CN209971517U - Film pressing device for false tooth processing - Google Patents

Abstract

The utility model relates to a film pressing device for false tooth processing, which comprises an L-shaped rotating rod and a rotating shaft, wherein one end of the L-shaped rotating rod is fixed on a heating cover, and the other end of the L-shaped rotating rod is rotatably arranged on a mounting seat; a first lug is arranged on one side of the forming table facing the base, two second lugs are arranged on the base at intervals, the first lug is spliced with the second lugs, the rotating shaft is oppositely arranged on two sides of the first lug, and one end of the rotating shaft, which is far away from the first lug, is rotatably arranged on the second lug; comprises a first driving mechanism and a second driving mechanism; the first driving mechanism is arranged on the base and used for driving the forming table to rotate towards or back to the base; the second driving mechanism is arranged on the mounting seat and is used for driving the heating cover to rotate towards or back to the forming table. The utility model discloses have the pivoted effect of the rotation of the heating mantle of being convenient for, the forming table of being convenient for.

Description

Film pressing device for false tooth processing

Technical Field

The utility model belongs to the technical field of the technique of artificial tooth processing equipment and specifically relates to a press mold ware is used in artificial tooth processing.

Background

The working process of the film pressing device in use is as follows:

1. taking an impression, 2, filling plaster, trimming the model after the plaster model is dried, removing the part of the palate and the tongue bottom, preferably making the plaster model into a U shape, 3, placing a forming sheet (a membrane) on a forming table, clamping the forming sheet, rotatably covering a heating cover on the forming table to heat the forming sheet, placing the finished model on a vacuum chuck of a vacuum machine forming machine, 4, heating the forming sheet by a vacuum machine heater in the heating cover to enable the forming sheet to be sunken for about 2 cm, 5, rotating the heating cover away from the forming table, then rotatably covering the forming table on a mold to enable the heated forming sheet to be covered on the model for forming, 6, sucking the forming sheet for 15-20 seconds by a vacuum machine to ensure forming, removing the heater after the forming sheet is cooled, 7, grinding down the redundant forming sheet by using scissors or directly along 2 ~ 3mm below the gingival margin by using a needle, trimming the edge, keeping 0.5 mm below the gingival margin, trimming the tooth socket after the tooth socket is cooled, checking whether the tooth socket is directly bent along the gingival margin, and manufacturing a plastic pad with different hardness, and baking, if the plastic pad is manufactured by using the same method, the method of grinding and whitening and the like.

In the prior art, as shown in fig. 1, a laminator includes a base, a mounting base, a heating cover, a forming table, and a vacuum chuck. A handle is arranged on one side of the heating cover, and a handle is arranged on one side of the forming table.

The above prior art solutions have the following drawbacks: need rotate the heating mantle through handheld handle when rotating the heating mantle, when rotating the forming table, need rotate the forming table through handheld handle for the rotation of heating mantle and forming table is all troublesome.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a be convenient for heat the rotation of cover, be convenient for the pivoted press mold ware for artificial tooth processing of forming table.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a film pressing device for false tooth processing comprises an L-shaped rotating rod and a rotating shaft, wherein one end of the L-shaped rotating rod is fixed on a heating cover, and the other end of the L-shaped rotating rod is rotatably arranged on a mounting seat; a first lug is arranged on one side of the forming table facing the base, two second lugs are arranged on the base at intervals, the first lug is spliced with the second lugs, the rotating shaft is oppositely arranged on two sides of the first lug, and one end of the rotating shaft, which is far away from the first lug, is rotatably arranged on the second lug; comprises a first driving mechanism and a second driving mechanism; the first driving mechanism is arranged on the base and used for driving the forming table to rotate towards or back to the base; the second driving mechanism is arranged on the mounting seat and is used for driving the heating cover to rotate towards or back to the forming table.

By adopting the technical scheme, the L-shaped rotating rod establishes a foundation for the rotation of the heating cover; the first lug, the second lug and the rotating shaft are set as a foundation for the rotation of the forming table; the utility model discloses in, the intelligent rotation of forming table has been realized through the settlement of first actuating mechanism, has realized the intelligent rotation of heating mantle through the settlement of second actuating mechanism, compares with prior art, has reached the rotation of the heating mantle of being convenient for, the pivoted purpose of the forming table of being convenient for.

The utility model discloses further set up to: the first driving mechanism comprises an extension rod, a first gear, a first motor, a second gear and a chain; one end of the extension rod extends into the second bump from one side of the second bump far away from the mounting seat, back to the first bump, and is coaxially connected with the rotating shaft, and the other end of the extension rod extends to one side of the base far away from the mounting seat and is coaxially connected with the first gear; the first motor is arranged on one side of the base, which is back to the mounting seat, and the output shaft of the first motor is coaxially connected with the second gear; one end of the chain is meshed with the first gear, and the other end of the chain is meshed with the second gear.

Through adopting above-mentioned technical scheme, the work of first motor, the rotation of its output shaft drives the rotation of second gear, and the rotation of second gear drives the rotation of first gear, and the rotation of first gear drives the rotation of extension rod to drive the shaping platform orientation through the pivot or rotate to the base dorsad.

The utility model discloses further set up to: the first drive mechanism includes: the connecting rod, the power assembly, the third gear and the rack; one end of the connecting rod extends into the second lug from one side of the second lug far away from the mounting seat, which is back to the first lug, and is coaxially connected with the rotating shaft, and the other end of the connecting rod extends to one side of the base far away from the mounting seat and is coaxially connected with the third gear; the rack is meshed with the third gear and is assembled on one side of the base back to the mounting seat in a sliding manner; the power assembly is arranged in the base and used for driving the rack to slide towards or away from one side of the forming table along one side of the base, which is back to the mounting seat.

Through adopting above-mentioned technical scheme, power component drive rack slides along base orientation or dorsad shaping platform, and then drives the positive and negative rotation of third gear, and the rotation of pivot is driven in the positive and negative rotation of third gear to drive the shaping platform orientation or rotate dorsad base through the pivot.

The utility model discloses further set up to: the power assembly includes: the sliding block, the sliding groove, the screw rod and the second motor; the sliding block is arranged at the end part of the rack facing the base and far away from the forming table; the sliding groove is horizontally arranged on the base, and the sliding block is assembled in the sliding groove in a sliding manner; one end of the screw rod is rotatably assembled on the inner wall of the sliding groove, the other end of the screw rod is connected with a second motor, the second motor is arranged on the inner wall of the sliding groove, and the screw rod is in threaded connection with the sliding block.

By adopting the technical scheme, the second motor works, the forward and reverse rotation of the output shaft of the second motor drives the forward and reverse rotation of the screw rod, the forward and reverse rotation sliding block of the screw rod slides towards or back to the third gear along the sliding groove, and then the rack is driven to slide towards or back to the third gear.

The utility model discloses further set up to: the second driving mechanism comprises a rotating rod and a transmission assembly; one end of the rotating rod is connected with one end of the L-shaped rotating rod which is rotatably arranged on the mounting seat, and the other end of the rotating rod extends out of one side of the mounting seat back to the L-shaped rotating rod; the transmission assembly is arranged on the base and used for driving the L-shaped rotating rod to rotate.

Through adopting above-mentioned technical scheme, transmission assembly drive L shape bull stick just reverse rotation, and then drive the heating cover and rotate towards or dorsad the shaping platform.

The utility model discloses further set up to: the transmission assembly comprises a first cylinder, a second cylinder, a belt and a third motor; the first cylinder is arranged at one end of the rotating rod, which is far away from the L-shaped rotating rod; the third motor is arranged on one side of the base back to the L-shaped rotating rod, and an output shaft of the third motor is connected with the second cylinder; one end of the belt is arranged on the first cylinder, and the other end of the belt is arranged on the second cylinder.

By adopting the technical scheme, the third motor works, the forward and reverse rotation of the output shaft of the third motor drives the forward and reverse rotation of the second cylinder, the forward and reverse rotation of the second cylinder drives the forward and reverse rotation of the first cylinder, the forward and reverse rotation of the first cylinder drives the forward and reverse rotation of the rotating rod, and the forward and reverse rotation of the rotating rod drives the heating cover to rotate towards or away from the forming table.

The utility model discloses further set up to: first drum is located the third drum directly over, is equipped with the horizontal slip between first drum and the second drum and assembles the compression roller that supports on the base, supports the compression roller and is equipped with the sliding block towards one side of base, has seted up the groove of sliding on the base, and the sliding block sliding assembly is equipped with the threaded rod in the groove of sliding, and the one end of threaded rod is rotated and is assembled on the inslot wall of sliding, and the other end of threaded rod stretches out the pedestal connection and has the rotation handle, threaded rod and sliding block threaded connection.

By adopting the technical scheme, the pressing roller presses the belt to adjust the tightness degree of the belt; the rotating handle is rotated to drive the threaded rod to rotate forward and backward, so that the sliding block is driven to horizontally slide back and forth along the sliding groove, and the pressing roller is driven to press the belt or release the pressing of the belt.

The utility model discloses further set up to: the transmission assembly comprises a driving gear, a driven gear and a fourth motor; the fourth motor is arranged on one side of the mounting seat back to the L-shaped rotating rod; the fourth motor is connected with a driving gear; the driven gear is arranged at one end of the rotating rod, which is far away from the L-shaped rotating rod, and the driving gear is meshed with the driven gear.

Through adopting above-mentioned technical scheme, the work of fourth motor, the rotation of fourth motor output shaft drives the rotation of driving gear, and the rotation of driven gear is driven in the rotation of rotating gear, and the rotation of driven gear drives the rotation of dwang, and the rotation of dwang drives the rotation of L shape bull stick, and the rotation of L shape bull stick drives the heating mantle orientation or rotates dorsad the shaping platform.

To sum up, the utility model discloses a beneficial technological effect does:

the L-shaped rotating rod establishes a foundation for the rotation of the heating cover; the first lug, the second lug and the rotating shaft are set as a foundation for the rotation of the forming table; the utility model discloses in, the intelligent rotation of forming table has been realized through the settlement of first actuating mechanism, has realized the intelligent rotation of heating mantle through the settlement of second actuating mechanism, compares with prior art, has reached the rotation of the heating mantle of being convenient for, the pivoted purpose of the forming table of being convenient for.

Drawings

Fig. 1 is a schematic structural diagram of the background art.

Fig. 2 is a first view structure diagram according to the first embodiment.

Fig. 3 is a second perspective structure diagram according to the first embodiment.

Fig. 4 is a partially enlarged schematic view of a portion a in fig. 3.

Fig. 5 is a schematic structural diagram of the second embodiment.

In the figure, 11, base; 12. a mounting seat; 13. a heating mantle; 14. a forming table; 15. a vacuum chuck; 16. a membrane; 21. an L-shaped rotating rod; 211. a first lever; 212. a second lever; 22. a first bump; 23. a second bump; 24. a rotating shaft; 3. a first drive mechanism; 311. an extension rod; 312. a first gear; 313. a first motor; 314. a second gear; 315. a chain; 316. a fixing plate; 321. a connecting rod; 322. a power assembly; 3221. a slider; 3222. a chute; 3223. a screw rod; 3224. a second motor; 3225. a third gear; 3226. a rack; 4. a second drive mechanism; 41. rotating the rod; 42. a transmission assembly; 421. a first cylinder; 422. a second cylinder; 423. a belt; 424. a third motor; 51. pressing the roller; 52. a sliding block; 53. a sliding groove; 54. a threaded rod; 55. rotating the handle; 61. a driving gear; 62. a driven gear; 63. and a fourth motor.

Detailed Description

Example one

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 2, the utility model discloses a film pressing device for false tooth processing, which comprises an L-shaped rotating rod 21, a first projection 22, a second projection 23 and a rotating shaft 24. The L-shaped rotating rod 21 is composed of a first rod 211 and a second rod 212, one end of the first rod 211 is rotatably mounted on the mounting base 12, the other end of the first rod 211 is vertically connected with the end of the second rod 212, and one end of the second rod 212 far away from the first rod 211 is welded and fixed on the heating cover 13. The first lug 22 is installed on one side of the outer wall of the forming table 14, the two second lugs 23 are installed on the upper surface of the base 11 at intervals, the first lug 22 and the second lugs 23 are connected in an inserted mode, the rotating shafts 24 are symmetrically installed on two sides of the first lug 22, and one end, far away from the first lug 22, of each rotating shaft 24 is rotatably installed on the second lug 23.

Referring to fig. 2, the dental prosthesis processing die further includes a first driving mechanism 3; the first driving mechanism 3 is mounted on the base 11, and functions to: the forming table 14 is driven to rotate towards or away from the base 11.

The first driving mechanism 3 includes an extension rod 311, a first gear 312, a first motor 313, a second gear 314, and a chain 315. The extension rod 311 is cylindrical, the extension rod 311 is positioned on one side, away from the first bump 22, of the second bump 23 of the mounting base 12, the extension rod 311 is horizontal, one end of the extension rod 311 extends into the first bump 22 and is coaxially connected with the rotating shaft 24, the other end of the extension rod 311 is positioned above one side, away from the mounting base 12, of the base 11, and the vertical distance between one side, away from the mounting base 12, of the extension rod 311 and the mounting base 12 is greater than the vertical distance between one side, away from the mounting base 12, of the base 11 and the mounting base 12; a fixed plate 316 is arranged on one side of the base 11, which is opposite to the mounting seat 12, and the first motor 313 is arranged on the fixed plate 316 and the output shaft vertically faces to one side of the base 11, which is far away from the mounting seat 12; the first gear 312 is installed at one end of the extension rod 311 far away from the rotating shaft 24, and the first gear 312 is coaxially connected with the extension rod 311; the second gear 314 is mounted on the output shaft of the first electric motor 313, the second gear 314 being coaxial with the first electric motor 313; one end of the chain 315 is engaged with the first gear 312, and the other end of the chain 315 is engaged with the second gear 314.

Referring to fig. 2, the dental prosthesis finishing film pressing machine further includes a second driving mechanism 4; the second driving mechanism 4 is mounted on the mounting base 12, and functions as: the heating mantle 13 is driven to rotate toward or away from the forming table 14.

The second drive mechanism 4 includes a rotating lever 41. Rotating rod 41 is cylindrical, rotating rod 41 is horizontal, one end of rotating rod 41 is connected to one end of first rod 211 rotatably mounted in mounting seat 12, and the other end of rotating rod 41 extends from one side of mounting seat 12 opposite to first rod 211.

The second drive mechanism 4 further comprises a transmission assembly 42. The transmission assembly 42 is mounted on the base 11 and functions to: the L-shaped rotary rod 21 is driven to rotate.

Referring to fig. 2, the driving assembly 42 includes a first cylinder 421, a second cylinder 422, a belt 423, and a third motor 424. The first cylinder 421 is installed at one end of the rotating rod 41 far away from the first rod 211, and the first cylinder 421 is coaxial with the first rod 211; the third motor 424 is installed on one side of the base 11, which faces away from the first rod 211, and an installation plate for installing the third motor 424 is installed on the base 11; the second cylinder 422 is mounted on the output shaft of the third motor 424, and the second cylinder 422 is coaxial with the output shaft of the third motor 424; the belt 423 is in a ring shape, one end of the belt 423 is sleeved on the first cylinder 421, and the other end of the belt 423 is sleeved on the second cylinder 422. The first cylinder 421 is located right above the second cylinder 422, i.e. the axis of the first cylinder 421 and the axis of the second cylinder 422 are located on the same vertical plane.

As shown in fig. 3 and 4, the denture mold machine further includes a pressing roller 51, a sliding block 52, a sliding groove 53, a threaded rod 54, and a rotation handle 55. The pressing roller 51 is positioned between the first cylinder 421 and the second cylinder 422, and the pressing roller 51 is horizontally connected to the base 11 in a sliding manner; the sliding block 52 is arranged on one side of the pressing resisting roller 51 facing the base 11, the sliding groove 53 is formed in the base 11, and the sliding block 52 is connected in the sliding groove 53 in a sliding mode, namely the sliding block 52 is abutted to the inner wall of the sliding groove 53; the threaded rod 54 is horizontally placed in the sliding groove 53, one end of the threaded rod 54 is rotatably installed on the inner wall of the sliding groove 53, the other end of the threaded rod 54 extends out of the base 11, and the threaded rod 54 is in threaded connection with the sliding block 52; a turning handle 55 is mounted on the side of the threaded rod 54 that protrudes from the base 11.

The implementation principle of the embodiment is as follows:

when the heating cover 13 is rotated, the third motor 424 operates, the forward and reverse rotation of the output shaft of the third motor 424 drives the forward and reverse rotation of the second cylinder 422, the forward and reverse rotation of the second cylinder 422 drives the forward and reverse rotation of the first cylinder 421 through the belt 423, the forward and reverse rotation of the first cylinder 421 drives the forward and reverse rotation of the rotating rod 41, the forward and reverse rotation of the rotating rod 41 drives the forward and reverse rotation of the first rod 211, and the forward and reverse rotation of the first rod 211 finally drives the heating cover 13 to rotate towards or away from the forming table 14 through the second rod 212.

When the forming table 14 is rotated, the first motor 313 works, the forward and reverse rotation of the output shaft of the first motor 313 drives the forward and reverse rotation of the second gear 314, the forward and reverse rotation of the second gear 314 drives the forward and reverse rotation of the first gear 312, the forward and reverse rotation of the first gear 312 drives the forward and reverse rotation of the extension rod 311, and the forward and reverse rotation of the extension rod 311 drives the forming table 14 to rotate towards or away from the base 11 through the rotating shaft 24.

When the tightness of the belt 423 is adjusted, the rotating handle 55 is rotated forward and backward to drive the threaded rod 54 to rotate forward and backward, the sliding block 52 is driven by the forward and backward rotation of the threaded rod 54 to horizontally slide along the sliding groove 3222, and the pressing roller 51 is driven to move towards the belt 423 to press against the belt 423 or move back to the belt 423 to release the pressing against the belt 423.

Example two

Referring to fig. 5, the first drive mechanism 3 includes: a connecting rod 321, a power assembly 322, a third gear 3225, and a rack 3226. The connecting rod 321 is cylindrical, the connecting rod 321 is located on one side, back to the first bump 22, of the second bump 23 far away from the mounting base 12, the connecting rod 321 is horizontal, one end of the connecting rod 321 extends into the first bump 22 to be coaxially connected with the rotating shaft 24, the other end of the connecting rod 321 is located above one side, far away from the mounting base 12, of the base 11, and the vertical distance between one side, far away from the mounting base 12, of the connecting rod 321 and the mounting base 12 is greater than the vertical distance between one side, far away from the mounting base 12, of the base 11 and the mounting base 12;

referring to fig. 5, a third gear 3225 is installed on a side of the extension rod 311 away from the rotating shaft 24, and the third gear 3225 is coaxially set with the connecting rod 321; the rack 3226 is horizontally and slidably connected to one side of the base 11 away from the mounting seat 12, and the rack 3226 is engaged with the third gear 3225; the power assembly 322 is mounted in the base 11 and functions to: the drive rack 3226 slides along the side of the base 11 facing away from the mounting 12 toward or away from the side of the forming table 14.

Referring to fig. 5, the power assembly 322 includes: a slider 3221, a sliding groove 3222, a lead screw 3223, and a second motor 3224. The slider 3221 is mounted at an end portion of the rack 3226 facing the base 11 and away from the forming table 14, the sliding groove 3222 is horizontally arranged on a side of the base 11 away from the mounting seat 12, and the slider 3221 is slidably connected in the sliding groove 3222, that is: the slide block 3221 abuts against the inner wall of the slide groove 3222; the screw rod 3223 is placed in the sliding groove 3222, one end of the screw rod 3223 close to the third gear 3225 is rotatably installed on the base 11, one end of the screw rod 3223 far away from the third gear 3225 is coaxially connected with an output shaft of the second motor 3224, the second motor 3224 is installed on the inner wall of the sliding groove 3222, and the screw rod 3223 is in threaded connection with the slider 3221.

Referring to fig. 5, the transmission assembly 42 includes a driving gear 61, a driven gear 62, and a fourth motor 63. The fourth motor 63 is installed on one side of the mounting base 12, which faces away from the first rod 211, and the axis of the fourth motor 63 is located below the axis of the first rod 211; the main gear is arranged on an output shaft of the fourth motor 63, and the axis of the main gear is superposed with the circumference of the fourth motor 63; the driven gear 62 is attached to an end portion of the rotating lever 41 remote from the first lever 211, the driven gear 62 is coaxially set with the rotating lever 41, and the driving gear 61 is engaged with the driven gear 62.

The implementation principle of the embodiment is as follows:

when the forming table 14 is rotated, the second motor 3224 operates, forward and reverse rotation of the output shaft thereof drives forward and reverse rotation of the lead screw 3223, forward and reverse rotation of the lead screw 3223 drives the slider 3221 to slide toward or away from the forming table 14 along the sliding groove 3222, and further drives the rack 3226 to move toward or away from the forming table 14, so as to drive forward and reverse rotation of the third gear 3225, forward and reverse rotation of the third gear 3225 drives forward and reverse rotation of the connecting rod 321, and further drives forward and reverse rotation of the rotating shaft 24, so as to drive the forming table 14 to rotate toward or away from the base 11.

When the heating mantle 13 is rotated, the fourth motor 63 operates, the rotation of the output shaft thereof drives the forward and reverse rotation of the driving gear 61, the forward and reverse rotation of the driving gear 61 drives the forward and reverse rotation of the driven gear 62, the forward and reverse rotation of the driven gear 62 drives the forward and reverse rotation of the rotating rod 41, and finally the heating mantle 13 is driven to rotate toward or away from the forming table 14 through the L-shaped rotating rod 21.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. A film pressing device for false tooth processing comprises an L-shaped rotating rod (21) and a rotating shaft (24), wherein one end of the L-shaped rotating rod (21) is fixed on a heating cover (13), and the other end of the L-shaped rotating rod (21) is rotatably arranged on a mounting seat (12); a first lug (22) is arranged on one side, facing the base (11), of the forming table (14), two second lugs (23) are arranged on the base (11) at intervals, the first lug (22) is in inserted connection with the second lugs (23), the rotating shafts (24) are oppositely arranged on two sides of the first lug (22), and one ends, far away from the first lug (22), of the rotating shafts (24) are rotatably arranged on the second lugs (23); the device is characterized by comprising a first driving mechanism (3) and a second driving mechanism (4); the first driving mechanism (3) is arranged on the base (11) and is used for driving the forming table (14) to rotate towards or back to the base (11); the second driving mechanism (4) is arranged on the mounting base (12) and is used for driving the heating cover (13) to rotate towards or away from the forming table (14).

2. The denture adhesive machine according to claim 1, wherein the first driving mechanism (3) comprises an extension bar (311), a first gear (312), a first motor (313), a second gear (314), and a chain (315); one end of an extension rod (311) extends into the second bump (23) from one side of the second bump (23) far away from the mounting seat (12) and back to the first bump (22) to be coaxially connected with the rotating shaft (24), and the other end of the extension rod (311) extends to one side of the base (11) far away from the mounting seat (12) and is coaxially connected with the first gear (312); the first motor (313) is arranged on one side of the base (11) back to the mounting seat (12), and an output shaft of the first motor (313) is coaxially connected with the second gear (314); one end of the chain (315) is engaged with the first gear (312), and the other end of the chain (315) is engaged with the second gear (314).

3. The denture machine laminator according to claim 1, wherein the first drive mechanism (3) includes: a connecting rod (321), a power assembly (322), a third gear (3225) and a rack (3226); one end of the connecting rod (321) extends into the second bump (23) from one side of the second bump (23) far away from the mounting seat (12) and back to the first bump (22) to be coaxially connected with the rotating shaft (24), and the other end of the connecting rod (321) extends to one side of the base (11) far away from the mounting seat (12) and is coaxially connected with the third gear (3225); the rack (3226) is meshed with the third gear (3225), and the rack (3226) is slidably assembled on one side, back to the mounting seat (12), of the base (11); the power assembly (322) is arranged in the base (11) and is used for driving the rack (3226) to slide towards or away from one side of the base (11) facing away from the mounting seat (12) to one side of the forming table (14).

4. The denture machine laminator according to claim 3, wherein the power assembly (322) includes: the sliding block (3221), the sliding groove (3222), the lead screw (3223) and the second motor (3224); the sliding block (3221) is arranged at the end part, facing the base (11), of the rack (3226) and far away from the forming table (14); the sliding groove (3222) is horizontally arranged on the base (11), and the sliding block (3221) is assembled in the sliding groove (3222) in a sliding mode; one end of the screw rod (3223) is rotatably assembled on the inner wall of the sliding groove (3222), the other end of the screw rod (3223) is connected with the second motor (3224), the second motor (3224) is arranged on the inner wall of the sliding groove (3222), and the screw rod (3223) is in threaded connection with the sliding block (3221).

5. The denture machine for use according to claim 1, wherein the second drive mechanism (4) comprises a rotating lever (41) and a transmission assembly (42); one end of the rotating rod (41) is connected with one end of the L-shaped rotating rod (21) which is rotatably arranged on the mounting seat (12), and the other end of the rotating rod (41) extends out of one side of the mounting seat (12) back to the L-shaped rotating rod (21); the transmission assembly (42) is arranged on the base (11) and is used for driving the L-shaped rotating rod (21) to rotate.

6. The denture machine laminator according to claim 5, wherein the transmission assembly (42) includes a first cylinder (421), a second cylinder (422), a belt (423), and a third motor (424); the first cylinder (421) is arranged at one end of the rotating rod (41) far away from the L-shaped rotating rod (21); the third motor (424) is arranged on one side of the base (11) back to the L-shaped rotating rod (21), and an output shaft of the third motor (424) is connected with the second cylinder (422); one end of the belt (423) is arranged on the first cylinder (421), and the other end of the belt (423) is arranged on the second cylinder (422).

7. The denture processing film pressing device according to claim 6, wherein the first cylinder (421) is located right above the third cylinder, a pressing roller (51) horizontally assembled on the base (11) in a sliding manner is arranged between the first cylinder (421) and the second cylinder (422), a sliding block (52) is arranged on one side of the pressing roller (51) facing the base (11), a sliding groove (53) is formed in the base (11), the sliding block (52) is assembled in the sliding groove (53) in a sliding manner, a threaded rod (54) is arranged in the sliding groove (53), one end of the threaded rod (54) is rotatably assembled on the inner wall of the sliding groove (53), the other end of the threaded rod (54) extends out of the base (11) and is connected with a rotating handle (55), and the threaded rod (54) is in threaded connection with the sliding block (52).

8. The denture machine for use according to claim 5, wherein the transmission assembly (42) comprises a driving gear (61), a driven gear (62) and a fourth motor (63); the fourth motor (63) is arranged on one side of the mounting seat (12) back to the L-shaped rotating rod (21); the fourth motor (63) is connected with a driving gear (61); the driven gear (62) is arranged at one end of the rotating rod (41) far away from the L-shaped rotating rod (21), and the driving gear (61) is meshed with the driven gear (62).

Images