With the touch-control template of electrostatic-proof function
Technical field
The utility model relates to touching display screen production technical field, relates in particular to a kind of touch-control template with electrostatic-proof function.
Background technology
Along with the extensive use of the electronic product such as smart mobile phone, panel computer and the development of touching display screen technology, touching display screen is applied on the electronic product such as smart mobile phone, panel computer, has become the trend of current electronic product development to realize human-computer interaction function. As shown in Figure 1, in the manufacturing process of touching display screen, for improving the production efficiency of touching display screen, in a touch-control template 10, manufacture the touch-control sensing circuit 20 of multiple touching display screens simultaneously, and after touch-control sensing circuit 20 completes, be divided into the touch-control sensing circuit 20 of single touching display screen by slicing mode. Understandably, process make the touch-control sensing circuit 20 of multiple touching display screens in touch-control template 10 time is through processes such as silk-screen production, transport, storage and transhipments, these processes all can produce a large amount of static, and a large amount of static of gathering exist the risk that punctures touch-control sensing circuit 20.
The following static removal equipment of available technology adopting is to remove the static of material surface: first ion blower, the effect of ion blower is to utilize air ionization to produce a large amount of positive and negative charges, and positive and negative charge is blown out with blower fan, form the air-flow of general positive and negative charge, by body surface with charging neutrality fall. When body surface band is during into negative electrical charge, it can attract the positive charge in air-flow, and when body surface band is during into positive charge, it can attract the negative electrical charge in air-flow, thereby the static on body surface is neutralized, and reaches the object of eliminating static. It two is ion wind rods, and ion wind rod can produce a large amount of air mass with positive and negative charge, can by the object through in its ionizing radiation district with charging neutrality fall. When body surface band is during into negative electrical charge, it can attract the positive charge in radiation area, and when body surface band is during into positive charge, it can attract the negative electrical charge in radiation area, thereby the static on body surface is neutralized, and reaches the object of eliminating static. It three is plate face cleaners, and plate face cleaner is to utilize electrostatic principle, and product is carried out to dustproof function, is entering before machine at material simultaneously, can be removed the static of material surface accumulation by two high efficiency high voltage electrostatic rod.
The static that above-mentioned static removal equipment all need exist material surface at certain specific work station is removed, and cannot dredge in time the static that is present in circuit surface. And in the time that touching display screen is manufactured, the processes such as the 10 silk-screen productions of touch-control template, transport, storage and transhipment, touch-control sensing circuit 20 on it all can produce static, if the static on touch-control sensing circuit 20 surfaces cannot be dredged in time, will cause touch-control sensing circuit 20 to have at any time breakdown risk.
Utility model content
The technical problems to be solved in the utility model is, static for the touch induction lines road surfaces of existing touch-control template cannot be dredged in time, to cause touch-control sensing circuit to have at any time breakdown risk, a kind of touch-control template with electrostatic-proof function of conduct static is in time provided.
The utility model solves the technical scheme that its technical problem adopts: a kind of touch-control template with electrostatic-proof function, comprise at least two touch-control sensing circuits, described in each, touch-control sensing circuit surrounding is provided with the antistatic circuit being electrically connected with described touch-control sensing circuit.
Preferably, described touch-control sensing circuit comprises emission layer circuit and receiving layer circuit; Described emission layer circuit comprises that ITO emission electrode drives passage with the elargol being connected with described ITO emission electrode; Described receiving layer circuit comprises ITO collecting electrode and the elargol induction channels being connected with described ITO collecting electrode.
Preferably, described antistatic circuit comprises two directions X conductor wires, two Y-direction conductor wires and some exits, described two directions X conductor wires and two rectangular settings of Y-direction conductor wire; Described some exits be arranged on one described on directions X conductor wire, and drive passage to be connected with described elargol induction channels with described elargol respectively.
Preferably, described directions X conductor wire, described Y-direction conductor wire and the even employing of described exit ITO material are made.
Preferably, between any two described touch-control sensing circuits, be provided with cutting area, described directions X conductor wire and described Y-direction conductor wire are arranged in described cutting area.
Preferably, described touch-control template also comprises that the static guiding being connected with described antistatic circuit goes out circuit.
Preferably, described static guiding goes out circuit and comprises and be arranged on the elargol conducting block of four jiaos of described touch-control templates and the elargol conductor wire being connected with described elargol conducting block, and described elargol conductor wire is connected with described antistatic circuit.
Preferably, between any two described touch-control sensing circuits, be provided with cutting area, described static guiding goes out circuit and is arranged in described cutting area.
The utility model compared with prior art tool has the following advantages: the touch-control template with electrostatic-proof function provided by the utility model, be provided with by each the touch-control sensing circuit surrounding in touch-control template the antistatic circuit being electrically connected with touch-control sensing circuit, can dredge in time a large amount of static that touch-control template produces in the processes such as silk-screen production, transport, storage and rotation, avoid the electrostatic breakdown touch-control sensing circuit of assembling, thereby ensure touching display screen production safety.
Brief description of the drawings
Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:
Fig. 1 is the structural representation of touch-control template in prior art.
Fig. 2 is the structural representation of the touch-control template with electrostatic-proof function in the utility model one embodiment.
Fig. 3 is the structural representation of anti-static circuit in Fig. 2.
Fig. 4 is the structural representation that in Fig. 2, static guiding goes out circuit.
In figure: 10, touch-control template; 20, touch-control sensing circuit; 30, antistatic circuit; 31, directions X conductor wire; 32, Y-direction conductor wire; 33, exit; 40, static guiding goes out circuit; 41, elargol conducting block; 42, elargol conductor wire; 50, cutting area.
Detailed description of the invention
Understand for technical characterictic of the present utility model, object and effect being had more clearly, now contrast accompanying drawing and describe detailed description of the invention of the present utility model in detail.
Fig. 2 illustrates the touch-control template 10 with electrostatic-proof function in the present embodiment. This touch-control template 10 with electrostatic-proof function comprises at least two touch-control sensing circuits 20, and touch-control sensing circuit 20 comprises emission layer circuit (not shown) and receiving layer circuit (not shown). Emission layer circuit comprises that ITO emission electrode drives passage with the elargol being connected with ITO emission electrode; Receiving layer circuit comprises ITO collecting electrode and the elargol induction channels being connected with ITO collecting electrode. Understandably, in each touch-control template 10, make at least two touch-control sensing circuits 20 simultaneously, and be provided with cutting area 50 between any two touch-control sensing circuits 20, after touch-control sensing circuit 20 completes, by the cutting area 50 in cutting touch-control template 10, to form single touch-control sensing circuit 20, drive passage and elargol induction channels to be tied in FPC (not shown) the elargol of single touch-control sensing circuit 20 again, integral plaster is incorporated in cover-plate glass (not shown) again, completes the making of whole touching display screen. Particularly, cutting area 50 includes but not limited to two regions between touch-control sensing circuit 20, also comprises the region except touch-control sensing circuit 20 in touch-control template 10.
As shown in Figures 2 and 3, each touch-control sensing circuit 20 surrounding is provided with the antistatic circuit 30 being electrically connected with touch-control sensing circuit 20. As shown in Figure 3, antistatic circuit 30 comprises two directions X conductor wires 31, two Y-direction conductor wires 32 and 33, two directions X conductor wires 31 of some exits and two rectangular settings of Y-direction conductor wire 32. Some exits 33 are arranged on a directions X conductor wire 31, and drive passage to be connected with elargol induction channels with elargol respectively. Understandably, antistatic circuit 30 drives passage to be connected with elargol induction channels by exit 33 with the elargol of touch-control sensing circuit 20, can dredge the static that touch-control sensing circuit 20 produces in manufacturing process, avoid focusing on a large amount of static on touch-control sensing circuit 20, thereby reduce ITO emission electrode and/or the breakdown risk of ITO collecting electrode.
Particularly, directions X conductor wire 31, Y-direction conductor wire 32 and the even employing of exit 33 ITO material are made. Understandably, can in making ITO emission electrode or ITO collecting electrode, make directions X conductor wire 31 and, Y-direction conductor wire 32 and exit 33, to save Production Time cost, enhance productivity.
Understandably, the directions X conductor wire 31 of antistatic circuit 30 and Y-direction conductor wire 32 are arranged in the cutting area 50 between any two touch-control sensing circuits 20, in the time that cutting forms single touch-control sensing circuit 20, this antistatic circuit 30 is excised, make it not affect touch-control sensing function and the outward appearance thereof of touching display screen.
As shown in Figure 2 and Figure 4, this touch-control template 10 with electrostatic-proof function also comprise be connected with antistatic circuit 30 go out circuit 40 for drawing the static guiding of static. As shown in Figure 4, static guiding goes out circuit 40 and comprises and be arranged on the elargol conducting block 41 of 10 4 jiaos of touch-control templates and the elargol conductor wire 42 being connected with elargol conducting block 41, and elargol conductor wire 42 is connected with antistatic circuit 30. In the production of touching display screen silk-screen, transportation, make conductor contact to elargol conducting block 41, on touch-control sensing circuit 20, produce and dredge to the static on antistatic circuit 30, flow to conductor and then draw by the elargol conductor wire 42 and the elargol conducting block 41 that are connected with antistatic circuit 30, thereby discharging the static that touch-control sensing circuit 20 surfaces exist.
Understandably, elargol conducting block 41 and elargol conductor wire 42 can drive passage to arrange with elargol induction channels or elargol are set simultaneously, to save Production Time, enhance productivity; Also can arrange in other times section.
Understandably, static guiding goes out in the cutting area 50 that circuit 40 whole installations form between multiple touch-control sensing circuits 20, in the time that single touch-control sensing circuit 20 is made in cutting, whole cutting area 50 is excised, make static guiding on it go out circuit 40 and excise thereupon, do not affect touch-control sensing function and the outward appearance thereof of touching display screen.
Touch-control template 10 with electrostatic-proof function provided by the utility model, by being provided with in each touch-control sensing circuit 20 surrounding of touch-control template 10 and the touch-control sensing circuit electricity 20 antistatic circuits 30 that are connected, dredge in time a large amount of static that touch-control template 10 produces in the processes such as silk-screen production, transport, storage and rotation, avoid the electrostatic breakdown touch-control sensing circuit 20 of assembling, thereby ensure touching display screen production safety. And go out circuit 40 by the static derivation of dredging on antistatic circuit 30 by the static guiding being connected with antistatic circuit 30, thus discharge the static on touch-control sensing circuit 20, to ensure line security.
The utility model describes by above-mentioned specific embodiment, it will be appreciated by those skilled in the art that, in the situation that not departing from the utility model scope, can also carry out various conversion and be equal to alternative the utility model. In addition, for particular condition or concrete condition, can make various amendments to the utility model, and not depart from scope of the present utility model. Therefore, the utility model is not limited to disclosed specific embodiment, and should comprise the whole embodiments that fall within the scope of the utility model claim.