CN209557254U - Refrigeration equipment and its compressor - Google Patents
Refrigeration equipment and its compressor Download PDFInfo
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- CN209557254U CN209557254U CN201822021197.3U CN201822021197U CN209557254U CN 209557254 U CN209557254 U CN 209557254U CN 201822021197 U CN201822021197 U CN 201822021197U CN 209557254 U CN209557254 U CN 209557254U
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- rotor
- compressor
- isolation cover
- main shaft
- oilhole
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Abstract
The utility model relates to daily-use electrical appliance technical fields, and in particular to a kind of refrigeration equipment and its compressor.Compressor provided by the utility model includes main shaft, rotor and isolation cover, and the rotor is connect with the main shaft, and fluid channel is provided on the rotor, and the fluid channel axially penetrates through the rotor along the main shaft;The isolation cover includes the side wall and bottom wall being connected, and the side wall is connected with the bottom end of the rotor, and forms separate cavities with the bottom wall, and the separate cavities are connected to the fluid channel, are provided with fluid through-hole on the isolation cover.Hardly there is vent strip oil phenomenon during the work time in this compressor provided by the utility model, and refrigerating capacity and working efficiency are higher, design and lower production costs.
Description
Technical field
The utility model relates to daily-use electrical appliance technical field of solar batteries, and in particular to a kind of refrigeration equipment and its compression
Machine.
Background technique
In people's daily life, the refrigeration equipments such as air-conditioning are indispensable.Compressor is as in refrigeration equipment
Core component, working life directly determine the service life of the refrigeration equipments such as air-conditioning.And for scroll compressor,
Since it includes a large amount of friction pair, thus need to add lubricating oil in compressor, but in the course of work of compressor,
Because the main shaft agitation oil sump of compressor can generate a large amount of mist of oils, mist of oil enters in cooling cycle system with exhaust airstream, on the one hand
Refrigerating capacity can be reduced;Oil return apparatus must also be arranged in reliability when on the other hand, for lifting means operation, refrigeration equipment,
It is sent back in compressor with the oil liquid that compressor is discharged, this can undoubtedly promote the design difficulty of the even entire refrigeration equipment of compressor
And cost.
Utility model content
(1) show technical problem to be solved by the utility model is: easily occurring vent strip oil in the screw compressor course of work
As.
(2) technical solution
In order to realize that above-mentioned technical problem, the first aspect of the utility model provide a kind of compressor comprising main shaft;
Rotor, the rotor are connect with the main shaft, fluid channel are provided on the rotor, the fluid channel is along institute
It states main shaft and axially penetrates through the rotor;
Isolation cover, the isolation cover include the side wall and bottom wall being connected, and the side wall is connected with the bottom end of the rotor,
And separate cavities are formed with the bottom wall, the separate cavities are connected to the fluid channel, and it is logical that fluid is provided on the isolation cover
Hole.
Optionally, the fluid through-hole includes air inlet and from oilhole, and the air inlet is set on the bottom wall, described
It is set on side wall from oilhole.
Optionally, the bottom wall has a part of the hole wall from oilhole.
Optionally, it is described be provided with from oilhole it is multiple, it is multiple it is described from oilhole in the main shaft axially direction
It is evenly arranged.
Optionally, it is described from oilhole in the upward size of the spindle shaft between 0.5mm-2.5mm.
Optionally, the side wall is cylindrical side planar structure.
Optionally, described to be no more than the sidewall periphery in total arc length in the main shaft axially direction from oilhole
Long 1/3.
Optionally, the outer surface of the bottom wall is plane, be connected to the bottom of the rotor balance weight be located at it is described every
From intracavitary.
Optionally, multiple fluid channels are provided on the rotor, and the rotor is center symmetrical structure.
Optionally, compressor provided by the utility model further includes auxiliary isolation cover, and the auxiliary isolation cover includes phase
The side and top of connection, the side are connected to the top of the rotor, and the top is provided with bleeder port, the bleeder port
It is connected to the fluid channel, the side is provided with oil leak hole.
Optionally, the oil leak hole is located at the auxiliary isolation cover close to one end of the rotor.
Optionally, the auxiliary isolation cover is cylindrical-shaped structure.
The second aspect of the utility model also provides a kind of refrigeration equipment comprising any of the above-described compressor.
Beneficial effect
In compressor provided by the utility model, it is provided with fluid channel on rotor, it is logical that fluid is provided on isolation cover
Hole, the side wall of isolation cover and the bottom wall of rotor connect, and form separate cavities with bottom wall, and separate cavities are connected to fluid channel, are pressing
In the course of work of contracting machine, the fluid outside separate cavities can be entered in separate cavities by communication through-holes, be rotated with main shaft and rotor
The progress of process, aforesaid fluid are separated into oil droplet and gas under the influence of centrifugal force, and gas can be directly through fluid channel quilt
Discharge, and mist of oil is substantially free of in it, and then can prevent occurring vent strip oil phenomenon in compressor operation;Meanwhile
Oil droplet is mobile to side wall under the influence of centrifugal force, and is adhered on side wall, may finally be discharged separate cavities through fluid through-hole,
This can also prevent from retaining oil liquid in separate cavities and again resulting in compressor and vent strip oil phenomenon occur.
Detailed description of the invention
The advantages of the utility model is above-mentioned and/or additional aspect will become from the description of the embodiment in conjunction with the following figures
Obviously and it is readily appreciated that, in which:
Fig. 1 is the sectional view of refrigeration equipment provided by the utility model embodiment;
Fig. 2 is the partial enlarged view of structure shown in fig. 1;
Fig. 3 is the schematic diagram of part-structure in refrigeration equipment provided by the utility model embodiment;
Fig. 4 is the structural schematic diagram of isolation cover in refrigeration equipment provided by the utility model embodiment;
Fig. 5 is the sectional view of another structure of refrigeration equipment provided by the utility model embodiment.
Appended drawing reference
1- main shaft;
2- rotor;
21- fluid channel;
3- isolation cover;
30- separate cavities;
31- side wall;
311- is from oilhole;
32- bottom wall;
321- air inlet;
4- assists isolation cover;
At the top of 41-;
411- bleeder port;
The side 42-;
421- oil leak hole;
5- balance weight;
6- stator;
7- shell;
8- air inlet pipe;
9- exhaust pipe.
Specific embodiment
In order to be more clearly understood that the above objects, features, and advantages of the utility model, with reference to the accompanying drawing and have
The utility model is further described in detail in body embodiment.It should be noted that in the absence of conflict, this reality
It can be combined with each other with the feature in novel embodiment and embodiment.
The utility model provides a kind of compressor, and vent strip oil phenomenon is less prone in the course of work.Fig. 1 shows one
Kind uses the refrigeration equipment of this compressor, which includes main shaft 1 and rotor 2, and rotor 2 is connected on main shaft 1, thus
It is rotated under the drive of main shaft 1, in order to keep the exhaust process of compressor more smooth, fluid channel 21 is provided on rotor 2, and flow
Body channel 21 axially penetrates through rotor 2 along main shaft 1, to be connected to rotor 2 along the space of aforementioned axial opposite sides, increases the compression
The extraction flow of machine.In addition, even being eliminated in compressor operation because vent strip oil bring adversely affects, such as to reduce
Shown in Fig. 4, isolation cover 3 is additionally provided in compressor provided by the utility model, isolation cover 3 includes side wall 31 and bottom wall 32,
The two is connected with each other, and side wall 31 is also connect with the bottom end of rotor 2, forms separate cavities 30, and separate cavities 30 and fluid channel 21 connect
It is logical;Meanwhile fluid through-hole is additionally provided on isolation cover 3, and then in the course of work of compressor, the fluid of 3 lower section of isolation cover
(including gaseous coolant and mist of oil) can enter in separate cavities 30 through fluid through-hole, due in compressor operation, rotor 2
In turn, the oil droplet in aforesaid fluid can be disconnected from each other under the influence of centrifugal force with gaseous coolant, and oil droplet is being centrifuged for lasting rotation
It is mobile to the side wall 31 of isolation cover 3 under the action of power, and be adhered on side wall 31, it finally can be from the fluid through-hole on isolation cover 3
Self-isolation chamber 30 flows out, and the gaseous coolant that aforementioned separation process generates then can be through fluid channel 21 from the exhaust pipe of compressor
9 are discharged, this can prevent occurring vent strip oil phenomenon in compressor operation.
Specifically, isolation cover 3 can be made of hard materials such as metals, since isolation cover 3 has certain weight, thus
Biggish adverse effect is generated to the working efficiency of compressor due to adding isolation cover 3 in order to prevent, it is preferable that can make to be isolated
The thickness of cover 3 is relatively small, can be by welding between rotor 2 if isolation cover 3 can be made of sheet metal
It is fixedly connected.The concrete shape and size of isolation cover 3 can be selected according to the actual situation, in order to further decrease compressor work
The amount of mist of oil caused by making, it is preferable that the side wall 31 of isolation cover 3 can be cylindrical side shape structure, on the one hand can reduce
Increase the yield of mist of oil because of the rotation agitation oil sump of isolation cover 3, the isolation cover 3 of another aspect cylindrical-shaped structure is in rotation process
In generated noise it is also smaller, more specifically, the side wall 31 of isolation cover 3 and the side of rotor 2 can be made along the axial direction of main shaft 1
Wall 31 is concordantly arranged.Certainly, other component, such as stator 6, air inlet pipe 8 and exhaust pipe 9, above-mentioned portion are additionally provided in compressor
Part can be installed in shell 7, be additionally provided with the components such as bearing, crankshaft bracket and capstan, consider that text is succinct, herein
It repeats no more.
Further, as shown in Fig. 2, fluid through-hole may include air inlet 321 and from oilhole 311, outside separate cavities 30
Fluid can be entered in separate cavities 30 by air inlet 321, and the oil droplet generated by centrifugal process then can be from from oilhole 311
Be discharged outside separate cavities 30, to prevent from sharing a fluid through-hole because of oil extraction process and intake process, be unfavorable for oil extraction process into
Row, in turn results in oil liquid and remains in always in separate cavities 30, and reduces the working efficiency of entire compressor, also, because of separate cavities
Oil liquid is retained in 30 always, it is easier to cause to contain oil liquid in the gas arranged during compressor air-discharging.Preferably, air inlet
Hole 321 can be set on bottom wall 32, this makes the fluid outside separate cavities 30 be easier to enter in separate cavities 30, and from oilhole
311 can be set on side wall 31, can be straight after being adhered on side wall 31 under the influence of centrifugal force in order to oil droplet
Connect through from oilhole 311 be discharged, reduce the time that oil liquid is stagnated in separate cavities 30, with further prevent remaining in because of oil liquid every
Have an adverse effect from chamber 30 to the working condition of compressor.It specifically, can be after the molding of isolation cover 3, by cutting
It cuts or other modes are respectively formed air inlet 321 on bottom wall 32 and side wall 31 and from oilhole 311, the number and shape of the two are equal
It can be not construed as limiting herein determines according to actual conditions.
After being separated out of fluid under the influence of centrifugal force in view of oil droplet, can uniformly it divide along the circumferential of side wall 31
Cloth, due to the limitation of 31 structure of side wall itself, can not be formed along the circumferential direction of side wall 31 throughout side wall on the inner surface of side wall 31
31 from oilhole 311, in turn, can make position from oilhole 311 as far as possible close to bottom wall 32, more specifically, from oilhole 311
It can be start edge gas from the inner surface of bottom wall 32 and be extended to form along side wall 31, i.e., bottom wall 32 has the hole from oilhole 311
A part of wall, hole wall from oilhole 311 and a part be located on side wall 31, thus in the course of work of compressor, oil
After liquid is adhered under the influence of centrifugal force on side wall 31, separate cavities gradually can be converged under the effect of gravity
30 bottom of chamber, and from being discharged from oilhole 311 for 30 bottom of chamber of separate cavities is located at, this can guarantee in compressor operation, every
From will not retain a large amount of oil liquid in chamber 30 always substantially, and then guarantee that compressor efficiently carries out compression work, it can be with
Guarantee to be substantially free of mist of oil in gaseous coolant be discharged, is finally reached the purpose for promoting compressor operating efficiency.More specifically
Ground, can be set from oilhole 311 it is multiple, to promote the rate that oil liquid is discharged separate cavities 30, and in order to guarantee as far as possible
Balance when compressor rotates can make multiple be evenly arranged in 1 axially direction of main shaft from oilhole 311.
Due to being provided on separate cavities 30 from oilhole 311, with the rotation of main shaft 1, certainly will be deposited between oilhole 311 and gas
In certain frictional force, larger resistance is generated to the rotation process of main shaft 1 and rotor 2 due to the setting from oilhole 311 in order to prevent
Power optionally can control between 0.5mm-2.5mm, preferably 1mm-2mm from size of the oilhole 311 in 1 axial direction of main shaft,
Correspondingly, when side wall 31 is cylindrical side planar structure, (multiple) can also be made from oilhole 311 in the side axial around main shaft 1
Upward total arc length is not more than the 1/3 of the outer perimeter of side wall 31, it is preferable that aforementioned total arc length can be made no more than aforementioned outer perimeter
1/4, this can also prevent from biggish making an uproar in 3 rotation process of isolation cover because interfering to generate with gas to a certain extent
Sound;Meanwhile this can also guarantee there is more reliable connection relationship in isolation cover 3 between bottom wall 32 and side wall 31, be promoted whole
The structural strength of a isolation cover 3;Furthermore it is also possible to prevent because from oilhole 311 it is oversized due to cause gas outside separate cavities 30
Body is also possible to prevent the size mistake from oilhole 311 from the progress for hindering oil liquid discharge process from the entrance separate cavities 30 of oilhole 311
It is small, and cause oil liquid that cannot be normally discharged.
In view of being usually mounted with balance weight 5 in compressor, and balance weight 5 is usually non-centrosymmetric structure, in order to anti-
Oil sump only is stirred in 5 rotation process of balance weight and increases the yield of mist of oil, it is preferable that in the mistake for designing and installing isolation cover 3
Balance weight 5 can be placed in separate cavities 30 by Cheng Zhong;Correspondingly, in order to prevent because the bottom wall 32 of separate cavities 30 is in rotation process
The middle yield for increasing mist of oil, it is preferable that the outer surface of bottom wall 32 can be arranged to plane, to reduce as far as possible because of bottom wall
The mist of oil amount of 32 rotations and generation;In addition, oil liquid remains in always in separate cavities 30 in order to prevent, it is preferable that bottom wall 32 it is interior
Side face may be plane or convex surface, so that the intersection of bottom wall 32 Yu side wall 31 can be flowed to by guaranteeing oil liquid substantially, and final
Separate cavities 30 are discharged from from oilhole 311, to guarantee compressor working efficiency with higher, and base in its gas for being discharged
This does not contain oil liquid.
In order to further enhance the smoothness of compressor air-discharging, multiple fluid channels 21 can be set on rotor 2, thus
It is discharged gaseous coolant from multiple fluid channels 21 respectively, and then the working efficiency of compressor can be promoted;Meanwhile it can
So that rotor 2 is center symmetrical structure, this can guarantee rotor 2 during rotation, the stress condition of each section in structure
It is almost the same, and then prevent rotor 2 from damaging due to the centrifugal force suffered by its each section has big difference during rotation, to be promoted
The service life of rotor 2.Specifically, the structure snd size of each fluid channel 21 can be identical, and for lift gas flowing
Efficiency can make the axial direction of fluid channel 21 identical as the axial direction of main shaft 1, and the mode that multiple fluid channels 21 are centrosymmetric
It is formed on rotor 2.
In order to further prevent containing oil liquid in gas discharged in compressor operation, it is preferable that such as Fig. 2 and figure
Shown in 3, compressor provided by the utility model can also include auxiliary isolation cover 4, and auxiliary isolation cover 4 includes top 41 and side
Portion 42, top 41 are connected with side 42, and side 42 is also connect with the top of rotor 2, and bleeder port 411 is provided on side 42,
Bleeder port 411 is connected to fluid channel 21, in turn, can be with after the gas in separate cavities 30 is discharged out of fluid channel 21
It is further rotated with rotor 2, and under the influence of centrifugal force, continues separation process, to separate gaseous coolant and oil droplet, oil
Drop is adhered under the influence of centrifugal force on side 42, and gaseous coolant then can be through bleeder port 411 finally from 9 row of exhaust pipe
Out;Correspondingly, it assists being provided with oil leak hole 421 on the side 42 of isolation cover 4, in order to arrange oil droplet out of auxiliary isolation cover 4
Out.
Further, some oil liquid remains in auxiliary isolation cover always in the course of work of compressor in order to prevent
In 4, it is preferable that oil leak hole 421 can be set in auxiliary isolation cover 4 close to the side of rotor 2, thus work of the oil liquid in centrifugal force
After being adhered under on side 42, moreover it is possible to flow to the bottom of auxiliary isolation cover 4, that is, rotor under the effect of gravity
2 top, to promote oil liquid to be finally discharged out of auxiliary isolation cover 4 under the further effect of centrifugal force.Specifically,
Auxiliary isolation cover 4 can be connected to the top of rotor 2 by welding by sheet metal, and can be directly isolated in auxiliary
One end on the side 42 of cover 4 far from top 41 directly forms channel-shaped notch, and then isolation cover 4 will assisted to be connected to rotor 2
After upper, aforementioned channel-shaped notch can be connect with the top surface of rotor 2, to form cavernous structure, as oil leak hole 421, this can
To guarantee that the position of oil leak hole 421 is obtained as far as possible close to rotor 2, so that separating the oil liquid base of generation in auxiliary isolation cover 4
This can be discharged through oil leak hole 421;Preferably, oil leak hole 421 can be set multiple, and multiple oil leak holes 421 can be
It is evenly distributed in 1 axially direction of main shaft on auxiliary isolation cover 4, to promote the discharged rate of oil liquid.
Similarly, unfavorable caused by working efficiency due to adding auxiliary isolation cover 4 to compressor in order to reduce as far as possible
It influences, it is preferable that auxiliary isolation cover 4 can be cylindrical-shaped structure, to reduce generated resistance between auxiliary isolation cover 4 and gas
Hinder effect, this can also reduce noise caused by compressor operating.
In addition, the top of rotor 2 is also generally provided with balance weight 5, it is equally possible that making positioned at the flat of 2 top of rotor
The block 5 that weighs is located at auxiliary isolation cover 4, further to promote resistance suffered when rotor 2 rotates.In addition, the position of balance weight 5
It can flexibly select according to actual needs, as shown in figure 5, balance weight 5 can be directly anchored on auxiliary isolation cover 4, not to this
It limits.
In the description of the present invention, it should be noted that the orientation or positional relationship of the instructions such as term " on ", "lower"
To be based on the orientation or positional relationship shown in the drawings, it is merely for convenience of describing the present invention and simplifying the description, without referring to
Show or imply that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore cannot manage
Solution is limitations of the present invention.In addition, term " first ", " second " are used for description purposes only, and should not be understood as indicating
Or imply relative importance.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified
Dress ", " connection ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally
Connection;It can be mechanical connection, be also possible to be electrically connected;Can be direct connection, can also by intermediary indirect communication,
It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition
The concrete meaning of language in the present invention.In addition, in the description of the present invention, unless otherwise indicated, " multiples' " contains
Justice is two or more.
The above is only the preferred embodiment of the present invention, is not intended to limit the utility model, all practical at this
Within novel spirit and principle, any modification, equivalent replacement, improvement and so on should be included in the guarantor of the utility model
Within the scope of shield.
Claims (13)
1. a kind of compressor characterized by comprising
Main shaft (1);
Rotor (2), the rotor (2) connect with the main shaft (1), are provided with fluid channel (21) on the rotor (2), described
Fluid channel (21) axially penetrates through the rotor (2) along the main shaft (1);
Isolation cover (3), the isolation cover (3) include the side wall (31) and bottom wall (32) being connected, the side wall (31) and described
The bottom end of rotor (2) connects, and forms separate cavities (30) with the bottom wall (32), the separate cavities (30) and the fluid channel
(21) it is connected to, is provided with fluid through-hole on the isolation cover (3).
2. compressor according to claim 1, which is characterized in that the fluid through-hole includes air inlet (321) and from oil
Hole (311), the air inlet (321) is set on the bottom wall (32), described to be set on side wall (31) from oilhole (311).
3. compressor according to claim 2, which is characterized in that the bottom wall (32) has described from oilhole (311)
A part of hole wall.
4. compressor according to claim 2, which is characterized in that it is described be provided with from oilhole (311) it is multiple, it is multiple described
It is evenly arranged from oilhole (311) in the main shaft (1) axially direction.
5. compressor according to claim 2, which is characterized in that it is described from oilhole (311) in the main shaft (1) axial direction
Size between 0.5mm-2.5mm.
6. compressor according to claim 2, which is characterized in that the side wall (31) is cylindrical side planar structure.
7. compressor according to claim 6, which is characterized in that described to surround the main shaft (1) axis from oilhole (311)
To direction on total arc length be no more than the side wall (31) outer perimeter 1/3.
8. compressor according to claim 1, which is characterized in that the outer surface of the bottom wall (32) is plane, is connected to
The balance weight (5) of the bottom of the rotor (2) is located in the separate cavities (30).
9. compressor according to claim 1, which is characterized in that be provided with multiple fluid channels on the rotor (2)
(21), and the rotor (2) is center symmetrical structure.
10. compressor according to claim 1, which is characterized in that it further include auxiliary isolation cover (4), the auxiliary isolation
Covering (4) includes the side (42) and top (41) being connected, and the side (42) is connected to the top of the rotor (2), described
Top (41) is provided with bleeder port (411), and the bleeder port (411) is connected to the fluid channel (21), the side (42)
It is provided with oil leak hole (421).
11. compressor according to claim 10, which is characterized in that the oil leak hole (421) is located at auxiliary isolation
(4) are covered close to the one end of the rotor (2).
12. compressor according to claim 10, which is characterized in that the auxiliary isolation cover (4) is cylindrical-shaped structure.
13. a kind of refrigeration equipment, which is characterized in that including compressor described in any one of claim 1-12.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201822021197.3U CN209557254U (en) | 2018-12-03 | 2018-12-03 | Refrigeration equipment and its compressor |
Applications Claiming Priority (1)
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CN201822021197.3U CN209557254U (en) | 2018-12-03 | 2018-12-03 | Refrigeration equipment and its compressor |
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Publication Number | Publication Date |
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CN209557254U true CN209557254U (en) | 2019-10-29 |
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ID=68302108
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109555700A (en) * | 2018-12-03 | 2019-04-02 | 珠海格力节能环保制冷技术研究中心有限公司 | Refrigeration equipment and its compressor |
-
2018
- 2018-12-03 CN CN201822021197.3U patent/CN209557254U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109555700A (en) * | 2018-12-03 | 2019-04-02 | 珠海格力节能环保制冷技术研究中心有限公司 | Refrigeration equipment and its compressor |
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