CN210052127U - Screen clicking device - Google Patents

Abstract

The utility model provides a screen clicker includes: a point head; the click head comprises an installation part, a conductive part and a fitting part; the mounting part is provided with a first mounting surface; the conductive part comprises a signal transmission port, a first conductive contact and a second conductive contact; the first conductive contact and the second conductive contact are arranged at intervals; the first conductive contact is provided with a signal transmission port; the second conductive contact is provided with a signal transmission port; the first conductive contact and the second conductive contact are arranged on the first mounting surface and are exposed out of the first mounting surface; the mounting part and the conductive part are arranged in an insulating way; the attaching portion is used for attaching the first mounting surface to the screen. Click head and screen contact in the process of clicking, form the click to the screen through pulse signal, because click head and mobile intelligent terminal's screen is laminated all the time, so can not produce the noise because of the impact of physical motion, can not cause the screen damage yet.

Description

Screen clicking device

Technical Field

The utility model relates to an electronic equipment technical field especially relates to a screen clicker.

Background

Along with the popularization of mobile intelligent terminals, along with the mobile intelligent terminals play more and more roles in daily life, the operation related to the mobile intelligent terminals is more and more complex, for example, mobile intelligent terminal manufacturers need to carry out hardware detection on the mobile intelligent terminals, or APP software program developers need to test APP software, and at the moment, a click device is needed to assist in operation to replace manual work.

The clicker in the prior art generally adopts an electromagnet or a cam to drive an electric body to perform reciprocating motion, so as to realize the click on the screen, but the physical click mode has the problem of high noise, and meanwhile, due to the mechanical click on the screen, the possibility that the click head breaks the screen in the click process exists, so that the clicker with high efficiency, stability and safety needs to be provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a screen clicker to solve among the prior art clicker noise big, easily cause the screen damage scheduling problem, thereby through the simulation process of clicking of the pulse signal of telecommunication, realize the point to the mobile intelligent terminal screen, owing to not click through the physics at the in-process of clicking, so can not produce the noise, can not cause the damage to the mobile intelligent terminal screen.

In order to solve the above problem, the utility model provides a screen click device includes: a point head; the click head comprises an installation part, a conductive part and a fitting part; the mounting part is provided with a first mounting surface; the conductive part comprises a signal transmission port, a first conductive contact and a second conductive contact; the first conductive contact and the second conductive contact are arranged at intervals; the first conductive contact is provided with a signal transmission port; the second conductive contact is provided with a signal transmission port; the first conductive contact and the second conductive contact are arranged on the first mounting surface and are exposed out of the first mounting surface; the mounting part and the conductive part are arranged in an insulating way; the attaching part is used for arranging or attaching the first conductive contact and the second conductive contact with the screen gap.

Further, the mounting part of the screen clicking device is made of an insulating material; the first and second conductive contacts are made of a conductive material.

Furthermore, a first mounting hole is formed in one surface, located on the first mounting surface, of the mounting part in the screen clicking device; the first conductive contact and the second conductive contact are disposed within the mounting hole.

Furthermore, the first conductive contact in the screen clicker is coplanar with the first mounting surface.

Furthermore, the second conductive contact in the screen clicker is coplanar with the first mounting surface.

Further, the depth of the mounting hole in the screen clicker is not more than 10 mm.

Further, the distance between the first conductive contact and the second conductive contact in the screen clicker is not more than 10 mm.

Furthermore, the attaching part in the screen clicking device is a sucker; the sucker is fixedly arranged with the mounting part.

Furthermore, the fit part in the screen clicking device comprises a first clamping end, a second clamping end and a telescopic part; the first clamping end and the second clamping end are respectively arranged at two ends of the telescopic part; the first clamping end, the second clamping end and the telescopic part are in a [ -shape or approximate [ -shape; the installation part is fixedly arranged with the first clamping end or the second clamping end.

Furthermore, the attaching part in the screen clicking device is an adsorption layer; the adsorption layer is attached to the first mounting surface; the adsorption layer is provided with at least one second mounting hole; the first conductive contact and the second conductive contact are disposed within the second mounting hole.

Further, the adsorption layer in the screen clicker is made of a nano adsorption material or an electrostatic adsorption material.

Furthermore, the first conductive contact in the screen clicker is used for sending a pulse electric signal to a screen of the mobile intelligent terminal, and the second conductive contact is used for receiving an electric signal of the screen of the mobile intelligent terminal.

Further, the first conductive contact and the second conductive contact in the screen clicker are both used for sending pulse electric signals to the screen of the mobile intelligent terminal.

Further, the first conductive contact and the second conductive contact in the screen clicker are both used for receiving an electric signal of a screen of the mobile intelligent terminal.

Further, the screen clicker further comprises: a control unit; the control unit is used for generating a pulse electric signal or processing the electric signal and transmitting the pulse electric signal with the conductive part; the pulse electric signal is transmitted to the signal transmission port through wireless or wired transmission.

Further, the screen clicker further comprises: a screen data acquisition device; the screen data acquisition device is used for acquiring screen display data of the mobile intelligent terminal and transmitting the acquired display data to the control unit.

Further, the screen data acquisition device in the screen clicker is a camera or a screen projection device.

The utility model discloses hit head and screen contact at the point of the in-process, form the point to the screen through pulse signal, because the point is hit the head and is set up or laminate with mobile intelligent terminal's screen clearance all the time, also do not have part or part and mobile intelligent terminal's screen to take place relative motion or collision, so can not produce the noise because of the impact of physical motion, can not cause the screen damaged yet.

Drawings

Fig. 1 is a schematic structural view according to an embodiment of the present invention;

fig. 2 is a schematic three-dimensional structure according to an embodiment of the present invention;

fig. 3 is an enlarged schematic view of a partial structure according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a first embodiment of the bonding portion according to the embodiment of the present invention;

fig. 5 is a schematic structural view of a second embodiment of the bonding portion according to the embodiment of the present invention;

fig. 6 is a schematic structural view of a third embodiment of the bonding portion according to the embodiment of the present invention;

fig. 7 is a schematic cross-sectional view of an adsorbent layer according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of another embodiment of the novel embodiment according to the present practical application.

Reference numerals:

1000: a point head;

1100: an installation part;

1110: a first mounting surface;

1111: a first mounting hole;

1120: a second mounting surface;

1200: a conductive portion;

1210 a signal transmission port;

1220 a: a first conductive contact;

1220 b: a second conductive contact;

1300: a bonding section;

1310: an adsorption layer;

1311: a second mounting hole;

1300a, a first clamping end;

1300 b: a second clamping end;

1300 c: a telescopic part;

2000: a control unit;

3000: and a screen data acquisition device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. In the description of the present invention, it should be noted that the terms "first", "second" and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Referring to fig. 1, 2 and 3, in an embodiment of the screen clicker of the present invention, the screen clicker includes a clicker 1000, wherein the clicker 1000 includes an installation part 1100, a conductive part 1200 and a fitting part 1300, the installation part 1100 has a first installation surface 1110, the conductive part 1200 is used for transmitting a pulse electrical signal with a screen, the conductive part 1200 includes a signal transmission port 1210, a first conductive contact 1220a and a second conductive contact 1220b, wherein the first conductive contact 1220a and the second conductive contact 1220b are disposed at an interval, the first conductive contact 1220a is provided with a signal transmission port 1210, and similarly, the second conductive contact 1220b is provided with a signal transmission port 1210. Referring to fig. 3, the first conductive contact 1220a and the second conductive contact 1220b are disposed on the first mounting surface 1110, and the first conductive contact 1220a and the second conductive contact 1220b are exposed from the first mounting surface 1110, so that the first conductive contact 1220a and the second conductive contact 1220b can approach or contact with the screen due to being exposed from the first mounting surface 1110, and the mounting portion 1100 and the conductive portion 1200 are disposed in an insulating manner, and the attaching portion 1300 is used for disposing or attaching the first conductive contact 1220a and the second conductive contact 1220b in a gap with the screen. Specifically, the mounting portion 1100 is made of an insulating material to prevent the pulse electrical signal of the conductive portion 1200 from being attenuated or interfered by other factors to fail to form a click operation due to the signal transmitted to the mounting portion 1100, and the first conductive contact 1220a and the second conductive contact 1220b are made of a conductive material. The first conductive contact 1220a and the second conductive contact 1220b are spaced apart by a distance of no more than 10 mm.

Referring to fig. 3, a first mounting hole 1111 is formed in the mounting portion 1100, and the first conductive contact 1220a and the second conductive contact 1220b are disposed in the first mounting hole 1111, and the first conductive contact 1220a may be disposed coplanar with the first mounting surface 1110, may be disposed protruding from the first mounting surface 1110 as shown in fig. 3, may of course be recessed in the first mounting hole 1111, i.e., not protruding from the first mounting surface 1110, and similarly, the second conductive contact 1220b may be disposed coplanar with the first mounting surface 1110, may be disposed protruding from the first mounting surface 1110 as shown in fig. 3, and may of course be recessed in the first mounting hole 1111, i.e., not protruding from the first mounting surface 1110, and the depth of the first mounting hole (1111) is not more than 10mm, so as to ensure that the pulse signal is not attenuated.

The first conductive contact 1220a and the second conductive contact 1220b may send an electrical signal to the mobile intelligent terminal screen, receive an electrical signal from the mobile intelligent terminal screen, simultaneously send an electrical signal to the mobile intelligent terminal screen and receive an electrical signal from the mobile intelligent terminal screen, and certainly, the sending of the electrical signal to the mobile intelligent terminal screen and the receiving of the electrical signal from the mobile intelligent terminal screen by the first conductive contact 1220a and the second conductive contact 1220b may be performed at intervals. In order to ensure that the screen clicking device can be always attached to the screen, fig. 4 shows a first implementation form of the attaching portion 1300 in this embodiment, the attaching portion 1300 includes a first clamping end 1300a, a second clamping end 1300b and a telescopic portion 1300c, the first clamping end 1300a and the second clamping end 1300b are respectively disposed at two ends of the telescopic portion 1300c, the three are in a shape of [ "or approximately [", the telescopic portion 1300c is used for adjusting the distance between the first clamping end 1300a and the second clamping end 1300b, so that the first clamping end 1300a and the second clamping end 1300b can firmly clamp the mobile intelligent terminal, and the size of the mobile intelligent terminal can be adapted to the sizes of various mobile intelligent terminals. Referring to fig. 4, the mounting portion 1100 is fixedly disposed on the expansion portion 1300c, while fig. 5 illustrates a second embodiment of the attaching portion 1300 in the present embodiment, the mounting portion 1100 may also be fixedly disposed on the first clamping end 1300 a.

Referring to fig. 6, in order to ensure that the conductive part 1200 can approach or contact the screen when the first mounting surface 1110 is attached to the screen of the mobile intelligent terminal in an operating state, so as to ensure that the pulse electrical signal can be smoothly transmitted to the screen, a second mounting hole 1311 is disposed on the adsorption layer 1310, the first conductive contact 1220a and the second conductive contact 1220b are disposed in the second mounting hole 1311, and the adsorption layer 1310 is made of a nano-adsorption material or an electrostatic adsorption material. The attaching portion 1300 may also be a suction cup, and the installation portion 1100 is fixedly disposed through the suction cup, so as to be adsorbed on the screen through the suction cup.

The present embodiment may further include a control unit 2000, the control unit 2000 being configured to generate or process the pulse electrical signal and transmit the pulse electrical signal to the conducting part 1200, and the control unit 2000 may transmit the pulse electrical signal to the signal transmission port 1210 through wireless transmission or wired transmission. The pulse electrical signal is transmitted to the signal transmission port 1210 wirelessly or by wire, and in this embodiment, the pulse electrical signal is transmitted by a wire and is directly electrically connected to the signal transmission port 1210 through a wire. In the present embodiment, the mounting portion 1100 has a second mounting surface 1120, and the control unit 2000 is provided on the second mounting surface 1120.

The working principle of the embodiment is briefly explained below, and the screen clicking principle of the mobile intelligent terminal is as follows: since the human body has charges, after touching the screen of the mobile intelligent terminal, the local charge distribution is changed, and then the charges are sensed by the screen, so as to form a click, the screen clicker shown in this embodiment is attached to the screen of the mobile intelligent terminal or is arranged in a gap with the screen of the mobile intelligent terminal, so as to ensure that the conductive part 1200 is in contact with the screen or is kept at a close interval (not more than 5mm) under the action of the attaching part 1300, the control unit 2000 generates or processes a pulse electrical signal and transmits the pulse electrical signal to the conductive part 1200 through the signal transmission port 1210, since the conductive part 1200 is in contact with or arranged in a gap with the screen, the conductive part 1200 can interact with the screen of the mobile intelligent terminal, the screen is composed of two layers of capacitors, the X axis and the Y axis are respectively controlled, the first conductive contact 1220a and the second conductive contact 1220b interact with the capacitors for controlling, the signal for the mutual induction is generated or processed by the control unit 2000 so that information such as a position where the mutual induction occurs can be determined and clicking can be implemented.

Referring to fig. 8, the present embodiment may further include a screen data obtaining device 3000, where the screen data obtaining device 3000 is configured to obtain display data of the screen of the mobile intelligent terminal, and transmit the obtained display data to the control unit 2000, and after the control unit 2000 completes analysis of the display data, the control unit 2000 transmits a signal to the click head 1000 according to different conditions met by the display data, so as to complete the click. Specifically, the screen data obtaining device 3000 may be a camera, which is disposed above the screen to obtain the display data of the screen, or a screen projection device, which is connected to the data interface of the mobile intelligent terminal to obtain the current display data of the screen of the mobile intelligent terminal. For example, in the process of testing software, if the display value of a certain area in the screen needs to be greater than or equal to 100 yuan, then clicking is performed, the display data of the screen of the mobile intelligent terminal is monitored by the screen data acquisition device and transmitted to the control unit 2000 in real time, and when the display data of the area is 110 yuan, and the click condition is met, the control unit 2000 transmits a signal to the click head 1000 to perform a click operation.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

In the above description, the technical details of patterning, etching, and the like of each layer are not described in detail. It will be understood by those skilled in the art that layers, regions, etc. of the desired shape may be formed by various means known in the art. In addition, in order to form the same structure, those skilled in the art can also design a method which is not exactly the same as the method described above.

The above description refers to the embodiments of the present invention. However, these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof. Various alternatives and modifications can be devised by those skilled in the art without departing from the scope of the invention, and these alternatives and modifications are intended to be within the scope of the invention.

Claims (19)

1. An on-screen clicker, comprising:

a click head (1000);

the clicking head (1000) comprises an installation part (1100), a conductive part (1200) and a fitting part (1300);

the mounting portion (1100) has a first mounting surface (1110);

the conductive portion (1200) comprises a signal transmission port (1210), a first conductive contact (1220a), and a second conductive contact (1220 b);

the first conductive contact (1220a) and the second conductive contact (1220b) are arranged at intervals;

said first electrically conductive contact (1220a) is provided with one of said signal transmission ports (1210);

said second conductive contact (1220b) is provided with one of said signal transmission ports (1210);

the first conductive contact (1220a) and the second conductive contact (1220b) are disposed on the first mounting surface (1110), and the first conductive contact (1220a) and the second conductive contact (1220b) are exposed to the first mounting surface (1110);

the installation part (1100) and the conductive part (1200) are arranged in an insulating way;

the attaching part (1300) is used for arranging or attaching the first conductive contact (1220a) and the second conductive contact (1220b) with a screen gap.

2. The screen clicker of claim 1, wherein:

the mounting portion (1100) is made of an insulating material;

the first conductive contact (1220a) and the second conductive contact (1220b) are made of a conductive material.

3. The screen clicker of claim 1, wherein:

a first mounting hole (1111) is formed in one surface, located on the first mounting surface (1110), of the mounting portion (1100);

the first conductive contact (1220a) and the second conductive contact (1220b) are disposed within the first mounting hole (1111).

4. The screen clicker of claim 3, wherein:

the first conductive contact (1220a) is disposed coplanar with the first mounting surface (1110), or the first conductive contact (1220a) is recessed in the first mounting hole (1111).

5. The screen clicker of claim 3 or 4, wherein:

the second conductive contact (1220b) is disposed coplanar with the first mounting surface (1110), or the second conductive contact (1220b) is recessed in the first mounting hole (1111).

6. The screen clicker of claim 3, wherein:

the depth of the first mounting hole (1111) does not exceed 10 mm.

7. The screen clicker of any of claims 1-3, wherein:

the first conductive contact (1220a) and the second conductive contact (1220b) are spaced apart by a distance of no more than 10 mm.

8. The screen clicker of claim 1, wherein:

the attaching part (1300) is a sucker;

the sucker is fixedly arranged with the mounting part (1100).

9. The screen clicker of claim 1, wherein:

the attaching portion (1300) comprises a first clamping end (1300a), a second clamping end (1300b) and a telescopic portion (1300 c);

the first clamping end (1300a) and the second clamping end (1300b) are respectively arranged at two ends of the telescopic part (1300 c);

the first clamping end (1300a), the second clamping end (1300b) and the telescopic part (1300c) are in a [ -shape or approximately [ -shape;

the mounting portion (1100) is fixedly arranged with the first clamping end (1300a) or the second clamping end (1300 b).

10. The screen clicker of claim 1, wherein:

the bonding part (1300) is an adsorption layer (1310);

the adsorption layer (1310) is attached to the first mounting surface (1110);

the adsorption layer (1310) is provided with at least one second mounting hole (1311);

the first conductive contact (1220a) and the second conductive contact (1220b) are disposed within the second mounting hole (1311).

11. The screen clicker of claim 10, wherein:

the adsorption layer (1310) is made of a nano-adsorption material or an electrostatic adsorption material.

12. The screen clicker of claim 1, wherein:

the first conductive contact (1220a) is used for sending a pulse electrical signal to a screen of the mobile intelligent terminal, and the second conductive contact (1220b) is used for receiving an electrical signal of the screen of the mobile intelligent terminal.

13. The screen clicker of claim 1, wherein:

the first conductive contact (1220a) and the second conductive contact (1220b) are used for sending pulse electric signals to a screen of the mobile intelligent terminal.

14. The screen clicker of claim 1, wherein:

the first conductive contact (1220a) and the second conductive contact (1220b) are used for receiving an electric signal of a screen of the mobile intelligent terminal.

15. The screen clicker of any of claims 1-4, 6, 8-14, further comprising:

a control unit (2000);

the control unit (2000) is used for generating a pulse electric signal or processing an electric signal and transmitting the pulse electric signal with the conductive part (1200);

the pulsed electrical signal is communicated to the signal transmission port (1210) wirelessly or by wire.

16. The screen clicker of claim 5, further comprising:

a control unit (2000);

the control unit (2000) is used for generating a pulse electric signal or processing an electric signal and transmitting the pulse electric signal with the conductive part (1200);

the pulsed electrical signal is communicated to the signal transmission port (1210) wirelessly or by wire.

17. The screen clicker of claim 7, further comprising:

a control unit (2000);

the control unit (2000) is used for generating a pulse electric signal or processing an electric signal and transmitting the pulse electric signal with the conductive part (1200);

the pulsed electrical signal is communicated to the signal transmission port (1210) wirelessly or by wire.

18. The screen clicker of claim 15, further comprising:

a screen data acquisition device;

the screen data acquisition device is used for acquiring display data of a screen of the mobile intelligent terminal and transmitting the acquired display data to the control unit (2000).

19. The screen clicker of claim 18, wherein:

the screen data acquisition device is a camera or a screen projection device.

Images