KR20080057046A - Method for controlling display position - Google Patents

Abstract

A method for controlling a position of a display is provided to control a position of the display according to positions of a user by using the number of pulses of the input device without using a position sensor to store the number of the pulses of the input device, and to auto-center the display. A method for controlling a position of a display comprises the steps of; receiving an input signal including at least one pulse from an input device(S100); re-storing a value added with the number of pulses when the input signal corresponds to the individual adjusting mode and generating a driving signal corresponding to the number of the pulse(S700); and driving the driving device according to the driving signal(S800). The driving signal corresponding to the number of the pulses is generated(S1100).

Description

Method for controlling display position

1 is a perspective view before and after the operation of the drive device according to an embodiment of the present invention.

Figure 2 is a schematic diagram showing a brief configuration of a drive device according to an embodiment of the present invention.

Figure 3 is a block diagram of a drive device according to an embodiment of the present invention.

Figure 4 is a flow chart of a display position control method according to an embodiment of the present invention.

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

12: fixed body 14: link member

16: connector 18: moving body

20: first hinge axis 22: second hinge axis

24: third hinge axis 26: display

32: input signal generator 34: input signal receiver

36: comparison detection unit 38: data storage unit

40: drive unit

The present invention relates to a display position control method.

Flat panel displays such as TVs and monitors with LCDs, PDPs, and LEDs have the advantage of being able to use narrow spaces efficiently, replacing CRT TVs and monitors, and the demand is expected to increase in the future. However, since such a flat panel display cannot be erected independently by a thin type of thin type, a hook device for mounting it on a wall has been developed.

However, the conventional hanger for mounting a flat panel display on a wall has a problem in that the display is simply fixed to the wall so that the user cannot maintain an optimal audiovisual as the user changes positions.

In addition, the wall and the display should be spaced more than a certain distance to rotate the display in the desired direction without obstruction of the wall, the conventional hanger is difficult to change the position of the display because the distance or the distance between the wall is little or narrow, separate Even if the TV is separated from the wall by combining the members, the display protrudes from the wall by a separate member and is attached to the wall to have a beautiful appearance, and the advantage of the flat panel display that the indoor space can be used widely is lost.

The present invention is to provide a display position control method that can automatically control the position of the display according to the user's position by using the number of pulses of the input device without having a separate position sensor. In addition, the number of pulses of the input device may be stored to auto-center the display, and the display may be moved to a position corresponding to the number of stored pulses as needed.

According to an aspect of the present invention, a method of controlling a display supported by a driving device to be rotatable to a predetermined position, the method comprising: receiving an input signal including one or more pulses from an input device, wherein the input signal is in an individual adjustment mode; Corresponding to the number of pre-stored pulses plus the number of received pulses, generating a driving signal corresponding to the number of received pulses, and driving the driving device according to the driving signal. A display position control method is provided.

The number of initially stored pulses may be zero.

If the input signal corresponds to the temporary adjustment mode, the method may further include generating a driving signal corresponding to the number of stored pulses.

The input signal may be an ON signal of the display power supply, and when the display power is turned on, generating a driving signal corresponding to the number of stored pulses.

The input device may be a remote control.

The input signal may further include an identification signal preceding the pulse, and may determine whether it corresponds to the individual adjustment mode from the identification signal.

In the individual adjustment mode, any one of the horizontal movement mode, the left and right rotation modes, and the vertical rotation mode of the driving device may be selected. The number of received pulses plus the number of pulses can be restored.

The individual control mode may include a forward control mode and a reverse control mode. If the individual control mode is the forward control mode, the individual control mode restores the number of pre-stored pulses plus the number of received pulses, and the individual control mode is the reverse direction. In the adjustment mode, the value stored by subtracting the number of received pulses from the number of previously stored pulses may be restored.

Other aspects, features, and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.

Hereinafter, a preferred embodiment of the display position control method according to the present invention will be described in detail with reference to the accompanying drawings, in the description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals and Duplicate explanations will be omitted.

1 is a perspective view before and after the operation of the drive device according to an embodiment of the present invention, Figure 2 is a schematic diagram showing the configuration of the drive device according to a preferred embodiment of the present invention. 1 and 2, the fixing body 12, the link member 14, the connector 16, the moving body 18, the first hinge shaft 20, the second hinge shaft 22, and the third hinge Axle 24, display 26 is shown.

The present embodiment receives an input signal including one or more pulses from an input device, generates a drive signal corresponding to the number of received pulses, and then drives the drive device to a predetermined position according to the drive signal, as well as pulses. By storing the number of times, the display 26 can be driven back to a predetermined position as needed by the number of stored pulses.

In this case, any type of device may be used as long as the device can generate one or more pulses, and the input signal can be a wired or wireless signal regardless of a signal processing method. For example, the remote controller may be used as an input device, and pulses generated from the remote controller may be generated using ultrasonic waves, infrared rays, radio waves, and lasers. In addition, when the pulse is input by wire, the pulse may be input by changing a current or voltage value.

1 and 2, the driving device of the present embodiment includes a fixing member 12 fixed to a wall or the like, and a link member having one end hinged about the first hinge shaft 20 to the fixing member 12. 14 and a connector 16 hinged to the other end of the link member 14 about the second hinge shaft 22, and hinged about the connector 16 and the third hinge shaft 24 and displayed. It includes a moving body 18 for coupling. The first hinge axis 20 and the second hinge axis 22 are substantially parallel, and the second hinge axis 22 and the third hinge axis 24 are substantially perpendicular to each other.

Looking at the driving method of the drive device, by coupling the motor to the first hinge shaft 20 fixed to one end of the link member 14 to rotate the first hinge shaft 20 to rotate the link member 14 to the first hinge shaft By rotating around the 20, the movable body 18 can be horizontally moved, and the second hinge shaft 22 is rotated by coupling a motor to the second hinge shaft 22 fixed to the connector 16. The movable body 18 may be rotated left and right about the second hinge shaft 22, and the third hinge shaft 24 is rotated by coupling a motor to the third hinge shaft 24 fixed to the movable body 18. In this case, the movable body 18 can be rotated up and down about the third hinge axis 24.

3 is a block diagram of a driving apparatus according to an embodiment of the present invention. Referring to FIG. 3, an input signal generator 32, an input signal receiver 34, a comparison detector 36, a data storage 38, and a driver 40 are illustrated.

When the input signal is output from the input signal generator 32 provided in the input device, it is received by the input signal receiver 34. The input signal receiver 34 may receive a wired or wireless input signal according to the input signal generator 32. In this case, any type of device may be used as long as the device can generate one or more pulses, and the input signal can be a wired or wireless signal regardless of a signal processing method. Meanwhile, the input signal output from the input device may further include an identification signal preceding one or more pulses. The identification signal may also be in the form of a pulse that can represent information.

 The comparison detection unit 36 determines whether the identification signal is an individual adjustment mode or a temporary adjustment mode, generates a driving signal corresponding to the number of pulses received, and the driving unit 40 drives the driving device according to the driving signal.

The identification signal is a signal for identifying the input mode, and, for example, when the remote controller is used as an input device, the identification signal has signal information for determining whether it is an individual adjustment mode or a temporary adjustment mode.

The individual adjustment mode may be selected from the horizontal movement mode, the left and right rotation mode and the vertical rotation mode of the drive device, in this case, the comparison detection unit 36 to determine whether the forward adjustment mode or the reverse adjustment mode for each mode. can do.

Here, the individual adjustment mode is a mode corresponding to each movement of the moving object when the moving object coupled to the display can be moved horizontally, left and right and up and down in position control of the display, and adjusts the movement of the moving object combined with the display. Refers to the mode selected. Of course, various modes can be set according to the driving device without limiting the individual adjustment mode. The temporary adjustment mode is a mode for driving the driving device according to the number of stored pulses through individual adjustment modes such as a horizontal movement mode, a horizontal rotation mode, and a vertical rotation mode.

For example, if the individual adjustment mode is selected as the horizontal movement mode, a signal is generated for horizontally moving the moving object associated with the display corresponding to the number of pulses received. Referring to the driving device described above, when the motor coupled to the first hinge shaft is rotated forward to horizontally move the movable body coupled to the other end of the link member, the amount of rotation of the motor corresponding to the number of pulses received is determined. In this case, the moving object coupled to the display can be horizontally moved. For example, when the first hinge axis is rotated forward by 1 degree by the motor corresponding to the number of three pulses, if the number of received pulses is 15, the first hinge axis can be rotated forward 5 degrees and according to the rotation of the first hinge axis. The fixed link member rotates about the first hinge axis, and when the length of the link member is determined, the horizontal movement value of the movable body coupled to the other end of the link member can be determined by the trigonometric law. In this case, the horizontal movement of the moving object may be horizontally moved corresponding to the value after receiving all pulses input from the input device, or may be horizontally moved whenever a predetermined number of pulses is received.

In addition, when the individual adjustment mode is selected as the left and right rotation mode to rotate the motor coupled to the second hinge axis to rotate the moving object about the second hinge axis to rotate the moving object left and right according to the above-described method, Correspondingly, the movable body can be rotated left and right by rotating the second hinge axis.

In addition, when the individual adjustment mode is selected as the up and down rotation mode to rotate the motor coupled to the third hinge axis to rotate the moving object about the third hinge axis to rotate the moving body up and down as described above.

The data storage unit restores a value of adding or subtracting the number of received pulses to the number of previously stored pulses. In this case, the number of initially stored pulses may be zero. When one of the horizontal movement mode, the left and right rotation modes, and the left and right rotation modes of the driving apparatus is selected, the individual adjustment mode may be configured to store the number of pulses corresponding to the selected individual adjustment mode. For example, a memory of an area to be stored for each mode may be allocated to store the number of pulses corresponding to each mode.

As a method of storing the number of pulses, when one pulse is received, a value added or subtracted from the number of stored pulses can be restored. In this case, the number of stored pulses is updated and stored each time one pulse is input. In addition, the predetermined number of pulses for generating the driving signal may be stored when input, or may be stored after receiving all pulses input from the input apparatus.

On the other hand, the individual adjustment mode includes a forward control mode and a reverse control mode, the reverse control mode is a concept corresponding to the forward control mode in the case of the horizontal movement mode in the case of moving the moving body in a direction away from the fixed body forward adjustment In this case, moving the moving body toward the stationary body correspondingly to the mode is called a reverse control mode. The reverse is also possible. In the left and right rotation mode, when the moving object is rotated to the right direction, the forward adjustment mode is referred to as the reverse adjustment mode. In the vertical rotation mode, the moving object is rotated upward. When the case of rotating is called the forward adjustment mode, the case of rotating the moving body in the downward direction corresponding thereto may be referred to as the reverse adjustment mode. Of course, the reverse can also be set.

If the individual adjustment mode is the forward adjustment mode, restore the number of pre-stored pulses plus the number of received pulses.If the individual adjustment mode is the reverse adjustment mode, the number of stored pulses is subtracted from the number of stored pulses. Save it.

For example, when the moving object to which the display is coupled moves in a direction away from the fixture fixed to the wall, the forward adjustment mode is referred to as the reverse adjustment mode. In case of transmitting the input signal, the number of stored pulses is added to the number of received pulses.In case of transmitting the input signal so that the moving body moves toward the fixed body, the number of received pulses is stored in the number of stored pulses. Restore the value after subtracting. Specifically, if the moving object is 1 cm away from the stationary body and the number of pulses is required to 10, select the forward adjustment mode and move the moving body 10 cm in the direction away from the stationary body, and then select the reverse adjustment mode again. Moving 5 cm toward the congestion causes the moving object to be 5 cm away from the fixture. That is, 100 pulses are applied to move the moving object in the direction away from the fixture, and when the movement is completed, the number of 100 pulses is stored, and then 50 pulses are applied to move the 5cm toward the fixture. In this case, we will save 50, which is 100 minus 50. By doing this, if the display power is off, the moving object can be returned to its original position before the movement, and if the display power is off and the display power is on even if the moving object returns to the original position, the stored pulse The driving signal corresponding to the number of 50 may be generated, and the display may be rotated to a position corresponding to the number of stored pulses according to the generated driving signal. In addition, if necessary, the temporary adjustment mode may be selected to position the moving object associated with the display at a position corresponding to the number of stored pulses at any time.

When the individual adjustment mode includes the forward adjustment mode and the reverse adjustment mode, the driving signal is generated to drive in the direction opposite to the moving direction or the rotation direction according to the forward adjustment mode when the individual adjustment mode is the reverse adjustment mode as described above. can do. For example, when the driving signal is generated to move the moving body away from the fixed body according to the number of pulses received in the forward adjustment mode of the horizontal movement mode, the number of received pulses in the reverse adjustment mode of the horizontal movement mode Accordingly, the driving signal is generated to bring the moving body closer to the fixed body.

The temporary adjustment mode is a mode for driving the drive device according to the number of stored pulses in the individual adjustment mode. For example, select one of the individual adjustment modes such as horizontal movement mode, left and right rotation mode, and up and down rotation mode to store the number of pulses for each mode and drive the display to a specific position. When you want to move to a specific position moved in the adjustment mode, you can select the temporary adjustment mode and move the display to the specific position according to the number of pulses stored in each individual adjustment mode.

The driving unit may include a device capable of driving a driving device such as a motor or a hydraulic jack, and drives the driving device according to a driving signal corresponding to the number of pulses received.

4 is a flowchart illustrating a display position control method according to an exemplary embodiment of the present invention. In this embodiment, the remote control is used as an input device, and the input signal output from the remote control has an identification signal and one or more pulses following the identification signal.

In this embodiment, the input device has a key for selecting the horizontal movement mode, the left and right rotation mode, the up and down rotation mode, and the temporary adjustment mode, and the horizontal movement mode, the left and right rotation mode, and the up and down rotation mode are the forward adjustment mode and the reverse adjustment mode, respectively. It consists of. Accordingly, the input device includes six keys for adjusting the forward and reverse directions, and one key for temporarily adjusting the horizontal display, horizontal rotation, and vertical rotation of the display, and a total of seven keys.

The reverse control mode corresponds to the forward control mode. In the horizontal movement mode, when the moving body moves away from the fixed body, the forward control mode corresponds to moving the moving body toward the fixed body in the reverse direction. It is called a mode. In the case of the left and right rotation mode, when the moving body is rotated to the right direction, the forward adjustment mode is referred to as the reverse adjustment mode in which the moving object is rotated to the left direction. In the case of the mode, the case in which the moving body is rotated in the downward direction may be referred to as a reverse control mode. Of course, the reverse can also be set.

First, a method of horizontally moving a moving object combined with a display will be described. In order to separate the movable body to which the display is coupled from the fixed body in the horizontal direction, select the forward adjustment mode of the horizontal movement mode (in this embodiment, move the movable body away from the fixed body in the forward adjustment mode). Then, the corresponding input signal is received. This input signal has an identification signal and one or more pulses following the identification signal (S100).

When the input signal is received, it is determined from the identification signal whether it corresponds to the forward adjustment mode of the horizontal movement mode (S400). When the input signal is determined to be the forward adjustment mode of the horizontal movement mode, the number of trailing pulses is added to the number of pre-stored pulses. Re-storage in the unit (S600) and generates a drive signal corresponding to the number of received pulses in the forward adjustment mode (S700). In this case, the driving signal is a signal having information for moving the moving body to which the display is coupled away from the fixed body. The driving unit which receives the driving signal from the comparison detecting unit moves the moving body away from the fixed body according to the driving signal. The driving of the driving device may be driven each time a pulse is received, or may be driven after the reception of the pulse transmitted from the input device is completed (S800).

On the other hand, when the moving object is selected from the stationary body in order to move the moving object toward the stationary body again after a predetermined distance from the stationary body, if the reverse control mode of the horizontal movement mode is selected, a corresponding input signal is received. If it is determined from the identification signal that it corresponds to the reverse control mode of the horizontal movement mode (S400) and re-store the value obtained by subtracting the number of received pulses to the number of stored pulses in the data storage unit (S500) and received pulses of the reverse control mode A driving signal corresponding to the number is generated (S700). In this case, the driving signal is a signal having information for moving the moving body to which the display is coupled toward the fixed body.

Next, looking at a method of rotating the movable body coupled to the display from side to side, in order to rotate the movable body coupled to the display in the right direction (for the present embodiment to rotate the movable body in the right direction) Case is set as forward adjustment mode), then the corresponding input signal is received.

When the input signal is received (S100), it is determined from the identification signal that it corresponds to the forward control mode of the left and right rotation mode, and if it is determined that the forward control mode of the left and right rotation mode (S900, S400), the number of received pulses is converted into the number of pre-stored pulses. The added value is stored again in the data storage unit (S600) and generates a driving signal corresponding to the number of received pulses in the forward adjustment mode (S700). In this case, the driving signal is a signal having information for rotating the moving object to which the display is coupled in the right direction. When the driving signal is generated, thereby rotating the moving body to the right (S800).

On the other hand, after the rotation of the movable body according to the forward control mode of the left and right rotation mode is completed, if the reverse control mode of the left and right rotation mode is selected for the rotation of the movable body according to the reverse control mode of the left and right rotation mode, the corresponding input signal is received. do. If it is determined whether the identification signal corresponds to the reverse control mode of the left and right rotation mode, the stored value obtained by subtracting the number of received pulses from the number of pre-stored pulses is restored (S500) and the driving signal corresponding to the number of received pulses of the reverse control mode. To generate (S700). In this case, the driving signal is a signal having information for rotating the movable body to which the display is coupled in the left direction.

Next, looking at the method of rotating the movable body coupled to the display up and down, in order to rotate the movable body coupled to the display in the upward direction in the forward and lower rotation mode (in this embodiment, when rotating the movable body in the upward direction) Is set to the forward adjustment mode), an input signal corresponding thereto is received (S100).

When the input signal is received, it is determined whether it corresponds to the forward adjustment mode of the up / down rotation mode from the identification signal (S1000, S400). When it is determined that the forward adjustment mode is the up / down rotation mode, the number of received pulses is added to the number of stored pulses. Re-storing to the storage unit (S600) and generates a drive signal corresponding to the number of received pulses in the forward adjustment mode (S700). When the driving signal is generated, the moving body is rotated upwards accordingly (S800).

On the other hand, after the rotation of the moving body according to the forward adjustment mode of the up and down rotation mode is selected again the reverse control mode of the up and down rotation mode, the corresponding input signal is received. If it is determined from the identification signal that it corresponds to the reverse control mode of the up and down rotation mode (S400) and re-save the value obtained by subtracting the number of received pulses from the number of stored pulses (S500) and corresponding to the number of received pulses of the reverse control mode A driving signal is generated (S700). When the driving signal is generated accordingly, the movable body is rotated downward (S800).

Next, when the temporary adjustment mode is selected (S200), a driving signal corresponding to the number of stored pulses is generated (S1100) and the driving device is driven according to the generated driving signal (S800). For example, select one of the individual adjustment modes such as horizontal movement mode, left and right rotation mode, and vertical rotation mode to store the number of pulses for each mode, drive the display to a specific position, and then individually adjust the display as necessary. When moving to a specific position moved through the mode, the temporary adjustment mode may be selected to move the display to a specific position (S800).

Many embodiments other than the above-described embodiments are within the scope of the claims of the present invention.

According to the preferred embodiment of the present invention as described above, the position of the display can be automatically controlled according to the user's position by using the number of pulses of the input device without having a separate position sensor, and the pulse of the input device In addition to storing the number of auto centering, the display can be moved to a position corresponding to the number of stored pulses as needed.

Claims (8)

A method of controlling a display supported by a driving device to be rotatable to a predetermined position, Receiving an input signal comprising one or more pulses from the input device; If the input signal corresponds to the individual adjustment mode, restoring a value obtained by adding the number of pre-stored pulses to the number of received pulses and generating a driving signal corresponding to the number of received pulses; And driving the driving device according to the driving signal. The method of claim 1, And the number of initially stored pulses is zero. The method of claim 1, And generating a driving signal corresponding to the stored number of pulses if the input signal corresponds to the temporary adjustment mode. The method of claim 1, The input signal is an ON signal of the display power supply, And generating a driving signal corresponding to the stored number of pulses when the display power is turned on. The method of claim 1, And the input device is a remote controller. The method of claim 1, And the input signal further includes an identification signal preceding the pulse, and determines whether the input signal corresponds to the individual adjustment mode from the identification signal. The method of claim 1, The individual adjustment mode is selected from any one of the horizontal movement mode, the left and right rotation mode and the vertical rotation mode of the drive device, In generating the driving signal, And re-storing a value obtained by adding the number of pre-stored pulses to the number of received pulses corresponding to the selected individual adjustment mode. The method of claim 1, The individual adjustment mode includes a forward control mode and a reverse control mode, If the individual adjustment mode is the forward adjustment mode, the stored value of the number of pre-stored pulses plus the number of the received pulses are restored; And if the individual adjustment mode is the reverse adjustment mode, re-storing a value obtained by subtracting the number of received pulses from the number of pre-stored pulses.

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