1. Field of the Invention
The present invention relates to a pipe structure of an air conditioner, and more particularly, to a pipe structure of an air conditioner that can reduce vibration from an absorption/discharging pipe of a compressor, and from a plurality of connection pipes, which are neighboring pipes around the compressor, among elements of an outdoor unit. Also, the present invention relates to a pipe structure of an air conditioner that can maintain, in a more compact form, a structure of a machinery room where the compressor is located.
2. Description of the Related Art
Generally, an air conditioner is an apparatus for controlling temperature and/or humidity of a system desired by a user, by circulating, inside the system, a cooling air generated through compression, condensation, expansion, and evaporation of refrigerant.
Such an air conditioner includes an indoor unit positioned in an indoor and an outdoor unit positioned in an outdoor, for emitting undesired heat or a cooling air. In the meantime, to the inside of the outdoor unit, an outdoor heat exchanger for exchanging heat, an outdoor fan for generating forced wind tunnel, and a compressor for forcibly flowing a refrigerant inside a cooling cycle, are generally provided. Since generating a noise during its operation, the compressor is generally positioned in the outdoor unit so that noise environment in the indoor may be improved.
However, recently, as the space of the indoor environment gets narrow, the indoor space gets close to the installation position of the outdoor unit and noise from the outdoor unit is frequently transferred to the indoor space. Under such an environment, an effort to reduce the noise occurring during operation of the outdoor unit is being made. Particularly, in case the outdoor unit and the indoor unit are positioned inside the same apparatus such as a window-type air conditioner, the problem related to the noise is caused more seriously.
In the meantime, the noise from the outdoor unit is roughly divided into a noise occurring during operation of the outdoor fan and a noise occurring during operation of the compressor. The present invention is mainly directed to improve the noise occurring during operation of the compressor. Generally, the noise occurring at the compressor is transferred through a pipe. More specifically, vibration occurring at the compressor is transferred through the absorption and the discharging pipes connected to the compressor and a plurality of connection pipes formed inside the machinery room, and amplified by mutual interference, and changed into big vibration and noise in case vibration reaches resonance.
According to the related art, a plurality of pipes formed in the machinery room where the compressor is located, is generally formed long to reduce vibration from the compressor. Also, in order for the long pipes to be formed inside the machinery room, a plurality of pipes are mutually twisted in a three-dimensional structure. Therefore, it is frequent that the mutually connected pipes are mutually amplified in their vibration and that resonance is generated in the whole pipe due to mutual three-dimensional influence given and taken between them, which have been problematic. If resonance is generated in the pipe, trembling is generated in the whole pipe, which becomes a factor for generating a noise in the whole machinery room.
Also, if the pipes are twisted disorderly, the structure of the machinery room becomes complicated and the space of the machinery room cannot be used efficiently.
Accordingly, the present invention is directed to a pipe structure of an air conditioner that substantially obviate one or more problems due to limitations and disadvantages of the related art.
An object of the present invention is to provide a pipe structure of an air conditioner that can minimize influence given and taken between the pipes.
Another object of the present invention is to provide a pipe structure of an air conditioner that can prevent vibration, resonance, and noise of pipes due to vibration from a compressor by reducing vibration transferred from the compressor to the pipes.
A further object of the present invention is to provide a pipe structure of an air conditioner that can construct a structure of the machinery room of the outdoor unit in a more compact manner.
To achieve these objects and other advantages in accordance with the purpose of the invention, as embodied and broadly described herein, there is provided a pipe structure of an air conditioner, including: an outdoor unit of an air conditioner; a machinery room formed on either side inside the outdoor unit; a compressor formed inside the machinery room, for compressing a refrigerant; and a plurality of pipes formed, in parallel with each other, radially from the compressor and which are a flowing path of a refrigerant passing through the compressor and formed long in up-down direction at the outer side of the compressor.
At this point, supposing that a distance between one pipe and an adjacent other pipe among the above pipes, is a P-dist and a radius of the pipe is R, a condition of 4R<P-dist<10R is satisfied.
At this point, supposing that an intervening angle between one pipe and an adjacent other pipe among the above pipes is a P-angle and a radius of the pipe is R, a condition of 135°<P-angle<225° is satisfied.
In another aspect of the present invention, there is provided a pipe structure of an air conditioner, including: a barrier for partitioning an outdoor unit of an air conditioner and has a machinery room in its part of the division; a compressor settled down inside the barrier; and a plurality of pipes which is a flowing path of a refrigerant passing through the compressor and formed long in up-down direction at an outer side of the compressor and concentrated on one side of the compressor, so that an inside of the machinery room may be formed in a compact manner.
In still another aspect of the present invention, there is provided a pipe structure of an air conditioner, including: a compressor; and a plurality of pipes formed vertically, in parallel with each other, with the compressor centered and which are a flowing path of a refrigerant passing through the compressor and formed long in up-down direction at the outer side of the compressor.
According to the pipe structure of the air conditioner of the present invention, an effect of reducing vibration and noise generated at the machinery room of the outdoor unit, can be obtained. Also, since the pipes can be concentrated on a narrow space, the machinery room can be small-sized.
Also, since a single-type vibration reducing member can be installed, in a simple manner, at the pipe structure of the present invention, the manufacturing process of the outdoor unit can be simplified and the manufacturing costs can be reduced.
It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principle of the invention. In the drawings:
Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.
Referring to
Also, there are provided a case 10 constituting an appearance of the outdoor unit, and a machinery room 20 where the compressor 1 and the pipes are located and formed on either side of the outdoor unit. The machinery room 20 is locally biased on either side of the outdoor unit and separated, by means of the barrier 21, from the space where the outdoor fan 3 and the outdoor heat exchanger 2 are installed.
With priority given to the four-way valve, flowing of a refrigerant inside the pipe in the outdoor unit will be briefly described in the following. Flowing direction of a refrigerant inside the absorption pipe 11, the discharging pipe 12, the indoor-connection pipe 13, and the outdoor-connection pipe 14, can be controlled by the four-way valve 7. More specifically, if the discharging pipe 12 is connected with the outdoor-connection pipe 14 and the absorption pipe 11 is connected with the indoor-connection pipe 13, the air conditioner operates as the general air conditioner for cooling down the inside. On the contrary, if the discharging pipe 12 is connected with the indoor-connection pipe 13 and the absorption pipe 11 is connected with the outdoor-connection pipe 14, the air conditioner operates as the heat pump for heating the inside.
Also, on the part where the indoor-connection pipe 13 is projected, in its end, to the outside of the outdoor unit, a service valve 15 is formed. The service value 15 may be used for vacuum-forming of the inside of the pipe, temporarily stopping the air conditioner system, and discharging/injecting a refrigerant. Such service valve 15 is projected on the outside of the outdoor unit case 10.
In the meantime, referring to
In the meantime, though the pipes 11, 12, 13 and 14 are formed on the right side of the compressor 1, same effect can be expected even in case the pipes are formed on the left side of the compressor 1.
In
Also, since the pipes are formed in a direction parallel with the longitudinal direction of the compressor 1, namely, formed long, in up-down direction, on a two-dimensional basis, the inside of the machinery room 20 can be used in a more efficient manner. Furthermore, since the pipes 11, 12, 13 and 14 are formed long each other in parallel direction, the vibration reducing member may be formed in form of a single-type body at once. Also, since the pipes 11, 12, 13 and 14 are formed long in parallel direction to one another, it is expected that vibrations that might mutually influence on the pipes are reduced more easily.
In the meantime, the present invention suggests a primary factor by which the pipes 11, 12, 13 and 14 are installed, as follows. More specifically, with assumption that a plurality of pipes of various kinds is formed long vertically, at either side of the compressor, the present invention suggests a desirable proposal for a distance between the pipes and an intervening angle between the pipes.
Defining a distance L between the pipes 11, 12, 13 and 14 as a P-dist, the P-dist is given by the following formula 1.
Formula 1
4R<P-dist<10R (Here, R represents a radius of the pipe)
If the distance between the pipes 11, 12, 13 and 14 is too short, the pipes collide with each other upon occurrence of vibration, so that a noise may be generated. Even though the vibration reducing member (not shown) is installed, there is possibility that vibration between the pipes may not be reduced sufficiently. Also, if the distance between the pipes is too long, there are weak points that space use efficiency of the machinery room is decreased and that a single vibration reducing member cannot be installed. For the vibration reducing member, a variety of shapes such as a rubber, a tape is possibly used.
Defining an intervening angle A between the pipes 11, 12, 13 and 14, as a P-angle, the P-angle is given by the following formula 2.
135°<P-angle<225°
As described above, in case the intervening angle between the pipes 11, 12, 13 and 14 is too big, there is a weak point that concentration degree of the pipes is lowered so that space use efficiency of the machinery room is reduced. On the contrary, in case the intervening angle is too small, there is a weak point that the pipes get too close each other so that mutual interference might be generated between the pipes.
More preferably, it is possible to reduce vibration of the pipes while increasing concentration degree of the pipes, by having a virtual line linking the compressor 1 to one of the pipes 11, 12, 13 and 14, perpendicular to a virtual line linking the spaces between the pipes 11, 12, 13 and 14. Since there is no possibility that a vibration component provided to one of the pipes 11, 12, 13 and 14 is amplified by the adjacent other pipe thanks to the orthogonality relation between such virtual lines, mutual interference of vibration can be avoided and reduction effect in vibration can be obtained on the whole.
In the meantime, referring to
Also, as explained above, by having another pipe positioned at the position between the two pipes, i.e., at the adjacent position on a connection line connecting the two pipes, the pipes can be arranged, two-dimensionally, in a parallel direction, whereby reduction effect of the vibration can be enhanced even more. It is needless to say that the pipes are arranged side by side at the adjacent position so that a single-type vibration reducing member may be easily installed.
In the meantime, though a plurality of pipes 11, 12, 13 and 14 is circularly arranged in
Referring to
At this point, since a plurality of pipes positioned at the neighborhood of the compressor 1, is aligned in parallel direction each other and formed radially around the compressor 1, the vibrations generated at one of the pipes and the adjacent other pipe can be cancelled each other.
Such a pipe structure of the air conditioner can be applied not only to an outdoor unit of a heat pump, general heating/cooling system, but also to an outdoor unit of an air conditioner for cooling operation, an outdoor unit of a multi-type air conditioner, and an outdoor unit of an air conditioner having an accumulator as well.
According to the suggested pipe structure of the air conditioner, an effect that the vibration and noise generated from the machinery room of the outdoor unit are reduced even more can be obtained. Also, since the pipes can be arranged, in a concentrating manner, at a narrow space, the machinery room can be small-sized. Also, inside the small-sized machinery room, sound absorbing material can be installed in a more convenient manner.
Also, since a singe-type vibrating reducing member can be installed at the pipe structure in a simple manner, the manufacturing process of the outdoor unit can be simplified and the manufacturing costs can be reduced.
It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention. Thus, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.
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