TWM439209U - Pressure type button structure - Google Patents

Description

M4J9209 V. New description: [New technical field] This creation has a button structure, especially a kind of pressure that can increase the comfort of the button operation and simplify the product, so that it can be made thinner. And the good workmanship of the manufacturing process [prior art] The buttons that are witnessed are commonly used on desktop computers: mobile telephone devices. However, the common keyboard keys =, the keys are made of hard materials. And through the elasticity of the plastic, the 4 female keys are automatically reset after pressing, so the buttons and the elastic support group are all stunned by I; the cut is set at the key health, and a predetermined gap is maintained between the adjacent keys to provide The space pressed by the button. In actual use, there is still a lack of material and trouble, and the ^ key is made of (4) (four) quality. 'There will be a large sound on the press. II. The touch of the finger is not good when pressed. : Feeling? Discomfort. In addition, because of the structural factors, the product's appearance is not effectively reduced by 2 'the body Wei Da μ (four) line is not ringing, $ technology and 5 ' because the bottom layer of the button and the telecommunications joints are often κ with the same object, production In the process, it is easy to cause the telecommunications contact to be in position=bit(4), which leads to poor electrical contact and even to the level of overall scrapping, which increases the burden on the cost. [New content] The pressure-type button structure of this creation can be used for a long time by the (4) deformation of the button. (4) It will not feel discomfort, and it is better than the usual button in the touch. In addition, the separation of the button unit and the circuit 3/14 M439209 signal unit into two parts can greatly improve the process yield during production and reduce the cost of production. The present invention provides a pressure type button structure, which comprises an insulating layer, a button panel, an upper cover portion, a first conductive layer, a second conductive layer and a separation layer, which are arranged in an upper cover from top to bottom. The button panel, the insulating layer, the first conductive layer, the separation layer and the second conductive layer. The button panel is located on the front surface of the insulating layer, and the button panel has a plurality of button bodies. The button body has a pressing surface and four side wall surfaces, and the interior of each button body is closed by the pressing surface, the side wall surface and the insulating layer to form an accommodating space. The accommodation space is filled with gas or liquid. The upper cover portion is closed on the button panel, and the upper cover portion has a plurality of frame holes for respectively passing through the plurality of button bodies, and the frame holes limit the four side wall faces of the button body. The first conductive layer is located on the back surface of the insulating layer, and the back surface of the first conductive layer has a plurality of first electrical contact portions, and the first electrical contact portion corresponds to the button body. The second conductive layer is located below the first conductive layer, the front surface of the second conductive layer has a plurality of second electrical contacts, and the second electrical contact corresponds to the first electrical contact. The spacer layer is located between the first conductive layer and the second conductive layer. The spacer layer has a plurality of through holes, and the first electrical contact portion transmits through the corresponding through holes to face the corresponding second electrical contacts. When the button body is pressed by an external force, the pressure is transmitted to the insulating layer through the gas or liquid in the accommodating space, and the insulating layer thus pushes down the first conductive layer, and the first conductive layer drives the first electrical contact portion to The first electrical contact portion is abutted on the second electrical contact portion through the through hole of the spacer layer, thereby achieving the first electrical contact portion electrically connecting the second electrical contact portion. In summary, the pressure button structure of the creation can be combined with comfort 4/14 and economy, allowing the user to feel fatigue and increase the comfort during operation for a long time, and second: sound: external 'because The button panel is first attached to the insulation layer, and then: the absolute: the key is engaged, so if the W on the button panel is produced during the production process, the button panel can be directly replaced to improve

To read the features and technical contents of this creation, please find out the detailed description and drawings of this creation. The bran and the drawings A ??:= Γ明, not used to limit the creation of this creation: Show, for the pressure of the creation of the button to join the gentleman structure 1 2: heart map and / knife solution is not intended. The pressure button of the present invention comprises a button panel 10, an insulating layer 20, a first guiding layer 〇3〇, a separating layer 40 and a second conductive layer 5〇. The button panel 1〇, the insulating layer 2〇, the first conductive layer 3〇, the upper Geo and the second-conductive layer 5〇, and further includes a 卩60 and a lower cover portion 70.

The structure 2 and the pressure type button shown in Fig. 4 are insulated by T π, according to (4) - button body key body η (4) key panel 10, wherein the material dream material can be plastic, silicone The material of the resin or other polymer material == key body U is not limited. Button body = ΖΓ two four side wall surfaces 113 'pressing surface' 2 is located at the button Ο and 'provides a function of contact with an external force, the pressing surface 112 M439209 can be an upwardly convex curved surface, a downwardly curved curved surface or presented The horizontal plane is not limited, and the pressing surface 112 can be designed with letters or symbols for user identification. Thereafter, the peripheral edge of the pressing surface 112 is extended downward to form four side wall surfaces 113, and the side wall surface 113 may be in a shape which is less likely to be deformed than the insulating layer 20 and the first conductive layer 3. Furthermore, the sidewall surface 113 may be made of a harder or tougher material than the insulating layer 2 and the first conductive layer 30, or may increase the thickness of the sidewall surface 113 to make the sidewall surface 113 less susceptible to deformation. However, the condition that the sidewall surface 113 is less likely to be deformed than the insulating layer 2 and the first conductive layer 3 is not limited to the above. The inside of the button body 11 forms a hollow accommodation space 1 π which is formed by the sealing surface 112 of the button body 11 and the side wall surface 113 being closed with the insulating layer 20 at the lower end. The volume of 1U can be filled with gas or liquid. The gas can be general atmosphere, inert gas or nitrogen. The liquid can be water, oil or polymer material. However, the quality of gas and liquid is not fixed. The gas seam is sufficiently (four) in the accommodating space 1: 丨1 to function as a buffering and dispersing pressure. Therefore, when an external force is applied to the grinding surface 112, the gas or liquid in the accommodating space (1) is subjected to pressure, and the pressure is transmitted to the periphery and below of the accommodating space 1U by the action of the gas or the liquid. Since the sidewall surface 113 may be less likely to be deformed than the insulating layer 20 and the first conductive layer 30, the gas or liquid in the accommodating space 11 is restricted to expand toward the periphery but tends to move downward. Most of the force is transferred down to the insulating layer 20, causing the insulating layer 20 and the first conductive layer 30 to be deformed. As shown in FIG. 3, the button panel 1 can be bonded to the insulating layer 2, 6/14 M439209, wherein the insulating layer 20 can be made of Mylar, PE (Polyethylene) film, pp(p0]ypr0pyiene. ) Film, PVC (P〇]yvinylChl〇ride); 4 film, PS (Po 丨ystyrene) film or other polymer film. Thereafter, the insulating layer 20 is further combined with the circuit signal device, that is, with the portions of the first conductive layer 30, the spacer layer 40, and the second conductive layer 50. Therefore, the pressure-type female key of the present creation, ".1, the preparation of the button panel" when an abnormal button appears on the keyboard. Because the button panel 10 is not directly attached to the first conductive layer 3, it is only necessary to replace the button panel. Compared with the button structure that directly forms the button on the thin board, if the button is abnormal, the whole button structure is required. The pressure button structure of the creation is compared with the button structure. , the brushing electrical layer 3Q can be (four) circuit board, flexible circuit board, printed circuit board or other devices with conductive circuit signals, = 30 devices are not limited. In this implementation, The first ^ 30 is a thin film circuit board having a meandering structure, and has a plurality of first electrical contacts on the first moon surface, and the portion 31 of the electric layer 30 is respectively protruded "a younger brother - an electrical contact file. Further, under the button body 11 corresponding to the back of the conductive layer 3〇, the first and located in the phase F4- 'S· electric contact portion 31 can be in the female first electrical contact # Ή 土二'Electric 鬲 molecule, Bu Xinwang according to the contact Ρ 3〗 material is not Set. The conductive layer 5 is located below the first conductive layer 3〇. It can be a thin film circuit board, a flexible circuit, a first or other device having a (four) conductive circuit signal, and the device for brushing the circuit board is not limited. In this embodiment, the conductive layer 50 is a thin film circuit board having a film structure, and has a plurality of second electrical contact portions 51 corresponding to the first sexual contact on the front surface 7/14 of the conductive layer 50-I electrical layer 50. The portion 31 of the electrical contact portion 51 is located at (4) and is defined by a second conductive contact ink or a conductive polymer II: a conductor such as a metal conductor or a stone. ~ The material of the first electrical contact is not added to the first: ?. The electrical layer 30 and the second conductive layer - between the barrier layer 40, the separator layer 40 of the Sichuan (between the setting - 矣 高分子 polymer (four) γ γ The material of the interlayer 40 is not limited. The material of the interlayer 40 is not limited. The second electrical contact portion 41 is electrically connected to the phase. The second electrical contact portion 51 has a first electrical contact portion 31 and a second tantalum contact portion 51 respectively, and the through hole 41 has a hollow contact portion 31 which can be made inside the through hole 41. The selective rail material II/electric contact portion is not shown in FIG. 4, and the Lily button structure of the present invention may include an upper cover portion 60, and the upper cover portion 60 is attached to the button panel 1〇, and The upper cover portion 60 has a plurality of frame holes 6 so that the button body u of the button panel U) can pass through the frame holes 61 and be exposed outside the upper cover portion 6. Therefore, the wall of the frame hole 61 can restrict the deformation of the button body n to the periphery. More specifically, when the pressing surface 112 of the button body 11 receives an external force, the button body u will be deformed to the periphery and below, due to the frame. The inner wall of the hole 61 limits the four side wall surfaces 113 of the button body ,, which restricts the deformation of the button body n to the periphery, and because the inner wall of the frame hole 61 returns the force, the button body 11 tends to be generated downward. The deformation is such that the pressure is transmitted downward to the insulating layer 20. In addition, the pressure type button structure i may include a lower cover portion 8/14 7〇 ' which is attached to the north energy of the second conductive layer 5'.苴中,..."Λ The moon's surface, as the shell of the internal structure function of the bearing. ^Formed with the multi-test of the moon, as shown in Figure 5, for the creation of the disgusting 4, when pressing the button body U The force of the force, the outer structure of the first-electrode contact portion 3 of the key structure 1 is assuming that the first electrical contact portion y can be electrically connected to the portion of the portion 51. The factory is connected to the electrical contact portion 51. When the surface m inside the button body η is pressed by an external force, the space is closed, and the button Lin = 3 UI is the side of the female body button 1 filled with gas or liquid.丨丨1 and the first conductive layer 30 are not easy to be ^ compared to the insulating layer 20 61 to limit the button body η / and the frame hole of the upper cover portion 60 will allow the space w-r to spread around, and the force back, After the insulating gas or liquid transfers the pressure downward, the insulating layer 2 is further electrically contacted; the (4) portion 31 is actuated downward, because the first f-th contact 41 faces the second contact portion 5, to abut the second electric 4 through the sub-portion, the through hole 41 of the layer 40 is electrically connected to the first portion 51, let the first electrical contact portion 31. Contact. Therefore, the effect of the signal conduction can be achieved. Refer to Figure 6 for the kilowatt 4 conductive layer circuit, and the layer of the pressure-type button structure 1 of the present invention is shown on the layer 1 of the first conductive layer 3 The second conductive function, the first conductive layer, can be used as the electrical connection of the signal transmission and the circuit conduction. The contact portion 31 can pass through the second conductive layer 5 through the circuit of the first conductive layer 30. The circuit of 9/14 M439209 is electrically connected. Therefore, when the user wants to input a message, the pressing surface 112 of the button body U can be pressed, and the insulating layer 2 is wiped through the gas or liquid in the accommodating space (1). Further, the dust is transmitted to the first conductive layer 3, and the first conductive layer 30 is deformed. The first electrical contact portion 31 is abutted against the second electrical contact portion 5 to make the first electrical contact portion. 31 and the second electrical contact portion 51 achieve signal conduction, the user can input the message to be transmitted, and then transmit the user's message through the conduction of the circuit. The pressure button structure of the creation can form a table Upper computer keyboard 'note computer keyboard, computer dictionary Keyboard, e-book keyboard, home phone keypad 'mobile phone keypad, wireless f intercom keyboard, remote control keyboard and other types of keyboards that can be operated. And the overall pressure type according to the structure 1 can be more than one button body u, pressure Type of button structure] Appearance can be square, rectangular, rectangular, diamond, polygonal or circular, etc., to match the intended use' and is used as an electronic 'electric' digit that requires a button such as a button keyboard or a button interface. The product is used. - In summary, the pressure button structure of the creation can be both comfortable and economical. Because the inside of the button body is filled with gas or liquid, it has the function of buffering and dispersing pressure, so that the user is long. When the time is operated, the button can avoid finger fatigue and increase the comfort during operation, and reduce the sound generated during the collision, which can be muted. , 乂 In addition, the pressure button structure greatly reduces the high sound of the original product, in order to reduce weight and reduce material costs, while at the same time facilitating smashing and portability. Moreover, since the button panel is first attached to the insulating layer, and σ is then bonded to the first conductive layer through the insulating layer, when the button on the panel of the 10/14 M439209 key is abnormal during the production process, the button panel can be directly replaced. Yes, there will be a cost advantage to the yield of the product, without the need to replace the knife of the circuit signal device. However, the above description is only a preferred embodiment of the present invention, and it is not intended to limit the patent mu of the present invention. Therefore, the equivalent changes of the present specification and the contents of the schema are all included in the right of the creation. Within the scope of protection, it is given to Chen Ming. [Simple description of the map]

Figure 1 is a combined sound diagram of the pressure button structure of the present invention. Figure 2 is an exploded view of the heart-shaped button structure of the creation: Figure. Fig. 3 is a partial shirt of the (4) type button structure of Fig. 4. Fig. 4 is a cross-sectional view of the pressure type button structure of the present invention: θ Fig. 5 is a schematic diagram of the key structure of the creation; ^ Figure 6 Figure when the knife presses the button body. The layout of the conductive layer of the pressure type button structure for the creation

[Main component symbol description] 1 Pressure type button structure 10 key panel Η Button body 111 accommodating space 112 pressing surface 113 Side wall surface 20 insulating layer 30 First conductive layer 31 First electrical contact portion 11/14 M439209 40 separation layer 41 Through hole 50 second conductive layer 51 second electrical contact portion 60 upper cover portion 61 frame hole 70 lower cover portion 12/14

Claims (1)

M439209 VI. Patent Application Range: 1. A pressure type button structure, comprising: an insulating layer; a button panel located on the front side of the insulating layer, the button panel having a plurality of button bodies, each button body having a External force contact a surface and a plurality of side wall surfaces extending downward from the periphery of the pressing surface, wherein the pressing surface of each of the button bodies and the side wall surfaces are closed with the insulating layer to form a space for filling the gas and the liquid One of them; /, ., , and the dish 5 are on the button panel, and the child has a cover portion and a frame hole that passes through the button bodies respectively, and each of the frame holes is separately known: The side wall surface is limited; the first conductive layer 'is located on the back surface of the insulating layer, and the first back surface has a plurality of first electrical contact angles corresponding to the plurality of button bodies, and the second conductive layer is located at the first Below the conductive layer, the front surface of the second surface has a plurality of first electrical and second electrical contact portions respectively corresponding to each other; and a P: layer of the Le-aluminum contact portion is located at the first conductive layer and The interlayer of the second conductive layer has a plurality of through holes, each of the '-- corresponding through holes facing each of the 3= contacts; the first side of the electrical layer is opposite to the insulating layer The layer is not susceptible to deformation. X-conducting 2·, as in the scope of the patent application, the cap-type, cast m-type button structure, wherein the 面板-domain panel, the insulating layer, the first-conducting layer, the ί 13/14 M439209 compartment and the first The two conductive layers are arranged in order from top to bottom. 3. The pressure-type button structure described in the application of the π patent, the circumference of the item, is made of a Mylar sheet. ', 〇χ 4. The pressure type button structure as described in the patent application, wherein each of the button bodies is integrally formed on the button panel. 5. The pressure button structure according to the scope of the patent application, wherein the 6 layers and the second conductive layer are film-like structures having circuits. " • Apply for patent coverage! In the pressure type button structure, the first electrical contact portions are respectively protruded from the first conductive sound to the north, and the pressure-sensitive button knots of the "suggested contact" are respectively; The hole is electrically connected to the circuit of the first conductive layer to achieve an electrical connection. 8. The pressure type button according to the scope of the patent application has a second electrical contact portion respectively protruding from the first ( 5 (4) according to the item (4) of the second paragraph, according to the circuit of the second conductive layer, the voltage is obtained by the circuit of the second conductive layer. The electrical contact portion abuts the = structure f where:: 'to achieve the electrical connection of the first electrical contact portion. The coin-electric contact "Death, the patent range refers to the pressure type Pressing the cover portion, which is attached to the second, 冓, and further includes 12. The electric power as described in the scope of claim 5; the force = the upper jaw portion is combined with the lower cover portion to form a protective Yi Jian.. Structure, which 14/14