KR20200138957A - Stand-alone type air conditioner that uniforms exhaust air velocity - Google Patents

Abstract

The present invention relates to a stand type air conditioner with a uniform exhaust speed, which equalizes a wind speed distribution of air passing through a heat exchanger and another wind speed distribution of an outlet of a main body. The air conditioner comprises: a container main body; a suction unit installed in a lower portion of a front surface of the container main body; a blower unit blowing the air sucked by the suction unit; the heat exchanger installed in an upper portion of the blower unit; and the outlet installed in the upper portion of the front surface of the container main body. The heat exchanger has an upwardly convex shape by the front surface-side heat exchanger disposed on a front surface side of the container main body and the rear surface-side heat exchanger disposed on a rear surface side of the container main body. Moreover, the numbers of the arrangement rows of the front surface-side heat exchanger and the rear surface-side heat exchanger are different from each other.

Description

Stand-alone type air conditioner that uniforms exhaust air velocity}

The present invention relates to a standing (床置) type air conditioner, in particular to the configuration of a heat exchanger.

The prior art related to the present invention will be described with reference to FIG. 4. 4 is a side view showing the internal structure of a conventional stand-type air conditioner that uniformizes the exhaust wind speed. The air conditioner main body (1) is composed of a main body inlet (2) installed on the lower front side, a main body outlet (3) installed on the upper front side, a rear panel (4) forming the rear of the main body, and a front panel (5) on the front of the main body. Has been. A casing 6 is mounted under the rear panel 4, and a motor 7 is accommodated in the casing 6. The motor 7 is supported by a rear panel 4 and a fan 8 is mounted on the rotating shaft 10 to form a blower. Further, the casing 6 is constituted by a casing inlet 6a facing the main body inlet 2 and a casing outlet 6b that opens upward. Further, the heat exchanger 9 is arranged above the casing 6, and the heat exchanger 9 has an inverted V shape, and is composed of a front heat exchanger 9a and a rear heat exchanger 9b. . With this configuration, the height of the air conditioner body 1 is lowered while securing the required heat transfer area of the heat exchanger 9, and the capacity of the heat exchanger 9 disposed in the air conditioner body 1 is increased to increase the heat transfer surface. Zoom in. Such a conventional example is disclosed in Chinese Utility Model Registration CN 2446442Y, for example.

However, in such a conventional configuration, the speed of air passing through the heat exchanger 9 is high in the rear heat exchanger 9b on the rear panel 4 side, and the front heat exchanger 9a on the main body outlet 3 side Because it slows down, the distribution of wind speed becomes uneven. Therefore, not only the performance of the heat exchanger 9 is not exhibited to the maximum, but also the distribution of the air velocity blown out from the main body outlet 3 to the room is not uniform, and the air flow is confused, for example, during cooling operation, the main body outlet. (3) I had a problem that condensation was formed.

The present invention is to solve such a conventional problem, in a heat exchanger having an inverted V-shape structure, to uniformize the velocity distribution of air passing through the front heat exchanger and the rear heat exchanger, improve the performance of the heat exchanger, and The object of the present invention is to realize a stand-alone air conditioner that uniformizes the exhaust wind speed that prevents condensation from occurring.

The standing-type air conditioner of the present invention uniformizes the discharged wind speed: a body inlet, a main body inlet installed at the lower front of the body, and a blower for blowing air sucked from the main body inlet; A heat exchanger installed at the upper part of the abundance, a front heat exchanger disposed at the front side of the housing body, and having an outlet installed at the front upper part of the housing body, and a rear heat exchanger disposed at the rear side of the housing body. Accordingly, it is configured to have an iron shape upward, and the number of heat exchanged between the front heat exchanger and the rear heat exchanger is different.

According to this configuration, it is possible to equalize the velocity distribution of the air passing through the heat exchanger, improve the performance of the heat exchanger, and prevent the occurrence of condensation at the main body outlet by making the distribution of the wind velocity at the main body outlet uniform.

As described above, according to the present invention, the performance of the heat exchanger can be improved by making the air velocity distribution of the air passing through the heat exchanger more uniform, and condensation can be prevented by making the air velocity distribution at the outlets uniform.

1 is a side view showing the internal structure of a stand-type air conditioner that uniformizes the exhaust wind speed in Embodiment 1 of the present invention.
2 is a side view showing the internal structure of a stand-type air conditioner that uniformizes the exhaust wind speed in Embodiment 2 of the present invention.
3 is a side view showing the internal structure of a stand-type air conditioner that uniformizes the exhaust wind speed in Example 3 of the present invention.
Fig. 4 is a side view showing the internal structure of a conventional air conditioner that uniformizes the exhaust wind speed.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Example 1)

1 is a side view showing the internal structure of a stand-type air conditioner that uniformizes the exhaust wind speed in Example 1 of the present invention. The basic structure is the same as that of a conventional air conditioner that uniformizes the exhaust wind speed, and the same components are assigned the same reference numerals, and detailed descriptions thereof will be omitted.

As shown in Fig. 1, a casing 6 is attached to a lower portion of the rear panel 4, and a motor 7 is housed in the casing 6. The motor 7 is supported by a rear panel 4, and a centrifugal fan 8 is mounted on the rotating shaft 10 to form a blower part. Further, the casing 6 is constituted by a casing inlet 6a facing the main body inlet 2 and a casing outlet 6b that opens upward. Further, the heat exchanger 9 is arranged above the casing 6, and the heat exchanger 9 has an inverted V shape, and is composed of a front heat exchanger 9a and a rear heat exchanger 9b. . Accordingly, the air sucked in the direction of the rotation shaft 10 is configured to be blown upward by the casing 6.

On the other hand, the heat exchanger 9 is located above the casing outlet 6b, and further, the main body outlet 3 is disposed at a higher position than the heat exchanger 9. Further, the heat exchanger 9 is formed in an iron shape (inverted V-shape) upward from the front panel 5 on the front that forms the body body to the rear panel 4 on the rear surface. The heat exchanger 9 is a so-called finned tube type heat exchanger, and is composed of a plurality of rows of tubes and fins provided around the tubes. By arranging the heat exchanger 9 so as to have an iron shape, the heat exchanger 9 has a rear heat exchanger 9b on the rear panel 4 side (the main body rear side) and the main body outlet 3 side (the main body It is divided into a front heat exchanger (9a) of the front side). In this way, when the centrifugal fan 8 is installed on the rear side of the main body, the air blown by the centrifugal fan 8 has a non-uniform distribution of wind speeds in which the wind speed on the rear side of the main body is larger than the wind speed on the front side of the main body.

In this embodiment, as shown in Fig. 1, the number of heat dissipated (the number of stacked stages) of the rear heat exchanger 9b located in the flow path where the air blown from the centrifugal fan 8 is high is the front surface located in the flow path having the low wind speed. It is made larger than the number of heat dissipated in the side heat exchanger 9a. That is, by changing the arrangement density of the rear heat exchanger 9a, ventilation resistance can be increased, and the velocity distribution of air passing through the heat exchanger 9 can be uniform. Accordingly, the performance of the heat exchanger 9 as a whole can be improved, and the distribution of wind speed at the main body outlet 3 can be made uniform to prevent the occurrence of condensation at the main body outlet 3.

In addition to adjusting the number of heat arrayed in this way, it is possible to adjust the ventilation resistance by narrowing the pin pitch and changing the shape of the drill of the pin.

(Example 2)

2 is a side view showing the internal structure of a stand-type air conditioner that uniformizes the exhaust wind speed in Embodiment 2 of the present invention.

As shown in FIG. 2, the upper end of the heat exchanger 9 is disposed above the horizontal plane of the lower side 11 constituting the main body outlet 3. Further, as in the first embodiment, the heat exchanger 9 is formed in a convex shape (inverted V-shape) from the front panel 5 on the front of the main body to the rear panel 4 on the rear of the main body. In addition, the arrangement of the centrifugal fan 8 and the like is the same as in the first embodiment. In this case, as opposed to the first embodiment, the wind speed on the front side heat exchanger 9a side, which is located at an inclined upper portion of the centrifugal fan 8, increases, and the wind speed on the rear side heat exchanger 9b side decreases.

Further, in this embodiment, the number of heat dissipated in the front heat exchanger 9a with increased wind speed is made larger than the number of heat dissipated in the rear heat exchanger 9b located in a flow path with low wind speed. Accordingly, the velocity distribution of the air passing through the heat exchanger 9 can be made uniform, the performance of the heat exchanger 9 can be improved, and the distribution of the wind speed at the main body outlet 3 is uniformed, and the main body outlet 3 ), it becomes possible to prevent condensation from occurring.

(Example 3)

3 is a side view showing the internal structure of a stand-type air conditioner that uniformizes the exhaust wind speed in Example 3 of the present invention. The basic structure is the same as in Example 1, and detailed descriptions are omitted.

According to this embodiment, the heat exchanger 9 is installed above the casing outlet 6b, and the main body outlet 3 is installed above the heat exchanger 9. Further, the electric heater 12, which is an auxiliary heating unit, is disposed above the upper end of the heat exchanger 9 and below the horizontal plane at the lower side 11 constituting the main body outlet 3. Therefore, the electric heater 12 is energized in the flow path in which the wind speed distribution is uniform by the front heat exchanger 9a and the rear heat exchanger 9b, so that air having a small temperature unevenness can be taken out from the main body outlet 3. It is possible to realize a comfortable indoor heating space. In addition, since the electric heater 12 is arranged so that the electric heater 12 is not visible from the front of the main body outlet 3, the user does not accidentally contact the heater 12 due to a finger test or the like, and a protective member to prevent it is not required. Do. Therefore, it is possible to reduce the number of parts and to improve assembly workability.

Claims (4)

Ore body;
A main body suction port installed at the lower front of the body body;
A blower for blowing the air sucked from the main body inlet;
A heat exchanger installed above the air blower; And
It has an outlet installed on the upper front of the body body,
The heat exchanger is configured to have an iron shape upward by a front heat exchanger disposed on the front side of the housing body, and a rear heat exchanger disposed on the rear side of the housing body, and further arrangement of the rear heat exchanger The number of hot water is configured to be greater than the number of heat dissipated in the front heat exchanger,
A standing type air conditioner for uniformly discharging the air velocity, wherein the outlet is disposed above an upper end of the heat exchanger, and the rear heat exchanger is disposed immediately above the air blower. The vertical air according to claim 2, wherein an auxiliary heating unit is provided, and the auxiliary heating unit is disposed above the upper end of the heat exchanger and below the horizontal surface of the lower side constituting the air outlet. Harmony. Ore body;
A main body suction port installed at the lower front of the body body;
A blower for blowing the air sucked from the main body inlet;
A heat exchanger installed above the air blower; And
It has an outlet installed on the upper front of the body body,
The heat exchanger is configured to have an iron shape upward by a front heat exchanger disposed on the front side of the housing body, and a rear heat exchanger disposed on the rear side of the housing body, and further arrangement of the rear heat exchanger The number of hot water is configured to be greater than the number of heat dissipated in the front heat exchanger,
The upper end of the heat exchanger is arranged above the horizontal surface of the lower side constituting the outlet, and the number of heat dissipated in the heat exchanger disposed on the inclined upper part of the air blower is larger than the number of heat dissipated in the other heat exchanger A stand-type air conditioner that uniformizes the exhaust wind speed, characterized in that. The method according to any one of claims 1 to 3, wherein the air blower includes a centrifugal fan and is configured to blow air sucked in the direction of the rotation axis upward by a casing installed opposite the centrifugal fan. A stand-alone air conditioner that equalizes the exhaust wind speed.

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