KR20110114280A - Control apparatus for elevator using the touch screen - Google Patents

Abstract

The present invention relates to an elevator control apparatus using a touch screen, the first touch screen (10) is installed in the elevator, consisting of an input button 11, the input button 11 and the status display unit 13; A second touch screen 20 installed at each elevator door of each floor, the second touch screen 20 including an input button 21, an input display unit 22, and a status display unit 23; The elevator operation is controlled by the value input from the first touch screen 10, and when the input of the second touch screen 20 occurs, the data value input from the second touch screen 20 after opening and closing the elevator door on the corresponding floor. A controller 30 which is automatically displayed on the first touch screen 10 and controls the elevator operation; A memory 40 which stores a value input from the first touch screen 10 or the second touch screen 20 and transmits the stored value to the controller 30; The value input by the input buttons 11 and 12 of the first and second touch screens 10 and 20 and the execution value executed by the control unit 30 are displayed in the status display unit 13 or 23 or the first and second touch screens. And a display driver 50 for outputting over the entire surface (10, 20). Therefore, the present invention improves the elevator control device used in a high-rise building from a button input method representing each existing floor to an input method using a touch screen, so that it is possible to move to a desired number of floors with only numbers of 0 to 9. Simplifying the switch has the effect of increasing the utilization of space.

Description

Control apparatus for elevator using the touch screen}

The present invention relates to an elevator control apparatus using a touch screen, and more particularly to an elevator control apparatus using a touch screen for controlling the opening and closing of the elevator by pressing a switch button provided as a touch screen.

Recently, the necessity of high-rise buildings is increasing due to the overcrowding of urban areas, and as a result, high-rise apartments and multi-composite buildings are being built, and the elevator switches installed in the high-rise buildings also increase by the number of floors.

1 is a reference diagram showing a conventional elevator structure and a switch button, Figure 1 (a) shows the internal structure of the elevator, Figure 1 (b) and Figure 1 (c) is the elevator floor and other elevator driving using the elevator An embodiment of a switch button required is shown.

However, the conventional button-type switch for elevator control as described above, when installed in a high-rise building of more than 20 floors, because the button-type switch used for moving between floors increases as much as the number of floors of the building, occupies a lot of space, Since there are many button switches indicating floors, there is a problem that a lot of confusion occurs when using an elevator.

In order to solve the above problems, in the present invention, the first and second touch screens selectively using the resistive film type or the capacitive type are installed in the elevator doors and the elevator doors on each floor, respectively, and constitute 0 to 9. It is possible to move to the desired floor with only the number input button, and the value input to the second touch screen of each floor used for elevator call (the corresponding floor input to move) is stored in the memory and the door on the floor. It is an object of the present invention to provide an elevator control apparatus using a touch screen that is output to a first touch screen inside an elevator after opening and closing so that the user automatically operates the selected floor without additional input in the elevator.

The configuration for achieving the purpose is installed inside the elevator, the input button is provided with a number button of 0 to 9 and various buttons (B, cancel, open, input, closed), and the value input from the input button is displayed A first touch screen configured to display an input display unit and a result display unit input by the input button, and a state display unit displaying a current driving state of the elevator; Installed on the elevator doors of each floor, the input button is provided with a number button of 0 to 9 and various buttons (B, cancel, open, input, closed), an input display unit that displays the value input from the input button and A second touch screen configured to display a result value input by the input button, and a state display unit for displaying a current driving state of the elevator; The elevator operation is controlled by the value input from the first touch screen, and when the input of the second touch screen occurs, the data value input from the second touch screen is automatically displayed on the first touch screen after the elevator door is opened and closed on the floor. And the control unit to control the elevator operation; A memory configured to store a value input from the first touch screen or the second touch screen and to transmit the stored value to a controller; And a display driver for outputting a value input by the input buttons of the first and second touch screens and an execution value executed by the controller to be displayed on the status display part or the entire first and second touch screens.

In another aspect of the present invention, the first and second touch screens are formed by sequentially stacking an acryl plate, a first OCA film, and a first ITO film on an LCD, and a second ITO film and a second OCA bonded to a double-sided tape on the first ITO film. It consists of a resistive film means in which a film and a cover film are sequentially stacked.

In another aspect of the present invention, the first and second touch screens are sequentially stacked with a window, a first OCA film, a first ITO film, and a sensor glass on an LCD, and a second ITO film, a second OCA film, and a top on the sensor glass. The glass is constituted by capacitive means which are sequentially stacked.

As described above, the present invention improves the elevator control device used in the high-rise building from the button input method representing the existing floor number to the input method using the touch screen, it is possible to move to the desired floor number only with numbers of 0 to 9 Therefore, it is possible to increase the utilization of space through the simplification of the mobile switch, the visitor's fingerprint check is also possible due to the touch using a finger, and the LCD panel can be used as an advertisement delivery medium.

1 is a reference diagram showing a conventional elevator structure and a switch button.
2 is a block diagram of an elevator control apparatus using a touch screen according to the present invention.
Figure 3 is an embodiment of the elevator with a touch screen according to the present invention.
Figure 4 is an embodiment showing an operating state of the touch screen according to the present invention.
5 is a view showing the structure of a touch screen according to the present invention.

Figure 2 is a block diagram of an elevator control apparatus using a touch screen according to the present invention, Figure 3 is an embodiment of an elevator with a touch screen according to the present invention, Figure 4 is an operating state of the touch screen according to the present invention 5 is a diagram illustrating the structure of a touch screen according to the present invention.

Hereinafter, the components will be described with reference to the drawings.

FIG. 2 is a block diagram of an elevator control apparatus using a touch screen according to the present invention, wherein first and second touch screens 10 and 20 to which a floor number for moving to an elevator is input, and the first and second touch screens 10 and A control unit 30 for controlling the elevator by the input value of 20, a memory 40 in which the input values of the first and second touch screens 10 and 20 are stored, and a display driver 50 for outputting the input values. It is composed of

The first touch screen 10 is installed in the elevator, the input button 11 is provided with a number buttons of 0 to 9 and various buttons (B, cancel, open, input, closed) and the input button 11 And an input display unit 12 for displaying a value input from the display panel, and a result value input by the input button 11, and a status display unit 13 for displaying the current running state of the elevator.

The second touch screen 20 is installed on the elevator doors of each floor, respectively, the input button 21 is provided with a number button (0, 9, B, cancel, open, input, closed) of the number 0 to 9, and It consists of an input display unit 22 for displaying the value input from the input button 21, and a result value input to the input button 21 is displayed, and a status display unit 23 for displaying the current running state of the elevator .

The controller 30 controls the operation of the elevator by a value input from the first touch screen 10, and when the input of the second touch screen 20 occurs, the second touch screen 20 after opening and closing the elevator door on the corresponding floor. Elevator value is controlled while the data value inputted at) is automatically displayed on the first touch screen 10.

The memory 40 stores a value input from the first touch screen 10 or the second touch screen 20, transfers the stored value to the controller 30, and the display driver 50 stores the value. The value input by the input buttons 11 and 12 of the first and second touch screens 10 and 20 and the execution value executed by the control unit 30 are displayed on the status display unit 13 or 23 or the first and second touch screens. 10,20) Output over the entire surface.

3 is an embodiment of an elevator to which the first and second touch screens 10 and 20 are attached, and FIG. 4 is an embodiment showing an operating state of the first and second touch screens 10 and 20. The first touch screen 10 is installed inside the elevator, and the second touch screen 20 is installed at the elevator doors of each floor.

For reference, one side of the inside of the elevator in which the first touch screen 10 of FIG. 3 is installed is provided with an emergency button and a speaker for contacting the guard room or an external place when a problem occurs during operation of the elevator.

When the first and second touch screens 10 and 20 have no input value for a predetermined time (about 5 seconds), information such as news or advertisement is provided to the front of the first and second touch screens 10 and 20. When an input value is generated from the display, the display returns to the elevator operation display state as shown in FIG. 4, wherein the first touch screen 10 converts the display window to the elevator operation display state, and the elevator in operation arrives at the destination floor even if there is no external input value. The display window is automatically changed to the elevator operation display state before (about 3 seconds).

In the second touch screen 20, three selection buttons are displayed on the screen when an input value is generated from the outside. The second touch screen 20 is displayed by “upward movement”, “lower movement” and “menu call (operation display status)” buttons. "Move Up" is a button to call the elevator to move from the current floor to the upper floor. The "Move Down" is a button to call the elevator to move to the lower floor from the current floor. Provides a destination layer as shown in FIG. 4.

5 is a view showing the structure of the first and second touch screens 10 and 20 of the present invention, and FIG. 5 (a) shows that the first and second touch screens 10 and 20 are formed of resistive film means 70. In the resistive film means 70, an acrylic plate 72, a first OCA film 73, and a first ITO film 74 are sequentially stacked on the LCD 71, and an upper portion of the first ITO film 74 is stacked. The second ITO film 76, the second OCA film 77, and the cover film 78 bonded to the double-sided tape 75 are sequentially stacked.

The resistive touch screen as described above is formed of two substrate structures coated with a transparent electrode based on the double-sided tape 75, and when the pressure is applied to the screen through a finger or a pen, the substrates of the portions adhere to each other. In this way, the price is low and the accuracy is high.

In addition, FIG. 5 (b) shows that the first and second touch screens 10 and 20 are constituted by the capacitive means 80. The capacitive means 80 is a window 82 above the LCD 81. FIG. And the first OCA film 83, the first ITO film 84, and the sensor glass 85 are sequentially stacked, and the second ITO film 86, the second OCA film 87, and the top glass are formed on the sensor glass 85. 88) is laminated in order.

The capacitive touch screen as described above uses the principle of detecting static electricity generated in the human body, and it is not recognized as a non-conductive non-conductor no matter how much it presses, and it is characterized by strong durability, good permeability, and fast reaction time.

Referring to the operation method of the elevator control apparatus using the touch screen of the present invention configured as described above are as follows.

First, if you want to move to another floor by calling the elevator to the second touch screen 20 provided in the elevator doors of each floor, simply press the "upper move" or "lower move" button and then board the elevator Enter the desired destination floor on the first touch screen 10 provided inside the elevator, or enter the desired destination floor using the “call menu (operation display status)” button provided to the second touch screen 20. If the user waits afterwards, even if the first touch screen 10 provided inside the elevator is not operated separately, automatic operation of the destination floor is possible by the value input from the second touch screen 20.

In this case, the input values input to the first and second touch screens 10 are stored in the memory 40 through the control unit 30, and then the elevator 30 is driven by the control unit 30 at the time when the input values are executed. To control.

The destination layer input to the first and second touch screens 10 and 20 can be input by using buttons provided from 0 to 9, and as shown in the input display units 12 and 22 of FIG. The digits are input, and the input display units 12 and 22 of FIG. 4 (b) show an embodiment for the movement of the basement layer B 2.

Therefore, in the present invention, the first and second touch screens 10 and 20, which selectively use the resistive film method or the capacitive method, are installed in the elevator doors and the elevator doors on each floor, respectively, and input a number consisting of 0 to 9. It is possible to move to the desired floor with only a button, and the value input to the second touch screen 20 of each floor used for elevator call (the corresponding floor input to move) is stored in the memory 40 in the state. After opening and closing the door in the elevator is output to the first touch screen 10 inside the elevator so that the user is automatically driven to the selected floor without the need for additional input inside the elevator.

Although the present invention has been shown and described with respect to specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who can afford it will know.

10: first touch screen 20: second touch screen
11,21: input button 12,22: input display
13,23: status display unit 30: control unit
40: memory 50: display driver
70 resistive means 80 capacitance means

Claims (3)

In the elevator control apparatus using a touch screen,
It is installed inside the elevator, the input button 11 is provided with a number button of 0 to 9 and various buttons (B, cancel, open, input, closed), and the input to display the value input from the input button 11 A first touch screen 10 comprising a display unit 12 and a result value input by the input button 11, and a state display unit 13 displaying a current driving state of the elevator;
Installed on the elevator doors of each floor, the input button 21 is provided with a number button of 0 to 9 and various buttons (B, cancel, open, input, closed), and the value input from the input button 21 A second touch screen 20 including an input display unit 22 to be displayed and a result value input by the input button 21, and a state display unit 23 to display a current running state of the elevator;
The elevator operation is controlled by the value input from the first touch screen 10, and when the input of the second touch screen 20 occurs, the data value input from the second touch screen 20 after opening and closing the elevator door on the corresponding floor. A controller 30 which is automatically displayed on the first touch screen 10 and controls the elevator operation;
A memory 40 which stores a value input from the first touch screen 10 or the second touch screen 20 and transmits the stored value to the controller 30;
The value input by the input buttons 11 and 12 of the first and second touch screens 10 and 20 and the execution value executed by the control unit 30 are displayed in the status display unit 13 or 23 or the first and second touch screens. (10,20) Elevator control device using a touch screen, characterized in that consisting of a display driver 50 for outputting over the entire surface. The method of claim 1,
In the first and second touch screens 10 and 20, an acrylic plate 72, a first OCA film 73, and a first ITO film 74 are sequentially stacked on the LCD 71, and the first ITO film 74 is sequentially stacked. Using the touch screen, characterized in that the upper portion consisting of a resistive film means 70 is laminated with a second ITO film 76, the second OCA film 77 and the cover film 78 are bonded with a double-sided tape (75) Elevator controls. The method of claim 1,
The first and second touch screens 10 and 20 are sequentially stacked with a window 82, a first OCA film 83, a first ITO film 84, and a sensor glass 85 on the LCD 81. An elevator control apparatus using a touch screen, characterized in that the upper portion of the glass 85 is composed of a capacitive means 80 in which the second ITO film 86, the second OCA film 87, and the top glass 88 are sequentially stacked.

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