CN109974357A - Dispenser structure and air conditioner with it - Google Patents
Dispenser structure and air conditioner with it Download PDFInfo
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- CN109974357A CN109974357A CN201910357507.5A CN201910357507A CN109974357A CN 109974357 A CN109974357 A CN 109974357A CN 201910357507 A CN201910357507 A CN 201910357507A CN 109974357 A CN109974357 A CN 109974357A
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- partition
- spin line
- filter screen
- lower chamber
- line partition
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- 238000005192 partition Methods 0.000 claims abstract description 381
- 239000007788 liquid Substances 0.000 claims abstract description 87
- 238000000926 separation method Methods 0.000 claims abstract description 54
- 230000002093 peripheral effect Effects 0.000 claims description 4
- 239000000203 mixture Substances 0.000 abstract description 32
- 239000003507 refrigerant Substances 0.000 abstract description 15
- 230000005855 radiation Effects 0.000 abstract description 6
- 238000005057 refrigeration Methods 0.000 abstract description 6
- 230000009467 reduction Effects 0.000 abstract description 4
- 239000003921 oil Substances 0.000 description 36
- 230000000694 effects Effects 0.000 description 23
- 238000000034 method Methods 0.000 description 11
- 230000008569 process Effects 0.000 description 8
- 238000010586 diagram Methods 0.000 description 7
- 238000005119 centrifugation Methods 0.000 description 6
- 238000010276 construction Methods 0.000 description 4
- 230000006870 function Effects 0.000 description 4
- 230000000903 blocking effect Effects 0.000 description 3
- 238000013016 damping Methods 0.000 description 3
- 230000008030 elimination Effects 0.000 description 3
- 238000003379 elimination reaction Methods 0.000 description 3
- 238000001914 filtration Methods 0.000 description 3
- 230000009471 action Effects 0.000 description 2
- 230000006835 compression Effects 0.000 description 2
- 238000007906 compression Methods 0.000 description 2
- 238000013461 design Methods 0.000 description 2
- 230000005484 gravity Effects 0.000 description 2
- 239000012535 impurity Substances 0.000 description 2
- 239000003550 marker Substances 0.000 description 2
- 230000035939 shock Effects 0.000 description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 2
- 230000002159 abnormal effect Effects 0.000 description 1
- 238000005299 abrasion Methods 0.000 description 1
- 238000010521 absorption reaction Methods 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 239000010725 compressor oil Substances 0.000 description 1
- 238000007791 dehumidification Methods 0.000 description 1
- 239000012530 fluid Substances 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 230000001050 lubricating effect Effects 0.000 description 1
- 230000005012 migration Effects 0.000 description 1
- 238000013508 migration Methods 0.000 description 1
- 238000005457 optimization Methods 0.000 description 1
- 238000012545 processing Methods 0.000 description 1
- 230000000191 radiation effect Effects 0.000 description 1
- 230000008439 repair process Effects 0.000 description 1
- 238000011160 research Methods 0.000 description 1
- 125000006850 spacer group Chemical group 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04B—POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
- F04B39/00—Component parts, details, or accessories, of pumps or pumping systems specially adapted for elastic fluids, not otherwise provided for in, or of interest apart from, groups F04B25/00 - F04B37/00
- F04B39/0027—Pulsation and noise damping means
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B43/00—Arrangements for separating or purifying gases or liquids; Arrangements for vaporising the residuum of liquid refrigerant, e.g. by heat
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Analytical Chemistry (AREA)
- Power Engineering (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Applications Or Details Of Rotary Compressors (AREA)
Abstract
The present invention provides a kind of dispenser structure and with its air conditioner.Dispenser structure includes shell;Lateral partitions, lateral partitions are set in shell so that shell is separated into upper cavity and lower chamber;Spin line partition, spin line partition is multiple, multiple spin line partitions are alternately arranged in lower chamber, it is enclosed between the side wall of adjacent spin line partition and lower chamber and is set as independent gas-liquid separation channel, gas-liquid separation channel is inwardly increasingly towards precession at the axial location of shell along the radial direction of lower chamber, and the air through hole being connected with gas-liquid separation channel is offered in lateral partitions.The release travel in vapor-liquid separation channel can effectively be extended in this way, it realizes and is efficiently separated into mixture in dispenser, the refrigeration oil that reduction system is taken back contained liquid refrigerants rate when entering compressor pump, effectively improve the liquid separation efficiency of the dispenser, part-structure noise and suction noise, and the radiations heat energy of reasonable utilization compressor are eliminated simultaneously.
Description
Technical field
The present invention relates to air-conditioner device technical fields, in particular to a kind of dispenser structure and with its sky
Adjust device.
Background technique
In the dispenser used by rotor compressor, the action mode of dispenser is largely to be entered by strainer filtering
The impurity of gas, and liquid body contained in the refrigerant sucked in compressor pump is separated by radial spacers block.The process
Although efficiently but noise is larger, separating effect is unobvious, and with the increase of liquid refrigerants contained by input mixture, liquid separation
The separating effect of device is deteriorated therewith, and compressor is caused to reduce compression efficiency due to sucking big quantity of fluid.Liquid enters compression
It will lead to roller and slide plate in cavity and generate separation under liquid hammer effect, lead to the performance inconsistency of compressor and generate noise.By
It is mixed in the refrigeration oil and liquid refrigerants of dispenser, leads to compressor oil return low efficiency, this is to cause compressor abnormal
One of the reason of abrasion.Therefore, how to solve to efficiently separate in the R&D process of dispenser with oil return effect, be always research
Emphasis.The heat inside compressor can lose a part by the effect of heat radiation simultaneously, how rationally utilize the part
Heat reduce compressor sucking refrigerant contained in liquid ratio be also field brand-new in industry.Simultaneously in compressor operating
In the process, can also generate many noises along with the operation dispenser of compressor, how by reasonable structure by compressor
Characteristics of mode minimize and the dispenser institute facing challenges for the always rotor compressor of capable of eliminating the noise.
Summary of the invention
The main purpose of the present invention is to provide a kind of dispenser structure and with its air conditioner, to solve the prior art
The problem of middle dispenser structure liquid separation low efficiency.
To achieve the goals above, according to an aspect of the invention, there is provided a kind of dispenser structure, comprising: shell;
Lateral partitions, lateral partitions are set in shell so that shell is separated into upper cavity and lower chamber;Spin line partition, spin line partition are
Multiple, multiple spin line partitions are alternately arranged in lower chamber, are enclosed and are set as between adjacent spin line partition and the side wall of lower chamber
Independent gas-liquid separation channel, gas-liquid separation channel are inwardly increasingly towards at the axial location of shell along the radial direction of lower chamber
Precession offers the air through hole being connected with gas-liquid separation channel in lateral partitions.
Further, dispenser structure further include: exhaust pipe, exhaust pipe extend in lower chamber from the bottom of shell, rotation
One end of axis precession towards shell of line partition is connected with the outer surface of exhaust pipe, and oil return hole is provided on exhaust pipe,
The end in gas-liquid separation channel is connected by the open-ended and oil return hole of exhaust pipe with exhaust pipe.
Further, gas-liquid separation channel includes mutually independent first passage and second channel, multiple spin line partition packets
Include: the first spin line partition, the first spin line partition are set in lower chamber, and the first end of the first spin line partition is connected with lateral partitions
It connects, the second end of the first spin line partition is connected with the bottom of lower chamber, the first side of the first spin line partition and lower chamber
It is connected at the first position of inner surface, the second side of the first spin line partition is inwardly increasingly towards along the radial direction of lower chamber
Precession and it is connected with the second place of the outer surface of exhaust pipe at the axial location of shell;Second spin line partition, the second rotation
Line partition is set in lower chamber, and the first end of the second spin line partition is connected with lateral partitions, and the second of the second spin line partition
End is connected with the bottom of lower chamber, is connected at the first side of the second spin line partition and the third place of the inner surface of lower chamber
It connects, the second side of the second spin line partition is inwardly increasingly towards at the axial location of shell precession simultaneously along the radial direction of lower chamber
It is connected at the 4th position of the outer surface of exhaust pipe;Wherein, from the first side of the first spin line partition to the first spin line every
The second side of plate, the first spin line partition successively with the side wall of the lower chamber of part, the inner surface of the second spin line partition, part
The outer surface of exhaust pipe, which is enclosed, is set as first passage;From the first side of the second spin line partition to second side of the second spin line partition
Side, the second spin line partition successively with the side wall of the lower chamber of part, the inner surface of the first spin line partition, part exhaust pipe it is outer
Surface, which is enclosed, is set as second channel.
Further, first position is symmetrically arranged with the third place, and/or, the second position is with the 4th positional symmetry
Setting.
Further, dispenser structure further includes demarcation plate component, and demarcation plate component is arranged along the axis direction of lower chamber
In in lower chamber first passage is separated into multiple interconnected disengagement chambers, and/or, axis of the demarcation plate component along lower chamber
Line direction is set in lower chamber so that second channel is separated into multiple interconnected disengagement chambers.
Further, demarcation plate component includes: through-hole partition on first, and through-hole partition is set in first passage on first
And be connected with the outer surface of the inner surface of the first spin line partition and the second spin line partition, through-hole partition and lower chamber on first
Side wall, the first side of the first spin line partition enclose between the second spin line partition and are set as S1 disengagement chamber;Through-hole partition on second, the
Through-hole partition is set in second channel and the inner surface phase with the outer surface of the first spin line partition and the second spin line partition on two
It connects, encloses and set between the first side of the side wall of through-hole partition and lower chamber, the first spin line partition, the second spin line partition on second
At Q1 disengagement chamber, S1 disengagement chamber is oppositely disposed with Q1 disengagement chamber.
Further, demarcation plate component further include: the first upper filter screen partition, the first upper filter screen partition are set to first passage
It is interior and be connected with the outer surface of the inner surface of the first spin line partition and the second spin line partition, on the first upper filter screen partition and first
Through-hole partition, the first spin line partition enclose between the second spin line partition and are set as S2 disengagement chamber;Second upper filter screen partition is filtered on second
Net partition is set in second channel and is connected with the inner surface of the outer surface of the first spin line partition and the second spin line partition, the
Through-hole partition on two upper filter screen partitions and second, the first spin line partition enclose between the second spin line partition and are set as Q2 disengagement chamber.
Further, demarcation plate component further include: filter screen separator in first, filter screen separator is set to first passage in first
It is interior and be connected with the outer surface of the inner surface of the first spin line partition and the second spin line partition, in first in filter screen separator and first
Filter screen separator, the first spin line partition enclose between the second spin line partition and are set as S3 disengagement chamber;Filter screen separator in second is filtered in second
Net partition is set in second channel and is connected with the inner surface of the outer surface of the first spin line partition and the second spin line partition, the
Filter screen separator and the second upper filter screen partition in two, the first spin line partition enclose between the second spin line partition and are set as Q3 disengagement chamber, and S3 points
It is symmetrically arranged from chamber and Q3 disengagement chamber.
Further, demarcation plate component further includes third upper filter screen partition, and third upper filter screen partition is set to first passage
It is interior, it is enclosed between third upper filter screen partition and filter screen separator in first, the first spin line partition, the second spin line partition and is set as S4 and separates
Chamber, third upper filter screen partition and the first spin line partition, the second spin line partition enclose between exhaust pipe and are set as S5 disengagement chamber, and/or,
Third upper filter screen partition is set in second channel, filter screen separator, the first spin line partition, in third upper filter screen partition and second
It is enclosed between two spin line partitions and is set as Q4 disengagement chamber, third upper filter screen partition and the first spin line partition, the second spin line partition, exhaust pipe
Between enclose and be set as Q5 disengagement chamber.
Further, through-hole partition on first, the first upper filter screen partition, filter screen separator, third upper filter screen partition in first
On be provided with first through hole, and the distance of bottom of the first through hole apart from lower chamber along lower chamber radial direction inwardly gradually
Reduce, and/or, through-hole partition on second, the second upper filter screen partition, filter screen separator in second are all provided on third upper filter screen partition
It is equipped with the second through-hole, and the distance of bottom of second through-hole apart from lower chamber is inwardly gradually reduced along the radial direction of lower chamber.
Further, air through hole include the first air inlet and the second air inlet, the first air inlet be it is multiple, multiple first
Air inlet transversely partition outer peripheral arranged circumferentially spaced and is connected with S1 disengagement chamber.
Further, air through hole further includes the second air inlet, and the second air inlet is multiple, multiple second air inlets edges cross
It is connected to the outer peripheral arranged circumferentially spaced of partition and with Q1 disengagement chamber.
Further, the molded line of the cross section of the radial direction along lower chamber of the first spin line partition is involute or spiral
Line, and/or, the molded line of the cross section of the radial direction along lower chamber of the second spin line partition is involute or helix.
Further, the molded line of the geometric center lines of the cross section of the radial direction along lower chamber of first passage is gradually to open
Line or helix, and/or, the molded line of the geometric center lines of the cross section of the radial direction along lower chamber of second channel is gradually to open
Line or helix.
According to another aspect of the present invention, a kind of air conditioner, including dispenser structure are provided, dispenser structure is above-mentioned
Dispenser structure.
Apply the technical scheme of the present invention, multiple spin line partitions be set in the shell of dispenser structure, spin line partition with
Independent vapor-liquid separation channel is formed between shell, and the vapor-liquid separation channel is arranged to inside along the radial direction of shell
The mode of continuous precession, can effectively extend the release travel in vapor-liquid separation channel in this way, realize mixed in dispenser to entering
Efficiently separating for object is closed, the refrigeration oil that reduction system is taken back contained liquid refrigerants rate when entering compressor pump effectively mentions
The high liquid separation efficiency of the dispenser, while part-structure noise and suction noise are eliminated, and the spoke of reasonable utilization compressor
Penetrate heat.
Detailed description of the invention
The accompanying drawings constituting a part of this application is used to provide further understanding of the present invention, and of the invention shows
Examples and descriptions thereof are used to explain the present invention for meaning property, does not constitute improper limitations of the present invention.In the accompanying drawings:
Fig. 1 shows the structural schematic diagram of the first embodiment of dispenser structure according to the present invention;
Fig. 2 shows the A-A in Fig. 1 to schematic cross-sectional view;
Fig. 3 shows the embodiment of the first passage of dispenser structure according to the present invention and the airintake direction of second channel
Schematic diagram;
Fig. 4 shows the structural schematic diagram of the second embodiment of dispenser structure according to the present invention;
Fig. 5 shows the schematic cross-sectional view of the B-B direction in Fig. 4;
Fig. 6 show the C-C in Fig. 4 to schematic cross-sectional view;
Fig. 7 shows the schematic cross-sectional view of the 3rd embodiment of dispenser structure according to the present invention;
Fig. 8 shows the schematic cross-sectional view of the fourth embodiment of dispenser structure according to the present invention;
The molded line that Fig. 9 shows the first spin line partition according to the present invention and the second spin line partition is the embodiment of involute
Structural schematic diagram;
The molded line that Figure 10 shows the first spin line partition according to the present invention and the second spin line partition is the implementation of helix
The structural schematic diagram of example.
Wherein, the above drawings include the following reference numerals:
10, shell;11, upper cavity;12, lower chamber;
20, lateral partitions;21, the first air inlet;22, the second air inlet;23, stop boss;
30, exhaust pipe;31, oil return hole;
41, the first spin line partition;42, the second spin line partition;43, first passage;44, second channel;
51, through-hole partition on first;52, the first upper filter screen partition;53, filter screen separator in first;
61, through-hole partition on second;62, the second upper filter screen partition;63, filter screen separator in second;64, third upper filter screen every
Plate;
70, air inlet pipe;80, strainer.
Specific embodiment
It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase
Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.
It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root
According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singular
Also it is intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet
Include " when, indicate existing characteristics, step, operation, device, component and/or their combination.
It should be noted that term " first ", " second " etc. in the description and claims of this application and attached drawing
It is to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that the art used in this way
Language is interchangeable under appropriate circumstances, so that presently filed embodiment described herein for example can be in addition to illustrating herein
Or the sequence other than those of description is implemented.In addition, term " includes " and " having " and their any deformation, it is intended that
Cover it is non-exclusive include, for example, containing the process, method, system, product or equipment of a series of steps or units need not limit
In step or unit those of is clearly listed, but may include be not clearly listed or for these process, methods, produce
The other step or units of product or equipment inherently.
For ease of description, spatially relative term can be used herein, as " ... on ", " ... top ",
" ... upper surface ", " above " etc., for describing such as a device shown in the figure or feature and other devices or spy
The spatial relation of sign.It should be understood that spatially relative term is intended to comprising the orientation in addition to device described in figure
Except different direction in use or operation.For example, being described as if the device in attached drawing is squeezed " in other devices
It will be positioned as " under other devices or construction after part or construction top " or the device of " on other devices or construction "
Side " or " under other devices or construction ".Thus, exemplary term " ... top " may include " ... top " and
" in ... lower section " two kinds of orientation.The device can also be positioned with other different modes and (is rotated by 90 ° or in other orientation), and
And respective explanations are made to the opposite description in space used herein above.
Now, the illustrative embodiments according to the application are more fully described with reference to the accompanying drawings.However, these are exemplary
Embodiment can be implemented by many different forms, and should not be construed to be limited solely to embodiment party set forth herein
Formula.It should be understood that it is thoroughly and complete to these embodiments are provided so that disclosure herein, and these are shown
The design of example property embodiment is fully conveyed to those of ordinary skill in the art, in the accompanying drawings, for the sake of clarity, it is possible to expand
The big thickness of layer and region, and make that identical device is presented with like reference characters, thus omission retouches them
It states.
In conjunction with shown in Fig. 1 to Figure 10, according to an embodiment of the invention, providing a kind of dispenser structure.
Specifically, as depicted in figs. 1 and 2, which includes shell 10 and lateral partitions 20.Lateral partitions 20 are set
It is placed in shell 10 so that shell 10 is separated into upper cavity 11 and lower chamber 12;Spin line partition, spin line partition are multiple, Duo Gexuan
Line partition is alternately arranged in lower chamber 12, is enclosed between adjacent spin line partition and the side wall of lower chamber 12 and is set as independent gas
Liquid split tunnel, gas-liquid separation channel is inwardly increasingly towards at the axial location of shell 10 along the radial direction of lower chamber 12 revolves
Into offering the air through hole being connected with gas-liquid separation channel in lateral partitions 20.
In the present embodiment, multiple spin line partitions are set in the shell of dispenser structure, between spin line partition and shell
Independent vapor-liquid separation channel is formed, and the vapor-liquid separation channel is arranged to the radial direction inwardly continuous precession along shell
Mode, can effectively extend the release travel in vapor-liquid separation channel in this way, realize to the height for entering mixture in dispenser
Effect separation, the refrigeration oil that reduction system is taken back contained liquid refrigerants rate when entering compressor pump, effectively improves this point
The liquid separation efficiency of liquid device, while part-structure noise and suction noise are eliminated, and the radiations heat energy of reasonable utilization compressor.Its
In, precession herein refers to that vapor-liquid separation channel can be along certain angle that rotates in a circumferential direction of shell, the circle number of rotation
It can be at least one circle or more, the angle of rotation can be 540 °, be also possible to other angle values.
Wherein, dispenser structure further includes exhaust pipe 30.Exhaust pipe 30 extends in lower chamber 12 from the bottom of shell 10,
One end of the axis precession towards shell 10 of spin line partition is connected with the outer surface of exhaust pipe 30, is provided on exhaust pipe 30
The end of oil return hole 31, gas-liquid separation channel is connected by the open-ended and oil return hole 31 of exhaust pipe 30 with exhaust pipe 30.
Setting enables to open-ended discharge of the gas after separation from exhaust pipe 30 in this way, and the liquid after separation passes through oil return hole
In oil return to pump assembly.Further increase the liquid separation efficiency of the dispenser structure.
Specifically, shown in as shown in Figure 1, Figure 3 and Figure 4, gas-liquid separation channel includes mutually independent first passage 43 and second
Channel 44, multiple spin line partitions include the first spin line partition 41 and the second spin line partition 42.First spin line partition 41 is set to down
In cavity 12, the first end of the first spin line partition 41 is connected with lateral partitions 20, and the second end of the first spin line partition 41 is under
The bottom of cavity 12 is connected, and is connected at the first side and the first position of the inner surface of lower chamber 12 of the first spin line partition 41
It connects, the second side of the first spin line partition 41 is inwardly increasingly towards at the axial location of shell 10 along the radial direction of lower chamber 12
Precession is simultaneously connected with the second place of the outer surface of exhaust pipe 30.Second spin line partition 42 is set in lower chamber 12, the
The first end of two spin line partitions 42 is connected with lateral partitions 20, the second end of the second spin line partition 42 and the bottom of lower chamber 12
It is connected, is connected at the first side of the second spin line partition 42 and the third place of the inner surface of lower chamber 12.Second spin line
The second side of partition 42 along the radial direction of lower chamber 12 be inwardly increasingly towards at the axial location of shell 10 precession and with row
It is connected at 4th position of the outer surface of tracheae 30.Wherein, from the first side of the first spin line partition 41 to the first spin line every
The second side of plate 41, the first spin line partition 41 successively interior table with the side wall of the lower chamber 12 of part, the second spin line partition 42
The outer surface of the exhaust pipe 30 in face, part, which is enclosed, is set as first passage 43.From the first side of the second spin line partition 42 to the second rotation
The second side of line partition 42, the second spin line partition 42 successively with the side wall of the lower chamber 12 of part, the first spin line partition 41
Inner surface, part the outer surface of exhaust pipe 30 enclose and be set as second channel 44.It is logical can to effectively improve first for setting in this way
Leakproofness between road 43 and second channel 44.
Preferably, first position is symmetrically arranged with the third place, and the second position is arranged with the 4th positional symmetry.In this way
The vibratory output that air-flow is generated when flowing in first passage 43 and second channel 44 is arranged to cancel out each other, it can be effectively
Guarantee the stability of gas-liquid separator, while the effect for reducing noise can be effectively played.
As shown in Fig. 4 to Fig. 8, dispenser structure further includes demarcation plate component.Axis of the demarcation plate component along lower chamber 12
Direction is set in lower chamber 12 so that first passage 43 is separated into multiple interconnected disengagement chambers.Certainly, demarcation plate component
It can also be set to along the axis direction of lower chamber 12 in lower chamber 12 multiple interconnected second channel 44 to be separated into
Disengagement chamber.Setting enables to the refrigerant into lower chamber to separate more thorough in this way.
Specifically, as shown in figure 4, demarcation plate component includes through-hole partition 61 on through-hole partition 51 and second on first.The
On one through-hole partition 51 be set in first passage 43 and with the inner surface of the first spin line partition 41 and the second spin line partition 42
Outer surface is connected.The side wall of through-hole partition 51 and lower chamber 12, the first side of the first spin line partition 41, the second rotation on first
It is enclosed between line partition 42 and is set as S1 disengagement chamber.On second through-hole partition 61 be set in second channel 44 and with the first spin line partition
41 outer surface is connected with the inner surface of the second spin line partition 42, the side wall of through-hole partition 61 and lower chamber 12 on second, the
One spin line partition 41, the second spin line partition 42 first side between enclose and be set as Q1 disengagement chamber, S1 disengagement chamber and Q1 disengagement chamber phase
It is arranged over the ground.Setting enables to the noise generated in S1 disengagement chamber and in Q1 disengagement chamber that can cancel out each other in this way, plays drop
The effect of low dispenser structureborne noise.Wherein, through-hole partition 61 refers to and leads on first on through-hole partition 51 and second on first
The top of through-hole partition 61 is provided with the diaphragm structure of through-hole on hole partition 51 and second.
Demarcation plate component further includes the first upper filter screen partition 52 and the second upper filter screen partition 62.First upper filter screen partition 52 is set
It is placed in first passage 43 and is connected with the outer surface of the inner surface of the first spin line partition 41 and the second spin line partition 42, first
It is enclosed between upper filter screen partition 52 and through-hole partition 51 on first, the first spin line partition 41, the second spin line partition 42 and is set as S2 and separates
Chamber.Second upper filter screen partition 62 be set in second channel 44 and with the outer surface of the first spin line partition 41 and the second spin line partition
42 inner surface is connected, through-hole partition 61 on the second upper filter screen partition 62 and second, the first spin line partition 41, the second spin line every
It is enclosed between plate 42 and is set as Q2 disengagement chamber.Setting can effectively improve the liquid separation efficiency of dispenser structure in this way.Wherein, on first
Filter screen separator 52 and the second upper filter screen partition 62 refer on the top of the first upper filter screen partition 52 and the second upper filter screen partition 62
It is provided with the partition of the reticular structure of filtration.
In order to further improve the liquid separation efficiency of dispenser structure, demarcation plate component further include in first strainer every
Filter screen separator 63 in plate 53 and second.In first filter screen separator 53 be set in first passage 43 and with the first spin line partition 41
The outer surface of inner surface and the second spin line partition 42 is connected, filter screen separator 53 and the first upper filter screen partition 52, first in first
It is enclosed between spin line partition 41, the second spin line partition 42 and is set as S3 disengagement chamber.Filter screen separator 63 is set to second channel 44 in second
It is interior and be connected with the inner surface of the outer surface of the first spin line partition 41 and the second spin line partition 42, in second filter screen separator 63 with
Second upper filter screen partition 62, the first spin line partition 41 enclose between second spin line partition 42 and are set as Q3 disengagement chamber, S3 disengagement chamber and Q3
Disengagement chamber is symmetrically arranged.Setting can effectively improve the noise generated when the dispenser operation in this way, improve user's
Usage experience.Wherein, filter screen separator 63 refers to the filter screen separator 53 and in first in filter screen separator 53 and second in first
The middle part of filter screen separator 63 is provided with the netted partition of filtration in two, and the setting position of the reticular structure is than
Want lower in the setting position of reticular structure in one in filter screen separator 53 and second in filter screen separator 63.
Further, demarcation plate component further includes third upper filter screen partition 64.Third upper filter screen partition 64 is set to first
In channel 43, filter screen separator 53 in third upper filter screen partition 64 and first, the first spin line partition 41, between the second spin line partition 42
It encloses and is set as S4 disengagement chamber, third upper filter screen partition 64 and the first spin line partition 41, the second spin line partition 42 enclose between exhaust pipe 30
It is set as S5 disengagement chamber.Certainly, third upper filter screen partition 64 also can be set in second channel 44, third upper filter screen partition 64 with
Filter screen separator 63 in second, the first spin line partition 41 enclose between second spin line partition 42 and are set as Q4 disengagement chamber, third upper filter screen every
Plate 64 and the first spin line partition 41, the second spin line partition 42 enclose between exhaust pipe 30 and are set as Q5 disengagement chamber.Setting can make in this way
It obtains and is capable of forming enough disengagement chambers in gas-liquid separation channel, moreover, using the set-up mode of third upper filter screen partition 64,
It enables to the filter structure on each partition in demarcation plate component to be arranged for dislocation, is arranged in this way so that refrigerant enters gas
Primary shock can be realized after each disengagement chamber of liquid split tunnel, can then play the effect for further increasing gas-liquid separation
Rate.
As shown in figure 8, being filtered in through-hole partition 51 on first, filter screen separator 53 in the first upper filter screen partition 52, first, third
First through hole is provided on net partition 64, and the distance of bottom of the first through hole apart from lower chamber 12 is along the radial direction of lower chamber 12
Direction is inwardly gradually reduced.It is of course also possible on second through-hole partition 61, in the second upper filter screen partition 62, second strainer every
The second through-hole, and the distance edge of bottom of second through-hole apart from lower chamber 12 are provided on plate 63, third upper filter screen partition 64
The radial direction of lower chamber 12 is inwardly gradually reduced.Setting enables to the liquid in each disengagement chamber that can finally pass through back in this way
Oilhole realizes oil return.
As shown in Figure 1, air through hole include the first air inlet 21 and the second air inlet 22, the first air inlet 21 be it is multiple,
Multiple first air inlets 21 transversely partition 20 outer peripheral arranged circumferentially spaced and are connected with S1 disengagement chamber.Air inlet is logical
Hole further includes the second air inlet 22, and the second air inlet 22 is multiple, the outer edge of multiple second air inlets 22 transversely partition 20
It is arranged circumferentially spaced and be connected with Q1 disengagement chamber.Setting can further improve the liquid separation effect of dispenser structure in this way
Rate.
As shown in Figure 8 and Figure 9, the molded line of the cross section of the radial direction along lower chamber 12 of the first spin line partition 41 is gradually
It bursts at the seams or helix.The molded line of the cross section of the radial direction along lower chamber 12 of second spin line partition 42 is involute or spiral
Line.Setting can further improve the liquid separation efficiency of dispenser structure in this way.
Further, the molded line of the geometric center lines of the cross section of the radial direction along lower chamber 12 of first passage 43 is
Involute or helix.The molded line of the geometric center lines of the cross section of the radial direction along lower chamber 12 of second channel 44 is gradually
It bursts at the seams or helix.
Dispenser structure in above-described embodiment can be also used for air-conditioner device technical field, i.e., according to the present invention another
On the one hand, a kind of air conditioner, including dispenser structure are provided, dispenser structure is the dispenser structure in above-described embodiment.
Specifically, using the dispenser structure, it can effectively realize and be efficiently separated into the mixture inside dispenser,
It solves dispenser oil return solution dehumidification while migration, dispenser structureborne noise and air suction and noise can be eliminated, while reasonable utilization is compressed
Casing body heat radiation, the refrigeration oil that reduction system is taken back contained liquid refrigerants rate when entering compressor pump.
By the way that two are arranged inside dispenser even more than above gas-liquid separation channel, and the gas-liquid separation channel
Shape advantageously reduces dispenser vibration and noise;The partition of multiple and different functions is provided on gas-liquid separation channel simultaneously,
And oil return hole is set in partition bottom, reaches efficiently separating and guaranteeing oil return effect for mixture sucked to dispenser.Together
When be utilized compressor radiations heat energy, reduce the stored liquid content in dispenser, pushed to reach extreme band liquid operating condition
Requirement of the contracting machine to dispenser.
Dispenser to the effect of compressor be mainly reflected in from system enter compressor mixture be filtered and
Separation, while the refrigeration oil in mixture separate and compressor pump is back to by the oil return hole of dispenser straight tube bottom
Internal portion.As shown in Fig. 2, dispenser gas feed is air inlet pipe 70, when gas enters dispenser upper shell by air inlet pipe 70
When internal, strainer 80 can be filtered the impurity in mixture, and disperse the mixture being passed through at air inlet pipe, after being convenient for
Continuous centrifugation.Water conservancy diversion processing just is carried out to mixture by blocking boss 23 and lateral partitions 20 after through strainer.Stop
Boss and lateral partitions pass through as shown in Figure 1, outer circle is provided with two rows of air through hole at dispenser cylinder in lateral partitions
With lateral partitions welding blockings boss guide functions make from air inlet pipe entrance mixture flow to small through hole in, and fall into
Space under vent hole.The upper part of the dispenser is as described above, its difference is that boss is stopped to be welded with lateral partitions
, function only as guide functions.It is radially punished by the mixture for stopping boss to make to suck at dispenser air intake duct to dispenser
It dissipates, and the air through hole setting of lateral partitions is also corresponding with boss is stopped.
The air through hole of lateral partitions is corresponding with the partition compartment in Fig. 4.In Fig. 4, the first spin line partition and
Second spin line partition is two groups of contrary spin line type partitions.Spin line in the application refers to: including but not limited to gradually opening
The curves such as line, helical and clothoid, form can be similar to the above, it is characterized in that according to starting point and end point relative to
The angle of central point and define, the angle be greater than 0 and length of curve by the external world limit or have regular length, thread path can be by upper
One or more kinds of combinations are stated, or is constituted with straight line, broken line and is then defined as revolving similar to helical or the isostructural line style of involute
Line.Lateral partitions and dispenser lower shell are passed through by the spin line partition of above-mentioned setting in the axial direction, radially pass through dispenser cylinder
Body constitutes two groups of relatively closed spaces, and the air inlet in space is the air through hole of lateral partitions, and gas outlet is dispenser
Exhaust pipe, in space the access of gas as shown in Fig. 2, the space S (S1, S2, S3, S4, S5) and Q-space (Q1, Q2, Q3, Q4,
Q5) not connected, it is both flowed out from the straight tube of exhaust pipe when reaching gas outlet.Due to mixture by laterally every
The disjoint paths of dispenser are separated into two groups when plate, and are flowed to point by corresponding spin line partition under lateral partitions
The path of liquid device bend pipe is divided into two channels, thus, it is possible to increase the centrifugation to mixture, simultaneously because the two air inlets
Access be it is mutually indepedent and symmetrical, can eliminate dispenser air-breathing carry out when due to liquid random turbulence bring dispenser
Vibration and noise, and the channel can be even more by similar type setting three.As shwon in Figures 5 and 6, spin line every
The top of plate connects lateral partitions, and lower part connects dispenser lower shell, at the same spin line side connect up be dispenser straight tube and
Dispenser cylinder.
In fig. 2, it can be seen that other than spin line partition, there are also through-hole partition, upper filter screen partition and middle filter screen separator, three
A partition is referred to as separation partition, can be closed by two parts under lateral partitions by setting up these partitions in diagram axis
Continue to be separated into single small space in space.The setting form of these three partitions is consistent, radially with lateral partitions and dispenser
Lower shell connects, and connects in axial direction with two kinds of spin line partitions, while the specific region of the partition being provided with current limliting and separation
The mouth of effect is covered with strainer or through-hole on mouth, therefore can be for the mixture by the exit with centrifugation, together
When the direction radially away from gravity is set to due to the region, being formed by space with spin line partition can store point
From the liquid portion left after mixture.No matter the as can be seen in Figures 3 and 4 set separation partition in the space S
Form, mixture can flow into step by step close to the part of dispenser straight tube, together after lateral partitions inflow from initial space S 1/Q1
When can be cancelled out each other due to the gas rotating direction inside dispenser, the vibration and noise for dispenser have certain
Optimization.Simultaneously in the space that from the first space S 1/Q1 that lateral partitions enter, mixture is directly entered from air through hole
Space for largest surface area and on the outside of dispenser is more run by compressor due to that can receive on the outside of dispenser
And the heat of coming is radiated, the mixture in the space can be made further to evaporate, simultaneously because the space is under lateral partitions
The maximum space of each marker space, the liquefied mixture that can be detained is most, thus it is maximum to the converting heat rate of radiation and
Be conducive to from lateral partitions the liquid of water conservancy diversion be sufficiently separated.In Fig. 5 and Fig. 6 it can be seen that three kinds of separation partitions all with
Spin line partition is consistent, upper connection lateral partitions, lower connection dispenser lower shell, and left and right connects two different spin line partitions, because
Dispenser can be separated into each space as shown in Figure 4 by this in the axial direction.
It is dispenser air inlet pipe-upper filter screen-lateral partitions air through hole-on the flow direction of mixture in the above process
S1/Q1-S2/Q2-S3/Q3-S4/Q4-S5/Q5- exhaust pipe-compressor pump air entry, wherein play main centrifugation is
In from S1 to the access of exhaust pipe.With the citing of the space S, through-hole partition is provided that between S1 and S2, via regions setting exists
Above partition, liquid portion can be deposited in through-hole region below under gravity by mixture, and gas can be from through-hole
In pass through, thus by lateral partitions flow into mixture carry out initial gross separation, and by the liquid isolated storage stay within this space,
Gas is further converted to by above-mentioned heat radiation effect.When mixture is after the partition among S1 and S2, initial gross separation is made
With completion, but still have most liquid in mixture, therefore among S2 and S3 be upper filter screen partition, the partition with
The difference of through-hole partition are as follows: through-hole partition is greater than filter screen separator region with the region of through-hole, and strainer mesh will be much smaller than logical
Hole aperture.It is similar to by through-hole partition by the process of the partition, but since the centrifugation of strainer is higher than through-hole, point
There can be biggish promotion than through-hole partition from efficiency.Simultaneously again since the screen location setting of the partition is compared with close to lateral partitions,
Therefore the space S3 equally has liquid storage effect.After it have passed through two partitions of front, the liquid portion in mixture is big
It is big to reduce, while gas is come at the middle filter screen separator of S3 and S4 along path.Filter screen separator at this is not compared with upper filter screen partition institute
Be strainer region compared with upper filter screen partition to moving down, be for the gas passage of lateral partitions bottom for Pan Ji always
One blocking, gas hit in middle filter screen separator without filter screen part after the access of front, carry out in two kinds of baffle spaces
Reflection, finally the gas is discharged by the filter screen part of middle filter screen separator, into the space S4.It is emphasized that the space S3 is not
It only can be equally used as liquid separation Chu Liuqu, while also having sound deadening.When gas passes through the space, internal cause is hit partition and is produced
Raw play can not only eliminate portion gas with the noise of access itself, simultaneously because the space S3 and the space Q3 it is full symmetric and
The direction of vibration is completely on the contrary, can neutralize the energy of these vibrations and be eliminated from structure to loop noise.?
After the middle filter screen separator that have passed through the space S3, the upper filter screen partition in the space S4 and S5 plays final to entrance straight tube mixture
Centrifugation, simultaneously because gas causes with the collision of partition access again, similarly noise elimination is acted on the space S3, finally enters S5
The gas in space is concentrated on substantially on the direction close to lateral partitions, and enters the pump housing from straight tube, it is minimum for fluid loss and
Equally there is liquid storage effect in the space S5.Wherein, the arrangement of partition form and height connection setting are referred in Fig. 4 along B-B view
With the sectional view 5 and Fig. 6 of C-C view, the partition form in the figure only makees example effect.
The partition that the mixture flow in above-mentioned space is set up not only only has liquid storage effect, and there are also sound deadening shock absorption effects.?
It under the structure type of bispin line, can be maximally eliminated for eliminating the noise with energy caused by damping, for entering eventually into pump
The flow perturbation in internal portion is smaller.Simultaneously because the effect of bispin cable architecture and three kinds of partitions, will be divided into not inside dispenser
The chamber of same-action all has heat, dispenser liquid storage amount, structural damping and the noise elimination etc. that are radiated on dispenser important
Effect.It is typical two kinds of spiral forms if Fig. 9 and Figure 10, is arranged in the form of bispin line.
Almost the same inside mixture state and compressor in dispenser, the oil liquid for lubricating the pump housing is deposited in bottom
Portion, while the refrigerant of liquid floats on above, centre is the liquid refrigerants for being mixed with oil liquid.In dispenser operational process, liquid separation
Mixture state example on the active channel of device is as shown in Figure 8.Fig. 8 shows in Fig. 2 mixture along the space S (or S
Access) physical state that flows to during straight tube shows.As can be seen that the liquid stayed is stored up largely with liquid in the marker space from S1
Based on state refrigerant, a large amount of oil liquid refrigerant mixture is deposited on bottom, and can continue to be layered in space.Among S1 and S2
Through-hole partition in it can be seen that signal oil return hole, that is, through-hole, which only makees schematic form, it can be seen that this
Oil liquid liquid level will be lower than S1 oil liquid liquid level after the oil liquid directly released at oil return hole enters the space S2, when it is finally by four
When partition arrived the oil return hole of straight tube later, it will the filter for the oil return hole for undergoing these to set is from effect, when these oil return hole roots
Liquid entrained by the oil liquid in air inlet straight tube can will be entered finally into when being configured according to the oil separation filter in each space
Refrigerant is minimum.The figure only illustrates the position of oil return hole, but its physical location need according to dispenser oil return effect with
And the oil return efficiency setting in each space, so diagram does not represent the oil return hole actual position in dispenser.For dispenser
Liquid storage, separation, noise elimination, noise abatement, damping and oil return effect design the dispenser, have the achievable craftsmanship of height, and
Very big castering action can be played to compressor performance.
Than that described above, it is also necessary to which explanation is " one embodiment " spoken of in the present specification, " another implementation
Example ", " embodiment " etc. refer to that specific features, structure or the feature of embodiment description is combined to be included in the application summary
Property description at least one embodiment in.It is not centainly to refer to the same reality that statement of the same race, which occur, in multiple places in the description
Apply example.Furthermore, it is understood that is advocated is knot when describing a specific features, structure or feature in conjunction with any embodiment
Other embodiments are closed to realize that this feature, structure or feature are also fallen within the scope of the present invention.
In the above-described embodiments, it all emphasizes particularly on different fields to the description of each embodiment, there is no the portion being described in detail in some embodiment
Point, reference can be made to the related descriptions of other embodiments.
The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field
For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair
Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.
Claims (15)
1. a kind of dispenser structure characterized by comprising
Shell (10);
Lateral partitions (20), the lateral partitions (20) are set in the shell (10) so that the shell (10) to be separated into
Cavity (11) and lower chamber (12);
Spin line partition, the spin line partition be it is multiple, multiple spin line partitions are alternately arranged in the lower chamber (12),
It is enclosed between the side wall of adjacent the spin line partition and the lower chamber (12) and is set as independent gas-liquid separation channel, the gas-liquid
Split tunnel is inwardly increasingly towards precession at the axial location of the shell (10), institute along the radial direction of the lower chamber (12)
State the air through hole for offering on lateral partitions (20) and being connected with the gas-liquid separation channel.
2. dispenser structure according to claim 1, which is characterized in that the dispenser structure further include:
Exhaust pipe (30), the exhaust pipe (30) extends in the lower chamber (12) from the bottom of the shell (10), described
One end of the axis precession towards the shell (10) of spin line partition is connected with the outer surface of the exhaust pipe (30), described
It is provided on exhaust pipe (30) oil return hole (31), the end in the gas-liquid separation channel is opened by the end of the exhaust pipe (30)
Mouth and the oil return hole (31) are connected with the exhaust pipe (30).
3. dispenser structure according to claim 2, which is characterized in that the gas-liquid separation channel includes mutually independent
First passage (43) and second channel (44), multiple spin line partitions include:
First spin line partition (41), the first spin line partition (41) are set in the lower chamber (12), first spin line
The first end of partition (41) is connected with the lateral partitions (20), the second end of the first spin line partition (41) and it is described under
The bottom of cavity (12) is connected, the inner surface of the first side and lower chamber (12) of the first spin line partition (41)
It is connected at first position, the second side of the first spin line partition (41) is inside along the radial direction of the lower chamber (12)
It is increasingly towards precession and the second place phase with the outer surface of the exhaust pipe (30) at the axial location of the shell (10)
Connection;
Second spin line partition (42), the second spin line partition (42) are set in the lower chamber (12), second spin line
The first end of partition (42) is connected with the lateral partitions (20), the second end of the second spin line partition (42) and it is described under
The bottom of cavity (12) is connected, the inner surface of the first side and lower chamber (12) of the second spin line partition (42)
It is connected at the third place, the second side of the second spin line partition (42) is inside along the radial direction of the lower chamber (12)
Be increasingly towards at the axial location of the shell (10) precession and with phase at the 4th position of the outer surface of the exhaust pipe (30)
Connection;
Wherein, from the first side of the first spin line partition (41) to the second side of the first spin line partition (41), institute
State interior table of the first spin line partition (41) successively with the side wall of the lower chamber (12) of part, the second spin line partition (42)
The outer surface of the exhaust pipe (30) in face, part, which is enclosed, is set as the first passage (43);
From the first side of the second spin line partition (42) to the second side of the second spin line partition (42), described second
Spin line partition (42) successively with the side wall of the lower chamber (12) of part, the inner surface of the first spin line partition (41), portion
The outer surface of the exhaust pipe (30) divided, which is enclosed, is set as the second channel (44).
4. dispenser structure according to claim 3, which is characterized in that the first position and the third place are symmetrical
Ground setting, and/or, the second position is arranged with the 4th positional symmetry.
5. dispenser structure according to claim 3, which is characterized in that the dispenser structure further includes separating board group
Part, the demarcation plate component are set in the lower chamber (12) along the axis direction of the lower chamber (12) with by described first
Channel (43) is separated into multiple interconnected disengagement chambers, and/or, axis of the demarcation plate component along the lower chamber (12)
Direction is set in the lower chamber (12) so that the second channel (44) is separated into multiple interconnected disengagement chambers.
6. dispenser structure according to claim 5, which is characterized in that the demarcation plate component includes:
Through-hole partition (51) on first, on described first through-hole partition (51) be set in the first passage (43) and with it is described
The inner surface of first spin line partition (41) is connected with the outer surface of the second spin line partition (42), on described first through-hole every
Plate (51) and the side wall of the lower chamber (12), the first side of the first spin line partition (41), the second spin line partition
(42) it is enclosed between and is set as S1 disengagement chamber;
Through-hole partition (61) on second, on described second through-hole partition (61) be set in the second channel (44) and with it is described
The outer surface of first spin line partition (41) is connected with the inner surface of the second spin line partition (42), on described second through-hole every
The side walls of plate (61) and the lower chamber (12), the first spin line partition (41), the second spin line partition (42) first
It is enclosed between side and is set as Q1 disengagement chamber, the S1 disengagement chamber is oppositely disposed with the Q1 disengagement chamber.
7. dispenser structure according to claim 6, which is characterized in that the demarcation plate component further include:
First upper filter screen partition (52), the first upper filter screen partition (52) be set in the first passage (43) and with it is described
The inner surface of first spin line partition (41) is connected with the outer surface of the second spin line partition (42), first upper filter screen every
Through-hole partition (51) on plate (52) and described first, the first spin line partition (41), between the second spin line partition (42)
It encloses and is set as S2 disengagement chamber;
Second upper filter screen partition (62), the second upper filter screen partition (62) be set in the second channel (44) and with it is described
The outer surface of first spin line partition (41) is connected with the inner surface of the second spin line partition (42), second upper filter screen every
Through-hole partition (61) on plate (62) and described second, the first spin line partition (41) are enclosed between the second spin line partition (42) and are set
At Q2 disengagement chamber.
8. dispenser structure according to claim 7, which is characterized in that the demarcation plate component further include:
Filter screen separator (53) in first, in described first filter screen separator (53) be set in the first passage (43) and with it is described
The inner surface of first spin line partition (41) is connected with the outer surface of the second spin line partition (42), in described first strainer every
Plate (53) and the first upper filter screen partition (52), the first spin line partition (41), between the second spin line partition (42)
It encloses and is set as S3 disengagement chamber;
Filter screen separator (63) in second, in described second filter screen separator (63) be set in the second channel (44) and with it is described
The outer surface of first spin line partition (41) is connected with the inner surface of the second spin line partition (42), in described second strainer every
Plate (63) and the second upper filter screen partition (62), the first spin line partition (41) are enclosed between the second spin line partition (42) and are set
At Q3 disengagement chamber, the S3 disengagement chamber is symmetrically arranged with the Q3 disengagement chamber.
9. dispenser structure according to claim 8, which is characterized in that the demarcation plate component further includes third upper filter screen
Partition (64), the third upper filter screen partition (64) are set in the first passage (43), the third upper filter screen partition
(64) filter screen separator (53) and in described first, the first spin line partition (41) are enclosed between the second spin line partition (42)
It is set as S4 disengagement chamber, the third upper filter screen partition (64) and the first spin line partition (41), the second spin line partition
(42), it is enclosed between the exhaust pipe (30) and is set as S5 disengagement chamber, and/or, the third upper filter screen partition (64) is set to described
In second channel (44), filter screen separator (63) in the third upper filter screen partition (64) and described second, first spin line every
It is enclosed between plate (41), the second spin line partition (42) and is set as Q4 disengagement chamber, the third upper filter screen partition (64) and described the
One spin line partition (41), the second spin line partition (42) enclose between the exhaust pipe (30) and are set as Q5 disengagement chamber.
10. dispenser structure according to claim 9, which is characterized in that through-hole partition (51), described on described first
One upper filter screen partition (52), filter screen separator (53) in described first are provided with first on the third upper filter screen partition (64)
Through-hole, and the distance of bottom of the first through hole apart from the lower chamber (12) along the lower chamber (12) radial direction to
Inside it is gradually reduced, and/or, through-hole partition (61) on described second, the second upper filter screen partition (62), strainer in described second
The second through-hole is provided on partition (63), the third upper filter screen partition (64), and second through-hole is apart from the cavity of resorption
The distance of the bottom of body (12) is inwardly gradually reduced along the radial direction of the lower chamber (12).
11. dispenser structure according to claim 6, which is characterized in that the air through hole includes the first air inlet
(21) and the second air inlet (22), first air inlet (21) is multiple, and multiple first air inlets (21) are along the cross
It is connected to the outer peripheral arranged circumferentially spaced of partition (20) and with the S1 disengagement chamber.
12. dispenser structure according to claim 11, which is characterized in that the air through hole further includes the second air inlet
(22), second air inlet (22) is multiple, outside of multiple second air inlets (22) along the lateral partitions (20)
Edge arranged circumferentially spaced is simultaneously connected with the Q1 disengagement chamber.
13. dispenser structure according to claim 3, which is characterized in that the first spin line partition (41) along described
The molded line of the cross section of the radial direction of lower chamber (12) be involute or helix, and/or, the edge of the second spin line partition (42)
The molded line of the cross section of the radial direction of the lower chamber (12) is involute or helix.
14. dispenser structure according to claim 3, which is characterized in that the first passage (43) along the cavity of resorption
The molded line of the geometric center lines of the cross section of the radial direction of body (12) be involute or helix, and/or, the second channel
(44) molded line of the geometric center lines of the cross section of the radial direction along the lower chamber (12) is involute or helix.
15. a kind of air conditioner, including dispenser structure, which is characterized in that the dispenser structure is to appoint in claim 1 to 14
Dispenser structure described in one.
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CN201910357507.5A CN109974357A (en) | 2019-04-29 | 2019-04-29 | Dispenser structure and air conditioner with it |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113509766A (en) * | 2021-04-27 | 2021-10-19 | 金华市农业科学研究院(浙江省农业机械研究院) | Tea seed oil production is with connecing oily filter equipment |
CN114534418A (en) * | 2022-02-18 | 2022-05-27 | 阳光氢能科技有限公司 | Gas-liquid separator and hydrogen production system |
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CN103743269A (en) * | 2014-01-27 | 2014-04-23 | 南通曙光机电工程有限公司 | Non-isometric double-spiral baffle-plate tube shell heat exchanger |
CN107843033A (en) * | 2016-09-21 | 2018-03-27 | 瑞智精密股份有限公司 | Air-conditioning device for storing liquid with noise-reducing structure |
CN109357445A (en) * | 2018-11-26 | 2019-02-19 | 珠海格力节能环保制冷技术研究中心有限公司 | Dispenser structure and air conditioner with it |
CN210035964U (en) * | 2019-04-29 | 2020-02-07 | 珠海格力节能环保制冷技术研究中心有限公司 | Knockout structure and have its air conditioner |
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JP2001038198A (en) * | 1999-08-03 | 2001-02-13 | Akio Takaku | Fluid flow separation device |
CN103743269A (en) * | 2014-01-27 | 2014-04-23 | 南通曙光机电工程有限公司 | Non-isometric double-spiral baffle-plate tube shell heat exchanger |
CN107843033A (en) * | 2016-09-21 | 2018-03-27 | 瑞智精密股份有限公司 | Air-conditioning device for storing liquid with noise-reducing structure |
CN109357445A (en) * | 2018-11-26 | 2019-02-19 | 珠海格力节能环保制冷技术研究中心有限公司 | Dispenser structure and air conditioner with it |
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CN113509766A (en) * | 2021-04-27 | 2021-10-19 | 金华市农业科学研究院(浙江省农业机械研究院) | Tea seed oil production is with connecing oily filter equipment |
CN114534418A (en) * | 2022-02-18 | 2022-05-27 | 阳光氢能科技有限公司 | Gas-liquid separator and hydrogen production system |
CN114534418B (en) * | 2022-02-18 | 2023-11-28 | 阳光氢能科技有限公司 | Gas-liquid separator and hydrogen production system |
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