CN207557916U - A kind of touch screen blast resistance construction - Google Patents

Abstract

The utility model touch screen explosion-proof technical field, specifically relates to an explosion-proof structure of a touch screen, comprising a tempered glass layer, an explosion-proof adhesive layer, a touch sensing layer, a first transparent adhesive layer, a first transparent electrode layer, a second transparent adhesive layer and The second transparent electrode layer, the toughened glass layer is bonded to the touch-sensitive layer through the explosion-proof adhesive layer, the first transparent adhesive layer is adhered to the side of the touch-sensitive layer away from the explosion-proof adhesive layer, and the first transparent The electrode layer is printed on the side of the first transparent adhesive layer away from the touch-sensitive layer; the touch-sensitive layer is a PET touch-sensitive layer, and the explosion-proof adhesive layer is a double-sided OCA optical adhesive layer; the utility model adopts a double-layer It is convenient to use the adhesive layer, which can effectively bond the tempered glass layer and the touch-sensitive layer into one, with good explosion-proof effect and strong practicability.

Description

A touch screen explosion-proof structure

technical field

The utility model relates to the explosion-proof technical field of a touch screen, in particular to an explosion-proof structure of a touch screen.

Background technique

The touch screen is an input device that significantly improves the man-machine interface, and has the advantages of intuition, simplicity and speed. Touch screens have been widely used in many electronic products, such as mobile phones, PDAs, multimedia, public information inquiry systems, and the like. Various types of touch screens have emerged in the past, including resistive, capacitive, infrared, and surface acoustic wave touch screens.

Generally, a capacitive touch screen uses a transparent conductive film in the touch screen as one pole of the capacitor, and the finger of the human body as the other pole of the capacitor. When the finger approaches or touches the surface of the touch screen, the finger is coupled with the touch screen to form a new capacitor. The controller of the touch screen calculates the position coordinates (X, Y) of the contact point by measuring the change of capacitance, and finally, the host computer interprets and executes corresponding events according to the position coordinates (X, Y) provided by the controller. In the past, due to the limitations of structure and driving cost, as well as various shortcomings such as touch distortion, the application range of capacitive touch screens was very narrow. Resistive touch screens are the most common touch screen technology used in the market. The resistive touch screen is a kind of input function that uses pressure to cause the contact of the upper and lower conductive layers to cause the electrical signal of the system to change. Recently, due to the continuous improvement of structure and signal processing technology, capacitive touch screens have gradually emerged. In these new capacitive touch screens, because the flexible conductive film and complex structure of the resistive screen are removed, different touch methods are used, which show better performance. For example, there is no mechanical movement wear problem in the screen, and the structure is simple. , high light transmittance, good linearity, dustproof, fireproof, scratchproof, stable performance even in the harshest environment, etc. Another advantage of the capacitive touch screen is that it can realize multi-touch function, that is, the user can simultaneously input multi-point touch signals through it, and realize multi-point simultaneous operation to complete specific actions, such as zooming in, zooming out, rotating and other functions.

In the existing touch screen, there are generally some disadvantages, such as: poor explosion-proof effect, poor integrity and other problems.

Utility model content

In order to solve the above problems, the utility model provides an explosion-proof structure of a touch screen with good explosion-proof effect and strong practicability through the use of a double-layered adhesive layer, which can effectively bond the tempered glass layer and the touch-sensitive layer into one. .

The technical solution adopted by the utility model is: an explosion-proof structure of a touch screen, which is characterized in that it includes a tempered glass layer, an explosion-proof adhesive layer, a touch-sensitive layer, a first transparent adhesive layer, a first transparent electrode layer, a second transparent An adhesive layer and a second transparent electrode layer, the tempered glass layer is bonded to the touch-sensitive layer through an explosion-proof adhesive layer, and the first transparent adhesive layer is adhered to the side of the touch-sensitive layer away from the explosion-proof adhesive layer. The first transparent electrode layer is printed on the side of the first transparent adhesive layer away from the touch-sensitive layer, the second transparent adhesive layer adheres to the first transparent adhesive layer and is located on the side where the first transparent electrode layer is printed, and the second The transparent electrode layer is printed on the side of the second transparent adhesive layer away from the first transparent adhesive layer; the touch-sensitive layer is a PET touch-sensitive layer, and the explosion-proof adhesive layer is a double-sided OCA optical adhesive layer.

A further improvement to the above solution is that a first ASF explosion-proof film is pasted on the side of the tempered glass layer facing away from the touch-sensitive layer.

A further improvement to the above solution is that a second ASF explosion-proof film is pasted on the side of the touch-sensitive layer close to the first transparent adhesive layer.

A further improvement to the above solution is that the thickness of the first ASF explosion-proof film and the second ASF explosion-proof film ranges from 0.5 mm to 1.0 mm.

A further improvement to the above solution is that the toughened glass layer includes a frame and a display frame, and the touch-sensitive layer is adhered to the position of the display frame through an explosion-proof adhesive layer.

A further improvement to the above solution is that the frame is printed with conductive lines, and the conductive lines are respectively connected to the first transparent electrode layer and the second transparent electrode layer.

The beneficial effects of the utility model are:

In the first aspect, a toughened glass layer, an explosion-proof adhesive layer, a touch-sensitive layer, a first transparent adhesive layer, a first transparent electrode layer, a second transparent adhesive layer and a second transparent electrode layer are provided, and the toughened glass layer The use effect of the overall frame is achieved, and tempered glass is used, which has high service strength. The explosion-proof effect of the tempered glass layer can be provided through the explosion-proof adhesive layer, and the explosion-proof effect is good. Touch operation on the layer, the operation experience effect is good, the connection effect is achieved through the first transparent adhesive layer and the second transparent adhesive layer, the touch electric induction effect is achieved through the first transparent electrode layer and the second transparent electrode layer, and the induction effect Good, good conductive effect, high induction efficiency; second aspect, the tempered glass layer is bonded to the touch sensing layer through the explosion-proof adhesive layer, and the explosion-proof adhesive layer can play a role in the tempered glass layer and the explosion-proof adhesive layer at the same time. Explosion-proof protection, the protection effect is good, the first transparent adhesive layer adheres to the side of the touch-sensitive layer away from the explosion-proof adhesive layer, through the first transparent adhesive layer to achieve the bonding processing effect, and further play an explosion-proof effect, The first transparent electrode layer is printed on the side of the first transparent adhesive layer away from the touch-sensitive layer, and the second transparent adhesive layer is adhered to the first transparent adhesive layer and is located on the side where the first transparent electrode layer is printed. The transparent adhesive layer can further play the role of adhesive reinforcement, improve the explosion-proof effect, and have a good protective effect. The second transparent electrode layer is printed on the side of the second transparent adhesive layer away from the first transparent adhesive layer, and the double-layer transparent electrode layer layer plays a role in identifying touch conduction; in the third aspect, the touch-sensitive layer is a PET touch-sensitive layer, the PET touch-sensitive layer has high toughness, and the explosion-proof effect is good, and the explosion-proof adhesive layer is a double-sided OCA optical adhesive layer , OCA (Optically Clear Adhesive) is a special adhesive used to glue transparent optical components (such as lenses, etc.); it has colorless transparency, light transmittance above 90%, and good bonding strength. The connection layer can effectively play the role of explosion-proof, and the explosion-proof effect is good.

In the utility model, the tempered glass layer and the touch-sensitive layer can be bonded into one body effectively by providing a double-layer adhesive layer for convenient use, and the explosion-proof effect is good and the practicability is strong.

Description of drawings

Fig. 1 is the front view of the utility model;

Fig. 2 is a structural schematic diagram of the utility model.

Description of drawings: tempered glass layer 110, first ASF explosion-proof film 111, frame 112, display frame 113, conductive circuit 114, explosion-proof adhesive layer 120, touch sensing layer 130, second ASF explosion-proof film 131, first transparent adhesive The junction layer 140 , the first transparent electrode layer 150 , the second transparent adhesive layer 160 , and the second transparent electrode layer 170 .

Detailed ways

The utility model will be further described below in conjunction with the accompanying drawings.

As shown in Figures 1 to 2, they are a front view and a schematic structural view of the utility model, respectively.

An explosion-proof structure of a touch screen, characterized in that it includes a tempered glass layer 110, an explosion-proof adhesive layer 120, a touch-sensitive layer 130, a first transparent adhesive layer 140, a first transparent electrode layer 150, a second transparent adhesive layer 160 and The second transparent electrode layer 170, the tempered glass layer 110 is bonded to the touch-sensitive layer 130 through the explosion-proof adhesive layer 120, and the first transparent adhesive layer 140 is adhered to the touch-sensitive layer 130 away from the explosion-proof adhesive layer 120 On one side, the first transparent electrode layer 150 is printed on the side of the first transparent adhesive layer 140 away from the touch-sensitive layer 130, and the second transparent adhesive layer 160 is adhered to the first transparent adhesive layer 140 and is located on the printed first transparent adhesive layer 140. On one side of the electrode layer 150, the second transparent electrode layer 170 is printed on the side of the second transparent adhesive layer 160 away from the first transparent adhesive layer 140; the touch-sensitive layer 130 is a PET touch-sensitive layer 130, and the explosion-proof adhesive Layer 120 is a double-sided OCA optical adhesive layer.

A first ASF explosion-proof film 111 is pasted on the side of the tempered glass layer 110 facing away from the touch-sensitive layer 130, and a second ASF explosion-proof film 131 is pasted on the side of the touch-sensitive layer 130 close to the first transparent adhesive layer 140. ASF has good explosion-proof protection Effect, can effectively improve the anti-explosion effect of the tempered glass layer 110 and the touch-sensitive layer 130, and its thickness range is 0.5 mm to 1.0 mm, generally preferably 0.75 mm, which can effectively play an anti-explosion protection effect and further improve the anti-explosion protection effect.

The tempered glass layer 110 includes a frame 112 and a display frame 113. The touch-sensitive layer 130 is adhered to the position of the display frame 113 through the explosion-proof adhesive layer 120, so as to facilitate observation of the displayed content of the display screen through the display frame 113, and facilitate touch sensing. The layer 130 senses the touch function and is easy to operate.

The frame 112 is printed with conductive lines 114, and the conductive lines 114 are respectively connected to the first transparent electrode layer 150 and the second transparent electrode layer 170, so as to facilitate the conduction of the new type of touch sensing through the conductive lines 114, the conductive effect is good, and the touch sensing High efficiency and easy to use.

In the first aspect, a tempered glass layer 110, an explosion-proof adhesive layer 120, a touch-sensitive layer 130, a first transparent adhesive layer 140, a first transparent electrode layer 150, a second transparent adhesive layer 160 and a second transparent electrode layer are provided. 170, the use effect of the overall frame 112 is achieved through the tempered glass layer 110, and the use of tempered glass is used, and the use strength is high. The explosion-proof effect of the tempered glass layer 110 can be provided through the explosion-proof adhesive layer 120, and the explosion-proof effect is good. Through touch sensing The layer 130 plays a touch sensing role, which is convenient for touch operation on the tempered glass layer 110, and the operation experience effect is good. The connection effect is achieved through the first transparent adhesive layer 140 and the second transparent adhesive layer 160, and the connection effect is achieved through the first transparent electrode layer. 150 and the second transparent electrode layer 170 have a touch electric sensing effect, good sensing effect, good conductive effect, and high sensing efficiency; in the second aspect, the tempered glass layer 110 is bonded to the touch sensing layer 130 through the explosion-proof adhesive layer 120 The explosion-proof adhesive layer 120 can protect the tempered glass layer 110 and the explosion-proof adhesive layer 120 at the same time, and the protection effect is good. The first transparent adhesive layer 140 adheres to the touch-sensitive layer 130 away from the explosion-proof One side of the adhesive layer 120, through the first transparent adhesive layer 140 to achieve the effect of bonding processing, and further play an anti-explosion effect, the first transparent electrode layer 150 is printed on the side of the first transparent adhesive layer 140 away from the touch-sensitive layer 130 , the second transparent adhesive layer 160 adheres to the first transparent adhesive layer 140 and is located on the side of the printed first transparent electrode layer 150, and the second transparent adhesive layer 160 can further play the role of bonding and reinforcement to improve the explosion-proof effect , the protection effect is good, the second transparent electrode layer 170 is printed on the side of the second transparent adhesive layer 160 away from the first transparent adhesive layer 140, and the double-layer transparent electrode layer plays the role of identifying touch conduction; in the third aspect, the The touch-sensitive layer 130 is a PET touch-sensitive layer 130. The PET touch-sensitive layer 130 has high toughness and good explosion-proof effect. The explosion-proof adhesive layer 120 is a double-sided OCA optical adhesive layer, and OCA (Optically Clear Adhesive) is used for bonding Special adhesive for transparent optical components (such as lenses, etc.); it is colorless and transparent, has a light transmittance of more than 90%, and has good bonding strength. By using a double-sided explosion-proof adhesive layer 120, it can effectively prevent explosions. Function, explosion-proof effect is good.

In the present invention, the tempered glass layer 110 and the touch-sensing layer 130 can be effectively bonded into one body by providing a double-layered adhesive layer, which has good explosion-proof effect and strong practicability.

The above-mentioned embodiments only express several implementations of the utility model, and the description thereof is relatively specific and detailed, but it should not be construed as limiting the patent scope of the utility model. It should be noted that those skilled in the art can make several modifications and improvements without departing from the concept of the present invention, and these all belong to the protection scope of the present invention. Therefore, the scope of protection of the utility model patent should be based on the appended claims.

Claims (6)

1. a kind of touch screen blast resistance construction, it is characterised in that：Including toughened glass layer, explosion-proof adhesive linkage, touch sensitive layer, first Transparent bonding layer, first transparency electrode layer, the second transparent bonding layer and second transparency electrode layer, the toughened glass layer pass through anti- Quick-fried adhesive linkage is Nian Jie with touch sensitive layer to be connected, and first transparent bonding layer is adhered to touch sensitive layer away from explosion-proof adhesive linkage On one side, the first transparency electrode layer is printed in that the first transparent bonding layer is laminated away from touch sensible, and described second is transparent viscous Knot layer is adhered to the first transparent bonding layer and is located at that printing first transparency electrode is laminated, and the second transparency electrode layer is printed in the Two transparent bonding layers are laminated away from the first transparent bonding；The touch sensitive layer be PET touch sensitive layers, the explosion-proof bonding Layer is two-sided OCA optics mucigel.

2. a kind of touch screen blast resistance construction according to claim 1, it is characterised in that：The toughened glass layer is away from touch Sense and laminated be adhesive with the first ASF rupture pressure discs.

3. a kind of touch screen blast resistance construction according to claim 2, it is characterised in that：The touch sensitive layer is close to first Transparent bonding is laminated to be adhesive with the 2nd ASF rupture pressure discs.

4. a kind of touch screen blast resistance construction according to claim 3, it is characterised in that：The first ASF rupture pressure discs and The thickness range of two ASF rupture pressure discs is in 0.5mm~1.0mm.

5. a kind of touch screen blast resistance construction according to claim 4, it is characterised in that：The toughened glass layer includes frame And display box, the touch sensitive layer are adhered to display box position by explosion-proof adhesive linkage.

6. a kind of touch screen blast resistance construction according to claim 5, it is characterised in that：The frame is printed with conductor wire Road, the conducting wire are connected respectively with first transparency electrode layer and second transparency electrode layer.