JP3168193B2 - Replacement gas recovery container used for construction of air conditioners - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a replacement gas recovery container used for constructing an air conditioner that connects an indoor unit and an outdoor unit by a connection pipe.

[0002]

2. Description of the Related Art A refrigeration cycle used in an air conditioner is configured by connecting a refrigerant flow control unit having an expansion mechanism such as a compressor, a heat exchanger, a capillary tube, or an expansion valve by a pipe such as a copper pipe. And a fluid filled in the refrigeration cycle, such as a refrigerant and a lubricating oil composition. In a separate type air conditioner, an outdoor unit having a compressor and a heat exchanger and an indoor unit having a heat exchanger installed at a location where refrigeration and air conditioning are performed are connected by a connection pipe such as a copper pipe. Is done. In such a refrigeration cycle, the outdoor unit is filled with a part or all of the refrigerant and the lubricating oil composition in advance, the valve of the outdoor unit is closed, and the refrigeration is connected to the indoor unit using a connection pipe during construction. It is common to form a cycle. By simply connecting the pipes in this manner, air remains in the indoor unit and the connection pipe. In order to remove this air, a vacuum pump is connected to the refrigerant charge port provided on the valve of the outdoor unit, and after removing the air, the valve is opened and the indoor unit and the outdoor unit are connected to form a refrigeration system. Had been taken. Also, as a simple construction method, at the time of construction, open the valve of the outdoor unit and allow the refrigerant in the outdoor unit to flow to the connection pipe and the indoor unit,
The gas in the indoor unit and the connection pipe is replaced by discharging the refrigerant containing air from the refrigerant charge port provided in the valve of the other outdoor unit or the gap formed by relaxing the connection of the connection port of the valve. Operation was performed. These methods are disclosed in
JP-70953A discloses a method for manufacturing a refrigeration cycle without using a vacuum pump by replacing the inside of the refrigeration cycle with oxygen, filling the refrigerant, and fixing oxygen with an oxygen fixative provided in the refrigeration cycle. Is disclosed. In Japanese Patent Application Laid-Open No. Hei 7-159004, one of a condenser or an evaporator and one of a condenser and an evaporator among expansion mechanisms such as a refrigerating compressor, a condenser, a capillary tube or an expansion valve, and an evaporator. In a separate type air conditioner, in which the expansion mechanism is separated and connected by piping, moisture in the air
It discloses a method of enclosing a substance capable of absorbing two or more of oxygen, nitrogen, carbon dioxide and the like. In addition, Japanese Patent Application Laid-Open
Japanese Patent No. 269994 discloses a refrigeration cycle in which an oxygen absorbent is provided in a refrigerant circulation system. Also, Japanese Patent Laid-Open No. 9-29
Japanese Patent No. 2168 discloses a method of removing air in a pipe and an indoor unit by disposing an air absorbent, filling carbon dioxide in the pipe and the indoor unit, and absorbing carbon dioxide in the pipe and the indoor unit with the carbon dioxide absorbent to form a vacuum. Is disclosed.

[0003]

The air remaining in the refrigeration cycle reduces the refrigeration capacity as non-condensable gas,
Oxygen and water promote the deterioration of refrigeration oil and iron inside the refrigeration cycle and must be removed. Among the methods described in the prior art, the method of evacuating with a vacuum pump is common, but a power supply must be available to operate the vacuum pump at the construction site, and it is difficult to use it on a roof etc. It could not be called a simple method. Further, in the method of replacing air with a refrigerant, it is unavoidable to release Freon, which is a refrigerant, to the atmosphere, which is not preferable from the viewpoint of global environment, such as global warming. Further, as for a method of recovering the replacement gas after once replacing the air in the indoor heat exchanger or the connection pipe with the replacement gas, no simple device for recovering the replacement gas has been proposed.

[0004] Accordingly, the present invention provides a replacement air conditioner used for constructing an air conditioner that can easily recover the replacement gas after the air in the indoor heat exchanger or the connection pipe is once replaced with the replacement gas. It is intended to provide a gas recovery container.

[0005]

The replacement gas recovery container used in the construction of the air conditioner of the present invention according to the first aspect of the present invention comprises an outdoor unit in which refrigerant gas is sealed in a compressor or an outdoor heat exchanger, and an indoor unit. The indoor unit having the inside of the heat exchanger opened to the atmosphere is connected with a connecting pipe, and the air in the indoor heat exchanger and the connecting pipe is replaced with a replacement gas, and then the replacement gas is collected. A replacement gas recovery container used for construction of the air conditioner, having an adsorbent for absorbing the replacement gas inside,
The container body is formed of a deformable film. According to a second aspect of the present invention, in the replacement gas recovery container used for constructing the air conditioner of the first aspect, the deformable film has a metal film layer on a surface. . The replacement gas recovery container used in the construction of the air conditioner of the present invention according to claim 3 is an outdoor unit in which refrigerant gas is sealed in a compressor or an outdoor heat exchanger, and an interior of the indoor heat exchanger is opened to the atmosphere. Connected to the indoor unit with a connection pipe, replaces the air in the indoor heat exchanger and the connection pipe with a replacement gas, and then replaces the air in the air conditioner that collects the replacement gas. A gas recovery container, comprising: an adsorbent for adsorbing a replacement gas therein; and a baffle for sealing the adsorbent , wherein the baffle is formed in a cylindrical shape.
And extended into the container body . According to a fourth aspect of the present invention, in the replacement gas recovery container used for constructing the air conditioner of the third aspect, the container main body is provided with a base for introducing the replacement gas, and the baffle is provided inside the base. It is characterized by being fixed to. According to a fifth aspect of the present invention, in the replacement gas recovery container used for constructing the air conditioner of the third aspect, a projection is provided inside the base, and the baffle is fixed by the projection. And The present invention described in claim 6 is the third invention.
The replacement gas recovery container used in the construction of the air conditioner described above, wherein the baffle is made of a punched metal having a plurality of holes or a mesh-like mesh member. According to a seventh aspect of the present invention, in the replacement gas recovery container used for constructing the air conditioner of the third aspect, a fiber member is used as the baffle. The present invention according to claim 8 provides a replacement gas recovery container used for construction of the air conditioner according to claim 3,
The baffle is formed of a member having holes or voids smaller than the adsorbent, and the aperture ratio of the holes or voids is 60% or more.

[0006]

BEST MODE FOR CARRYING OUT THE INVENTION

A replacement gas recovery container used in the construction of the air conditioner according to the first embodiment of the present invention has an adsorbent therein for adsorbing the replacement gas, and the container body is formed of a deformable film. It was done. According to the present embodiment, since the container body is formed of a deformable film, a negative pressure state in the container body can be confirmed, and the portability is excellent.

A second embodiment of the present invention is a replacement gas recovery container used for constructing the air conditioner according to the first embodiment, which has a metal film layer on the surface of a deformable film. is there. According to the present embodiment, not only the strength of the container body is improved, but also the thermal conductivity can be increased, so that a decrease in the adsorption effect due to heat generation can be prevented.

A replacement gas recovery container used in the construction of an air conditioner according to a third embodiment of the present invention has an adsorbent for adsorbing a replacement gas therein and a baffle for sealing the adsorbent. Things. According to the present embodiment, it is possible to prevent the adsorbent contained in the container main body from being mixed into the refrigeration cycle of the air conditioner during construction. Further, the member is formed in a cylindrical shape and extends into the container body. According to the present embodiment, the replacement gas can be effectively guided into the container by forming the member in a tubular shape and extending into the container body, and the replacement time can be reduced.

A fourth embodiment of the present invention relates to a replacement gas recovery container for use in the construction of an air conditioner according to the third embodiment, wherein the container body is provided with a mouthpiece for introducing the replacement gas, and a baffle is provided. Is fixed inside the base.
According to the present embodiment, by fixing the baffle inside the base, the baffle can be easily arranged, and the filling space of the adsorbent can be widened.

According to a fifth embodiment of the present invention, in the replacement gas recovery container used in the construction of the air conditioner according to the fourth embodiment, a projection is provided inside the base and the baffle is fixed by the projection. Things. According to the present embodiment,
The baffle can be easily fixed by fixing the baffle with a projection provided inside the base.

A sixth embodiment of the present invention is directed to a replacement gas recovery container used in the construction of an air conditioner according to the third embodiment, wherein the baffle is made of a punched metal having a plurality of holes or a mesh shape. Of the mesh member. According to the present embodiment, the baffle can be easily formed by using a punched metal provided with a plurality of holes or a mesh-like mesh member.

A seventh embodiment of the present invention uses a fiber member as a baffle in the replacement gas recovery container used in the construction of the air conditioner according to the third embodiment. According to the present embodiment, by using the fiber member as a baffle, since the shape can be changed, even if the opening is small, it can be compressed and inserted inside,
Moreover, when it is arranged in a wide space, it does not come off because the shape expands and expands.

An eighth embodiment of the present invention is directed to a replacement gas recovery container used in the construction of an air conditioner according to the third embodiment, wherein the baffle is made of a member having holes or voids smaller than the adsorbent. And the aperture ratio of the holes or voids is set to 60% or more. According to the present embodiment, by using a member having holes or voids smaller than the adsorbent, the adsorbent can be prevented from being mixed into the refrigeration cycle of the air conditioner, and the aperture ratio can be set to 60% or more. By doing so, the effect of adsorbing the replacement gas can be enhanced.

[0015]

[0016]

Embodiments of the present invention will be described below with reference to the drawings. 1 and 2 are configuration diagrams of a refrigeration cycle of the air conditioner used in the embodiment. FIG. 1 shows a state in which a replacement gas filling container is connected, and FIG. 2 shows a state in which a replacement gas recovery container is connected. The state is shown.

First, an overall configuration of a refrigeration cycle constituting an air conditioner will be described with reference to FIG. 1 and FIG.
The refrigerating cycle includes a compressor 1, a four-way valve 2, an outdoor heat exchanger 3, an expansion device 4, a dryer 5, and an indoor heat exchanger 6. The compressor 1, the four-way valve 2, the outdoor heat exchanger 3, the expansion device 4, and the dryer 5 are disposed in the outdoor unit A, and the indoor heat exchanger 6 is disposed in the outdoor unit B. The outdoor unit A is provided with a liquid side two-way valve 7 and a gas side three-way valve 8. A connection pipe 9 for connecting the outdoor unit A and the indoor unit B,
Numerals 10 are connected using a liquid side two-way valve 7 and a gas side three-way valve 8, respectively. The liquid side two-way valve 7 has a screw portion 7a, and by opening the screw portion 7a, the pipe on the outdoor unit A side and the connection pipe 7 are communicated. The gas side three-way valve 8 is
It has a screw portion 8a and a refrigerant charge port 8b. By opening the screw portion 8a, the pipe on the outdoor unit A side and the connection pipe 10 are communicated. As shown in FIG. 1, a replacement gas-filled container 20 can be connected to the refrigerant charge port portion 8b using a connection device 30, and as shown in FIG. A gas recovery container 40 can be connected. The replacement gas filling container 20 and the replacement gas recovery container 40 can communicate with the connection pipe 10 by connecting to the connection devices 30 and 50.

Here, the replacement gas-filled container 20 contains:
A replacement gas composed of one or more types of mixed gas that is inert to the refrigerant and is a gas at normal temperature and normal pressure is sealed. More specifically, the replacement gas preferably has a lower global warming potential than the refrigerant. For example, when R410A is used as the refrigerant, the global warming potential (GWP)
Is 1730, so a smaller gas that is inert to the refrigeration cycle is preferred. More specifically, carbon dioxide (GWP = 1), propane (GWP <3), butane (G
WP <3).

On the other hand, an adsorbent for absorbing the replacement gas is sealed in the replacement gas recovery container 40. Hereinafter, this adsorbent will be described. As a substance that absorbs replacement gas, when carbon dioxide is sealed as replacement gas,
Zeolites, epoxy compounds, calcium hydroxide, calcium chloride and the like can be used. Among them, zeolite is more preferable because of its high absorption rate. The zeolite having a pore diameter of 1.0 nm is optimal because it has a high carbon dioxide absorption rate.

Next, each embodiment of the replacement gas recovery container 40 shown in FIG. 2 will be described with reference to FIGS. 3 to 5 show a schematic configuration of a replacement gas recovery container according to an embodiment of the present invention, FIG. 3 is a side sectional view of the replacement gas recovery container, and FIG. FIG. 5 is a plan view of a baffle used in the replacement gas recovery container. The replacement gas recovery container according to the present embodiment includes a cylindrical container body 41 made of a metal material made of aluminum or copper, and a base 41A formed on one end side of the container body 41 by drawing or welding. The lid 61 includes a lid 61 for closing the opening, and a baffle 71 for sealing the adsorbent A filling the inside of the container body 41. Here, the base 41A has a screw groove 41B on its outer periphery.
Is formed, and the end face of the opening of the base 41A is finished to a flat surface. A baffle 7 is provided inside the base 41A.
1 is formed. Lid 61
Is composed of a thin sealing plate 61A made of a resin material or a metal material having low gas permeability, and a reinforcing plate 61B made of a metal material. Here, the reinforcing plate 61B has a hole 61C formed at the center thereof. The lid 61 is formed by attaching the reinforcing plate 61B to the base 41A.
On the side, the sealing plate 61A is attached to the reinforcing plate 61B.
Are provided in layers. The baffle 71
It is formed in a cup shape from the bottom part 71A and the cylindrical part 71B,
The bottom 71A has a number of holes 71C. The hole 71C has a size that does not allow the adsorbent A to pass through. Here, the relationship between the shape of the adsorbent A suitable for this type of replacement gas recovery container and the hole 71C will be described. As the adsorbent A, those processed into spheres or cylinders are suitable.
More specifically, a diameter of 4 to 6 mm, or a diameter of 6 to 8 mm
Or a cylinder having a diameter of 5 mm and a length of about 7 mm is suitable. On the other hand, the hole 71C has a diameter of 4 to
When a sphere of 6 mm is used, the diameter is 3 mm or less. When a sphere of 6 to 8 mm in diameter is used as the adsorbent A,
5 mm or less in diameter, 5 mm in diameter and 7 in length as adsorbent A
When a cylindrical body of about mm is used, the diameter is preferably 4 mm or less. Further, the aperture ratio of the hole 71C is preferably set to 60% or more. According to the present embodiment, since the container body 41 is formed of a metal material made of aluminum or copper, heat generated when absorbing the replacement gas can be conducted from the container body 41 to the outside. .
In the present embodiment, the container body 41 is
By sealing the adsorbent A filled in the inside, it is possible to prevent the adsorbent A from being crushed by vibration or the like. In this embodiment, a hole 71C provided in the bottom 71A is provided.
Has a size that does not allow the adsorbent A to pass through, so that it is possible to prevent the adsorbent from being mixed into the refrigeration cycle of the air conditioner. In this embodiment, the end face of the opening of the base 41A is finished to a flat surface, and the reinforcing plate 61B is provided on the base 41A side, and the sealing plate 61A is provided on the reinforcing plate 61B. 61 can be reliably maintained in an airtight state, and is excellent in workability.

Next, a method of manufacturing the replacement gas recovery container according to this embodiment will be described. In the replacement gas recovery container according to the present embodiment, first, the heated adsorbent A is charged into the container body 41A. Thereafter, the baffle 71 is inserted into the base 41A until the baffle 71 comes into contact with the projection 41C, and the adsorbent A is sealed by the baffle 71. In this state, a small amount of a gas composed of a rare gas such as CO ₂ , O ₂ , N ₂ , or He is sealed in the container body 41A and sealed by the lid 61. The lid body 61 is formed by sequentially stacking and reinforcing the reinforcing plate 61B and the sealing plate 61A on the base 41A. In the above manufacturing method, the preheated adsorbent A is enclosed, but the container body 4
After sealing the adsorbent A in 1A, the adsorbent A may be heated by heating the container body 41A. The adsorbent A is heated before sealing as described above, so that the adsorbent A
It is preferable to degas the gas which has already been adsorbed, but it is not always necessary to have a heating step for the adsorbent A.

FIG. 6 and FIG. 7 are side sectional views showing the schematic structure of a replacement gas recovery container according to another embodiment of the present invention.
And a side view of a baffle used for the replacement gas recovery container. In this embodiment and the following embodiments, the same members as those in the above embodiment are denoted by the same reference numerals, and a detailed description thereof will be partially omitted. The replacement gas recovery container according to this embodiment is
A baffle 72 is used in place of the baffle 71 in the embodiment shown in FIGS. The baffle 72 includes a mesh-like mesh member 72A formed in a basket shape and a cylindrical portion 72B.
It is composed of The void formed by the mesh of the mesh member 72A has a size that the adsorbent A does not pass through. Here, the minimum dimension between the members of the gap formed by the mesh of the mesh member 72A is:
When a sphere having a diameter of 4 to 6 mm is used as the adsorbent A, 3 mm or less. When a sphere having a diameter of 6 to 8 mm is used as the adsorbent A, 5 mm or less.
4m when using a cylinder with a length of about 7mm
m or less. The mesh member 72
The aperture ratio of A is preferably set to 60% or more.

FIG. 8 is a side view of a baffle according to another embodiment of the present invention. The baffle 73 according to the present embodiment has a protruding length of the mesh member 73A longer than that of the baffle 72. Although not shown, the mesh member 7
It is preferable that the protruding length of 3A be at least １ ／ the length of the depth of the portion of the container body where the adsorbent A is filled. In this manner, by forming the projection length of the mesh member 73A to be long, the adsorption speed of the replacement gas can be increased. The gap formed by the mesh of the mesh member 73A is the same as that of the mesh member 72A.

FIGS. 9 and 10 are side sectional views showing the schematic structure of a replacement gas recovery container according to another embodiment of the present invention. Baffle 74 shown in FIGS. 9 and 10,
Reference numeral 75 denotes a fiber member made of synthetic fiber, natural fiber, or steel wool. In particular, the baffle 74 is obtained by rolling a fiber member into a spherical shape and inserting the fiber member through the opening of the base 41A, and is disposed so as to partially face the enlarged portion of the container body further deeper from the base 41A. By arranging the baffle 74 such that a part thereof faces the enlarged portion at the back from the base 41A, the baffle 74 can be prevented from coming off, and the replacement gas is introduced near the entrance to the adsorbent A. The passage can be enlarged. Further, the baffle 75 is provided in an enlarged portion of the container main body, which is deeper than the base 41A. By arranging the baffle 75 in the enlarged portion in this way, it is possible to further prevent the baffle 74 from coming off, and to further expand the introduction passage near the entrance of the replacement gas to the adsorbent A.

FIG. 11 is an external perspective view of a replacement gas recovery container according to another embodiment of the present invention. In the replacement gas recovery container according to the present embodiment, the container body 42 is formed of a deformable film. The container body 42 is provided with a lid 61 for closing the opening of the base 42A, and a screw groove 42B is formed on the outer periphery of the base 42A. The container body 42 according to the present embodiment preferably has a metal film layer of an aluminum material or the like on the inner or outer surface of the deformable film, or on the inner or outer surface. By having the metal film layer in this way, not only the strength is improved, but also the heat generated when the replacement gas is adsorbed is easily radiated. In the case where the volume of the container fluctuates and the container body 42 is soft as in the present embodiment, the screw groove 42B is not provided directly on the base 42A as in the present embodiment, but rather than the screw base 42A.
It is preferable to separately provide a coupling member rotatably with respect to 2A or to perform coupling coupling by forming a concave portion. Further, in the above embodiment, the lid 61 is provided with the sealing plate 61A.
And the reinforcing plate 61B, but it may be composed of a metal material alone or a resin material having low gas permeability. Here, as the resin material having low gas permeability, for example, polyphenylene sulfide (PPS), polyvinylidene fluoride (PVDF), or polytetrafluoroethylene (PTFE) can be used.

Next, a method of installing the above air conditioner will be described. In the state before the construction, the refrigerant gas is filled in the piping on the outdoor unit A side, such as in the compressor 1 and the outdoor heat exchanger 3. At this time, the outdoor unit A is filled with the operating refrigerant gas required during operation. On the other hand, the pipes on the indoor unit B side such as the indoor heat exchanger 6 and the connection pipes 9 and 10 are not particularly sealed, and are open to the atmosphere.

First, the outdoor unit A and the indoor unit B are connected by connecting pipes 9 and 10. At this time, the space between the liquid side two-way valve 7 and the connection pipe 9 is not sealed but slightly leaked. The thread 7a of the liquid-side two-way valve 7 and the thread 8a of the gas-side three-way valve 8 are closed. Next, the connection device 30 is attached to the refrigerant charge port 8b of the gas side three-way valve 8 of the outdoor unit A. By attaching the connection device 30 to the refrigerant charge port 8b, the valve core in the refrigerant charge port 8b is pushed by the valve rod in the connection device 30, and the refrigerant charge port 8b is opened. Thereafter, by attaching the replacement gas-filled container 20 to the connection device 30, the opening of the replacement gas-filled container 20 is opened by the blade in the connection device 30. As a result, the replacement gas inside the replacement gas filling container 20 is supplied from the refrigerant charge port 8b through the connection device 30 to the connection pipe 10, the indoor unit B
And is led to the connection pipe 9. By the introduced replacement gas, the air in the connection pipes 9 and 10 and the inside of the indoor unit B is released to the atmosphere from the loosened portion of the flare portion of the liquid-side two-way valve 7 together with the introduced replacement gas. Here, it is confirmed that gas leaks from between the liquid-side two-way valve 7 and the connection pipe 9, and after releasing a predetermined amount of gas, a joint between the liquid-side two-way valve 7 and the connection pipe 9 is formed. Seal. The predetermined amount of gas to be released may be measured by a flow meter. However, the amount of gas in the replacement gas filling container 20 is slightly larger than the volume in the pipes in the indoor unit B and the connection pipes 9 and 10. If the replacement gas-filled container 20 can be used for one air conditioner, the liquid side 2 can be used especially when the sound of gas leaking without using a flow meter is reduced. The joint between the direction valve 7 and the connection pipe 9 may be sealed.

Next, the connecting device 30 is removed from the refrigerant charging port 8b while the replacement gas-filled container 20 is still mounted on the connecting device 30. If only the inert gas is introduced into the air conditioner, the liquid side
The screw portion 7a of the direction valve 7 and the screw portion 8a of the gas side three-way valve 8 are opened, and the refrigerant in the outdoor unit A flows through the indoor unit B. When removing the introduced replacement gas, the screw portion 7a of the liquid-side two-way valve 7 and the screw portion 8a of the gas-side three-way valve 8 are not opened at this time, as shown in FIG. Proceed to the replacement gas recovery step.

The replacement gas recovery step is achieved by connecting the replacement gas absorption container 40 to the refrigerant charge port 8b. As one method, first, the connection device 50 is connected to the replacement gas recovery container 40 by screwing the male screw 41 of the replacement gas recovery container 40 into the female screw 54 of the connection device 50. In this state, the replacement gas recovery container 40 is opened by the blade 57 of the connection device 50. Then, it was confirmed that a hole was formed at the end of the replacement gas recovery container 40, and the connection device 5 was checked.
0 is connected to the refrigerant charge port 8b. As described above, by screwing the connection device 50 into the refrigerant charge port 8b, the valve rod 55 of the connection device 50 pushes the valve core 82 in the refrigerant charge port 8b. The communication between the replacement gas recovery container 40 and the refrigerant charge port 8b allows the carbon dioxide gas in the connection pipes 9 and 10 and the pipe of the indoor unit B to flow into the replacement gas recovery container 40 from the refrigerant charge port 8b. be introduced. Thus, the connection device 5
By connecting 0 and the replacement gas recovery container 40 first,
It is possible to prevent the replacement gas from flowing out from the refrigerant charge port 8b, and to prevent the air in the atmosphere from being mixed thereafter. As another method, first, the other end of the connection device 50 is connected to the refrigerant charge port 8b, and then the replacement gas recovery container 40 is connected to the connection device 50. In this manner, by connecting the connection device 50 and the refrigerant charge port 8b first, the air in the connection device 50 can be pushed out by the replacement gas. The introduced replacement gas is
It is collected by the adsorbent inside the replacement gas recovery container 40. Thereafter, the connection device 5 is connected to the refrigerant charging port 8b.
0, and the screw portion 7a of the liquid side two-way valve 7 is completely opened. The connection device 50 is detached from the refrigerant charge port portion 8b while the replacement gas recovery container 40 is connected to the connection device 50. Finally, by completely opening the screw portion 8a of the gas side three-way valve 8, the installation work related to the construction of the air conditioner is completed.

By performing the construction in the above steps, air in the refrigeration cycle can be removed. In the present embodiment, the method of installing an outdoor unit having a normal two-way valve and a three-way valve has been described. However, the present invention is also applicable to an outdoor unit having a three-way valve and a three-way valve. The air conditioner is not necessarily limited to the two-way valve and the three-way valve, but may be any air conditioner having a valve body having a refrigerant charge port.

[0031]

As described above, according to the present invention, since the container main body is formed of a metal material having good heat conductivity, the heat generated when the replacement gas is recovered by the adsorbent is transferred to the outside of the container. And it is possible to prevent a decrease in the adsorption effect due to heat generation. Further, according to the present invention, since the container main body is formed of a deformable film, a negative pressure state in the container main body can be confirmed, and portability is excellent. Further, according to the present invention, since the metal film layer is provided on the surface of the deformable film, not only the strength of the container body is improved, but also the thermal conductivity can be increased. Can be prevented. Further, according to the present invention, at the time of construction, it is possible to prevent the adsorbent housed in the container body from being mixed into the refrigeration cycle of the air conditioner. Further, according to the present invention, by fixing the baffle inside the base, the baffle can be easily arranged, and the filling space of the adsorbent can be widened. Further, according to the present invention, the baffle can be easily fixed by fixing the baffle by the projection provided inside the base. Further, according to the present invention, a baffle can be easily formed by using a punched metal provided with a plurality of holes or a mesh-like mesh member. According to the present invention, since the shape can be changed by using the fiber member as the baffle, even if the opening is small, it can be compressed and inserted into the inside, and when arranged in a wide space, There is no escape because the shape expands and expands. Further, according to the present invention, by forming the baffle with a member having holes or voids smaller than the adsorbent, the adsorbent can be prevented from being mixed into the refrigeration cycle of the air conditioner, and the opening ratio can be reduced by 60%. By doing so, the effect of adsorbing the replacement gas can be enhanced. Further, according to the present invention, by forming the baffle into a cylindrical shape and extending into the container body, the replacement gas can be effectively guided into the container, and the replacement time can be reduced.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a refrigeration cycle of an air conditioner used in an embodiment of the present invention, in which a replacement gas filling container is connected.

FIG. 2 is a configuration diagram of a refrigeration cycle of an air conditioner used in an embodiment of the present invention, in a state where a replacement gas recovery container is connected.

FIG. 3 is a side sectional view showing a schematic configuration of a replacement gas recovery container according to an embodiment of the present invention.

FIG. 4 is an enlarged sectional view of a main part of the replacement gas recovery container.

FIG. 5 is a plan view of a baffle used in the replacement gas recovery container.

FIG. 6 is a side sectional view showing a schematic configuration of a replacement gas recovery container according to another embodiment of the present invention.

FIG. 7 is a side view of a baffle used in the replacement gas recovery container.

FIG. 8 is a side view of a baffle according to another embodiment of the present invention.

FIG. 9 is a side sectional view showing a schematic configuration of a replacement gas recovery container according to another embodiment of the present invention.

FIG. 10 is a sectional side view of a main part showing a schematic configuration of a replacement gas recovery container according to another embodiment of the present invention.

FIG. 11 is an external perspective view of a replacement gas recovery container according to another embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Compressor 2 Four-way valve 3 Outdoor heat exchanger 4 Throttle device 6 Indoor heat exchanger 7 Liquid side two-way valve 8 Gas side three-way valve 8b Refrigerant charge port 9 Connection pipe 10 Connection pipe 20 Replacement gas filling container 30 Connection device 40 Replacement gas recovery container 41 Container main body 41A Base 42 Container main body 42A Base 50 Connection device 71 Baffle 71C Hole 72 Baffle 72A Mesh member 73 Baffle 73A Mesh member 74 Baffle 75 Baffle A adsorbent

──────────────────────────────────────────────────の Continued on the front page (72) Inventor Yukio Watanabe 1006 Kazuma Kadoma, Osaka Prefecture Inside Matsushita Electric Industrial Co., Ltd. In-company (72) Inventor Hiroyuki Takeuchi 1006 Kazuma Kadoma, Kadoma-shi, Osaka Matsushita Electric Industrial Co., Ltd. (56) References JP-A-9-292168 (JP, A) JP-A-10-141814 (JP, A JP-A-10-153363 (JP, A) JP-A-11-14203 (JP, A) JP-A-59-99199 (JP, A) JP-A-59-183196 (JP, A) 37753 (JP, B2) JP 4-48936 (JP, B2) (58) Fields investigated (Int. Cl. ⁷ , DB name) F25B 43/04 F25B 45/00

Claims (8)

(57) [Claims] An indoor unit in which a refrigerant gas is sealed in a compressor or an outdoor heat exchanger and an indoor unit in which an indoor heat exchanger is opened to the atmosphere are connected by a connection pipe. Or a replacement gas recovery container for replacing the air in the connection pipe with a replacement gas, and thereafter installing the air conditioner for collecting the replacement gas, wherein the adsorbent internally absorbs the replacement gas. A replacement gas recovery container used for construction of an air conditioner, characterized in that the container body is formed of a deformable film. 2. The replacement gas recovery container according to claim 1, wherein the deformable film has a metal film layer on a surface. 3. An indoor unit having a refrigerant gas sealed in a compressor or an outdoor heat exchanger, and an indoor unit having an indoor heat exchanger opened to the atmosphere are connected by connecting pipes. Or a replacement gas recovery container for replacing the air in the connection pipe with a replacement gas, and thereafter installing the air conditioner for collecting the replacement gas, wherein the adsorbent internally absorbs the replacement gas. When, and a baffle for sealing the sorbent, before
A replacement gas recovery container used for construction of an air conditioner, wherein the baffle is formed in a cylindrical shape and is extended into a container body . 4. The replacement gas used in the construction of the air conditioner according to claim 3, wherein the container main body is provided with a base for introducing the replacement gas, and the baffle is fixed inside the base. Collection container. 5. The replacement gas recovery container according to claim 3, wherein a projection is provided inside the base, and the baffle is fixed by the projection. 6. The replacement gas recovery container according to claim 3, wherein the baffle is made of a punched metal having a plurality of holes or a mesh-like mesh member. 7. The replacement gas recovery container used for installing an air conditioner according to claim 3, wherein a fiber member is used as the baffle. 8. The air according to claim 3, wherein the baffle is formed of a member having holes or voids smaller than the adsorbent, and the aperture ratio of the holes or voids is 60% or more. Replacement gas recovery container used for construction of the harmony device.