the discharge chamber, It extends through the shell of the screw compressor and is connected to the shape of the pipeline of the suction pressure region on the outside of the shell Formula.

14. screw compressor according to claim 9, wherein the discharge chamber includes being connected to the first row gas port First row air cavity (CS1) and the second row air cavity (CS2) that is connected to the second exhaust port, the first row air cavity and described Second row air cavity is separated from one another, the bypass can in the first row air cavity and the second row air cavity at least One is connected to.

15. screw compressor according to claim 14, wherein be provided in the determine vortex main part by described first Multiple capacity regulating channels (VL1) that discharge chamber is connected to the first compression chamber group and by the second row air cavity with it is described Multiple capacity regulating channels (VL2) of second compression chamber group connection, and the needle in the first row air cavity and second row air cavity Check valve (V) is both provided with to each capacity regulating channel, the check valve only allows working medium to be flowed from the capacity regulating channel Enter corresponding discharge chamber.

16. the screw compressor according to claims 14 or 15, wherein in the cover board back to the determine vortex main body The side in portion is formed with the first back pressure cavity (281a) and the second back pressure cavity (281b), and first back pressure cavity is logical by the first back pressure Road (278) is connected to the first compression chamber group, and second back pressure cavity is pressed by the second backpressure passage (279) and described second Contracting chamber group is connected to.

17. screw compressor according to claim 16, wherein in the cover board back to the determine vortex main part Side is formed with inner cylindrical section (254g), middle circle canister portion (254j) and outer cylinder portion (254h), the inside of the inner cylindrical section Space is connected to two exhaust passages extended respectively from the first row air cavity and the second row air cavity, in the inner cylinder One of first back pressure cavity and second back pressure cavity are limited between portion and the middle circle canister portion, in the centre The other of first back pressure cavity and second back pressure cavity are limited between cylindrical portion and the outer cylinder portion.

18. screw compressor according to claim 17, wherein first back pressure cavity and the second back pressure cavity are described fixed Axis projection on scroll element is in the shape of concentric ring.

19. according to the screw compressor described in claim 8,9,14, any one of 15, wherein set in the bypass It is equipped with control valve and turning on and off for the bypass is controlled with selectivity.

20. according to the screw compressor described in claim 1-3,8,9,14, any one of 15, wherein form described first Two volution blades of compression chamber group and two volution blades for forming the second compression chamber group are asymmetric setting.

21. according to the screw compressor described in claim 1-3,8,9,14, any one of 15, wherein form described first Two volution blades of compression chamber group and two volution blades for forming the second compression chamber group are arranged symmetrically.

22. according to the screw compressor described in claim 1-3,8,9,14, any one of 15, further include：

First injection access (EVI1), the first injection passway structure are supplied at by the fluid from external fluid supply apparatus It should be to one or more of the first compression chamber group compression chamber；And

Second injection access (EVI2), the second injection passway structure from the fluid of the fluid supply apparatus at will supply Extremely one or more of described second compression chamber group compression chamber,

Wherein, it is described first injection access and it is described second injection passway structure in corresponding compression chamber group via the bypass Access is closed when bypassing to the suction pressure region.