CN110151339A - A kind of gear division memorial alloy hot activation dental arch filament automatic moulding system - Google Patents
A kind of gear division memorial alloy hot activation dental arch filament automatic moulding system Download PDFInfo
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- CN110151339A CN110151339A CN201910474048.9A CN201910474048A CN110151339A CN 110151339 A CN110151339 A CN 110151339A CN 201910474048 A CN201910474048 A CN 201910474048A CN 110151339 A CN110151339 A CN 110151339A
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C7/00—Orthodontics, i.e. obtaining or maintaining the desired position of teeth, e.g. by straightening, evening, regulating, separating, or by correcting malocclusions
- A61C7/12—Brackets; Arch wires; Combinations thereof; Accessories therefor
- A61C7/20—Arch wires
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- Health & Medical Sciences (AREA)
- Oral & Maxillofacial Surgery (AREA)
- Dentistry (AREA)
- Epidemiology (AREA)
- Life Sciences & Earth Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- General Health & Medical Sciences (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Dental Tools And Instruments Or Auxiliary Dental Instruments (AREA)
- Wire Processing (AREA)
Abstract
A kind of gear division memorial alloy hot activation dental arch filament automatic moulding system of the embodiment of the present invention, including main body and titanium-nickel wire, processing cavity is offered in the main body, the organisation of working of processing semi-finished product is equipped in the processing cavity, the organisation of working has cut lengths, cooling and conveying function, heating tank is offered in end wall on the left of the processing cavity, the heating tank runs through the left side end wall of the processing cavity, and the processing cavity is made to be in communication with the outside setting, heating anneal layer is installed on the periphery of the heating tank, memory alloy wire can be through the invention, straight forming is to product objective form and needs the impact of performance to be achieved, eliminate the production process of gear division hot activation dental arch filament complexity, integrate multiple processes, keep the production of product more convenient, it is more efficient, simple mechanism design in the present invention simultaneously, and mechanism Between transmit the effect of linkage.
Description
Technical field
The present invention relates to memorial alloy field shaping technique, specially a kind of gear division memorial alloy hot activation dental arch filament is automatic
Formation system.
Background technique
Currently, there is a kind of hot activation dental arch filament in gear division correction industry, this product be with memory alloy wire by annealing,
Multiple processes such as wire drawing, cooling, molding and timeliness are made, and process is more and many and diverse, and the device machine for needing to use is unusual
More, factory process cost can be very high, while the artificial and time required for each device is also very more, it is therefore desirable to have
A kind of system and device can become one these processes, allow gear division correction hot activation dental arch filament be produced on it is effective before
It puts, light convenient, the cost of manufacture that reduction factory needs to pay of change, and the Production Time of product can be made greatly to drop
It is low, liberate a part of extra manual labor.
Summary of the invention
The purpose of the present invention is to provide a kind of gear division memorial alloy hot activation dental arch filament automatic moulding systems, for overcoming
Drawbacks described above in the prior art.
A kind of gear division memorial alloy hot activation dental arch filament automatic moulding system of embodiment according to the present invention, including host
Body and titanium-nickel wire offer processing cavity in the main body, and the organisation of working of processing semi-finished product is equipped in the processing cavity, described
Organisation of working has cut lengths, cooling and the function of conveying, offers heating tank, the heating in end wall on the left of the processing cavity
Slot runs through the left side end wall of the processing cavity, and the processing cavity is made to be in communication with the outside setting, consolidates on the periphery of the heating tank
Equipped with heating anneal layer, the titanium-nickel wire is moved in the processing cavity after being annealed by the heating tank and processes, described
The right side opening of processing cavity is equipped with directed cavity, and the processing cavity is connected to setting with the directed cavity, and the titanium-nickel wire is through the guiding
It after chamber turns to and moving down, offers cutting chamber on the downside of the directed cavity, the cutting chamber is connected to setting with the directed cavity,
Intracavitary be equipped with of the cutting can make formed product to the cutting mechanism of required form, and the cutting chamber downside opens up effective
Chamber, the timeliness chamber are in communication with the outside setting, and the timeliness chamber is connected to setting with the cutting chamber, and intracavitary be equipped with of the timeliness can
Make up to the timeliness mechanism of object elastic with ageing prod, the molding die loaded can drop down onto after semi-finished product it is described
In timeliness mechanism, drive cavity is offered on rear side of the processing cavity, is equipped with to provide to whole system device in the drive cavity and be moved
The power mechanism of power.
Further technical solution, the organisation of working include fixing support rack, water pipe and spray head, the fixing support rack
It is installed in the left wall of the processing cavity, the right end of the fixing support rack is mountable various sizes of to cut ring, the processing
Water pipe is installed, the water pipe is located on the upside of the fixing support rack, and the right side of the water pipe is solid by lower end in the left wall of chamber
Equipped with spray head, extension is connected to through the left wall of the processing cavity with external source the water pipe to the left, the processing cavity
The first traveller is installed in right wall, sliding is equipped with the first sliding block, the bottom end of first sliding block on the periphery of first traveller
It is installed with the second traveller, the bottom end of second traveller is installed with fixed block, and sliding is equipped with the on the periphery of second traveller
Two sliding blocks are hinged with connecting rod in the back end surface of second sliding block, and sliding is equipped with pin shaft in the connecting rod, the processing cavity
Rotation is equipped with rotary shaft on rear wall, and the front end of the rotary shaft is installed with link block, the pin shaft side end and the company
It connects block to be fixedly connected, the first spring is installed between the link block and the connecting rod.
Further technical solution, is installed with first pulley and second pulley on the rear wall of the directed cavity, and described first
Pulley is higher than the second pulley, is hinged with connecting rod in the right wall of the directed cavity, and the left distal end of the connecting rod is installed with the
Three pulleys are equipped with second spring between the connecting rod and the directed cavity.
Further technical solution, the cutting mechanism include molding die and cutting die, are opened on the left of the cutting chamber
Equipped with sliding groove, the molding die sliding is set in sliding groove, and rotation is equipped with stud, the spiral shell on the rear wall of the sliding groove
Column is threadedly engaged with the left wall of the molding die and connect.
Further technical solution, sliding is equipped with sleeve in the right wall of the cutting chamber, and the cutting die is fixedly arranged on institute
The left end of sleeve is stated, the right side opening of the cutting chamber is equipped with rectangular cavity, is installed with third traveller, institute in the right wall of the rectangular cavity
It states sleeve to be slidably arranged on the periphery of third traveller, the 4th traveller is installed on the right arm of the rectangular cavity, the described 4th is sliding
Column is located at the upside of the third traveller, and sliding is equipped with third sliding block on the periphery of the 4th traveller, the third sliding block with
Fixed link is installed between the sleeve, the top of the third sliding block is flank of tooth setting, is rotated on the rear wall of the rectangular cavity
Equipped with short axle, gear is installed on the periphery of the short axle, half tooth of the gear setting, the gear can be with the third sliding block
Engagement, is equipped with third spring between the third sliding block and the right wall of the rectangular cavity.
Further technical solution, the timeliness mechanism include the timeliness for being installed in the timeliness chamber and keeping left on internal partial wall
Heating layer, rotation is equipped with transmission shaft on the rear wall of the timeliness chamber, is installed with the first mesh belt wheel, institute on the periphery of the transmission shaft
It states timeliness chamber and is installed with bracket on the bottom wall of extraneous part, rotated on the bracket and be equipped with the second mesh belt wheel, described second
Mesh belt is installed between mesh belt wheel and the first mesh belt wheel.
Further technical solution, the power mechanism includes the motor being embedded in the drive cavity rear wall admittedly, described
The end that motor is located at the drive cavity is connected by power dynamic gear, and the transmission shaft extends back part through the timeliness
The rear side inner wall of chamber protrudes into the drive cavity, and rear side end is installed with transmission gear, and the transmission gear is located at described
Keep left position on the downside of power gear, and the transmission gear is engaged with the power gear, and extension is run through after the short axial
The rear side inner wall of the rectangular cavity, and protrude into the drive cavity, and be installed on its periphery for being located at the transmission cavity segment
Driven gear, the driven gear are located on the upside of the power gear position of keeping right, the driven gear and the power gear
Engagement.
Further technical solution, the rear side end of the short axle are installed with the first belt pulley, prolong after the axial rotary
Extending portion point runs through the rear side inner wall of the processing cavity, and protrudes into the drive cavity, and rear side end is installed with the second belt
Wheel, is equipped with the first belt, the rotary shaft is located at the drive cavity between second belt pulley and first belt pulley
Third belt pulley is installed on interior periphery, the stud, which extends back, partially runs through the rear side inner wall of the sliding groove, and stretches
Enter in the drive cavity, and rear side end is installed with the 4th belt pulley, the 4th belt pulley and the third belt pulley it
Between the second belt is installed.
The beneficial effects of the present invention are: memory alloy wire can through the invention, straight forming to product objective form and need
The impact of performance to be achieved eliminates the production process of gear division hot activation dental arch filament complexity, integrates multiple processes, make product
Production it is more convenient, it is more efficient, while the design of simple mechanism and the effect of inter-agency transmitting linkage in the present invention,
Whole system installation cost can be made lower, allow the cost of entire production product to be controlled effectively, wherein organisation of working can
So that general memory alloy wire is cut the size needed to product, cutting mechanism can make memory alloy wire be cut to product
Form is needed, timeliness mechanism can allow product to reach target capabilities effect, and power mechanism can make each moving component while join
It moves together, improves integration and the degree of automation.
Detailed description of the invention
Fig. 1 is a kind of gear division memorial alloy hot activation dental arch filament automatic moulding internal system overall structure signal of the invention
Figure;
Fig. 2 is the structural schematic diagram in the direction A-A in the present invention;
Fig. 3 is the local structure top view of drive cavity in the present invention;
Fig. 4 is the partial structurtes enlarged plan view of cutting mechanism in the present invention;
Fig. 5 is the enlarged diagram of matching relationship between middle gear of the present invention and third sliding block.
Specific embodiment
Below with reference to Fig. 1-5, the present invention is described in detail, for sake of convenience, now such as to hereafter described orientation regulation
Under: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.
Referring to Fig.1-5, a kind of gear division memorial alloy hot activation dental arch filament automatic moulding system of embodiment according to the present invention
It unites, including main body 11 and titanium-nickel wire 13, processing cavity 26 is offered in the main body 11, is equipped with processing in the processing cavity 26
The organisation of working 101 of semi-finished product, the organisation of working 101 have cut lengths, cooling and the function of conveying, and the processing cavity 26 is left
Heating tank 14 is offered in the wall of side, the heating tank 14 runs through the left side end wall of the processing cavity 26, and makes the processing cavity
26 are in communication with the outside setting, heating anneal layer 15 are installed on the periphery of the heating tank 14, the titanium-nickel wire 13 can pass through
The heating tank 14 is moved to processing in the processing cavity 26 after annealing, the right side opening of the processing cavity 26 is equipped with directed cavity 19,
The processing cavity 26 is connected to setting with the directed cavity 19, and the titanium-nickel wire 13 is after the directed cavity 19 steering and to moving down
It is dynamic, cutting chamber 67 is offered on the downside of the directed cavity 19, the cutting chamber 67 is connected to setting, the cutting with the directed cavity 19
Being equipped in chamber 67 can make formed product to the cutting mechanism 104 of required form, open up effective chamber on the downside of the cutting chamber 67
51, the timeliness chamber 51 is in communication with the outside setting, and the timeliness chamber 51 is connected to setting, the timeliness chamber 51 with the cutting chamber 67
Interior to be equipped with the timeliness mechanism 103 that object elastic is made up to ageing prod, the molding die 52 has loaded semi-finished product production
It can be dropped down onto after product in the timeliness mechanism 103, the rear side of the processing cavity 26 offers drive cavity 56, sets in the drive cavity 56
Have and provides the power mechanism 105 of power to whole system device.
The organisation of working 101 includes fixing support rack 23, water pipe 21 and spray head 22, and the fixing support rack 23 is installed in
In the left wall of the processing cavity 26, the right end of the fixing support rack 23 is mountable various sizes of to cut ring 25, the processing
Water pipe 21 is installed, the water pipe 21 is located at 23 upside of fixing support rack, the right side of the water pipe 21 in the left wall of chamber 26
It is installed with spray head 22 by lower end, extension connects the water pipe 21 through the left wall and external source of the processing cavity 26 to the left
It is logical, the first traveller 27 is installed in the right wall of the processing cavity 26, it is sliding to be equipped with first for sliding on the periphery of first traveller 27
Block 28, the bottom end of first sliding block 28 are installed with the second traveller 29, and the bottom end of second traveller 29 is installed with fixed block 31,
Sliding is equipped with the second sliding block 30 on the periphery of second traveller 29, is hinged with connecting rod in the back end surface of second sliding block 30
32, the interior sliding of the connecting rod 32 is equipped with pin shaft 36, and rotation is equipped with rotary shaft 33, the rotation on the rear wall of the processing cavity 26
The front end of axis 33 is installed with link block 34, and 36 side end of pin shaft is fixedly connected with the link block 34, the link block
First spring 35 is installed between 34 and the connecting rod 32, second sliding block can be driven by the rotation of the rotary shaft 33
30 do regular-shape motion, compress when second sliding block 30 moves to downside with the fixed block 31, while moving right can
To pull the titanium-nickel wire 13 to move right, the ring 25 that cuts can make the NiTi with cut size, the spray head 22
Silk 13 is cooling.
First pulley 24 and second pulley 37 are installed on the rear wall of the directed cavity 19, the first pulley 24 is higher than institute
Second pulley 37 is stated, connecting rod 39 is hinged in the right wall of the directed cavity 19, the left distal end of the connecting rod 39 is installed with third
Pulley 38 is equipped with second spring 40 between the connecting rod 39 and the directed cavity 19, and the work of guiding is played by three groups of pulleys
With.
The cutting mechanism 104 includes molding die 52 and cutting die 50, offers sliding on the left of the cutting chamber 67
Slot 54, the sliding of molding die 52 are set in sliding groove 54, and rotation is equipped with stud 53 on the rear wall of the sliding groove 54, described
Stud 53 is threadedly engaged with the left wall of the molding die 52 and connect, and by the rotation of the stud 53, can make the molding
Mold 52 is slowly mobile forward.
Sliding is equipped with sleeve 49 in the right wall of the cutting chamber 67, and the cutting die 50 is fixedly arranged on a left side for the sleeve 49
The right side opening at end, the cutting chamber 67 is equipped with rectangular cavity 41, is installed with third traveller 48 in the right wall of the rectangular cavity 41, described
Sleeve 49 is slidably arranged on the periphery of third traveller 48, and the 4th traveller 45 is installed on the right arm of the rectangular cavity 41, described
4th traveller 45 is located at the upside of the third traveller 48, and sliding is equipped with third sliding block 46 on the periphery of the 4th traveller 45,
Fixed link 47 is installed between the third sliding block 46 and the sleeve 49, the top of the third sliding block 46 is flank of tooth setting,
Rotation is equipped with short axle 43 on the rear wall of the rectangular cavity 41, is installed with gear 42, the gear 42 on the periphery of the short axle 43
The setting of half tooth, the gear 42 can be engaged with the third sliding block 46, the right wall of the third sliding block 46 and the rectangular cavity 41
Between third spring 44 is installed, by the rotation of the gear 42, the third sliding block 46 can be driven to slide to the right, simultaneously
The cutting die 50 is driven to move right, when the gear 42 turns to no flank of tooth, the third sliding block 46 pops up to the left,
To make the cutting die 50 pop up to the left, reaches cutting and compress the titanium-nickel wire 13 to 52 right-hand end of molding die
Effect on face.
The timeliness mechanism 103 includes being installed in the timeliness heating layer 16 that the timeliness chamber 51 keeps left on internal partial wall, institute
It states rotation on the rear wall of timeliness chamber 51 and is equipped with transmission shaft 58, be installed with the first mesh belt wheel 68, institute on the periphery of the transmission shaft 58
It states timeliness chamber 51 and is installed with bracket 17 on the bottom wall of extraneous part, rotation is equipped with the second mesh belt wheel 18 on the bracket 17,
Mesh belt 20 is installed between the second mesh belt wheel 18 and the first mesh belt wheel 68, it, can be with by the transmission of the mesh belt 20
It is moved to the left the molding die 52, after 16 timeliness of timeliness heating layer effect, achievees the effect that product objective performance.
The power mechanism 105 includes that the motor 55 in 56 rear wall of drive cavity, the motor 55 are located at admittedly
The end of the drive cavity 56 is connected by power dynamic gear 65, and the transmission shaft 58 extends back part through the timeliness chamber
51 rear side inner wall protrudes into the drive cavity 56, and rear side end is installed with transmission gear 57, the transmission gear 57
Keep left position on the downside of the power gear 65, and the transmission gear 57 is engaged with the power gear 65, the short axle 43 to
The rear side inner wall of the rectangular cavity 41 is run through in extension afterwards, and protrudes into the drive cavity 56, and it is located at the drive cavity
Driven gear 62 is installed on the periphery of 56 parts, the driven gear 62 is located on the upside of the power gear 65 position of keeping right,
The driven gear 62 is engaged with the power gear 65, is operated by motor, can drive the short axle 43 and described simultaneously
The rotation of transmission shaft 58.
The rear side end of the short axle 43 is installed with the first belt pulley 63, and the rotary shaft 33 extends back part through institute
The rear side inner wall of processing cavity 26 is stated, and is protruded into the drive cavity 56, and rear side end is installed with the second belt pulley 66, it is described
First belt 64 is installed, the rotary shaft 33 is located at the drive cavity between second belt pulley 66 and first belt pulley 63
Third belt pulley 61 is installed on periphery in 56, the stud 53 extends back part in the rear side of the sliding groove 54
Wall, and protruding into the drive cavity 56, and rear side end is installed with the 4th belt pulley 59, the 4th belt pulley 59 with it is described
Second belt 60 is installed between third belt pulley 61, by the rotation of the short axle 43, is driven first belt 64, from
And rotate the rotary shaft 33, and then be driven second belt 60, then rotate the stud 53.
When in use, be initially charged with the titanium-nickel wire 13 of preposition default section, being inserted into molding die 52, starts motor 55, be allowed to
The rotation that short axle 43 and transmission shaft 58 can be driven simultaneously is driven the first belt 64, to make to revolve by the rotation of short axle 43
Shaft 33 rotates, and then is driven the second belt 60, then rotates stud 53, and the rotation of rotary shaft 33 can drive the second sliding block
30 do regular-shape motion, compress when the second sliding block 30 moves to downside with fixed block 31, while moving right and can pull nickel
Titanium silk 13 moves right, and starts heating schedule and is pulled in processing cavity 26, after the annealing of the heated slot 14 of titanium-nickel wire 13 through cutting out
The cooling for cutting ring 25 cut size and spray head 22 is resent in directed cavity 19, is oriented to through pulley blocks, makes titanium-nickel wire 13 to moving down
It is dynamic, by the rotation of stud 53, molding die 52 can be made slowly mobile forward, the rotation of gear 42 can drive third sliding
Block 46 slides to the right, while cutting die 50 being driven to move right, and when gear 42 turns to no flank of tooth, third sliding block 46 is to the left
Pop-up, so that cutting die 50 be made to pop up to the left, cuts and compresses on titanium-nickel wire 13 to 52 right end face of molding die, work as molding
When mold 52 moves forward to maximum position, falling on mesh belt 20, the rotation of transmission shaft 58 can make the transmission of mesh belt 20, thus
It is moved to the left molding die 52, after the effect of 16 timeliness of timeliness heating layer, achievees the effect that product objective performance.
The beneficial effects of the present invention are: memory alloy wire can through the invention, straight forming to product objective form and need
The impact of performance to be achieved eliminates the production process of gear division hot activation dental arch filament complexity, integrates multiple processes, make product
Production it is more convenient, it is more efficient, while the design of simple mechanism and the effect of inter-agency transmitting linkage in the present invention,
Whole system installation cost can be made lower, allow the cost of entire production product to be controlled effectively, wherein organisation of working can
So that general memory alloy wire is cut the size needed to product, cutting mechanism can make memory alloy wire be cut to product
Form is needed, timeliness mechanism can allow product to reach target capabilities effect, and power mechanism can make each moving component while join
It moves together, improves integration and the degree of automation.
Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design
To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention
It is subject to claims appended hereto.
Claims (8)
1. a kind of gear division memorial alloy hot activation dental arch filament automatic moulding system, including main body and titanium-nickel wire, it is characterised in that:
Processing cavity is offered in the main body, and the organisation of working of processing semi-finished product, the processing machine are equipped in the processing cavity
Structure has cut lengths, cooling and the function of conveying, offers heating tank in end wall on the left of the processing cavity, the heating tank runs through
The left side end wall of the processing cavity, and the processing cavity is made to be in communication with the outside setting, be installed on the periphery of the heating tank plus
Thermal annealing layer, the titanium-nickel wire are moved in the processing cavity after being annealed by the heating tank and process, the processing cavity
Right side opening be equipped with directed cavity, the processing cavity is connected to setting with the directed cavity, and the titanium-nickel wire is turned to through the directed cavity
Afterwards and move down;
Cutting chamber is offered on the downside of the directed cavity, the cutting chamber is connected to setting with the directed cavity, and the cutting is intracavitary to be set
Have a cutting mechanism that formed product can be made to required form, open up effective chamber on the downside of the cutting chamber, the timeliness chamber with
External world's connection setting, the timeliness chamber are connected to setting with the cutting chamber, and intracavitary be equipped with of the timeliness can be allowed to ageing prod
Reach the timeliness mechanism of object elastic, the molding die can drop down onto the timeliness mechanism after having loaded semi-finished product, institute
It states and offers drive cavity on rear side of processing cavity, be equipped in the drive cavity and provide the power mechanism of power to whole system device.
2. a kind of gear division memorial alloy hot activation dental arch filament automatic moulding system according to claim 1, it is characterised in that:
The organisation of working includes fixing support rack, water pipe and spray head, and the fixing support rack is installed in the left wall of the processing cavity,
The right end of the fixing support rack it is mountable it is various sizes of cut ring, water pipe is installed in the left wall of the processing cavity, it is described
Water pipe is located on the upside of the fixing support rack, and the right side of the water pipe is installed with spray head by lower end, and the water pipe extends to the left
Part is connected to through the left wall of the processing cavity with external source, and the first traveller is installed in the right wall of the processing cavity, described
Sliding is equipped with the first sliding block on the periphery of first traveller, and the bottom end of first sliding block is installed with the second traveller, and described second is sliding
The bottom end of column is installed with fixed block, and sliding is equipped with the second sliding block, the rear side of second sliding block on the periphery of second traveller
Connecting rod is hinged on end face, sliding is equipped with pin shaft in the connecting rod, and rotation is equipped with rotary shaft, institute on the rear wall of the processing cavity
The front end for stating rotary shaft is installed with link block, and the pin shaft side end is fixedly connected with the link block, the link block with
First spring is installed between the connecting rod.
3. a kind of gear division memorial alloy hot activation dental arch filament automatic moulding system according to claim 2, it is characterised in that:
First pulley and second pulley are installed on the rear wall of the directed cavity, the first pulley is higher than the second pulley, described
Connecting rod is hinged in the right wall of directed cavity, the left distal end of the connecting rod is installed with third pulley, the connecting rod and the guiding
Second spring is installed between chamber.
4. a kind of gear division memorial alloy hot activation dental arch filament automatic moulding system according to claim 1, it is characterised in that:
The cutting mechanism includes molding die and cutting die, and sliding groove is offered on the left of the cutting chamber, and the molding die is sliding
Dynamic to be set in sliding groove, rotation is equipped with stud, the left wall spiral shell of the stud and the molding die on the rear wall of the sliding groove
Line is cooperatively connected.
5. a kind of gear division memorial alloy hot activation dental arch filament automatic moulding system according to claim 4, it is characterised in that:
Sliding is equipped with sleeve in the right wall of the cutting chamber, and the cutting die is fixedly arranged on the left end of the sleeve, the cutting chamber
Right side opening is equipped with rectangular cavity, is installed with third traveller in the right wall of the rectangular cavity, the sleeve is slidably arranged in third traveller
Periphery on, the 4th traveller is installed on the right arm of the rectangular cavity, the 4th traveller is located at the upside of the third traveller,
Sliding is equipped with third sliding block on the periphery of 4th traveller, is installed with fixed link between the third sliding block and the sleeve,
The top of the third sliding block is flank of tooth setting, rotates on the rear wall of the rectangular cavity and is equipped with short axle, on the periphery of the short axle
It is installed with gear, half tooth of the gear setting, the gear can be engaged with the third sliding block, the third sliding block and the square
Third spring is installed between the right wall of shape chamber.
6. a kind of gear division memorial alloy hot activation dental arch filament automatic moulding system according to claim 5, it is characterised in that:
The timeliness mechanism includes the timeliness heating layer for being installed in the timeliness chamber and keeping left on internal partial wall, on the rear wall of the timeliness chamber
Rotation is equipped with transmission shaft, and the first mesh belt wheel is installed on the periphery of the transmission shaft, and the timeliness chamber is located at the bottom of extraneous part
Be installed with bracket on wall, rotation is equipped with the second mesh belt wheel on the bracket, the second mesh belt wheel and the first mesh belt wheel it
Between mesh belt is installed.
7. a kind of gear division memorial alloy hot activation dental arch filament automatic moulding system according to claim 1, it is characterised in that:
The power mechanism includes that the motor in the drive cavity rear wall, the end that the motor is located at the drive cavity are dynamic admittedly
Power is connected with power gear, and the transmission shaft extends back and partially protrudes into the drive cavity through the rear side inner wall of the timeliness chamber
It is interior, and rear side end is installed with transmission gear, the transmission gear is located on the downside of the power gear position that keeps left, the biography
Moving gear is engaged with the power gear, and the rear side inner wall of the rectangular cavity is run through in extension after the short axial, and protrudes into
In the drive cavity, and it is installed with driven gear on its periphery for being located at the transmission cavity segment, the driven gear is located at institute
Position of keeping right on the upside of power gear is stated, the driven gear is engaged with the power gear.
8. a kind of gear division memorial alloy hot activation dental arch filament automatic moulding system according to claim 7, it is characterised in that:
The rear side end of the short axle is installed with the first belt pulley, and the rear side of the processing cavity is run through in extension after the axial rotary
Inner wall, and protrude into the drive cavity, and rear side end is installed with the second belt pulley, second belt pulley and described first
First belt is installed between belt pulley, is installed with third belt pulley on the periphery that the rotary shaft is located in the drive cavity,
The stud, which extends back, partially runs through the rear side inner wall of the sliding groove, and protrudes into the drive cavity, and rear side end
It is installed with the 4th belt pulley, the second belt is installed between the 4th belt pulley and the third belt pulley.
Priority Applications (2)
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CN201910474048.9A CN110151339A (en) | 2019-06-02 | 2019-06-02 | A kind of gear division memorial alloy hot activation dental arch filament automatic moulding system |
JP2019123576A JP6613419B1 (en) | 2019-06-02 | 2019-07-02 | Automatic molding system for dental heat activated archwire made of shape memory alloy |
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CN201910474048.9A CN110151339A (en) | 2019-06-02 | 2019-06-02 | A kind of gear division memorial alloy hot activation dental arch filament automatic moulding system |
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CN110151339A true CN110151339A (en) | 2019-08-23 |
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CN201910474048.9A Pending CN110151339A (en) | 2019-06-02 | 2019-06-02 | A kind of gear division memorial alloy hot activation dental arch filament automatic moulding system |
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CN (1) | CN110151339A (en) |
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CN111589989A (en) * | 2020-05-24 | 2020-08-28 | 唐山天天安科技有限公司 | Steel wire rope cutting device |
CN113798415B (en) * | 2021-10-14 | 2024-01-16 | 河南兴河水电工程有限公司 | Water conservancy construction reinforcing bar cutting device |
CN117531888B (en) * | 2024-01-09 | 2024-03-22 | 常州日恒通用航空有限公司 | Indentation device for gear machining |
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JPH0881745A (en) * | 1994-09-13 | 1996-03-26 | Kanto Special Steel Works Ltd | Shape memory alloy wire manufacturing equipment |
JP2001252755A (en) * | 2000-03-07 | 2001-09-18 | Ykk Corp | Die for continuously injection-molding to wire rod and its apparatus |
JP2013212392A (en) * | 2009-05-04 | 2013-10-17 | Orametrix Inc | Apparatus and method for customized shaping of orthodontic archwires and other medical devices |
CN204501037U (en) * | 2015-04-07 | 2015-07-29 | 佳木斯大学 | Mouth cavity orthodontic arch wire preparation facilities |
CN107847295A (en) * | 2015-07-17 | 2018-03-27 | 李钟昊 | Custom Prosthesis orthodontic arch wire manufactures instrument and orthodontic arch wire manufacture method |
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EP0667753B1 (en) * | 1992-11-09 | 2000-01-19 | Ormco Corporation | Custom orthodontic appliance forming method and apparatus |
JP3573177B2 (en) * | 1995-12-29 | 2004-10-06 | 大同特殊鋼株式会社 | Method and apparatus for hot rolling wire |
MXPA01008721A (en) * | 1999-12-29 | 2003-06-24 | Ormco Corp | Custom orthodontic appliance forming method and apparatus. |
US6612143B1 (en) * | 2001-04-13 | 2003-09-02 | Orametrix, Inc. | Robot and method for bending orthodontic archwires and other medical devices |
CN103505294B (en) * | 2013-10-22 | 2016-01-06 | 四川大学 | The arch former of two depression bars is established with end |
-
2019
- 2019-06-02 CN CN201910474048.9A patent/CN110151339A/en active Pending
- 2019-07-02 JP JP2019123576A patent/JP6613419B1/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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JPH0881745A (en) * | 1994-09-13 | 1996-03-26 | Kanto Special Steel Works Ltd | Shape memory alloy wire manufacturing equipment |
JP2001252755A (en) * | 2000-03-07 | 2001-09-18 | Ykk Corp | Die for continuously injection-molding to wire rod and its apparatus |
JP2013212392A (en) * | 2009-05-04 | 2013-10-17 | Orametrix Inc | Apparatus and method for customized shaping of orthodontic archwires and other medical devices |
CN204501037U (en) * | 2015-04-07 | 2015-07-29 | 佳木斯大学 | Mouth cavity orthodontic arch wire preparation facilities |
CN107847295A (en) * | 2015-07-17 | 2018-03-27 | 李钟昊 | Custom Prosthesis orthodontic arch wire manufactures instrument and orthodontic arch wire manufacture method |
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JP2020195753A (en) | 2020-12-10 |
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