CN204009821U - Sliding belt intelligent apparatus - Google Patents

Abstract

The utility model is a kind of sliding belt intelligent apparatus, comprises a body, a display module, an endless belt and at least one sliding belt touch-control sensing structure.Display module is arranged on body, and display module comprises a display unit and a processing unit.Processing unit couples display unit.Endless belt is arranged on the side of display module.Sliding belt touch-control sensing structure is arranged on endless belt, and couples processing unit, at least one trigger event of sliding belt touch-control sensing structure sensing.See through the both sides that the endless belt with touching input function are arranged on to display unit, allow user when operation, can not block the shown picture of display unit or object.

Description

Sliding belt intelligent apparatus

[technical field]

The utility model relates to a kind of sliding belt intelligent apparatus, particularly a kind of sliding belt intelligent apparatus that is used in wearing.

[background technology]

Along with science and technology is constantly progressive, the various massaging devices with communication function are constantly weeded out the old and bring forth the new, handheld communications devices such as mobile phone, flat computer, ultra-thin notebook computer and satellite navigation.At present, due to scientific and technological progress, make the direction sustainable development that processor is little toward volume, usefulness is strong, also, because of so, the Wearable device that some volumes are less compared with other communicators is also developed toward the intelligent apparatus with communication function and other functions.

Specifically, existing intelligent watch or the appearance of the product of intelligent bracelet at present.With intelligent watch, compared to traditional wrist-watch, intelligent watch is except displaying time, have more locating module and transport module, can record the position of intelligent watch, and communicate to connect with other electronic installations, to obtain the user's who dresses intelligent watch activation record.Same, also there is the device that locating module and transport module is installed in to bracelet at present, be generally referred to as intelligent bracelet.

Yet, no matter be intelligent bracelet or intelligent watch, because its volume is little, and cause the region of demonstration information limited, therefore most intelligent bracelet or intelligent watch only possess Presentation Function, and do not have an input function.Although there is at present the intelligent watch of part can see through the display panel of installing touch, allow user can be directly on display panel directly with the mode operative intelligence wrist-watch of touching, but because the viewing area of intelligent watch is narrow and small, finger while easily being operated by user covers sight line, and the situation of generation false touch, and long-term touches operation at display panel, easily cause especially the phenomenon of scratching panel to occur.And the input function of current intelligent bracelet is to see through physical button mostly, although physical button can reduce the situation of false touch, but physical button need additionally be arranged on the surface of intelligent bracelet or intelligent watch, and reduces intelligent bracelet or intelligent watch globality in appearance.

In addition, the transparent touch sensed layer that the display panel of touch also often need to import terres rares is indium tin oxide (ITO) for example, just can make panel maintain transparent demonstration usefulness, but be limited to rare earth metal indium ore deposit, increasingly exhausts, makes cost promotion; Moreover itself electric conductivity is also poor than metal, makes the sensitvity constraint of the detecting of touch-control, and as contact panel, be unfavorable for the Sustainable Development that earth resources is ecological and energy-conservation with the transparent touch sensed layer of terres rares; And indium tin oxide (ITO) transparent touch sensed layer is done also can reduce display panel penetration on display panel; Even if do not use indium tin oxide (ITO) to use the visuality that metallic mesh also can metallic speckle pattern interferometry affects display panel instead, relatively make the efficiency of manual mode operation and convenience reduce yet yet.

[utility model content]

The purpose of this utility model is to provide a kind of sliding belt intelligent apparatus, and be to see through the both sides that the endless belt with touching input function are arranged on to display unit, allow user when operation, can not block the shown picture of display unit or object, to avoid the situation of false touch, simultaneously can avoid the situation of scratch, and maintain the globality of the sliding belt intelligent apparatus outward appearance that is used in wearing and attractive in appearance.In addition, the endless belt of touching input is arranged on to the both sides of display unit, does not need to use the display panel of touch, therefore also do not need to import the transparent touch sensed layer of terres rares, can reduce manufacturing cost; Also not having the metallic speckle pattern interferometry of plain conductor affects the visuality of display panel, makes the efficiency of manual mode operation and the problem that convenience also reduces.

For reaching above-mentioned purpose, a kind of sliding belt intelligent apparatus of the present utility model comprises a body, a display module, an endless belt and at least one sliding belt touch-control sensing structure.Display module is arranged on body, and display module comprises a display unit and a processing unit.Processing unit couples display unit.Endless belt is arranged on the side of display module.Sliding belt touch-control sensing structure is arranged on endless belt, and couples processing unit, at least one trigger event of sliding belt touch-control sensing structure sensing.

In one embodiment, sliding belt intelligent apparatus comprises two sliding belt touch-control sensing structures, and two sliding belt touch-control sensing structures are separately positioned on endless belt corresponding to the relative both sides of display unit.

In one embodiment, sliding belt intelligent apparatus also comprises at least one functional unit, be arranged on body or endless belt, and couple with processing unit, functional unit comprise wireless transmission unit, wireless communication unit, wireless charging unit at least one of them.

In one embodiment, wireless transmission unit comprise infrared module, bluetooth module, purple honeybee (ZigBee) module, radio frequency (RF) module, near-field communication (near field communication, NFC) module at least one of them.

In one embodiment, wireless communication unit has a wireless communication chips and an antenna, and wireless communication chips and processing unit are electrically connected, and antenna is arranged on body or sliding belt touch-control sensing structure.

In one embodiment, functional unit can synchronized transmissions one wireless signal and the wireless charging energy receiving from a wireless charging device.

In one embodiment, wireless charging energy is from radio base station, display, TV or monitor.

In one embodiment, display module comprises liquid crystal indicator, light emitting display device, organic LED display device or Electronic Paper.

In one embodiment, sliding belt touch-control sensing structure comprises one drive circuit and a sensing circuit, and driving circuit is arranged on the inside of endless belt, and sensing circuit is arranged on the outside surface of endless belt.

In one embodiment, part sensing circuit forms a protuberance at the outside surface of endless belt, and endless belt more comprises a protective seam, and protective seam covers protuberance.

From the above, at sliding belt intelligent apparatus of the present utility model, due to the sliding belt touch-control sensing structure that can carry out touch control operation for user, be arranged on the endless belt of at least one side of display module, therefore finger can not obstruct the view, can not block the shown picture of display module or object, therefore can reduce the phenomenon of false touch, occur yet.In addition, due to the sliding belt intelligent apparatus of operation on endless belt, the panel that therefore also can reduce display unit suffers the situation of scratch.In addition, owing to carrying out the element of touch control operation, be also sliding belt touch-control sensing structure, can replace traditional physical button, globality in appearance of sliding belt intelligent apparatus and attractive in appearance can be maintained, and high-quality can be realized and fine user experiences.

In addition, the sliding belt touch-control sensing structure of touching input is arranged on to endless belt, without the display panel that uses touch, therefore also without the transparent touch sensed layer that imports terres rares, also can reduce cost of manufacture; Also not having the metallic speckle pattern interferometry of plain conductor affects the visuality of display panel, makes the efficiency of manual mode operation and the problem that convenience also reduces.

[accompanying drawing explanation]

Figure 1A is a kind of schematic diagram of sliding belt intelligent apparatus of the utility model one embodiment.

Figure 1B is a kind of schematic diagram of sliding belt intelligent apparatus of another embodiment of the utility model.

Fig. 2 is the block schematic diagram of the display module shown in Figure 1B and sliding belt touch-control sensing structure.

Fig. 3 is the operation chart of the sliding belt intelligent apparatus shown in Figure 1B.

Fig. 4 A and Fig. 4 B are the operation charts of the sliding belt intelligent apparatus shown in Figure 1B.

Fig. 5 is the operation chart of the sliding belt intelligent apparatus shown in Figure 1B.

Fig. 6 is a kind of schematic diagram of sliding belt intelligent apparatus of another embodiment of the utility model.

Fig. 7 is a kind of schematic diagram of sliding belt intelligent apparatus of the another embodiment of the utility model.

[embodiment]

Below with reference to relevant drawings, the sliding belt intelligent apparatus according to the utility model preferred embodiment is described, wherein identical assembly is illustrated the reference symbol with identical.

The sliding belt intelligent apparatus of the present embodiment is to be applied in the device that user can directly dress, such as intelligent bracelet or intelligent watch etc.Certainly, the sliding belt intelligent apparatus of the present embodiment can certainly be detachable object wearing device, for example, in the mode of necklace, dress, and the utility model does not limit.Therefore, the sliding belt intelligent apparatus of the present embodiment also refers to be applied in the small-sized Wearable electronic installation with Presentation Function and input function.And " sliding belt " intelligent apparatus of the present embodiment refers to have endless belt, such as the watchband of wrist-watch and the endless belt of bracelet etc., and can on endless belt, carry out touch-control input.Then, the sliding belt intelligent apparatus of following examples is to take intelligent watch to explain as example.

Please refer to shown in Figure 1A, Figure 1A is a kind of schematic diagram of sliding belt intelligent apparatus 1 of the utility model one embodiment, and the sliding belt intelligent apparatus 1 of the present embodiment is to take intelligent watch as example.In addition, the element of the sliding belt intelligent apparatus 1 of the present embodiment can by one or more signals process and/or the combination of hardware, software or the firmware of integrated circuit in realize.

The sliding belt intelligent apparatus 1 of the present embodiment comprises a body 11, a display module 12, an endless belt 13 and at least one sliding belt touch-control sensing structure 14.Wherein, display module 12 and endless belt 13 are arranged on body 11, and body 11 and the common composition of endless belt 13 can be for the parts of user's wearing, specifically, at the endless belt 13 of the present embodiment, are the watchbands of intelligent watch.And can be also the part of endless belt or the necklace refining bar of intelligent bracelet in other embodiments, the utility model does not limit.And preferably, the length essence of endless belt 13 equals that hand encloses or bottoms, dresses for user, and in addition, endless belt 13 can be also adjustable, with the hand according to different user, enclose or bottoms is adjusted.The endless belt 13 of the present embodiment is arranged on the side of display module 12, and sliding belt touch-control sensing structure 14 is arranged on endless belt 13, forms sliding belt touch-control sensing structure 14 and is arranged on the wherein aspect of a side of display module 12.

Figure 1B is a kind of schematic diagram of sliding belt intelligent apparatus of another embodiment of the utility model, and the sliding belt intelligent apparatus 1 of the present embodiment has two sliding belt touch-control sensing structure 14a, 14b, following examples are to take the sliding belt intelligent apparatus 1 (as shown in Figure 1B) of two sliding belt touch-control sensing structure 14a, 14b to explain as example.

Fig. 2 is the block schematic diagram of the display module shown in Figure 1B and sliding belt touch-control sensing structure, as shown in Figure 2, wherein, display module 12 comprises a display unit 121 and a processing unit 122, and processing unit 122 couples display unit 121, the information and the picture that to control display unit 121, are presented, and sliding belt touch-control sensing structure 14 (14a, 14b) couple processing unit 122, the signal that processing unit 122 produces in the time of can receiving the touched input of sliding belt touch-control sensing structure 14 (14a, 14b), and produce corresponding operational order, after its start is described in detail in.In the present embodiment, display unit 121 is except can showing general time picture, graphic user interface (graphical user interface also can be provided, GUI) give user, and graphic user interface can have one or more figures, in for example, mode with figure (icon icon) on display unit 121, present various known software parts.Wherein, display unit 121 can be for example liquid crystal indicator, light emitting display device, organic LED display device or Electronic Paper (electrophoretic display apparatus), at this, is not limited.Preferably, the display unit 121 of the present embodiment can be semi-penetrating inverse LCD device, it is exactly the liquid crystal indicator (Transreflective LCD) of semi-penetrating trans, its advantage is under sunshine or other high lights, display unit 121 still maintains its sunlight visual (sunlight readability), and the namely display frame of display unit 121 under high light is still clear.And when bright and clear, also can utilize the light reflection illumination of sliding belt intelligent apparatus 1 periphery, reach the effect of power saving.

As shown in Figure 1A, sliding belt touch-control sensing structure 14 can be arranged on a side of display unit 121, preferably, as shown in Figure 1B, the sliding belt intelligent apparatus 1 of the present embodiment can comprise two sliding belt touch-control sensing structure 14a, 14b, and sliding belt touch-control sensing structure 14a, 14b are separately positioned on endless belt 13 corresponding to the relative both sides of display unit 121.Specifically, sliding belt touch-control sensing structure 14a, the 14b of the present embodiment are the upper and lower both sides that are separately positioned on display unit 121, in other embodiments, sliding belt touch-control sensing structure 14a, 14b also can be separately positioned on the lateral margin 131 of endless belt 13, to form sliding belt touch-control sensing structure 14a, 14b, be arranged on the aspect of the arranged on left and right sides of display unit 121, certainly, also can be distributed in the upper and lower, left and right side of display unit 121 simultaneously, to increase the area of user's executable operations, the utility model does not limit.

Preferably, sliding belt touch-control sensing structure 14a, the 14b of the present embodiment are capacitive touch sensing structures, for example, when having conductor (user's finger) touching at sliding belt touch-control sensing structure 14a, 14b, to there is capacitance variations in sliding belt touch-control sensing structure 14a, the 14b of contact position, and can produce corresponding signal.In addition, see through and to be arranged on the sliding belt touch-control sensing structure 14a of display unit 121 relative both sides, the benefit that 14b can provide user to input in the mode of touch-control is, sliding belt touch-control sensing structure 14a, 14b must not coordinate the demonstration usefulness of display unit 121 and adopt transparent touch-control sensing material (for example ITO), so in the selection of material, have elasticity and cost more easy to control.In addition, sliding belt touch-control sensing structure 14a, 14b can comprise driving circuit and sensing circuit (Tx, the Rx of those skilled in the art's common name, figure does not show), and can being conductive layer, its material (certainly also can use transparency conducting layer, for example indium tin oxide, indium-zinc oxide, fluorine doped tin oxide, Al-Doped ZnO or gallium-doped zinc oxide) or how rice metal line layer or Graphene (graphene) or metallic mesh (metal mesh), the utility model does not limit.

Preferably, driving circuit is arranged on the inside of endless belt 13, and sensing circuit is arranged on the outside surface of endless belt 13; and part sensing circuit forms a protuberance at the outside surface of endless belt 13; and endless belt 13 more can comprise a protective seam, to cover protuberance, and then protection sensing circuit.And user can see through touching protuberance, and learn the setting position of sliding belt touch-control sensing structure 14a, 14b.In other words, can see through the sensing circuit of protuberance, to reach the effect of the position of the sliding belt touch-control sensing of indication structure 14a, 14b.In other embodiments, more protuberance can be designed to there is given shape, such as arrow etc., also can be used for indicating user and carry out touch control operation.

Please arrange in pairs or groups shown in Fig. 2, sliding belt intelligent apparatus 1 also can comprise mnemon 15, Storage Media as sliding belt intelligent apparatus 1, and can be the internal memory of sliding belt intelligent apparatus 1 inside, or the internal memory (for example high in the clouds internal memory) of sliding belt intelligent apparatus 1 outside, the utility model does not limit.Wherein, mnemon 15 also can store operation system, the electronic data of application program, data processor and various archive files (document) etc.Wherein, operating system is the program of supervisory computer hardware and software resource, and application program can be for example copy editor's program or e-mail program, or other programs.In the present embodiment, mnemon 15 couples with processing unit 122, and it be example that processing unit 122 be take CPU (central processing unit) (Central ProcessingUnit, CPU), and by processing unit 122 these programs of execution.

Sliding belt touch-control sensing structure 14a, 14b couple processing unit 122, can allow user for example with finger, on sliding belt touch-control sensing structure 14a, 14b, carry out touch control operation, and display unit 121 can show according to the attitude (or being called gesture) of user operation corresponding operation indication, and produce interactive with the graphic user interface being presented on display unit 121.For instance, when user's finger slides on sliding belt touch-control sensing structure 14a, 14b, display unit 121 also has corresponding cursor (for example shape of arrow or hand) and then to slide at correspondence position, as shown in Figure 3, Fig. 3 is the operation chart of the sliding belt intelligent apparatus shown in Figure 1B.In addition, producing interaction with graphic user interface can be for example that user sees through finger mode with touch-control on sliding belt touch-control sensing structure 14a, 14b and clicks, amplifies or movement, after being described in detail in.For instance, when user's finger raps on sliding belt touch-control sensing structure 14a, 14b, display unit 121 will be carried out the object of correspondence position information, and can see through, on sliding belt touch-control sensing structure 14a, 14b, directly control, carry out the shown object of display unit 121, therefore can realize the object without gear touch-control.Alleged " touch-control " can comprise operating gesture or operating attitude, for example rap or rap many under, slip once or many lower slips (for example by left-to-right slip, by the right side to left slip, slide up or down) or how finger is pointed sequentially knocks, refers to slide etc. together more.

Specifically, each touch action can make sliding belt touch-control sensing structure 14a, at least one trigger event of 14b sensing, and the signal that trigger event is caused is sent to processing unit 122, make processing unit 122 analyze, process start corresponding to rear generation, for example carry out an operational order.The processing unit 122 of the present embodiment can consist of single process chip or a plurality of process chip, except controlling the shown content of display unit 121, also can analyze the trigger event of sliding belt touch-control sensing structure 14a, 14b institute sensing simultaneously.Trigger event comprises number of bursts, number of bursts distribution, number of bursts pattern, triggered time or trigger rate, and can when sliding belt intelligent apparatus 1 dispatches from the factory, set the corresponding operational order of various trigger events, also can according to different use habit editors, be formed by user.

Processing unit 122 can be according to triggered time of trigger event, trigger track or trigger rate and executable operations instruction, and the triggered time be user's finger touches in the time span of sliding belt touch-control sensing structure 14a, 14b, for example can set short by (triggered time is short) be select operation and long by (triggered time is long), be to confirm operation.Trigger the trajectory path that track refers to touch action, also can carry out corresponding operational order by basis of design trajectory path.Trigger rate refers to the frequency that in the short time, touch action occurs, and refers to the frequency that user knocks on sliding belt touch-control sensing structure 14a, 14b, can set the specific corresponding operational order of frequency that knocks.With each embodiment, illustrate below.

In one embodiment, can set and occur in sliding belt touch-control sensing structure 14 as shown in Figure 1A when trigger event, and the time (triggered time) of touching is more than or equal to the predefined schedule time, for example 5 seconds, processing unit 122 can the corresponding operational order of carrying out start.In other embodiments, also can set and occur in sliding belt touch-control sensing structure 14a as shown in Figure 1B and sliding belt touch-control sensing structure 14b when trigger event simultaneously, namely touch position at sliding belt touch-control sensing structure 14a, the 14b of display unit 121 both sides simultaneously, and the triggered time is more than or equal to the predefined schedule time (as 5 seconds), now, processing unit 122 is carried out the operational order of start.Therefore, can save the setting of entity starting key.

Following examples are with as shown in Figure 1B, and the sliding belt intelligent apparatus 1 with two sliding belt touch-control sensing structure 14a, 14b explains for example.In one embodiment, also can set and occur in sliding belt touch-control sensing structure 14a or sliding belt touch-control sensing structure 14b when trigger event, and the triggered time is more than or equal to the predefined schedule time, this schedule time and previous embodiment can identical (5 seconds), also can not identical (for example 1 second), processing unit 122 is carried out the operational order that amplifies or reduce volume.For instance, please refer to shown in Figure 1B, when user's touching is when sliding belt touch-control sensing structure 14a continues 1 second, processing unit 122 is carried out the operational order of amplification of volume, when user's touching is when sliding belt touch-control sensing structure 14b continues 1 second, processing unit 122 is carried out the operational order that reduces volume.

In another embodiment, the operational order of amplification or reduction volume can change setting be also the operational order of quickening or the broadcasting speed that slows down.In other words, when user's touching is when sliding belt touch-control sensing structure 14a continues 1 second, accelerate broadcasting speed, when user's touching is when sliding belt touch-control sensing structure 14b continues 1 second, the broadcasting speed that slows down, other detail content can be with reference to aforementioned.

Fig. 4 A and Fig. 4 B are the operation charts of the sliding belt intelligent apparatus shown in Figure 1B, in one embodiment, also can set and occur in sliding belt touch-control sensing structure 14a or sliding belt touch-control sensing structure 14b when trigger event, and triggering track is single direction, when namely the trajectory path of touching is in fact straight line and single direction, user as shown in Figure 4 A carries out sliding action from right to left at sliding belt touch-control sensing structure 14a, processing unit 122 can the corresponding operational order of carrying out one dimension screen scrolling, to be switched to next picture.Preferably, the direction of one dimension screen scrolling is identical with the direction that triggers track, as " mail 21 " shown in Fig. 4 B, is just to slide onto whole display frame from display unit 121 right sides.Certainly, when this mode of operation also can be applicable to browser document or webpage, the utility model does not limit.

Fig. 5 is the operation chart of the sliding belt intelligent apparatus shown in Figure 1B, please refer to shown in Fig. 5.In one embodiment, can set and occur in sliding belt touch-control sensing structure 14a and sliding belt touch-control sensing structure 14b when trigger event simultaneously, and the triggering track that occurs in sliding belt touch-control sensing structure 14a and sliding belt touch-control sensing structure 14b mutually away from, processing unit 122 is carried out the operational order (ask comparison diagram 4A and Fig. 5 simultaneously, Fig. 5 is the schematic diagram after the shown picture of Fig. 4 A amplifies) of screen magnifying.Certainly, if it is mutually close to trigger track, processing unit 122 is carried out the operational order that screen dwindles.

In one embodiment, when trigger event occurs in sliding belt touch-control sensing structure 14a and sliding belt touch-control sensing structure 14b simultaneously, and one of them triggers track and does not move, for example the trigger event at sliding belt touch-control sensing structure 14a is to continue not move, and another triggering track is single direction, the slippage of for example turning left from the right side, processing unit 122 can be carried out the operational order of screen 90 degree rotations, and the direction of screen 90 degree rotations is identical with the direction of this triggering track.In the present embodiment, screen right-to-left 90 degree rotations (figure does not show).

In one embodiment, the trigger rate of trigger event meets a unlocking condition, namely, when user is when the frequency of sliding belt touch-control sensing structure 14a or sliding belt touch-control sensing structure 14b click meets a unlocking condition, processing unit 122 can the corresponding operational order of carrying out release.In other words, the click action that user can set characteristic frequency is voluntarily unlocking condition, when processing unit 122 receives the trigger event conforming to unlocking condition, just can carry out the operational order of release, to reach the effects such as protection privacy and security.In addition, because sliding belt touch-control sensing structure 14a, 14b are separately positioned on the relative both sides of display unit 121, therefore touch while inputting as user, its finger can not cover the display frame of display unit 121.

In other embodiments, also can finger print identification unit (figure does not show) be set at body 11, also can see through the mode of identification of fingerprint, reach the object of release.Finger print identification unit and processing unit 122 is electrically connected, and fingerprint that can at least one finger of identification.Therefore, user can be stored in its fingerprint in mnemon 15 in advance, while wanting release, finger can be touched and for example slide the specific region on belt touch-control sensing structure 14a, 14b, and processing unit 122 can be compared the fingerprint in specific region and the fingerprint storing in advance, if meet, sliding belt intelligent apparatus 1 can be unlocked, and accepts user's operational motion.If do not meet, processing unit 122 judges that this user is unallowed user, therefore user cannot operate.

Please refer to shown in Figure 1B, preferably, wherein one end of endless belt 13 has a signaling interface 132, and signaling interface 132 couples with processing unit 122, for power delivery and/or data transmission, make the stored information of sliding belt intelligent apparatus 1, can be sent to other electronic installations.And in other embodiments, also can carry out wirelessly wireless charging or wirelessly transmitting data etc., the utility model does not limit.

Fig. 6 is a kind of schematic diagram of sliding belt intelligent apparatus 2 of another embodiment of the utility model, please refer to shown in Fig. 6.In one embodiment, sliding belt intelligent apparatus 2 also can comprise at least one functional unit, be arranged on body 21 or endless belt 23, the functional unit system of the present embodiment is arranged on endless belt 23, and couple with processing unit 222, functional unit comprise wireless transmission unit 26, wireless communication unit 27, wireless charging unit 28 at least one of them.Wherein, wireless transmission unit 26 can be infrared module, bluetooth module, purple honeybee (ZigBee) module, radio-frequency module or near-field communication module, and the wireless transmission unit 26 of the present embodiment is to take near-field communication module as example.Near-field communication module has a near-field communication chip and an antenna.Wherein, near-field communication chip and processing unit 222 couple, and antenna can be arranged on sliding belt touch-control sensing structure 24a and/or sliding belt touch-control sensing structure 24b, and the utility model does not limit.When user wants to carry out near-field communication (NFC) with another electronic installation, sliding belt intelligent apparatus 2 can be had to the electronic installation of near field communication (NFC) function near another, to see through antenna and near-field communication chip and another electronic installation, carry out the transmission of electronic data.And wireless communication unit 27 is roughly the same with the structure of wireless transmission unit 26, there is equally wireless communication chips and antenna, and wireless communication chips and processing unit 222 couple, and antenna also can be arranged on sliding belt touch-control sensing structure 24a and/or sliding belt touch-control sensing structure 24b.And wireless transmission unit 26 is to be used in to transmit with the short-range data of other electronic installations, wireless communication unit 27 is to carry out data transmission through telecommunications or network signal.

And wireless charging unit 28 can be charging circuit, and be arranged on body 21, reach the object of wireless charging, in other embodiments, wireless charging unit 28 also can be arranged on sliding belt touch-control sensing structure 24a, 24b.Specifically, if sliding belt touch-control sensing structure 24a, 24b are used metallic mesh or when how rice metal wire or Graphene are for material, can further utilize driving circuit and the sensing circuit of sliding belt touch-control sensing structure 24a, 24b to carry out the transmission of wireless power, for example wireless charging.

In other embodiments, the combination of functional unit, for example wireless transmission unit 26 and wireless communication unit 27, can synchronized transmissions one wireless signal and the wireless charging energy receiving from a wireless charging device, and wireless charging energy can be from radio base station, display, TV or monitor etc., to reach the effect of wireless charging.

In addition, the utility model does not limit the set-up mode of display module, and in other embodiments, display module 32 can be also dismountable body 31 that is arranged on, as shown in Figure 7, Fig. 7 is a kind of schematic diagram of sliding belt intelligent apparatus 3 of the another embodiment of the utility model.In the present embodiment, body 31 also has a groove 311, and display module 32 can be contained in groove 311.

In sum, at sliding belt intelligent apparatus of the present utility model, due to the sliding belt touch-control sensing structure that can carry out touch control operation for user, be arranged on the endless belt of at least one side of display module, therefore finger can not obstruct the view, can not block the shown picture of display module or object, therefore can reduce the phenomenon of false touch, occur yet.In addition, due to the sliding belt intelligent apparatus of operation on endless belt, the panel that therefore also can reduce display unit suffers the situation of scratch.In addition, owing to carrying out the element of touch control operation, be also sliding belt touch-control sensing structure, can replace traditional physical button, globality in appearance of sliding belt intelligent apparatus and attractive in appearance can be maintained, and high-quality can be realized and fine user experiences.

In addition, the sliding belt touch-control sensing structure of touching input is arranged on to endless belt, without the display panel that uses touch, therefore also without the transparent touch sensed layer that imports terres rares, also can reduce cost of manufacture; Also not having the metallic speckle pattern interferometry of plain conductor affects the visuality of display panel, makes the efficiency of manual mode operation and the problem that convenience also reduces.

The above is only illustrative, rather than restrictive.Anyly do not depart from spirit and scope of the present utility model, and the equivalent modifications that it is carried out or change all should comprise in the appended claims.

Claims (10)

1. slide a belt intelligent apparatus, it is characterized in that, comprising:

One body;

One display module, is arranged on described body, and display module comprises:

One display unit; And

One processing unit, couples described display unit;

One endless belt, is arranged on the side of described display module; And

At least one sliding belt touch-control sensing structure, is arranged on described endless belt, and couples described processing unit, at least one trigger event of described sliding belt touch-control sensing structure sensing.

2. sliding belt intelligent apparatus as claimed in claim 1, is characterized in that, it comprises two sliding belt touch-control sensing structures, and described two sliding belt touch-control sensing structures are separately positioned on described endless belt corresponding to the relative both sides of described display unit.

3. sliding belt intelligent apparatus as claimed in claim 1, is characterized in that, also comprises:

At least one functional unit, is arranged on described body or described endless belt, and couples with described processing unit, described functional unit comprise wireless transmission unit, wireless communication unit, wireless charging unit at least one of them.

4. sliding belt intelligent apparatus as claimed in claim 3, is characterized in that, described wireless transmission unit comprise infrared module, bluetooth module, zifeng modular, radio-frequency module, near-field communication module at least one of them.

5. sliding belt intelligent apparatus as claimed in claim 3, it is characterized in that, described wireless communication unit has a wireless communication chips and an antenna, and described wireless communication chips and described processing unit are electrically connected, and described antenna is arranged on described body or described sliding belt touch-control sensing structure.

6. sliding belt intelligent apparatus as claimed in claim 3, is characterized in that, described functional unit synchronized transmissions one wireless signal and the wireless charging energy receiving from a wireless charging device.

7. sliding belt intelligent apparatus as claimed in claim 6, is characterized in that, described wireless charging energy is from radio base station, display, TV or monitor.

8. sliding belt intelligent apparatus as claimed in claim 1, is characterized in that, described display module comprises liquid crystal indicator, light emitting display device, organic LED display device or Electronic Paper.

9. sliding belt intelligent apparatus as claimed in claim 1, it is characterized in that, described sliding belt touch-control sensing structure comprises one drive circuit and a sensing circuit, and described driving circuit is arranged on the inside of described endless belt, and described sensing circuit is arranged on the outside surface of described endless belt.

10. sliding belt intelligent apparatus as claimed in claim 9, is characterized in that, the described sensing circuit of part forms a protuberance at the outside surface of described endless belt, and described endless belt also comprises a protective seam, and described protective seam covers described protuberance.