KR20040068871A - Air conditioner - Google Patents

Abstract

PURPOSE: An air conditioner is provided to control air conditioning efficiently by measuring temperature accurately and detecting two-dimensional distribution of temperature without additional driving units. CONSTITUTION: An air conditioner is composed of a heating or cooling unit for heating or cooling air; a wind direction control louver installed in the exhaust passage of heated or cooled air; and a driving unit moving louvers continuously. The louver is composed of plural louver pins(3,3') integrally moved, and an infrared ray sensor(8) is installed in the louver pin. The driving unit moves plural louver pins horizontally or vertically, and the louver pin as a line sensor. The louver is contained in the case with an air inlet and an air outlet, and the louver pin is arranged around the center of the case.

Description

Air Conditioning Equipment {air conditioner}

The present invention relates to an air conditioner, and more particularly, to an air conditioner such as a room air conditioner having a function of more accurately controlling a temperature distribution in a room.

An air conditioner such as a room air conditioner uses an indoor temperature as a control determining factor. Here, the room temperature is a temperature detected by a temperature measuring sensor installed near the air conditioner, and refers to a temperature of a point in the room.

Therefore, the temperature measured by the temperature measuring sensor indicates the temperature at any one point rather than accurately indicating the temperature trend of the entire room.

To solve this problem, install a temperature sensor on the remote control, measure the temperature of the part with the remote control and send it to the room air conditioner, or install a plurality of temperature sensors on the air conditioner body in a large system air conditioner. A method of measuring temperature is also used.

This method can increase the measuring range for measuring the room temperature, but still only measure the temperature at a certain point in the room.

In recent years, a system for remote sensing of a relatively large area by using an infrared sensor and contributing to temperature control has also been developed, but even with this system, the temperature detection range has a large area. There is still a fixed range of temperature measurements.

The air conditioner according to the related art described above has the following problems.

First, since temperature control is performed according to the temperature measured at a limited point, it is difficult to accurately control the room temperature.

Second, even in the case of remote sensing using an infrared sensor, since a large area is currently handled by a plurality of points, it may cause malfunction when there is a strong heat source or the like within the measurement range of the room not set as the point.

Third, the infrared area sensor for measuring the temperature distribution is considerably expensive, which causes the price of the air conditioner to increase.

Accordingly, an object of the present invention is to provide an air conditioner having a function of more accurately detecting a temperature distribution in a room without increasing the manufacturing cost of the main body of the device.

Another object of the present invention is to.

1 is a schematic view showing a wind direction control mechanism of an air conditioner according to the present invention;

2 is a schematic view showing the configuration of a louver pin of the wind direction control mechanism of FIG.

* Explanation of symbols for main parts of the drawings

1: case 2: up and down drive motor

3,3 ': louver pin 4: left and right drive motor

5,5 ': Fixed axis 6: Flow axis

7: flow bar 8: detection unit / infrared sensor

9: circuit part 10: wiring

MEANS TO SOLVE THE PROBLEM In order to solve the said subject, the 1st air conditioning apparatus of this invention is equipped with the air heating or cooling mechanism, the wind direction control louver provided in the exhaust passage of the heated or cooled air, and the drive mechanism for rocking the louver continuously. In one air conditioner, the louver is provided with a plurality of louver pins which are rocked integrally, and at least one of the plurality of louver pins is configured to have an infrared sensor. In addition, the drive mechanism swings the plurality of louver pins in a horizontal direction and a vertical direction.

According to this air conditioner, the temperature sensor infrared sensor attached to the louver pin also fluctuates with the fluctuation of the wind direction control louver, so that the two-dimensional temperature distribution can be detected. As a result, efficient temperature control is achieved in the air conditioner.

Alternatively, in the air conditioner, the drive mechanism oscillates the plurality of louver pins in one axial direction, and the at least one louver pin is configured to include a line sensor as an infrared sensor.

This structure makes it possible to detect a two-dimensional temperature distribution even in a louver that oscillates only in one axis direction.

Further, in the air conditioner, the louver is accommodated in a case having an air inlet and an exhaust port, and the louver pin having the infrared sensor is disposed near the center of the case.

Thus, even if the infrared sensor or the like is stored in the louver pin, the weight balance of the entire louver is not broken and does not adversely affect the fluctuation of the louver.

Furthermore, in the air conditioner, the louver is housed in a case having an air inlet and an exhaust port, and the output signal of the infrared sensor is output by a line member passing through an axis for oscillatingly fixing the louver pin to the case. Consists of.

By this structure, since the signal line member that derives the output of the infrared sensor is not exposed to the exhaust path, it does not interfere with the exhaust and does not give the wire member unnecessary stress due to the exhaust.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments with reference to the accompanying drawings.

Referring to the accompanying drawings, a preferred embodiment of an air conditioner according to the present invention will be described.

1 is a schematic view showing the wind direction control mechanism of the air conditioner according to the present invention.

Referring to Fig. 1, reference numeral 1 denotes a box-shaped case in which an opening is provided in an air passage, and is attached to an air conditioner main body (not shown) by allowing it to swing up and down by the up and down driving motor 2. have.

In addition, a plurality of louver pins 3 having a plate shape are disposed in parallel in the case 1, and each louver pin 3, 3 ′ is a driving mechanism including a left and right driving motor 4. It is configured to swing left and right by. At this time, a structure in which each of the louver pins 3 and 3 'is connected to a fixed shaft and a fluid shaft, which will be described later, is called a louver.

In addition, as another embodiment, the louver pins are disposed in the case 1 in parallel in the vertical direction, and the case 1 swings left and right, and the louver pins swing up and down. Since the driving method is the same, details are omitted.

The direction control mechanism comprised in this way is provided in the exhaust path of air conditioner, and performs the wind direction control of a cooling wind or a warm wind.

At this time, the louver pins 3 and 3 'are pins constituting the features of the present invention, and details of the structure thereof are shown in FIG.

FIG. 2 is a schematic view showing the configuration of a louver pin of the wind direction control mechanism of FIG. 1.

As shown in Figure 2, by forming the louver pin (3) (3 ') in the wing-shaped cross-section or long oval cross-section to increase the effect of securing strength and noise reduction.

Each of the louver pins 3 and 3 'is fixed to the upper and lower surfaces 1a and 1b of the case 1 through the fixed shafts 5 and 5', whereby the central louver pins 3 'are fixed. The center fixed shaft 5 'is rotationally driven by the left and right drive motor 4.

Here, reference numeral 7 is connected to each of the plurality of louver pins 3 and 3 'through the respective flow shafts 6 with a flow rod.

Accordingly, when the motor 4 connected to the center fixed shaft 5 'which fixes the center louver pin 3' is rotated, the center louver pin 3 'is moved through the flow shaft 6 and the flow bar 7. ) And a plurality of louver pins (3) adjacent to rotate the same. At this time, the rotation angle is about 60 ~ 90 ° around the axis (5).

As described above, since the plurality of louver pins 3 are rotationally driven by the rotation of the central louver pins 3 'fixed to one of the central fixed shafts 5', each of the louver pins has a certain level of strength. need.

Reference numeral 8 denotes a detector / infrared sensor installed at the inner front end of the central louver pin 3 'disposed near the center of the case 1, reference numeral 9 denotes a circuit portion such as an amplifier, and reference numeral 10 denotes an output signal line. Respectively.

The output of the detection unit / infrared sensor 8 is once amplified in the circuit unit 9 and sent to the host CPU of the air conditioner through the signal line 10, whereby a temperature distribution is detected.

In the present embodiment, the signal line 10 is led to the lower surface 1b of the case 1 through the center fixed shaft 5 ', and is connected to the host CPU through the appropriately installed wiring therefrom.

On the other hand, the wiring diagram for the power supply of the detection unit / infrared sensor 8 and the circuit unit 9 itself, and leads to the outside of the wind direction control mechanism through the center fixed shaft 5 '. As a result, it is possible to reduce the stress on the wire member and to secure the air path.

In addition, the central louver pin 3 'in which the detection unit / infrared sensor 8 is incorporated can be embedded in any one of the plurality of louver pins 3 and 3' in the case 1. However, in consideration of the increase in the weight of the louver pin by the built-in detection unit / infrared sensor 8 or the like, it is preferable that the louver pin is connected to the central fixed shaft 5 'which is connected to the left and right driving motor 4. . Therefore, the detection unit / infrared sensor 8 is preferably arranged at the center louver pin 3 '.

As described above, by providing the detection unit / infrared sensor 8 or the like to the center louver pin 3 ', the detection unit / infrared sensor 8 is connected to the left and right driving motor 4 and the up and down driving motor 2. According to the two-axis drive of the louver, the room is sequentially scanned in a two-dimensional plane.

This makes it possible to detect a fairly wide range of temperature in the room without providing a special drive mechanism to the detector / infrared sensor 8 and without attaching a plurality of detectors / infrared sensors 8.

At this time, when the detection unit / infrared sensor 8 installed in the center louver pin 3 'uses a line sensor, two-dimensional temperature distribution can be obtained even if one axis of the wind direction control mechanism is omitted.

In addition, since the above-described apparatus can detect a quite wide range of temperature distribution in the apparatus of the present invention, it is possible to further add a crime prevention and / or disaster prevention function by using this.

For example, when the air conditioner is set to the missed mode to drive only the louver and the infrared sensor, if a movement of a heat source is detected from the detected two-dimensional temperature distribution, it is possible to determine it as someone's intrusion. Thereby, it is driven by the security apparatus.

In addition, when the enlargement of the heat source centering on any one point is detected, it can also be judged as the occurrence of a fire, thereby driving also by the fire detection apparatus.

As described above, the air conditioner according to the present invention can measure the two-dimensional temperature distribution without providing a special driving mechanism, and by using this measurement result, efficient air conditioning control is possible.

Claims (5)

An air conditioner comprising a heating or cooling mechanism of air, a wind direction control louver provided in an exhaust passage of the heated or cooled air, and a driving mechanism for continuously rocking the louver. And the louver includes a plurality of louver pins that are oscillated integrally, and at least one of the plurality of louver pins includes an infrared sensor. The method of claim 1, And the drive mechanism oscillates and drives the plurality of louver pins in a horizontal direction and a vertical direction. The method of claim 1, And said drive mechanism oscillates said plurality of louver pins in one axial direction, and said at least one louver pin includes a line sensor as an infrared sensor. The method of claim 1, And the louver is housed in a case having an air inlet and an exhaust port, and a louver pin having the infrared sensor is disposed near the center of the case. The method of claim 1, The louver is accommodated in a case having an air inlet and an exhaust port, and the output signal of the infrared sensor is output by a line member passing through an axis that securely swings the louver pin to the case. Air conditioning equipment.