CN203909757U - Glass substrate based on hidden ink and touch input device - Google Patents

Abstract

The utility model discloses a glass substrate based on hidden ink and a touch input device. The touch input device comprises the glass substrate based on the hidden ink, and the glass substrate based on the hidden ink comprises a fingerprint resistant film, a glass cover plate, a hidden ink layer, a position sensor, a backlight source and a packaging shell. The fingerprint resistant film is placed on the outmost layer, the glass cover plate is arranged on the inner side of the fingerprint resistant film, and the hidden ink layer is arranged on the inner side of the glass cover plate and is provided with an ink screen printing structure with a keyboard pattern. The position sensor is arranged on the inner side of the hidden ink layer or is directly arranged on the inner face of the glass cover plate. The back light source is placed on the inner side of the position sensor. The packaging shell is used for packaging the fingerprint resistant layer, the glass cover plate, the hidden ink layer, the position sensor and the backlight source. According to the glass substrate based on the hidden ink and the touch input device, the glass substrate based on the hidden ink is processed through the hidden ink layer, a keyboard and a mouse disk are combined, the product size is reduced, the display mode does not need an LCM for being matched, and product cost is lowered.

Description

A kind of glass substrate and touch-control input equipment based on concealed ink

Technical field

The utility model relates to touch-control input equipment, especially relevant with the structure of the glass substrate based on concealed ink in touch-control input equipment.

Background technology

Keyboard and mouse disk are conventional electronic input apparatus, and existing keyboard and mouse disk input function are more single, and keyboard and all settings separately of mouse disk, and in addition, existing keyboard and mouse disk equipment volume are larger, out-of-shape, and packaging is carried inconvenience.

Utility model content

For problems of the prior art, the utility model provides a kind of and utilizes that concealed ink method integrated keypad and mouse disk are little in the volume of one, the glass substrate of regular shape, and has the touch-control input equipment of this glass substrate.

For achieving the above object, the utility model provides following technical scheme:

Based on a glass substrate for concealed ink, comprising:

Anti-fingerprint film, described anti-fingerprint film is positioned at outermost layer;

Glass cover-plate, described glass cover-plate is located at the inner side of described anti-fingerprint film;

Concealed ink layer, described concealed ink layer is located at the inner side of described glass cover-plate, and has the ink silk screen printing structure of keyboard pattern;

Position transducer, described position transducer is located at described concealed ink layer inner side or is directly located on the inner face of described glass cover-plate;

Backlight, described backlight is located at the inner side of described position transducer;

Encapsulating shell, the described anti-fingerprint film of described encapsulating shell encapsulation, glass cover-plate, concealed ink layer, position transducer and backlight.

Further, described concealed ink layer is concealed White thumbpads ink silk screen printing structure, comprising:

White one deck, described white one deck is the white ink of whole, is located at the inner side of described glass cover-plate;

White two layers, described white two layers is the white ink of hollow type keyboard pattern, is located at the inner side of described white one deck;

Black three layers, described black three layers is the black ink that covers end hollow type keyboard pattern, is located at the inner side of described white two layers.

Further, the thickness of described white one deck is 4-6 micron.

Further, described concealed ink layer is concealed Black thumbpads ink silk screen printing structure, comprising:

Black one deck, described black one deck is the black ink of whole, is located at the inner side of described glass cover-plate;

Black two layers, described black two layers is the black ink of hollow type keyboard pattern, is located at the inner side of described black one deck.

Further, the thickness of described black one deck is 4-6 micron.

Further, described concealed ink layer is concealed colored keyboard ink silk screen printing structure.

Further, also comprise hummer or electromagnetic shaker, described hummer or electromagnetic shaker are electrically connected described position transducer.

Further, described encapsulating shell bottom is provided with solar cell, and described solar cell is described glass substrate equipment power supply.

Further, described position transducer is produced on a slice film.

Further, described position transducer is plated on the inner face of described glass cover-plate.

Further, described position transducer is electric capacity Sensor.

For achieving the above object, the utility model also provides following technical scheme:

A kind of touch-control input equipment, includes the glass substrate based on concealed ink as above.

In glass substrate based on concealed ink of the present utility model, include concealed ink layer, through the processing of concealed ink layer, keyboard and mouse disk unite two into one, dwindle small product size, do not occupied user's excessive space, simultaneously, display mode coordinates without LCM, reduces cost of products; And concealed ink layer can be designed to different colours, thereby have advantages of colorful; Finally, taking glass cover-plate and anti-fingerprint film as operation interface, waterproof and dustproof, easily wiping.

Brief description of the drawings

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Fig. 1 is the glass substrate one example structure schematic diagram of the utility model based on concealed ink;

Fig. 2 is another example structure schematic diagram of the glass substrate of the utility model based on concealed ink;

Fig. 3 is an example structure schematic diagram of concealed ink layer in the glass substrate of the utility model based on concealed ink;

Fig. 4 is another example structure schematic diagram of concealed ink layer in the glass substrate of the utility model based on concealed ink;

Fig. 5 is the structural representation of hollow type keyboard in the glass substrate of the utility model based on concealed ink.

Embodiment

The exemplary embodiments that embodies the utility model feature & benefits will describe in detail in the following description.Be understood that the utility model can have various variations on different embodiment, it neither departs from scope of the present utility model, and explanation wherein and accompanying drawing be when the use that explain in itself, but not in order to limit the utility model.

Touch-control input equipment of the present utility model is different from existing touch-control input equipment and is to have the glass substrate based on concealed ink of the present utility model.As depicted in figs. 1 and 2, the glass substrate based on concealed ink of the present utility model comprises anti-fingerprint film 1, glass cover-plate 2, concealed ink layer 3, position transducer 4, backlight 5 and encapsulating shell 6.

Anti-fingerprint film 1 is for example AF/SiO2 layer, is positioned at outermost layer, convenient operation.Glass cover-plate 2 is located at the inner side of anti-fingerprint film 1, and the material of cover plate is the one in the materials such as tempered glass, sapphire glass, PMMA (polymethylmethacrylate).Concealed ink layer 3 has keyboard ink silk screen printing structure, is located at the inner side of glass cover-plate 2, and it will launch explanation being below combined Fig. 3 and Fig. 4 with the concrete integrated structure of glass cover-plate 2.Position transducer 4 is for example electric capacity sensor (sensor), is located at concealed ink layer 3 inner sides or is directly located on the inner face of glass cover-plate 2.Position transducer is used for the touch action of finger sensing on panel, and touch action is transformed into specific electric signal.This position transducer 4 can be produced on above a slice film as shown in Figure 1, is then assembled in concealed ink layer 3 inner sides, also can directly conductive material be plated in as shown in Figure 2 on glass cover-plate 2 inner faces.Backlight 5 is located at the inner side of concealed ink layer 3, is also positioned at the inner side of position transducer 4.Encapsulating shell 6 encapsulates anti-fingerprint film 1, glass cover-plate 2, concealed ink layer 3, position transducer 4 and backlight 5.

In addition, and in encapsulating shell 6, be provided with solar cell 7, solar cell 7 is the glass substrate equipment power supply based on concealed ink.Glass substrate based on concealed ink of the present utility model can and main frame between carry out radio communication, for example bluetooth.And because the glass substrate based on concealed ink of the present utility model is only for three functions such as keyboard input, mouse disk input and handwriting inputs, power consumption is little, collocation high performance solar batteries 7 shines once available several days even a few weeks.

Moreover, the signal of position transducer 4 also needs conversion processing, because the glass substrate based on concealed ink of the present utility model is that non-mechanical type touches, therefore need to arrange a hummer or electromagnetic shaker (not shown), hummer or electromagnetic shaker are electrically connected position transducer 4.Hummer and Vib. can be selected open or close, for informing that certain touch of user occurs.

As shown in Figure 3 and Figure 4, concealed ink layer 3 in the utility model can be concealed White thumbpads ink silk screen printing structure, also can be that concealed ink layer is concealed Black thumbpads ink silk screen printing structure, can also be concealed Black thumbpads ink silk screen printing structure.

Wherein, as shown in Figure 3, concealed White thumbpads ink silk screen printing structure comprises white one deck 31, white two layer 32 and black three layer 33.White one deck 31 is the white ink of whole, is located at the inner side of glass cover-plate 2, and white two layer 32 is the white ink of hollow type keyboard pattern, is located at the inner side of white one deck 31, and black three layer 33 is the black ink that covers end hollow type keyboard pattern, is located at the inner side of white two layer 32.Wherein, the thickness of white one deck 31 is 4-6 micron.

Concealed White thumbpads ink silk screen printing structure, the in the situation that of not energising backlight, whole panel is white, and the in the situation that of energising backlight, light is penetrated by the hollow out region of keyboard pattern in white two layer 32, and other regions remain lighttight white panel.As shown in Figure 5, hollow type keyboard comprises hollow character region A and non-hollow out region B.Hollow character region is exactly at ink face uplifting window, so the hollow character region A of hollow type keyboard does not have ink.

As shown in Figure 4, concealed Black thumbpads ink silk screen printing structure comprises black one deck 34 and black two layer 35.Black one deck 34 is the black ink of whole, is located at the inner side of glass cover-plate 2, and black two layer 35 is the black ink of hollow type keyboard pattern, is located at the inner side of black one deck 34.Wherein, the thickness of black one deck 34 is 4-6 micron.

Concealed Black thumbpads ink silk screen printing structure, the in the situation that of not energising backlight, whole panel is black, the in the situation that of energising backlight, light is penetrated by the character hollow out region of keyboard pattern in black two layer 34, and other regions remain lighttight black panel.As shown in Figure 5, hollow type keyboard comprises hollow character region A and non-hollow out region B.Hollow character region is exactly at ink face uplifting window, so the hollow character region A of hollow type keyboard does not have ink.

As from the foregoing, concealed White thumbpads silk-screen structure comprises 3 layers of ink for screen printing, and concealed Black thumbpads silk-screen structure comprises 2 layers of ink for screen printing.White thumbpads needs 3 layers of ink, because white ink easier printing opacity compared with black ink, even in non-semi-transparent region, there are the semi-transparent white ink of whole of white one deck 31 and the white ink of white two layer of 32 pierced pattern, after opening backlight, be still easy to produce translucent effect, like this, in opening backlight, the contrast effect between semi-transparent letter and nontransparent region is just not obvious.The ink (black three layer 33) of therefore, adding one deck black is the luminance contrast of character zone and non-character zone when preventing printing opacity and to increase energising backlight.

In addition, under a whole colourless color ink of white one deck 31, if do not add the hollow out white ink of white two layer 32, and directly add one deck black hollow out ink of black three layer 33, just again can be by black look out, so want three-decker, and the thickness of one deck 31 ink must be controlled between 4-6 micron in vain, to maintain translucent state.

Finally, the color of concealed ink layer 3 not necessarily just need to be limited in two kinds of black and whites, the colored ink that meets above-mentioned ink structure also can be realized whole panel in the situation that of not energising backlight and be colour, the in the situation that of energising backlight, character hollow out region has light to penetrate, and other regions remain color panel.That is to say, concealed ink layer 3 can be also concealed colored keyboard ink silk screen printing structure.

Glass substrate based on concealed ink of the present utility model has the following advantages:

1. through the processing of concealed ink layer 3, keyboard and mouse disk unite two into one, and have dwindled small product size, do not occupy user's excessive space, and meanwhile, display mode coordinates without LCM, reduce cost of products;

2. taking glass cover-plate 2 and anti-fingerprint film 1 as operation interface, waterproof and dustproof, easily wiping;

3. concealed ink layer 3 can be designed to different colours, thereby has advantages of colorful;

4. use high performance solar batteries 7, energy-conserving and environment-protective.

The technical solution of the utility model is disclosed as above by preferred embodiment.Those skilled in the art should recognize change and the retouching the scope and spirit of the present utility model that the appended claim of the utility model discloses, done in the case of not departing from, within all belonging to the protection domain of claim of the present utility model.

Claims (12)

1. the glass substrate based on concealed ink, is characterized in that, comprising:

Anti-fingerprint film, described anti-fingerprint film is positioned at outermost layer;

Glass cover-plate, described glass cover-plate is located at the inner side of described anti-fingerprint film;

Concealed ink layer, described concealed ink layer is located at the inner side of described glass cover-plate, and has the ink silk screen printing structure of keyboard pattern;

Position transducer, described position transducer is located at described concealed ink layer inner side or is directly located on the inner face of described glass cover-plate;

Backlight, described backlight is located at the inner side of described position transducer;

Encapsulating shell, the described anti-fingerprint film of described encapsulating shell encapsulation, glass cover-plate, concealed ink layer, position transducer and backlight.

2. the glass substrate based on concealed ink as claimed in claim 1, is characterized in that, described concealed ink layer is concealed White thumbpads ink silk screen printing structure, comprising:

White one deck, described white one deck is the white ink of whole, is located at the inner side of described glass cover-plate;

White two layers, described white two layers is the white ink of hollow type keyboard pattern, is located at the inner side of described white one deck;

Black three layers, described black three layers is the black ink that covers end hollow type keyboard pattern, is located at the inner side of described white two layers.

3. the glass substrate based on concealed ink as claimed in claim 2, is characterized in that, the thickness of described white one deck is 4-6 micron.

4. the glass substrate based on concealed ink as claimed in claim 1, is characterized in that, described concealed ink layer is concealed Black thumbpads ink silk screen printing structure, comprising:

Black one deck, described black one deck is the black ink of whole, is located at the inner side of described glass cover-plate;

Black two layers, described black two layers is the black ink of hollow type keyboard pattern, is located at the inner side of described black one deck.

5. the glass substrate based on concealed ink as claimed in claim 4, is characterized in that, the thickness of described black one deck is 4-6 micron.

6. the glass substrate based on concealed ink as claimed in claim 1, is characterized in that, described concealed ink layer is concealed colored keyboard ink silk screen printing structure.

7. the glass substrate based on concealed ink as claimed in claim 1, is characterized in that, also comprises hummer or electromagnetic shaker, and described hummer or electromagnetic shaker are electrically connected described position transducer.

8. the glass substrate based on concealed ink as claimed in claim 1, is characterized in that, described encapsulating shell bottom is provided with solar cell, and described solar cell is described glass substrate equipment power supply.

9. the glass substrate based on concealed ink as claimed in claim 1, is characterized in that, described position transducer is produced on a slice film.

10. the glass substrate based on concealed ink as claimed in claim 1, is characterized in that, described position transducer is plated on the inner face of described glass cover-plate.

11. glass substrates based on concealed ink as described in claim 9 or 10, is characterized in that, described position transducer is electric capacity Sensor.

12. 1 kinds of touch-control input equipments, is characterized in that, include the glass substrate based on concealed ink as described in as arbitrary in claim 1-11.