CN206032879U - Photovoltaic solder strip machine cable winding system - Google Patents
Photovoltaic solder strip machine cable winding system Download PDFInfo
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- CN206032879U CN206032879U CN201621045493.1U CN201621045493U CN206032879U CN 206032879 U CN206032879 U CN 206032879U CN 201621045493 U CN201621045493 U CN 201621045493U CN 206032879 U CN206032879 U CN 206032879U
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- wheel
- fork
- frequency converter
- calendering
- asynchronous machine
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Abstract
The utility model relates to a photovoltaic solder strip machine cable winding system is an electric system who is used for ribbon line material rolling automation equipment, is applicable to power transformer, super -huge motor, direct current converter transformer and solar photovoltaic and welds aspects such as area. Construct including control center, power paying out machine structure, rolling wheel mechanism, principal velocity wheel mechanism and rolling line arranging device, control center includes desktop, PLC controller, asynchronous machine, converter, servo motor and servo driver, the desktop links to each other with the input of PLC controller, power paying out machine structure comprises material dish and traction wheel, connects a traction wheel pendulum rod behind the traction wheel, rolling wheel mechanism comprises calendering guide pulley and calendering regulating wheel, connects a calendering pendulum rod behind the calendering guide pulley, principal velocity wheel mechanism comprises last copper wheel and copper wheel down, is equipped with a lower copper wheel pendulum rod under and between the copper wheel at last copper wheel, rolling line arranging device constructs and comprises last traction wheel, wire storage frame, meter rice wheel and rolling dish.
Description
Technical field
It is a kind of electricity for flat wire winding automation equipment that a kind of photovoltaic welding belt machine of the utility model receives Cable Assembly system
Gas system, it is adaptable to the aspect such as power transformer, super-huge motor, DC converter transformer and photovoltaic welding.
Background technology
As the development and the reduction of natural resources of science and technology, utilization of the every country to the energy are increasingly paid attention to, table is studied
Bright, specification section is better than the wire rod of current circular section in flat wire rod at aspects such as thermal diffusivity, electric conductivity.It is flat for section
Flat wire rod, needs coiling rolling in intermediate transportation link or product when storing.Constant tension will be kept in wrapup procedure, and is received
Lick journey and arrangement process will keep synchronized relation, the product design for not so obtaining unsightly, affects which to use function.At present
The take-up bus cable device for round wires material having, it is difficult to meet requirements above.
Utility model content
The purpose of this utility model is to provide a kind of photovoltaic welding belt machine for above-mentioned weak point to receive Cable Assembly system, is a kind of
Flat wire winding automation equipment.
The utility model takes technical scheme below to realize:
Photovoltaic welding belt machine receive Cable Assembly system include control centre, dynamic paying out machine structure, Zha Lun mechanisms, principal velocity wheel mechanism and
Winding wire-arranging mechanism, the control centre, dynamic paying out machine structure, Zha Lun mechanisms, principal velocity wheel mechanism and winding wire-arranging mechanism according to
It is secondary to be connected;
Control centre includes desktop computer, PLC, asynchronous machine, frequency converter, servomotor and servo-driver;Platform
Formula machine is connected with the input of PLC;The input/output terminals of PLC are connected with the outside terminal of frequency converter, to
Frequency converter sends the instruction such as startup, stopping, failure output, failure reset;Power of the output end of frequency converter by asynchronous machine
Line is connected with asynchronous machine;The output end of PLC is connected with servomotor by servo-driver;
The asynchronous machine includes traction wheel asynchronous machine, to roll wheel asynchronous machine, upper copper wheel asynchronous machine, lower copper wheel asynchronous
Motor, upper traction wheel asynchronous machine and winding asynchronous machine;
The servomotor includes winding displacement servomotor;
The frequency converter includes that dynamic paying out machine structure frequency converter, Zha Lun mechanisms frequency converter, upper copper wheel frequency converter, lower copper wheel become
Frequency device, upper traction wheel frequency converter and winding wheel frequency converter;
Dynamic paying out machine structure is made up of disk of material and traction wheel, connects a traction wheel fork after traction wheel;It is described to lead
Running wheel is connected with traction wheel asynchronous machine output shaft, is dragged by traction wheel asynchronous machine, and the rotating speed of traction wheel passes through traction wheel
Fork is adjusted;Traction wheel fork is connected with the port of dynamic paying out machine structure frequency converter analog quantity;Traction wheel fork is put using tension force
Bar;
Zha Lun mechanisms are constituted by guide wheel and calendering left regulation wheel is rolled, and calendering left regulation wheel is arranged on above calendering guide wheel, in pressure
Prolong one calendering fork of connection after guide wheel, to adjust calendering guide wheel linear velocity;It is described calendering guide wheel with roll wheel asynchronous machine it is defeated
Shaft is connected, and calendering guide wheel is dragged by rolling wheel asynchronous machine;Roll the port phase of fork and Zha Lun mechanisms frequency converter analog quantity
Even;Calendering fork adopts tension force fork;
Principal velocity wheel mechanism is made up of upper copper wheel and lower copper wheel, is provided with a lower copper wheel pendulum between upper copper wheel and lower copper wheel
Bar;The upper copper wheel is connected with upper copper wheel asynchronous machine output shaft, and upper copper wheel is dragged by upper copper wheel asynchronous machine, by upper copper wheel
Copper wheel Rotational Speed of Asynchronous Motor in Frequency Converter Control;The lower copper wheel is connected with lower copper wheel asynchronous machine output shaft, and lower copper wheel passes through
Lower copper wheel asynchronous machine is dragged, by copper wheel Rotational Speed of Asynchronous Motor under lower copper wheel Frequency Converter Control;Lower copper wheel fork is become with lower copper wheel
The port of frequency device analog quantity is connected;Lower copper wheel fork adopts tension force fork;
Winding wire-arranging mechanism is made up of upper traction wheel, storage rack, rice counting wheel and closed reel, before upper traction wheel connects one
Individual upper traction wheel fork;The upper traction wheel is connected with upper traction wheel asynchronous machine output shaft, by upper traction wheel Frequency Converter Control
Upper traction wheel Rotational Speed of Asynchronous Motor;Upper traction wheel fork is connected with the port of upper traction wheel frequency converter analog quantity;Upper traction wheel pendulum
Bar adopts tension force fork;Closed reel is arranged on rolling table, is provided with rice counting wheel between closed reel and storage rack;On storage rack
It is provided with line storage wheel and winding wheel fork;Closed reel with winding asynchronous machine output shaft be connected, wind asynchronous machine input and
Winding displacement servomotor is connected, closed reel by asynchronous machine is wound and winding displacement servomotor is dragged jointly, by winding wheel frequency converter control
Controlling rolling Rotational Speed of Asynchronous Motor;Winding wheel fork is connected with the port of winding wheel frequency converter analog quantity;Winding wheel fork is adopted to be opened
Power fork.
A floor push is provided between traction wheel and calendering guide wheel;One is provided between calendering guide wheel and upper copper wheel
Floor push;A floor push is provided between storage rack and rolling table;The floor push is used for threading, leads in threading
Cross artificial foot-operated, aid in threading.
Caliper is additionally provided between calendering left regulation wheel and upper copper wheel, and the caliper adjusts the thickness for waiting the lenticular wire for making pressure for control
Degree, plays control adjustment effect.
Apply 24V voltages between upper copper wheel and lower copper wheel, carry out annealing heat-treats;
Can also be provided with process treatment device after lower copper wheel, the process treatment device include being sequentially connected on help weldering
Agent equipment, tin stove and cooling device, scaling powder in realization, after tin stove heat, cooling blowing, is connected to traction wheel.
The closed reel is provided with two, has clamper between closed reel;The clamper adopts pneumatic clamps holder.
The desktop computer has display screen, shows that main interface, winding displacement setting, systematic parameter and failure are drawn on a display screen
Face.
The utility model is novel in design, rational in infrastructure, by power unwrapping wire, Zha Lun mechanisms, principal velocity wheel mechanism, winding winding displacement
Mechanism and servicing unit are constituted receives Cable Assembly system, keeps constant tension.With principal velocity crop rotation as active system, other parts conduct
Servo system.When equipment runs, the voltage signal that servo system is fed back according to tension force fork adjusts the rotating speed of corresponding motor,
Make which consistent with the linear velocity of principal velocity wheel, keep system stable operation.
Description of the drawings
The utility model is described further below with reference to accompanying drawing:
Fig. 1 is that this practical photovoltaic welding belt machine receives Cable Assembly system equipment control flow sketch;
Fig. 2 is that this practical photovoltaic welding belt machine receives Cable Assembly system structure composition topological diagram.
In figure:1st, disk of material, 2, traction wheel, 3, traction wheel fork;4th, roll guide wheel, 5, calendering left regulation wheel, 6, calendering pendulum
Bar, 7, upper copper wheel, 8, lower copper wheel, 9, lower copper wheel fork, 10, upper traction wheel, 11, storage rack, 12, rice counting wheel, 13, closed reel,
14th, upper traction wheel fork;15th, rolling table, 16, winding wheel fork, 17, clamper, 18, process treatment device, 19, line storage wheel.
Specific embodiment
Referring to the drawings 1 ~ 2, the utility model photovoltaic welding belt machine receive Cable Assembly system include control centre, dynamic paying out machine structure,
Zha Lun mechanisms, principal velocity wheel mechanism and winding wire-arranging mechanism, the control centre, dynamic paying out machine structure, Zha Lun mechanisms, principal velocity
Wheel mechanism and winding wire-arranging mechanism are sequentially connected;
Control centre includes desktop computer, PLC, asynchronous machine, frequency converter, servomotor and servo-driver;Platform
Formula machine is connected with the input of PLC;The input/output terminals of PLC are connected with the outside terminal of frequency converter, to
Frequency converter sends the instruction such as startup, stopping, failure output, failure reset;Power of the output end of frequency converter by asynchronous machine
Line is connected with asynchronous machine;The output end of PLC is connected with servomotor by servo-driver;
The asynchronous machine includes traction wheel asynchronous machine, to roll wheel asynchronous machine, upper copper wheel asynchronous machine, lower copper wheel asynchronous
Motor, upper traction wheel asynchronous machine and winding asynchronous machine;
The servomotor includes winding displacement servomotor;
The frequency converter includes that dynamic paying out machine structure frequency converter, Zha Lun mechanisms frequency converter, upper copper wheel frequency converter, lower copper wheel become
Frequency device, upper traction wheel frequency converter and winding wheel frequency converter;
Dynamic paying out machine structure is made up of disk of material 1 and traction wheel 2, connects a traction wheel fork 3 after traction wheel 2;Institute
State traction wheel 2 to be connected with traction wheel asynchronous machine output shaft, dragged by traction wheel asynchronous machine, the rotating speed of traction wheel 2 passes through
Traction wheel fork 3 is adjusted;Traction wheel fork 3 is connected with the port of dynamic paying out machine structure frequency converter analog quantity;Traction wheel fork 3 is adopted
Use tension force fork;
Zha Lun mechanisms are constituted by guide wheel 4 and calendering left regulation wheel 5 is rolled, and calendering left regulation wheel 5 is arranged on above calendering guide wheel 4,
One calendering fork 6 of connection after calendering guide wheel 4, to adjust calendering 4 linear velocity of guide wheel;The calendering guide wheel 4 takes turns different with rolling
Step motor output shaft is connected, and calendering guide wheel 4 is dragged by rolling wheel asynchronous machine;Calendering fork 6 and the frequency converter simulation of Zha Lun mechanisms
The port of amount is connected;Calendering fork 6 adopts tension force fork;
Principal velocity wheel mechanism is made up of upper copper wheel 7 and lower copper wheel 8, is provided with a lower copper between upper copper wheel 7 and lower copper wheel 8
Wheel fork 9;The upper copper wheel 7 is connected with upper copper wheel asynchronous machine output shaft, and upper copper wheel 7 is dragged by upper copper wheel asynchronous machine,
By copper wheel Rotational Speed of Asynchronous Motor in upper copper wheel Frequency Converter Control;The lower copper wheel 8 is connected with lower copper wheel asynchronous machine output shaft, under
Copper wheel 8 is dragged by lower copper wheel asynchronous machine, by copper wheel Rotational Speed of Asynchronous Motor under lower copper wheel Frequency Converter Control;Lower copper wheel fork 9
It is connected with the port of lower copper wheel frequency converter analog quantity;Lower copper wheel fork 9 adopts tension force fork;
Winding wire-arranging mechanism is made up of upper traction wheel 10, storage rack 11, rice counting wheel 12 and closed reel 13, in upper traction wheel 10
Connect a upper traction wheel fork 14 before;The upper traction wheel 10 is connected with upper traction wheel asynchronous machine output shaft, is led from above
Traction wheel Rotational Speed of Asynchronous Motor in running wheel Frequency Converter Control;The port of upper traction wheel fork 14 and upper traction wheel frequency converter analog quantity
It is connected;Upper traction wheel fork 14 adopts tension force fork;Closed reel 13 is arranged on rolling table 15, in closed reel 13 and storage rack 11
Between be provided with rice counting wheel 12;Storage rack 11 is provided with line storage wheel 19 and winding wheel fork 16;Closed reel 13 and the asynchronous electricity of winding
Machine output shaft be connected, wind asynchronous machine input be connected with winding displacement servomotor, closed reel 13 by winding asynchronous machine with
Winding displacement servomotor is dragged jointly, winds Rotational Speed of Asynchronous Motor by winding wheel Frequency Converter Control;Winding wheel fork 16 and winding wheel
The port of frequency converter analog quantity is connected;Winding wheel fork 16 adopts tension force fork;
The change of tension force is fed back to the change of dynamic paying out machine structure by potentiometer in the form of voltage signal by traction wheel fork 3
Inside frequency device, traction wheel Rotational Speed of Asynchronous Motor is adjusted by dynamic paying out machine structure frequency converter, makes traction wheel asynchronous machine corresponding
The overall linear velocity that linear velocity receives Cable Assembly system with photovoltaic welding belt machine is identical, to maintain system stability;
The change of tension force is fed back in Zha Lun mechanisms frequency converter in the form of voltage signal by calendering fork 6 by potentiometer
Portion, adjusts pinch roller Rotational Speed of Asynchronous Motor by Zha Lun mechanisms frequency converter;
The change of tension force is fed back to Zha Lun mechanisms frequency converter by potentiometer in the form of voltage signal by lower copper wheel fork 9
Inside, by the lower copper wheel Rotational Speed of Asynchronous Motor of lower copper wheel frequency converter adjustment;
The change of tension force is fed back to upper traction wheel in the form of voltage signal by potentiometer and is become by upper traction wheel fork 14
Inside frequency device, by the upper traction wheel Rotational Speed of Asynchronous Motor of upper traction wheel frequency converter adjustment;
The change of tension force is fed back to winding wheel frequency converter by potentiometer in the form of voltage signal by winding wheel fork 16
Inside, by winding wheel frequency converter adjustment winding Rotational Speed of Asynchronous Motor.
A floor push is provided between traction wheel 2 and calendering guide wheel 4;It is provided between calendering guide wheel 4 and upper copper wheel 7
One floor push;A floor push is provided between storage rack 11 and rolling table 15;The floor push is used for threading,
By artificial foot-operated during threading, threading is aided in.
Caliper is additionally provided between calendering left regulation wheel 5 and upper copper wheel 7, and the caliper is adjusted for control and waits the lenticular wire for making pressure
Thickness, plays control adjustment effect.
Apply 24V voltages between upper copper wheel 7 and lower copper wheel 8, carry out annealing heat-treats;
Process treatment device can be also provided with after lower copper wheel 8, and scaling powder in realization is cooled down after tin stove heat and blown
Wind, is connected to traction wheel 10.
The closed reel 13 is provided with two, has clamper 17 between closed reel 13;The clamper 17 adopts pneumatic clamps
Holder.
The desktop computer has display screen, shows that main interface, winding displacement setting, systematic parameter and failure are drawn on a display screen
Face.
Photovoltaic welding belt machine receives the operation principle of Cable Assembly system:
Round copper wire from after the releasing of disk of material 1 enters 3 through traction wheel 2 and traction wheel fork and enters rolling mechanism, roll guide wheel 4
Copper strips is driven backward, wherein rolls wheel inlet end and gathering sill is provided with according to the size of round wires, wire rod is prevented in rolling deformation mistake
There is left and right shift phenomenon in journey, affects the quality of lenticular wire material;The thickness of the line of calendering 5 major control pressure of left regulation wheel, its thickness Jing
Caliper is detected, and needs control and regulation, obtains high-quality lenticular wire material;Wire rod Jing rolls wheel rolling, becomes the flat of flat face shape
Wire rod, enters principal velocity turbine structure after rolling guide wheel 4 and calendering fork 6, and upper copper wheel 7 is the main body of speed, while arranging
Potentiometer, adjusts overall linear velocity;Add 24V voltages between upper copper wheel 7 and lower copper wheel 8, carry out for the copper wire to rolling
Annealing heat-treats;Through PROCESS FOR TREATMENT after lower copper wheel 8, pass through from tin stove after upper scaling powder, copper strips is after tin stove is tin plating
Become tin band, after cooling blowing, be connected to traction wheel 10;Winding row is entered under upper 14 collective effect of traction wheel fork
Line mechanism, tin band through the winding of line storage wheel more than 19 times, after rice counting wheel 12, on closed reel 13, can adapt at least 3 kinds it is general
Logical I-beam wheel;After the first closed reel winding rice is counted to, wire rod is clipped to and is wound on the second winding wheel by clamper 17 automatically,
After the winding rice of the second closed reel is counted to, clamper 17 clips to wire rod on the first winding wheel, and winding part is so circulated;Folder
17 side-to-side movement scope of holder can be spacing using proximity switch, while torque motor control its rotating, between wire rod and wire rod
Gap can set on the touchscreen.
Claims (6)
1. a kind of photovoltaic welding belt machine receives Cable Assembly system, it is characterised in that:Including control centre, dynamic paying out machine structure, Zha Lun mechanisms,
Principal velocity wheel mechanism and winding wire-arranging mechanism, the control centre, dynamic paying out machine structure, Zha Lun mechanisms, principal velocity wheel mechanism and
Winding wire-arranging mechanism is sequentially connected;
Control centre includes desktop computer, PLC, asynchronous machine, frequency converter, servomotor and servo-driver;Desktop computer
It is connected with the input of PLC;The input/output terminals of PLC are connected with the outside terminal of frequency converter;Frequency converter
Output end be connected with asynchronous machine by the power line of asynchronous machine;The output end of PLC by servo-driver with
Servomotor is connected;
The asynchronous machine includes traction wheel asynchronous machine, rolls wheel asynchronous machine, upper copper wheel asynchronous machine, the asynchronous electricity of lower copper wheel
Machine, upper traction wheel asynchronous machine and winding asynchronous machine;
The servomotor includes winding displacement servomotor;
The frequency converter includes dynamic paying out machine structure frequency converter, Zha Lun mechanisms frequency converter, upper copper wheel frequency converter, lower copper wheel frequency conversion
Device, upper traction wheel frequency converter and winding wheel frequency converter;
Dynamic paying out machine structure is made up of disk of material and traction wheel, connects a traction wheel fork after traction wheel;The traction wheel
It is connected with traction wheel asynchronous machine output shaft, is dragged by traction wheel asynchronous machine, the rotating speed of traction wheel passes through traction wheel fork
Adjust;Traction wheel fork is connected with the port of dynamic paying out machine structure frequency converter analog quantity;Traction wheel fork adopts tension force fork;
Zha Lun mechanisms are constituted by guide wheel and calendering left regulation wheel is rolled, and calendering left regulation wheel is arranged on above calendering guide wheel, is led in calendering
Connect a calendering fork after wheel, to adjust calendering guide wheel linear velocity;The calendering guide wheel takes turns asynchronous machine output shaft with rolling
It is connected, calendering guide wheel is dragged by rolling wheel asynchronous machine;Calendering fork is connected with the port of Zha Lun mechanisms frequency converter analog quantity;Pressure
Prolong fork using tension force fork;
Principal velocity wheel mechanism is made up of upper copper wheel and lower copper wheel, is provided with a lower copper wheel fork between upper copper wheel and lower copper wheel;
The upper copper wheel is connected with upper copper wheel asynchronous machine output shaft, and upper copper wheel is dragged by upper copper wheel asynchronous machine, is become by upper copper wheel
The upper copper wheel Rotational Speed of Asynchronous Motor of frequency device control;The lower copper wheel is connected with lower copper wheel asynchronous machine output shaft, under lower copper wheel passes through
Copper wheel asynchronous machine is dragged, by copper wheel Rotational Speed of Asynchronous Motor under lower copper wheel Frequency Converter Control;Lower copper wheel fork and lower copper wheel frequency conversion
The port of device analog quantity is connected;Lower copper wheel fork adopts tension force fork;
Winding wire-arranging mechanism is made up of upper traction wheel, storage rack, rice counting wheel and closed reel, before upper traction wheel in connection one
Traction wheel fork;The upper traction wheel is connected with upper traction wheel asynchronous machine output shaft, by leading in upper traction wheel Frequency Converter Control
Running wheel Rotational Speed of Asynchronous Motor;Upper traction wheel fork is connected with the port of upper traction wheel frequency converter analog quantity;Upper traction wheel fork is adopted
Use tension force fork;Closed reel is arranged on rolling table, is provided with rice counting wheel between closed reel and storage rack;Storage rack is provided with
Line storage wheel and winding wheel fork;Closed reel is connected with winding asynchronous machine output shaft, winds the input and winding displacement of asynchronous machine
Servomotor is connected, and closed reel is received by winding wheel Frequency Converter Control by asynchronous machine is wound and winding displacement servomotor is dragged jointly
Volume Rotational Speed of Asynchronous Motor;Winding wheel fork is connected with the port of winding wheel frequency converter analog quantity;Winding wheel fork is put using tension force
Bar.
2. photovoltaic welding belt machine according to claim 1 receives Cable Assembly system, it is characterised in that:Traction wheel with calendering guide wheel it
Between be provided with a floor push;A floor push is provided between calendering guide wheel and upper copper wheel;Storage rack and rolling table it
Between be provided with a floor push;The floor push is used for threading, in threading by artificial foot-operated, aids in threading.
3. photovoltaic welding belt machine according to claim 1 receives Cable Assembly system, it is characterised in that:Calendering left regulation wheel and upper copper wheel it
Between be additionally provided with caliper, the caliper adjusts the thickness for waiting the lenticular wire for making pressure for control.
4. photovoltaic welding belt machine according to claim 1 receives Cable Assembly system, it is characterised in that:Work is additionally provided with after lower copper wheel
Skill processing meanss, the process treatment device include upper scaling powder equipment, tin stove and the cooling device being sequentially connected.
5. photovoltaic welding belt machine according to claim 1 receives Cable Assembly system, it is characterised in that:The closed reel is provided with two,
There is clamper between closed reel;The clamper adopts pneumatic clamps holder.
6. photovoltaic welding belt machine according to claim 1 receives Cable Assembly system, it is characterised in that:The desktop computer has display
Screen, shows main interface, winding displacement setting, systematic parameter and failure picture on a display screen.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621045493.1U CN206032879U (en) | 2016-09-09 | 2016-09-09 | Photovoltaic solder strip machine cable winding system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621045493.1U CN206032879U (en) | 2016-09-09 | 2016-09-09 | Photovoltaic solder strip machine cable winding system |
Publications (1)
Publication Number | Publication Date |
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CN206032879U true CN206032879U (en) | 2017-03-22 |
Family
ID=58299707
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201621045493.1U Expired - Fee Related CN206032879U (en) | 2016-09-09 | 2016-09-09 | Photovoltaic solder strip machine cable winding system |
Country Status (1)
Country | Link |
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CN (1) | CN206032879U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107187934A (en) * | 2017-06-27 | 2017-09-22 | 西安聚能装备技术有限公司 | A kind of high speed solid matter admission machine for the superconducting wire for being used for bandlet and combined tessera |
CN108908971A (en) * | 2018-06-15 | 2018-11-30 | 杭州赛富特绝缘材料有限公司 | The manufacturing method of solvent-free environmental protection silicon rubber glass fiber hose |
-
2016
- 2016-09-09 CN CN201621045493.1U patent/CN206032879U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107187934A (en) * | 2017-06-27 | 2017-09-22 | 西安聚能装备技术有限公司 | A kind of high speed solid matter admission machine for the superconducting wire for being used for bandlet and combined tessera |
CN108908971A (en) * | 2018-06-15 | 2018-11-30 | 杭州赛富特绝缘材料有限公司 | The manufacturing method of solvent-free environmental protection silicon rubber glass fiber hose |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170322 Termination date: 20210909 |