KR101214276B1 - Rotary Type Solar Radiation Sensor - Google Patents

Abstract

The present invention relates to a rotary solar sensor that tracks the sun and calculates the amount of solar radiation based on the amount of solar radiation in performing air conditioning in order to provide a comfortable environment for the occupant, and is rotated by the rotation means 52 and associated circuits. A photodiode 53 having a built-in PCB substrate 51 and a photo cell installed at a position eccentrically from the rotation center of the PCB substrate 51 and generating current using sunlight; Body 50 is rotatably installed PCB substrate 51, and provided on the outside of the body 50 is connected to the PCB substrate 51 and includes a connector 54 for connecting to the ATC device It is characterized by.

Solar Sensor, ATC, PCB, Connector, Photo Cell, Photo Diode, Step, Lens

Description

Rotary Type Solar Radiation Sensor

1 is a configuration diagram schematically showing a control structure of a vehicle air conditioner.

2 is a view showing an attachment form of a conventional solar sensor.

3 is a configuration diagram showing a rotary solar sensor according to the present invention.

Figure 4 is a schematic diagram schematically showing the configuration of the rotary solar sensor of the present invention.

5 is a view showing a data transmission relationship between the rotary solar sensor and the thermostat of the present invention.

Figure 6 is a reference diagram showing the sun tracking form of the rotary solar sensor of the present invention.

<Explanation of symbols for the main parts of the drawings>

50: Body

51: printed circuit board

52: step motor (rotation means)

53: Photo Diode

54: Connector

55: Lens

The present invention relates to a rotary solar sensor for tracking the sun and calculating the amount of insolation based on the amount of insolation in performing air conditioning in order to provide a comfortable environment for the occupant.

In general, the vehicle air conditioner is operated according to environmental conditions inside and outside the vehicle and control conditions by the user to control the indoor environment. However, since the environment inside and outside the vehicle is continuously changed, an ATC (Automatic Temperature Controller) device for automatically adjusting the temperature of the room according to the change of the environment or the control condition is installed with the air conditioner.

That is, the air conditioning control structure of the conventional vehicle is configured in such a way that the ATC device 10 controls the air conditioning apparatus 20 based on signal input of various sensors and a set temperature set by a user, as shown in FIG. 1. do.

Accordingly, the ATC device 10 controls the air conditioning apparatus 20 by setting a predetermined target temperature according to environmental conditions such as the outside air temperature, the inside temperature and the amount of insolation, and control conditions such as the set temperature. The ATC device 10 controls the evaporator outlet temperature or the inside and outside air doors and the air volume in the air conditioner 20 to create a comfortable indoor environment. In particular, in order to control the evaporator outlet temperature, the ATC device 10 sets a target temperature according to environmental conditions and control conditions, and controls the capacity of the compressor or the opening degree of the throttling valve so that the evaporator outlet temperature becomes the set target temperature. .

Here, the main data sent to the ATC device 10 includes an insolation amount, and the insolation amount is determined by a sun sensor 30 such as a photodiode mounted on the in-panel of the vehicle as shown in FIG. 2. The data is detected and sent to the ATC device 10. At this time,

At this time, the solar sensor 30 is classified into a single type (Single Type) type for detecting only the solar radiation amount of the driver's seat or a dual type (dual type) for detecting both the solar radiation amount of the driver's seat and the auxiliary seat. The solar sensor 30 detects the amount of solar radiation by using a current of a diode that is increased or decreased according to the intensity of sunlight, and the ATC device 10 is an air conditioning device according to the amount of solar radiation detected by the solar sensor 30. 20 will be controlled.

When the intensity of sunlight detected by the solar sensor 30 increases, the intensity of the electric current transmitted from the diode to the ATC device 10 increases, so that the ATC device 10 compares with the ambient temperature based on the current. After controlling the air conditioning apparatus (20). Therefore, the warm air or cold wind is discharged into the room by the air conditioner, thereby keeping the car interior warm or cool.

However, the conventional solar sensor is a structure attached to the in-panel of the vehicle, so even if the dual type can not accurately track the position of the sun and simply detect the amount of solar radiation by the intensity of sunlight flowing into the solar sensor, the entire vehicle It is difficult to detect the actual amount of solar radiation applied and people in the sun direction do not feel comfortable despite the same air conditioning control.

The present invention has been made to solve the above-mentioned conventional problems, it is possible to control the air conditioning device by detecting the amount of solar radiation facing the sun position by tracking the position of the sun to achieve a comfortable air conditioning control regardless of the position of the sun It is an object of the present invention to provide a rotating solar sensor that allows.

In addition, an object of the present invention is to provide a rotary solar sensor that can obtain a more accurate solar radiation information by amplifying the sunlight and supplied to the photodiode.

In addition, an object of the present invention is to provide a rotating solar sensor that can change the position of the photodiode based on the output current of the photodiode when tracking the position of the sun while the photodiode rotates.

According to the rotary solar sensor of the present invention for achieving the above object, a PCB substrate rotated by a rotating means and embedded with various circuits, and installed in a position eccentrically from the rotation center of the PCB substrate and using sunlight And a photo diode having a photo sensor for generating a current, a body on which the PCB substrate is rotatably installed, and a connector provided at an outer side of the body to be connected to the PCB substrate to connect to an ATC device. It is characterized by.

In addition, according to the rotary solar sensor of the present invention, the rotating means is a BLDC motor or a step motor, it characterized in that it is operated only when the generated current of the photodiode is less than a predetermined.

In addition, according to the rotary solar sensor of the present invention, the photodiode is characterized in that the dual type diode consisting of a driver photodiode and a passenger photodiode installed symmetrically with respect to the rotation axis of the PCB substrate.

Hereinafter, the rotary solar sensor of the present invention with reference to the accompanying drawings.

3 is a configuration diagram showing a rotary solar sensor according to the present invention, Figure 4 is a schematic diagram showing the configuration of the rotary solar sensor of the present invention, Figure 5 is a rotary solar sensor and the automatic temperature control device of the present invention. Is a diagram illustrating a data transmission relationship.

The rotary solar sensor of the present invention, the PCB substrate 51 is rotated by the step motor 52 and the associated circuit is built, and installed at a position eccentrically to a certain degree from the rotation center of the PCB substrate 51, A photodiode 53 having a photo sensor for generating a current by using the body, a body 50 on which the PCB substrate 51 is rotatably installed, and an outer side of the body 50 are provided on the PCB substrate ( 51 and a connector 54 for connecting to the ATC device, and a lens 55 installed above the body 50 to amplify the amount of light supplied to the photodiode 53.

In this case, a BLDC motor may be used instead of the step motor 52, and the step motor or the BLDC motor is operated only when the generated current of the photodiode 53 becomes less than a predetermined level. In addition, the photodiode 53 may be a dual type diode including a driver photodiode DR and a passenger photodiode PS, which are installed symmetrically with respect to the rotation axis of the PCB substrate 51. .

The rotary solar sensor of the present invention configured as described above measures the amount of solar radiation by tracking the position of the sun.

The photodiode 53 installed on the rotatable PCB substrate 51 measures the amount of insolation at the position where the photocell generates the largest current, that is, the position where the photocell faces the sun. To this end, the PCB substrate 51 on which the photodiode 53 is installed is rotated by the step motor 52, and the current transmitted from the photodiode 53 to the ATC device (not shown) through the connector 54. When the amount of is greatest, the operation of the step motor 52 is stopped and the amount of insolation is calculated using the amount of current at this time. Therefore, the air conditioning apparatus performs air conditioning on the basis of the maximum amount of solar radiation, so that the user can feel comfort regardless of the position of the passenger.

If the position of the sun changes due to the movement of the vehicle or the elapse of time, the amount of current generated in the photocell is changed, so that if the amount of current transmitted from the photodiode 53 to the ATC device decreases to some extent, The step motor 52 is operated again to rotate the PCB substrate 51. That is, the position of the sun is tracked so that the photocells are in a position facing the sun. In this case, the amount of rotation of the PCB substrate 51 is determined by the step motor 52, and detects the current of the photodiode 53 whenever the predetermined angle is rotated. Thereafter, the operation of the step motor 52 is stopped when the most current flows from the photodiode 53 to the ATC device.

As a result, since the rotation of the PCB substrate 51 is stopped when the photocell is positioned at the position where the largest amount of light is supplied while rotating the photodiode 53, the maximum amount of solar radiation can be detected and the reliability of the solar radiation data can be increased. Can be.

At this time, the lens 55 installed on the upper portion of the body 50 amplifies the sunlight and transmits it to the photodiode 53, thereby enabling accurate measurement of the amount of solar radiation caused by sunlight even if the forces of sunlight are weak. Will be.

Accordingly, by controlling the air conditioning apparatus based on the largest amount of insolation, it is possible to perform a comfortable air conditioning control regardless of the sun or passenger position. At the same time, by controlling the air conditioner according to the position of the sun, it is possible to compensate the heating and cooling intensity for the zone (Zone) close to the position of the sun in the interior space of the vehicle. Therefore, the air conditioning comfort in the space close to the position of the sun is greatly improved. In addition, if the sun is detected to be located at the rear of the vehicle, the rear-side air conditioning can be prevented from being incomplete by the sun by compensating for the rear-side air conditioning.

Although the preferred embodiment of the present invention has been described above, the scope of the present invention is not limited only to such specific embodiments, and those skilled in the art may appropriately change within the scope described in the claims of the present invention. This will be possible.

As described above, according to the rotary solar sensor of the present invention, since the air conditioner is controlled based on the maximum amount of solar radiation by tracking the position of the sun, there is an effect that the air conditioning control can be comfortable regardless of the sun or passenger position. .

In particular, it is possible to compensate the heating and cooling intensity in the zone (Zone) close to the position of the sun in the interior space of the vehicle, greatly improving the air conditioning comfort.

In addition, according to the rotary solar sensor of the present invention, there is another effect that can obtain more accurate solar radiation information by amplifying the sunlight and supplied to the diode.

In addition, according to the rotary solar sensor of the present invention, while tracking the position of the sun as the photodiode rotates, the air conditioning apparatus is controlled based on the maximum solar radiation by rotating or stopping the photodiode based on the output current of the photodiode. It can work.

Claims (3)

A PCB substrate 51 rotated by the rotation means 52 and in which the associated circuit is embedded; A photodiode 53 installed at a position eccentrically from the rotational center of the PCB substrate 51 and having a photocell for generating current using sunlight; A body 50 on which the PCB substrate 51 is rotatably installed; It is provided on the outside of the body 50 is connected to the PCB substrate 51 and a connector 54 for connecting to the ATC device; The rotating means (52) is any one of the BLDC motor or step motor, the rotary solar sensor, characterized in that to be activated only when the current generated by the photodiode (53) is less than a predetermined. delete The method of claim 1, The photodiode 53 is a rotatable type diode comprising a driver photodiode DR and a passenger photodiode PS installed symmetrically with respect to the rotation axis of the PCB substrate 51. Insolation sensor.

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