JP4067510B2 - Television receiver - Google Patents

Description

  The present invention relates to a television receiver, and more particularly to a television receiver equipped with a television antenna function. In addition, the present invention can be similarly applied to devices having a television reception function, such as a PC (Personal Computer) having a television function, a mobile phone, and a mobile terminal device (PDA: Personal Digital Assistants).

There have been portable television receivers that are assumed to move to a free place indoors, and have a rod-type antenna mounted outside the housing (top surface, etc.). In addition, although not a television receiver, Japanese Patent Application Laid-Open No. 2003-274477, “Headphone with built-in antenna and signal receiver” disclosed in Japanese Patent Laid-Open No. 2003-274477 proposes a device such as a headphone equipped with an antenna. ing.
JP 2003-274477 A

  However, in the conventional technology described above, a dedicated antenna is required as an antenna, and other components of the television receiver are not configured to have an antenna function. Conversely, in the prior art, even if there is an antenna built in and installed in a television receiver, the antenna is only used as an antenna function, and there are a plurality of roles / functions for the antenna. It was not intended to have the functions of other components of the television receiver. Therefore, when configuring a television receiver having various functions including an antenna function, it is necessary to provide circuits and mechanisms corresponding to each function as each component equipment, thereby reducing the cost of the apparatus. It is difficult to reduce the size.

The present invention has been proposed in view of such circumstances, and the internal equipment (propeller of the cooling fan) of the television receiver functions as an antenna in addition to the original function. The purpose is to enable reception of television signals.

In order to achieve the above-described object, a television receiver equipped with an antenna function according to the present invention has an antenna mounted on a propeller unit of a cooling fan of a receiving unit, and controls the rotation of the cooling fan by specifying a rotation speed. Furthermore, the rotation control unit for detecting the rotation angle of the antenna mounted on the propeller unit, and the reception sensitivity detection unit for measuring the reception sensitivity of the specified channel selection frequency band from the antenna reception signal, the specified channel selection frequency band , The rotation angle of the antenna having the maximum receiving sensitivity is detected as the optimum antenna direction. Further, a main antenna is provided separately from the antenna mounted on the propeller unit, and the direction of the main antenna is automatically adjusted to the optimum antenna direction detected by the antenna mounted on the propeller unit.

Hereinafter, more specific technical means of the television receiver according to the present invention will be described.
In a television receiver that receives a television signal, the first technical means controls an element that forms an antenna pattern on a propeller unit of a cooling fan that cools the receiving unit, a rotation speed of the cooling fan, and A rotation control unit that detects a rotation angle of the element provided in a propeller unit of the cooling fan, and a reception sensitivity detection unit that measures reception sensitivity of a specified channel frequency band from a reception signal received by the element. And detecting the rotation angle of the element having the maximum reception sensitivity from the rotation angle information detected by the rotation control unit and the reception sensitivity of the element measured by the reception sensitivity detection unit. It is characterized by detecting an optimum direction.

The second technical means is the television receiving device according to the first technical means, further comprising a display unit for graphically displaying a rotation angle of the element having the maximum reception sensitivity. apparatus.

According to a third technical means, in the television receiver according to the first or second technical means, a main antenna that mainly receives a television signal separately from the element provided in the propeller portion of the cooling fan. The main antenna is rotatable and is configured to be able to rotate in a specified direction, and the detected element is detected when the rotation angle of the element with the maximum receiving sensitivity is detected. The direction of the main antenna is automatically rotated to the same angle as the rotation angle.

According to a fourth technical means, in the television receiver according to the first or second technical means, an element formed in the cooling fan functions as all or part of an antenna.

According to the present invention, since the user can automatically detect the optimum antenna direction without adjusting the antenna direction and searching for the optimum reception position, the user can It is possible to adjust to the optimum antenna position by simply rotating the direction of the antenna to the direction displayed on the display unit as a proper direction. Furthermore, it is possible to automatically adjust the direction of the antenna to the optimum position, eliminating the need for the user to adjust the direction of the antenna.

An embodiment of a television receiver according to the present invention equipped with an antenna function will be described below with reference to the drawings. In the implementation form of the following, as an example of a television receiver according to the present invention which is adapted to mount the antenna function, but illustrating a liquid crystal television as an example, a television receiver according to the present invention, the liquid crystal As long as it can be equipped with a television antenna, the display device is not limited to a television, for example, an EL (Electro Luminescent Display) television, a PDP (Plasma Display Panel) television, a FED (Field Emission Display) television, a CRT (Cathode Ray). Tube) Any television receiver including a television may be used.

FIG. 1 is a configuration diagram of a liquid crystal television, in which a cooling fan of a receiver detects a more optimal antenna direction as a television receiver according to an embodiment of the present invention. A cooling fan propeller unit for cooling the air-conditioner is shown mainly with a functional block for functioning as all or part of the antenna. As shown in the cooling fan unit of FIG. 1B , the cooling fan 1105 of the receiving unit can adjust the orientation of the main antenna 21 provided separately on the propeller unit 1105a of the cooling fan 1105. For this purpose, the sub antenna 22 is mounted. Here, the sub-antenna 22 rotates at the same rotational speed as the propeller unit 1105a of the cooling fan 1105 rotates, and is installed so that the direction of the sub-antenna 22 changes according to the rotation of the cooling fan 1105. .

On the other hand, as shown in the antenna direction detection circuit block unit in FIG. 1A, the television signal received by the sub-antenna 22 is transmitted to the reception sensitivity detection unit 1103, but the reception sensitivity detection unit 1103 receives the television signal. It has a function of detecting the reception sensitivity (reception power) of the selected frequency band designated by the CPU 1101 from the television signal. Further, the rotation control unit 1104 has a function of detecting rotation angle information indicating to which position the sub antenna 22 installed in the cooling fan 1105 is rotating. The cooling fan 1105 normally rotates at a high speed in order to cool the receiving unit. However, when detecting the optimum position of the sub antenna 22, the cooling fan 1105 operates as follows.

  The CPU 1101 specifies the channel selection frequency band and the antenna direction detection mode to the reception sensitivity detection unit 1103. The reception sensitivity detection unit 1103 that has received the designation of the antenna direction detection mode operates to measure the reception sensitivity from the sub-antenna 22 in the channel selection frequency band designated by the CPU 1101. Further, the reception sensitivity detection unit 1103 sets the rotation of the cooling fan 1105 at a low speed with respect to the rotation control unit 1104, so that the cooling fan 1105 is mounted on the propeller unit 1105a. At the same time, it starts rotating at a low speed. In the reception sensitivity detection unit 1103, in order to detect the rotation angle at which the antenna reception sensitivity selected and received by the sub antenna 22 is maximized, the reception sensitivity and the rotation position of the sub antenna 22 at that time are displayed from the rotation control unit 1104. The CPU 1101 is periodically notified of the rotation angle information. The CPU 1101 calculates the rotation angle of the sub-antenna 22 that maximizes the reception intensity for a certain period of time, and displays the calculation result on the display unit 1102.

  The display method on the display unit 1102 is a graphical display, in which direction the rotation angle or direction of the sub antenna 22 is relative to the front surface of the liquid crystal panel, and in which direction the direction of the main antenna 21 provided separately is. The display should make it easy to identify whether the adjustment should be made. Based on this information, the user adjusts the orientation of the main antenna 21 to the same orientation as the sub antenna 22 displayed on the display unit 1102. When the orientation of the main antenna 21 is adjusted, the reception sensitivity detection unit 1103 detects the reception sensitivity of the main antenna 21, notifies the CPU 1101, and displays the result on the display unit 1102. The adjustment of the orientation of the main antenna 21 can also be facilitated.

  In the example described above, the reception sensitivity detection unit 1103 and the CPU 1101 calculate the rotation angle information that averages the reception sensitivity for a certain period of time, but the reception sensitivity detection unit 1103 receives the information from the CPU 1101. The rotation angle information and the reception intensity information may be detected only when there is an instruction. Further, the propeller unit of the cooling fan 1105 is set to the designated rotation angle by designating the rotation angle of the sub-antenna 22 instead of designating the mode relating to the low or high rotation speed to the rotation control unit 1104. You may make it adjust the position of the subantenna 22 by rotating the position of 1105a.

  In the above-described example, the user has adjusted the orientation of the main antenna 21 based on the information on the display unit 1102. However, when the user has a function that allows the orientation of the main antenna 21 to be automatically adjusted, It is possible to automatically adjust the orientation of the main antenna 21 to the optimal position during viewing without disturbing the user's hand. In this case, the main antenna 21 is provided separately from the sub-antenna 22 installed in the propeller unit 1105a of the cooling fan 1105. However, the rotation can be rotated to an arbitrary angle in response to the rotation angle designation from the CPU 1101. By being configured in a free state and specifying the same rotation angle as that of the sub-antenna 22, the orientation of the main antenna 21 can be rotated to an optimum state.

  That is, the main antenna 21 has a function capable of rotating and adjusting to the angular position detected as the angle information with the maximum reception sensitivity of the sub-antenna 22, so that the direction of the main antenna 21 can be adjusted by designation from the CPU 1101. Yes. The timing for automatically adjusting the orientation of the main antenna 21 can be automatically adjusted when it is detected that the reception state has deteriorated and the video cannot be displayed correctly. Further, the optimum position of the main antenna 21 is measured and stored in advance for each channel using the sub-antenna 22 set in the cooling fan 1105 at the time of channel search, and the channel is selected for the next channel selection. It is also possible to adjust and set the direction to the optimum position of the corresponding main antenna 21.

In the above-described embodiment, the optimum position of the main antenna 21 is detected by the sub-antenna 22 provided only in one cooling fan 1105. However, a plurality of coolings each provided with a plurality of sub-antennas 22 independently. By arranging the fans 1105 in different directions, for example, one cooling fan with the sub-antenna 22 is arranged in the horizontal direction, and the other one with the sub-antenna 22 is arranged in the vertical direction. It is also possible to detect the optimum direction of the main antenna 21. Further, the main antenna 21 may be controlled not only in one direction but also in the horizontal direction and the vertical direction, and may be automatically adjusted to the optimal direction of the main antenna 21 in three dimensions.
As described above, in the liquid crystal television of FIG. 1 , the cooling fan 1105 is configured to have all or part of the antenna function.

In actual施例explained above, but as a television receiver according to the present invention has been described LCD TV as an example, as described above, not limited to LCD TVs, EL televisions, PDP televisions, FED television Even a CRT television or the like can be provided as a television receiver equipped with a television antenna function. In addition, as with the case of the television receiver according to the present invention, various devices having a television function such as a PC (Personal Computer ) can be provided as a device having a television antenna function. Is also possible.

FIG. 2 is a configuration diagram of a liquid crystal television in which a cooling fan of a receiving unit detects a more optimal antenna direction as a television receiver according to an embodiment of the present invention .

Explanation of symbols

2 1 ... main antenna, 22 ... sub-antenna , 1 101 ... CPU, 1102 ... display unit, 1103 ... reception sensitivity detection unit, 1104 ... rotation control unit, 1105 ... cooling fan, 1105a ... propeller unit .

Claims (4)

In a television receiver that receives a television signal, an element that forms an antenna pattern on a propeller part of a cooling fan that cools a receiving part, a rotational speed of the cooling fan, and a propeller part of the cooling fan A rotation control unit that detects a rotation angle of the element provided; and a reception sensitivity detection unit that measures reception sensitivity of a selected channel frequency band from a reception signal received by the element; And detecting the optimum angle of the antenna by detecting the rotation angle of the element having the maximum reception sensitivity from the detected rotation angle information and the reception sensitivity of the element measured by the reception sensitivity detector. A television receiver characterized by the above.   2. The television receiver according to claim 1, further comprising a display unit that graphically displays a rotation angle of the element having the maximum reception sensitivity. The television receiver according to claim 1 or 2, wherein the said element provided in the propeller of the cooling fan separately, e Bei main antenna for receiving a television signal to the main, the main antenna is free to rotate It is configured to be able to rotate to a specified direction, and when detecting the rotation angle of the element with the maximum receiving sensitivity, the main rotation is detected up to the same angle as the detected rotation angle of the element. A television receiver characterized in that the direction of the antenna is automatically rotated. The television receiver according to claim 1, wherein an element formed on the cooling fan functions as all or part of an antenna.

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