CN212779085U - SMD electron skin unit and SMD electron skin - Google Patents

Abstract

The utility model relates to the technical field of sensing, in particular to a patch type electronic skin unit and a patch type electronic skin, wherein the patch type electronic skin unit comprises an electrode layer, a first substrate layer and electrode pins, and the electrode layer can form capacitance with a close conductor; the electrode layer is arranged on the first substrate layer, one end of the electrode pin is electrically connected with the electrode layer, the other end of the electrode pin is used for connecting a detection circuit, and the detection circuit is used for generating an electric signal representing capacitance or variation thereof; the electrode layer and the first base material layer are of flexible structures. According to the patch type electronic skin provided by the embodiment, the whole structure is flexible, the patch type electronic skin can be arranged on a plane and also can be arranged on a surface with radian or at a corner, and the adaptability is strong.

Description

SMD electron skin unit and SMD electron skin

Technical Field

The utility model relates to a sensing technology field, concretely relates to SMD electron skin unit and SMD electron skin.

Background

The electronic skin can be attached to the surface of the robot to help the robot to know external environment information and make a proper response, and the electronic skin can be arranged on carriers such as the robot, medical equipment, a human body prosthesis and wearable equipment and used for sensing external physical information. Most of the existing electronic skins are rigid and are convenient to fix on a plane object, but in practical application scenes, the electronic skins need to be fixed on a surface with a radian or a corner in many times, so that the existing electronic skins cannot be used, and the applicability of the existing electronic skins is poor.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves is that current electron skin suitability is relatively poor.

A patch-style electronic skin unit comprising:

an electrode layer capable of forming a capacitance with a conductor in proximity;

the electrode layer is arranged on the first base material layer; and

one end of the electrode pin is electrically connected with the electrode layer, the other end of the electrode pin is used for being connected with a detection circuit, and the detection circuit is used for generating an electric signal representing the capacitance or the variation of the capacitance;

the electrode layer and the first base material layer are of flexible structures.

In one embodiment, the electrode layer comprises a conductive sheet;

or the electrode layer includes an adhesion sheet and a conductive film provided on the adhesion sheet.

In one embodiment, the electrode layer further comprises a conductive stiffening layer, the conductive stiffening layer being a conductive substance or comprising a conductive object;

the conductive reinforcing layer is arranged on the upper surface or the lower surface of the conductive sheet, and the conductive substance is electrically connected with the conductive sheet; or the conductive reinforcing layer is arranged on the surface of the conductive film, and the conductive reinforcing layer is electrically connected with the conductive film.

In one embodiment, the electrode pin is electrically connected to the conductive stiffening layer.

In one embodiment, the conductive stiffening layer comprises a metal mesh having a grid structure, and the metal mesh is uniformly covered on the conductive sheet or the conductive film.

In one embodiment, the metal mesh is disposed on the upper surface of the conductive sheet or the metal mesh is disposed between the conductive sheet and the first substrate layer, and the metal mesh is electrically connected to the conductive sheet; or the metal mesh is arranged on the surface of the conductive film and is electrically connected with the conductive film;

the electrode pins are connected with the metal mesh.

In one embodiment, the conductive reinforcing layer comprises a flexible second substrate layer and a metal mesh embedded in the second substrate layer, and one surface of the metal mesh is arranged on the surface of the second substrate layer to form a conductive surface;

the second base material layer is arranged on the upper surface of the conducting strip or the second base material layer is arranged between the conducting strip and the first base material layer, and the conducting surface is electrically connected with the conducting strip; or the second base material layer is arranged on the surface of the conductive film, and the conductive surface is electrically connected with the conductive film;

the electrode pin is electrically connected with the metal mesh.

In one embodiment, a thermoplastic layer is further included, the thermoplastic layer being configured on the electrode layer.

In one embodiment, the adhesive device further comprises a flexible adhesive layer, wherein the adhesive layer is arranged on the lower surface of the first base material layer; the sticking layer comprises sticky substances and is used for sticking on an object to be fixed;

the upper end of the electrode pin is electrically connected with the conducting strip or the conducting film, and the lower end of the electrode pin penetrates through the first base material layer and is arranged outside the first base material layer.

In one embodiment, an electrode sheet is disposed on a surface of the first substrate layer, the electrode sheet is electrically connected to the conductive sheet or the conductive film, the electrode pin is disposed on a surface of the first substrate layer and has one end electrically connected to the electrode sheet and the other end disposed outside the first substrate layer.

In one embodiment, the first substrate layer is a composite structure and comprises an upper layer and a lower layer, the electrode plate is arranged between the upper layer and the lower layer, the upper layer is further provided with a through hole for the electrode plate to penetrate through, the upper end of the electrode plate penetrates through the through hole and is electrically connected with the conducting strip or the conducting film, the electrode pin is arranged between the upper layer and the lower layer, one end of the electrode pin is electrically connected with the electrode plate, and the other end of the electrode pin is arranged outside the first substrate layer.

In one embodiment, the first substrate layer is provided with an electrode plate, the electrode plate is electrically connected with the conductive surface formed by the metal mesh or the metal mesh, the electrode pin is arranged on the first substrate layer, one end of the electrode pin is electrically connected with the electrode plate, and the other end of the electrode pin is arranged outside the first substrate layer.

In one embodiment, the conductive sheet further comprises a flexible insulating protective layer arranged on the upper surface of the conductive sheet; or the insulating protection layer is arranged on the upper surface of the conductive reinforcing layer.

A patch type electronic skin comprises the patch type electronic skin unit;

the electrode pin is electrically connected with the detection circuit, and the detection circuit is used for generating an electric signal representing the capacitance or the variation thereof.

A patch type electronic skin comprises at least two patch type electronic skin units;

the patch type electronic skin unit also comprises at least one detection circuit, wherein the detection circuit is electrically connected with at least one electrode pin of the patch type electronic skin unit.

A patch type electronic skin comprises at least two patch type electronic skin units;

the detection circuit is electrically connected with at least one electrode pin of the patch type electronic skin unit;

the processing chip is electrically connected with the detection circuit of the patch type electronic skin unit and used for receiving and processing the converted electric signal.

According to the patch type electronic skin unit and the patch type electronic skin of the embodiment, the patch type electronic skin unit comprises an electrode layer, a first substrate layer and electrode pins, wherein the electrode layer and a close conductor can form a capacitor; the electrode layer is arranged on the first substrate layer, one end of the electrode pin is electrically connected with the electrode layer, the other end of the electrode pin is used for connecting a detection circuit, and the detection circuit is used for generating an electric signal representing capacitance or variation thereof; the electrode layer and the first base material layer are of flexible structures. According to the patch type electronic skin provided by the embodiment, the whole structure is flexible, the patch type electronic skin can be arranged on a plane and also can be arranged on a surface with radian or at a corner, and the adaptability is strong.

Drawings

Fig. 1 is an exploded view of a patch type electronic skin unit according to an embodiment of the present application;

fig. 2 is an exploded view of a patch type electronic skin unit according to another embodiment of the present application;

fig. 3 is an exploded view of a patch type electronic skin unit according to another embodiment of the present application;

fig. 4 is an exploded view of a patch type electronic skin unit according to another embodiment of the present application;

FIG. 5 is an exploded view of a patch type electronic skin unit according to another embodiment of the present application

Fig. 6 is an exploded view of a patch type electronic skin unit according to another embodiment of the present application;

fig. 7 is an exploded view of a patch type electronic skin unit according to another embodiment of the present application;

fig. 8 is an exploded view of a patch type electronic skin unit according to another embodiment of the present application;

fig. 9 is an exploded view of a patch type electronic skin unit according to another embodiment of the present application;

fig. 10 is a schematic structural diagram of a patch type electronic skin according to an embodiment of the present application;

fig. 11 is a schematic structural diagram of a patch type electronic skin according to another embodiment of the present application;

fig. 12 is a schematic structural diagram of a patch type electronic skin according to another embodiment of the present application.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

This application is for improving the adaptability of electron skin, and it can use on having the radian surperficial or the department of turning to fit for it, provides a SMD electron skin unit, and it includes electrode layer and first substrate layer, and the electrode layer depends on the upper surface on first substrate layer and with first substrate layer fixed connection. The electrode layer and the first base material layer are of flexible structures. The electrode layer comprises a conductive sheet, or the electrode layer comprises an attaching sheet and a conductive film arranged on the surface of the attaching sheet; and the conducting plate or the conducting film is provided with an electrode pin for connecting a detection circuit. The patch type electronic skin structure can be bent and applied to the surface with radian, a corner or a plane, so that the applicability of the patch type electronic skin is improved.

The first embodiment is as follows:

referring to fig. 1, the present embodiment provides a patch type electronic skin unit, which includes an electrode layer 1, a first substrate layer 2, and electrode pins 4, where the electrode layer 1 and a nearby conductor can form a capacitor; the electrode layer 1 is arranged on the first substrate layer 2, one end of the electrode pin 4 is electrically connected with the electrode layer 1, the other end of the electrode pin 4 is connected with the detection circuit 3, and the detection circuit 3 is used for generating an electric signal representing capacitance or variation thereof. Wherein, electrode layer 1 and first substrate layer 2 are flexible structure, adopt to possess certain pliability material to make, for example: the electrode layer 1 may be a film-like structure made of a metal or nonmetal conductive material such as copper foil or gold foil, and the first substrate layer 2 may be a film-like structure made of a nonconductive material such as PE or PVC. According to the patch type electronic skin unit provided by the embodiment, the whole structure is flexible, the patch type electronic skin unit can be arranged on a plane, can also be arranged on a surface with radian or at a corner, can deform along with the difference of the shapes of the arranged positions, and has strong adaptability.

As shown in fig. 2, in an embodiment, the patch type electronic skin unit includes an electrode layer 1 and a first substrate layer 2, and the electrode layer 1 is attached to an upper surface of the first substrate layer 2. Further, the patch type electronic skin unit further comprises a flexible adhesive layer 6, and the adhesive layer 6 is arranged on the lower surface of the first substrate layer 2; paste layer 6 and include the stickum for paste on treating fixed object, paste layer 6 surface and include that the one deck is from the type membrane, when needing to paste on the object, tear and leave the type membrane can. Further, this SMD electron skin unit still includes electrode pin 4 and detection circuitry 3, and electrode pin 4 upper end is connected with electrode layer 1 electricity, and the lower extreme passes first substrate 2 in proper order and pastes layer 6 and set up in the outside of pasting layer 6, and the lower extreme of electrode pin 4 is used for being connected with detection circuitry 3 electricity. The detection circuit 3 is used to generate an electrical signal representing the capacitance or the amount of change thereof.

As shown in fig. 3, in one embodiment, the electrode layer 1 includes a conductive sheet 11, for example, the conductive sheet 11 may be a copper foil, a gold foil; this SMD electron skin unit still includes electrode slice 5, and electrode slice 5 sets up on first substrate layer 2 to electrode slice 5 welds and is connected with the electricity with conducting strip 11, and 4 one ends of electrode pin and 5 welding of electrode slice, the other end extends to its side along the upper surface of first substrate layer 2, and the other end of electrode pin 4 is used for connecting detection circuitry 3.

In another embodiment, as shown in fig. 4, the electrode layer 1 includes an adhesion sheet 12 and a conductive film 13 disposed on the surface of the adhesion sheet 12, for example, the conductive film 13 is a copper film or a gold film formed on the adhesion sheet 12 by electroplating or spraying; still be equipped with the mounting groove or the mounting hole that is used for setting up electrode slice 5 on adhesion sheet 12, electrode slice 5 sets up in this mounting groove or mounting hole and welds and be connected with conducting film 13 electricity, and electrode pin 4 one end and electrode slice 5 welding, the other end extends to its side along the upper surface of first substrate layer 2, and the other end of electrode pin 4 is used for connecting detection circuitry 3.

In another embodiment, as shown in fig. 5, the patch type electronic skin unit includes an electrode layer 1 and a first substrate layer 2, and the electrode layer 1 is attached to an upper surface of the first substrate layer 2. Further, the patch type electronic skin unit further comprises a flexible adhesive layer 6, and the adhesive layer 6 is arranged on the lower surface of the first substrate layer 2; paste layer 6 and include the stickum for paste on treating fixed object, paste layer 6 surface and include that the one deck is from the type membrane, when needing to paste on the object, tear and leave the type membrane can. Furthermore, the patch type electronic skin unit also comprises an electrode slice 5, electrode pins 4 and a detection circuit 3, wherein the electrode slice 5 is arranged on the first substrate layer 2, the upper surface of the electrode slice is welded and electrically connected with the electrode layer 1,

electrode pin 4 also sets up in first substrate layer 2 upper surface horizontally, and its left end and electrode slice 5 welding, the right-hand member extends to the side of first substrate layer 2, and electrode pin 4's the other end is used for being connected with detection circuitry 3 electricity, and detection circuitry 3 is used for generating the signal of telecommunication of sign capacitance or its variation.

According to the patch type electronic skin unit provided by the embodiment, the whole structure is flexible, the patch type electronic skin unit can be arranged on a plane and also can be arranged on a surface with radian or at a corner, and the adaptability is strong.

Generally, the electrode pins 4 are rigid bodies, the conductive sheet 11 or the conductive film 13 is flexible (poor in toughness), and in the overall deformation process of the patch-type electronic skin, the conductive sheet 11 is easily disconnected from the rigid electrode pins 4, and the conductive sheet 11 or the conductive film 13 itself is also easily partially broken, so that the conductive sheet 11 or the conductive film 13 loses partial area, and the detection effect is affected. In order to overcome the above problems, in the present embodiment, a flexible conductive reinforcing layer is considered to be introduced as a reinforcing structure, and the conductive reinforcing layer can still conduct electricity under the condition that the conductive sheet 11 or the conductive film 13 in the electrode layer is locally broken, so that the electrical performance of the flexible conductive reinforcing layer is not greatly reduced.

Wherein, the conductive strengthening layer is a conductive substance or comprises a conductive object; the conductive reinforcing layer is attached to the upper surface or the lower surface of the conductive sheet 11, and the conductive substance is electrically connected with the conductive sheet 11; or the conductive strengthening layer is attached on the surface of the conductive film 13, and the conductive substance is electrically connected with the conductive film 13; the electrode pins 4 are electrically connected with the conductive substance or the conductive object, so that the conductive reinforcing layer can still conduct electricity under the condition that the conductive sheet 11 or the conductive film 13 is locally broken, and the electrical performance of the patch type electronic skin unit is not greatly reduced.

Specifically, the conductive reinforcing layer of the embodiment is the metal mesh 7 having a grid structure, the metal mesh 7 is uniformly disposed on the upper surface or the lower surface of the conductive layer 1 and electrically connected to the conductive layer 1, as shown in fig. 6, for example, the metal mesh 7 is uniformly disposed between the conductive layer 1 and the first substrate layer 2, and the upper surface of the metal mesh 7 is electrically connected to the lower surface of the conductive layer 1, so as to play a role of conducting electricity when the conductive layer 1 is damaged, so that the electrical performance of the patch type electronic skin unit is not greatly reduced.

Specifically, as shown in fig. 7, for example, the metal mesh 7 is uniformly disposed between the conductive sheet 11 and the first substrate layer 2, and the upper surface of the metal mesh 7 is welded and electrically connected to the lower surface of the conductive sheet 11, so that the conductive reinforcing layer can still conduct electricity under the condition that the conductive sheet 11 is locally broken, and the electrical performance of the conductive reinforcing layer is not greatly reduced. In another embodiment, the metal mesh 7 is uniformly disposed on the surface of the conductive film 13 and electrically connected to the conductive film 13, the electrode pin 4 is electrically connected to the metal mesh 7, where the electrically connecting the electrode pin 4 to the metal mesh 7 specifically includes: the electrode pins 4 are directly object-connected to the metal mesh 7, and the electrode pins 4 are simultaneously electrically connected to the metal mesh 7. Thus, when the conductive film 13 cracks due to bending or vibration, the metal mesh 7 can still conduct electricity as a reinforcing structure, so that the electrical performance of the patch type electronic skin is not greatly reduced.

In another embodiment, as shown in fig. 8, the conductive reinforcing layer includes a flexible second substrate layer 71 and a metal mesh 7, the metal mesh 7 is embedded in the second substrate layer 71, and the upper surface of the metal mesh 7 is slightly higher than the upper surface of the second substrate layer 71, so that the upper surface of the metal mesh 7 forms a conductive surface 72. When the second base material layer 71 is disposed on the upper surface of the conductive sheet 11 or the second base material layer 71 is disposed between the conductive sheet 11 and the first base material layer 2, and the conductive surface 72 is electrically connected to the conductive sheet 11; or the second base material layer 71 is provided on the surface of the conductive film 13, and the conductive surface 72 is electrically connected to the conductive film 13; the second substrate layer 71 is provided with a mounting groove or a mounting hole for mounting the electrode plate 5, the electrode plate 5 is arranged in the mounting groove or the mounting hole, the lower surface of the electrode plate is welded and electrically connected with the upper surface of the metal mesh 7, the electrode pin 4 is also horizontally arranged on the upper surface of the first substrate layer 2, the left end of the electrode pin is welded with the electrode plate 5, the right end of the electrode pin extends to the side surface of the first substrate layer 2, the other end of the electrode pin 4 is used for being electrically connected with the detection circuit 3, and the detection circuit 3 is used for generating an electric signal representing capacitance or the variation. Here, the welding of the electrode pin 4 and the metal mesh 7 specifically includes: the electrode pins 4 are directly object-connected to the metal mesh 7, and the electrode pins 4 are simultaneously electrically connected to the metal mesh 7. Thus, when the conducting sheet 11 or the conducting film 13 cracks due to bending or vibration, the metal mesh 7 can still conduct electricity as a reinforcing structure, so that the electrical performance of the patch type electronic skin unit is not greatly reduced.

In another embodiment, the patch type electronic skin unit of the present embodiment further includes a thermoplastic layer, the thermoplastic layer is configured on the electrode layer 1, for example, the thermoplastic layer may be disposed on the surface of the conductive sheet 11, or the thermoplastic layer is disposed on the conductive film 13, and then the insulating protective layer 9 is disposed on the thermoplastic layer, and the insulating protective layer 9 plays a role of insulation and protection.

The electrode pins 4 are disposed in various forms, for example, in one embodiment, as shown in fig. 1, the upper ends of the electrode pins 4 are electrically connected to the electrode layer 1, the lower ends are disposed outside the first substrate layer 2 through the first substrate 2, and the lower ends are connected to the detection circuit 3.

In another embodiment, when the patch type electronic skin unit includes the adhesive layer 6, as shown in fig. 2, the upper end of the electrode pin 4 is electrically connected to the electrode layer 1, the lower end thereof is disposed outside the adhesive layer 6 through the first substrate 2 and the adhesive layer 6 in sequence, and the lower end is connected to the detection circuit 3.

In another embodiment, as shown in fig. 3, 4, 5, 6, 7, and 8, an electrode sheet 5 is disposed on the surface of the first substrate layer 2, the electrode sheet 5 is made of a conductive material, the electrode sheet 5 and the electrode layer 1 are welded so that they are rigidly connected and electrically connected, the electrode pin 4 is horizontally disposed on the surface of the first substrate layer 2 and has one end electrically connected to the electrode sheet 5 and the other end disposed outside one end of the first substrate layer 2 for connecting the detection circuit 3.

In another embodiment, as shown in fig. 9, the first substrate layer 2 is a composite structure, and includes an upper layer 21 and a lower layer 22, the electrode sheet 5 is disposed between the upper layer 21 and the lower layer 22, the upper layer 21 is further provided with a through hole for the electrode sheet 5 to penetrate through, the upper end of the electrode sheet 5 is electrically connected to the conductive sheet 11 or the conductive film 13 through the through hole, the electrode pin 4 is disposed between the upper layer 21 and the lower layer 22, and one end of the electrode pin is electrically connected to the electrode sheet 5, and the other end of the electrode pin is disposed outside the first substrate layer 2 and is. The metal mesh 7 is arranged on the upper surface of the upper layer 21, the electrode layer 1 is arranged on the upper surface of the metal mesh 7, the metal mesh 7 and the electrode layer are welded and electrically connected, the patch type electronic skin unit further comprises a flexible insulating protective layer 9, and the insulating protective layer 9 is arranged on the upper surface of the electrode layer 1 and plays roles of insulation and protection.

In another embodiment, the patch type electronic skin unit further comprises an insulating protection layer 9, the lower surface of the metal mesh 7 is electrically connected with the electrode layer 1, and the insulating protection layer 9 is arranged on the upper surface of the metal mesh 7 and plays roles of insulation and protection.

In another embodiment, the electrode sheet 5 is disposed on the first substrate layer 2, and the electrode sheet 5 is electrically connected with the metal mesh 7 or the conductive surface 72 formed by the metal mesh 7, for example, the electrode pin 4 is disposed on the first substrate layer 2 and one end of the electrode pin is welded with the electrode sheet 5 so as to electrically connect the electrode sheet and the metal mesh, and the other end of the electrode pin is disposed outside the first substrate layer 2 and used for connecting the detection circuit.

Because the conducting plate 11 or the conducting film 13 is extremely thin and easy to break when being bent, the electric connection part between the conducting plate 11 or the conducting film 13 and the detection circuit 3 is disconnected, but the electrode pin 4 is led out in the manner of arranging the electrode plate 5, so that the problem is solved, and the service life of the patch type electronic skin unit is prolonged.

Example two

In this embodiment, as shown in fig. 10, the patch type electronic skin includes four patch type electronic skin units 101 provided in the first embodiment, and further includes a detection circuit, where the detection circuit is electrically connected to an electrode pin, and the structure of the patch type electronic skin unit may be in a form provided in any one of fig. 1 to 9 provided in the first embodiment, where a conductive sheet or a conductive film is electrically connected to the detection circuit, and multiple detection circuits may be disposed on one circuit board 103, for example, the circuit board 103 is disposed at the center positions of the four patch type electronic skin units 101, and the detection circuits of the four patch type electronic skin units 101 are integrated on one circuit board 103, so that resources and space are saved. The electrode layer can form a capacitance with a conductor in proximity, and the detection circuit is configured to generate an electrical signal representing the capacitance or a variation thereof.

EXAMPLE III

In this embodiment, as shown in fig. 11, the patch type electronic skin includes a plurality of patch type electronic skin units 101 provided in the first embodiment, and the plurality of patch type electronic skin units 101 are arranged according to a certain array, that is, the patch type electronic skin of this embodiment is formed. The patch type electronic skin further comprises at least one detection circuit, and the detection circuits of the patch type electronic skin units 101 can be integrated on one circuit board 103, so that resources and space are saved.

Example four

Further, in an embodiment, as shown in fig. 12, the present embodiment provides a patch type electronic skin, where the patch type electronic skin includes a plurality of patch type electronic skin units 101, and also includes a processing chip 104, where the processing chip 104 is also disposed on the circuit board 103, and the processing chip 104 is electrically connected to the detection circuits of the 4 patch type electronic skin units 101, and is configured to receive the converted electrical signals and perform centralized processing on the signals.

To sum up, in the patch electronic skin unit and the patch electronic skin of the above embodiments, the electrode layer may form a capacitance with the approaching conductor, the detection circuit is configured to generate an electrical signal representing the capacitance or a variation thereof, and the detection circuit detects a variation of the electrical signal to represent a variation of the capacitance formed by the electrode layer and the approaching conductor, so as to calculate distance information between the patch electronic skin and the approaching conductor according to the variation of the capacitance. Compared with the electronic skin in the prior art, the patch type electronic skin unit and the patch type electronic skin of the embodiment have the following advantages:

1. the patch type electronic skin unit and the patch type electronic skin of the embodiment comprise an electrode layer, a first substrate layer and electrode pins, wherein the electrode layer and a close conductor can form a capacitor; the electrode layer is arranged on the first substrate layer, one end of the electrode pin is electrically connected with the electrode layer, the other end of the electrode pin is used for connecting a detection circuit, and the detection circuit is used for generating an electric signal representing capacitance or variation thereof; the electrode layer and the first base material layer are of flexible structures. According to the patch type electronic skin unit and the patch type electronic skin provided by the embodiment, the whole structure is flexible, the patch type electronic skin unit and the patch type electronic skin can be arranged on a plane and also can be arranged on a surface with a radian or a corner, and the adaptability is strong.

2. In order to avoid the influence of partial fracture of the electrode layer on the detection effect, the patch type electronic skin unit and the patch type electronic skin of the above embodiment both include the conductive reinforcing layer, and the conductive reinforcing layer is used as a reinforcing structure, so that the conductive reinforcing layer can still conduct electricity under the condition that the conductive sheet or the conductive film in the electrode layer is locally fractured, the electrical performance of the conductive reinforcing layer is not greatly reduced, and the detection precision of the patch type electronic skin unit and the patch type electronic skin is ensured.

3. In order to avoid easy disconnection of the electrical connection between the electrode layer and the rigid electrode pins, the patch type electronic skin unit and the patch type electronic skin of the embodiment further comprise electrode plates, and the electrode pins are electrically connected with the electrode layer through the electrode plates, so that the connection positions are more stable, and the service lives of the patch type electronic skin unit and the patch type electronic skin are prolonged.

It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (16)

1. A patch type electronic skin unit, comprising:

an electrode layer capable of forming a capacitance with a conductor in proximity;

the electrode layer is arranged on the first base material layer; and

one end of the electrode pin is electrically connected with the electrode layer, the other end of the electrode pin is used for being connected with a detection circuit, and the detection circuit is used for generating an electric signal representing the capacitance or the variation of the capacitance;

the electrode layer and the first base material layer are of flexible structures.

2. The patch electronic skin unit of claim 1, wherein the electrode layer comprises a conductive sheet;

or the electrode layer includes an adhesion sheet and a conductive film provided on the adhesion sheet.

3. The patch type electronic skin unit of claim 2, wherein the electrode layer further comprises a conductive stiffening layer, the conductive stiffening layer being a conductive substance or comprising a conductive object;

the conductive reinforcing layer is arranged on the upper surface or the lower surface of the conductive sheet, and the conductive substance is electrically connected with the conductive sheet; or the conductive reinforcing layer is arranged on the surface of the conductive film, and the conductive reinforcing layer is electrically connected with the conductive film.

4. The patch type electronic skin unit of claim 3, wherein the electrode leads are electrically connected to the conductive stiffening layer.

5. The patch type electronic skin unit of claim 3, wherein the conductive stiffening layer comprises a metal mesh having a grid structure, and the metal mesh is uniformly covered on the conductive sheet or the conductive film.

6. The patch type electronic skin unit according to claim 5, wherein the metal mesh is disposed on an upper surface of the conductive sheet or the metal mesh is disposed between the conductive sheet and a first substrate layer, and the metal mesh is electrically connected to the conductive sheet; or the metal mesh is arranged on the surface of the conductive film and is electrically connected with the conductive film;

the electrode pins are connected with the metal mesh.

7. The patch type electronic skin unit according to claim 3, wherein the conductive reinforcing layer comprises a flexible second substrate layer and a metal mesh embedded in the second substrate layer, and one surface of the metal mesh is disposed on a surface of the second substrate layer to form a conductive surface;

the second base material layer is arranged on the upper surface of the conducting strip or the second base material layer is arranged between the conducting strip and the first base material layer, and the conducting surface is electrically connected with the conducting strip; or the second base material layer is arranged on the surface of the conductive film, and the conductive surface is electrically connected with the conductive film;

the electrode pin is electrically connected with the metal mesh.

8. The patch electronic skin unit of claim 1, further comprising a thermoplastic layer, the thermoplastic layer being configured on the electrode layer.

9. The patch type electronic skin unit of claim 2, further comprising a flexible adhesive layer disposed on a lower surface of the first substrate layer; the sticking layer comprises sticky substances and is used for sticking on an object to be fixed;

the upper end of the electrode pin is electrically connected with the conducting strip or the conducting film, and the lower end of the electrode pin penetrates through the first base material layer and is arranged outside the first base material layer.

10. The patch type electronic skin unit according to claim 2, wherein an electrode pad is disposed on a surface of the first substrate layer, the electrode pad is electrically connected to the conductive sheet or the conductive film, the electrode pin is disposed on a surface of the first substrate layer and has one end electrically connected to the electrode pad and the other end disposed outside the first substrate layer.

11. The patch type electronic skin unit according to claim 10, wherein the first substrate layer is a composite structure including an upper layer and a lower layer, the electrode sheet is disposed between the upper layer and the lower layer, the upper layer is further provided with a through hole for the electrode sheet to pass through, the upper end of the electrode sheet is electrically connected to the conductive sheet or the conductive film through the through hole, the electrode pin is disposed between the upper layer and the lower layer, and one end of the electrode pin is electrically connected to the electrode sheet, and the other end of the electrode pin is disposed outside the first substrate layer.

12. The patch type electronic skin unit according to claim 7, wherein an electrode pad is disposed on the first substrate layer, the electrode pad is electrically connected to the metal mesh or the conductive surface formed by the metal mesh, the electrode pin is disposed on the first substrate layer and has one end electrically connected to the electrode pad and the other end disposed outside the first substrate layer.

13. The patch type electronic skin unit according to claim 3, further comprising a flexible insulating protective layer disposed on an upper surface of the conductive sheet; or the insulating protection layer is arranged on the upper surface of the conductive reinforcing layer.

14. A patch type electronic skin, comprising the patch type electronic skin unit according to any one of claims 1-13;

the electrode pin is electrically connected with the detection circuit, and the detection circuit is used for generating an electric signal representing the capacitance or the variation thereof.

15. A patch type electronic skin, comprising at least two patch type electronic skin units according to any one of claims 1-13;

the patch type electronic skin unit also comprises at least one detection circuit, wherein the detection circuit is electrically connected with at least one electrode pin of the patch type electronic skin unit.

16. A patch type electronic skin, comprising at least two patch type electronic skin units according to any one of claims 1-13;

the detection circuit is electrically connected with at least one electrode pin of the patch type electronic skin unit;

the processing chip is electrically connected with the detection circuit of the patch type electronic skin unit and used for receiving and processing the converted electric signal.

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