CN206092409U - Heterogeneous air -fuel mixture conveyor of eccentric gyroscopic pendulum dynamic formula compressor - Google Patents

Abstract

The utility model discloses a heterogeneous air -fuel mixture conveyor of eccentric gyroscopic pendulum dynamic formula compressor along the flexible seal of circumferencial direction interval distribution on the outer wall of swing rotor cover, has avoided the situation of letting out in the emergence of high pressure chest and low -voltage tube, the difficult problem that crude oil, the natural gas, water and various sticky substances are difficult to realize single pipeline blending transportation has been solved, can realize that the oil well does not have emission, pollution -free, mechanical structure is simple, and the principle is correct, easily makes the easy to maintain maintenance, the running speed is low can realize that the noiselessness is pollution -free, can realize the operation of on -engine variable, can be in the medium -term and long -term use of rugged environment.

Description

A kind of eccentric gyroscopic pendulum compressor multiphase air-fuel mixture conveying device

Technical field

The utility model belongs to dynamic power machine, and in particular to a kind of eccentric gyroscopic pendulum compressor multiphase air-fuel mixture is defeated Send device.

Background technology

The petroleum industry of current China, crude oil, natural gas and water, silt, floccule and various thick substances are difficult to list One pipeline multiphase blending transportation, so as to the serious ring to be formed that causes a large amount of repeated construction, overlapping investment and casing gas to discharge Border is polluted and social resources are wasted.

In order to solve the multiphase blending transportation of oil, natural gas production, asset utilization ratio is improved, reduce construction investment, and Realize that well casing gas reclaim, avoid atmosphere pollution, save social resources, find new multiphase mixed transportation device, be this area skill One of problem of art personnel concern.

Eccentric rotor being used the defeated device of existing multiphase air-fuel mixture, eccentric rotor can dynamically by housing more Part is divided into different cavitys, to reach input, output end pressure and the purpose of Flow-rate adjustment.Rotor does in the housing eccentric returning Transhipment is dynamic, during rotor motion, linear contact lay between rotor and inner walls is remained at any time, in the rotation of rotor During, complete the transfer process of cavity size and the exchange process of inside cavity medium.Keep rotor at any time Can be in close contact with inner walls, otherwise when setting position is not reached, the medium between high pressure chest and low pressure chamber may Swap, such as after rotor abrasion, the medium in high pressure chest can enter into low pressure chamber by the gap between rotor and housing In, it is impossible to accurately carry out the regulation of pressure.

In prior art, separate different cavitys with the contact of inner walls only by rotor, although person is in theory Feasible, but this has very high requirement on machining accuracy to inner walls, the profile of rotor, it is difficult to realizes；And rotor is being used During also inevitably wear and tear, this allow for the defeated device of existing multiphase air-fuel mixture using a period of time Afterwards, the situation of precise decreasing generally occurs.

The content of the invention

For above-mentioned problems of the prior art or defect, the purpose of this utility model is, there is provided a kind of eccentric Gyroscopic pendulum compressor multiphase air-fuel mixture conveying device, realizes that it occurs without in use interior situation about letting out, it is ensured that Pump can operate all the time under high property.

To achieve these goals, the utility model is adopted the following technical scheme that：

A kind of eccentric gyroscopic pendulum compressor multiphase oil gas combined transportation device, including eccentric rotary oscillation multiphase oil and gas multiphase flow Pump, eccentric rotary oscillation multiphase oil-gas mixed delivery pump include the pump housing, the pump housing, be internally provided with bias rotor, rotor is by the pump housing Into high pressure chest and low pressure chamber, rotor exterior is set with swing-rotor set for part；Pump housing top is provided with housing, is provided with housing Slide plate, slide plate connects swing-rotor set through housing；Input channel and output channel are provided with the pump housing, input channel connection is low Pressure chamber, output channel connection high pressure chest is circumferentially spaced on the outer wall of swing-rotor set to be distributed resilient seal, Seal is identical with the length of swing-rotor set in the axial direction that swing-rotor covers, close when seal is contacted with pump housing inwall It is Elastic Contact between Feng Tiyu pump housing inwalls；

Sealing plate is provided between the slide plate and housing, sealing plate connection pressue device, pressue device brings pressure to bear on Sealing plate is contacted with slide plate on sealing plate, realize the sealing between slide plate and housing.

Specifically, the swing-rotor puts and is provided with elastomer, and described seal is arranged on by elastomer and is swung Rotor puts, and under the elastic force effect of elastomer, seal can be along the radially movable of swing-rotor set.

Further, seal groove is offered on the outer wall of swing-rotor set vertically, described elastomer and sealing Body is assemblied in seal groove, and the part of seal can stretch out from seal groove.

Specifically, it is respectively provided with described in one on two end faces that the housing contacts with two sides of the slide plate Sealing plate, be respectively arranged with a strip groove on two end faces of the housing, the sealing plate is arranged on strip groove It is interior；First pressurization passageway is respectively arranged with two end faces of the housing, pressurization passageway connects the sealing plate；It is described Output channel is connected with two the first pressurization passageways on two end faces of housing.

Further, it is mounted on sealing valve group in the input channel and output channel, sealing valve group includes cup, cup The bottom surface of body is provided with multiple through holes, and the bottom surface of cup is provided with valve part, and valve part includes valve block, and valve block can be beaten and open or close Close multiple through holes.

Further, the rotor is arranged on eccentric shaft by bearing, and compensation block is set with the eccentric shaft, is compensated The center of gravity of block to the vertical line between eccentric shaft and rotor center of gravity to the vertical line between eccentric shaft in the same plane.

Further, the input of the housing is provided with input flange, and the output end of housing is provided with output flange, defeated Space is left between the two ends for entering flange and output flange and swing-rotor set, input flange covers it with swing-rotor Between, and sealing ring is mounted between output flange and swing-rotor set, it is provided with inside input flange and output flange Second pressurization passageway, the second pressurization passageway communication seals ring；Inside the output channel and input flange and output flange two Individual second pressurization passageway is connected.

Further, the bottom surface of the slide plate is provided with skateboard-axis, and between skateboard-axis and swing-rotor set rocking key is passed through Connection.

Further, the first pipe joint is provided with the input channel, is set respectively in described two first pressurization passageways The second pipe joint and the 5th pipe joint are equipped with, the first pipe joint connects respectively the second pipe joint and the 5th pipe joint by pipeline.

Further, the first pipe joint is provided with the input channel, is set respectively in described two second pressurization passageways The 3rd pipe joint and the 4th pipe joint are equipped with, the first pipe joint connects respectively the 3rd pipe joint and the 4th pipe joint by pipeline.

Compared with prior art, the utility model has following technique effect：

1st, the utility model is circumferentially spaced on the outer wall that swing-rotor covers is distributed resilient seal, it is to avoid High pressure chest and low-voltage tube occur in the situation let out.

2nd, a sealing plate is respectively provided with two end faces that housing contacts with two sides of the slide plate, is sealed Plate connects pressue device, and pressue device applies pressure and contacts with slide plate with sealing plate is caused on sealing plate, realizes slide plate and housing Between sealing.

3rd, it is mounted on sealing valve group in input channel and output channel, prevents multiphase gas mixture from flowing back.

4th, compensation block is set with eccentric shaft, it is ensured that the pump housing works steadily in the long term, efficiently.

5th, will be bonded by swinging between skateboard-axis and swing-rotor set, it is to avoid the axial displacement of swing-rotor set, Extend the service life of swing-rotor set.

Description of the drawings

Fig. 1 is overall structure diagram of the present utility model；

Fig. 2 is the A-A sectional views in Fig. 1；

Fig. 3 is mounting structure schematic diagram of the seal in seal groove；

Fig. 4 is sealing valve group scheme of installation；

Fig. 5 is sealing valve group structural representation；

Fig. 6 is scheme of installation of the sealing plate on housing；

Each label is represented in figure：1-pump housing, 2-rotor, 3-swing-rotor set, 4-housing, 5-slide plate, 6-defeated Enter passage, 7-output channel, 8-seal, 801-blend stop, 802-sealing strip, 9-sealing plate, 10-sealing valve group, 1001-cup, 1002-through hole, 1003-valve block, 11-compensation block, 12-input flange, 13-output flange, 14-close Seal ring, 15-skateboard-axis, 16-rocking key, the 17-the first pipe joint, the 18-the second pipe joint, the 19-the five pipe joint, 20- 3rd pipe joint, the 21-the four pipe joint, 22-elastomer, 23-strip groove, 24-seal groove, 2401-draw-in groove, 2402-chute, 25-erecting bed, 26-spiral reed, 27-disk body, 28-connecting rod, 29-sealing ring.

Specific embodiment

Referring to Fig. 1 and Fig. 2, eccentric gyroscopic pendulum compressor multiphase oil gas combined transportation device of the present utility model, including it is inclined Heart rotary oscillation multiphase oil-gas mixed delivery pump, eccentric rotary oscillation multiphase oil-gas mixed delivery pump includes the pump housing 1, and the pump housing 1 is internally provided with Eccentric rotor 2, rotor 2 will be divided into high pressure chest and low pressure chamber inside the pump housing 1, the outer cover of rotor 2 is equipped with swing-rotor set 3；Pump The top of body 1 is provided with housing 4, housing 4 and is provided with slide plate 5, and slide plate 5 is through the connection swing-rotor of housing 4 set 3；Set on the pump housing 1 It is equipped with input channel 6 and output channel 7, the connection low pressure chamber of input channel 6, the connection high pressure chest of output channel 7.Multiphase air-fuel mixture Thing is entered in low pressure chamber by input channel 6, and rotor 2 swings in the pump housing 1, and the volume of low pressure chamber and high pressure chest is with rotor 2 Swing changes, and multiphase gas mixture flows out high pressure chest by output channel 7 in high pressure chest.

The rotor 2 is linear contact lay between swing-rotor set 3 and the inwall of the pump housing 1 in swing process, i.e. swing-rotor Set 3 is tangent with the inwall of the pump housing 1, and tangent line is along swing-rotor set 3 and the axis direction of the inwall of the pump housing 1 contact.The pump housing 1 is displacement pump, In the swing process of rotor 2, the volume in the pump housing 1 is constantly changing.In the rotary course of a week of rotor 2 In, the change of the volume size of low pressure chamber is and the volume size variation tendency of high pressure chest from the zero to arrive little last recurrence zero again greatly It is to zero to arrive big again again from big to small, that is to say, that the volume of the two is complementary process.Most go up when rotor 2 is rotated to housing 4 During end, high pressure chest is connected with low pressure chamber inside, and the medium in low pressure chamber is entered in high pressure chest, then in the rotary course of rotor 2 In, high pressure chest is flowed out by output channel 7.

Due to rotor 2, for a long time work is easily caused the generation abrasion of swing-rotor set 3, therefore causes using swing-rotor set 3 contacts tangent with the inwall of the pump housing 1 come isolate this mode of two cavitys easily occur in let out.For this purpose, this programme is in swing-rotor Circumferentially spaced on the outer wall of set 3 to be distributed resilient seal 8, length and the swing-rotor of seal 8 cover 3 in axial direction On length it is identical, and seal 8, once contact with the inwall of the pump housing 1, this contact is exactly Elastic Contact.That is, in rotor 2 In rotary course, not seal 8 is all and the contact of the inwall of the pump housing 1, and is proximate to the seal 8 at point of contact with the pump housing 1 Can contact.So, the both sides at point of contact, have all the time seal 8 to be in close contact with the inwall of the pump housing 1, i.e., by triple seal measure, The medium between two cavitys is so caused from being exchanged with each other.Elastic Contact refers to that seal 8 is made using elastomeric material, when When contacting with the inwall of the pump housing 1, medium (gas, liquid) can not pass through between seal 8 and the inside of the pump housing 1.The distribution of seal 8 Density should ensure that at any time tangent line both sides have all the time seal 8 to contact with the inwall of the pump housing 1.

Further, it is elastic connection between seal 8 and rotor 2, is so conducive to seal 8 to play elastic reaction. Because the pump housing 1 is in operation process, contact frequency is very high between seal 8 and the inwall of the pump housing 1, in order to ensure seal 8 Using effect, is provided with elastomer 22 on swing-rotor set 3, described seal 8 is arranged on swing-rotor by elastomer 22 On set 3, under the elastic force effect of elastomer 22, seal 8 can be along the radially movable of swing-rotor set 3, this ensures that close Envelope body 8 is contacted with the inner tight of the pump housing 1.

Referring to Fig. 3, seal groove 24 is offered along axis on the outer wall of swing-rotor set 3, described elastomer 22 and sealing Body 8 is assemblied in seal groove 24, and the part of seal 8 can be by stretching out in seal groove.The effect for arranging seal groove is to be easy to arrange Seal 8 and elastomer 22, while also causing medium to be difficult to by seal 8.

In the present embodiment, the T-shaped structure in the cross section of seal groove 24, seal groove 24 includes draw-in groove 2401 and and draw-in groove 2401 vertical chutes 2402.The T-shaped structure in cross section of seal 8, seal 8 includes blend stop 801 and hangs down with blend stop 801 The direct-connected sealing strip 802 for connecing, wherein blend stop 801 can slide in draw-in groove 2401, and sealing strip 802 can slide in chute 2402, And the length of sealing strip 802 is more than the length of chute 2402.As for elastomer 22, can be all kinds of high-strength using spring, marble etc. Degree, the elastic construction of toughness.

Because slide plate 5 is through the connection swing-rotor of housing 4 set 3, deposit between the two sides of slide plate 5 and two end faces of housing 1 In gap, lead to not fully achieve the sealing of high pressure chest and low pressure chamber.Therefore the present embodiment, in housing 4 and the slide plate 5 A sealing plate 9 is respectively provided with two end faces that two sides contact, is respectively arranged with two end faces of the housing 4 One the first pressurization passageway, the first pressurization passageway connects the sealing plate 9；On two end faces of the output channel 7 and housing 4 Two the first pressurization passageways connect.Because output channel 7 connects high pressure chest, the high pressure in high pressure chest can pass through output channel 7 are delivered in the first pressurization passageway, bring pressure to bear on sealing plate 9.

For the ease of sealing plate 9 is arranged on housing, on two end faces of the housing 4 bar shaped is respectively arranged with Groove 23, the sealing plate 9 is arranged in strip groove 23；In order to realize between the side wall of strip groove 23 and sealing plate 9 Sealing, is provided with sealing ring 29 between the side wall and sealing plate 9 of the strip groove 23, sealing ring 29 is rectangular seal.

Further, in order to ensure the connection of the pressurization passageway of output channel 7 and first, it is provided with the output channel 7 First pipe joint 17, is respectively arranged with the second pipe joint 18 and the 5th pipe joint 19 in described two first pressurization passageways, and first Pipe joint 17 connects respectively the second pipe joint 18 and the 5th pipe joint 19 by pipeline.

Further, since rotor 2 is in swing process, the pressure of high pressure chest and low pressure chamber in the pump housing 1 can constantly become Change, multiphase gas mixture can occur to be back to high pressure chest by output channel 7, or multiphase gas mixture flows back from low pressure chamber To the situation of input channel 6, so as to cause the loss of power.

In order to solve the above problems, in the present embodiment, it is mounted on sealing valve group in input channel 6 and output channel 7 10, sealing valve group 10 includes cup 1001, and the bottom surface of cup 1001 is provided with multiple through holes 1002, the outer wall of cup 1001 with it is defeated Enter the inwall contact of passage 6 or output channel 7；The bottom surface of cup 1001 is provided with multiple through holes 1002, the bottom of cup 1001 Face is provided with valve part, and valve part includes valve block 1003, and multiple through holes 1002 can be opened or closed to valve block 1003.

Cup 1001 is arranged in output channel 7, when multiphase gas mixture is flowed out by high pressure chest, multiphase air-fuel mixture Thing washes open valve block 1003 in the presence of high pressure cavity pressure, opens through hole 1002, and multiphase gas mixture enters cup In 1001；After the pressure in high pressure chest reduces, the multiphase gas mixture in output channel 7 can occur backflow phenomenon, but Under the sealing function of valve block 1003, through hole 1002 can't be opened, so as to prevent the generation of backflow phenomenon.In the same manner, cup 1001 are arranged in input channel 6, while ensureing that multiphase gas mixture smoothly enters low pressure chamber, further prevent low pressure Oil gas backflow in chamber.

The valve part includes erecting bed 25, and erecting bed 25 is arranged on the bottom surface of cup 1001, is set with erecting bed 25 There are spiral reed 26 and the valve block 1003, the valve block 1003 is under the pressure effect of spiral reed 26 to multiple through holes 1002 Sealed.

Cup 1001 is arranged in output channel 7, and under normal circumstances, valve block 1003 is acted in the pressure of spiral reed 26 Lower to seal through hole 1002, when multiphase gas mixture is extruded valve block 1003 under pressure, valve block 1003 takes off From through hole 1002, through hole 1002 is opened；If the multiphase gas mixture in cup 1001 will be when will being back in high pressure chest, Multiphase gas mixture in cup 1001 is extruded spiral reed 26 so that valve block 1003 by through hole 1002 hermetically more Plus closely, so as to prevent backflow.The principle that cup 1001 is arranged in input channel 6 is consistent, is equally prevented from low pressure Multiphase gas mixture backflow in chamber.

In order to spiral reed 26 and valve block 1003 are fixed, the erecting bed 25 includes disk body 27 and connecting rod 28, The spiral reed 26 and the valve block 1003 are sleeved in connecting rod 28.Disk body 27 is circle, and connecting rod 28 is cylindrical bar, is pacified The longitudinal section of dress platform 25 is T-shaped, and spiral reed 26 and valve block 1003 are fixed between the bottom surface of disk body 27 and cup 1001.

Rotor 2 is arranged on eccentric shaft by bearing, and swing-rotor set 3 will produce offset distance in rotation process, forms inclined Heart amount, this will make the whole pump housing 1 that vibration is produced in operation process, and vibration can affect the sealing of the parts such as bearing and end cap Property, situations such as causing to be let out in medium in pump, leak, it is unfavorable for that the pump housing 1 is steady in a long-term, efficiently works.

In order to solve the above problems, the present embodiment is set with compensation block 11 on eccentric shaft, and the center of gravity of compensation block 11 is to partially The center of gravity of vertical line and rotor 2 between heart axle to the vertical line between eccentric shaft in the same plane.

This compensation device that the present embodiment is provided, is aimed at rotor 2 and produces offset distance in rotary course and carry out A kind of compensation setting, to reduce vibrations, makes the running of pump more stable.The pump housing 1 that the present embodiment is mentioned, it includes eccentric shaft With the rotor 2 on eccentric shaft.Eccentric shaft passes end cap and is connected with power set, is the powered rotation of rotor 2.This The pump housing of class is mainly displacement pump.For example, eccentric shaft stretches out one end of end cap and is connected with shaft coupling by flange, and shaft coupling is installed On the output shaft of motor.

Because eccentric shaft does not pass through the center of rotor 2, and the cross section of rotor 2 is circular configuration, the i.e. weight of rotor 2 The heart is centrally located, so can produce offset distance when rotor 2 rotates.In order to solve this problem, this programme is on eccentric shaft Compensation block 11 is set with, to offset offset distance.

After arranging due to compensation block 11, in rotary course, moment of torsion can be produced between compensation block 11 and rotor 2, can be to inclined Heart axle causes larger load；And limited by the internal structure of the pump housing 1, compensation block 11 can not be arranged at the inside of the pump housing, because This, on the eccentric shaft outside the pump housing 1, compensation block 11 should be arranged as close to end cap.Being arranged close to here, refers to and is mending Block 11 is repaid in rotary course, it is the smaller the better with the distance between end cap on the premise of not affecting (contact) end cap.So both may be used To reduce moment of torsion, offset distance can be offset again.

The structure of the employing rule of compensation block 11, such as pyriform structure, have through hole, by the way of bonded on compensation block 11 On eccentric shaft.This structure makes the weight of compensation block 11 be concentrated mainly in the region being relatively large in diameter, and is conducive to reducing The volume of compensation block 11.In order that the best results of compensation block 11, in this programme, the center of gravity of compensation block 11 is between eccentric shaft To the vertical line between eccentric shaft in the same plane, this is referred to the center of gravity of vertical line and rotor 2, center of gravity and the rotor 2 of compensation block 11 Center of gravity lie farthest away when situation.This will enable compensation block 11 play maximum effect, while effect same is reached, to the greatest extent The volume and weight of compensation block 11 may be reduced.

The input of the housing 4 is provided with input flange 12, and the output end of housing 4 is provided with output flange 13, input Space is left between the two ends of flange 12 and output flange 13 and swing-rotor set 3, in order to seal to this space, Between input flange 12 and swing-rotor set 3, and sealing ring 14 is mounted between output flange 12 and swing-rotor set 3, The second pressurization passageway, the second pressurization passageway communication seals ring 14 are provided with inside input flange 12 and output flange 13；It is described Output channel 7 is connected with two the second pressurization passageways inside input flange 12 and output flange 13.

In using the high voltage conduction in output channel 7 to the second pressurization passageway, pressure is applied to sealing ring 14, make sealing ring 14 are connected with the end of swing-rotor set 3, realize the sealing in above-mentioned space.

High voltage conduction in order to realize output channel 7 sets to the purpose in the second pressurization passageway in the input channel 6 The first pipe joint 17 is equipped with, in described two second pressurization passageways the 3rd pipe joint 20 and the 4th pipe joint 21 is respectively arranged with, First pipe joint 20 connects respectively the 3rd pipe joint 20 and the 4th pipe joint 21 by pipeline.

In prior art, connected by skateboard-axis between slide plate and swing-rotor set, swing-rotor is enclosed within swing process Axial displacement is susceptible to, causes swing-rotor set to impact with peripheral devices, cause swing-rotor set to damage, affected The service life of swing-rotor set.In order to solve the above problems, the present embodiment will pass through pendulum between skateboard-axis and swing-rotor set It is dynamic bonded, it is to avoid the axial displacement of swing-rotor set, extend the service life of swing-rotor set.

The utility model solves crude oil, natural gas and water and various thick substances and is difficult to single pipeline blending transportation A difficult problem；Achievable oil well without discharge, it is pollution-free；Frame for movement is simple, and principle is correct, it is easy to manufacture, it is easy to maintaining；Fortune The low achievable noiselessness of rotary speed is pollution-free；It is capable of achieving random variable operation；Can for a long time use in rugged environment.

Claims (10)

1. a kind of eccentric gyroscopic pendulum compressor multiphase oil gas combined transportation device, including eccentric rotary oscillation multiphase oil and gas multiphase flow Pump, eccentric rotary oscillation multiphase oil-gas mixed delivery pump includes the pump housing (1), and the pump housing (1) is internally provided with the rotor (2) of bias, rotor (2) high pressure chest and low pressure chamber will be divided into inside the pump housing (1), rotor (2) outer cover is equipped with swing-rotor set (3)；The pump housing (1) top It is provided with housing (4), housing (4) and is provided with slide plate (5), slide plate (5) is through housing (4) connection swing-rotor set (3)；The pump housing (1) input channel (6) and output channel (7), input channel (6) connection low pressure chamber, output channel (7) connection high pressure are provided with Chamber, it is characterised in that circumferentially spaced on the outer wall of swing-rotor set (3) to be distributed resilient seal (8), sealing Body (8) is identical with the length of swing-rotor set (3) in the axial direction of swing-rotor set (3), when in seal (8) and the pump housing (1) It is Elastic Contact between seal (8) and the pump housing (1) inwall when wall is contacted；

Sealing plate (9) is provided between the slide plate (5) and housing (4), sealing plate (9) connection pressue device, pressue device is applied Apply force on sealing plate (9) cause sealing plate (9) contact with slide plate (5), realize the sealing between slide plate (5) and housing (4).

2. bias gyroscopic pendulum compressor multiphase oil gas combined transportation device as claimed in claim 1, it is characterised in that the pendulum It is provided with elastomer (22) on dynamic rotor set (3), described seal (8) is by elastomer (22) installed in swing-rotor set (3) on, under the elastic force effect of elastomer (22), seal (8) can be along the radially movable of swing-rotor set (3).

3. bias gyroscopic pendulum compressor multiphase oil gas combined transportation device as claimed in claim 2, it is characterised in that the pendulum Offer seal groove (24) on the outer wall of dynamic rotor set (3) vertically, described elastomer (22) and seal (8) is assemblied in close In sealing groove (24), the part of seal (8) can stretch out from seal groove (24).

4. bias gyroscopic pendulum compressor multiphase oil gas combined transportation device as claimed in claim 1, it is characterised in that the shell The sealing plate (9) being respectively provided with two end faces that body (4) contacts with two sides of the slide plate (5) described in one, institute State and a strip groove (23) is respectively arranged with two end faces of housing (4), the sealing plate (9) is arranged on strip groove (23) in；First pressurization passageway is respectively arranged with two end faces of the housing (4), the connection of the first pressurization passageway is described Sealing plate (9)；The output channel (7) connects with two the first pressurization passageways on two end faces of housing (4).

5. bias gyroscopic pendulum compressor multiphase oil gas combined transportation device as claimed in claim 1, it is characterised in that described defeated Enter and be mounted on sealing valve group (10) in passage (6) and output channel (7), sealing valve group (10) is including cup (1001), cup (1001) bottom surface is provided with multiple through holes (1002), and the bottom surface of cup (1001) is provided with valve part, and valve part includes valve block (1003), valve block (1003) can open or close multiple through holes (1002).

6. bias gyroscopic pendulum compressor multiphase oil gas combined transportation device as claimed in claim 1, it is characterised in that described turn Sub (2) are arranged on eccentric shaft by bearing, and compensation block (11) is set with the eccentric shaft, and the center of gravity of compensation block (11) is to partially The center of gravity of vertical line and rotor (2) between heart axle to the vertical line between eccentric shaft in the same plane.

7. bias gyroscopic pendulum compressor multiphase oil gas combined transportation device as claimed in claim 1, it is characterised in that the shell The input of body (4) is provided with input flange (12), and the output end of housing (4) is provided with output flange (13), input flange (12) space, input flange (12) and swing are left and output flange (13) and the two ends of the swing-rotor set (3) between Between rotor set (3), and sealing ring (14), input flange are mounted between output flange (13) and swing-rotor set (3) (12) and inside output flange (13) the second pressurization passageway, the second pressurization passageway communication seals ring (14) are provided with；It is described defeated Go out passage (7) two second pressurization passageways internal with input flange (12) and output flange (13) to connect.

8. bias gyroscopic pendulum compressor multiphase oil gas combined transportation device as claimed in claim 1, it is characterised in that the cunning The bottom surface of plate (5) is provided with skateboard-axis (15), is connected by rocking key (16) between skateboard-axis (15) and swing-rotor set (3).

9. bias gyroscopic pendulum compressor multiphase oil gas combined transportation device as claimed in claim 4, it is characterised in that described defeated Go out on passage (7) and be provided with the first pipe joint (17), in described two first pressurization passageways the second pipe joint is respectively arranged with (18) and the 5th pipe joint (19), the first pipe joint (17) connects respectively the second pipe joint (18) and the 5th pipe joint by pipeline (19)。

10. bias gyroscopic pendulum compressor multiphase oil gas combined transportation device as claimed in claim 7, it is characterised in that described The first pipe joint (17) is provided with output channel (7), in described two second pressurization passageways the 3rd pipe joint is respectively arranged with (20) and the 4th pipe joint (21), the first pipe joint (17) connects respectively the 3rd pipe joint (20) and the 4th pipe joint by pipeline (21)。