CN207741882U - A kind of contact sensor, electronic skin and intelligent robot with Multifunctional layered - Google Patents
A kind of contact sensor, electronic skin and intelligent robot with Multifunctional layered Download PDFInfo
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- CN207741882U CN207741882U CN201820162732.4U CN201820162732U CN207741882U CN 207741882 U CN207741882 U CN 207741882U CN 201820162732 U CN201820162732 U CN 201820162732U CN 207741882 U CN207741882 U CN 207741882U
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Abstract
The utility model is related to a kind of contact sensor and intelligent robot with Multifunctional layered, including multiple sensor units, each sensor unit include the region that 4 Multifunctional layereds include;First Multifunctional layered and third Multifunctional layered are higher than the second Multifunctional layered and the 4th Multifunctional layered, and first the centre-to-centre spacing of Multifunctional layered and third Multifunctional layered be more than the centre-to-centre spacing of the second Multifunctional layered and the 4th Multifunctional layered, first Multifunctional layered and third Multifunctional layered constitute capacitance C1, and the second Multifunctional layered and the 4th Multifunctional layered constitute capacitance C2.Advantage is:The utility model realizes the repertoire of sensor by Multifunctional layered:Multifunctional layered forms the electrode of capacitance, realizes contacting feeling function;The Multifunctional layered electro-magnetic screen layer internal as it realizes the function of contacting feeling under the premise of effectively improving three-dimensional force measurement anti-interference ability;When forming matrix, Multifunctional layered realizes the scanning of subregion protected type, to avoid the crosstalk of adjacent sensors unit.
Description
Technical field
The utility model is related to a kind of contact sensor, electronic skin and intelligent robot with Multifunctional layered is applicable in
In the technical field of artificial intelligence.
Background technology
In recent years, intelligent robot has evolved to extensive practical stage, intelligent robot and outside in industrial circle
The reciprocation in the world needs to imitate the intelligence sensor of the various sensory functions of the mankind, includes mainly:Visual sensor, the sense of hearing
Sensor, touch sensor and olfactory sensor.Up to the present, visual sensor and hearing transducer have developed into it is ripe simultaneously
It is widely used in industrial robot field.But as intelligent robot is deeply extended to the every field of mankind's activity, especially
It is the fields such as agricultural robot, home-services robot, medical service robot and restaurant industry service robot, needs machine
Device people can complete more flexible, complicated action, simultaneously because the robot in these fields needs to do more closely with the mankind
Contact, it is necessary to assure the safety of robot and human contact and comfort.Therefore, there is the height of similar human tactile function
The sensitive touch sensor of degree just becomes more and more important.Biomimetic tactile sensor has been carried out in countries in the world widely to be ground
Study carefully.
Intelligent touch sensor should have following basic function:
Contacting feeling:It, should be able to be to will or just connect when the limbs of intelligent robot will or just contact exterior object
Tactile exterior object carries out rough classification and judges the speed and distance of the exterior object that will be approached.Such as:Service class machine
It is human limb or other objects that device people, which should be able to tell the object that will or just contact, and Agriculture pick robot should be able to be differentiated
The object that will or just contact is fruit, cotton or plant leaf, while should be able to judge close speed and distance, so as to intelligence
Can robot can be appropriate control its limbs near to or in contact with the initial velocity of external object, made to avoid to the human body that will be contacted
At injury or the object that will be contacted is damaged.
Pressure sensation and sliding are felt:After the extremity of intelligent robot is to exterior object, the three-dimensional of its application should be able to be perceived
The size and Orientation of pressure, so that intelligent robot can apply to the three-dimensional pressure control of exterior object in suitable model
It encloses, such as:Service class robotic end should control it when playing teacup and be applied to the three-dimensional pressure of teacup, it is made to be unlikely to pinched
It is broken, and be unlikely to slide.In addition, should be able to be perceived when the limbs of intelligent robot slide on exterior object sliding direction and
Sliding speed, the direction that control can be slided so as to intelligent robot and speed, such as:Massage service robot should be able to be by its hand
The speed slided on human body and direction controlling are slapped in range appropriate.
Humiture is felt:External environment and outer should be able to be perceived when the limbs of intelligent robot are near to or in contact with to exterior object
The temperature of portion's object, so that intelligent robot protects the limbs of intelligent robot itself not damaged by high temperature or low temperature, together
When protect its service object not injured by high temperature or low temperature, such as:It is answered when service robot is to old man or patient end tea
Judge that the temperature of tea is drunk if appropriate for the mankind;Should be able to actively it become when intelligent robot limbs are close to flame or high temp objects
It keeps away.In addition, the limbs of intelligent robot are near to or in contact with to should be able to perceive the wet of external environment and exterior object when exterior object
Degree, such as:Home-services robot is helped to tell whether clothing has dried when mankind's airing clothes.
In addition to above-mentioned basic function, since whole limbs of bio-robot need large area covering that there are a large amount of contacts to pass
The bionics skin of sensor, therefore, Intelligent contact sensor also need to meet miniaturization, low-power consumption, convenient for forming sensor matrices
Requirement.
Existing Intelligent contact sensor technology research, is divided by sensing principle, is broadly divided into, resistance-type, condenser type, photoelectricity
Formula, piezoelectric type, inductance type, micro electromechanical and combined type (two or more principle is compound).It is at laboratory greatly at present
Conceptual phase, there are no maturations to practical stage, and with going deep into for research, more and more research teams focus on focus
Resistance-type, condenser type and capacitance-resistance combined type, due to its manufacture craft it is simple, it is at low cost convenient for batch production the features such as already close to
In maturation.
Pure resistance formula contact sensor be using flexible pressure drag changeable material (such as conductive rubber), when being under pressure its
Resistivity changes, what the principle to react the size being under pressure was realized.Its advantage is that:It can realize pressure sensation i.e. three-dimensional force
Perception, manufacture craft is simple, at low cost, anti-interference ability is stronger, convenient for batch production;But the disadvantage is that:Almost it cannot achieve
The requirement of contacting feeling can not carry out Classification and Identification to the object of contact, can not judge when that will contact exterior object close
Speed and distance, sensitivity is relatively low, and homogeneity of product is more difficult to control.In some applications not high to contacting feeling and sensitivity requirement
Field has certain market potential.
Condenser type or capacitance-resistance combined type contact sensor are current most with prospects, the sensing contacts with other forms
Device is compared, and condenser type contact sensor is for realizing that there is contacting feeling exclusive advantage, condenser type contact sensor to utilize electric field
Theory, electric field line can be passed through near to or in contact with to exterior object, have the characteristic of differing dielectric constant using different objects
Classification and Identification is carried out to exterior object, it is human body or other objects that especially can accurately differentiate exterior object.For realizing
Pressure sensation and sliding feel capacitance type touch sensor also have high sensitivity, consistency are good, be easy to make, it is at low cost, be easily achieved square
The advantages that battle array.But the deficiency of existing capacitance type touch sensor technology is:
The first, the whole of contact sensor are cannot achieve to require:Contacting feeling includes to the Classification and Identification of exterior object and right
The differentiation of exterior object degree of closeness;Pressure sensation and sliding feel, the i.e. size and Orientation of three-dimensional force measure;Temperature sensation and humidity are felt.
The second, anti-interference ability is poor, is susceptible to the influence of environment temperature, humidity, electromagnetic interference, is measuring three-dimensional force
When generally use difference method eliminate the influence of environment epidemic disaster, and it is dry using the method for electromagnetic shielding to improve anti-electromagnetic field
Disturb ability.And electromagnetic shielding measure is once used, although effectively increasing the ability of electromagnetism interference, lose simultaneously externally
Portion's object carries out Classification and Identification and judges the ability of closing speed and distance, that is, cannot achieve contacting feeling function.
Third, when forming sensor matrices, the electric field crosstalk of adjacent sensors unit can not be avoided.
In recent years, researcher both domestic and external has delivered numerous paper and patent document, and it is big can be generally divided into following 2
Class:
Only have the function of pressure sensation and/or the sliding sensor felt, that is, be only capable of measuring three-dimensional force, wherein being divided into have shielding and nothing
Two group of shielding measure:Such as:
Application No. is CN201410245030 patents to disclose a kind of Grazing condition capacitance type touch sensor, which will put down
The top crown of andante capacitance is directly grounded as shielded layer, although improving anti-interference ability, due to shielded layer internal electric field
Line can not pass through shielded layer, thus lose the function of the Classification and Identification and degree of closeness to exterior object, can not achieve contact
Feel.
Publication number US2008/0174321A1 patents disclose a kind of capacitance biography that can measure object proximity and sliding feel simultaneously
Sensor, the sensor can work in both modes.The capacitance electrode of the patent uses upper layer and lower layer structure, and upper layer is by two
Electrode constitutes plane capacitance, and the function to external object classification identification of contacting feeling may be implemented, but cannot achieve contacting feeling
The measurement to external object proximity degree, upper electrode and lower electrode can form parallel plate capacitor, may be implemented again
The normal force of pressure sensation measures, but cannot achieve the measurement of tangential force, and it is any anti-interference which cannot achieve shielding or difference etc.
Measure.It also cannot achieve any resistance to crosstalk measure when forming matrix.
Utility model content
The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of sensing contact with Multifunctional layered
Device.
A kind of contact sensor with Multifunctional layered provided by the utility model, it is characterised in that:The sensor packet
Multiple sensor units are included, each sensor unit includes the region that 4 Multifunctional layereds include;In 4 Multifunctional layereds, more than first
Functional layer and third Multifunctional layered are contour and be oppositely arranged, and the second Multifunctional layered and the 4th Multifunctional layered are contour and be oppositely arranged;
First Multifunctional layered and third Multifunctional layered are higher than the second Multifunctional layered and the 4th Multifunctional layered, and the first Multifunctional layered and third
The centre-to-centre spacing of Multifunctional layered is more than the centre-to-centre spacing of the second Multifunctional layered and the 4th Multifunctional layered, the first Multifunctional layered and the more work(of third
Ergosphere constitutes capacitance C1, and the second Multifunctional layered and the 4th Multifunctional layered constitute capacitance C2;The inside of each Multifunctional layered is equal
It is provided with the first detection unit for detecting three-dimensional force;Described capacitance C1, C2 are for judging whether there is object proximity and differentiation
Close to the classification and degree of closeness of object.
A kind of contact sensor with Multifunctional layered provided by the utility model, further includes following attached technical scheme:
Wherein, the region that each Multifunctional layered includes includes top corresponding with Multifunctional layered and bottom, and top is by flexibility
Conductive material is constituted, and the outside of flexible conducting material is provided with the protective layer being made of flexible insulating material, and bottom includes multilayer
Flexible insulating layer is provided below in pcb board or FPC plates, pcb board or FPC plates, and flexible insulating layer is provided below by analog switch
Insulating protective layer is provided below in the ground shield of control, the ground shield controlled by analog switch;First layer pcb board or
It is provided with ring electrode corresponding with each Multifunctional layered on FPC plates, circular electrode is provided on second layer pcb board or FPC plates,
Via, the via connection ring electrode and circular electrode are provided on circular electrode, it is described to form independent conductive region
It is electrically connected between top and bottom.
Wherein, the inside of each Multifunctional layered is both provided with first detection unit, and the one of the first detection unit
End is connected to first layer pcb board by the center conductive column being arranged inside Multifunctional layered or FPC plates, the other end are set up directly on
On first layer pcb board or FPC plates.
Wherein, the first detection unit is parallel plate capacitor or varistor.
Wherein, the inside of each Multifunctional layered is both provided with two layers of electrode, and upper layer is cross public electrode, lower layer
For 4 absolute electrodes corresponding with the cross public electrode in upper layer, the cross public electrode in the upper layer and 4 independent electricals of lower layer
Pole constitutes 4 parallel plate capacitors;The cross public electrode in upper layer is led by the way that the center inside the Multifunctional layered is arranged
Electric column is connected electrically on the first layer pcb board or FPC plates, and lower layer's absolute electrode is set up directly on the first layer PCB
On plate or FPC plates.
Wherein, the Multifunctional layered is covered in the outside of the upper layer cross public electrode and lower layer's absolute electrode;Institute
It states Multifunctional layered and is grounded or is connected to respectively parallel plate capacitor pumping signal inside Multifunctional layered by analog switch;Its
In,
The analog switch of Multifunctional layered is switched to ground state, you can be grounded Multifunctional layered, to realize to external electrical
The earth shield of magnetic signal;
The analog switch of Multifunctional layered is switched to and connects its interior parallel plate capacitance pumping signal, make Multifunctional layered with it is parallel
The public electrode of plate capacitance forms equipotential, to realize the equivalent potential screen to extraneous electromagnetic signals.
Wherein, the Multifunctional layered is connected on a processor by analog switch, and the processor is connected on external circuit;
The Multifunctional layered can be by the timesharing switching of analog switch and the control of bus come subregion shield sensor
Function, when carrying out subregion scanning:
Wherein, each measurement period T is made of two sub- cycle Ts 1 and T2:
In T1, the first Multifunctional layered connects the pumping signal of Multifunctional layered, and third Multifunctional layered connects analog to digital conversion circuit, the
Two Multifunctional layereds and the 4th Multifunctional layered are grounded or the second Multifunctional layered and the 4th Multifunctional layered while connecing its interior parallel simultaneously
The pumping signal of plate capacitance public electrode will control the simulation of the first Multifunctional layered and third Multifunctional layered interior parallel plate capacitance
Switch disconnects, while the analog switch for controlling the second Multifunctional layered and the 4th Multifunctional layered interior parallel plate capacitance being connect inside it
The pumping signal of parallel plate capacitor public electrode, so that the capacitance C1 being made of the first Multifunctional layered and third Multifunctional layered is in reality
Neither by the alien crosstalk of the second Multifunctional layered and the 4th Multifunctional layered when existing contacting feeling, also not by the first Multifunctional layered and third
The crosstalk of parallel plate capacitor inside Multifunctional layered, while the second Multifunctional layered and the 4th Multifunctional layered can also be made in shielding
Under state, internal parallel plate capacitor remain to it is in running order, to measure the variation of three-dimensional force;
In T2, the second Multifunctional layered connects the pumping signal of Multifunctional layered, and the 4th Multifunctional layered connects analog to digital conversion circuit, the
One Multifunctional layered and third Multifunctional layered are grounded or the first Multifunctional layered and third Multifunctional layered while connecing its interior parallel simultaneously
The pumping signal of plate capacitance public electrode will control the simulation of the second Multifunctional layered and the 4th Multifunctional layered interior parallel plate capacitance
Switch disconnects, while the analog switch for controlling the first Multifunctional layered and third Multifunctional layered interior parallel plate capacitance being connect inside it
The pumping signal of parallel plate capacitor public electrode, so that the capacitance C2 being made of the second Multifunctional layered and the 4th Multifunctional layered is in reality
Neither by the alien crosstalk of the first Multifunctional layered and third Multifunctional layered when existing contacting feeling, also not by the second Multifunctional layered and the 4th
The crosstalk of Multifunctional layered interior parallel plate capacitance, while the first Multifunctional layered and third Multifunctional layered can also be made to be in masked state
Under, internal parallel plate capacitor remain to it is in running order, to measure the variation of three-dimensional force;
Within the next T3 periods, 4 Multifunctional layereds of the sensor unit in masked state are grounded simultaneously, or
Connect the pumping signal of its interior parallel plate capacitance public electrode simultaneously, and by the public of 4 Multifunctional layered interior parallel plate capacitances
Electrode connects the pumping signal of corresponding public electrode, and the sensor unit in masked state is enable to survey the variation of three-dimensional force,
T3=T therein.
Wherein, the measurement period T is 1-20ms, and T1=T2=0.5T.
Wherein, the combination of the Multifunctional layered and the parallel plate capacitor can realize sense of heat function;When environment temperature increases
When, the flexible insulation mass expansion between parallel plate capacitor, the spacing between parallel plate capacitor becomes larger, the capacitance of parallel plate capacitor
Become smaller on year-on-year basis;When the environment temperature decreases, the flexible insulation substance between parallel plate capacitor is shunk, the spacing between parallel plate capacitor
Become smaller, the capacitance of parallel plate capacitor becomes larger on year-on-year basis, to extrapolate the variable quantity of temperature according to the variable quantity of capacitance.
Wherein, the centre-to-centre spacing of the first Multifunctional layered and third Multifunctional layered is d1, the second Multifunctional layered and the 4th multi-functional
The centre-to-centre spacing of layer is that the ratio of d2, d1 and d2 are 1.2-5;The height of first Multifunctional layered and third Multifunctional layered is h1, second
The height of Multifunctional layered and the 4th Multifunctional layered is that the difference of h2, h1 and h2 are 1-3mm.
The utility model additionally provides a kind of electronic skin, it is characterised in that:Including one kind as described in any one of the above embodiments
Contact sensor with Multifunctional layered.
The utility model additionally provides a kind of intelligent robot, which is characterized in that including above-mentioned electronic skin.
The utility model additionally provides a kind of Artificial intelligent prosthesis, which is characterized in that includes such as above-mentioned electronic skin.
The implementation of the utility model includes following technique effect:
A kind of contact sensor with Multifunctional layered of the utility model can completely realize contact by Multifunctional layered
The repertoire requirement of sensor:First, Multifunctional layered itself can form the electrode of capacitance, complete to realize that contacting feeling function is wanted
It asks;Second, Multifunctional layered can be as the electro-magnetic screen layer for the multiple parallel plate capacitors for including inside it, to effectively improve
Under the premise of three-dimensional force measures anti-interference ability, the repertoire of contacting feeling can also be realized;Third, when formation sensor square
When battle array, Multifunctional layered can be used for realizing that subregion protected type scanning, the crosstalk for efficiently avoiding adjacent sensors unit are asked
Topic.
Description of the drawings
Fig. 1 is the appearance assumption diagram of the sensor unit of the utility model.
Fig. 2 is a kind of layout drawing of the Multifunctional layered of mode of the utility model.
Fig. 3 is the layout drawing of the Multifunctional layered of the another way of the utility model.
Fig. 4 is the layout drawing of the Multifunctional layered of the yet another approach of the utility model.
Fig. 5 is the hierarchical diagram of the sensor unit of the utility model.
Fig. 6 be the utility model one embodiment in sensor unit explosive view.
Fig. 7 is the electric field line distribution figure of the Multifunctional layered of the utility model.
Fig. 8 does not enter the electric field line distribution when capacitance electric field line distribution region C1 and C2 for the exterior object of the utility model
Figure.
Fig. 9 is that the exterior object of the utility model enters capacitance C1 electric field line distributions region, but does not enter capacitance C2 electricity
Electric field line distribution figure when field wire distributed areas.
Figure 10 enters the electric field line distribution when capacitance electric field line distribution region C1 and C2 for the exterior object of the utility model
Figure.
Figure 11 is that the exterior object of the utility model touches capacitance C1, but electric field line distribution when not in contact with to capacitance C2
Figure.
Figure 12 touches electric field line distribution figure when capacitance C1 and C2 for the exterior object of the utility model simultaneously.
Figure 13 is the matrix-scanning figure of traditional sensors.
Figure 14 is the subregion protected type matrix-scanning figure of the utility model.
Figure 15 be the utility model one embodiment in multi-functional region sectional view.
Figure 16 be the utility model one embodiment in parallel plate capacitor structure chart.
Figure 17 be the utility model one embodiment in parallel plate capacitor non-stress when schematic diagram.
Figure 18 be the utility model one embodiment in parallel plate capacitor by normal force when schematic diagram.
Figure 19 be the utility model one embodiment in parallel plate capacitor by shear force when schematic diagram.
Figure 20 be the utility model one embodiment in parallel plate capacitor by sliding force when schematic diagram.
Figure 21 is the circuit controling drawing in one embodiment of the utility model.
Figure 22 is the equivalent circuit diagram of the sensor unit in one embodiment of the utility model.
Figure 23 is the sectional view of the Multifunctional layered in another embodiment of the utility model.
Figure 24 is the partial exploded view of Figure 23.
Figure 25 is the schematic diagram in another embodiment of the utility model when varistor expanded by heating.
Figure 26 is the schematic diagram in another embodiment of the utility model when varistor contract on cooling.
Figure 27 is the equivalent circuit diagram of the sensor unit in another embodiment of the utility model.
Specific implementation mode
The utility model is described in detail below in conjunction with embodiment and attached drawing, it should be pointed out that described
Embodiment be intended merely to facilitate the understanding to the utility model, and do not play any restriction effect to it.
As shown in Figure 1, a kind of contact sensor with Multifunctional layered provided in this embodiment, the contact sensor packet
Multiple sensor units are included, each sensor unit includes the region that 4 Multifunctional layereds include, and 4 Multifunctional layereds are opposite two-by-two
Arrangement can be arranged using the intersection point of two pairs of central junction lines as the center of circle by any angle.As shown in Fig. 2, 4 Multifunctional layereds are just
Hand over arrangement, that is, arrange by an angle of 90 degrees;As shown in figure 3,4 Multifunctional layereds are horizontally disposed, that is, arranged by 0 degree of angle;Such as Fig. 4 institutes
Show, 4 Multifunctional layereds are arranged by 45 degree of angles.
As shown in Figure 5,6, each Multifunctional layered includes top 11 corresponding with Multifunctional layered and bottom comprising corresponding region
Portion, top 11 are made of flexible conducting material, and the outside of flexible conducting material is provided with the protection being made of flexible insulating material
Layer 12, bottom includes multi-layer PCB board or FPC plates, and flexible insulating layer 17, flexible insulating layer 17 is provided below in pcb board or FPC plates
The ground shield 18 controlled by analog switch is provided below, the ground shield 18 controlled by analog switch is provided below
Insulating protective layer 19;It is provided with ring electrode corresponding with each Multifunctional layered 141 on first layer pcb board or FPC plates 14, second
It is provided with circular electrode 151 on layer pcb board or FPC plates 15, via 152 is provided on circular electrode 151, via 152 is for connecting
Ring electrode 141 and circular electrode 151 are connect, to form independent conductive region, the top being made of flexible conducting material
11 form complete Multifunctional layered with second layer pcb board or FPC plates 15, since the thickness of single layer pcb board or FPC plates only has
0.025mm, therefore needs of the Multifunctional layered as barrier layer functionality can be fully met.The electronic device cloth of touch sensor unit
It sets on the lower surface 162 of third layer pcb board or FPC plates 16, the upper surface 161 of third layer pcb board or FPC plates 16 and lower surface
162 connect up for electronic circuit;As shown in fig. 6, the filling flexible insulating materials inside the corresponding region of each Multifunctional layered
13, the flexible insulating material 13 makes mutually insulated between upper layer and lower layer electrode and Multifunctional layered;The cross public affairs in upper layer
Common electrode 6 is connected electrically in the first layer pcb board or FPC plates by the center conductive column 20 being arranged inside the Multifunctional layered
On, lower layer's absolute electrode 7 is set up directly on the first layer pcb board or FPC plates 141;The upper layer is cross public
The distance between electrode and lower layer's absolute electrode are 0.5-3mm.
Preferably, the volume of the sensor unit is 1mm3-100mm3。
Preferably, the ground shield 18 by analog switch control is made of organosilicon conductive silver glue material, institute
Insulating protective layer 19 is stated to be made of PDMS material.
Preferably, the flexible conducting material be organic conductive elargol material, the organic conductive elargol material with it is described
Multifunctional layered is bonded by conductive silver glue.
Preferably, electrical connection is formed by conductive gluing knot or crimping between the top 11 and bottom of the Multifunctional layered;
The conductive column 20 is connected electrically in by welding, crimping or conducting resinl on the first layer pcb board or FPC plates 141.
For purposes of illustration only, the present embodiment is for horizontally disposed.As shown in fig. 7, in 4 Multifunctional layereds of the present embodiment,
First Multifunctional layered 1 constitutes capacitance C1 with third Multifunctional layered 3, and the second Multifunctional layered 2 and the 4th Multifunctional layered 4 constitute capacitance
C2, long dotted line indicates the field distribution of capacitance C1 in figure, and short dash line indicates the field distribution of capacitance C2, the first Multifunctional layered 1 with
Third Multifunctional layered 3 is higher than the second Multifunctional layered 2 and the 4th Multifunctional layered 4, and the first Multifunctional layered 1 and third Multifunctional layered 3
Centre-to-centre spacing be more than the second Multifunctional layered 2 and the 4th Multifunctional layered 4.It is arranged such so that the electric field line distribution region of capacitance C1
Electric field line distribution region higher than capacitance C2.As shown in figure 8, when exterior object 5 does not enter the electric field line of capacitance C1 and capacitance C2
When distributed areas, the medium in the electric field line distribution region of capacitance C1 and capacitance C2 is air, the capacitance of capacitance C1 and capacitance C2
Value can be with environment temperature and humidity variation equal proportion variation, this waits the characteristic than variation digital differential algorithm can be used to eliminate ring
The influence that border temperature, humidity change.As shown in figure 9, when exterior object 5 enters the electric field line distribution region of capacitance C1, and not into
When entering the electric field line distribution region of capacitance C2, since the dielectric constant of the object of unlike material is different, the capacitance of capacitance C1 will
It changes, the variable quantity of the capacitance of C1 is approximate with the dielectric constant of exterior object directly proportional, and the capacitance of C2 is constant;Such as figure
Shown in 10, when exterior object 5 enters the electric field line distribution region of C1 and C2 simultaneously, the variable quantity of the capacitance of C1 and C2 is simultaneously
It is directly proportional to the dielectric constant of object, Jie of exterior object can be calculated according to the variable quantity of C1 and C2 and the relationship of transformation period
Electric constant and close distance, speed, to realize Classification and Identification and degree of closeness discrimination function to exterior object 5.
It should be noted that in the present embodiment, the bottom that the Multifunctional layered inside each sensor unit is arranged is all provided with
It sets in the same plane, therefore, capacitance C1 and C2 provided in this embodiment can be seen as similar to plane capacitance.
As shown in figure 11, when exterior object 5 has just touched the first relatively high Multifunctional layered 1 of sensor unit and
Three Multifunctional layereds 3, and when not yet touching relatively low the second Multifunctional layered 2 and four Multifunctional layereds 4, the first Multifunctional layered
1 and third Multifunctional layered 3 inside detection unit stress, and the detection list inside the second Multifunctional layered 2 and the 4th Multifunctional layered 4
Member not yet stress, because without changing.When exterior object 5 further to sensor unit apply pressure, as shown in figure 12,
Detection unit inside second Multifunctional layered 2 and the 4th Multifunctional layered 4 is also under pressure and changes.It accordingly, can be further
At the time of accurately differentiation touches exterior object, and the speed on exterior object contact sensor surface is accurately calculated.This
The contacting feeling sensor that embodiment provides (is used for intelligent bionic when multiple contacting feeling sensor units form sensor matrices
Skin), it is controlled by analog switch and bus synchronous, subregion protected type sensor matrix scan function may be implemented, to keep away
When exempting from matrix-scanning, the mutual crosstalk of adjacent sensors unit.
The capacitance matrix scan mode of the prior art is as shown in figure 13, and wherein horizontal scanning line is connected by variable connector and encouraged
Signal, column scan line connect capacitance input measurement channel by variable connector.Certain row and certain row in elected, such as the second row, second
When row, the pumping signal on selected row can be applied to the capacitance exciting electrode of all row simultaneously, and the capacitance of only selected row is defeated
Enter grade by access capacitive measurement channels, but the excitation electrode of the capacitance in selected line in not selected adjacent column can be right at this time
The capacitance chosen generates crosstalk.In addition, the pumping signal on connecting line in selected line also can be to choosing capacitance to cause crosstalk.
The subregion formula protected type scan mode of the present embodiment is as shown in figure 14, and spi bus selects to measure by address bit
The sensor unit of state is labeled as O;The sensor unit of not specified address bit is labeled as X earth shields, therefore will not be to quilt
The sensor unit chosen causes crosstalk.Selected sensor unit, 4 Multifunctional layereds form 2 capacitances, for realizing
The function of tactile, pumping signal is from the inside with the sensor unit.When sensor unit is as earth shield unit inch,
Its 4 Multifunctional layereds are grounded simultaneously, and the size of shielding area is to be grounded the unit number of shielding to select according to actual needs.
When sensor unit is as earth shield unit, the Multifunctional layered transitory loss function of contacting feeling, but it is each multi-functional
The internal unit measured for three-dimensional force of layer has the function of that pressure sensation is felt with sliding still in normal operating conditions, to ensure it still.By
It is grounded in 4 Multifunctional layereds of not selected sensor unit, is gone here and there caused by without to adjacent selected unit
It disturbs.
Embodiment 1
In the present embodiment, the detection unit for detecting three-dimensional force inside Multifunctional layered is parallel plate capacitor.
The parallel plate capacitor structure inside 4 Multifunctional layereds on each sensor unit is identical, illustrates to simplify, we
Only illustrated by taking the internal structure of the first Multifunctional layered 1 as an example.
As shown in Figure 15,16,21,22, the upper layer cross public electrode 6 of the first Multifunctional layered 1 is corresponding with lower layer respectively
4 rectangle absolute electrodes 7 being arranged form 4 parallel plate capacitors C3, C4, C5, C6, the upper layer cross of the second Multifunctional layered 2
4 rectangle absolute electrodes 7 that public electrode 6 is correspondingly arranged with lower layer respectively form 4 parallel plate capacitors C7, C8, C9, C10, the
4 rectangle absolute electrodes 7 that the upper layer cross public electrode 6 of three Multifunctional layereds 3 is correspondingly arranged with lower layer respectively form 4 and put down
Andante capacitance C11, C12, C13, C14, the upper layer cross public electrode 6 of the 4th Multifunctional layered 4 are only with lower layer 4 rectangles respectively
Vertical electrode 7 forms 4 parallel plate capacitors C15, C16, C17, C18;Wherein public electrode 6 connects pumping signal, and rectangular electrode 7 is distinguished
Access 4 capacitance analog-to-digital conversion channels.
The parallel plate capacitor C4 that for convenience of description, is only formed with upper layer cross public electrode 6 and lower layer's rectangular electrode 7,
It is illustrated for C5.
As shown in figure 17, when being not affected by external force, spacing between the two-plate of parallel plate capacitor C4 is a1, two-plate it
Between facing area be s1, the spacing between the two-plate of parallel plate capacitor C5 is that the facing area between a2, two-plate is s2,
Wherein a1=a2, s1=s2, therefore the capacitance of parallel plate capacitor C4 and parallel plate capacitor C5 are also equal.When by exterior object
When 5 normal pressure, as shown in figure 18, the spacing a1 between the two-plate of parallel plate capacitor C4 and parallel plate capacitor C5 two-plates
Between spacing a2 change, to make parallel plate capacitor C4 and the capacitance of parallel plate capacitor C5 change.According to
This can measure the size and Orientation for the normal force being subject to.It is as shown in figure 19, parallel when by the tangential force of exterior object 5
The facing area s2 between facing area s1 and the two-plate of parallel plate capacitor C5 between the two-plate of plate capacitance C4 occurs
Variation, to make parallel plate capacitor C4 and the capacitance of parallel plate capacitor C5 change.Cutting of being subject to can be measured accordingly
To the size of power;And it may determine that according to the difference of the changing value of the capacitance of parallel plate capacitor C4 and parallel plate capacitor C5
The tangential force direction being subject to.Specifically, in by Figure 19 when the tangential force in direction shown in arrow, the electricity of parallel plate capacitor C4
The absolute value of capacitance variation value of the absolute value of capacitance changing value more than parallel plate capacitor C5.When by with arrow institute in Figure 19
When the opposite tangential force in the direction that shows, the absolute value of the capacitance variation value of parallel plate capacitor C4 is less than the electricity of parallel plate capacitor C5
The absolute value of capacitance changing value.As it can be seen that according to the change of the capacitance of parallel plate capacitor C4 and parallel plate capacitor C5 in the present embodiment
The difference of change value may determine that the direction for the tangential force that sensor is subject to.When by sliding force, as shown in figure 20, parallel-plate
The normal force and tangential force that capacitance C4 and parallel plate capacitor C5 are subject to will shake, cause parallel plate capacitor C4 two-plate it
Between spacing a1 and the two-plate of parallel plate capacitor C5 between spacing a2 and parallel plate capacitor C4 two-plate between just
Facing area between area s1 and the two-plate of parallel plate capacitor C5 is that s2 changes, so as to cause parallel plate capacitor
C4 and parallel plate capacitor C5 capacitances fluctuate.Speed and the direction of sliding can be measured accordingly.
In the present embodiment, the Multifunctional layered is covered in the outer of the cross public electrode in the upper layer and lower layer's absolute electrode
The shape in portion, the Multifunctional layered is groove type;Wherein, the shape of the Multifunctional layered can be hemispherical or elliposoidal etc.;
The Multifunctional layered is used to, to the parallel plate capacitor realization electro-magnetic screen function of its inside, realize electromagnetic shielding
There are two types of modes:Earth shield and equivalent potential screen;
The analog switch of Multifunctional layered is switched to earthing position, you can be grounded Multifunctional layered, to realize to external electrical
The earth shield of magnetic signal;The analog switch of Multifunctional layered is switched to the excitation letter for connecing corresponding parallel plate capacitor public electrode
Number, so that the public electrode of Multifunctional layered and parallel plate capacitor is formed equipotential, to realize the Equipotential shield to extraneous electromagnetic signals
It covers.
Specifically, the Multifunctional layered of the present embodiment is connected on a processor by analog switch, and the processor is logical
Bus is crossed to be connected on external circuit;
The Multifunctional layered can realize subregion shield sensor by the timesharing switching of analog switch and the control of bus
Function, when carrying out subregion scanning:
As shown in figure 21, the sensor unit in scanning mode is executed into following T cycleoperations;Wherein, a measurement
Cycle T is made of two sub- cycle Ts 1 and T2:
In T1, the analog switch K1 of the first Multifunctional layered 1 meets Multifunctional layered pumping signal S1, third Multifunctional layered 3
Analog switch K3 connects analog to digital conversion circuit M1, the analog switch K2 of the second Multifunctional layered 2, the analog switch of the 4th Multifunctional layered 4
K4 is grounded simultaneously or the analog switch K2 of the second Multifunctional layered 2 connects the pumping signal of its interior parallel plate capacitance public electrode 6
S2-1, the 4th Multifunctional layered 4 analog switch K4 meet the pumping signal S4-1 of its interior parallel plate capacitance public electrode 6, first
The analog switch of the analog switch K1-1 and 3 interior parallel plate capacitance of third Multifunctional layered of 1 interior parallel plate capacitance of Multifunctional layered
K3-1 is disconnected, so that capacitance C1 is neither gone here and there by outside the second Multifunctional layered 2 and the 4th Multifunctional layered 4 when realizing contacting feeling
It disturbs, also not by the crosstalk of 3 interior parallel plate capacitance of the first Multifunctional layered 1 and third Multifunctional layered;Meanwhile work(more than second will be controlled
The analog switch K2-1 of 2 interior parallel plate capacitance of ergosphere connect the public electrode 6 of its interior parallel plate capacitance pumping signal S2-1,
The analog switch K4-1 for controlling 4 interior parallel plate capacitance of the 4th Multifunctional layered is connect to the public electrode 6 of its interior parallel plate capacitance
Pumping signal S4-1 so that the second Multifunctional layered 2 and the 4th Multifunctional layered 4 are under masked state, internal parallel-plate
Capacitance remain to it is in running order, to measure the variation of three-dimensional force;
In T2, the analog switch K2 of the second Multifunctional layered 2 meets Multifunctional layered pumping signal S2, the 4th Multifunctional layered 4
Analog switch K4 connects analog to digital conversion circuit M2, the analog switch K1 of the first Multifunctional layered 1, the analog switch of third Multifunctional layered 3
K3 is grounded simultaneously or the analog switch K1 of the first Multifunctional layered 1 connect its parallel plate capacitor public electrode 6 pumping signal S1-1,
The analog switch K3 of third Multifunctional layered 3 meets the pumping signal S3-1 of its interior parallel plate capacitance public electrode 6, and second is multi-functional
The analog switch K2-1 of layer interior parallel plate capacitance and the analog switch K4-1 of the 4th Multifunctional layered interior parallel plate capacitance are disconnected
Open so that capacitance C2 when realizing contacting feeling neither by the alien crosstalk of the first Multifunctional layered 1 and third Multifunctional layered 3, also not
By the crosstalk of 4 interior parallel plate capacitance of the second Multifunctional layered 2 and the 4th Multifunctional layered;Meanwhile it will be in the first Multifunctional layered 1 of control
The analog switch K1-1 of portion's parallel plate capacitor meets the pumping signal S1-1 of the public electrode 6 of its interior parallel plate capacitance, will control
The analog switch K3-1 of 3 interior parallel plate capacitance of third Multifunctional layered connects the excitation of the public electrode 6 of its interior parallel plate capacitance
Signal S3-1, so that the first Multifunctional layered 1 and third Multifunctional layered 3 are under masked state, internal parallel plate capacitor is still
Can be in running order, to measure the variation of three-dimensional force;
Sensor unit in masked state is executed into following T3 cycleoperations;Wherein T3=T:
It is in T3, analog switch K1, K2, K3, K4 of 4 Multifunctional layereds of the sensor unit in masked state is same
When be grounded, or make analog switch K1, K2, K3, K4 of 4 Multifunctional layereds while connecing its interior parallel plate capacitance public electrode 6
Pumping signal S1-1, S2-1, S3-1, S4-1, and the simulation of the public electrode of 4 Multifunctional layered interior parallel plate capacitances will be controlled
Switch K1-1, K2-1, K3-1, K4-1 simultaneously connect its corresponding parallel plate capacitor public electrode 6 pumping signal S1-1, S2-1,
S3-1, S4-1 enable the sensor unit in masked state to survey the variation of three-dimensional force.
As shown in figure 22, the capacitance measurement of the present embodiment is used using 7150 chips, the processor of ad1 companies in ARM-m0
32 bit processors of core, external communication use spi bus.
Preferably, the measurement period T is 1-20ms, and T1=T2=0.5T.
Preferably, the combination of the Multifunctional layered and the parallel plate capacitor can realize sense of heat function.It is in fact possible to straight
The parallel plate capacitor measuring temperature utilized for measuring three-dimensional force is connect, variation of ambient temperature can cause between parallel plate capacitor
Media expansion or contraction result in the variation of capacitance to change the spacing of parallel plate capacitor.But existing contacting feeling
Sensor is not due to having Multifunctional layered, caused by variation that capacitance cannot be distinguished is pressure by exterior object or due to temperature
Caused by variation, thus it can not directly utilize the sense of heat of parallel plate capacitor realization contacting feeling sensor.The present embodiment utilizes more work(
Ergosphere can accurately determine whether there is exterior object and connect contacting feeling sensor, and contacting feeling sensor is contacted in no exterior object
In the case of, due to the electromagnetic shielding action of Multifunctional layered, it can only be temperature to cause the single factor of interior parallel plate capacitance variations,
As shown in Fig. 8,25, when environment temperature increases, the flexible insulation substance between parallel plate capacitor will expand, and cause parallel plate capacitor
Between spacing become larger, to make the capacitance of 4 parallel plate capacitors become smaller on year-on-year basis;Conversely, as shown in figure 26, working as environment temperature
When reduction, the flexible insulation substance between parallel plate capacitor will be shunk, and cause the spacing between parallel plate capacitor to become smaller, to make 4
The capacitance of a parallel plate capacitor becomes larger on year-on-year basis, to extrapolate the variable quantity of temperature according to the variable quantity of capacitance.
As shown in figure 11, when exterior object 5 touches contact sensor, since two pairs of Multifunctional layereds are there are difference in height,
Higher first Multifunctional layered 1 and third Multifunctional layered 3 are first under pressure, and lower second Multifunctional layered 2 and work(more than the 4th
Ergosphere 4 is not yet under pressure, as shown in figure 25, if the temperature of exterior object 5 is higher than environment temperature, since heat senses the work led
With the flexible insulation object being not affected by between the second Multifunctional layered 2 of pressure and the interior parallel plate capacitor plate of the 4th Multifunctional layered 4
Matter reduces expanded by heating so as to cause its capacitance on year-on-year basis;Conversely, as shown in figure 26, if the temperature of exterior object 5 is less than ring
Border temperature is not affected by the interior parallel plate of the second Multifunctional layered and the 4th Multifunctional layered of pressure due to the effect that heat sensing is led
Flexible insulation substance between capacitor plate will be shunk, its capacitance is caused to increase on year-on-year basis.To according to the second Multifunctional layered 2 and the
The variation of the capacitance of parallel plate capacitor in four Multifunctional layereds can extrapolate the temperature for touching exterior object.
Preferably, the measurement range of the parallel plate capacitor is 0.001pf-100pf.
Preferably, the centre-to-centre spacing of the first Multifunctional layered 1 and third Multifunctional layered 3 is d1, the second Multifunctional layered more than 2 and the 4th
The centre-to-centre spacing of functional layer 4 is that the ratio of d2, d1 and d2 are 1.2-5;The height of first Multifunctional layered 1 and third Multifunctional layered 3 is
The height of h1, the second Multifunctional layered 2 and the 4th Multifunctional layered 4 is that the difference of h2, h1 and h2 are 1-3mm.
Embodiment 2
In the present embodiment, the detection unit for detecting three-dimensional force inside Multifunctional layered is varistor.
As shown in Figure 23-26, Multifunctional layered it is structurally and functionally identical with the Multifunctional layered in embodiment 1.But more work(
The principle that ergosphere is used to measure three-dimensional force is changed to varistor by parallel plate capacitor, and Multifunctional layered internal electrode structure is constant, but
4 rectangular flexible varistors 21, upper layer ten are increased between the cross public electrode 6 in upper layer and lower layer's rectangle absolute electrode 7
The two poles of the earth of 4 rectangle absolute electrodes of font public electrode 6 and lower layer as varistor 21, when by normal force, 4 pressure-sensitive
Resistance 21 is by same rock deformation pressure, and when by tangential force and sliding force, 4 varistors 21 are by different deformation pressures
Power, the variation according to four resistance can measure the variation of three-dimensional force.
In the present embodiment, it is only that the Multifunctional layered is covered in the cross public electrode in the upper layer, varistor and lower layer
The outside of vertical electrode;Wherein, the shape of the Multifunctional layered can be hemispherical or elliposoidal etc..
Preferably, the combination of the Multifunctional layered and the varistor 21 can also realize sense of heat function.Work as temperature change
When, Multifunctional layered inside can also be influenced to lead to becoming for resistance by temperature change for measuring four varistors of three-dimensional force
Change, to realize sense of heat function, measuring principle is similar with the principle of parallel plate capacitor measuring temperature, therefore herein no longer
It repeats.Specifically, the varistor 21 is made of conductive rubber pressure drag material, and the quick conductive rubber pressure drag material of power is with spy
Carbon or other highly conductive uniform particles are distributed to manufactured high score in the flexible polymer substrate material of insulation by fixed technique
Sub- material, the conductive capability of pressure drag material depend on the density of inner conductive particle.It is deformed when pressure drag material is under pressure
When, the density of internal conducting particles will also change, to make the resistance at sensor both ends change, and according to electricity
The variation of resistance, so that it may to measure the variation of the three-dimensional force inside Multifunctional layered.
As shown in figure 27, the Multifunctional layered is connected on a processor by analog switch, and the processor passes through bus
It is connected on external circuit;Function by the varistor inside the Multifunctional layered and Multifunctional layered of analog switch control is periodically
Timesharing switching;Wherein, a measurement period T is made of two sub- cycle Ts 1 and T2:
When the T1 periods, the analog switch K1 of the first Multifunctional layered 1 is by the first Multifunctional layered 1 and Multifunctional layered pumping signal S1
It connects, the analog switch K3 of third Multifunctional layered 3 connects third Multifunctional layered 3 and capacitance analog to digital conversion circuit m1 so that the
One Multifunctional layered 1 and third Multifunctional layered 3 form a capacitance C1, the analog switch K2 and work(more than the 4th of the second Multifunctional layered 2
The analog switch K4 of ergosphere 4 is grounded simultaneously, and by control 1 inner pressure sensitive resistance 21 of the first Multifunctional layered analog switch K1-1 and
The analog switch K3-1 of 3 inner pressure sensitive resistance 21 of control third Multifunctional layered opens a way simultaneously so that capacitance C1 is realizing contacting feeling
When neither by the alien crosstalk of the second Multifunctional layered 2 and the 4th Multifunctional layered 4, also not by the first Multifunctional layered 1 and the more work(of third
At the same time crosstalk inside ergosphere 3 will control analog switch K2-1 and the control of 2 inner pressure sensitive resistance 21 of the second Multifunctional layered
The public electrode 6 for making the analog switch K4-1 varistors 21 internal with it of 4 inner pressure sensitive resistance 21 of the 4th Multifunctional layered connects
It is logical so that the second Multifunctional layered 2 and the 4th Multifunctional layered 4 are in the varistor under masked state inside it still in work
State remains to the variation for measuring three-dimensional force.
When the T2 periods, the analog switch K2 of the second Multifunctional layered 2 is by the second Multifunctional layered 2 and Multifunctional layered pumping signal S2
It connects, the analog switch K4 of the 4th Multifunctional layered 4 connects the 4th Multifunctional layered 4 with capacitance analog to digital conversion circuit m2 so that the
Two Multifunctional layereds 2 and the 4th Multifunctional layered 4 form a capacitance C2, the analog switch K1 and the more work(of third of the first Multifunctional layered 1
The analog switch K3 of ergosphere 3 is grounded simultaneously, and by control 2 inner pressure sensitive resistance 21 of the second Multifunctional layered analog switch K2-1 and
It controls the analog switch K4-1 of 4 inner pressure sensitive resistance 21 of the 4th Multifunctional layered while opening a way so that capacitance C2 is realizing contacting feeling
When neither by the alien crosstalk of the first Multifunctional layered 1 and third Multifunctional layered 3, also not by the second Multifunctional layered 2 and work(more than the 4th
At the same time crosstalk inside ergosphere 4 will control analog switch K1-1 and the control of 1 inner pressure sensitive resistance 21 of the first Multifunctional layered
The public electrode 6 of varistor 21 internal with it the analog switch K3-1 of 3 inner pressure sensitive resistance 21 of third Multifunctional layered processed connects
It is logical so that the first Multifunctional layered 1 and third Multifunctional layered 3 are in the varistor that it is internal under masked state and are in work shape
State remains to the variation for measuring three-dimensional force.
The time of measurement period T should control 1 between 20ms, T1=T2=1/2T.
When carrying out the scanning of subregion matrix form, it is selected the sensor unit in measuring state and executes the above-mentioned T periods,
The selected sensor unit as shielding area executes a special cycle T 3.
By analog switch K1, K2, K3, K4 ground connection of 4 Multifunctional layereds of the sensor unit in masked state, simultaneously
Analog switch K1-1, K2-1, K3-1, K4-1 of 4 Multifunctional layered inner pressure sensitive resistance 21 of control is set to connect its inner pressure sensitive resistance
21 cross public electrode 6 enables the sensor unit in masked state to survey the variation of three-dimensional force.
As shown in figure 27, the capacitance measurement of the present embodiment is used using 7150 chips, the processor of ad1 companies in ARM-m0
32 bit processors of core, external communication use spi bus.
Preferably, the measurement period T is 1-20ms, and T1=T2=0.5T.
The another aspect of the application further relates to a kind of electronic skin including the above-mentioned contact sensor with Multifunctional layered,
Since improvement only relates to the sensor on artificial skin, and the skill of comparative maturity in the prior art may be used in other component
Art.So the application is no longer described the other component of electronic skin.
The another aspect of the application further relates to a kind of intelligent robot including electronic skin, since improvement only relates to electricity
Contact sensor on sub- skin, and the technology of comparative maturity in the prior art may be used in other component.So the application
No longer the other component of intelligent robot is described.
The another aspect of the application further relates to a kind of Artificial intelligent prosthesis including above-mentioned electronic skin, only due to improvement
The contact sensor being related on artificial skin, and the technology of comparative maturity in the prior art may be used in other component.So
The application is no longer described the other component of Artificial intelligent prosthesis.
Finally it should be noted that above example is only to illustrate the technical solution of the utility model, rather than to this reality
With the limitation of novel protected range, although being explained in detail to the utility model with reference to preferred embodiment, this field it is general
Lead to it will be appreciated by the skilled person that can be modified or replaced equivalently to the technical solution of the utility model, without departing from this
The spirit and scope of utility model technical solution.
Claims (11)
1. a kind of contact sensor with Multifunctional layered, it is characterised in that:The sensor includes multiple sensor units, often
A sensor unit includes the region that 4 Multifunctional layereds include;In 4 Multifunctional layereds, the first Multifunctional layered and third are multi-functional
Layer is contour and be oppositely arranged, and the second Multifunctional layered and the 4th Multifunctional layered are contour and be oppositely arranged;First Multifunctional layered and third
Multifunctional layered is higher than the second Multifunctional layered and the 4th Multifunctional layered, and the centre-to-centre spacing of the first Multifunctional layered and third Multifunctional layered is big
In the centre-to-centre spacing of the second Multifunctional layered and the 4th Multifunctional layered, the first Multifunctional layered and third Multifunctional layered constitute capacitance C1, the
Two Multifunctional layereds and the 4th Multifunctional layered constitute capacitance C2;The inside of each Multifunctional layered is both provided with for detecting three-dimensional
The first detection unit of power.
2. a kind of contact sensor with Multifunctional layered according to claim 1, it is characterised in that:Each Multifunctional layered
Including region include that top corresponding with Multifunctional layered and bottom, top are made of flexible conducting material, flexible conducting material
Outside be provided with the protective layer being made of flexible insulating material, bottom includes multi-layer PCB board or FPC plates, pcb board or FPC plates
Flexible insulating layer is provided below, flexible insulating layer is provided below the ground shield controlled by analog switch, is opened by simulation
Insulating protective layer is provided below in the ground shield for closing control;Be provided on first layer pcb board or FPC plates with it is each multi-functional
Layer corresponding ring electrode is provided with circular electrode on second layer pcb board or FPC plates, via is provided on circular electrode, described
Via connects ring electrode and circular electrode is electrically connected with forming independent conductive region between the top and bottom.
3. a kind of contact sensor with Multifunctional layered according to claim 2, it is characterised in that:First detection
One end of unit is connected to first layer pcb board by the center conductive column being arranged inside Multifunctional layered or FPC plates, the other end are straight
It connects and is arranged on first layer pcb board or FPC plates.
4. a kind of contact sensor with Multifunctional layered according to claim 3, it is characterised in that:First detection
Unit is parallel plate capacitor or varistor.
5. a kind of contact sensor with Multifunctional layered according to claim 4, it is characterised in that:Each more work(
The inside of ergosphere is both provided with two layers of electrode, and upper layer is cross public electrode, and lower layer is and the cross public electrode pair in upper layer
4 absolute electrodes answered, 4 absolute electrodes of the cross public electrode in the upper layer and lower layer constitute 4 parallel plate capacitors;It is described
The cross public electrode in upper layer is connected electrically in the first layer PCB by the center conductive column being arranged inside the Multifunctional layered
On plate or FPC plates, lower layer's absolute electrode is set up directly on the first layer pcb board or FPC plates.
6. a kind of contact sensor with Multifunctional layered according to claim 5, it is characterised in that:The Multifunctional layered
It is covered in the outside of the upper layer cross public electrode and lower layer's absolute electrode;The Multifunctional layered is distinguished by analog switch
The parallel plate capacitor pumping signal for being grounded or being connected to inside Multifunctional layered realizes the earth shield of Multifunctional layered or connects equal electricity
Bit mask.
7. a kind of contact sensor with Multifunctional layered according to claim 6, it is characterised in that:The Multifunctional layered
On a processor by analog switch connection, the processor is connected on external circuit;
The Multifunctional layered is by the timesharing switching of analog switch and the control of bus come subregion shield sensor, wherein every
A measurement period T is made of two sub- cycle Ts 1 and T2:
In T1, the first Multifunctional layered connects the pumping signal of Multifunctional layered, and third Multifunctional layered connects analog to digital conversion circuit, more than second
Functional layer and the 4th Multifunctional layered are grounded or the second Multifunctional layered and the 4th Multifunctional layered while connecing its interior parallel plate electricity simultaneously
Hold the pumping signal of public electrode;The simulation for the interior parallel plate capacitance for controlling the first Multifunctional layered and third Multifunctional layered is opened
Shutdown is opened, while the analog switch for the interior parallel plate capacitance for controlling the second Multifunctional layered and the 4th Multifunctional layered being connect inside it
The pumping signal of parallel plate capacitor public electrode;
In T2, the second Multifunctional layered connects the pumping signal of Multifunctional layered, and the 4th Multifunctional layered connects analog to digital conversion circuit, more than first
Functional layer and third Multifunctional layered are grounded or the first Multifunctional layered and third Multifunctional layered while connecing its interior parallel plate electricity simultaneously
Hold the pumping signal of public electrode;The simulation for the interior parallel plate capacitance for controlling the second Multifunctional layered and the 4th Multifunctional layered is opened
Shutdown is opened, while the analog switch for the interior parallel plate capacitance for controlling the first Multifunctional layered and third Multifunctional layered being connect inside it
The pumping signal of parallel plate capacitor public electrode;
Within the next T3 periods, 4 Multifunctional layereds of the sensor unit in masked state are grounded simultaneously, or simultaneously
Connect the pumping signal of its interior parallel plate capacitance public electrode, and by the public electrode of 4 Multifunctional layered interior parallel plate capacitances
Connect the pumping signal of corresponding public electrode, T3=T therein.
8. a kind of contact sensor with Multifunctional layered according to claim 1 or 2, it is characterised in that:Work(more than first
The centre-to-centre spacing of ergosphere and third Multifunctional layered is d1, and the centre-to-centre spacing of the second Multifunctional layered and the 4th Multifunctional layered is d2, d1 and d2
Ratio be 1.2-5;The height of first Multifunctional layered and third Multifunctional layered is h1, the second Multifunctional layered and the 4th Multifunctional layered
Height be the difference of h2, h1 and h2 be 1-3mm.
9. a kind of electronic skin, it is characterised in that:Including one kind as described in any one of claim 1-8 having Multifunctional layered
Contact sensor.
10. a kind of intelligent robot, which is characterized in that include according to the electronic skin described in claim 9.
11. a kind of Artificial intelligent prosthesis, which is characterized in that including electronic skin as claimed in claim 9.
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Cited By (3)
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CN108362427A (en) * | 2018-01-31 | 2018-08-03 | 北京他山科技有限公司 | A kind of contact sensor, electronic skin and intelligent robot with Multifunctional layered |
CN111347445A (en) * | 2020-02-20 | 2020-06-30 | 安徽建筑大学 | Flexible touch sensor capable of detecting sliding touch force |
CN114932568A (en) * | 2022-05-07 | 2022-08-23 | 之江实验室 | Flexible movable static pressure sensing electronic skin and preparation method thereof |
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2018
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108362427A (en) * | 2018-01-31 | 2018-08-03 | 北京他山科技有限公司 | A kind of contact sensor, electronic skin and intelligent robot with Multifunctional layered |
CN111347445A (en) * | 2020-02-20 | 2020-06-30 | 安徽建筑大学 | Flexible touch sensor capable of detecting sliding touch force |
CN114932568A (en) * | 2022-05-07 | 2022-08-23 | 之江实验室 | Flexible movable static pressure sensing electronic skin and preparation method thereof |
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