CN103164124A

CN103164124A - Display device using sliding touch mode to control

Info

Publication number: CN103164124A
Application number: CN2011104223378A
Authority: CN
Inventors: 张庆; 董博彦
Original assignee: Tianjin Samsung Electronics Co Ltd
Current assignee: Tianjin Samsung Electronics Co Ltd
Priority date: 2011-12-16
Filing date: 2011-12-16
Publication date: 2013-06-19

Abstract

The invention discloses a display device using a sliding touch mode to control. The display device using the sliding touch mode to control comprises a touch key input unit, a data storage unit, a sliding direction analyzing and controlling unit and a display device operating control unit. The touch key input unit is used for detecting an initial position and an end position of sliding and touching of a user in real time. The data storage unit is used for prestoring a mapping relation between different initial positions and end positions, different sliding directions and different control instructions. The sliding direction analyzing and controlling unit is respectively connected with the touch key input unit and the data storage unit, and used for obtaining the sliding directions of the user and corresponding control instructions after receiving information of the initial position and the end position, then sending sliding directions of the user and the control instructions to the display device operating control unit which is used for controlling specific operation of the display device. The display device can be controlled by sliding and touching operations, a plurality of different control functions are achieved, and a multi-functional control demand of the user on the display device is met.

Description

A kind of display device that utilizes the slip touch manner to control

Technical field

The present invention relates to household electricity device technical field, particularly relate to a kind of display device that utilizes the slip touch manner to control.

Background technology

Development along with China's science and technology, the domestic electric appliances such as computing machine, televisor, video camera, camera are more and more universal in people's daily life, people often understand the information of outside and learn with televisor, computing machine, and televisor, computing machine have become people's indispensable ingredient of living.

For display devices such as televisor, graphoscopes, development along with technology, having used gradually the touch key-press of capacitive induction technology controls, for existing capacitive induction technology, only use single touch key-press and removed control display equipment, the only corresponding function of each touch key-press, number of keys is more, operate more single uninteresting, be that each touch key-press just triggers a kind of fixing function, can't satisfy the user display device is carried out the demand that several functions is controlled.

Therefore, in the urgent need to developing a kind of device, it can increase the function of touch key-press at present, can satisfy the user display device is carried out the demand that several functions is controlled, further satisfy user's experience impression and individual demand, the product that strengthens the user uses impression.

Summary of the invention

In view of this, the purpose of this invention is to provide a kind of display device that utilizes the slip touch manner to control, it can be controlled display device by the slip touch operation, realize simultaneously multiple different control function, can satisfy the user display device is carried out the demand that several functions is controlled, further satisfy user's experience impression and individual demand, the product that strengthens the user uses impression, be conducive to enlarge the market application foreground of display device, thereby be of great practical significance.

For this reason, the invention provides a kind of display device that utilizes the slip touch manner to control, comprising:

Touch key-press input block 101 is used for detecting in real time user slide initial position and the end position of touch action thereon, then sends these two positional informations of described initial position and end position to glide direction analysis controlling unit 103;

Data storage cell 102 is used for the mapping relations of pre-stored user between the different initial positions that slide on touch key-press input block 101 and different end position these two positions and different glide directions, different display device steering order;

glide direction analysis controlling unit 103, respectively with touch key-press input block 101, data storage cell 102 is connected, be used for after the described initial position and these two positional informations of end position that receive described touch key-press input block 101 transmissions, the different initial positions that the user pre-stored according to described data storage cell 102 slides on touch key-press input block 101 and different end position these two positions and different glide directions, mapping relations between different display device steering orders, obtain glide direction and this glide direction corresponding display device steering order of user on touch key-press input block 101, then described steering order is sent to display device operation control module 104,

Display device operation control module 104 is connected with glide direction analysis controlling unit 103, is used for receiving the steering order that described glide direction analysis controlling unit 103 sends, and according to this steering order, the concrete operations of control display equipment operation.

Wherein, described touch key-press input block 101 includes two the first button blocks 1, second a button block 2, the 3rd a button block 3, the 4th a button block 4, two the 5th button blocks 5, the 6th a button block 6 and the 7th a button block 7, and these nine button blocks are in the touch key-press input block 101 that the right-angled intersection shape is distributed in described rectangle.

Wherein, in described touch key-press input block 101, cross direction profiles has two the first button blocks 1, second a button block 2, the 3rd a button block 3 and the 4th a button block 4, vertically is distributed with two the 5th button blocks 5, the 6th a button block 6, described the 3rd a button block 3 and the 7th a button block 7 in described touch key-press block input block 101.

Wherein, it is the position that is positioned at the first button block 1, the second button block 2, the 3rd button block 3 or the 4th button block 4 tops when the slip initial position, and the slip end position is when being positioned at the position of described the first button block 1, the second button block 2, the 3rd button block 3 or the 4th button block 4 belows, and the glide direction of these two position institute correspondence mappings of the pre-stored slip initial position of described data storage element 102 and slip end position is: the down sliding direction;

Perhaps, when the slip initial position is positioned at the 5th button block 5, and slide past successively the 6th button block 6, the 3rd button block 3, the 7th button block 7, and the slip end position is when the 5th button block 5, and the glide direction of 102 pre-defined storages of correspondence of described data storage element is: the down sliding direction.

Wherein, it is the position that is positioned at the first button block 1, the second button block 2, the 3rd button block 3 or the 4th button block 4 belows when the slip initial position, and the slip end position is when being positioned at the position of described the first button block 1, the second button block 2, the 3rd button block 3 or the 4th button block 4 tops, and the glide direction of these two position institute correspondence mappings of the pre-stored slip initial position of described data storage element 102 and slip end position is: the upward sliding direction;

Perhaps, when the slip initial position is positioned at the 5th button block 5, and slide past successively the 7th button block 7, the 3rd button block 3, the 6th button block 6, and the slip end position is when the 5th button block 5, and the glide direction of 102 pre-defined storages of correspondence of described data storage element is: the upward sliding direction.

Wherein, it is the position that is positioned at the 5th button block 5, the 6th button block 6, the 3rd button block 3 or the 7th button block 7 left sides when the slip initial position, and the slip end position is when being positioned at the position on the 5th button block 5, the 6th button block 6, the 3rd button block 3 or the 7th button block 7 the right, and the glide direction of these two position institute correspondence mappings of the pre-stored slip initial position of described data storage element 102 and slip end position is: glide direction to the right;

Perhaps, when the slip initial position is positioned at the first button block 1, and slide past successively the second button block 2, the 3rd button block 3, the 4th button block 4, and the slip end position is when the first button block 1, and the glide direction of 102 pre-defined storages of correspondence of described data storage element is: glide direction to the right.

Wherein, it is the position that is positioned at the 5th button block 5, the 6th button block 6, the 3rd button block 3 or the 7th button block 7 the right when the slip initial position, and the slip end position is when being positioned at the position on the 5th button block 5, the 6th button block 6, the 3rd button block 3 or the 7th button block 7 left sides, and the glide direction of these two position institute correspondence mappings of the pre-stored slip initial position of described data storage element 102 and slip end position is: glide direction left;

Perhaps, when the slip initial position is positioned at the first button block 1, and slide past successively the 4th button block 4, the 3rd button block 3, the second button block 2, and the slip end position is when the first button block 1, and the glide direction of 102 pre-defined storages of correspondence of described data storage element is: glide direction left.

Wherein, described touch key-press input block 101 is the capacitance type touch key module;

Described data storage cell 102 is nonvolatile random access memory NVRAM;

Described glide direction analysis controlling unit 103 is central processor CPU, digital signal processor DSP or a single-chip microprocessor MCU.

By above technical scheme provided by the invention as seen, a kind of display device that utilizes the slip touch manner to control provided by the invention, it can be controlled display device by the slip touch operation, realize simultaneously multiple different control function, can satisfy the user display device is carried out the demand that several functions is controlled, further satisfy user's experience impression and individual demand, the product that strengthens the user uses impression, be conducive to enlarge the market application foreground of display device, thereby be of great practical significance.

For the present invention, it utilizes the capacitive sensing technology, traditional mechanical key operation is become touch operation, substitute single point with slide simultaneously and touch operation, the user can to the self-defined different function of different slips, bring unprecedented experience to the consumer in technical field or field operation.

Description of drawings

Fig. 1 is a kind of structural representation that utilizes the display device that the slip touch manner controls provided by the invention;

Fig. 2 is the distributed architecture schematic diagram of all button blocks of comprising of touch key-press input block that a kind of display device that utilizes the slip touch manner to control provided by the invention has;

Fig. 3 is for for a kind of display device that utilizes the slip touch manner to control provided by the invention, and the user is to the slide glide direction schematic diagram of touch operation of touch key-press input block;

Fig. 4 is a kind of circuit diagram that utilizes a kind of embodiment of display device that the slip touch manner controls provided by the invention.

Embodiment

In order to make those skilled in the art person understand better the present invention program, the present invention is described in further detail below in conjunction with drawings and embodiments.

Referring to Fig. 1, a kind of display device that utilizes the slip touch manner to control provided by the invention includes touch key-press input block 101, data storage cell 102, glide direction analysis controlling unit 103 and display device operation control module 104, wherein:

Touch key-press input block 101, be used for detecting in real time the user at initial position and the end position of its touch area of touch key-press input block 101 (on be specially) enterprising line slip touch action, then send these two positional informations of described initial position and end position to glide direction analysis controlling unit 103;

Data storage cell 102, be used for the mapping relations of pre-stored user between the different initial positions that slide on touch key-press input block 101 and different end position these two positions and different glide directions, different display device steering order (specific implementation for example can be correspondence mappings relation one by one);

Display device operation control module 104, be connected with glide direction analysis controlling unit 103, be used for receiving the steering order that described glide direction analysis controlling unit 103 sends, and according to this steering order, the concrete operations operation of control display equipment realizes the desired function of user.

In the present invention, described display device steering order can be for being used for the arbitrary instruction of control display equipment operation, for example for adjusting the volume instruction, adjust the display brightness instruction, switch the display interface instruction, entering holding state instruction etc.

need to prove, in the present invention, on specific implementation, described display device operation control module 104 can be the central processor CPU that has in original display device, it is used for according to received display device steering order type, the corresponding function module transmitted signal in the display device requires it to complete function accordingly, for example, when receiving 103 sending controling instructions of described glide direction analysis controlling unit for reduction volume steering order, described display device operation control module 104 is transmitted to described reduction volume steering order the loudspeaker module of display device, thereby the control loudspeaker module reduces the volume of sending, again for example, be that display brightness is when reducing steering order receiving 103 sending controling instructions of described glide direction analysis controlling unit, described display device operation control module 104 (is display screen with the image-display units that described display brightness reduction steering order is transmitted to display device, as the LCD LCDs), control thereby trigger the brightness that image-display units reduces the image demonstration.Because the functional module in existing display device is a lot, just do not enumerate at this.

Referring to Fig. 2, on specific implementation, described touch key-press input block 101 is the capacitance type touch key module, specifically can include nine button blocks, each button block is a touch key-press, i.e. two the first button blocks 1, second a button block 2, the 3rd a button block 3, the 4th a button block 4, two the 5th button blocks 5, the 6th a button block 6 and the 7th a button block 7.On specific implementation, be respectively arranged with a printed circuit board PCB on described nine button blocks.

Referring to Fig. 2, the shape of described touch key-press input block 101 is not limited to shape shown in Figure 2, can also be rectangle and other shape, described nine button blocks are in the touch key-press input block 101 that the right-angled intersection shape is distributed in described rectangle, and namely in described touch key-press input block 101, cross direction profiles has two the first button blocks 1, second a button block 2, the 3rd a button block 3 and the 4th a button block 4.Vertically be distributed with two the 5th button blocks 5, the 6th a button block 6, described the 3rd a button block 3 and the 7th a button block 7 in described touch key-press input block 101, need to prove, the 3rd button block 3 of the 3rd button block 3 of described vertical distribution and cross direction profiles is same button block.

Here need to prove, in the present invention, specifically can touch the initial position of slip and nine concrete orientation of pressing block that end position is positioned at described cross distribution by the user, judge the direction that the user slides.Referring to Fig. 3, in the present invention, described data storage element 102 is pre-defined and store mapping relations between different slip initial positions and different end position and different glide directions, the specific definition mode can for:

If 1 slip initial position is the position that is positioned at the first button block 1, the second button block 2, the 3rd button block 3 or the 4th button block 4 tops, and the slip end position is the position that is positioned at described the first button block 1, the second button block 2, the 3rd button block 3 or the 4th button block 4 belows, and the glide direction of these two position institute correspondence mappings of so described data storage element 102 pre-defined storage slip initial position and slip end position is: the down sliding direction;

If 2 slip initial positions are the position that is positioned at the first button block 1, the second button block 2, the 3rd button block 3 or the 4th button block 4 belows, and the slip end position is the position that is positioned at described the first button block 1, the second button block 2, the 3rd button block 3 or the 4th button block 4 tops, and the glide direction of these two position institute correspondence mappings of so described data storage element 102 pre-defined storage slip initial position and slip end position is: the upward sliding direction;

If 3 slip initial positions are the position that is positioned at the 5th button block 5, the 6th button block 6, the 3rd button block 3 or the 7th button block 7 left sides, and the slip end position is the position that is positioned at the 5th button block 5, the 6th button block 6, the 3rd button block 3 or the 7th button block 7 the right, and the glide direction of these two position institute correspondence mappings of so described data storage element 102 pre-defined storage slip initial position and slip end position is: glide direction to the right;

If 4 slip initial positions are the position that is positioned at the 5th button block 5, the 6th button block 6, the 3rd button block 3 or the 7th button block 7 the right, and the slip end position is the position that is positioned at the 5th button block 5, the 6th button block 6, the 3rd button block 3 or the 7th button block 7 left sides, and the glide direction of these two position institute correspondence mappings of so described data storage element 102 pre-defined storage slip initial position and slip end position is: glide direction left.

Perhaps, when the slip initial position is positioned at the first button block 1, and slide past successively the 4th button block 4, the 3rd button block 3, the second button block 2, and when the slip end position was the first button block 1, the glide direction of 102 pre-defined storages of correspondence of described data storage element was: glide direction left.

In the present invention, on specific implementation, described data storage cell 102 is preferably nonvolatile random access memory (Non-Volatile Random Access Memory, NVRAM), this storer is the semiconductor memory that data still can keep after outage, thereby guarantees that the data that this data storage cell 102 is stored above can not lose because of outage.At present, described NVRAM storer comprises SD card (Secure Digital Memory Card, safe digital card) and the flash memory extension storage card of other types, for example, SONY memory stick, multimedia card (MMC), the nand flash memory that CF card (Compact Flash) and digital camera are built-in etc.

In the present invention, on specific implementation, described glide direction analysis controlling unit 103 can be central processor CPU, digital signal processor DSP or a single-chip microprocessor MCU.In the present invention, described glide direction analysis controlling unit 103 is preferably the capacitive induction integrated circuit die I C that Korea S CORERIVER semiconductor company produces, and concrete model can be TouchCore370.

Fig. 4 is a kind of physical circuit figure that utilizes the display device that the slip touch manner controls provided by the invention.referring to Fig. 4, a kind of display device that utilizes the slip touch manner to control provided by the invention includes the first button block 1, the second button block 2, the 3rd button block 3, the 4th button block 4, the 5th button block 5, the 6th button block 6 and the 7th button block 7, described seven button blocks are specially with integrated circuit die I C(the capacitive induction integrated circuit die I C that Korea S CORERIVER semiconductor company produces by a resistance R 1 respectively) be connected, the 24th stitch of described integrated circuit die I C respectively with a capacitor C 1, the stabilized power source of capacitor C 2 and 3.3V is connected, described capacitor C 1, capacitor C 2 other end ground connection, the 7th stitch of described integrated circuit die I C connects capacitor C 4, described capacitor C 4 ground connection,

The 1st stitch of described integrated circuit die I C is connecting resistance R1 and diode D2 successively, node between described resistance R 1 and diode D2 and this interface of connecting interface CN01(are the interface with five stitch, be used for to connect the controller of touch key system and display device) the 4th stitch joins;

The 2nd stitch of described integrated circuit die I C is connecting resistance R1 and diode D1 successively, and the node between described resistance R 1 and diode D1 and connecting interface CN01 the 3rd stitch join;

The 4th stitch and the capacitor C 3 of described integrated circuit die I C are joined, described capacitor C 3 ground connection; The 6th stitch and the resistance R 2 of described integrated circuit die I C are joined, and described resistance R 2 is sending and receiving optical diode LED, diode D4 and connecting interface CN01 the 2nd stitch respectively, the other end of described LED and the diode D4 rear ground connection of joining; The 1st stitch of described connecting interface CN01 is connected with stabilized power source, the diode D3 of 3.3V respectively, described diode D3 ground connection; The 5th stitch ground connection of described connecting interface CN01.

On specific implementation, described resistance R 1 can be the resistance of 20 ohm, and described resistance R 2 is the resistance of 10 kilohms, and described capacitor C 1 can be that voltage is that 10V, capacity are the electric capacity of 10F, described capacitor C 2, C3 and C4 can be that voltage is that 6.3V, capacity are the electric capacity of 1UF

In sum, compared with prior art, a kind of display device that utilizes the slip touch manner to control provided by the invention, it can be controlled display device by the slip touch operation, realize simultaneously multiple different control function, can satisfy the user display device is carried out the demand that several functions is controlled, further satisfy user's experience impression and individual demand, the product that strengthens the user uses impression, be conducive to enlarge the market application foreground of display device, thereby be of great practical significance.

The above is only the preferred embodiment of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims

1. a display device that utilizes the slip touch manner to control, is characterized in that, comprising:

Touch key-press input block (101) is used for detecting in real time user slide initial position and the end position of touch action thereon, then sends these two positional informations of described initial position and end position to glide direction analysis controlling unit (103);

Data storage cell (102) is used for the mapping relations of pre-stored user between the upper different initial positions that slide of touch key-press input block (101) and different end position these two positions and different glide directions, different display device steering order;

glide direction analysis controlling unit (103), respectively with touch key-press input block (101), data storage cell (102) is connected, be used for after the described initial position and these two positional informations of end position that receive described touch key-press input block (101) transmission, the user pre-stored according to described data storage cell (102) is in the upper different initial positions that slide of touch key-press input block (101) and different end position these two positions and different glide directions, mapping relations between different display device steering orders, obtain glide direction and this glide direction corresponding display device steering order of user on touch key-press input block (101), then described steering order is sent to display device operation control module (104),

Display device operation control module (104), be connected with glide direction analysis controlling unit (103), be used for receiving the steering order that described glide direction analysis controlling unit (103) sends, and according to this steering order, the concrete operations of control display equipment operation.

2. display device as claimed in claim 1, it is characterized in that, described touch key-press input block (101) includes two the first button blocks (1), second a button block (2), the 3rd a button block (3), the 4th a button block (4), two the 5th button blocks (5), the 6th a button block (6) and the 7th a button block (7), and these nine button blocks are in the touch key-press input block (101) that the right-angled intersection shape is distributed in described rectangle.

3. display device as claimed in claim 2, it is characterized in that, in described touch key-press input block (101), cross direction profiles has two the first button blocks (1), second a button block (2), the 3rd a button block (3) and the 4th a button block (4), vertically is distributed with two the 5th button blocks (5), the 6th a button block (6), described the 3rd a button block (3) and the 7th a button block (7) in described touch key-press input block (101).

4. display device as claimed in claim 3, it is characterized in that, when the slip initial position for being positioned at the first button block (1), the second button block (2), position above the 3rd button block (3) or the 4th button block (4), and the slip end position is for being positioned at described the first button block (1), the second button block (2), during the position of the 3rd button block (3) or the 4th button block (4) below, the glide direction of these two position institute correspondence mappings of the pre-stored slip initial position of described data storage element (102) and slip end position is: the down sliding direction,

Perhaps, when the slip initial position is positioned at the 5th button block (5), and slide past successively the 6th button block (6), the 3rd button block (3), the 7th button block (7), and the slip end position is when the 5th button block (5), described data storage element (102) the glide direction of corresponding pre-defined storage be: the down sliding direction.

5. display device as claimed in claim 3, it is characterized in that, when the slip initial position for being positioned at the first button block (1), the second button block (2), position below the 3rd button block (3) or the 4th button block (4), and the slip end position is for being positioned at described the first button block (1), the second button block (2), during the position of the 3rd button block (3) or the 4th button block (4) top, the glide direction of these two position institute correspondence mappings of the pre-stored slip initial position of described data storage element (102) and slip end position is: the upward sliding direction,

Perhaps, when the slip initial position is positioned at the 5th button block (5), and slide past successively the 7th button block (7), the 3rd button block (3), the 6th button block (6), and the slip end position is when the 5th button block (5), described data storage element (102) the glide direction of corresponding pre-defined storage be: the upward sliding direction.

6. display device as claimed in claim 3, it is characterized in that, when the slip initial position for being positioned at the 5th button block (5), the 6th button block (6), the position on the 3rd button block (3) or the 7th button block (7) left side, and the slip end position is for being positioned at the 5th button block (5), the 6th button block (6), during the position on the 3rd button block (3) or the 7th button block (7) the right, the glide direction of these two position institute correspondence mappings of the pre-stored slip initial position of described data storage element (102) and slip end position is: glide direction to the right,

Perhaps, when the slip initial position is positioned at the first button block (1), and slide past successively the second button block (2), the 3rd button block (3), the 4th button block (4), and the slip end position is when the first button block (1), described data storage element (102) the glide direction of corresponding pre-defined storage be: glide direction to the right.

7. display device as claimed in claim 3, it is characterized in that, when the slip initial position for being positioned at the 5th button block (5), the 6th button block (6), position on the right of the 3rd button block (3) or the 7th button block (7), and the slip end position is for being positioned at the 5th button block (5), the 6th button block (6), during the position on the 3rd button block (3) or the 7th button block (7) left side, the glide direction of these two position institute correspondence mappings of the pre-stored slip initial position of described data storage element (102) and slip end position is: glide direction left,

Perhaps, when the slip initial position is positioned at the first button block (1), and slide past successively the 4th button block (4), the 3rd button block (3), the second button block (2), and the slip end position is when the first button block (1), described data storage element (102) the glide direction of corresponding pre-defined storage be: glide direction left.

8. display device as described in any one in claim 1 to 7, is characterized in that, described touch key-press input block (101) is the capacitance type touch key module;

Described data storage cell (102) is nonvolatile random access memory NVRAM;

Described glide direction analysis controlling unit (103) is central processor CPU, digital signal processor DSP or a single-chip microprocessor MCU.