CN113397745B

CN113397745B - Fixed denture preparation device based on mechanical process

Info

Publication number: CN113397745B
Application number: CN202110753889.0A
Authority: CN
Inventors: 李文裕; 林行江
Original assignee: Shanghai Dexing Denture Co ltd
Current assignee: Shanghai Dexing Denture Co ltd
Priority date: 2021-07-03
Filing date: 2021-07-03
Publication date: 2022-07-12
Anticipated expiration: 2041-07-03
Also published as: CN113397745A

Abstract

The application relates to a fixed denture preparation device based on a mechanical process, which belongs to the technical field of denture processing and comprises an engraving machine body and a laser tool bit on the engraving machine body, wherein a fixing frame for fixing a plurality of dentures is detachably connected to the engraving machine body, and is positioned below the laser tool bit; the upper surface of the engraving machine body is provided with a plurality of liquid leaking holes; a recovery cavity is arranged in the engraving machine body, all the liquid leakage holes are communicated with the recovery cavity, and a recovery port is formed in one end of the bottom wall in the recovery cavity; a filter box is arranged in the engraving machine body, the recovery cavity is communicated with the filter box through a recovery port, and a filter assembly used for filtering liquid falling from the recovery port is arranged in the filter box; a liquid spray head is fixed on one side of the laser cutter head, and a liquid pumping assembly used for pumping filtered liquid to the liquid spray head to spray is arranged on one side of the filter box. This application has and carries out recycle to cooling liquid to the effect of saving resources.

Description

Fixed denture preparation device based on mechanical process

Technical Field

The application relates to the technical field of denture processing, in particular to a fixed denture preparation device based on a mechanical process.

Background

The false tooth needs to use the laser engraving machine in the preparation process of processing, and the laser engraving machine is exactly the advanced equipment that utilizes laser to carry out sculpture to the material that needs the sculpture, and the laser engraving machine can improve glyptic efficiency, makes the surface of the department of being carved smooth, mellow and full, reduces the temperature of the non-metallic material that is carved rapidly, reduces the deformation and the internal stress of the thing that is carved.

The existing false tooth fixing preparation device comprises an engraving machine body, wherein a fixing frame used for fixing a false tooth is arranged on the engraving machine body, a cooling liquid spray head is fixed on one side of a laser tool bit on the laser engraving machine body, when the laser tool bit performs laser engraving, liquid sprayed out of the cooling liquid spray head cools the false tooth, and the liquid after cooling is finished is directly discharged.

In view of the above-mentioned related art, the inventors consider that there is a defect that the liquid after cooling the denture is directly discharged, which results in a serious waste of resources.

Disclosure of Invention

In order to recycle the cooling liquid and save resources, the application provides a fixed denture preparation device based on a mechanical process.

The application provides a fixed denture preparation facilities based on mechanical process adopts following technical scheme:

a fixed denture preparation device based on a mechanical process comprises an engraving machine body and a laser tool bit on the engraving machine body, wherein a fixing frame used for fixing a plurality of dentures is detachably connected to the engraving machine body and is positioned below the laser tool bit; the upper surface of the engraving machine body is provided with a plurality of liquid leakage holes; a recovery cavity is arranged in the engraving machine body, all the liquid leakage holes are communicated with the recovery cavity, and a recovery port is formed in one end of the bottom wall in the recovery cavity; a filter box is arranged in the engraving machine body, the recovery cavity is communicated with the filter box through a recovery port, and a filter assembly used for filtering liquid falling from the recovery port is arranged in the filter box; a liquid spray head is fixed on one side of the laser cutter head, and a liquid pumping assembly used for pumping filtered liquid to the liquid spray head to spray is arranged on one side of the filter box.

Through adopting above-mentioned technical scheme, after on fixing the mount with the artificial tooth, install the mount on the engraver body, pour the liquid of cooling usefulness into in the rose box in advance, when the laser tool bit carries out the sculpture to the artificial tooth, the liquid in the rose box is taken out to the drawing liquid subassembly and is carried out the blowout in the liquid shower nozzle, the liquid that thoughtlessly has piece and powder filters the back through the weeping hole and gets into the recovery intracavity, get into the rose box after retrieving the mouth again, filtering component filters it, liquid after the filtration is carried out reuse by the drawing liquid subassembly extraction again, reached and carried out recycle to cooling liquid, in order to save the effect of resource.

Optionally, the filter assembly comprises a filter layer for filtering debris and an adsorption layer for adsorbing powder; the filter layer and the adsorption layer can be detachably connected in the filter box, and the filter layer is positioned above the adsorption layer.

Through adopting above-mentioned technical scheme, the filter layer filters the piece of big granule, and the adsorbed layer has improved the filter effect of liquid to the powder absorption of tiny granule.

Optionally, a plurality of placing strips are fixed in the filter box, the filter layer is placed on the placing strips, and a cleaning door opposite to the filter layer is arranged on one side of the filter box.

Through adopting above-mentioned technical scheme, open the clearance door and can take down the filter layer from placing the strip to take out from the rose box and clear up, improved the clearance and the change efficiency of filter layer.

Optionally, a drying box is fixed on one side of the filter box, a moving hole communicated with the drying box is formed in the side wall, close to the drying box, of the filter box, a placing groove is formed in the other inner side wall of the filter box, the circumferential side wall of the adsorption layer is respectively located in the moving hole and the placing groove, and the adsorption layer seals the moving hole; the stoving roof portion is equipped with the apron, and the apron lower surface is fixed with a plurality of hot plates, and the adsorbed layer accessible removes the hole and removes to the stoving incasement.

Through adopting above-mentioned technical scheme, when needing to clear up the adsorbed layer, open the apron and take the adsorbed layer from removing downthehole taking out, the adsorbed layer gets into stoving incasement back, covers the apron and makes the hot plate heat up, because adsorbed being the powder on the adsorbed layer, adsorbed layer and the powder after the stoving can be quick separation more, have improved the clearance efficiency and the clearance effect of adsorbed layer.

Optionally, a through hole is formed in the side wall of the drying box, which is away from the filter box, a pull rope is inserted into the through hole, one end of the pull rope is fixed on the side wall of the adsorption layer, which is located in the moving hole, and the other end of the pull rope is located outside the drying box and is fixed with a pull ring.

Through adopting above-mentioned technical scheme, when needing to clear up the adsorbed layer, need not to open the apron, directly drags the pull ring for the stay cord drags the adsorbed layer into the stoving incasement, consequently can make the hot plate heat up in advance, carries out the preheating of stoving incasement, need not to open the apron and is equivalent to having reduced thermal loss, has further improved the drying efficiency of adsorbed layer.

Optionally, a stud is fixed at one end of the pull rope fixed to the pull ring, the stud is in threaded connection with the pull ring, and the through hole is used for the stud to pass through.

Through adopting above-mentioned technical scheme, twist off the double-screw bolt from the pull ring, get into the stoving incasement after passing through the through-hole with the double-screw bolt again, can open the apron at this moment and take out the adsorbed layer from the stoving incasement, make things convenient for the clearance and the change of adsorbed layer more.

Optionally, a flushing mechanism for flushing the inner bottom wall of the recovery cavity is arranged in the recovery cavity; the flushing mechanism comprises a flushing pipe positioned at the bottom of the recovery cavity, a plurality of flushing nozzles communicated with the flushing pipe, a flushing pump for pumping the liquid filtered in the filter box into the flushing pipe, and a moving assembly for driving the flushing pipe to move towards the recovery port in the recovery cavity; a long hole for the flushing pipe to pass through is formed in one side wall of the recovery cavity, the flushing pump is communicated with one side of the filter box, and one end of the flushing pipe extends out of the long hole and then is communicated with the flushing pump.

Through adopting above-mentioned technical scheme, the flush pump is in with the liquid suction flushing pipe in the rose box to on spouting recovery intracavity diapire from each washing terminals, make the flushing pipe drive all washing terminals and remove through the removal subassembly, can wash out recovery mouth with remaining impurity on the recovery intracavity diapire, improved the cleaning efficiency of retrieving the intracavity diapire.

Optionally, the moving assembly comprises a motor, a screw rod, a thread block, a track and a moving block, the screw rod is rotatably connected to the top of the recovery cavity, the motor is fixed to the outer side wall of the recovery cavity and coaxially fixed to the screw rod, the thread block is in threaded connection with the screw rod, the track is fixed to the top wall of the recovery cavity and parallel to the screw rod, the moving block slides in the track, the moving block is fixedly connected to the thread block, and the flushing pipe is fixed to the thread block.

By adopting the technical scheme, the screw rod is rotated by the starting motor, the screw rod drives the thread block to move, and meanwhile, the moving block moves in the track, so that the moving efficiency and the moving stability of the flushing pipe are improved.

Optionally, the flushing pipe is horizontally arranged and parallel to an inner side wall of the recovery cavity, and the moving assembly drives the flushing pipe to horizontally slide along a direction perpendicular to the length direction of the flushing pipe.

Through adopting above-mentioned technical scheme, can carry out more abundant washing to retrieving intracavity diapire.

Optionally, the bottom wall of the recycling cavity is obliquely arranged, and the bottom wall of the recycling cavity is positioned at the bottom end of the recycling opening.

Through adopting above-mentioned technical scheme, the liquid that falls the recovery intracavity through the weeping hole can be more quick outflow recovery mouth, has improved the recovery efficiency of liquid.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the liquid mixed with the chips and the powder enters the recovery cavity after being filtered through the liquid leakage hole and enters the filter box through the recovery port, and the filtered liquid is extracted by the liquid extraction assembly again for recycling, so that the cooling liquid is recycled, and the resource is saved;

2. the adsorption layer enters the drying box for drying, and the powder is adsorbed on the adsorption layer, so that the dried adsorption layer and the powder can be separated more quickly, and the cleaning efficiency and the cleaning effect of the adsorption layer are improved;

3. the mechanism of washing can be abundant will retrieve the impurity on the intracavity diapire and dash out the recovery mouth, has improved the cleaning efficiency who retrieves the intracavity diapire.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a cross-sectional view of an embodiment of the present application;

fig. 3 is a partial sectional view showing an inner structure of a drying box;

FIG. 4 is a partial cross-sectional view showing a stud;

FIG. 5 is a schematic view showing the structure of a slot;

fig. 6 is a partial sectional view showing the moving assembly.

In the figure, 1, a carving machine body; 11. a laser cutter head; 12. a liquid ejection head; 13. a weep hole; 2. a fixed mount; 21. a slide rail; 3. a recovery chamber; 31. a recovery port; 32. a strip hole; 4. a filter box; 41. placing the strips; 42. cleaning the door; 43. moving the hole; 44. a placement groove; 5. a filter assembly; 51. a filter layer; 52. an adsorption layer; 6. a drying box; 61. a cover plate; 62. heating plates; 63. a through hole; 64. pulling a rope; 65. a stud; 66. a pull ring; 7. a flushing mechanism; 71. a flush tube; 72. washing the spray head; 73. a flush pump; 74. a moving assembly; 741. a motor; 742. a screw; 743. a thread block; 744. a track; 745. a moving block; 8. a fluid extraction assembly; 81. a liquid pump; 82. a liquid pumping pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a fixed denture preparation device based on a mechanical process.

Referring to fig. 1 and 2, a denture fixing device based on a mechanical process includes an engraving machine body 1 and a laser cutter 11 on the engraving machine body 1, wherein a liquid nozzle 12 is fixed on one side of the laser cutter 11; the two opposite side walls of the upper surface of the engraving machine body 1 are fixed with slide rails 21, the two slide rails 21 are connected with a fixing frame 2 for fixing a plurality of false teeth in a horizontal sliding manner, the fixing frame 2 is positioned under the laser tool bit 11 and the liquid spray head 12, and the fixing frame 2 is fixed with the slide rails 21 through bolts.

The upper surface of the engraving machine body 1 is uniformly provided with a plurality of liquid leakage holes 13, a recovery cavity 3 communicated with all the liquid leakage holes 13 is arranged in the engraving machine body 1, the bottom wall in the recovery cavity 3 is obliquely arranged, the bottom end of the bottom wall in the recovery cavity 3 is provided with a recovery port 31, a filter box 4 with an upper opening is fixedly arranged in the engraving machine body 1, the recovery port 31 is positioned above the filter box 4, and a filter component 5 for filtering liquid flowing down from the recovery port 31 is arranged in the filter box 4; a liquid extracting component 8 which is used for extracting the liquid filtered in the recovery cavity 3 into the liquid spray head 12 so as to spray the liquid to the false tooth is arranged between the recovery cavity 3 and the liquid spray head 12.

The false tooth is arranged on the fixing frame 2, the fixing frame 2 is arranged below the laser tool bit 11, cooling liquid is poured into the filter box 4 in advance, the laser tool bit 11 performs carving, and meanwhile the liquid pumping assembly 8 pumps the liquid in the filter box 4 into the liquid spray head 12 to cool the carved false tooth; after dropping the upper surface of the engraving machine body 1, the liquid mixed with the chips and the powder enters the recovery cavity 3 through the filtration of the liquid leakage hole 13, flows into the filter box 4 through the recovery port 31, is stored up to the bottom of the filter box 4 after the filtration of the filter assembly 5, is taken out by the liquid pumping assembly 8 again, and achieves the effect of recycling the cooling liquid and saving resources. Through dismantling and sliding the mount 2, conveniently clear up engraver body 1 upper surface.

Referring to fig. 1 and 2, the filter assembly 5 includes a filter layer 51 for filtering debris and an adsorption layer 52 for adsorbing powder, the filter layer 51 in this embodiment is a filter plate, the pore size of the filter plate is smaller than that of the liquid leakage hole 13, the adsorption layer 52 is an activated carbon plate, and the filter layer 51 is located above the adsorption layer 52. A plurality of horizontally arranged placing strips 41 are fixed in the filter box 4, the filter layer 51 is obliquely arranged, one end of the filter layer 51 positioned right below the recovery port 31 is a top end, two ends of the filter layer 51 are both placed on the placing strips 41, and a cleaning door 42 is hinged at a position right opposite to the filter layer 51 on one side of the filter box 4. The liquid falling into the filter box 4 is firstly filtered by the filter layer 51 and then filtered by the activated carbon layer, so that the filtering effect of the liquid is improved, and the filter layer 51 can be taken out for cleaning or replacement by opening the cleaning door 42.

Referring to fig. 1 and 3, a horizontally disposed drying box 6 is fixed on one side of the filtering box 4, a moving hole 43 communicated with the drying box 6 is formed in the inner side wall of the filtering box 4 close to the drying box 6, a placing groove 44 is formed in the other side walls of the filtering box 4, the periphery of the adsorption layer 52 is respectively located in the moving hole 43 and the placing groove 44, and the moving hole 43 is sealed by the adsorption layer 52. The top of the drying box 6 is hinged with a cover plate 61, the lower surface of the cover plate 61 is fixed with a plurality of heating plates 62, the drying box 6 is far away from the inner side wall of the moving hole 43 and is provided with a through hole 63, a pull rope 64 is arranged in the drying box 6, one end of the pull rope 64 is fixed with the side wall of the adsorption layer 52 positioned in the moving hole 43, and the other end of the pull rope passes through the through hole 63 and is fixed with a pull ring 66. Draw the pull ring 66, can make the stay cord 64 with adsorbed layer 52 from the rose box 4 in drawing to stoving case 6, the hot plate 62 back that heaies up, adsorbed layer 52 rather than absorbent powder is dry, opens apron 61 and clears up the powder from adsorbed layer 52 more easily and get off, has improved adsorbed layer 52's cleaning efficiency.

Referring to fig. 4, a stud 65 is fixed at one end of the pull rope 64 far away from the adsorption layer 52, the stud 65 is in threaded connection with a pull ring 66, and the diameter of the through hole 63 is larger than that of the stud 65. After the pull ring 66 is unscrewed from the stud 65, the adsorption layer 52 can be taken out of the drying box 6, and the stud 65 is taken out along with the adsorption layer 52 through the through hole 63, so that the cleaning and replacing efficiency of the adsorption layer 52 is improved.

Referring to fig. 2, the pumping assembly 8 includes a pumping pump 81 and a pumping pipe 82, the pumping pump 81 is communicated with a bottom end of one side of the filter case 4, and the pumping pipe 82 is communicated between the pumping pump 81 and the liquid spray head 12. The liquid at the bottom end of the filter box 4 can be pumped into the liquid spray head 12 through the liquid pumping pipe 82 by starting the liquid pumping pump 81, so that the liquid spraying efficiency of the liquid spray head 12 is improved.

Referring to fig. 5 and 6, the top of the recovery chamber 3 is provided with a flushing mechanism 7 for flushing the inner bottom wall thereof; the flushing mechanism 7 comprises a flushing pipe 71, a plurality of flushing nozzles 72, a flushing pump 73 and a moving assembly 74, wherein the flushing pipe 71 is connected to the top of the recovery cavity 3 in a sliding manner, the length direction of the flushing pipe 71 is parallel to the length direction of the recovery port 31, the moving direction of the flushing pipe 71 is horizontally arranged and perpendicular to the length direction of the flushing pipe 71, a long hole 32 is formed in the side wall, perpendicular to the flushing pipe 71, of the recovery cavity 3, the length direction of the long hole 32 is parallel to the moving direction of the flushing pipe 71, all the flushing nozzles 72 are communicated with the bottom end of the circumferential side wall of the flushing pipe 71, the flushing pump 73 is communicated with the bottom end of one side of the filter box 4, one end of the flushing pipe 71 extends out of the long hole 32 and then is communicated with the flushing pump 73, the part, located in the recovery cavity 3, of the flushing pipe 71 is a hard pipe, the part, located outside the recovery cavity 3, of the flushing pipe 71 is a soft pipe, and the moving assembly 74 is used for driving the flushing pipe 71 to move.

When the bottom wall in the recovery cavity 3 needs to be cleaned, the flushing pump 73 is started, so that the liquid in the filter box 4 is pumped into the flushing pipe 71 and is sprayed out from the flushing nozzle 72, meanwhile, the moving component 74 drives the flushing pipe 71 to move, impurities on the bottom wall in the recovery cavity 3 are all flushed into the recovery port 31, and the cleaning efficiency of the bottom wall in the recovery cavity 3 is improved.

Referring to fig. 5 and 6, the moving assembly 74 includes a motor 741 fixed on the outer sidewall of the recovery chamber 3, a screw 742 rotatably connected to the top of the recovery chamber 3, a threaded block 743 threadedly connected to the screw 742, a track 744 fixed on the inner top wall of the recovery chamber 3 and parallel to the screw 742, and a moving block 745 slidably connected in the track 744 and fixed to the top end of the threaded block 743; the motor 741 is fixed coaxially with the screw 742, and the flushing pipe 71 is fixed to the bottom end of the thread block 743. The motor 741 is started to rotate the screw 742, and the thread block 743 drives the moving block 745 and the flushing pipe 71 to move at the same time, so that the moving efficiency and the moving stability of the flushing pipe 71 are improved.

The implementation principle of the fixed denture preparation device based on the mechanical process is as follows: after fixing the artificial tooth to mount 2, install mount 2 on engraver body 1, pour the liquid of cooling usefulness into in filter box 4 in advance, when laser tool bit 11 carries out the sculpture to the artificial tooth, liquid in the rose box 4 is taken out to liquid shower nozzle 12 and is spout to drawing liquid subassembly 8, the liquid that thoughtlessly has piece and powder filters through weeping hole 13 and then gets into in retrieving chamber 3, get into filter box 4 after retrieving mouthful 31 again, in proper order through the filtration of filter layer 51 and adsorbed layer 52, liquid after the filtration is again taken out by drawing liquid subassembly 8 and is carried out reuse, reached and carried out recycle to cooling liquid, with the effect of sparingly resource.

The filter layer 51 can be taken out for cleaning or replacement by opening the cleaning door 42; drag pull ring 66, can make in the stay cord 64 draws adsorbed layer 52 to stoving case 6 from rose box 4, the back is heated up to hot plate 62, and adsorbed layer 52 is dry rather than absorbent powder, opens apron 61 and clears up the powder from adsorbed layer 52 more easily, has improved adsorbed layer 52's cleaning efficiency.

The screw 742 is rotated by the starting motor 741, the thread block 743 drives the moving block 745 and the flushing pipe 71 to move, the flushing pump 73 is started simultaneously, so that the liquid in the filter tank 4 is pumped into the flushing pipe 71 and sprayed out from the flushing nozzle 72, meanwhile, the moving assembly 74 drives the flushing pipe 71 to move, impurities on the bottom wall in the recovery cavity 3 are flushed into the recovery port 31, and the cleaning efficiency of the bottom wall in the recovery cavity 3 is improved.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a false tooth preparation facilities of fixing based on mechanical technology, includes laser tool bit (11) on engraver body (1) and engraver body (1), its characterized in that: the engraving machine comprises an engraving machine body (1), wherein a fixing frame (2) used for fixing a plurality of false teeth is detachably connected to the engraving machine body (1), and the fixing frame (2) is located below a laser tool bit (11); the upper surface of the engraving machine body (1) is provided with a plurality of liquid leakage holes (13); a recovery cavity (3) is arranged in the engraving machine body (1), all the liquid leakage holes (13) are communicated with the recovery cavity (3), and one end of the inner bottom wall of the recovery cavity (3) is provided with a recovery port (31); a filter box (4) is arranged in the engraving machine body (1), the recovery cavity (3) is communicated with the filter box (4) through a recovery port (31), and a filter assembly (5) for filtering liquid falling from the recovery port (31) is arranged in the filter box (4); a liquid spray head (12) is fixed on one side of the laser cutter head (11), and a liquid pumping assembly (8) for pumping the filtered liquid to the liquid spray head (12) for spraying is arranged on one side of the filter box (4); the filter assembly (5) comprises a filter layer (51) for filtering debris and an adsorption layer (52) for adsorbing powder; the filter layer (51) and the adsorption layer (52) can be detachably connected in the filter box (4), and the filter layer (51) is positioned above the adsorption layer (52); a drying box (6) is fixed on one side of the filtering box (4), a moving hole (43) communicated with the drying box (6) is formed in the side wall, close to the drying box (6), of the filtering box (4), a placing groove (44) is formed in the other inner side walls of the filtering box (4), the circumferential side walls of the adsorption layer (52) are respectively located in the moving hole (43) and the placing groove (44), and the moving hole (43) is sealed by the adsorption layer (52); a cover plate (61) is arranged at the top of the drying box (6), a plurality of heating plates (62) are fixed on the lower surface of the cover plate (61), and the adsorption layer (52) can move into the drying box (6) through the moving holes (43); a through hole (63) is formed in the side wall of the drying box (6) departing from the filter box (4), a pull rope (64) is inserted into the through hole (63), one end of the pull rope (64) is fixed on the side wall of the adsorption layer (52) in the moving hole (43), and the other end of the pull rope (64) is located outside the drying box (6) and is fixed with a pull ring (66); and a stud (65) is fixed at one end of the pull rope (64) fixed with the pull ring (66), the stud (65) is in threaded connection with the pull ring (66), and the through hole (63) can be used for the stud (65) to pass through.

2. The mechanical process-based denture preparation device according to claim 1, wherein: a plurality of placing strips (41) are fixed in the filter box (4), the filter layer (51) is placed on the placing strips (41), and a cleaning door (42) opposite to the filter layer (51) is arranged on one side of the filter box (4).

3. The mechanical process-based denture preparation device according to claim 1, wherein: a flushing mechanism (7) for flushing the inner bottom wall of the recovery cavity (3) is arranged in the recovery cavity; the flushing mechanism (7) comprises a flushing pipe (71) positioned at the bottom of the recovery cavity (3), a plurality of flushing nozzles (72) communicated with the flushing pipe (71), a flushing pump (73) for pumping the filtered liquid in the filter box (4) into the flushing pipe (71), and a moving assembly (74) for driving the flushing pipe (71) to move towards the recovery port (31) in the recovery cavity (3); one side wall of the recovery cavity (3) is provided with a long hole (32) for the flushing pipe (71) to pass through, the flushing pump (73) is communicated with one side of the filter box (4), and one end of the flushing pipe (71) extends out of the long hole (32) and then is communicated with the flushing pump (73).

4. The mechanical process-based denture preparation device according to claim 3, wherein: the movable assembly (74) comprises a motor (741), a screw rod (742), a thread block (743), a track (744) and a movable block (745), the screw rod (742) is rotatably connected to the top of the recovery cavity (3), the motor (741) is fixed to the outer side wall of the recovery cavity (3) and coaxially fixed to the screw rod (742), the thread block (743) is in threaded connection with the screw rod (742), the track (744) is fixed to the inner top wall of the recovery cavity (3) and parallel to the screw rod (742), the movable block (745) slides in the track (744), the movable block (745) is fixedly connected with the thread block (743), and the flushing pipe (71) is fixed to the thread block (743).

5. The mechanical process-based denture preparation device according to claim 3, wherein: the flushing pipe (71) is horizontally arranged and is parallel to one inner side wall of the recovery cavity (3), and the moving assembly (74) drives the flushing pipe (71) to horizontally slide along the direction vertical to the length direction of the flushing pipe (71).

6. The mechanical process-based denture preparation device according to claim 1, wherein: the bottom wall in the recycling cavity (3) is obliquely arranged, and the bottom wall in the recycling cavity (3) is positioned at the bottom end of the recycling port (31).