CN209913104U - Connecting structure of pen body and data line - Google Patents

Abstract

The utility model provides a connection structure of handwriting and data line, include: connect A end and connect the B end, it is provided with conductive electrode to connect the A end, connect the B end be provided with the conductive contact that conductive electrode corresponds, it still is provided with to connect the A end: have A end magnetic device of A end power supply function, A end magnetic pole function and ground wire function simultaneously, it still is provided with to connect the B end: and the B-end magnetic device corresponds to the A-end magnetic device and simultaneously has a B-end power supply function, a B-end magnetic pole function and a ground wire function. The utility model provides a connection structure of handwriting and data transmission and charging wire need not to aim at the hole site specially and can connect and avoid pulling out the connection structure of inserting the operation many times, has characteristics such as save material, convenient operation and not fragile.

Description

Connecting structure of pen body and data line

Technical Field

The utility model relates to a wired intelligent pen technical field, in particular to connection structure of handwriting and data line.

Background

In data transmission and charging wires in the existing market, most electrical equipment is charged or acquires data information such as audio and pictures in a mode of inserting a data wire into a specific jack of the equipment. The data line is easy to damage the jacks of the equipment after being plugged and pulled for many times; and the hole positions also need to be specially aligned, so that the actual operation is very inconvenient; and the data transmission and charging wires basically need elastic conductive electrodes with 4 or 5 pins to realize charging and data transmission.

SUMMERY OF THE UTILITY MODEL

The utility model provides a connection structure of handwriting and data line need not to aim at the hole site specially and can connect and avoid the connection structure of many times pulling out and inserting the operation, has characteristics such as save material, convenient operation and not fragile.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model provides a connection structure of handwriting and data line, include: connect A end 1 and connect B end 2, it is provided with conductive electrode to connect A end 1, it is provided with conductive electrode's electrically conductive contact to connect B end 2.

The connection A end 1 is further provided with: and an A-terminal magnetic device 10 having an A-terminal power supply function, an A-terminal magnetic pole function, and a ground line function.

The connection B end 2 is also provided with: and a B terminal magnetic device 20 corresponding to the A terminal magnetic device 10 and having a B terminal power supply function, a B terminal magnetic pole function and a ground wire function.

Preferably, the power supply at the A end is a power supply negative electrode at the A end with a power supply negative electrode function, and the power supply at the B end is a power supply negative electrode at the B end with a power supply negative electrode function.

Preferably, the conductive electrodes comprise a data line positive electrode 11, a data line negative electrode 12 and a power supply positive electrode conductive electrode 15, and the conductive contacts comprise a positive electrode contact 21 corresponding to the data line positive electrode 11, a negative electrode contact 22 corresponding to the data line negative electrode 12 and a power supply positive electrode contact 23 corresponding to the power supply positive electrode conductive electrode 15;

or, the conductive electrode comprises a data line positive electrode 11 and a data line negative electrode 12, and the conductive contact comprises a positive electrode contact 21 corresponding to the data line positive electrode 11 and a negative electrode contact 22 corresponding to the data line negative electrode 12;

or, the conductive electrode comprises a power supply positive electrode conductive electrode 15, and the conductive contact comprises a power supply positive electrode contact 23 corresponding to the power supply positive electrode conductive electrode 15.

Preferably, an insulating layer is arranged between the power supply positive electrode conductive electrode 15 and the end a power supply negative electrode, and an insulating layer is also arranged between the power supply positive electrode contact 23 and the end B power supply negative electrode.

Preferably, the distance between the data line positive electrode 11, the data line negative electrode 12 and the power supply positive electrode conductive electrode 15 is the same as the distance between the positive electrode contact 21, the negative electrode contact 22 and the power supply positive electrode contact 23.

Preferably, the connection A end 1 is rotatably connected with the connection B end 2.

Preferably, the areas of the conductive contact surfaces of the data line positive electrode 11, the power supply positive electrode conductive electrode 12 and the data line negative electrode 15 connected to the end a are smaller than the areas of the positive electrode contact 21, the negative electrode contact 22 and the power supply positive electrode contact 23 connected to the end B.

Preferably, when the a-terminal magnetic pole and the B-terminal magnetic pole are opposite magnetic poles.

Preferably, the connection A end 1 and the connection B end 2 are both oval.

Preferably, the connection end a 1 is provided with 5 conductive electrodes, and the distribution positions are as follows: a power supply positive conductive electrode 15 is arranged at the center, a pair of data line positive electrodes 11 and data line negative electrodes 12 are arranged on two sides of the power supply positive conductive electrode 15, the two data line positive electrodes 11 are symmetrically distributed on two sides by taking the power supply positive conductive electrode 15 as the center, and the two data line negative electrodes 12 are symmetrically distributed on two sides by taking the power supply positive conductive electrode 15 as the center;

connect B end 2 and be provided with 5 electrically conductive contacts, its distribution position is: a power supply positive contact 23 is arranged at the center, a pair of positive electrode contacts 21 and negative electrode contacts 22 are arranged on two sides of the power supply positive contact 23, the two positive electrode contacts 21 are symmetrically distributed on two sides by taking the power supply positive contact 23 as the center, and the two negative electrode contacts 22 are symmetrically distributed on two sides by taking the power supply positive contact 23 as the center; or, connect B end 2 and be provided with 3 electrically conductive contacts, its distribution position is: a power source positive electrode contact 23 is provided at a central position, and a pair of positive electrode contact 21 and negative electrode contact 22 are provided at one side.

Through implementing above technical scheme, have following technological effect: the utility model provides a connection structure of handwriting and data line solves the current hole site of aiming at specially, troublesome poeration and the easy scheduling problem that damages of repetitious usage that charges and the needs that data transmission line interface exists.

Drawings

Fig. 1 is a general schematic diagram of a connection structure having three conductive contacts according to the present invention;

fig. 2 is a schematic view of a connection structure of three conductive contacts distributed on one side of a major radius according to the present invention;

fig. 3 is a schematic view of a connection structure of three conductive contacts distributed on one side of a short radius according to the present invention;

fig. 4 is a schematic view of a connection structure having five conductive contacts according to the present invention.

Detailed Description

For better understanding of the technical solutions of the present invention, the following detailed description of the embodiments provided in the present invention is provided with reference to the accompanying drawings.

The utility model provides a connection structure of handwriting and data line, as shown in fig. 1-3, include: the pen body is connected with an end A1 and an end B2, preferably, the end A is arranged on a data transmission and charging line, and the end B is arranged on the pen body; in other embodiments, the connection B end may be disposed on the data transmission and charging line, and the connection a end may be disposed on the pen body.

The connection A end 1 is provided with a conductive electrode, the connection B end 2 is provided with a conductive contact corresponding to the conductive electrode, the connection A end 1 is further provided with an A end magnetic device 10, and the A end magnetic device 10 has an A end power supply function, an A end magnetic pole function and a ground wire function at the same time. The connection terminal B2 is further provided with a terminal B magnetic device 20, and the terminal B magnetic device 20 corresponds to the terminal a magnetic device 10 and has a terminal B power supply function, a terminal B magnetic pole function and a ground wire function. Preferably, the connection end a and the connection end B are both elliptical, the outer rings of the end faces of the connection end a and the connection end B are respectively provided with a circle of magnetic material, and the magnetic material is respectively plated with a layer of conductive metal as a power supply cathode, preferably, the conductive metal is nickel, and the magnetic material is also respectively connected with a ground wire, so that the end a magnetic device 10 and the end B magnetic device 20 are formed.

In this embodiment, preferably, the a-terminal power supply is an a-terminal power supply cathode having a power supply cathode function, and the B-terminal power supply is a B-terminal power supply cathode having a power supply cathode function.

In this embodiment, preferably, the conductive electrode includes a data line positive electrode 11, a data line negative electrode 12 and a power supply positive electrode 15, the conductive contact includes a positive electrode contact 21 corresponding to the data line positive electrode 11, a negative electrode contact 22 corresponding to the data line negative electrode 12 and a power supply positive electrode contact 23 corresponding to the power supply positive electrode 15, and the connection structure of the pen body and the data line is used for the pen body to be in contact connection with the data line having data transmission and charging functions. Preferably, the number of the conductive electrodes is three, one is a positive electrode contact, one is a negative electrode contact, and the other is a power supply positive electrode contact; in other embodiments, as shown in fig. 4, two positive electrode contacts and two negative electrode contacts may also be provided. In other embodiments, more pairs of data line positive electrodes and data line negative electrodes may be provided, and the data line positive electrode contact and the data line negative electrode contact may also be provided in plurality.

Or, the conductive electrode comprises a data line positive electrode 11 and a data line negative electrode 12, the conductive contact comprises a positive electrode contact 21 corresponding to the data line positive electrode 11 and a negative electrode contact 22 corresponding to the data line negative electrode 12, and the connection structure of the pen body and the data line is used for the contact connection of the pen body and the data line with a data transmission function.

Or, the conductive electrode comprises a power supply positive conductive electrode 15, the conductive contact comprises a power supply positive contact 23 corresponding to the power supply positive conductive electrode 15, and when the charging function is realized, only one power supply positive conductive electrode and one power supply positive conductive contact are arranged.

In this embodiment, preferably, as shown in fig. 1, the connection a end 1 and the connection B end 2 are both elliptical, and the elliptical structure can better realize the connection between the connection a end and the connection B end.

On the basis of the above embodiment, in other embodiments, further, as shown in fig. 1 or fig. 4, 5 conductive electrodes are disposed at the connection a end 1, and the distribution positions are: the power supply positive conductive electrode 15 is arranged at the center, a pair of data line positive electrodes 11 and data line negative electrodes 12 are arranged on two sides of the power supply positive conductive electrode 15, the two data line positive electrodes 11 are symmetrically distributed on two sides by taking the power supply positive conductive electrode 15 as the center, and the two data line negative electrodes 12 are symmetrically distributed on two sides by taking the power supply positive conductive electrode 15 as the center.

Connect B end 2 and be provided with 5 electrically conductive contacts, its distribution position is: a power supply positive contact 23 is arranged at the center, a pair of positive electrode contacts 21 and negative electrode contacts 22 are arranged on two sides of the power supply positive contact 23, the two positive electrode contacts 21 are symmetrically distributed on two sides by taking the power supply positive contact 23 as the center, and the two negative electrode contacts 22 are symmetrically distributed on two sides by taking the power supply positive contact 23 as the center; or, connect B end 2 and be provided with 3 electrically conductive contacts, its distribution position is: a power source positive electrode contact 23 is provided at a central position, and a pair of positive electrode contact 21 and negative electrode contact 22 are provided at one side. When connecting the B end and being provided with five conductive contact, connect the conducting electrode on the A end respectively with the conductive contact one-to-one of connection B end, when connecting the B end and being provided with three conductive contact, the anodal conducting electrode of power with the anodal contact of power corresponds, connect one of them a pair of data line positive electrode and data line negative electrode of A end and the positive electrode contact and the negative electrode contact of connecting the B end and correspond each other, still can guarantee to be connected through connecting the A end and connecting the B end and carry out data transmission.

On the basis of the above embodiment, in other embodiments, an insulating layer is further disposed between the power source positive electrode conductive electrode 15 and the a-terminal power source negative electrode, and an insulating layer is also disposed between the power source positive electrode contact 23 and the B-terminal power source negative electrode. Preferably, the insulation layer connecting the a terminal is disposed between the a terminal magnetic device and the power supply positive electrode conductive electrode 15, and the insulation layer connecting the B terminal is disposed between the B terminal magnetic device and the power supply positive electrode contact 23. Preferably, the insulating layer is made of silica gel and is tiled between the positive electrode and the negative electrode of the power supply in a certain thickness, and in other embodiments, the insulating layer may also be made of resin, plastic, PVC (polyvinyl chloride), or other materials.

In this embodiment, it is preferable that the data line positive electrode 11, the data line negative electrode 13, and the power supply positive electrode conductive electrode 12 are all elastic conductive electrodes. Preferably, the elastic conductive electrode is cylindrical, and the elastic conductive electrode protrudes out of the end face connected with the end a by a distance, so that the data line positive electrode 11, the data line negative electrode 13 and the power supply positive conductive electrode 12 are respectively in contact with and connected with the positive electrode contact 21, the negative electrode contact 22 and the power supply positive contact 23.

In the present embodiment, it is preferable that the distance between the data line positive electrode 11, the data line negative electrode 12, and the power supply positive electrode conductive electrode 15 is the same as the distance between the positive electrode contact 21, the negative electrode contact 22, and the power supply positive electrode contact 23. Preferably, the connection end a and the connection end B are both elliptical, and in order to facilitate sufficient and rotatable contact connection of the conductive electrode and the contact, the data line positive electrode 11 and the data line negative electrode 12 are symmetrically distributed relative to the center position of the connection end a, and the power supply positive conductive electrode 15 is disposed at the center position of the connection end a. As shown in fig. 4, when two data line positive electrodes and two data line negative electrodes are disposed to connect the a terminal, the data line positive electrodes and the data line negative electrodes are symmetrically distributed with respect to the center of the power supply positive conductive electrode. The distances among the positive electrode contact 21, the negative electrode contact 22 and the power supply positive electrode contact 23 on the connection end B are the same as the distances among the data line positive electrode 11, the data line negative electrode 12 and the power supply positive electrode conductive electrode 15 on the connection end A, so that when the connection end A is in contact connection with the connection end B, the contact between the conductive electrodes and the contacts can be realized on the left and the right without aligning the positions, the operation is simple, and the use by a user is convenient.

In this embodiment, preferably, the connection a terminal 1 is rotatably connected to the connection B terminal 2, and when the connection a terminal and the connection B terminal are both configured to be circular, the conductive electrode of the connection a terminal is rotatably connected to the conductive contact of the connection B terminal in a corresponding contact manner.

On the basis of the above embodiment, in other embodiments, further, the area of the conductive contact surface of the positive electrode data line 11, the negative electrode data line 12 and the power supply positive electrode 15 of the connection a end is smaller than the area of the positive electrode contact 21, the negative electrode contact 22 and the power supply positive electrode contact 23 of the connection B end. When the area of the conductive contact connected with the end B is larger than the contact surface of the conductive electrode connected with the end A, the conductive electrode can be ensured to be fully contacted with the conductive contact, and the stability of data transmission and charging is ensured.

On the basis of the above embodiment, in other embodiments, further, when the end a magnetic pole and the end B magnetic pole are opposite magnetic poles, and when the end a magnetic pole is an N pole, the end B magnetic pole is an S pole; when the A-end magnetic pole is an S pole and the B-end magnetic pole is an N pole, the connection A end and the connection B end are ensured to be close to each other, the connection A end and the connection B end can be magnetically connected together, further, the conductive electrode is ensured to be fully contacted with the conductive contact, the connection can be carried out without specially aligning with a hole position, and the connection structure is prevented from being damaged by multiple plugging and unplugging operations.

The above is to the connection structure of the pen body and the data line provided by the embodiment of the present invention is introduced in detail, to the general technical personnel in the field, according to the utility model discloses the thought of the embodiment all has the change part on concrete implementation and application scope, to sum up, this description content should not be understood as the restriction of the present invention.

Claims (10)

1. The utility model provides a connection structure of handwriting and data line which characterized in that: the method comprises the following steps: the device comprises a connection A end (1) and a connection B end (2), wherein the connection A end (1) is provided with a conductive electrode, and the connection B end (2) is provided with a conductive contact corresponding to the conductive electrode;

connect A end (1) and still be provided with: an A-terminal magnetic device (10) having an A-terminal power supply function, an A-terminal magnetic pole function, and a ground wire function;

the connection B end (2) is also provided with: and the terminal B magnetic device (20) corresponds to the terminal A magnetic device (10) and simultaneously has a terminal B power supply function, a terminal B magnetic pole function and a ground wire function.

2. The connection structure of a pen body and a data line according to claim 1, characterized in that: the terminal A power supply is a terminal A power supply cathode with a power supply cathode function, and the terminal B power supply is a terminal B power supply cathode with a power supply cathode function.

3. The connection structure of a pen body and a data line according to claim 1, characterized in that: the conductive electrode comprises a data line positive electrode (11), a data line negative electrode (12) and a power supply positive electrode conductive electrode (15), and the conductive contact comprises a positive electrode contact (21) corresponding to the data line positive electrode (11), a negative electrode contact (22) corresponding to the data line negative electrode (12) and a power supply positive electrode contact (23) corresponding to the power supply positive electrode conductive electrode (15);

or, the conductive electrode comprises a data line positive electrode (11) and a data line negative electrode (12), and the conductive contact comprises a positive electrode contact (21) corresponding to the data line positive electrode (11) and a negative electrode contact (22) corresponding to the data line negative electrode (12);

or the conductive electrode comprises a power supply positive electrode conductive electrode (15), and the conductive contact comprises a power supply positive electrode contact (23) corresponding to the power supply positive electrode conductive electrode (15).

4. The connection structure of a pen body and a data line according to claim 3, characterized in that: an insulating layer is arranged between the power supply positive electrode conducting electrode (15) and the A-end power supply negative electrode, and an insulating layer is also arranged between the power supply positive contact (23) and the B-end power supply negative electrode.

5. The connection structure of a pen body and a data line according to claim 1, 2 or 3, wherein: the distances among the data line positive electrode (11), the data line negative electrode (12) and the power supply positive electrode conductive electrode (15) are the same as the distances among the positive electrode contact (21), the negative electrode contact (22) and the power supply positive electrode contact (23).

6. The connection structure of a pen body and a data line according to claim 1, 2 or 3, wherein: the connection end A (1) is rotatably connected with the connection end B (2).

7. The connection structure of a pen body and a data line according to claim 1, 2 or 3, wherein: the areas of the conductive contact surfaces of the data line positive electrode (11), the power supply positive electrode conductive electrode (12) and the data line negative electrode (15) connected with the end A are smaller than the areas of the positive electrode contact (21), the negative electrode contact (22) and the power supply positive electrode contact (23) connected with the end B.

8. The connection structure of a pen body and a data line according to claim 1, characterized in that: when the A end magnetic pole and the B end magnetic pole are opposite magnetic poles.

9. The connection structure of a pen body and a data line according to claim 1, characterized in that: the connection end A (1) and the connection end B (2) are both elliptical.

10. The connection structure of a pen body and a data line according to claim 1, characterized in that: connect A end (1) and set up 5 conductive electrode, its distribution position is: a power supply positive conductive electrode (15) is arranged at the center, a pair of data line positive electrodes (11) and data line negative electrodes (12) are arranged on two sides of the power supply positive conductive electrode, the two data line positive electrodes (11) are symmetrically distributed on two sides by taking the power supply positive conductive electrode (15) as the center, and the two data line negative electrodes (12) are symmetrically distributed on two sides by taking the power supply positive conductive electrode (15) as the center;

connect B end (2) and be provided with 5 electrically conductive contacts, its distribution position is: the power supply positive contact (23) is arranged at the center, a pair of positive electrode contacts (21) and negative electrode contacts (22) are arranged on two sides of the power supply positive contact (23), the two positive electrode contacts (21) are symmetrically distributed on two sides by taking the power supply positive contact (23) as the center, and the two negative electrode contacts (22) are symmetrically distributed on two sides by taking the power supply positive contact (23) as the center;

or, connect B end (2) and be provided with 3 electrically conductive contacts, its distribution position is: a power source positive electrode contact 23 is provided at a central position, and a pair of positive electrode contacts 21 and negative electrode contacts 22 are provided at one side.

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