CN104929910B - Oil recovery apparatus - Google Patents
Oil recovery apparatus Download PDFInfo
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- CN104929910B CN104929910B CN201510076252.7A CN201510076252A CN104929910B CN 104929910 B CN104929910 B CN 104929910B CN 201510076252 A CN201510076252 A CN 201510076252A CN 104929910 B CN104929910 B CN 104929910B
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- Prior art keywords
- fuel tank
- oil
- guide chute
- rake
- guide
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Abstract
The present invention discloses a kind of oil recovery apparatus, can improve the quality of the oil of recycling, and the oil recovery apparatus has:Fuel tank is located at the lower part of the flow channel for oil recovery, for storing the oil flowed into from flow channel by inflow entrance;First guide chute is located at the fuel tank internal, and has the first rake, and the other end to lower part is guided from one end to the oil that will be flowed by the inflow entrance;Second guide chute is located at the fuel tank internal, and has the second rake, so that the oil from first guide chute is guided the other end to lower part from one end;Diaphragm is located at the fuel tank internal, and is contacted with the inner side surface of the inside bottom surface and the fuel tank of the fuel tank, to the flowing of oil of the control from second guide chute.
Description
Technical field
The embodiment of the present invention is related to a kind of oil recovery apparatus more particularly to a kind of oil of the quality for the oil that recycling can be improved
Retracting device.
Background technology
In various mechanical device, oil is used for the smoothly movement of various parts.For example, compressor is will be outer
The fluid in portion sucks and compresses and be supplied to the device of special equipment.Here, compressor can in order to drive internal rotary body
To have gear-box and/or bearing.In particular, being disposed with multiple gears in gear-box and rotary body can be transmitted drive force to.It is right
Such gear and/or bearing can supply oil to realize sealing and smoothly run.At this point, being supplied to gear and/or bearing
Oil is continuously fed with, and remaining oil can be recovered to fuel tank again after use.
Include a large amount of gas in oil for the oil recycled in this way.Therefore, outside being discharged to the oil in fuel tank
Before portion, the gas being first included in oil is needed to be reduced to proper level or less.However for existing fuel tank, only
Play the role of simply temporarily storing the oil of recycling, the gas for including in the oil of recycling can not be reduced.
Invention content
The present invention is used to solve the various problems including technical problem as described above, and its purpose is to provide one kind
The oil recovery apparatus of the quality of the oil of recycling can be improved.However such technical problem is only illustrative, the scope of the present invention
It is not so limited.
A kind of viewpoint according to the present invention, provides a kind of oil recovery apparatus, has:Fuel tank is located at the stream for oil recovery
Enter the lower part in channel, for storing the oil flowed into from flow channel by inflow entrance;First guide chute is located at the fuel tank
Inside, and there is the first rake, the other end to lower part is guided from one end to the oil that will be flowed by the inflow entrance;
Second guide chute is located at the fuel tank internal, and has the second rake, thus will be from the oil of first guide chute
The other end to lower part is guided from one end;Diaphragm is located at the fuel tank internal, and is contacted with inside bottom surface and the institute of the fuel tank
The inner side surface of fuel tank is stated, to the flowing of oil of the control from second guide chute.
The other end of second guide chute can be located at below the pasta for being stored in the oil in the fuel tank.
One end of connection first rake of first guide chute and the one side edge of the other end can contact in
The inner side surface of the fuel tank, first guide chute can also have:Partition panel is arranged as and connect first inclination
The other side side edge of the one end in portion and first guide chute of the other end, to make the oil on first rake
It is guided to the other end of first rake.
One end of connection second rake of second guide chute and the one side edge of the other end can contact in
The inner side surface of the fuel tank, and connect the another of one end of second rake and second guide chute of the other end
Lateral edges can contact on the surface of the diaphragm, be tilted so as to guide the oil on second rake to described second
The other end in portion.
In the case, the first direction of oil is guided by first rake of first guide chute and led to
It crosses second rake of second guide chute and guides the second direction of oil can be not parallel.
In turn, the edge of the diaphragm in the second direction can contact in the inner side surface of the fuel tank, and described
The edge of the diaphragm in the opposite direction in two directions is at least part of to be detached from the inner side surface of the fuel tank.
Also, the oil recovery apparatus can also have:Flow pass prolongs outside the fuel tank to the fuel tank internal
It stretches, to make the oil of the fuel tank internal that can flow out to the fuel tank by the outflux of one end in the fuel tank internal
Outside, moreover, on the basis of the diaphragm, the outflux of the flow pass can be located at where second guide chute
The opposite side of one side.
The flow pass can have bending part, to make the outflux towards the inside bottom surface of the fuel tank.
The flow pass can extend to the fuel tank internal, the outflow outside the fuel tank along the second direction
Mouth can be located at the end of the second direction of the flow pass.
In addition, at least two in first guide chute, second guide chute and the diaphragm may make up
It is integrated.
Other aspects, feature, advantage other than foregoing teachings will be by below specific for carrying out an invention
Content, claims and attached drawing and clear understanding.
According to the one embodiment of the present of invention constituted as described above, it can be achieved that a kind of quality of the oil of recycling is carried
High oil recovery apparatus.Certainly, the scope of the present invention is not limited by such technique effect.
Description of the drawings
Fig. 1 is the stereoscopic schematic diagram that outlined oil recovery apparatus according to an embodiment of the invention.
Fig. 2 is the first guide chute, the second guide chute and diaphragm that outlined the oil recovery apparatus in Fig. 1
Stereogram.
Fig. 3 is the stereogram of a part for the flow pass that outlined the oil recovery apparatus in Fig. 1.
Symbol description
110:Flow channel 120:Fuel tank
121:First guide chute 1211:First rake
1212:Partition panel 123:Connecting plate
125:Second guide chute 127:Diaphragm
131、132:Flow pass
Specific implementation mode
The present invention can apply various transformation, and can have various embodiments, and particular implementation is illustrated in figure, will be by detailed
Thin explanation specifically illustrates.With reference to the embodiment being described with reference to the accompanying drawings will be apparent from the present invention effect, feature and
Achieve the goal method used.However, the invention is not limited in embodiments disclosed below, but can be by various form
It realizes.
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, when being described with reference to the drawings, to identical or corresponding
Inscape assigns identical reference numeral, and omits associated repeated explanation.
Below in an example, it is located at other inscapes when mentioning the various inscapes such as certain layer, film, region, plate
Include not only the situation positioned at other inscapes " above adjacent ", but also include being folded with other structures therebetween when "upper"
At the situation of element.Also, for convenience of description, the size of inscape may be zoomed in or out and be shown in figure.For example,
The size and thickness of each inscape shown in figure are arbitrarily indicated that the invention is not limited in diagrams in order to illustrate
Situation.
Below in an example, x-axis, y-axis and z-axis are not limited to three axis that orthogonal coordinates are fastened, but can be with
It is construed to include this wide in range meaning.For example, x-axis, y-axis and z-axis can be mutually orthogonal, however can also be directed toward and non-orthogonal
Different directions.
Fig. 1 is the stereoscopic schematic diagram that outlined oil recovery apparatus according to an embodiment of the invention, and Fig. 2 is general
Slightly indicate the first guide chute (slant) of oil recovery apparatus, the stereogram of the second guide chute and diaphragm.Such as Fig. 1 and
Shown in Fig. 2, according to the oil recovery apparatus of the present embodiment have fuel tank 120, the first guide chute 121, the second guide chute 125 with
And diaphragm 127.
Fuel tank 120 and compressor (not shown) etc. are connect, and positioned at the flow channel of the oil for recycling the compressor etc.
The lower part of 110 (label is owed in figure).Flow channel 110 can be piping form.Fuel tank 120 will be logical from flowing by inflow entrance
The oil measure that road 110 flows into is stored in internal (f1 referring to Fig.1).The oil being stored in fuel tank 120 can be by being formed in the stream of lower part
Outlet and flow pass 131,132 and flow out to outside fuel tank 120.
Fuel tank 120 is internally provided with the first guide chute 121.First guide chute 121 has the first rake 1211, from
And the oil flowed by inflow entrance is guided to the other end of (directions+y and the directions-z) lower part (referring to Fig.1 from one end
f2).That is, the first guide chute 121 prevents from entering the directly landing of the oil in fuel tank 120 by inflow entrance from flow channel 110
Onto the oil being stored in fuel tank 120.
If directly dropped on the oil being stored in fuel tank 120 by the oil that inflow entrance enters in fuel tank 120,
The surface that kinetic energy and momentum when oil landing lead to be stored in the oil in fuel tank 120 is rippled, and thus can not be confirmed and is stored in fuel tank
The accurate amount of oil in 120.In particular, being stored in if directly dropped to by the oil that inflow entrance enters in fuel tank 120
On oil in fuel tank 120, then due to oil land when impact and cause mist of oil steam (fume).The mist of oil steam storage is in fuel tank
The upper space for the oil stored in 120, pressure change when so as to ripple with the surface for the oil being stored in fuel tank 120
And it is discharged into air and becomes the source of atmospheric pollution.
However, for the oil recovery apparatus according to the present embodiment, the first guide chute 121 is provided in fuel tank 120,
It is stored in fuel tank 120 to make directly drop to from the oil that flow channel 110 is entered by inflow entrance in fuel tank 120
Oil on, but drop to the first guide chute 121.Moreover, the first guide chute 121 has the first rake 1211, then
Drop in the first guide chute 121 oil will along first rake 1211 and to be stored in fuel tank 120 oil at
It is mobile.Accordingly, it is generated when the oil entered in fuel tank 120 by inflow entrance being made to enter on the oil being stored in fuel tank 120
Impact reduces, so as to substantially reduce the yield of mist of oil steam.
For the first rake 1211 of such first guide chute 121, the one of one end and the other end is connected
Lateral edges 1211a can contact the directions-x inner side surface in fuel tank 120.Also, the first guide chute 121 can also have partition
Plate 1212, the partition panel 1212 may be disposed so that another lateral edges with one end and the other end for connecting the first rake 1211
1211b connects.Accordingly, under the action of the directions-x inner side surface of fuel tank 120 and partition panel 1212, on the first rake 1211
Oil without departing from the first rake 1211, but along the first rake 1211 and from one end of the first rake 1211 guide
To the other end.
Second guide chute 125 is also disposed on inside fuel tank 120.Second guide chute 125 has the second rake, from
And the oil from the first guide chute 121 can be guided from one end of the second guide chute 125 to (directions+x and the directions-z)
The other end (f3 referring to Fig.1) of lower part.Certainly, it can be pressed from both sides between the first guide chute 121 and the second guide chute 125 thus
If connecting plate 123.That is, connecting plate 123 can connect one end of the other end and the second guide chute 125 of the first guide chute 121.
Can certainly according to circumstances the connecting plate 123 be considered as a part for the first guide chute 121 or be considered as the second guiding
A part for chute 125.For being considered as the situation of a part of the second guide chute 125, reference numeral " 125 " is appreciated that
To indicate the second rake of the second guide chute.This point is same to aftermentioned embodiment and its variation.
The other end of second guide chute 125 can be located at below the pasta for being stored in the oil in fuel tank 120.It accordingly, can be with
When making the oil guided by the first guide chute 121 and the second guide chute 125 into the oil being stored in fuel tank 120
Impact minimizes, so as to prevent or minimize the generation of steam.
For the second rake of such second guide chute 125, a side of one end and the other end is connected
Edge 125a can contact the directions+y inner side surface in fuel tank 120.Moreover, the second rake of the second guide chute 125 of connection
Another lateral edges 125b of one end and the other end can contact on the surface of diaphragm 127 as described later.By means of such oil
The directions+y the inner side surface and diaphragm 127 of case 120, the oil on the second rake is without departing from the second rake, but along the
Two rakes and guided from one end of the second rake to the other end.
In addition, as depicted in figs. 1 and 2, by the first guide chute 121 first rake 1211 by guide oil first
Direction (directions+y and the directions-z) with by the second guide chute 125 second rake by guide oil the second direction (sides+x
To and the directions-z) may be configured as it is not parallel.In fig. 1 and 2, it is illustrated as tilting by the first of the first guide chute 121
Portion 1211 and guide oil first direction (the substantially directions+y) with by the second guide chute 125 second rake by guide
The second direction (the substantially directions+x) of oil is vertical.
In this way, by the first guide chute 121 first rake 1211 by guide oil first direction (substantially+y
Direction) with by the second guide chute 125 second rake by guide oil second direction (the substantially directions+x) it is vertical
In the case of, by the first guide chute 121 first rake 1211 by guide oil entering the second guide chute 125
Before second rake, the transformation of its flow direction first occurs on connecting plate 123.At this point, in the process of flow direction transformation
The flowing velocity of middle oil will reduce, and result makes the oil guided by the second guide chute 125 enter to be stored in fuel tank 120
Impact when interior oil minimizes, so as to prevent or minimize the generation of steam.
Diaphragm 127 also is located inside fuel tank 120, which is contacted with the directions-z inside bottom surface and fuel tank of fuel tank 120
120 inner side surface, to the flowing of oil of the control from the second guide chute 125.
Specifically, the directions-z edge 127a of diaphragm 127 is contacted with the directions-z inside bottom surface of fuel tank 120.Diaphragm 127
The directions+z edge 127b can not contacted as depicted in figs. 1 and 2 with top surface on the inside of the directions+z of fuel tank 120, and can also root
The top surface on the inside of the directions+z of fuel tank 120 is disposed in contact with according to needs.Preferably, by the directions+z edge 127b of diaphragm 127
It is set as top surface on the inside of the directions+z not with fuel tank 120 as depicted in figs. 1 and 2 to contact, to make gas be stored in fuel tank
It is dredged in the upper space of oil in 120.
Also, the edge 127c in the second direction (directions+x) of diaphragm 127 is contacted with side on the inside of the directions+x of fuel tank 120
Face, and edge 127d, 127e of the diaphragm 127 in the opposite direction (directions-x) of second direction (directions+x) are at least part of
From the directions-x inner side surface separation of fuel tank 120.In fig. 1 and 2, the edge 127e of diaphragm 127 is contacted with the-x of fuel tank 120
Direction inner side surface, however edge 127d is but not in contact in the directions-x inner side surface of fuel tank 120.As a result, in the first guiding
In the edge vicinity 127d of diaphragm 127 there are channel, which is not blocked by diaphragm 127 and can fuel feeding for the lower part of chute 121
It is mobile.
As shown in Figure 1, flow pass 131,132 outside fuel tank 120 to 120 internal stretch of fuel tank, and fuel tank can be passed through
The outflux of one end in 120 inside and so that the oil inside fuel tank 120 is flowed out to outside fuel tank 120.At this point, being with diaphragm 127
Benchmark, the outflux of flow pass 131,132 are located at the phase negative side (sides-y of 125 one side of place (directions+y) of the second guide chute
To).
With such a configuration, the oil for being guided by the second guide chute 125 and being entered 125 lower part of the second guide chute exists
The opposite direction (directions-x) in 125 lower part of the second guide chute towards second direction (directions+x) is mobile (f4 referring to Fig.1), then
The edge 127d of diaphragm 127 in the opposite direction (directions-x) in second direction (directions+x) moves about flow pass
131, (it is not the lower part of the second guide chute 125 to 132 whereabouts;F5 referring to Fig.1).
For the oil recovery apparatus according to the present embodiment, the oil of fuel tank 120 is flowed by means of by the first guiding
Space defined by chute 121, connecting plate 123, the second guide chute 125 and diaphragm 127 and pass through and indicated with f1~f5
The space where flow pass 131,132 is just reached after longer path.Accordingly, the mistake of flow pass 131,132 is reached in oil
Cheng Zhong, it can be ensured that be contained in the gas in oil and escape the required sufficient time from oil.Therefore, it is returned according to the oil of the present embodiment
Receiving apparatus is not the effect that the oil for functioning only as to recycle simply temporarily is stored, but can make to be contained in the oil of recycling
Gas is reduced to appropriate below horizontal.
Flow pass 131,132 is extended to along second direction (directions+x) inside fuel tank 120 outside fuel tank 120, stream
Outlet can be located at second direction (directions+x) end of flow pass 131,132.Accordingly, in the opposite of second direction (directions+x)
The edge 127d of diaphragm 127 on direction (directions-x) moves about flow pass 131, (it is not second to 132 whereabouts
The lower part of guide chute 125) oil (directions+x) is mobile in a second direction again, may then pass through outflux and enter stream
Go out 131,132 inside (f6 referring to Fig.1) of channel.Accordingly, during oil reaches the outflux of flow pass 131,132,
It can ensure that the gas being contained in oil escapes the required sufficient time from oil.
In addition, Fig. 3 is the stereogram of a part for the flow pass for the oil recovery apparatus for roughly showing Fig. 1, as schemed institute
Show, flow pass 131,132 has bending part 131a, 132a, so as to so that the outflux direction of flow pass 131,132 is oily
The inside bottom surface in the directions-z of case 120.If beginning through outflux from the oil on top in the oil being stored in fuel tank 120 to enter
To inside flow pass 131,132, then the oil for the oily middle and lower part being stored in fuel tank 120 stays in for a long time due to flow stagnation
In fuel tank 120, the oil of the oily middle and upper part that is stored on the contrary in fuel tank 120 but due to stay in the time in fuel tank 120 it is shorter and
It is entered in the state that the gas in being contained in oil is not discharged to the outside fully inside flow pass 131,132.
However, for the oil recovery apparatus according to the present embodiment, the outflux of flow pass 131,132 is towards fuel tank
The inside bottom surface in 120 directions-z, to bring following result:The oil in the oil in fuel tank 120 from lower part is stored in (on not
The oil in portion) it begins through outflux and enters inside flow pass 131,132, accordingly, it can make to be stored in fuel tank 120
Oily fully cycle.Moreover, substantially ensuring that oil stays in the time in fuel tank 120 accordingly, so as to so that oily in being contained in oil
Gas be fully discharged to the outside in the state of enter inside flow pass 131,132.
As shown in Figure 1 to Figure 3, flow pass 131,132 may include mutually different two pipelines of diameter.Accordingly, such as
Two pipelines can be used together in the case where needing to make the oil outflow rapidly in fuel tank 120, and needing to make oily slow outflow
In the case of using the smaller pipeline of diameter in two pipelines, according to circumstances can be readily adjusted discharge like this.
For such oil recovery apparatus according to the present embodiment, the first guide chute 121, the second guide chute
125 and diaphragm 127 at least two may be configured as one.Wherein, so-called one not only passes through bending including a plate
Or punching press etc. and the situation processed, but also include make be independent plate after the feelings such as be interconnected bys welding etc.
Shape.Due to making at least two in the first guide chute 121, the second guide chute 125 and diaphragm 127 to be integrally constituted, in
It is only to need in the interior component for installing one as described above of fuel tank 120, therefore easily fabricated oil recovery apparatus.
In this way, the embodiment illustrated in reference chart and the present invention is described, however this only shows
Example, if it is the personnel with general knowledge in this field it is understood that various deformation and of equal value other can be achieved in
Embodiment.Therefore, real protection domain of the invention should be determined by the technological thought of claims.
Claims (5)
1. a kind of oil recovery apparatus, has:
Fuel tank is located at the lower part of the flow channel for oil recovery, is flowed into from flow channel by inflow entrance for storing
Oil;
First guide chute is located at the fuel tank internal, and has the first rake, to be flowed by the inflow entrance
Oil from one end guide to the other end of lower part come along first direction guide oil;
Second guide chute is located at the fuel tank internal, and has the second rake, to come from first guide chute
Oil from one end guide to the other end of lower part come along and the not parallel second direction of first direction guide oil, second guiding
One end of connection second rake of chute and the one side edge of the other end are contacted with the inner side surface of the fuel tank, and
Second guide chute is detached from the inside bottom surface of the fuel tank;
Diaphragm is located at the fuel tank internal, and is contacted with the inside bottom surface of the fuel tank and the second direction of the fuel tank
Inner side surface and detached with the inner side surface in the opposite direction with the second direction of the fuel tank, be contacted with described
Another lateral edges of one end and the other end of connection second rake of two guide chutes, to which control comes from described second
The oil of guide chute is by the lower part of second guide chute and by from the opposite with the second direction of the fuel tank
Direction inner side surface separation part flowing;
Flow pass extends towards the fuel tank internal in a second direction outside the fuel tank, is located in the fuel tank internal
Located in the opposite direction in the side that second guide chute is located at centered on the diaphragm, to make the fuel tank internal
Oil can be flowed out to outside the fuel tank by the outflux of the end of the second direction.
2. oil recovery apparatus as described in claim 1, wherein the other end of second guide chute is described positioned at being stored in
Below the pasta of oil in fuel tank.
3. oil recovery apparatus as described in claim 1, wherein connection first rake of first guide chute
The one side edge of one end and the other end is contacted with the inner side surface of the fuel tank, and first guide chute also has:
Partition panel is arranged as and the other side of first guide chute of one end and the other end for connecting first rake
Side edge, to make the oil on first rake be guided to the other end of first rake.
4. oil recovery apparatus as described in claim 1, wherein the flow pass has bending part, to make the outflow
Inside bottom surface of the mouth towards the fuel tank.
5. oil recovery apparatus as described in claim 1, wherein first guide chute, second guide chute and
At least two in the diaphragm are integrally constituted.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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KR10-2014-0029759 | 2014-03-13 | ||
KR1020140029759A KR102002563B1 (en) | 2014-03-13 | 2014-03-13 | Oil recovery device |
Publications (2)
Publication Number | Publication Date |
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CN104929910A CN104929910A (en) | 2015-09-23 |
CN104929910B true CN104929910B (en) | 2018-09-28 |
Family
ID=54117254
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201510076252.7A Active CN104929910B (en) | 2014-03-13 | 2015-02-12 | Oil recovery apparatus |
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KR (1) | KR102002563B1 (en) |
CN (1) | CN104929910B (en) |
Citations (4)
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CN2615370Y (en) * | 2003-04-02 | 2004-05-12 | 计高凌 | Automatic feeding lubricant oil protector for air compressor |
CN201061731Y (en) * | 2007-06-25 | 2008-05-21 | 王重强 | Oil-water separator |
CN101537406A (en) * | 2009-04-30 | 2009-09-23 | 石红旗 | Drip paint recovery box applicable to an aluminium mirror production line |
CN103410706A (en) * | 2013-08-27 | 2013-11-27 | 成都添益天然气压缩机制造有限公司 | Automatic lubricating oil compensation device with oil lens |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6346001Y2 (en) * | 1984-10-02 | 1988-11-30 | ||
JPH11132392A (en) * | 1997-10-27 | 1999-05-21 | Hitachi Constr Mach Co Ltd | Grease tank device |
JP4480615B2 (en) * | 2005-04-11 | 2010-06-16 | トヨタ自動車株式会社 | Oil tank |
JP2013238191A (en) * | 2012-05-16 | 2013-11-28 | Daikin Industries Ltd | Compressor |
-
2014
- 2014-03-13 KR KR1020140029759A patent/KR102002563B1/en active IP Right Grant
-
2015
- 2015-02-12 CN CN201510076252.7A patent/CN104929910B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2615370Y (en) * | 2003-04-02 | 2004-05-12 | 计高凌 | Automatic feeding lubricant oil protector for air compressor |
CN201061731Y (en) * | 2007-06-25 | 2008-05-21 | 王重强 | Oil-water separator |
CN101537406A (en) * | 2009-04-30 | 2009-09-23 | 石红旗 | Drip paint recovery box applicable to an aluminium mirror production line |
CN103410706A (en) * | 2013-08-27 | 2013-11-27 | 成都添益天然气压缩机制造有限公司 | Automatic lubricating oil compensation device with oil lens |
Also Published As
Publication number | Publication date |
---|---|
KR102002563B1 (en) | 2019-07-22 |
KR20150107210A (en) | 2015-09-23 |
CN104929910A (en) | 2015-09-23 |
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Effective date of registration: 20180319 Address after: Gyeongnam Changwon City, South Korea Applicant after: Han Hua compressor plant Address before: Gyeongnam Changwon City, South Korea Applicant before: SAMSUNG TECHWIN CO., LTD. |
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