WO2013118174A1 - 空気調和機 - Google Patents
空気調和機 Download PDFInfo
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- WO2013118174A1 WO2013118174A1 PCT/JP2012/000848 JP2012000848W WO2013118174A1 WO 2013118174 A1 WO2013118174 A1 WO 2013118174A1 JP 2012000848 W JP2012000848 W JP 2012000848W WO 2013118174 A1 WO2013118174 A1 WO 2013118174A1
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- pipe
- outdoor unit
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- unit
- refrigerant
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/06—Separate outdoor units, e.g. outdoor unit to be linked to a separate room comprising a compressor and a heat exchanger
- F24F1/26—Refrigerant piping
- F24F1/32—Refrigerant piping for connecting the separate outdoor units to indoor units
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/06—Separate outdoor units, e.g. outdoor unit to be linked to a separate room comprising a compressor and a heat exchanger
- F24F1/26—Refrigerant piping
- F24F1/28—Refrigerant piping for connecting several separate outdoor units
Definitions
- the present invention relates to an air conditioner, and more particularly to a multi-type air conditioner including a plurality of outdoor units.
- Patent Document 1 Although a case where a plurality of outdoor units are connected is disclosed, there is no disclosure about the above-described bias in the supply of refrigerating machine oil. In order to prevent this uneven supply of refrigerating machine oil to the outdoor unit, it may be possible to supply oil evenly by providing a separate oil leveling pipe. And disadvantages such as increased manufacturing costs for outdoor unit oil equalization circuit configuration.
- the present invention is to improve the reliability of an air conditioner including a plurality of outdoor units by supplying necessary refrigeration oil to all the outdoor units through a refrigerant pipe with an inexpensive configuration. It aims at providing the air conditioner which can be performed.
- the present application includes a plurality of means for solving the above problems.
- a plurality of indoor units and four outdoor units connected to the plurality of indoor units through refrigerant piping are provided.
- one first refrigerant pipe from the plurality of indoor units is branched into two second refrigerant pipes, and each of the two second refrigerant pipes is two third refrigerant pipes.
- the four third refrigerant pipes are connected to the four outdoor units, respectively.
- FIG. 1 is an example of a piping construction diagram of an air conditioner.
- This air conditioner is composed of four outdoor units, and there is one gas pipe and one liquid pipe each heading to the indoor unit.
- the number of pipes is one, but the object of this embodiment is a gas pipe, and the figure of the liquid pipe is omitted.
- the outdoor units are referred to as No. 1, No. 1, No. 2, No. 3, No. 3, and No. 4 in order from the indoor unit side.
- the first branch pipe 31 branches into two, one end is connected from the outdoor unit connection pipe 21 to the first unit 1, and the other end is connected to the first connection pipe 17.
- the first connection pipe 17 is branched into two by a second branch pipe 32, one end is connected to the second machine 2 from the outdoor unit connection pipe 22, and the other end is connected to the second connection pipe 18.
- the second connection pipe 18 is branched into two at the third branch pipe 33, one end is connected from the outdoor unit connection pipe 23 to the No. 3 machine 3, and the other end is connected from the outdoor unit connection pipe 24 to the No. 4 machine 4.
- line branching such piping construction is called line branching.
- the number of branch pipes that pass from the gas pipe 11 to the outdoor unit differs depending on the outdoor unit number and passes through 1 to 3 pipes.
- FIG. 2 is a diagram for explaining the amount of oil circulation to each outdoor unit in the case of the line branch in FIG.
- refrigerant gas and oil flowing out of the outdoor unit circulate, and flow from the indoor unit toward the outdoor unit during cooling operation.
- a part of the oil in the pipe flows in a mist form, but the rest flows in a liquid film form along the pipe wall, so the oil in the branch pipe part is not only the refrigerant flow but also the shape and gradient of the branch pipe.
- the oil distribution is biased because it is also affected by such factors.
- the oil distribution ratio when flowing from the branch pipe section to the two pipes is 7: 3 as an example, and the number of outdoor units is 7 on the small side and 3 on the large side It will be explained as a thing.
- the actual oil distribution ratio and the direction of the bias are uncertain, and the numerical value is merely an example.
- the oil circulation amount 0.30 in the first connection pipe 17 is distributed to the outdoor unit connection pipe 22 (No. 2 unit 2 side) as 0.21 and 0.09 to the second connection pipe 18.
- the amount of oil circulation 0.09 in the second connection pipe 18 is distributed to the outdoor unit connection pipe 23 (No. 3 unit 3 side) as 0.06 and to the outdoor unit connection pipe 24 (No. 4 unit 4 side) as 0.03. .
- the oil circulation amount for the terminal No. 4 machine 4 is extremely reduced to 0.03. If the amount of oil circulation is extremely small, there is a risk that the oil required for lubrication of the compressor mounted in the outdoor unit (No. 4 machine 4) may be insufficient, which may cause compressor lubrication failure or failure. In order to prevent this, it may be possible to install separate oil equalization pipes between the outdoor units, thereby achieving oil leveling. However, doing so has disadvantages such as an increase in the number of on-site installations and an increase in manufacturing costs for the configuration of the oil equalization circuit in the outdoor unit. There is.
- FIG. 3 is a diagram for explaining the piping construction diagram of the present embodiment.
- This air conditioner is composed of four outdoor units as in FIG. 1, and each has one gas pipe and one liquid pipe to the indoor unit. is there. Further, in the same drawing as FIG. 1, only the gas pipe is shown, and the liquid pipe is omitted.
- the first branch pipe 31 is branched into two and connected to the first connection pipe 15 and the first connection pipe 16.
- the first connection pipe 15 is bifurcated by a second branch pipe 32, one end is connected to the first unit 1 from the outdoor unit connection pipe 21, and the other end is connected to the second unit 2 from the outdoor unit connection pipe 22.
- the first connection pipe 16 is branched into two by the third branch pipe 33, one end is connected from the outdoor unit connection pipe 23 to the No. 3 machine 3, and the other end is connected from the outdoor unit connection pipe 24 to the No. 4 machine 4.
- Such piping construction is called a tournament branch here.
- FIG. 4 is a diagram for explaining the oil circulation amount for each outdoor unit in FIG.
- refrigerant gas and oil flowing out of the outdoor unit circulate, and flow from the indoor unit toward the outdoor unit during cooling operation.
- a part of the oil in the pipe flows in a mist form, but the rest flows in a liquid film form along the pipe wall, so the oil in the branch pipe part is not only the refrigerant flow but also the shape of the branch pipe, the gradient, etc. This also affects the oil distribution.
- the oil distribution ratio is set to 7: 3 as in FIG. 2, and the branch pipe portion is biased to 7 on the side where the number of outdoor units is small and 3 on the large side.
- the actual oil distribution ratio and the direction of the bias are uncertain, and the numerical value is merely an example.
- the liquid piping As for the liquid piping, it flows toward the outdoor unit during heating, but it does not become the refrigerant gas and oil film as in the gas piping, but the liquid is mixed or melted, so the ratio is almost equal to the refrigerant circulation rate.
- the tournament branch described in the figure is not necessarily required. However, since the branch pipes of the gas pipe and the liquid pipe are installed at substantially the same position during construction, the construction may be the same as that of the gas pipe. Furthermore, in an air conditioner in which the indoor unit is operated simultaneously with cooling and heating, a high and low pressure gas pipe is installed separately from the gas pipe. In the case of flowing toward the outdoor unit, a tournament branch is necessary as in FIG.
- the amount of oil circulation in the gas pipe 11 is 1, 0.70 is distributed to the first connection pipe 15 and 0.30 is distributed to the first connection pipe 16.
- the oil circulation amount 0.70 in the first connection pipe 15 is distributed 0.47 to the outdoor unit connection pipe 21 (No. 1 unit 1 side) and 0.21 to the outdoor unit connection pipe 22 (No. 2 unit 2 side).
- the oil circulation amount 0.30 in the first connection pipe 16 is distributed to the outdoor unit connection pipe 23 (No. 3 unit 3 side) as 0.21 and to the outdoor unit connection pipe 24 (No. 4 unit 4 side) as 0.09. .
- the outdoor unit connection pipe 24 (No. 4 unit 4 side) in FIG. 3 and the second connection pipe 18 in FIG. 1 have two branch pipes from the gas pipe to the outdoor unit, so the oil circulation amount is equal.
- the outdoor unit connection pipe 24 (No. 4 unit 4 side) in FIG. 1 has three branch pipes from the gas pipe to the outdoor unit, so it can be said that the amount of oil circulation is low.
- the liquid piping it flows toward the outdoor unit during heating, but it does not become the refrigerant gas and oil film as in the gas piping, but the liquid is mixed or melted, so the ratio is almost equal to the refrigerant circulation rate.
- the tournament branch described in the figure is not necessarily required.
- the construction may be the same as that of the gas pipe.
- a high and low pressure gas pipe is installed separately from the gas pipe. In the case of flowing toward the outdoor unit, a tournament branch is necessary as in FIG.
- the air conditioner of FIG. 3 includes a plurality of indoor units (not shown) and four outdoor units (No. 1, Unit 2 and Unit 2) connected to the plurality of indoor units via refrigerant piping. No. 3, No. 3, No. 4 and No. 4), and one first refrigerant pipe (gas pipe 11) from a plurality of indoor units becomes two second refrigerant pipes (first connection pipes 15, 16).
- the two second refrigerant pipes (first connection pipes 15, 16) are branched into two third refrigerant pipes (outdoor unit connection pipes 21, 22, 23, 24), respectively.
- the third refrigerant pipes (outdoor unit connection pipes 21, 22, 23, 24) are connected to four outdoor units (No. 1, No. 2, No. 2, No. 3, No. 3, No. 4), respectively.
- the tournament branch of this embodiment According to the above, even when four outdoor units are connected, the necessary oil circulation amount can be supplied to the end outdoor unit, so that the compressor can be prevented from malfunctioning and the reliability of the air conditioner can be improved.
- connection pipes of the outdoor unit are installed side by side in the space on the front or back of the outdoor unit so that each pipe has the same height, if the connection pipes cross, the pipes must have a height difference. It takes time and is not desirable. As shown in FIG. 3, the two second refrigerant pipes (first connection pipes 15, 16) and the four third refrigerant pipes (outdoor unit connection pipes 21, 22, 23, 24) do not cross each other. Since it is connected to the outdoor unit, it is not necessary to provide a height difference between the pipes, and it is possible to reduce labor during construction.
- FIGS. 5 to 7 are construction examples in which connecting pipes intersect.
- the line of the connection piping constructed in parallel with the installation of the outdoor unit in the figure is described in consideration of the distance between the outdoor unit and the piping.
- FIG. 5 is a construction example in which the connection pipes intersect, and the outdoor unit connection pipe 21 and the outdoor unit connection pipe 22 intersect with the first connection pipe 15.
- it is necessary to make the first connection pipe 15 low or make the outdoor unit connection pipe 21 and the outdoor unit connection pipe 22 high to cross each other.
- This is not the connection of the first connection pipe 15 and the third branch pipe 33, the first connection pipe 16 and the second branch pipe 32, but the first connection pipe 15 and the second branch pipe 32, the first connection as shown in FIG. This can be improved by connecting the pipe 16 and the third branch pipe 33.
- FIG. 6 shows a construction example in which the connecting pipes intersect, with the outdoor unit connecting pipe 22 intersecting the outdoor unit connecting pipe 21 and the outdoor unit connecting pipe 24 intersecting the outdoor unit connecting pipe 23.
- This is not the connection of the outdoor connection pipe 22 and the first unit 1, the outdoor connection pipe 21 and the second unit 2, the outdoor connection pipe 24 and the third unit 3, and the outdoor connection pipe 23 and the fourth unit 4, but the outdoor connection as shown in FIG. It can be improved by connecting the pipe 21 and the first machine 1, the outdoor connection pipe 22 and the second machine 2, the outdoor connection pipe 23 and the third machine 3, and the outdoor connection pipe 24 and the fourth machine 4.
- FIG. 7 is a construction example in which the connection pipes intersect, and the outdoor unit connection pipes 21 and 22 intersect with the outdoor unit connection pipes 23 and 24.
- the four outdoor units are the first outdoor unit (No. 1 unit 1), the second outdoor unit (No. 2 unit 2), the third outdoor unit (No. 3 unit 3), and the fourth outdoor unit (No. 4 unit 4).
- the outdoor unit connection pipe is connected to each outdoor unit as shown in FIG. 7, and the third branch pipe 33 and the second branch pipe 32 are connected to the outdoor unit (units 1 and 2). 2, No. 3, No. 4, No. 4, and 4) are located on the near side of the first outdoor unit (No. 1 unit).
- the third branch pipe 33 and the second branch pipe 32 are actually large, and there are cases where it is desired to secure the front space (or rear space) of the outdoor unit during construction. Therefore, by arranging the third branch pipe 33 and the second branch pipe 32 as shown in FIG. 7, this front space can be secured.
- the outdoor unit connection pipes intersect each other as described above, but the second branch pipe 32 and the third machine 3, the fourth machine 4, the third branch pipe 33 and the first machine 1, the second machine 2, and so on. Instead of connection, the second branch pipe 32 and Unit 1 and Unit 2 and Unit 2, and the third branch pipe 33 and Unit 3 and Unit 4 and Unit 4 are connected as shown in FIG. Is possible.
- the refrigerant pipe before branching is made of a thicker pipe than the refrigerant pipe after being branched by the branch pipe.
- coolant piping (1st connection piping 15 and 16) is comprised by piping thicker than the 3rd refrigerant
- coolant piping (outdoor unit connection piping 21, 22, 23, 24).
- the gas pipe 11 is made of a pipe that is thicker than the second refrigerant pipe (the first connection pipes 15 and 16).
- the second refrigerant pipe the first connection pipes 15 and 16.
- coolant piping (1st connection piping 15, 16) is comprised by piping shorter than 3rd refrigerant
- coolant piping (outdoor unit connection piping 21, 22, 23, 24), and is thick piping. Since this is more expensive, it is possible to reduce the cost of piping than the configuration of FIG.
- FIG. 8 is a construction diagram regarding the arrangement of the outdoor units installed so that the outdoor unit capacity increases in the order closer to the indoor unit side.
- the outdoor unit basic unit is divided into three types: large, medium, and small for each capacity.
- the large capacity is Unit 1; the outdoor unit capacity is Medium 2; the outdoor unit capacity is small; Units 3 and 4; To do.
- the pipe diameter of the connection pipe changes according to the capacity of the outdoor unit connected to the pipe. For example, since all four outdoor units are connected to the gas pipe 11, it is necessary to increase the pipe diameter in order not to increase the pipe pressure loss. Further, when the pipe diameters of the first connection pipe 15 and the first connection pipe 16 are compared, the first connection pipe 15 has two outdoor unit small and the first connection pipe 15 has two outdoor unit small, The pipe diameter of the one connection pipe 15 is increased.
- the pipe length of the first connection pipe 15 is shorter than that of the first connection pipe 16 when the pipes do not intersect. That is, it can be said that there is a merit in terms of workability and the cost of the pipe material because a pipe having a large pipe diameter can be constructed shortly.
- the gas pipe 11, the first connection pipe 15, and the first connection pipe 16 in FIGS. 8 to 10 represent the magnitude of the pipe diameter by changing the thickness of the pipe in a simulated manner. When the pipe diameters in FIG. 8 are compared, gas pipe 11> first connection pipe 15> first connection pipe 16 is established.
- FIG. 9 is a construction diagram related to the arrangement of the outdoor units installed so that the capacity of the outdoor unit becomes smaller in the order closer to the indoor unit side. It is assumed that the outdoor unit capacity is small for Unit 1 and Unit 2 and 2, the outdoor unit capacity is medium for Unit 3 and the outdoor unit capacity is large for Unit 4. Further, when the pipe diameters of the first connection pipe 15 and the first connection pipe 16 are compared, the first connection pipe 16 is a combination of the outdoor unit large and the middle, and the first connection pipe 15 is two small outdoor units. The pipe diameter of the one connection pipe 16 is increased. Here, the pipe length is longer in the first connection pipe 16 than in the first connection pipe 15, and the pipe having a larger pipe diameter is constructed longer than the construction in FIG. This is a disadvantage.
- Fig. 10 is a construction diagram regarding the arrangement of outdoor units, in which the outdoor unit capacity is alternately installed in order of increasing proximity to the indoor unit side.
- the small outdoor unit capacity is No. 1 unit 1, No. 4 unit 4, the outdoor unit capacity is medium No. 3 unit 3, and the outdoor unit capacity is large No. 2 unit 2.
- the first connection pipe 16 is a combination of the outdoor unit large and small, whereas the first connection pipe 15 is small and large in the outdoor unit. It can be said that there is not much difference between the pipe diameters of the one connection pipe 15 and the first connection pipe 16.
- the first connection pipe 16 of FIG. 8 and the first connection pipe 16 of FIG. 10 the first connection pipe 16 of FIG.
- the first connection pipe 15 in FIG. 8 and the first connection pipe 15 in FIG. 10 the first connection pipe 15 in FIG. Since the length is long, the pipe having a large pipe diameter is generally constructed longer than the construction shown in FIG. 8, which is disadvantageous in terms of workability and the cost of the connecting piping material.
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Abstract
Description
上記した以外の課題、構成及び効果は、以下の実施形態の説明により明らかにされる。
まず、複数の室外機を備えたマルチ型空気調和機について、室内機と4台の室外機との接続方法について説明する。
図1は空気調和機の配管施工図の一例である。この空気調和機は室外機4台で構成され、室内機へ向かうガス配管、液配管はそれぞれ1本である。なお、図では配管が1本となっているが、本実施例の対象はガス配管であり、液配管の図は省略する。室外機は室内機側に近い順に1号機1、2号機2、3号機3、4号機4と呼ぶ。ガス配管11を4台の室外機に接続するため、第一分岐管31で2分岐し、一端は室外機接続配管21から1号機1へ繋がり、他端は第一接続配管17に繋がる。第一接続配管17は第二分岐管32で2分岐し、一端は室外機接続配管22から2号機2へ繋がり、他端は第二接続配管18に繋がる。第二接続配管18は第三分岐管33で2分岐し、一端は室外機接続配管23から3号機3へ繋がり、他端は室外機接続配管24から4号機4に繋がる。ここではこのような配管施工をライン分岐と呼ぶことにする。このライン分岐ではガス配管11から室外機に至るまでに経由する分岐管の数は室外機号機により異なり1~3本経由する。
2 (室外機)2号機
3 (室外機)3号機
4 (室外機)4号機
11 ガス配管
15、16、17 第一接続配管
18 第二接続配管
21、22、23、24 室外機接続配管
31 第一分岐管
32 第二分岐管
33 第三分岐管
Claims (6)
- 複数の室内機と、
該複数の室内機と冷媒配管を介して接続される4台の室外機と、を備えた空気調和機において、
前記複数の室内機からの1本の第1冷媒配管が2本の第2冷媒配管に分岐され、
該2本の第2冷媒配管がそれぞれ2本の第3冷媒配管に分岐され、
これら4本の第3冷媒配管がそれぞれ前記4台の室外機に接続されることを特徴とする空気調和機。 - 請求項1に記載の空気調和機において、
前記2本の第2冷媒配管及び前記4本の第3冷媒配管は互いに交差しないように接続されることを特徴とする空気調和機。 - 請求項1に記載の空気調和機において、
前記4台の室外機は、第1室外機、第2室外機、第3室外機、第4室外機の順に並んで配置され、
前記2本の第2冷媒配管は、前記第1冷媒配管から第1分岐管を介して分岐され、
前記第3冷媒配管のうちの2本は、前記第2冷媒配管のうちの1本から第2分岐管を介して分岐され、さらに前記第1室外機及び前記第2室外機とそれぞれ接続され、
前記第3冷媒配管のうちのもう2本は、前記第2冷媒配管のうちのもう1本から第3分岐管を介して分岐され、さらに前記第3室外機及び前記第4室外機とそれぞれ接続され、
前記第2分岐管及び前記第3分岐管は、前記室外機の並んだ方向に対して前記第1室外機よりも手前側に位置するように配置されることを特徴とする空気調和機。 - 請求項1~3の何れかに記載の空気調和機において、
前記第2冷媒配管は、
前記第3冷媒配管よりも太い配管により構成されるとともに、前記第3冷媒配管よりも短い配管により構成されることを特徴とする空気調和機。 - 請求項1に記載の空気調和機において、
前記4台の室外機のうち、第1室外機が最も大きな容量であるとともに、該第1室外機、第2室外機、第3室外機、第4室外機の順に並んで配置され、
前記2本の第2冷媒配管は、前記第1冷媒配管から分岐され、
一方の前記第2配管から分岐された前記第3冷媒配管のうちの2本は、前記第1室外機及び前記第2室外機とそれぞれ接続され、
他方の前記第2配管から分岐された前記第3冷媒配管のうちの2本は、前記第3室外機及び前記第4室外機とそれぞれ接続され、
前記一方の第2冷媒配管は前記他方の第2冷媒配管よりも太い配管により構成されることを特徴とする空気調和機。 - 請求項5に記載の空気調和機において、
前記4台の室外機のうち、第2室外機が2番目に大きな容量である、又は、前記第1室外機と同じ容量であることを特徴とする空気調和機。
Priority Applications (7)
Application Number | Priority Date | Filing Date | Title |
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JP2013557232A JP5581457B2 (ja) | 2012-02-09 | 2012-02-09 | 空気調和機 |
EP12867760.6A EP2813771B1 (en) | 2012-02-09 | 2012-02-09 | Air conditioner |
ES12867760.6T ES2603193T3 (es) | 2012-02-09 | 2012-02-09 | Acondicionador de aire |
CN201280069249.7A CN104105927B (zh) | 2012-02-09 | 2012-02-09 | 空气调节器 |
IN6579DEN2014 IN2014DN06579A (ja) | 2012-02-09 | 2012-02-09 | |
US14/377,419 US9618218B2 (en) | 2012-02-09 | 2012-02-09 | Air conditioner |
PCT/JP2012/000848 WO2013118174A1 (ja) | 2012-02-09 | 2012-02-09 | 空気調和機 |
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PCT/JP2012/000848 WO2013118174A1 (ja) | 2012-02-09 | 2012-02-09 | 空気調和機 |
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US (1) | US9618218B2 (ja) |
EP (1) | EP2813771B1 (ja) |
JP (1) | JP5581457B2 (ja) |
CN (1) | CN104105927B (ja) |
ES (1) | ES2603193T3 (ja) |
IN (1) | IN2014DN06579A (ja) |
WO (1) | WO2013118174A1 (ja) |
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CN104501318B (zh) * | 2014-12-03 | 2017-03-08 | 珠海格力电器股份有限公司 | 一种多联式空调连接走管方法 |
CN111271855B (zh) * | 2020-03-24 | 2021-10-01 | 格力电器(杭州)有限公司 | 一种模块化多联机空调机组改善偏流的方法及空调机组 |
CN115451611B (zh) * | 2022-08-17 | 2024-07-12 | 三菱重工海尔(青岛)空调机有限公司 | 一种超级空调网络回油控制方法 |
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Also Published As
Publication number | Publication date |
---|---|
EP2813771B1 (en) | 2016-11-02 |
EP2813771A1 (en) | 2014-12-17 |
JPWO2013118174A1 (ja) | 2015-05-11 |
EP2813771A4 (en) | 2016-01-20 |
US9618218B2 (en) | 2017-04-11 |
US20150300662A1 (en) | 2015-10-22 |
CN104105927B (zh) | 2016-10-12 |
ES2603193T3 (es) | 2017-02-24 |
JP5581457B2 (ja) | 2014-08-27 |
IN2014DN06579A (ja) | 2015-05-22 |
CN104105927A (zh) | 2014-10-15 |
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