CN109895163A - A kind of method of Multi-station precision cutting solid wax stone - Google Patents
A kind of method of Multi-station precision cutting solid wax stone Download PDFInfo
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- CN109895163A CN109895163A CN201910214517.3A CN201910214517A CN109895163A CN 109895163 A CN109895163 A CN 109895163A CN 201910214517 A CN201910214517 A CN 201910214517A CN 109895163 A CN109895163 A CN 109895163A
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Abstract
The present invention relates to a kind of methods of Multi-station precision cutting solid wax stone, use a kind of slicer, including circular shell, gearshift, cutter device, operating device;The method of the cutting solid wax stone is the following steps are included: step 1, installs solid wax stone;Step 2, it precuts;Step 3, position is adjusted;Step 4, it cuts.A kind of method of Multi-station precision cutting solid wax stone of the present invention, the slicer used is structurally reasonable, easy to operate, can carry out installation and synchronous cutting to multiple solid wax stones simultaneously;The slicer can cut the thickness of solid wax stone with fine adjustment.
Description
Technical field
The present invention relates to field of mechanical technique, and in particular to a kind of method of Multi-station precision cutting solid wax stone.
Background technique
It is frequently necessary to cut solid wax stone in practical applications, such as the wax stone of hot balloon other solid wax
Block.Precision is difficult to ensure using the cutting of cutter hand, and is difficult to ensure the thickness of the wax stone fritter or thin slice that repeatedly cut down
Spend consistency, it is therefore desirable to the method for designing a kind of accurate cutting solid wax stone of multistation.
Summary of the invention
In order to solve the technical problems in background technology, a kind of Multi-station precision of the present invention cuts solid wax
The method of block, the slicer used is structurally reasonable, easy to operate, can simultaneously to multiple solid wax stones installed with synchronize cut
It cuts;The slicer can cut the thickness of solid wax stone with fine adjustment;The thickness of cutting solid wax stone can control more
It is accurate.
The technical solution adopted by the present invention to solve the technical problems is:
A kind of method of Multi-station precision cutting solid wax stone using a kind of slicer, including circular shell, gearshift, is cut
Cut device, operating device;
The circular shell includes:
It is driven inner cavity, is equipped at least three, the transmission inner cavity is radially circumferentially evenly arranged on inside the circular shell, the biography
Latter half forms a left side and sets shell on the left of dynamic inner cavity, and housing cavity is set equipped with worm gear chamber in the left side, and the left side is set in shell
Portion is equipped with along the longitudinal direction and sets through-hole in worm gear chamber, the left side set shell right half part penetrate through along longitudinal direction be equipped with
The worm screw vertical hole of the worm gear chamber, the left side set housing forward end right side of face and also form preposition slide bar, in the transmission
It is located at a left side on the left of chamber to set also along the longitudinal direction equipped with limit jack in front of shell, the transmission inner cavity is close to the circular shell center of circle
End interconnect and form connection lumen;
Slot is cut, is equipped at least three, the cutting slot and the transmission inner cavity correspond, every transmission inner cavity
Right side front is respectively communicated with equipped with a cutting slot, and the cutting slot right side penetrates through the circular shell setting, described to cut
Cleft cutting slot lower end surface is equipped with the underlying slot to accommodate solid wax stone;
Institute's displacement apparatus includes:
Worm screw assembly, the snail including longitudinally through worm screw vertical hole and being rotatably plugged in the transmission upper and lower end face in inner cavity
Bar shaft, worm screw shaft part corresponding with the worm screw vertical hole form worm screw ontology, and the worm screw shaft is located at a left side
Setting at below shell has input runner;
Worm gear assembly is rotatably located in the worm gear chamber and is sequentially connected with corresponding worm screw ontology;
Screw rod is driven, is located in the middle part of the worm gear assembly, the driving screw rod, which is rotatably threaded through in described, to be set in jack;
Nut assembly, including be screwed on the driving screw rod nut body, be located on the left of the nut body and with it is described
The mating limit plug of jack is limited, the nut body right half part forms mating with the preposition slide bar
Slide bar jack, nut body right side rear are equipped with servo-actuated slotting ear;
The cutter device includes:
Cone pulley assembly is inputted, described in being fixed on the input wheel shaft of the transmission inner cavity lower end surface right back along longitudinal direction, being located at
Input wheel shaft upper end on the right side of and with it is described transmission inner cavity right side connect fixation transverse arm, be rotatably located at the input wheel shaft
The input rotating cylinder located below the fixed transverse arm takes shape in the input cone pulley ontology for inputting edge on rotating cylinder, described defeated
Enter the front on the edge after being located at the input runner after cone pulley ontology;
Scalable transmission shaft is inserted including being located at the fixation slotting ear of the transmission inner cavity right side, being rotatably located at the fixation
Postposition shaft in ear is located at postposition shaft rear end and bores with the rear transmission of the input cone pulley ontology transmission connection
The rectangle insertion tube of postposition shaft front end is taken turns, is located at, the scalable transmission shaft further includes rotatably being located at described be servo-actuated
Preposition shaft in slotting ear is located at the preposition shaft rear end and the rectangle inserted link mating with the rectangle insertion tube, is located at
The preposition drive conical wheel of the preposition shaft front end;
Cutter head, two limit slotting ears one on the other including being located at nut body right side first half, the limit
Position slotting ear is equipped with inner hole and has slotting ear plug in interior hole forming, and the cutter head further includes being located between two limit slotting ears simultaneously
With the output cone pulley of preposition drive conical wheel transmission connection, the output cone pulley middle part forms internal screw thread and is bolted with output spiral shell
Bar, through the inner hole of two limit slotting ears, the output screw outer wall also edge is axially arranged with and the slotting ear output screw
The mating axial side opening of plug, the output screw upper end right side are additionally provided with cutting transverse arm, set on the right side of the cutting transverse arm
There is the cutting blade being inserted into the underlying slot;
Lifting device, including being rotatably located at the major diameter disk of the connection lumen lower half portion, being located at the major diameter disk
Upper surface center simultaneously through the circular shell upper surface setting torsion core bar, the major diameter disk circumference outer wall with it is described defeated
Enter the transmission connection of rotating cylinder lower half portion;
Gearshift, including being rotatably set in the path annulus reversed outside core bar, taking shape in the path annulus
Along top and through the torsion cylinder of circular shell upper surface setting, the torsion cylinder outer wall is located at circular shell upper end
A locking annulus is respectively equipped with above and below face at two sides, the path annulus outer wall and the input runner are sequentially connected;
It is described cutting solid wax stone method the following steps are included:
Step 1, solid wax stone is installed:
Solid wax stone will be placed in the underlying slot of each cutting slot;
Step 2, it precuts:
Rotate the torsion core bar, major diameter disk;
The major diameter disk drives the input runner, input cone pulley ontology rotation;
The input cone pulley ontology drives rear transmission cone pulley, postposition shaft, rectangle insertion tube, rectangle inserted link, preposition shaft, preposition
Drive conical wheel rotation;
The preposition drive conical wheel drives the output cone pulley rotation;
The output cone pulley drives the output screw, cutting transverse arm, cutting blade to move downward, and the cutting blade is by solid
Wax stone is cut;
Rotate backward the torsion core bar, major diameter disk may make cutting blade uplink to reset;
Step 3, position is adjusted:
Reverse the torsion cylinder, path annulus;
The path annulus drives the input runner, worm screw shaft, the rotation of worm screw ontology;
Worm gear assembly described in the worm screw ontology-driven drives screw turns, nut assembly edge described in the drive screw drives
Front-rear direction is mobile;
The back-and-forth motion of the nut assembly drives the preposition shaft, rectangle inserted link, preposition drive conical wheel to be moved forward and backward, but by
It is telescopic mating in the rectangle inserted link and rectangle insertion tube, so that the scalable shaft is still in input cone pulley assembly
Good transmission is kept between cutter head;
The back-and-forth motion of the nut assembly drives the cutter head mobile in front-rear direction, adjusts the position of cutter head;
Step 4, it cuts:
The movement in step 2 is repeated, the cutting blade cuts solid wax stone again;
Since the cutter head in step 4 is relative to a small distance is moved in step 2, which is cut thin
The thickness of piece.
Further, the rectangle insertion tube inner wall is equipped with lubricant layer, reduces the rectangle inserted link and slides in rectangle insertion tube
Damping.
Beneficial effects of the present invention:
A kind of method of Multi-station precision cutting solid wax stone of the present invention, the slicer used is structurally reasonable, operation letter
It is single, installation and synchronous cutting can be carried out to multiple solid wax stones simultaneously:
Solid wax stone is sequentially placed into the underlying slot of each cutting slot;
The torsion core bar, major diameter disk are rotated, the major diameter disk drives the input runner, input cone pulley ontology rotation;
The input cone pulley ontology drives rear transmission cone pulley, slotting ear shaft, rectangle insertion tube, rectangle inserted link, lug shaft, preposition
Drive conical wheel rotation;
The preposition drive conical wheel drives the output cone pulley rotation, and the output cone pulley drives the output screw, cutting horizontal
Arm, cutting blade move downward, and the cutting blade cuts solid wax stone;
The major diameter disk can drive multiple input runners to rotate, and then drive multiple cutter devices to synchronize and cut.
The slicer can cut the thickness of solid wax stone with fine adjustment:
The torsion cylinder, path annulus are reversed, the path annulus drives the input runner, worm screw shaft, worm screw ontology
It rotates, worm gear assembly described in the worm screw ontology-driven drives screw turns;The worm gear structure can carry out larger subtract
The deceleration of speed ratio;
Nut assembly described in the drive screw drives moves along the longitudinal direction, and then drives the cutter head in front-rear direction
Mobile, the displacement for driving screw turns the mobile screw pitch of one week nut, the process itself can guarantee higher
Measure of precision, cut in conjunction with the retarding efffect of worm gear structure so that the displacement of the cutter head is more accurate
Cut solid wax stone thickness can control it is more accurate.
Detailed description of the invention
Present invention will be further explained below with reference to the attached drawings and examples.
Fig. 1 is a kind of top view of embodiment of the slicer.
Fig. 2 is a kind of cross-sectional view of embodiment of the slicer.
Fig. 3 is a kind of enlarged diagram of embodiment in the portion A in Fig. 2.
Fig. 4 is the enlarged diagram of the portion A another kind embodiment in Fig. 2.
Fig. 5 is section B-B cross-sectional view in Fig. 2.
Fig. 6 is C-C cross-sectional view in Fig. 2.
Fig. 7 is the lifting device, gearshift scheme of installation.
In figure:
1. circular shell, 11a. is driven inner cavity, 11b. worm gear chamber, sets through-hole in 11c., 11d. worm screw vertical hole, and 11e. is preposition
Slide bar, 11f. limit jack, and 11g. is connected to lumen, 12. cutting slots, the underlying slot of 12a.;
2. gearshift, 21. worm screw assemblies, 21a. worm screw shaft, 21b. worm screw ontology, 21c. input runner, 22. worm gears are total
At 23. driving screw rods, 24. nut assemblies, 24a. nut body, 24b. limit plug, 24c. slide bar jack, 24d. is servo-actuated to be inserted
Ear;
3. cutter device, 31. input cone pulley assemblies, 31a. input wheel shaft, the fixed transverse arm of 31b., 31c. inputs rotating cylinder, and 31d. is defeated
Enter cone pulley ontology, 32. scalable transmission shafts, the fixed slotting ear of 32a., 32b. postposition shaft, 32c. rear transmission cone pulley, 32d. square
Shape insertion tube, the preposition shaft of 32e., 32f. rectangle inserted link, the preposition drive conical wheel of 32g., 33. cutter heads, 33a. limit slotting ear,
33b. slotting ear plug, 33c. export cone pulley, 33d. output screw, 33e. axial direction side opening, 33f. cutting transverse arm, 33g. cutter
Piece;
4. lifting device, 41. major diameter disks, 42. torsion core bars;
5. gearshift, 51. path annulus, 52. torsion cylinders, 52a. engage annulus.
Specific embodiment
Below in conjunction with attached drawing, the present invention is described in further detail.
A kind of method of Multi-station precision cutting solid wax stone uses a kind of slicer, including circular shell 1, displacement dress
Set 2, cutter device 3, operating device 4;
The circular shell 1 includes:
It is driven inner cavity 11, is equipped at least three, the transmission inner cavity 11 is radially circumferential to be evenly arranged on inside the circular shell 1,
The 11 left side latter half of transmission inner cavity forms a left side and sets shell 11a, and the inner cavity shell 11a is set equipped with worm gear chamber in the left side
11b, the left side are set along the longitudinal direction equipped with through-hole 11c is set in being connected to worm gear chamber 11b in the middle part of shell 11a, and the left side is set
Shell 11a right half part penetrates through the worm screw vertical hole 11d for being equipped with and being connected to the worm gear chamber 11b along longitudinal direction, and shell is set on the left side
Preposition slide bar 11e is also formed on the right side of 11a front end face, is set in front of shell 11a on the left of the transmission inner cavity 11 positioned at a left side and is gone back edge
Front-rear direction is equipped with limit jack 11f, and the transmission inner cavity 11 interconnects the company of forming close to the end in 1 center of circle of circular shell
Logical lumen 11g;
Slot 12 is cut, is equipped at least three, the cutting slot 12 is corresponded with the transmission inner cavity 11, every biography
Dynamic 11 right side front of inner cavity is respectively communicated with equipped with a cutting slot 12, penetrates through the circular shell on the right side of the cutting slot 12
1 setting, cutting 12 lower end surface of slot are equipped with the underlying slot 12a to accommodate solid wax stone;
Institute's displacement apparatus 2 includes:
Worm screw assembly 21, including longitudinally through worm screw vertical hole 11d and rotatably it is plugged in 11 upper and lower end of transmission inner cavity
The part corresponding with the worm screw vertical hole 11d worm screw shaft 21a, the worm screw shaft 21a in face forms worm screw ontology 21b,
The worm screw shaft 21a, which is located at a left side and sets, input runner 21c at below shell 11a;
Worm gear assembly 22 is rotatably located in the worm gear chamber 11b and is sequentially connected with corresponding worm screw ontology 21b;
Drive screw rod 23, be located at 22 middle part of the worm gear assembly, the driving screw rod 23 be rotatably threaded through in described set it is slotting
In the 11c of hole;
Nut assembly 24, including being screwed onto the nut body 24a driven on screw rod 23, being located at the left side nut body 24a
Side and the limit plug 24b mating with the limit jack 11f, the nut body 24a right half part forms and institute
The mating slide bar jack 24c of preposition slide bar 11e is stated, the right side nut body 24a rear is equipped with servo-actuated slotting ear 24d;
The cutter device 3 includes:
Cone pulley assembly 31 is inputted, including being fixed on the input wheel shaft 31a of the transmission 11 lower end surface right back of inner cavity along longitudinal direction, setting
The fixation transverse arm 31b that is connect on the right side of the input upper end wheel shaft 31a and with transmission 11 right side of inner cavity, it rotatably sets
It is located at input rotating cylinder 31c below the fixed transverse arm 31b in the input wheel shaft 31a, takes shape in the input rotating cylinder 31c
Along the front on the edge after the input runner 21c after input cone pulley the ontology 31d, the input cone pulley ontology 31d on upper edge;
It should be noted that along the front on the edge after the input runner 21c after the input rotating cylinder 31c;So that major diameter circle
In the state of disk 41 and the input lower half portion rotating cylinder 31c transmission connection, the path annulus 51 can not turn with the input
Cylinder 31c top half driving contact in turn results in interference.
Further, the input rotating cylinder 31c outer diameter is identical as the input runner 21c outer diameter, inputs the axle center rotating cylinder 31c
In front of the axle center the input runner 21c.
Scalable transmission shaft 32, including being located at the fixation slotting ear 32a for being driven 11 right side of inner cavity, being rotatably located at
Postposition shaft 32b in the fixed slotting ear 32a, be located at the rear end postposition shaft 32b and with the input cone pulley ontology 31d
The rear transmission cone pulley 32c of transmission connection, the rectangle insertion tube 32d for being located at the front end postposition shaft 32b, the scalable transmission
Axis 32 further includes the preposition shaft 32e being rotatably located in the servo-actuated slotting ear 24d, is located at the rear end preposition shaft 32e
And with the rectangle insertion tube 32d mating rectangle inserted link 32f, be located at the preposition transmission cone of the front end preposition shaft 32e
Take turns 32g;
Cutter head 33, two limit slotting ears one on the other including being located at the right side nut body 24a first half
33a, the limit slotting ear 33a are equipped with inner hole and have slotting ear plug 33b in interior hole forming, and the cutter head 33 further includes being located at
In output the cone pulley 33c, the output cone pulley 33c being sequentially connected between two limit slotting ear 33a and with preposition drive conical wheel 32g
Portion forms internal screw thread and is bolted with output screw 33d, inner hole of the output screw 33d through two limit slotting ear 33a, institute
It states output screw 33d outer wall also edge and is axially arranged with the axial side opening 33e mating with the slotting ear plug 33b, the output
It is additionally provided with cutting transverse arm 33f on the right side of the upper end screw rod 33d, is equipped with and is inserted into the underlying slot 12a on the right side of the cutting transverse arm 33f
Cutting blade 33g;
Lifting device 4, including be rotatably located at the major diameter disk 41 of the connection lower half portion lumen 11g, be located at it is described big
41 upper surface center of diameter disk and the torsion core bar 42 being arranged through 1 upper surface of circular shell, the circle of major diameter disk 41
All outer walls and the input lower half portion rotating cylinder 31c are sequentially connected;
Gearshift 5, including being rotatably set in the path annulus 51 reversed outside core bar 42, taking shape in the path circle
Along top and through the torsion cylinder 52 of 1 upper surface of circular shell setting in ring 51,52 outer wall of torsion cylinder is located at
A locking annulus 52a, 51 outer wall of path annulus and the input are respectively equipped with above and below 1 upper surface of circular shell at two sides
Runner 21c transmission connection;
It is described cutting solid wax stone method the following steps are included:
Step 1, solid wax stone is installed:
Solid wax stone will be placed in the underlying slot 12a of each cutting slot 12;
Step 2, it precuts:
Rotate the torsion core bar 42, major diameter disk 41;
The major diameter disk 41 drives the input runner 31c, input cone pulley ontology 31d rotation;
The input cone pulley ontology 31d drives rear transmission cone pulley 32c, postposition shaft 32b, rectangle insertion tube 32d, rectangle inserted link
32f, preposition shaft 32e, preposition drive conical wheel 32g rotation;
The preposition drive conical wheel 32g drives the output cone pulley 33c rotation;
The output cone pulley 33c drives the output screw 33d, cutting transverse arm 33f, cutting blade 33g to move downward, described to cut
Cutting blade 33g cuts solid wax stone;
Rotate backward the torsion core bar 42, major diameter disk 41 may make cutting blade 33g uplink to reset;
Step 3, position is adjusted:
Reverse the torsion cylinder 52, path annulus 51;
The path annulus 51 drives the input runner 21c, worm screw shaft 21a, worm screw ontology 21b rotation;
The worm screw ontology 21b drives the worm gear assembly 22, driving screw rod 23 to rotate, and the driving screw rod 23 drives the spiral shell
Female assembly 24 moves along the longitudinal direction;
Before the back-and-forth motion of the nut assembly 24 drives the preposition shaft 32e, rectangle inserted link 32f, preposition drive conical wheel 32g
After move, but since the rectangle inserted link 32f and rectangle insertion tube 32d are telescopic mating, so that the scalable shaft
32 still keep good transmission between input cone pulley assembly 31 and cutter head 33;
The back-and-forth motion of the nut assembly 24 drives the cutter head 33 mobile in front-rear direction, adjustment cutter head 33
Position;
Step 4, it cuts:
The movement in step 2 is repeated, the cutting blade 33g cuts solid wax stone again;
Since the cutter head 33 in step 4 is relative to a small distance is moved in step 2, which is to be cut
The thickness of thin slice.
Further, the rectangle insertion tube 32d inner wall is equipped with lubricant layer, reduces the rectangle inserted link 32f in rectangle insertion tube
The damping slided in 32d.
Further, 41 outer wall of major diameter disk, input rotating cylinder 31c outer wall are densely covered with anti-skidding salient point respectively and then protect
Effective frictional drive is demonstrate,proved, the cone pulley ontology 31d, rear transmission cone pulley 32c outer wall are densely covered with anti-skidding salient point respectively and then protect
Effective frictional drive is demonstrate,proved, the preposition drive conical wheel 32g, output cone pulley 33c outer wall are densely covered with anti-skidding salient point respectively and then protect
Effective frictional drive is demonstrate,proved, the path annulus 51 is densely covered with anti-skidding salient point with the input runner 21c outer wall respectively and then protects
Demonstrate,prove effective frictional drive.
Taking the above-mentioned ideal embodiment according to the present invention as inspiration, through the above description, relevant staff is complete
Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention
Property range is not limited to the contents of the specification, it is necessary to which the technical scope thereof is determined according to the scope of the claim.
Claims (2)
1. a kind of method of Multi-station precision cutting solid wax stone, it is characterised in that: use a kind of slicer, including circular shell
(1), gearshift (2), cutter device (3), operating device (4);
The circular shell (1) includes::
It is driven inner cavity (11), is equipped at least three, the transmission inner cavity (11) is radially circumferential to be evenly arranged on the circular shell (1)
Inside, transmission inner cavity (11) left side latter half form a left side and set shell (11a), and the left side is set the inner cavity shell (11a) and set
Have worm gear chamber (11b), the left side set be equipped in the middle part of shell (11a) along the longitudinal direction be connected to worm gear chamber (11b) in set
Through-hole (11c), the left side set shell (11a) right half part and penetrate through the snail for being equipped with and being connected to the worm gear chamber (11b) along longitudinal direction
Bar vertical hole (11d), the left side are set and are also formed preposition slide bar (11e) on the right side of shell (11a) front end face, the transmission inner cavity (11)
Left side is located at a left side and sets also along the longitudinal direction equipped with limit jack (11f) in front of shell (11a), and the transmission inner cavity (11) is close
The end in circular shell (1) center of circle, which interconnects, forms connection lumen (11g);
It cuts slot (12), is equipped at least three, the cutting slot (12) and the transmission inner cavity (11) correspond, and every
Transmission inner cavity (11) right side front is respectively communicated with equipped with a cutting slot (12), cutting slot (12) right side perforation
Circular shell (1) setting, cutting slot (12) lower end surface are equipped with the underlying slot to accommodate solid wax stone
(12a);;
Institute's displacement apparatus (2) includes:
Worm screw assembly (21), including longitudinally through worm screw vertical hole (11d) and rotatably it is plugged in the transmission inner cavity (11)
The worm screw shaft (21a) of upper and lower end face, the worm screw shaft (21a) part corresponding with worm screw vertical hole (11d) form
Worm screw ontology (21b), the worm screw shaft (21a), which is located at a left side, which sets at below shell (11a), input runner (21c);
Worm gear assembly (22) is rotatably located in the worm gear chamber (11b) and is driven company with corresponding worm screw ontology (21b)
It connects;
It drives screw rod (23), is located in the middle part of the worm gear assembly (22), the driving screw rod (23) is rotatably threaded through described
In set in jack (11c);
Nut assembly (24), including being screwed onto the nut body (24a) driven on screw rod (23), being located at the nut body
Mating limit plug (24b), nut body (24a) right side on the left of (24a) and with limit jack (11f)
Divide and form the slide bar jack (24c) mating with the preposition slide bar (11e), behind nut body (24a) right side
Side is equipped with servo-actuated slotting ear (24d);
The cutter device (33) includes:
It inputs cone pulley assembly (31), the input wheel shaft including being fixed on described transmission inner cavity (11) lower end surface right back along longitudinal direction
(31a), the fixation transverse arm for being located on the right side of described input upper end wheel shaft (31a) and being connect with described transmission inner cavity (11) right side
(31b), rotatably it is located at the input rotating cylinder that input wheel shaft (31a) is located at below the fixed transverse arm (31b)
(31c), the input cone pulley ontology (31d) for taking shape in edge on input rotating cylinder (31c), after the input cone pulley ontology (31d)
Along the front for being located at input runner (21c) edge afterwards;
Scalable transmission shaft (32), including being located at the fixation slotting ear (32a) for being driven inner cavity (11) right side, rotatably setting
Postposition shaft (32b) in the fixed slotting ear (32a) is located at the postposition shaft rear end (32b) and bores with the input
The rear transmission cone pulley (32c) of wheel ontology (31d) transmission connection, the rectangle insertion tube for being located at postposition shaft (32b) front end
(32d), the scalable transmission shaft (32) further include the preposition shaft being rotatably located in the servo-actuated slotting ear (24d)
(32e), be located at the preposition shaft rear end (32e) and the rectangle inserted link (32f) mating with the rectangle insertion tube (32d),
It is located at the preposition drive conical wheel (32g) of preposition shaft (32e) front end;
Cutter head (33), two limits one on the other including being located at the right side the nut body (24a) first half are inserted
Ear (33a), the limit slotting ear (33a) are equipped with inner hole and have slotting ear plug (33b) in interior hole forming, the cutter head (33)
It further include the output cone pulley (33c) being located between two limits slotting ear (33a) and with preposition drive conical wheel (32g) transmission connection,
It forms internal screw thread in the middle part of the output cone pulley (33c) and is bolted with output screw (33d), the output screw (33d) is run through
The inner hole of two limits slotting ear (33a), output screw (33d) outer wall also edge are axially arranged with and the slotting ear plug (33b)
Mating axial side opening (33e), output screw (33d) the upper end right side are additionally provided with cutting transverse arm (33f), the cutting
The cutting blade (33g) being inserted into the underlying slot (12a) is equipped on the right side of transverse arm (33f);
Lifting device (4), including being rotatably located at the major diameter disk (41) of described connection lower half portion lumen (11g), being located at
Major diameter disk (41) the upper surface center and the torsion core bar (42) being arranged through the circular shell (1) upper surface, it is described
Major diameter disk (41) outer circumferential walls and the input rotating cylinder lower half portion (31c) are sequentially connected;
Gearshift (5), including be rotatably set in the outer path annulus (51) of torsion core bar (42), take shape in it is described
Along top and through the torsion cylinder (52) of the circular shell (1) upper surface setting, the torsion circle in path annulus (51)
Cylinder (52) outer wall, which is located at the two sides of circular shell (1) upper surface or more, is respectively equipped with a locking annulus (52a), the path circle
Ring (51) outer wall and the input runner (21c) are sequentially connected;
It is described cutting solid wax stone method the following steps are included:
Step 1, solid wax stone is installed:
Solid wax stone will be placed in the underlying slot (12a) of each cutting slot (12);
Step 2, it precuts:
Rotate the torsion core bar (42), major diameter disk (41);
The major diameter disk (41) drives the input runner (31c), input cone pulley ontology (31d) rotation;
The input cone pulley ontology (31d) drives rear transmission cone pulley (32c), postposition shaft (32b), rectangle insertion tube (32d), square
Shape inserted link (32f), preposition shaft (32e), preposition drive conical wheel (32g) rotation;
The preposition drive conical wheel (32g) drives output cone pulley (33c) rotation;
The output cone pulley (33c) drives the output screw (33d), cutting transverse arm (33f), cutting blade (33g) to transport downwards
Dynamic, the cutting blade (33g) cuts solid wax stone;
Rotate backward the torsion core bar (42), major diameter disk (41) may make cutting blade (33g) uplink to reset;
Step 3, position is adjusted:
Reverse the torsion cylinder (52), path annulus (51);
The path annulus (51) drives the input runner (21c), worm screw shaft (21a), worm screw ontology (21b) rotation;
The worm screw ontology (21b) drives the worm gear assembly (22), driving screw rod (23) rotation, and the driving screw rod (23) is driven
The nut assembly (24) is moved to move along the longitudinal direction;
The back-and-forth motion of the nut assembly (24) drives the preposition shaft (32e), rectangle inserted link (32f), preposition transmission cone
It takes turns (32g) to be moved forward and backward, but since the rectangle inserted link (32f) and rectangle insertion tube (32d) are telescopic mating, so that institute
It states scalable shaft (32) and still keeps good transmission between input cone pulley assembly (31) and cutter head (33);
The back-and-forth motion of the nut assembly (24) drives the cutter head (33) mobile in front-rear direction, adjusts cutter head
(33) position;
Step 4, it cuts:
The movement in step 2 is repeated, the cutting blade (33g) cuts solid wax stone again;
Since the cutter head (33) in step 4 is relative to a small distance is moved in step 2, which is cut
Thin slice thickness.
2. a kind of method of Multi-station precision cutting solid wax stone according to claim 1, it is characterised in that: the rectangle
Insertion tube (32d) inner wall is equipped with lubricant layer, reduces the damping that the rectangle inserted link (32f) is slided in rectangle insertion tube (32d).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910214517.3A CN109895163B (en) | 2019-03-20 | 2019-03-20 | Method for multi-station precise cutting of solid wax block |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910214517.3A CN109895163B (en) | 2019-03-20 | 2019-03-20 | Method for multi-station precise cutting of solid wax block |
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