JPH11118202A - Split air conditioner - Google Patents

Abstract

(57) [Summary] [PROBLEMS] A split air conditioner to which a crossover pipe having a different length can be connected. SOLUTION: Between an outdoor unit 27 and an indoor unit 32, two crossover pipes 33a, 33b having a length determined by the installation location are provided, and the two crossover pipes 33a, 33b are provided.
One of the plurality of capillary tubes 24a, 24b, and 24c having different resistance values is selected from one of the plurality of capillary tubes 33b having a resistance value corresponding to the length of the transition pipe 33, for example, 24a. Connected.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a split air conditioner, and more particularly, to a split air conditioner having a connecting pipe connected between an outdoor unit and an indoor unit.

[0002]

2. Description of the Related Art Generally, a split air conditioner 10 has a compressor, as shown in FIG.
An outdoor unit 11 including an outdoor heat exchanger, an outdoor blower, and the like.
And an indoor unit 12 having an indoor heat exchanger, an indoor blower, and the like, and a crossover pipe 13 connecting the outdoor unit 11 and the indoor unit 12.

[0003] The outdoor unit 11 of the split air conditioner 10 is installed on an outdoor base A or the like, and the indoor unit 12 is installed on a wall B or the like of the room via a crossover pipe 13.

[0004] The split air conditioner 10 having such a configuration is described.
With the diversification of the housing structure, the length of the outdoor unit 11 and the indoor unit 12 is 3 to 5 m for a one-story house, 10 to 20 m for a two-story house, and 20 m or more for a three-story house or more. .

Therefore, depending on the installation location of the indoor unit 12, it is necessary to use a crossover pipe 13 having a length of about 3 m to more than 20 m. If the length of the crossover pipe 13 changes, the characteristics of the refrigeration cycle of the split air conditioner cannot be maintained at a predetermined value.

Therefore, in response to the change of the crossover pipe, the amount of refrigerant to be charged into the refrigeration cycle at the time of installation is adjusted.
The amount of refrigerant flowing through the refrigeration cycle is controlled by an electrically controlled or electronically controlled expansion valve.

[0007] However, filling the refrigeration cycle with the refrigerant may vary depending on the installer, and may not maintain the refrigeration cycle at a predetermined characteristic. In addition, the installer must always carry a filling cylinder or the like at the time of installation, which causes problems such as making the construction work extremely difficult.

[0008] Although an electrically controlled or electronically controlled expansion valve is ideally suited for controlling a refrigeration cycle,
This control not only requires a large number of detectors, but also complicates the control and requires devices such as an arithmetic unit and a controller. In addition, there is a problem in that the cost of a split air conditioner for consumer use is increased by these detectors, arithmetic units, controllers and the like.

Accordingly, an object of the present invention is to provide a split air conditioner capable of coping with crossover pipes having different lengths while keeping the refrigerant charge of the refrigeration cycle constant in order to solve the above problem. It is.

[0010]

According to the present invention, two crossover pipes having a length determined by an installation location are provided between an outdoor unit and an indoor unit, and one of the two crossover pipes is connected to one of the crossover pipes. Has a resistance value corresponding to the length of a pipe from a plurality of capillary tubes having different resistance values.
The present invention provides a split air conditioner characterized in that one capillary tube is selected and connected.

Further, the present invention provides a split air conditioner wherein an outdoor heat exchanger is connected to one end of a plurality of capillary tubes, and a connection valve for connecting a crossover pipe is attached to the other end. It is.

Further, the present invention relates to a split air conditioner provided with a refrigeration cycle filled with a refrigerant based on a longest use transition pipe and a capillary tube having a low resistance value corresponding to the longest use transition pipe, wherein another capillary having a high resistance value is used. It is an object of the present invention to provide a split air conditioner in which a reservoir tank is provided in series with a tube.

Further, the liquid reservoir tank of the present invention provides a split air conditioner characterized in that the capacity increases as the resistance value of the capillary tube increases.

Further, the present invention provides a split air conditioner characterized in that a desiccant is contained in the liquid reservoir tank of the present invention.

Further, the present invention provides a split air conditioner, wherein the plurality of connection valves of the present invention are attached to an outer wall on one side of an outdoor unit.

Further, the present invention provides a split air conditioner, wherein the plurality of connection valves of the present invention are mounted on one side outer wall of the outdoor unit so as to be shifted laterally.

Further, the present invention provides a split air conditioner in which the plurality of connection valves of the present invention are mounted at different heights from the base of the outdoor unit.

Further, the present invention provides a split air conditioner characterized in that the plurality of connection valves of the present invention indicate the recommended length of the crossover pipe on one side outer wall of an outdoor unit in the vicinity of the connection valve.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A case where a split air conditioner according to a first embodiment of the present invention is applied to a split air conditioner exclusively for cooling will be described below with reference to FIGS. 1, 2 and 3. FIG.

The split air conditioner 2 of the present invention dedicated to cooling.
Numeral 0 is basically the same as the conventional split air conditioner 10 shown in FIG.

The split air conditioner 20 includes a compressor 2
1, outdoor heat exchanger 22, outdoor blower 23, small resistance value,
Medium and large capillary tubes 24a, 24b, 24c,
An outdoor unit 27 having connection valves 25, 26a, 26b, 26c, etc .; an indoor heat exchanger 28;
9, indoor unit 32 provided with connecting pipes 30, 31 and the like
And a crossover pipe 33 connecting the outdoor unit 27 and the indoor unit 32.

The transfer pipe 33 connects the connection valve 25 on the compressor side of the outdoor unit 27 to the connection pipe 30 of the indoor heat exchanger 28 of the indoor unit 32.
a and the capillary tube 24a of the outdoor unit 27
, 24b, 24c, and one of the connection valves 26a, 26b, 26c, and a second transfer pipe 33b for connecting the connection pipe 31 of the indoor heat exchanger 28 of the indoor unit 32. Crossover pipe 33a,
The length of 33b is from about 3m to 20m depending on the installation position of the outdoor unit 27 and the indoor unit 32.
To the extent that exceeds.

The capillary tube 24a is formed to have a low resistance value, and a tube suitable for a crossing pipe 33 having a length exceeding 20 m is used.
Is formed to have a medium resistance value, and the length of the connecting pipe 33 is 10 m or more.
A tube suitable for a tube having a length of about 20 m is used. The capillary tube 24 c is formed to have a high resistance value, and a tube suitable for a tube having a length of about 3 m to 10 m is used.

Connection valve 25, connection valves 26a, 26
b and 26c have the same configuration, and are in a "closed state" when the transfer pipe 33a or the transfer pipe 33b is not connected, and when the worker is opened after the connection, the refrigerant of the refrigeration cycle flows. You can do it.

The connection valve 25 and the connection valves 26a, 26
As shown in FIG. 3, b and 26c are attached to one side outer wall 27a of the outdoor unit 27 so as to be shifted laterally. The connection valve 25 and the connection valve 26a are mounted at substantially the same height from the base A of the outdoor unit 27, and the connection valve 2
6b is mounted at a slightly higher height from the connection valve 25 and the connection valve 26a, and the connection valve 26c is mounted at a slightly higher height from the connection valve 26b. In this manner, the two transfer pipes 33a, 33 having different lengths are provided.
The connection of b is made easy.

These connection valves 26a, 26b, 26
c near the outer wall 27a of the outdoor unit 27 for attaching the
For example, "L1m", "L2m", "L3m" [L1m
(20m or more)> L2m (10-20m)> L3m (3m ~
10 m or less)]]. With this marking, two connecting pipes 33a and 33b having different lengths are connected to the connection valve 25 and one of the connection valves 26a, 26b and 26c.

Although not shown, the connection pipe 30 and the connection pipe 31 are arranged in a pipe groove of the indoor unit 32, and connect two crossover pipes 33a and 33b.

The installation and the like of the split air conditioner 20 of the present invention configured as described above will be described.

Generally, the split air conditioner 20 is manufactured on the assumption that the length of the connecting pipes 33a and 33b is the longest. Therefore, the outdoor unit 27 is filled with the refrigerant so that the longest crossover pipes 33a and 33b have optimum refrigeration cycle characteristics.

The split air conditioner 20 thus manufactured, that is, the outdoor unit 27 and the indoor unit 3
2. The crossover pipe 33 and the like are transported to the installation location, and the installer performs the installation work.

In this installation work, the outdoor unit 27 is mounted on the base A outdoors, and the indoor unit 32 is mounted on the wall B of a house in a height to be air-conditioned. The height of the connection pipes 30 and 31 of the pipe grooves of the indoor unit 32 from the outdoor unit 27, that is, the outdoor unit 2
One end of each of two crossover pipes 33a and 33b corresponding to the length of the indoor unit 32 is connected to the connection valve 25 near the side wall 27a of the outdoor unit 27 through a connection hole (not shown). , Connection valves 26a, 26b, 26
It is arranged to extend near c.

The first transfer pipe 33a is connected to the connection valve 25, and the second transfer pipe 33b is selected and connected to one connection valve provided with a capillary tube having an appropriate resistance value according to its length.

If the length of the transfer pipe 33 exceeds 20 m, a connection valve 26a is selected and connected to the second transfer pipe 33b so as to use the capillary tube 24a. This selection and connection is engraved "L1m"
(20 m or more) is taken into consideration.

In the case of the transfer pipe 33 having a medium length or the transfer pipe 33 having a short length, the connection valve 26b or 26c is selected and connected similarly to the case of the transfer pipe 33 having a long transfer pipe.

As described above, the connecting pipes 33 having different lengths are provided.
Is simplified. In addition, even in a refrigeration cycle using the transfer pipes 33 having different lengths, the split air conditioner 20 can be operated by selecting and using a capillary tube having a resistance value corresponding to the length of the transfer pipes 33 without replenishing the refrigerant. It can be operated in a normal state without substantially impairing the cooling performance.

FIG. 4 shows a second embodiment obtained by improving the first embodiment.

In the first embodiment, a capillary tube having an optimum resistance value is selected from a plurality of capillary tubes having different resistance values corresponding to the length of the transfer pipe 33 and used. However, the split air conditioner 20
Depending on the installation location, the length of the crossing pipe 33 is about 10m ±
Even if the resistance values of the other capillary tubes 24b and 24c are precisely adjusted with respect to the reference capillary tube 24a, the amount of the refrigerant charged in the refrigeration cycle becomes uneven, and the proper performance cannot be maintained. .

Therefore, based on the refrigeration cycle having the longest transition pipe 33 and the capillary tube 24a having a low resistance value, when a refrigerant suitable for this is filled, a refrigeration cycle using the medium transition pipe 33 as shown in FIG. The capillary tube 24b of the refrigeration cycle using the capillary tube 24b or the small-length crossover pipe 33
c has a medium reservoir 35b (eg, 30
cm ³ ) or a large reservoir 35c (for example, 1
00 cm ³ ) so that when the amount of refrigerant increases, the excess refrigerant is accumulated so as not to impair the characteristics of the refrigeration cycle.

By using such reservoirs 35b and 35c, the refrigerant in each refrigeration cycle is properly adjusted even if the length of the crossover pipe 33 and the resistance of the capillary tubes 24b and 24c change, and the performance thereof is improved. The drop can be prevented.

When a desiccant such as molecular sieves is put in the sump tanks 35b and 35c, moisture in the refrigerant is removed, and the performance of the refrigerant does not deteriorate over a long period of time.

A split air conditioner using a plurality of capillary tubes having different resistance values as described above is very inexpensive as compared with an expansion valve, and therefore does not increase the manufacturing cost.

In each of the above embodiments, a split air conditioner dedicated to freezing is assumed. However, it is of course possible to apply the present invention to a split air conditioner used for both cooling and heating.

Further, in each of the above-described embodiments, a description has been given of the case where three capillary tubes are provided. However, the number of the capillary tubes may be two or may be increased to four or more.

[0044]

According to the present invention, two crossover pipes having a length determined by the installation location are provided between the outdoor unit and the indoor unit, and one of the two crossover pipes has a resistance value. One capillary tube having a resistance value corresponding to the length of the transition pipe from a plurality of different capillary tubes is selected and connected. Therefore, even when the transition pipes of different lengths are connected. A split air conditioner can be used as in a normal refrigeration cycle without replenishing the refrigerant.

Further, an outdoor heat exchanger is connected to one end of the plurality of capillary tubes of the present invention, and a connecting valve for connecting a crossing pipe is attached to the other end, so that connecting pipes of different lengths can be connected. Can be easily performed.

Further, the present invention relates to a split air conditioner having a refrigeration cycle filled with a refrigerant based on a longest use transition pipe and a capillary tube having a low resistance value corresponding to the longest use transition pipe. Since the sump tank is provided in series with the tube, it is possible to prevent a decrease in the performance of the refrigeration cycle having different lengths and resistance values.

Further, since the capacity of the liquid reservoir tank of the present invention is increased as the resistance value of the capillary tube is increased, excess refrigerant in the refrigeration cycle can be adjusted appropriately.

Further, the desiccant is put in the reservoir of the present invention, so that the water contained in the refrigerant can be properly removed.

Further, since the plurality of connection valves of the present invention are mounted on the outer wall on one side of the outdoor unit, the connecting operation of the crossover pipe can be simplified.

Further, since the plurality of connection valves of the present invention are mounted on the outer wall of one side of the outdoor unit so as to be shifted laterally, the connection work of the two crossover pipes can be easily performed.

Further, since the plurality of connection valves of the present invention are mounted at different heights from the base of the outdoor unit, connection of long, medium and short crossover pipes can be easily performed.

Furthermore, since the plurality of connection valves of the present invention display the recommended crossover pipe length on one side outer wall of an outdoor unit in the vicinity of the connection valve, long, medium, and short crossover pipes can be easily identified. be able to.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an outline of a split air conditioner of the present invention.

FIG. 2 is a refrigeration cycle diagram of the split air conditioner shown in FIG.

FIG. 3 is a side view showing a main part of an outdoor unit of the split air conditioner shown in FIG. 1;

FIG. 4 is another refrigeration cycle diagram of the split air conditioner shown in FIG.

FIG. 5 is a perspective view showing an outline of a conventional split air conditioner.

[Explanation of symbols]

 10, 20 Split air conditioner 11, 27 Outdoor unit 12, 32 Indoor unit 13, 33, 33a, 33b Crossover pipe 24a, 24b, 24c Capillary tube 25, 26a, 26b, 26c Connection valve 30, 31, Connection pipe 35b, 35c Liquid reservoir tank

 ──────────────────────────────────────────────────続 き Continuing from the front page (72) Inventor Genji Yamaguchi 3-3-9, Shimbashi, Minato-ku, Tokyo Inside Toshiba ABU EE Corporation (72) Inventor Toshiyuki Sano Minato-ku, Tokyo 3-3-9, Shimbashi Toshiba Abu E Co., Ltd. (72) Inventor Tadashi Tanaka 3-3-9, Shimbashi, Minato-ku, Tokyo Toshiba Abu E Co., Ltd.

Claims (9)

[Claims] (1) Two crossover pipes having a length determined by an installation location are provided between an outdoor unit and an indoor unit,
One of the two crossover pipes is selected from a plurality of capillary tubes having different resistance values and connected to one capillary tube having a resistance value corresponding to the length of the crossover pipe. A split air conditioner characterized by that: 2. The split air conditioner according to claim 1, wherein an outdoor heat exchanger is connected to one end of each of the plurality of capillary tubes, and a connection valve for connecting a crossover pipe is attached to the other end. 3. A split air conditioner having a refrigeration cycle filled with a refrigerant based on a longest use transition pipe and a capillary tube having a low resistance value corresponding to the longest use transition pipe, connected in series with another capillary tube having a high resistance value. The split air conditioner according to claim 1, further comprising a reservoir tank. 4. The split air conditioner according to claim 3, wherein the capacity of the liquid reservoir tank is increased as the resistance value of the capillary tube is increased. 5. A split air conditioner according to claim 3, wherein a desiccant is contained in the reservoir tank. 6. The split air conditioner according to claim 2, wherein the plurality of connection valves are mounted on one outer wall of the outdoor unit. 7. The split air conditioner according to claim 6, wherein each of the plurality of connection valves is laterally offset from one side outer wall of the outdoor unit. 8. The split air conditioner according to claim 6, wherein the plurality of connection valves are mounted at different heights from the base of the outdoor unit. 9. The split air conditioner according to claim 2, wherein the plurality of connection valves have a recommended length of a transfer pipe displayed on an outer wall on one side of an outdoor unit in the vicinity of the connection valve.