CN106285416A - Door anti-pinch device - Google Patents
Door anti-pinch device Download PDFInfo
- Publication number
- CN106285416A CN106285416A CN201610695084.4A CN201610695084A CN106285416A CN 106285416 A CN106285416 A CN 106285416A CN 201610695084 A CN201610695084 A CN 201610695084A CN 106285416 A CN106285416 A CN 106285416A
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- Prior art keywords
- wall
- main body
- door main
- displacement transducer
- powder
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B7/00—Special arrangements or measures in connection with doors or windows
- E06B7/28—Other arrangements on doors or windows, e.g. door-plates, windows adapted to carry plants, hooks for window cleaners
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B7/00—Special arrangements or measures in connection with doors or windows
- E06B7/28—Other arrangements on doors or windows, e.g. door-plates, windows adapted to carry plants, hooks for window cleaners
- E06B7/36—Finger guards or other measures preventing harmful access between the door and the door frame
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- Engineering & Computer Science (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Battery Electrode And Active Subsutance (AREA)
- Secondary Cells (AREA)
Abstract
The invention discloses an anti-pinch device, including door main body, in the middle part of door main body, have a dividing plate that door main body is divided into upper and bottom section;Displacement transducer it is provided with in upper part;Lower part is provided with anti-clip assembly, and anti-clip assembly is made up of upper baffle-wall and lower baffle-wall.
Description
Technical field
The present invention relates to an anti-pinch device.
Background technology
Door anti-pinch device in correlation technique can not the misalignment of monitoring door in time, be susceptible to press from both sides people's situation.
Summary of the invention
It is desirable to provide door anti-pinch device, to solve above-mentioned technical problem.
Embodiments of the invention provide an anti-pinch device, including door main body, has a dividing plate in the middle part of door main body by door
Main body is divided into upper and bottom section;Displacement transducer it is provided with in upper part;Lower part is provided with anti-clip assembly, anti-clip assembly
It is made up of upper baffle-wall and lower baffle-wall.
The structure of the door anti-pinch device that the above embodiment of the present invention provides arranges rationally, is provided with displacement on door main body
Sensor, displacement transducer is connected with upper baffle-wall and lower baffle-wall, when generation is improper at closing time, and upper baffle-wall and lower baffle-wall can eject
Block door, thus solve above-mentioned technical problem.
Accompanying drawing explanation
Accompanying drawing herein is merged in description and constitutes the part of this specification, it is shown that meet the enforcement of the present invention
Example, and for explaining the principle of the present invention together with description.
Fig. 1 is the structural representation of the present invention.
Fig. 2 is the technique of the preparation method of the solid-state thin-film battery according to the door anti-pinch device shown in an exemplary embodiment
Flow chart.
Wherein, 1-door main body, 2-displacement transducer, the upper resistor of 3-, resistor under 4-.
Detailed description of the invention
Here will illustrate exemplary embodiment in detail, its example represents in the accompanying drawings.Explained below relates to
During accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represents same or analogous key element.Following exemplary embodiment
Described in embodiment do not represent all embodiments consistent with the present invention.On the contrary, they are only with the most appended
The example of the apparatus and method that some aspects that described in detail in claims, the present invention are consistent.
In the description of the present application, it should be noted that unless otherwise prescribed and limit, term " is installed ", " being connected ",
" connect " and should be interpreted broadly, for example, it may be mechanically connected or electrical connection, it is also possible to be the connection of two element internals, can
Being to be joined directly together, it is also possible to be indirectly connected to by intermediary, for the ordinary skill in the art, can basis
Concrete condition understands the concrete meaning of above-mentioned term.
The characteristics such as hull cell is ultra-thin with it, can be integrated, flexible, become the most optimum selection.Membrane electrode is not
Containing conductive agent and binding agent, a kind of " pure material " system containing only studied material can be considered.
Hull cell performance indications include running voltage, maximum current density, capacity and cyclical stability etc..Work electricity
Press and determined by the character of positive and negative pole material.Discharge capacity during battery most important performance indications, its main and electrode body of battery
Long-pending relevant with quality.
The form of hull cell the most all made by minitype ion battery at present, and thickness is generally less than 0.1mm, utilizes magnetic control to spatter
Penetrate, the technology such as chemical gaseous phase deposition, make the all-solid lithium-ion battery of various two-dimensional shapes, it becomes possible to the most micro-with various
Electronic equipment integrates.
The invention will be further described with the following Examples.
Application scenarios 1
Fig. 1 is according to the door anti-pinch device shown in an exemplary embodiment, as it is shown in figure 1, include door main body 1, and door main body 1
Middle part has a dividing plate that door main body is divided into upper and bottom section;Displacement transducer 2 it is provided with in upper part;Lower part is arranged
Having anti-clip assembly, anti-clip assembly is made up of upper baffle-wall 3 and lower baffle-wall 4.
The structure of the door anti-pinch device that the above embodiment of the present invention provides arranges rationally, is provided with displacement on door main body
Sensor, displacement transducer is connected with upper baffle-wall and lower baffle-wall, when generation is improper at closing time, and upper baffle-wall and lower baffle-wall can eject
Block door, thus solve above-mentioned technical problem.
Preferably, displacement transducer 2 is by being wired to the battery in door main body 1, and this battery is solid film lithium electricity
Pond.
Preferably, upper baffle-wall 3 and lower baffle-wall 4 are connected with displacement transducer 2.
Preferably, displacement transducer 2 is provided with 2.
Fig. 2 is the technological process of the preparation method of the hull cell according to the door anti-pinch device shown in an exemplary embodiment
Figure.With reference to Fig. 2, the preparation method of described hull cell comprises the following steps:
A, cleans substrate, sheet glass is used chromic acid lotion soaked overnight, then uses tap water, deionized water and ultra-pure water
Rinse well successively, ultrasonic 1h at 30 ± 5 DEG C, then clean dry for standby under infrared lamp with ultra-pure water;
B, by 10g~15g LiOH, CO2O3And Ta2O5Powder crosses 250 mesh sieves and 300 mesh sieves respectively, obtains grain diameter big
Little is the above-mentioned powder between 300 mesh~250 mesh;
C, obtains powders A, by powders A after being mixed according to the part by weight of 3:5:2 by the above-mentioned powder processed through S2
Mix homogeneously according to the ratio of 3:1, in 1200 DEG C of constant temperature bars in ceramic fibre Muffle furnace with the glucose powder crossing 280 mesh sieves
Solid state reaction 24~36h under part, heating rate is 10 DEG C/min, is subsequently placed at 25 ± 5 DEG C cooling;Powder after cooling adds
100ml deionized water, ultrasonic disperse 20~30min under room temperature, rotating speed is that 1000rpm/min is centrifuged 10min, centrifugal by obtain
Product be placed in-50 DEG C at lyophilization 5~10h, obtain powder B;
D, adds superactivity nano titanium dioxide powder and qs glycerin, the warp of 1~2g through S3 in the powder B that will process
After crossing grinding, add 2~3g Nanoscale Iron powder, add after appropriate sewage ethanol stirs, tablet machine is made diameter
It is the thin slice of 20~40mm, above-mentioned thin slice is placed in electric arc furnace at 3000 DEG C sintering 1h;
E, the thin slice XRD analysis that will process through S4, obtain LiCo2.4Ta2.2O5, by LiCo2.4Ta2.2O5Through ultraviolet
Line obtains LiCo after processing2.4Ta2.2O5Target, by LiCo2.4Ta2.2O5It is positioned in sealing bag and is placed in ventilated environment;
F, by 10~15g Li3P04It is placed in high-temperature electric arc stove and under the conditions of 2000 DEG C, sinters 6h;It is pressed into straight after grinding
Footpath is the thin slice of 20~40mm, then is placed in high-temperature electric arc stove under the conditions of 1800 DEG C and sinters 4h, after ultra violet lamp
Obtain Li3PO4Target;
G, the preparation of solid film lithium battery, in argon gas atmosphere, deposit iron thin film as collection with ferrum target and magnetron sputtering method
Electrode, ferrum target is 3~5cm with the distance of substrate, and the film thickness of deposition is 200-300nm;Use LiCo2.4Ta2.2O5Target and magnetic
Control sputtering method deposition LiCo2.4Ta2.2O5Anode thin film, LiCo2.4Ta2.2O5Target is 3~5cm with the distance of substrate, the thin film of deposition
Thickness is 100-200nm;LiPON solid electrolyte thin film is deposited in a nitrogen atmosphere with Li3PO4 target and magnetron sputtering method,
Li3PO4 target is 3-5cm with the distance of substrate, and the film thickness of deposition is 100~200nm;With metal lithium sheet and vacuum thermal evaporation
Method deposits lithium metal thin film under the conditions of negative pressure is 0.1KPa~0.15KPa, and the film thickness of deposition is 1~1.5 μm;
H, encapsulates under uviol lamp with light-sensitive emulsion and i.e. obtains all-solid-state battery.
Experiment test:
Under the electric current of 100 μ A, above-mentioned All-solid film batteries is carried out constant current charge-discharge test, initial specific discharge capacity
Being 195.8~197.6mAh/g, after 100 times circulate, drop to 195.6~197.5mAh/g, capability retention is 96.5%
~97.8%.
Test result shows, this battery has extraordinary cyclical stability and higher specific discharge capacity.
Application scenarios 2
Fig. 1 is according to the door anti-pinch device shown in an exemplary embodiment, as it is shown in figure 1, include door main body 1, and door main body 1
Middle part has a dividing plate that door main body is divided into upper and bottom section;Displacement transducer 2 it is provided with in upper part;Lower part is arranged
Having anti-clip assembly, anti-clip assembly is made up of upper baffle-wall 3 and lower baffle-wall 4.
The structure of the door anti-pinch device that the above embodiment of the present invention provides arranges rationally, is provided with displacement on door main body
Sensor, displacement transducer is connected with upper baffle-wall and lower baffle-wall, when generation is improper at closing time, and upper baffle-wall and lower baffle-wall can eject
Block door, thus solve above-mentioned technical problem.
Preferably, displacement transducer 2 is by being wired to the battery in door main body 1, and this battery is solid film lithium electricity
Pond.
Preferably, upper baffle-wall 3 and lower baffle-wall 4 are connected with displacement transducer 2.
Preferably, displacement transducer 2 is provided with 2.
Fig. 2 is the technological process of the preparation method of the hull cell according to the door anti-pinch device shown in an exemplary embodiment
Figure.With reference to Fig. 2, the preparation method of described hull cell comprises the following steps:
Described solid-state thin-film battery is prepared from by following steps:
A, cleans substrate, sheet glass is used chromic acid lotion soaked overnight, then uses tap water, deionized water and ultra-pure water
Rinse well successively, ultrasonic 1h at 30 ± 5 DEG C, then clean dry for standby under infrared lamp with ultra-pure water;
B, by 10g~15g LiOH, CO2O3And Ta2O5Powder crosses 250 mesh sieves and 300 mesh sieves respectively, obtains grain diameter big
Little is the above-mentioned powder between 300 mesh~250 mesh;By the size controlling of each compound in a stable scope, help
Stability in the hull cell being prepared from;
C, obtains powders A, by powders A after being mixed according to the part by weight of 3:5:2 by the above-mentioned powder processed through S2
Mix homogeneously according to the ratio of 3:1, in 1200 DEG C of constant temperature bars in ceramic fibre Muffle furnace with the glucose powder crossing 280 mesh sieves
Solid state reaction 24~36h under part, heating rate is 10 DEG C/min, is subsequently placed at 25 ± 5 DEG C cooling;Powder after cooling adds
100ml deionized water, ultrasonic disperse 20~30min under room temperature, rotating speed is that 1000rpm/min is centrifuged 10min, centrifugal by obtain
Product be placed in-50 DEG C at lyophilization 5~10h, obtain powder B;
D, adds superactivity nano titanium dioxide powder and qs glycerin, the warp of 1~2g through S3 in the powder B that will process
After crossing grinding, add 2~3g Nanoscale Iron powder, add after appropriate sewage ethanol stirs, tablet machine is made diameter
It is the thin slice of 20~40mm, above-mentioned thin slice is placed in electric arc furnace at 3000 DEG C sintering 1h;
E, the thin slice XRD analysis that will process through S4, obtain LiCo2.4Ta2.2O5, by LiCo2.4Ta2.2O5Through ultraviolet
Line obtains LiCo after processing2.4Ta2.2O5Target, by LiCo2.4Ta2.2O5It is positioned in sealing bag and is placed in ventilated environment;
F, by 10~15g Li3P04It is placed in high-temperature electric arc stove and under the conditions of 2000 DEG C, sinters 6h;It is pressed into straight after grinding
Footpath is the thin slice of 20~40mm, then is placed in high-temperature electric arc stove under the conditions of 1800 DEG C and sinters 4h, after ultra violet lamp
Obtain Li3PO4Target;
G, the preparation of solid film lithium battery, in argon gas atmosphere, deposit iron thin film as collection with ferrum target and magnetron sputtering method
Electrode, ferrum target is 3~5cm with the distance of substrate, and the film thickness of deposition is 200nm;Use LiCo2.4Ta2.2O5Target and magnetic control spatter
Penetrate method deposition LiCo2.4Ta2.2O5Anode thin film, LiCo2.4Ta2.2O5Target is 3~5cm with the distance of substrate, the film thickness of deposition
For 100nm;Deposit LiPON solid electrolyte thin film in a nitrogen atmosphere with Li3PO4 target and magnetron sputtering method, Li3PO4 target with
The distance of substrate is 3-5cm, and the film thickness of deposition is 200nm;With metal lithium sheet and Vacuum sublimation in negative pressure it is
Depositing lithium metal thin film under the conditions of 0.1KPa, the film thickness of deposition is 1 μm;
H, with photosensitive under uviol lamp encapsulation or other routine techniquess encapsulate and i.e. obtain All-solid film batteries.
Experiment test:
Under the electric current of 100 μ A, above-mentioned All-solid film batteries is carried out constant current charge-discharge test, initial specific discharge capacity
For 195.8mAh/g, after 100 times circulate, dropping to 195.6mAh/g, capability retention is 96.5%.
Test result shows, this battery has extraordinary cyclical stability and higher specific discharge capacity.
Application scenarios 3
Fig. 1 is according to the door anti-pinch device shown in an exemplary embodiment, as it is shown in figure 1, include door main body 1, and door main body 1
Middle part has a dividing plate that door main body is divided into upper and bottom section;Displacement transducer 2 it is provided with in upper part;Lower part is arranged
Having anti-clip assembly, anti-clip assembly is made up of upper baffle-wall 3 and lower baffle-wall 4.
The structure of the door anti-pinch device that the above embodiment of the present invention provides arranges rationally, is provided with displacement on door main body
Sensor, displacement transducer is connected with upper baffle-wall and lower baffle-wall, when generation is improper at closing time, and upper baffle-wall and lower baffle-wall can eject
Block door, thus solve above-mentioned technical problem.
Preferably, displacement transducer 2 is by being wired to the battery in door main body 1, and this battery is solid film lithium electricity
Pond.
Preferably, upper baffle-wall 3 and lower baffle-wall 4 are connected with displacement transducer 2.
Preferably, displacement transducer 2 is provided with 2.
Fig. 2 is the technological process of the preparation method of the hull cell according to the door anti-pinch device shown in an exemplary embodiment
Figure.With reference to Fig. 2, the preparation method of described hull cell comprises the following steps:
Described solid-state thin-film battery is prepared from by following steps:
A, cleans substrate, sheet glass is used chromic acid lotion soaked overnight, then uses tap water, deionized water and ultra-pure water
Rinse well successively, ultrasonic 1h at 30 ± 5 DEG C, then clean dry for standby under infrared lamp with ultra-pure water;
B, by 10g~15g LiOH, CO2O3And Ta2O5Powder crosses 250 mesh sieves and 300 mesh sieves respectively, obtains grain diameter big
Little is the above-mentioned powder between 300 mesh~250 mesh;By the size controlling of each compound in a stable scope, help
Stability in the hull cell being prepared from;
C, obtains powders A, by powders A after being mixed according to the part by weight of 3:5:2 by the above-mentioned powder processed through S2
Mix homogeneously according to the ratio of 3:1, in 1200 DEG C of constant temperature bars in ceramic fibre Muffle furnace with the glucose powder crossing 280 mesh sieves
Solid state reaction 24~36h under part, heating rate is 10 DEG C/min, is subsequently placed at 25 ± 5 DEG C cooling;Powder after cooling adds
100ml deionized water, ultrasonic disperse 20~30min under room temperature, rotating speed is that 1000rpm/min is centrifuged 10min, centrifugal by obtain
Product be placed in-50 DEG C at lyophilization 5~10h, obtain powder B;
D, adds superactivity nano titanium dioxide powder and qs glycerin, the warp of 1~2g through S3 in the powder B that will process
After crossing grinding, add 2~3g Nanoscale Iron powder, add after appropriate sewage ethanol stirs, tablet machine is made diameter
It is the thin slice of 20~40mm, above-mentioned thin slice is placed in electric arc furnace at 3000 DEG C sintering 1h;
E, the thin slice XRD analysis that will process through S4, obtain LiCo2.4Ta2.2O5, by LiCo2.4Ta2.2O5Through ultraviolet
Line obtains LiCo after processing2.4Ta2.2O5Target, by LiCo2.4Ta2.2O5It is positioned in sealing bag and is placed in ventilated environment;
F, by 10~15g Li3P04It is placed in high-temperature electric arc stove and under the conditions of 2000 DEG C, sinters 6h;It is pressed into straight after grinding
Footpath is the thin slice of 20~40mm, then is placed in high-temperature electric arc stove under the conditions of 1800 DEG C and sinters 4h, after ultra violet lamp
Obtain Li3PO4Target;
G, the preparation of solid film lithium battery, in argon gas atmosphere, deposit iron thin film as collection with ferrum target and magnetron sputtering method
Electrode, ferrum target is 3~5cm with the distance of substrate, and the film thickness of deposition is 220nm;Use LiCo2.4Ta2.2O5Target and magnetic control spatter
Penetrate method deposition LiCo2.4Ta2.2O5Anode thin film, LiCo2.4Ta2.2O5Target is 3~5cm with the distance of substrate, the film thickness of deposition
For 130nm;Deposit LiPON solid electrolyte thin film in a nitrogen atmosphere with Li3PO4 target and magnetron sputtering method, Li3PO4 target with
The distance of substrate is 3-5cm, and the film thickness of deposition is 130nm;With metal lithium sheet and Vacuum sublimation in negative pressure it is
Depositing lithium metal thin film under the conditions of 0.12KPa, the film thickness of deposition is 1.2 μm;
H, with photosensitive under uviol lamp encapsulation or other routine techniquess encapsulate and i.e. obtain All-solid film batteries.
Experiment test:
Under the electric current of 100 μ A, above-mentioned All-solid film batteries is carried out constant current charge-discharge test, initial specific discharge capacity
For 196.8mAh/g, after 100 times circulate, dropping to 196.6mAh/g, capability retention is 96.8%.
Test result shows, this battery has extraordinary cyclical stability and higher specific discharge capacity.
Application scenarios 4
Fig. 1 is according to the door anti-pinch device shown in an exemplary embodiment, as it is shown in figure 1, include door main body 1, and door main body 1
Middle part has a dividing plate that door main body is divided into upper and bottom section;Displacement transducer 2 it is provided with in upper part;Lower part is arranged
Having anti-clip assembly, anti-clip assembly is made up of upper baffle-wall 3 and lower baffle-wall 4.
The structure of the door anti-pinch device that the above embodiment of the present invention provides arranges rationally, is provided with displacement on door main body
Sensor, displacement transducer is connected with upper baffle-wall and lower baffle-wall, when generation is improper at closing time, and upper baffle-wall and lower baffle-wall can eject
Block door, thus solve above-mentioned technical problem.
Preferably, displacement transducer 2 is by being wired to the battery in door main body 1, and this battery is solid film lithium electricity
Pond.
Preferably, upper baffle-wall 3 and lower baffle-wall 4 are connected with displacement transducer 2.
Preferably, displacement transducer 2 is provided with 2.
Fig. 2 is the technological process of the preparation method of the hull cell according to the door anti-pinch device shown in an exemplary embodiment
Figure.With reference to Fig. 2, the preparation method of described hull cell comprises the following steps:
Described solid-state thin-film battery is prepared from by following steps:
A, cleans substrate, sheet glass is used chromic acid lotion soaked overnight, then uses tap water, deionized water and ultra-pure water
Rinse well successively, ultrasonic 1h at 30 ± 5 DEG C, then clean dry for standby under infrared lamp with ultra-pure water;
B, by 10g~15g LiOH, CO2O3And Ta2O5Powder crosses 250 mesh sieves and 300 mesh sieves respectively, obtains grain diameter big
Little is the above-mentioned powder between 300 mesh~250 mesh;By the size controlling of each compound in a stable scope, help
Stability in the hull cell being prepared from;
C, obtains powders A, by powders A after being mixed according to the part by weight of 3:5:2 by the above-mentioned powder processed through S2
Mix homogeneously according to the ratio of 3:1, in 1200 DEG C of constant temperature bars in ceramic fibre Muffle furnace with the glucose powder crossing 280 mesh sieves
Solid state reaction 24~36h under part, heating rate is 10 DEG C/min, is subsequently placed at 25 ± 5 DEG C cooling;Powder after cooling adds
100ml deionized water, ultrasonic disperse 20~30min under room temperature, rotating speed is that 1000rpm/min is centrifuged 10min, centrifugal by obtain
Product be placed in-50 DEG C at lyophilization 5~10h, obtain powder B;
D, adds superactivity nano titanium dioxide powder and qs glycerin, the warp of 1~2g through S3 in the powder B that will process
After crossing grinding, add 2~3g Nanoscale Iron powder, add after appropriate sewage ethanol stirs, tablet machine is made diameter
It is the thin slice of 20~40mm, above-mentioned thin slice is placed in electric arc furnace at 3000 DEG C sintering 1h;
E, the thin slice XRD analysis that will process through S4, obtain LiCo2.4Ta2.2O5, by LiCo2.4Ta2.2O5Through ultraviolet
Line obtains LiCo after processing2.4Ta2.2O5Target, by LiCo2.4Ta2.2O5It is positioned in sealing bag and is placed in ventilated environment;
F, by 10~15g Li3P04It is placed in high-temperature electric arc stove and under the conditions of 2000 DEG C, sinters 6h;It is pressed into straight after grinding
Footpath is the thin slice of 20~40mm, then is placed in high-temperature electric arc stove under the conditions of 1800 DEG C and sinters 4h, after ultra violet lamp
Obtain Li3PO4Target;
G, the preparation of solid film lithium battery, in argon gas atmosphere, deposit iron thin film as collection with ferrum target and magnetron sputtering method
Electrode, ferrum target is 3~5cm with the distance of substrate, and the film thickness of deposition is 200-300nm;Use LiCo2.4Ta2.2O5Target and magnetic
Control sputtering method deposition LiCo2.4Ta2.2O5Anode thin film, LiCo2.4Ta2.2O5Target is 3~5cm with the distance of substrate, the thin film of deposition
Thickness is 150nm;LiPON solid electrolyte thin film, Li3PO4 is deposited in a nitrogen atmosphere with Li3PO4 target and magnetron sputtering method
Target is 3-5cm with the distance of substrate, and the film thickness of deposition is 150nm;With metal lithium sheet and Vacuum sublimation in negative pressure it is
Depositing lithium metal thin film under the conditions of 0.13KPa, the film thickness of deposition is 1.4 μm;
H, with photosensitive under uviol lamp encapsulation or other routine techniquess encapsulate and i.e. obtain All-solid film batteries.
Experiment test:
Under the electric current of 100 μ A, above-mentioned All-solid film batteries is carried out constant current charge-discharge test, initial specific discharge capacity
For 197.2mAh/g, after 100 times circulate, dropping to 197.0mAh/g, capability retention is 97.5%.
Test result shows, this battery has extraordinary cyclical stability and higher specific discharge capacity.
Application scenarios 5
Fig. 1 is according to the door anti-pinch device shown in an exemplary embodiment, as it is shown in figure 1, include door main body 1, and door main body 1
Middle part has a dividing plate that door main body is divided into upper and bottom section;Displacement transducer 2 it is provided with in upper part;Lower part is arranged
Having anti-clip assembly, anti-clip assembly is made up of upper baffle-wall 3 and lower baffle-wall 4.
The structure of the door anti-pinch device that the above embodiment of the present invention provides arranges rationally, is provided with displacement on door main body
Sensor, displacement transducer is connected with upper baffle-wall and lower baffle-wall, when generation is improper at closing time, and upper baffle-wall and lower baffle-wall can eject
Block door, thus solve above-mentioned technical problem.
Preferably, displacement transducer 2 is by being wired to the battery in door main body 1, and this battery is solid film lithium electricity
Pond.
Preferably, upper baffle-wall 3 and lower baffle-wall 4 are connected with displacement transducer 2.
Preferably, displacement transducer 2 is provided with 2.
Fig. 2 is the technological process of the preparation method of the hull cell according to the door anti-pinch device shown in an exemplary embodiment
Figure.With reference to Fig. 2, the preparation method of described hull cell comprises the following steps:
Described solid-state thin-film battery is prepared from by following steps:
A, cleans substrate, sheet glass is used chromic acid lotion soaked overnight, then uses tap water, deionized water and ultra-pure water
Rinse well successively, ultrasonic 1h at 30 ± 5 DEG C, then clean dry for standby under infrared lamp with ultra-pure water;
B, by 10g~15g LiOH, CO2O3And Ta2O5Powder crosses 250 mesh sieves and 300 mesh sieves respectively, obtains grain diameter big
Little is the above-mentioned powder between 300 mesh~250 mesh;By the size controlling of each compound in a stable scope, help
Stability in the hull cell being prepared from;
C, obtains powders A, by powders A after being mixed according to the part by weight of 3:5:2 by the above-mentioned powder processed through S2
Mix homogeneously according to the ratio of 3:1, in 1200 DEG C of constant temperature bars in ceramic fibre Muffle furnace with the glucose powder crossing 280 mesh sieves
Solid state reaction 24~36h under part, heating rate is 10 DEG C/min, is subsequently placed at 25 ± 5 DEG C cooling;Powder after cooling adds
100ml deionized water, ultrasonic disperse 20~30min under room temperature, rotating speed is that 1000rpm/min is centrifuged 10min, centrifugal by obtain
Product be placed in-50 DEG C at lyophilization 5~10h, obtain powder B;
D, adds superactivity nano titanium dioxide powder and qs glycerin, the warp of 1~2g through S3 in the powder B that will process
After crossing grinding, add 2~3g Nanoscale Iron powder, add after appropriate sewage ethanol stirs, tablet machine is made diameter
It is the thin slice of 20~40mm, above-mentioned thin slice is placed in electric arc furnace at 3000 DEG C sintering 1h;
E, the thin slice XRD analysis that will process through S4, obtain LiCo2.4Ta2.2O5, by LiCo2.4Ta2.2O5Through ultraviolet
Line obtains LiCo after processing2.4Ta2.2O5Target, by LiCo2.4Ta2.2O5It is positioned in sealing bag and is placed in ventilated environment;
F, by 10~15g Li3P04It is placed in high-temperature electric arc stove and under the conditions of 2000 DEG C, sinters 6h;It is pressed into straight after grinding
Footpath is the thin slice of 20~40mm, then is placed in high-temperature electric arc stove under the conditions of 1800 DEG C and sinters 4h, after ultra violet lamp
Obtain Li3PO4Target;
G, the preparation of solid film lithium battery, in argon gas atmosphere, deposit iron thin film as collection with ferrum target and magnetron sputtering method
Electrode, ferrum target is 3~5cm with the distance of substrate, and the film thickness of deposition is 300nm;Use LiCo2.4Ta2.2O5Target and magnetic control spatter
Penetrate method deposition LiCo2.4Ta2.2O5Anode thin film, LiCo2.4Ta2.2O5Target is 3~5cm with the distance of substrate, the film thickness of deposition
For 200nm;Deposit LiPON solid electrolyte thin film in a nitrogen atmosphere with Li3PO4 target and magnetron sputtering method, Li3PO4 target with
The distance of substrate is 3-5cm, and the film thickness of deposition is 200nm;With metal lithium sheet and Vacuum sublimation in negative pressure it is
Depositing lithium metal thin film under the conditions of 0.15KPa, the film thickness of deposition is 1.5 μm;
H, with photosensitive under uviol lamp encapsulation or other routine techniquess encapsulate and i.e. obtain All-solid film batteries.
Experiment test:
Under the electric current of 100 μ A, above-mentioned All-solid film batteries is carried out constant current charge-discharge test, initial specific discharge capacity
For 197.6mAh/g, after 100 times circulate, dropping to 197.5mAh/g, capability retention is 97.8%.
Test result shows, this battery has extraordinary cyclical stability and higher specific discharge capacity.
Last it should be noted that, above example is only in order to illustrate technical scheme, rather than the present invention is protected
Protecting the restriction of scope, although having made to explain to the present invention with reference to preferred embodiment, those of ordinary skill in the art should
Work as understanding, technical scheme can be modified or equivalent, without deviating from the reality of technical solution of the present invention
Matter and scope.
Claims (4)
1. an anti-pinch device, it is characterised in that include door main body, has a dividing plate that door main body is divided into upper part in the middle part of door main body
And lower part;Displacement transducer it is provided with in upper part;Lower part is provided with anti-clip assembly, and anti-clip assembly has upper baffle-wall and lower resistance
Plate forms.
The most according to claim 1 anti-pinch device, it is characterised in that displacement transducer is by being wired to door main body
Interior battery, this battery is solid film lithium battery.
The most according to claim 2 anti-pinch device, it is characterised in that upper baffle-wall and lower baffle-wall are with displacement transducer even
Connect.
The most according to claim 3 anti-pinch device, it is characterised in that displacement transducer is provided with 2.
Priority Applications (1)
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CN201610695084.4A CN106285416A (en) | 2016-08-18 | 2016-08-18 | Door anti-pinch device |
Applications Claiming Priority (1)
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CN201610695084.4A CN106285416A (en) | 2016-08-18 | 2016-08-18 | Door anti-pinch device |
Publications (1)
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CN106285416A true CN106285416A (en) | 2017-01-04 |
Family
ID=57660749
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CN201610695084.4A Withdrawn CN106285416A (en) | 2016-08-18 | 2016-08-18 | Door anti-pinch device |
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Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2756864A1 (en) * | 1996-12-11 | 1998-06-12 | Sehimi Kadda | PROTECTION SYSTEM FOR FINGERTIPS FOR DOORS |
CN201162452Y (en) * | 2008-02-29 | 2008-12-10 | 广州市地下铁道总公司 | Anti-clamping device of city rail traffic platform shield door |
CN101586432A (en) * | 2009-07-07 | 2009-11-25 | 福建省永泰建筑工程公司 | Door and window with an induction type finger pinch device |
CN202249499U (en) * | 2011-07-25 | 2012-05-30 | 沈阳远大铝业工程有限公司 | Automatic lifting sliding door with anti-pinching function |
KR20130122484A (en) * | 2012-04-30 | 2013-11-07 | 이예명 | The safety door |
CN204754707U (en) * | 2015-06-12 | 2015-11-11 | 苏州工业职业技术学院 | Anti -pinch device of home -use door |
-
2016
- 2016-08-18 CN CN201610695084.4A patent/CN106285416A/en not_active Withdrawn
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2756864A1 (en) * | 1996-12-11 | 1998-06-12 | Sehimi Kadda | PROTECTION SYSTEM FOR FINGERTIPS FOR DOORS |
CN201162452Y (en) * | 2008-02-29 | 2008-12-10 | 广州市地下铁道总公司 | Anti-clamping device of city rail traffic platform shield door |
CN101586432A (en) * | 2009-07-07 | 2009-11-25 | 福建省永泰建筑工程公司 | Door and window with an induction type finger pinch device |
CN202249499U (en) * | 2011-07-25 | 2012-05-30 | 沈阳远大铝业工程有限公司 | Automatic lifting sliding door with anti-pinching function |
KR20130122484A (en) * | 2012-04-30 | 2013-11-07 | 이예명 | The safety door |
CN204754707U (en) * | 2015-06-12 | 2015-11-11 | 苏州工业职业技术学院 | Anti -pinch device of home -use door |
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