JP6528131B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner in which a suction port is configured below a blowout port, and a wind direction plate is formed in a continuous plane from a blowing passage at a blowout port in a substantially horizontal direction.

  Generally, a blower circuit is formed to ventilate a main casing having a suction port and a blowout port, a blower is provided in the blower circuit, a heat exchanger is disposed in the vicinity of the upstream of the blower, and rotation of the blower An air conditioner is known which has an indoor unit that blows off from a blowout port after heat exchange of the sucked air through a heat exchanger. A rear guider and a stabilizer are provided to form the flow of air generated by the rotation of the blower. By the way, as the flow of air inside the fan, a flow (main stream) which passes through the fan and is blown out from the blowout port, and a flow (vortex) which is generated between the fan and the stabilizer and circulates in a spiral at the tip of the stabilizer Exists.

  Here, the air conditioner 1 currently disclosed by patent document 1 is demonstrated using FIG. 4 as an example of the conventional indoor unit. The air conditioner 1 has a suction port 3 at the lower surface of the main casing 2, an air outlet 4 at the arc-shaped front surface, an air passage 5 connecting the suction port 3 and the air outlet 4, a front heat exchanger 6, a rear portion A heat exchanger 7, a front heat exchanger 6 for delivering the heat-exchanged air to the outlet 4 and a blower 8 located above the rear heat exchanger 7, a front heat exchanger 6 for receiving condensed water, A dew tray 9 located below the rear heat exchanger 7 is provided, and an auxiliary suction port 10 is provided on the front or lower surface of the front heat exchanger 6. The rear guider 11 connecting the upper portion of the blower 8 and the upper portion of the air outlet 4 is provided, the stabilizer 12 connecting the lower portion of the air blower 8 and the lower portion of the air outlet 4 A partition 13 is provided to connect with the rear.

  As the blower 8 rotates, air is drawn in so as to pass through the front heat exchanger 6 and the rear heat exchanger 7, and flows through the blower 8 through the air passage formed by the stabilizer 12 and the rear guider 11. It is blown out from the main body casing 2. At that time, the air passing through the suction port 3 and flowing along the partition wall 13 passes through the rear heat exchanger 7 and continues to flow along the rear guider 11. The rear guider 11 has a substantially horizontal surface at the upper part of the blower 8, forms a curved surface from there, has a surface directed obliquely downward at the outlet 4 and has a surface directed obliquely downward at the outlet 4 Therefore, we are aiming to control the direction of the blown air diagonally downward.

Japanese Patent Laid-Open No. 2000-240965

  However, in the air conditioner 1 which concerns on patent document 1, although the direction of blowing air can be made diagonally downward, horizontal direction blowing becomes difficult. If it is difficult to blow out in the horizontal direction, there is a risk that controllability of the indoor airflow environment may be accompanied by problems such as inability to form an airflow for forming a non-airflowing area in the room.

The present invention has been made in view of the above-described conventional problems, and is provided with a blower inside a blower circuit for ventilating a main body casing having a suction port and a blower outlet, and heat exchange near the upstream of the blower. In the indoor unit equipped with a rear guider and a stabilizer, in order to form an air flow generated by the rotation of the blower, the blowout direction of the air flow from the blowout port is controlled in a horizontal direction, and the air flow environment in the room It is an object of the present invention to provide an air conditioner capable of improving the controllability of the air conditioner.

  An air conditioner according to the present invention comprises an air inlet and an outlet, a blower circuit connecting the inlet and the outlet, and a main casing having a blower, a stabilizer, and a rear guider in the blower circuit. The air outlet is configured to blow air in a substantially horizontal direction to the front surface of the main body casing, the air inlet is located below the air outlet, and the wind direction plate is at least a part of the air passage of the air outlet. It consists of a continuous surface from the wall surface of

  In this case, the air flow direction plate is constructed by the air flow circuit at the air outlet from the air flow circuit, whereby the air conditioner having the air outlet formed in the substantially horizontal direction can blow air from the front surface of the main body casing in the substantially horizontal direction. it can.

  In the air conditioner according to the present invention, the air flow can be blown out in a substantially horizontal direction from the front surface of the main body casing, and the air outlet is positioned near the ceiling to efficiently form the ceiling air flow indoors. A comfortable indoor air flow formation effect can be obtained.

Sectional drawing which shows an example of a structure of the air conditioner which concerns on Embodiment 1 of this invention. Sectional drawing which shows an example of a structure of the air conditioner which concerns on Embodiment 2 of this invention Sectional drawing which shows an example of a structure of the air conditioner concerning Embodiment 3 of this invention. Sectional drawing which shows the indoor unit of the air conditioner which concerns on patent document 1

  The first invention is an air conditioner comprising a main casing having a suction port and a blowout port, a blower circuit connecting the suction port and the blower port, and a blower, a stabilizer and a rear guider in the blower circuit. The air outlet is configured to blow air in a substantially horizontal direction to the front surface of the main body casing, the air inlet is positioned below the air outlet, and the wind direction plate is a wall surface of at least a part of the air passage of the air outlet. It consists of a continuous aspect from

  According to this, in the air conditioner in which the air outlet is configured in a substantially horizontal direction by forming the air direction plate in the air outlet from the air flow circuit, the air flow is blown out in the substantially horizontal direction from the front surface of the main body casing. By forming the air outlet in the vicinity of the ceiling, it is possible to efficiently form the ceiling air flow indoors and to form a comfortable indoor air flow.

  According to a second aspect of the invention, in the air conditioner according to the first aspect of the invention, in particular, a first wind direction plate formed of a surface continuous with at least a part of the wall surface of the stabilizer, and a surface continuous with at least a part of the wall surface of the rear guider. And a second wind direction plate.

  According to this, the first air flow direction plate is disposed between the blowout port and the suction port formed on the lower surface of the blowout port, whereby the air flow blown out from the blowout port directly flows into the suction port By suppressing the short circuit, the air flow can be efficiently blown out from the front surface of the main body casing in a substantially horizontal direction, and a comfortable indoor air flow can be formed.

  According to a third aspect of the invention, in the air conditioner according to the first aspect of the invention, in particular, a drive shaft for rotationally driving the second wind direction plate, from the end of the outlet, the tip of the second wind direction plate and the drive shaft center It is provided at a position separated by a distance having a distance of

  According to this, when controlling the air flow direction blown out from the blowout port by the rotational drive of the second air flow direction plate, the distance to the first air flow direction plate is narrowed and the reduction of the air volume is alleviated, regardless of the direction of the air flow blown out. , You can secure the air flow.

  According to a fourth aspect of the present invention, in the air conditioner according to the first aspect, the second aspect is provided with a drive arm for driving the second wind direction plate, and the second wind direction plate is centered on a drive axis located at the tip of the drive arm. It rotates.

  According to this, when controlling the air flow direction blown out from the blowout port by driving using the drive arm of the second air flow direction plate, the distance between the first air flow direction plate and the second air flow direction plate is made constant regardless of the blown air flow direction. The air volume can be maintained, and the change of the air volume depending on the direction of the air flow blown out can be mitigated, and the air volume can be secured regardless of the direction of the air flow blown out.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In addition, each embodiment described below is an example, and this invention is not limited by each embodiment.

Embodiment 1
FIG. 1 is a cross-sectional view showing an example of the configuration of the air conditioner 100 according to the present embodiment.

  As shown in FIG. 1, the indoor unit 101 of the air conditioner 100 is provided with a suction port 103 and a blowout port 104 in a main body casing 102, and an air blower circuit 105, a fan 106, a stabilizer inside the main body casing 102. 107, a rear guider 108, and a heat exchanger 109, wherein the outlet 104 is substantially horizontally disposed on the front surface of the main body casing 102 in the vicinity of the ceiling, and the inlet 103 is a lower surface of the outlet 104. Configured In addition, the first wind direction plate 110 configured by the stabilizer 107 and the continuous surface, and the second wind direction plate 111 configured by the rear guider 108 and the continuous surface are provided. The drive shaft center of the second wind direction plate 111 is located at the end of the outlet 104 corresponding to the tip of the rear guider 108.

  The blower 106 blows air in a direction substantially tangent to the blade outer circumference circle, passes through the blower 106 and is blown out from the outlet 104 (main stream), and flows between the blower 106 and the stabilizer 107 to circulate in a swirling manner. (Vortex) and generate. The blowout port 104 is formed by sandwiching the upper and lower portions by the rear guider 108 and the stabilizer 107, and the blowout direction is substantially horizontal, and the first wind direction plate 110 formed of the stabilizer 107 and a continuous surface The second air direction plate 111 formed of a continuous surface with the rear guider 108 can blow the air into the room without creating a short circuit in the suction port 103, efficiently forming a ceiling air flow in the room, and a comfortable indoor air flow. Can be formed.

The drive shaft center of the first wind direction plate 110 is located at the tip of the stabilizer 107 at the end of the outlet, and the drive shaft center of the second wind direction plate 111 is located at the tip of the rear guider 108 at the end of the outlet. The first wind direction plate 110 and the second wind direction plate 111 rotate around their respective drive axes, and control the direction of the air flow blown out from the blowout port 104.
Second Embodiment
FIG. 2 is a cross-sectional view showing an example of the configuration of the air conditioner 200 according to the present embodiment. In FIG. 2, the elements common to the first embodiment are denoted by the same reference numerals.

As shown in FIG. 2, the indoor unit 101 of the air conditioner 200 has a drive shaft center for rotating and driving the second air direction plate 111, a tip of the second air direction plate 111 in the blowing direction from the end of the outlet 104 and It is provided at a position separated by a distance having a distance from the drive axis. According to this, when the air flow blown out from the blowout port 104 is blown out in the horizontal direction, the second wind direction plate 111 is rotationally driven to a position where the tip end thereof abuts against the tip end of the rear guider 108. Further, when controlling the air flow blown out from the blowout port 104 in the obliquely downward direction by the second air direction plate 111, the second air direction plate 111 is rotationally driven to a position where the tip thereof is directed in the obliquely downward direction. According to this, when the second air direction plate 111 is driven to rotate, the distance between the second air direction plate 111 and the first air direction plate 110 is reduced and the reduction of the air volume is alleviated, regardless of the direction of the air flow blown out. Air volume can be secured, and comfortable indoor air flow can be formed.
Third Embodiment
FIG. 3 is a cross-sectional view showing an example of the configuration of the air conditioner 300 according to the present embodiment. In FIG. 3, the elements common to the first embodiment are given the same reference numerals.

  As shown in FIG. 3, in the indoor unit 101 of the air conditioner 300, the drive arms 112 support the left and right ends of the second wind direction plate 111. The drive arm 112 includes a drive unit, and can move horizontally and rotationally in the blowout direction by the operation of the drive unit. By this movement, the second wind direction plate 111 supported by the drive arm 112 can move horizontally and rotationally. In addition to the movement by the drive arm 112, rotation around the drive axis is possible by using the support portion of the second wind direction plate 111 by the drive arm 112 as the drive axis of the second wind direction plate 111. When the air flow blown out from the blowout port 104 is blown out in the horizontal direction, the second wind direction plate 111 is driven to a position which forms a continuous surface with the rear guider 108. Further, when controlling the air flow blown out from the air outlet 104 in the obliquely downward direction by the second air direction plate 111, the second air direction plate 111 is driven to a position where the tip thereof is directed in the obliquely downward direction. According to this, when the second air direction plate 111 is driven to rotate, the distance between the second air direction plate 111 and the first air direction plate 110 is reduced and the reduction of the air volume is alleviated, regardless of the direction of the air flow blown out. Air volume can be secured, and comfortable indoor air flow can be formed.

  In the present embodiment, the blower is described as an example of a cross flow fan, but the blower is not limited to this, and any form such as a turbo fan or an axial fan may be used.

  The air conditioner according to the present invention is suitable for use in household air conditioning and commercial air conditioning because it can increase the amount of air ventilated by the blower.

Reference Signs List 100 air conditioner 101 indoor unit 102 main casing 103 suction port 104 air outlet 105 air blow circuit 106 fan 107 stabilizer 108 rear guider 109 heat exchanger 110 first air direction plate 111 second air direction plate 112 driving arm

Claims (4)

An air conditioner comprising: a suction port and a blowout port; a fan circuit connecting the suction port and the blowout port; and a main body casing having a fan, a stabilizer, and a rear guider in the fan circuit. The front face of the main body casing is configured to blow in a substantially horizontal direction, the suction port is positioned below the air outlet, and the first air direction plate is continuous from the wall surface of at least a part of the stabilizer of the air outlet. An air conditioner characterized by comprising A first air direction plate formed of a surface continuous with at least a part of a wall surface of the stabilizer, and a second air direction plate formed of a surface continuous with at least a part of the wall surface of the rear guider. The air conditioner according to claim 1. The drive shaft for rotationally driving the second wind direction plate is provided at a position separated from the end of the outlet by the width in the wind direction of the second wind direction plate. Air conditioner. The air conditioning system according to claim 1, further comprising: a driving arm for driving the second wind direction plate, wherein the second wind direction plate is pivoted around a driving axis located at the tip of the driving arm. Machine.

Images