JP4602609B2 - Air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air conditioner composed of an indoor unit and an outdoor unit, and more particularly to an improvement in a display unit structure that displays the cleanliness of a room in an indoor unit.
[0002]
[Prior art]
An air conditioner composed of an indoor unit and an outdoor unit is often used. In an indoor unit, the main body includes a suction port and a blow-out port, and a heat exchanger, a blower, and the like are accommodated inside the main body.
[0003]
A display unit is provided at the front lower part or one side of the front of the main body, and the operation is started and ended by an infrared signal transmitted from a wireless remote controller (hereinafter referred to as a remote controller) attached to the outside of the indoor unit. Command, room temperature and air volume set by the user, wind direction, and other contents related to operation are displayed.
[0004]
Conventionally, a filter is disposed opposite to a suction port provided in the main body to capture dust mixed in room air sucked into the main body. Recently, there is an electric dust collector disposed on the front surface of the heat exchanger, and the dust passing through the filter is completely captured.
[0005]
There is also an indoor unit in which a negative ion generator is attached in the vicinity of the outlet. The negative ion generator includes a metal needle having sharp ends and a high voltage power source that applies a predetermined negative high voltage to the needle.
[0006]
The needle is provided such that one needle tip is directed from the outlet toward the room and the other needle tip is directed toward the blower. When a negative high voltage is applied to the needle from a high-voltage power source, negative ions are emitted from the tip of the needle toward the room.
[0007]
[Problems to be solved by the invention]
Thus, not only refrigeration cycle operation such as simple cooling, heating, dehumidification, etc., but also an air conditioner that promotes the purification of heat exchange air to achieve a healthy and comfortable air conditioner is provided. It was.
[0008]
The display unit is also required to display the condition of the cleanliness (or the degree of contamination) of the living room from moment to moment as well as the display of the operating conditions based on the transmission from the remote controller.
[0009]
In this case, for example, there are means for arranging a large number of light emitters such as lamps in a straight line, and expressing the cleanliness (or the degree of contamination) by the number of lighting of the light emitters. Alternatively, a light emitter is arranged along one side end of the prism as the reflecting means, the light emitting portion of this light emitter emits light toward the prism, and is reflected by the prism to express cleanliness (or the degree of contamination). There is a means.
[0010]
However, a structure in which a large number of light emitters are lit side by side is not only large in space but also complicated in control and adversely affects cost.
[0011]
In addition, when the light emitter is disposed on one side end of the prism, it is necessary to bend the lead leg portion of the light emitter connected to the substrate by 90 ° in order to make the light emitting portion of the light emitter face the side end surface of the prism. Yes, it takes time and has an adverse effect on costs.
[0012]
The present invention has been made in view of the above circumstances, and the purpose of the present invention is to display the cleanliness status of a living room, and to reduce the number of parts required for producing and assembling while reducing the number of light emitters required. It is an object of the present invention to provide an air conditioner including a display unit that requires less time and has less influence on cost.
[0013]
[Means for Solving the Problems]
In order to satisfy the above object, the present invention provides an air conditioner including an air conditioner main body and a display unit provided on the front surface of the air conditioner main body and displaying the cleanliness status of a living room. , in spaced positions from each other, they are connected perpendicularly axis is the wiring board, respectively is freely brightness adjustment, one emits light the color representing the cleanliness of the room and the other stain conditions of the room First and second light emitters that emit colors to be expressed, and inclined reflection portions that are cut obliquely at both end portions facing the first light emitter and the second light emitter are provided. In addition, a reflective display surface is formed in a part between the inclined reflective portions, and a knurled surface is provided on the surface opposite to the reflective display surface, and the first light emitter and the second light emitter are provided. The low reflection is performed by the inclined reflecting portion facing each other. It is reflected in Tsu up surface, by controlling the reflector to display in the reflective display surface flashing on the irregular reflection state knurled surface, the brightness of the first light emitter and second light emitter, emitting at the reflector And a control means for recognizing a change in the cleanliness of the room due to a change in the position of the boundary of the area.
[0019]
By adopting a means for solving such a problem, the number of light emitters required is reduced, and the number of parts can be reduced. Also, the production and assembly are not troublesome, and the influence on cost can be reduced.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view of the appearance of an indoor unit constituting an air conditioner.
The unit main body (air conditioner main body) 1 has a horizontally long shape with an extremely long width direction with respect to the vertical direction, and its front surface is curved and protrudes toward the front side.
[0021]
A part of the front panel 1a constituting the front surface of the unit body 1 is supported by an opening / closing drive mechanism (not shown), and is flush with other panels as shown in the figure when the operation is stopped. Controlled to protrude.
[0022]
An upper suction port is provided at the upper part of the unit body 1, and a front suction port (none of which is shown) that is opened and closed by a part of the front panel 1a is provided at the front of the unit body 1.
[0023]
A decorative plate 2 made of a translucent material is provided in the lower part of the front panel 1a of the unit body 1 over the width direction of the unit body 1 to cover the display unit 3 configured as described later.
[0024]
Further, on the lower side of the decorative plate 2, a blowout opening (not shown) that is opened and closed by the two blowout louvers 4 a and 4 b is provided. Each blowing louver 4a, 4b sets the blowing direction of the heat exchange air blown from the blowing port.
[0025]
Note that a negative ion generator is provided in the vicinity of the outlet, and negative ions are mixed with heat exchange air blown from the outlet and guided to the living room.
[0026]
FIG. 2 is a perspective view showing the interior of the indoor unit by removing the front panel 1a and the decorative plate 2 from the unit body 1. FIG.
The electrostatic precipitator 5 is visible in the approximate center of the unit body 1. The electric dust collector 5 is composed of a charge side electrode and a dust side electrode, and the charge side electrode gives a charge to dust in the air, and then attracts the dust given a charge at the dust side electrode, It is designed to remove dust.
[0027]
The electric dust collector 5 is arranged on the front side of the heat exchanger 6, and a part of the heat exchanger 6 can be seen at the lower part of the electric dust collector 5 and on the left side of the drawing. The heat exchanger 6 includes a front heat exchanger part and a rear heat exchanger part, and has an inverted V shape in a side view.
What is visible in the figure is a part of the front heat exchanger part, and the rear heat exchanger part is hidden behind the front heat exchanger part and the electric dust collector 5 and cannot be seen at all.
[0028]
Further, a two-way valve cover 7 is arranged in parallel on the right side of the electric dust collector 5 in the figure. The two-way valve cover 7 is for covering a two-way valve provided in a connection pipe between the front heat exchanger part and the rear heat exchanger part that constitute the heat exchanger 6.
[0029]
An electrical component box 8 that houses electrical components is provided at a further side portion of the two-way valve cover 7. The electric components in the electric component box 8 are for controlling the electric dust collector 5, for controlling the blower disposed between the front and rear heat exchanger parts of the heat exchanger 6, and for controlling the display unit 3. Other parts.
[0030]
Next, the display unit 3 will be described in detail.
FIG. 3 is a front view showing the display unit 3 with a part omitted, and FIG. 4 is a cross-sectional view of a part of the display unit 3 and schematically showing an electric circuit according to the display unit 3.
[0031]
A wiring board 10 is attached to the electric component base 9 constituting a part of the unit main body 1 by appropriate means. Necessary electric circuits are printed on the wiring board 10 and various electric components are attached.
[0032]
In one of the electrical components, a first LED 11 that is a first light emitter and a second LED 12 that is a second light emitter are spaced apart from each other along a straight line and face each other. Here, the left side of the figure is the first LED 11, and the right side is the second LED 12.
[0033]
Specifically, the lead legs of the LEDs 11 and 12 are inserted into the wiring board 10 and soldered as they are. Accordingly, the axis of each LED 11, 12 is in a vertical posture with respect to the wiring board 10, and the light emitting part “a” at the tip protrudes from the wiring board 10.
[0034]
For example, the first LED 11 emits blue light. This blue color is set to express the cleanliness of the room. The second LED 12 emits orange light. This orange color is set to represent the amount of dust in the room.
[0035]
Such 1st, 2nd LED11, 12 is covered with the prism cover 13 which is a cover body. The prism cover 13 is made of a synthetic resin material having a high light reflectivity (for example, white), and has claw portions 14 and 14 protruding from both sides. Each claw portion 14 is mounted in a mounting hole 15 provided in the wiring board 10.
[0036]
Furthermore, a housing portion 16 for housing the first LED 11 and the second LED 12 is formed inside the base end of the claw portion 14 of the prism cover 13. A prism support portion 17 is formed between the accommodating portions 16, and a prism 20 that is a reflector is supported here.
[0037]
Most of the front surface of the prism support portion 17 is open, and a step portion 21 provided along the end surface of the prism 20 is fitted into the opening portion 18. Therefore, the front surface of the step portion 21 of the prism 20 is exposed from the opening 18, and this front surface of the step portion is hereinafter referred to as a reflective display surface 22.
[0038]
The left and right side surfaces of the prism 20 are inclined reflecting portions 23 that are cut obliquely, and the prism cover 13 is also formed with inclined surfaces 17 a along the inclined reflecting portions 23. The prism 20 is supported by the projection surface 19 of the prism support portion 17 formed inside the housing portion 16.
[0039]
The accommodating portion 16 of the prism cover 13 that accommodates the first and second LEDs 11 and 12 is designed to be outside the position at a predetermined distance d from the both ends of the opening 18. In other words, the inclined reflecting portion 23 and the inclined surface 17a are located facing the accommodating portion 16, and the prism step portion 21 and the opening 18 are provided inside thereof.
[0040]
One surface of the prism 20 supported by the projection surface 19 of the prism support portion 17, that is, the surface facing the reflective display surface 22, is a so-called knurl in which a number of fine grooves are provided in parallel to the direction perpendicular to the longitudinal direction. In the following, this surface is referred to as a knurled surface 24.
[0041]
Due to the presence of the knurled surface 24, the light that has entered the prism 20 is reflected to the reflective display surface 22 in a diffusely reflected state, and there is no decrease in the amount of reflected light at least with respect to the amount of incident light on the prism 20.
[0042]
The surface of the prism cover 13 is covered with the base body 25. The base body 25 is made of, for example, a black and opaque light-shielding material, and is fitted over the entire outer peripheral surface of the prism cover 13 except for the claw portions 14.
[0043]
As will be described later, the first LED 11 and the second LED 12 are controlled so that the light emission amount (hereinafter referred to as luminance) increases or decreases in response to a signal from the control unit 30.
[0044]
For example, the control unit 30 receives a signal from a gas sensor 31 which is a detection means attached in the vicinity of the negative ion generator, performs a calculation based on the detection signal, and sends a luminance control signal to each of the LEDs 11 and 12. ing.
[0045]
FIG. 5 is a perspective view of the prism cover 13 to which the prism 20 is attached.
The prism cover 13 is integrally connected to a first cover 13A in which the claw portion 14 is formed, and the first cover 13A via a so-called PP hinge (hereinafter referred to as a hinge portion) 26. 2 cover 13B.
[0046]
The first cover 13A is provided with an opening 18 into which the step portion 21 of the prism 20 is fitted, and the peripheral surface excluding the knurled surface 24 is fitted into the cover 13A.
[0047]
By fitting the second cover 13 </ b> B into the first cover 13 </ b> A via the hinge part 26, the projecting surface 19 of the second cover 13 </ b> B comes into contact with the knurled surface 24 of the prism 20 and supports the prism 20 . That is, the second cover 13 </ b> B before being assembled as the display unit 3 is changed to the prism support unit 17 in a state of being assembled as the display unit 3 .
[0048]
As an actual assembly process, as shown in FIG. 5, after the prism 20 is fitted into the first cover 13A, the second cover 13B is fitted into the first cover 13A, and the prism 20 is fitted into the prism cover 13. To support.
[0049]
Next, as shown in FIG. 6, the base body 25 is fitted into the prism cover 13.
Only the reflective display surface 22 of the prism 20 is exposed, and the entire outer peripheral surface of the prism cover 13 except the claw portion 14 is covered with the base body 25.
[0050]
In this state, the base body 25 faces the wiring board 10 attached to the electric component base 9. The wiring board 10 is already connected to the first and second LEDs 11 and 12, the indicator lamps 28, and other electrical components 29, and the mounting holes 15 are provided in the vicinity of the LEDs. Yes.
Therefore, the claw portion 14 of the prism cover 13 is opposed to the mounting hole 15 of the wiring substrate 10, and the claw portion 14 is inserted into the mounting hole 15.
[0051]
As shown in FIG. 7, a base body 25 that covers the prism 20 and the prism cover 13 is attached to the wiring board 10. The LEDs 11 and 12 are accommodated in the accommodating portions 16 of the prism cover 13.
[0052]
FIG. 8 shows the final product state. Further, the indicator lamps 28 are covered with another cover b, and another electrical component 29 and a part of the wiring board 10 are covered with another cover c as necessary. Covered with.
[0053]
An air conditioner indoor unit configured as described above, when the operation is stopped, the front panel 1a closes the front suction port, and dust does not enter the unit body 1 from the suction port. . The outlet is also closed by two outlet louvers 4a and 4b.
[0054]
When the operation switch of the remote control is switched on, the opening / closing drive mechanism operates to move the front panel 1a to the near side, so that the front suction port is opened. The room air is guided into the unit main body 1 from the upper suction port and the front suction port, passes through the air filter, and dust contained in the room air is captured.
[0055]
The electric dust collector 5 acts to completely capture dust that has not been captured by the air filter. Therefore, the cleaned air is guided to the heat exchanger 6 and the heat exchange action is performed.
[0056]
The heat-exchanged air is guided from the outlet to the outlet louvers 4a and 4b and blown out into the room, and an efficient air-conditioning operation is performed.
When the operation switch of the remote control is turned off to end the air conditioning operation, the operation of the compressor, the blower, and the electric dust collector 5 is stopped, and the opening / closing drive mechanism moves the front panel 1a backward to close the front suction port. .
[0057]
The gas sensor 31 detects the amount of negative ions generated from the negative ion generator, the control unit 30 calculates based on this detection signal, and sends it to the LEDs 11 and 12 as a control signal.
[0058]
Based on the control signal from the control unit 30, the first LED 11 and the second LED 12 emit light, and the light is reflected by the prism 20 and displayed on the reflective display surface 22.
[0059]
When the amount of negative ions generated is large, the amount of dust is small and the degree of contamination is small, and the degree of cleanness is high.When the amount of negative ions generated is small, the amount of dust is large and the degree of contamination is small. Is large and the cleanliness is low.
[0060]
As described above, the first LED (blue) 11 is set to indicate the cleanliness, and the second LED (orange) 12 is set to indicate the degree of contamination. Each state is expressed as a ratio, where the total length in the longitudinal direction of the prism 20 is 100 (%).
[0061]
For example, when the cleanliness of the room is 50 (%), the luminance of the first LED 11 and the second LED 12 is exactly the same, and the blue and orange colors are almost in the middle of the prism reflection display surface 22. The boundary comes.
[0062]
If the cleanliness of the living room increases and the degree of contamination decreases, the boundary between blue and orange moves to the right side (second LED 12), and the blue area becomes large. On the other hand, when the degree of contamination increases and the cleanliness decreases, the boundary between blue and orange moves to the left side (first LED 11), and the orange area becomes large.
Therefore, the resident in the room knows the current cleanliness (that is, the degree of dirt) of the room from the areas of each color shining on the left and right sides displayed on the display unit 3, and changes in the cleanliness from the movement of the boundary between the colors. I can know the situation.
[0063]
The control unit 30 adjusts the brightness of the LEDs 11 and 12 by controlling the drive current for the LEDs. More specifically, the brightness adjustment is performed by the control unit 30 having means for relatively controlling the light emission amounts of the LEDs 11 and 12.
[0064]
For example, the brightness adjustment is performed by duty control of the energization amount for each of the LEDs 11 and 12. The duty control itself is a well-known control in which the energization amount is changed by providing a switching element in the circuit and adjusting the ON ratio with respect to OFF in one cycle. According to such control, analog display is possible, and there is an advantage that it is easy to recognize.
[0065]
Further, the LEDs 11 and 12 are mounted in a direction perpendicular to the wiring board 10, and the tip light emitting portions a are disposed so as to face both side ends of the prism 20 mounted in parallel with the wiring board 10.
[0066]
That is, it is only necessary to insert the lead legs of the LEDs 11 and 12 into the connection holes provided in the wiring board 10, and there is no need for a process of bending the lead legs, and it can be mounted as it is. It is easy to manufacture the corners.
[0067]
Since the light emitting portions a of the LEDs 11 and 12 are opposed to the inclined reflection portions 23 formed on both sides of the prism 20, even if the LEDs 11 and 12 and the prism 20 are vertically opposed, There is no obstacle to light emission.
[0068]
In the prism 20, the light from the inclined reflection portion 23 is received and reflected by the knurled surface 24 and is emitted from the reflective display surface 22. Due to the presence of the knurled surface 24, the luminance of the LEDs 11 and 12 can be increased, and the recognition can be improved.
[0069]
It is designed so that both side ends of the reflective display surface 22 of the prism 20 are positioned inside a predetermined distance from the housing 16 position of each LED 11, 12. In other words, the housing portion 16 for the LEDs 11 and 12 is located outside the end of the prism 20 on the reflective display surface 22 side.
[0070]
For the resident, the reflection display surface 22 of the prism 20 can be confirmed, but the presence of the LEDs 11 and 12 is shielded by the base body 25 and cannot be recognized, so that the amount of light on the reflection display surface 22 is secured.
[0071]
The prism cover 13 that covers the peripheral surface and the back surface of the prism 20 is made of a synthetic resin material such as PP, and the first cover 13A and the second cover 13B are integrally formed via the hinge portion 26, so that light reflection is performed. Therefore, the outer periphery of the LEDs 11 and 12, the inclined reflecting portion 23 and the knurled surface 24 of the prism 20, and the like can be covered with one component, and component management and improvement in mounting workability can be obtained.
[0072]
Since the prism cover 13 is formed of a material having high light reflectivity and the outer surface of the prism cover is covered with the base body 25 made of a light-shielding material, only the reflective display surface 22 of the prism 20 becomes brighter and displays. Light is not leaked to portions other than the portion 3, and the recognition can be improved.
[0073]
The outside of the display unit 3 is covered with a decorative board 2 made of a translucent material. Therefore, the reflective display surface 22 of the prism 20 can be prevented from being seen by the decorative plate 2 when the LEDs 11 and 12 of the display unit 3 are not turned on.
[0074]
When the LEDs 11 and 12 are turned on, the reflective display surface 22 of the prism 20 is seen through the translucent decorative plate 2, and the presence of the reflective display surface 22 becomes more conspicuous, the recognition is improved, and the light is turned off. The difference with time becomes clear.
[0075]
In addition, although LED was used as the 1st, 2nd light-emitting bodies 11 and 12, it is not limited to this, For example, all the light-emitting bodies which can adjust brightness | luminances, such as an incandescent lamp, are applicable.
[0076]
【The invention's effect】
As described above, according to the present invention, when displaying the cleanliness status of a living room, the required number of light emitters is small, and the number of parts can be reduced. It is possible to provide a display unit that can be less affected.
[Brief description of the drawings]
FIG. 1 is an external perspective view of an indoor unit of an air conditioner according to an embodiment of the present invention.
FIG. 2 is a perspective view of the interior of the indoor unit showing the embodiment.
FIG. 3 is a front view showing another embodiment with a part of a display unit omitted.
FIG. 4 is a cross-sectional view of a display portion showing the embodiment;
FIG. 5 is a perspective view of a cover body showing the embodiment;
6A and 6B are diagrams illustrating assembly of a display portion according to the embodiment.
FIG. 7 is a perspective view of the assembled display unit showing the embodiment;
FIG. 8 is a diagram for explaining final assembly around the display unit, showing the embodiment;
[Explanation of symbols]
1 ... Unit body (air conditioner body),
3 ... display part,
11 ... 1st LED (1st light-emitting body),
12 ... 2nd LED (2nd light-emitting body),
20 ... Prism (reflector),
30 ... control unit (control means),
31 ... Gas sensor (detection means),
24 ... Knurled surface,
13 ... Prism cover (cover body)
13A ... first cover,
13B ... second cover,
26 ... Hinge,
25 ... Base body,
2 ... A decorative board.

Claims (1)

An air conditioner body,
In the air conditioner that is provided on the front surface of the air conditioner body and includes a display unit that displays the cleanliness status of the living room,
The display section
In a position spaced apart from one another, the axis is connected perpendicularly to the wiring board, respectively is freely brightness adjustment, one emits light the color representing the cleanliness of the room and the other representing the cleanliness of the room A first illuminant and a second illuminant that emit a color to be emitted ;
Inclined reflecting portions that are cut obliquely are provided at both end portions facing the first light emitting body and the second light emitting body, and a reflective display surface is formed in a part between the inclined reflecting portions. A knurled surface is provided on the surface facing the reflective display surface, and the light of the first light emitter and the second light emitter is reflected on the knurled surface by the inclined reflection portion facing each other, A reflector that shines in a diffusely reflected state on the knurled surface and displays on the reflective display surface ;
Control means for controlling the brightness of the first light emitter and the second light emitter and recognizing a change in cleanliness of the living room due to a change in the position of the boundary of the light emitting region in the reflector. Air conditioner to do.

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