阅读说明：本技术 一种牙科用活动义齿更换设备 (Dental removable denture replacing equipment ) 是由 隋有志 于 2021-09-28 设计创作，主要内容包括：本发明涉及一种活动义齿更换设备,更具体的说是一种牙科用活动义齿更换设备,包括义齿滑动槽移动机构、联动安装机构,设备能够将活动义齿安装槽调整至患者需要安装义齿的正上方,设备能够将活动义齿传送至患者需要安装义齿的正上方,设备能够将活动义齿安装在患者牙龈上的预埋螺丝上,义齿滑动槽移动机构与联动安装机构连接。(The invention relates to removable denture replacing equipment, in particular to removable denture replacing equipment for dentistry, which comprises a denture sliding groove moving mechanism and a linkage installation mechanism, wherein the equipment can adjust a removable denture installation groove to be right above a denture to be installed by a patient, can convey the removable denture to be right above the denture to be installed by the patient, can install the removable denture on a pre-embedded screw on the gum of the patient, and is connected with the linkage installation mechanism.)

1. The utility model provides a removable artificial tooth replacement equipment for dentistry, includes artificial tooth sliding tray moving mechanism (1), linkage installation mechanism (2), its characterized in that: the false tooth sliding groove moving mechanism (1) is connected with the linkage installation mechanism (2).

2. A dental removable denture exchange apparatus according to claim 1, wherein: the false tooth sliding groove moving mechanism (1) comprises a support column (1-1), a lower tooth fixing plate a (1-2), a lower tooth fixing plate b (1-3), a transparent upper tooth occlusal plate (1-4), an equipment installation box (1-5), a lifting rod (1-6), a pressing plate a (1-7), a pressure bearing plate a (1-8), a pressure bearing shaft a (1-9), a pressure bearing spring a (1-10), an equipment installation plate a (1-11), a connecting plate a (1-12), an opening sealing ring (1-13), a connecting plate b (1-14), a connecting plate c (1-15), a connecting plate d (1-16), a simulated removable false tooth (1-17), an internal thread ring (1-18), a directional rotating magnet (1-19), The device comprises a rotating disc a (1-20), a rotating shaft a (1-21), a friction wheel a (1-22), a friction plate (1-23), a sliding plate (1-24), a rotating disc b (1-25), a rotating shaft b (1-26), a compression plate b (1-27), a pressure bearing plate b (1-28), a pressure bearing shaft b (1-29), a pressure bearing spring b (1-30) and an equipment mounting plate b (1-31), wherein a support column (1-1) is connected with a lower tooth fixing plate a (1-2), the support column (1-1) is connected with an equipment mounting box (1-5), the lower tooth fixing plate a (1-2) is connected with a transparent upper tooth engagement plate (1-4), and the lower tooth fixing plate b (1-3) is connected with the transparent upper tooth engagement plate (1-4), the equipment mounting box (1-5) is connected with an equipment mounting plate a (1-11), the lifting rod (1-6) is connected with a compression plate a (1-7), the lifting rod (1-6) is connected with an equipment mounting plate b (1-31) in a sliding manner, a bearing plate a (1-8) is connected with a bearing shaft a (1-9), the bearing shaft a (1-9) is connected with the equipment mounting plate (1-11) in a sliding manner, a bearing spring a (1-10) is sleeved on the bearing shaft a (1-9) and limited on the bearing plate a (1-8) and the equipment mounting plate (1-11), the equipment mounting plate (1-11) is connected with a friction wheel a (1-22) in a sliding manner, the equipment mounting plate (1-11) is connected with a sliding plate (1-24) in a sliding manner, a connecting plate a (1-12) is connected with an opening sealing ring (1-13), the opening sealing ring (1-13) is connected with a connecting plate b (1-14), the connecting plate b (1-14) is connected with a connecting plate c (1-15), the connecting plate b (1-14) is connected with a simulation removable denture (1-17) in a sliding way, a groove on the connecting plate b (1-14) is connected with an inner thread ring (1-18) in a sliding way, the connecting plate c (1-15) is connected with a connecting plate d (1-16), the simulation removable denture (1-17) is connected with an inner thread ring (1-18) bearing, the simulation removable denture (1-17) is connected with an orientation rotating magnet (1-19) bearing, the inner thread ring (1-18) is connected with an orientation rotating magnet (1-19), a rotating disk a (1-20) is connected with a rotating shaft a (1-21), the rotating shaft a (1-21) is connected with a friction wheel a (1-22), the rotating shaft a (1-21) is in threaded connection with the equipment installation box (1-5), the friction wheel a (1-22) is in frictional connection with the friction plate (1-23), the friction plate (1-23) is in sliding connection with the sliding plate (1-24), the sliding plate (1-24) is connected with the connecting plate b (1-14), the rotating disc b (1-25) is connected with the rotating shaft b (1-26), the rotating shaft b (1-26) is in bearing connection with the compression plate b (1-27), the rotating shaft b (1-26) is in threaded connection with the equipment installation box (1-5), the compression plate b (1-27) is in sliding connection with the equipment installation plate b (1-31), the pressure bearing plate b (1-28) is connected with the pressure bearing shaft b (1-29), and the pressure bearing shaft b (1-29) is in sliding connection with the equipment installation box (1-5), the bearing springs b (1-30) are sleeved on the bearing shafts b (1-29) and limited on the bearing plates b (1-28) and the equipment installation boxes (1-5), and the equipment installation plates b (1-31) are connected with the equipment installation boxes (1-5).

3. A dental removable denture exchange apparatus according to claim 1, wherein: the linkage mounting mechanism (2) comprises a power shaft (2-1), a first connecting plate (2-2), a propeller (2-3), a second connecting plate (2-4), an adsorption tube (2-5), an adsorption tube interval separation plate (2-6), a sealing plate (2-7), an adsorption tube a (2-8), a pressurizing adsorption connecting plate (2-9), a third connecting plate (2-10), a fourth connecting plate (2-11), an inclined plate (2-12), an inclined gas guide plate (2-13), an adsorption tube (2-14), a fifth connecting plate (2-15), a sixth connecting plate (2-16), a gas guide tube (2-17), a rotary adsorption tube (2-18), a rotary magnetic plate (2-19), an anaerobic adhesive adsorption tube (2-20), A lower end sealing sliding cavity (2-21), an upper sealing plate (2-22) of the sealing sliding cavity, a return pipe a (2-23), an upper end sealing sliding cavity (2-24), a water pipe a (2-25), a water pipe b (2-26), a water pipe c (2-27), a mounting groove a (2-28), a return pipe b (2-29), a mounting groove (2-30), a pushing square groove (2-31), a pushing inner chute (2-32), an inner sliding shaft (2-33), a sliding limiting plate (2-34), a sliding limiting spring (2-35) and a hydraulic sealing plate (2-36), wherein a power shaft (2-1) is connected with a first connecting plate (2-2) through a bearing, the power shaft (2-1) is connected with a propeller (2-3), the power shaft (2-1) is connected with a second connecting plate (2-4) through a bearing, the first connecting plate (2-2) is connected with the equipment installation box (1-5), the hole on the first connecting plate (2-2) is connected with the anaerobic adhesive adsorption tube (2-20), the second connecting plate (2-4) is connected with the equipment installation box (1-5), the hole on the second connecting plate (2-4) is connected with the adsorption tube (2-5), the adsorption tube (2-5) is connected with the equipment installation plate (1-11), the adsorption tube (2-5) is connected with the separation plate (2-6) between the adsorption tube zones, the adsorption tube (2-5) is connected with the sealing plate (2-7), the sealing plate (2-7) is connected with the adsorption tube a (2-8), the adsorption tube a (2-8) is made of soft rubber and is connected with the hole on the connecting plate a (1-12), the pressure adsorption connecting plate (2-9) is connected with the third connecting plate (2-10), the pressure adsorption connecting plate (2-9) is connected with an inclined air guide plate (2-13), a connecting plate III (2-10) is connected with a connecting plate a (1-12), a connecting plate III (2-10) is connected with a connecting plate IV (2-11), a connecting plate IV (2-11) is connected with an inclined plate (2-12), the middle part of the connecting plate IV (2-11) is provided with a large number of micropores, two sides of the micropores are connected with an opening sealing ring (1-13), the connecting plate IV (2-11) is connected with a connecting plate c (1-15), the inclined plate (2-12) is connected with the opening sealing ring (1-13), the inclined air guide plate (2-13) is connected with the connecting plate IV (2-11), one end of an adsorption pipe (2-14) is made of soft rubber, one end of the adsorption pipe is connected with a hole on a sealing plate (2-7), and the other end of the adsorption pipe is connected with a connecting plate V (2-15), a fifth connecting plate (2-15) is connected with a fourth connecting plate (2-11), a sixth connecting plate (2-16) is connected with an air duct (2-17), a sixth connecting plate (2-16) is connected with the fourth connecting plate (2-11), the air duct (2-17) is in bearing connection with a rotary adsorption tube (2-18), the rotary adsorption tube (2-18) is connected with a rotary magnetic plate (2-19), the rotary adsorption tube (2-18) is in bearing connection with the fourth connecting plate (2-11), magnets are arranged on the outer side of the rotary magnetic plate (2-19), an anaerobic adhesive adsorption tube (2-20) is connected with holes on a lower end sealing sliding cavity (2-21), the lower end sealing sliding cavity (2-21) is connected with an upper sealing plate (2-22) of the sealing sliding cavity, the lower end sealing sliding cavity (2-21) is in sliding connection with an upper end sealing sliding cavity (2-24), the holes on the sealing plates (2-22) at the upper part of the sealed sliding cavity are connected with the return pipe a (2-23), the return pipe a (2-23) is connected with the holes on the sealed sliding cavity (2-21) at the lower end, the water pipe a (2-25) is connected and communicated with the water pipe b (2-26), the water pipe b (2-26) is connected with the device mounting plate (1-11), one end of the water pipe c (2-27) is connected with the hole on the sealed sliding cavity (2-21) at the lower end, the other end is connected with the hole on the mounting groove a (2-28), the mounting groove a (2-28) is connected with the device mounting box (1-5), the hole on the mounting groove a (2-28) is connected with the return pipe b (2-29), the mounting groove a (2-28) is connected and communicated with the mounting groove (2-30), the return pipe b (2-29) is connected with a hole on the equipment mounting box (1-5), the return pipe b (2-29) is connected with the equipment mounting box (1-5), the mounting groove (2-30) is connected and communicated with the pushing square groove (2-31), the mounting groove (2-30) is connected with the equipment mounting box (1-5), the pushing square groove (2-31) is connected with the pushing inner sliding groove (2-32), the pushing square groove (2-31) is connected with the hydraulic sealing plate (2-36), the pushing square groove (2-31) is connected with the equipment mounting box (1-5), the pushing inner sliding groove (2-32) is connected with the inner sliding shaft (2-33) in a sliding manner, the inner sliding shaft (2-33) is connected with the hydraulic sealing plate (2-36) in a sliding manner, the inner sliding shaft (2-33) is connected with the sliding limit plate (2-34), and the sliding limit spring (2-35) is sleeved on the inner sliding shaft (2-33) and limited on the sliding limit plate (2-34) and the equipment installation box (1-5).

4. A dental removable denture exchange apparatus according to claim 1, wherein: the internal thread rings (1-18) can be connected with the external thread column which is implanted on the gum of the patient in advance in a threaded mode.

5. A dental removable denture exchange apparatus according to claim 1, wherein: the power shaft (2-1) is provided with a power source which can rotate.

Technical Field

The invention relates to removable denture replacing equipment, in particular to removable denture replacing equipment for dentistry.

Background

In the process of replacing equipment for the removable denture, embedded screws are often inserted into the removable denture at the gingival level jaw bone fracture value, the removable denture is installed on the embedded screws, the operation process of installing the removable denture is more complicated, longer time is needed, more anesthetic needs to be injected into a patient, the patient is not good for the health of the patient, but no better removable denture replacing equipment is arranged on the market, and therefore the removable denture replacing equipment for the dentistry is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing removable denture replacing equipment for dentistry, which can adjust a removable denture installing groove to be right above a denture to be installed on a patient, can convey the removable denture to be right above the denture to be installed on the patient, and can install the removable denture on embedded screws on gums of the patient.

In order to solve the technical problem, the invention relates to removable denture replacing equipment, in particular to removable denture replacing equipment for dentistry, which comprises a denture sliding groove moving mechanism and a linkage installation mechanism, wherein the removable denture installing groove can be adjusted to be right above a denture to be installed on a patient by the equipment, the removable denture can be conveyed to be right above the denture to be installed on the patient by the equipment, and the removable denture can be installed on embedded screws on gums of the patient by the equipment.

The false tooth sliding groove moving mechanism is connected with the linkage installation mechanism.

As a further optimization of the technical solution, the invention provides a dental removable denture replacing device, wherein the denture sliding groove moving mechanism comprises a support column, a lower tooth fixing plate a, a lower tooth fixing plate b, a transparent upper tooth occlusal plate, a device installation box, a lifting rod, a pressing plate a, a pressure bearing spring a, a device installation plate a, a connection plate a, an opening sealing ring, a connection plate b, a connection plate c, a connection plate d, a simulated removable denture, an internal thread ring, a directional rotating magnet, a rotating disk a, a rotating shaft a, a friction wheel a, a friction plate, a sliding plate, a rotating disk b, a rotating shaft b, a pressing plate b, a pressure bearing spring b and a device installation plate b, the support column is connected with the lower tooth fixing plate a, the support column is connected with the device installation box, the lower tooth fixing plate a is connected with the transparent upper tooth occlusal plate, the lower tooth fixing plate b is connected with the transparent upper tooth occlusal plate, the equipment mounting box is connected with the equipment mounting plate a, the lifting rod is connected with the compression plate a, the lifting rod is connected with the equipment mounting plate b in a sliding manner, the bearing plate a is connected with the bearing shaft a, the bearing shaft a is connected with the equipment mounting plate in a sliding manner, the bearing spring a is sleeved on the bearing shaft a and is limited on the bearing plate a and the equipment mounting plate, the equipment mounting plate is connected with the friction wheel a in a sliding manner, the equipment mounting plate is connected with the sliding plate in a sliding manner, the connecting plate a is connected with the opening sealing ring, the opening sealing ring is connected with the connecting plate b, the connecting plate b is connected with the connecting plate c, the connecting plate b is connected with the artificial false tooth in a sliding manner, the groove on the connecting plate b is connected with the internal thread ring in a sliding manner, the connecting plate c is connected with the connecting plate d, the artificial false tooth is connected with the internal thread ring bearing, and the artificial false tooth is connected with the directional rotary magnet bearing, the inner thread ring is connected with the directional rotating magnet, the rotating disc a is connected with the rotating shaft a, the rotating shaft a is connected with the friction wheel a, the rotating shaft a is connected with the equipment installation box through threads, the friction wheel a is connected with the friction plate in a friction mode, the friction plate is connected with the sliding plate in a sliding mode, the sliding plate is connected with the connecting plate b, the rotating disc b is connected with the rotating shaft b, the rotating shaft b is connected with the compression plate b in a bearing mode, the rotating shaft b is connected with the equipment installation box through threads, the compression plate b is connected with the equipment installation box b in a sliding mode, the bearing plate b is connected with the bearing shaft b, the bearing shaft b is connected with the equipment installation box in a sliding mode, the bearing spring b is sleeved on the bearing shaft b and limited on the bearing plate b and is connected with the equipment installation box, and the equipment installation box is connected with the equipment installation box.

As a further optimization of the technical scheme, the invention relates to dental removable denture replacing equipment, wherein the linkage installation mechanism comprises a power shaft, a first connecting plate, a propeller, a second connecting plate, an adsorption tube interval separating plate, a sealing plate, an adsorption tube a, a pressurizing adsorption connecting plate, a third connecting plate, a fourth connecting plate, an inclined air guide plate, an adsorption tube, a fifth connecting plate, a sixth connecting plate, an air guide tube, a rotary adsorption tube, a rotary magnetic plate, an anaerobic adhesive adsorption tube, a lower end sealing sliding cavity, an upper sealing plate of the sealing sliding cavity, a return pipe a, an upper end sealing sliding cavity, a water pipe a, a water pipe b, a water pipe c, an installation groove a, a return pipe b, an installation groove, a pushing square groove, a pushing inner sliding groove, an inner sliding shaft, a sliding limiting plate, a sliding limiting spring and a hydraulic sealing plate, the power shaft is connected with a bearing of the connecting plates, the power shaft is connected with the propeller, the power shaft is connected with a second connecting plate bearing, the first connecting plate is connected with an equipment installation box, a hole on the first connecting plate is connected with an anaerobic adhesive adsorption tube, the second connecting plate is connected with the equipment installation box, a hole on the second connecting plate is connected with an adsorption tube, the adsorption tube is connected with an equipment installation plate, the adsorption tube is connected with an adsorption tube interval separation plate, the adsorption tube is connected with a sealing plate, the sealing plate is connected with an adsorption tube a, the adsorption tube a is made of soft rubber and is connected with a hole on the connecting plate a, a pressure adsorption connecting plate is connected with a third connecting plate, the pressure adsorption connecting plate is connected with an inclined gas guide plate, the third connecting plate is connected with a fourth connecting plate, the fourth connecting plate is connected with an inclined plate, the two sides of a large number of micropores are arranged in the middle part of the fourth connecting plate and are connected with opening sealing rings, the fourth connecting plate is connected with a connecting plate c, the inclined plate is connected with an opening sealing ring, and the inclined gas guide plate is connected with the fourth connecting plate, the adsorption tube is made of soft rubber, one end of the adsorption tube is connected with a hole on the sealing plate, the other end of the adsorption tube is connected with a connecting plate five, the connecting plate five is connected with a connecting plate four, the connecting plate six is connected with a connecting plate four, the air guide tube is connected with a rotary adsorption tube bearing, the rotary adsorption tube is connected with a rotary magnetic plate, the rotary adsorption tube is connected with a connecting plate four bearing, a magnet is arranged on the outer side of the rotary magnetic plate, the anaerobic adhesive adsorption tube is connected with a hole on the lower end sealing sliding cavity, the lower end sealing sliding cavity is connected with an upper sealing sliding cavity in a sliding manner, a hole on the upper sealing plate of the sealing sliding cavity is connected with a backflow pipe a, the backflow pipe a penetrates through the equipment mounting plate and is connected with the equipment mounting plate, the water pipe a is connected with a hole on the lower end sealing sliding cavity, the water pipe a is connected and communicated with a water pipe b, the water pipe b is connected with the equipment mounting plate, the jogged joint other end on water pipe c one end and the sealed sliding chamber of lower extreme and the jogged joint on the mounting groove a, mounting groove a is connected with the equipment fixing case, the hole on the mounting groove a is connected with back flow b, mounting groove a is connected and is linked together with the mounting groove, back flow b and the jogged joint on the equipment fixing case, back flow b is connected with the equipment fixing case, the mounting groove is connected and is linked together with promoting the square trough, the mounting groove is connected with the equipment fixing case, promote the square trough and be connected with promoting the interior spout, promote the square trough and be connected with the hydraulic seal board, promote the square trough and be connected with the equipment fixing case, spout and interior sliding shaft sliding connection in the promotion, interior sliding shaft and hydraulic seal board sliding connection, interior sliding shaft is connected with the slip limiting plate, slip limiting spring cover on the interior sliding shaft and spacing in slip limiting plate and equipment fixing case.

As a further optimization of the technical scheme, the invention provides the dental removable denture replacing device, and the internal thread ring can be in threaded connection with an external thread column which is implanted into the gum of the patient in advance.

As a further optimization of the technical solution, the present invention provides a dental removable denture exchanging apparatus, wherein a power source is rotatably disposed on the power shaft.

The dental removable denture replacing equipment has the beneficial effects that:

the invention relates to removable denture replacing equipment for dentistry, which can adjust a removable denture installing groove to be right above a denture to be installed by a patient, can convey the removable denture to be right above the denture to be installed by the patient, and can install the removable denture on an embedded screw on the gum of the patient.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a first schematic structural view of a dental removable denture exchanging apparatus according to the present invention.

Fig. 2 is a second schematic structural view of a dental removable denture exchanging apparatus according to the present invention.

Fig. 3 is a first schematic structural view of a denture slide groove moving mechanism 1 of a dental removable denture exchange device according to the present invention.

Fig. 4 is a second schematic structural view of a denture slide groove moving mechanism 1 of a dental removable denture exchange device according to the present invention.

Fig. 5 is a third schematic structural view of a denture slide groove moving mechanism 1 of a dental removable denture exchange device according to the present invention.

Fig. 6 is a fourth schematic structural view of a denture slide groove moving mechanism 1 of a dental removable denture exchanging apparatus according to the present invention.

Fig. 7 is a fifth schematic structural view of a denture slide groove moving mechanism 1 of a dental removable denture exchanging apparatus according to the present invention.

Fig. 8 is a sixth schematic structural view of a denture slide groove moving mechanism 1 of a dental removable denture exchanging apparatus according to the present invention.

Fig. 9 is a seventh schematic structural view of a denture slide groove moving mechanism 1 of a dental removable denture exchanging apparatus according to the present invention.

Fig. 10 is a schematic structural view of an apparatus installation box 1-5 of a dental removable denture exchange apparatus according to the present invention.

Fig. 11 is a schematic structural view of an apparatus mounting plate a1-11 of a dental removable denture exchange apparatus according to the present invention.

Fig. 12 is a first schematic structural view of the interlocking mounting mechanism 2 of the dental removable denture exchange device according to the present invention.

Fig. 13 is a second schematic structural view of the interlocking mounting mechanism 2 of the dental removable denture exchange device according to the present invention.

Fig. 14 is a third schematic structural view of the interlocking mounting mechanism 2 of the dental removable denture exchange device according to the present invention.

Fig. 15 is a fourth schematic structural view of the interlocking mounting mechanism 2 of the dental removable denture exchanging apparatus according to the present invention.

Fig. 16 is a fifth schematic structural view of the interlocking mounting mechanism 2 of the dental removable denture exchanging apparatus according to the present invention.

Fig. 17 is a sixth schematic structural view of the interlocking mounting mechanism 2 of the dental removable denture exchanging apparatus according to the present invention.

Fig. 18 is a seventh schematic structural view of the interlocking mounting mechanism 2 of the dental removable denture exchanging apparatus according to the present invention.

Fig. 19 is an eighth schematic structural view of the interlocking mounting mechanism 2 of the dental removable denture exchanging apparatus according to the present invention.

Fig. 20 is a ninth schematic structural view of the interlocking mounting mechanism 2 of the dental removable denture exchanging apparatus according to the present invention.

Fig. 21 is a schematic structural view showing a tenth mode of the interlocking attachment mechanism 2 of the dental removable denture exchanging apparatus according to the present invention.

In the figure: a denture sliding groove moving mechanism 1; 1-1 of a support column; a lower tooth fixing plate a 1-2; a lower tooth fixing plate b 1-3; 1-4 of a transparent upper tooth bite plate; 1-5 of an equipment installation box; 1-6 of a lifting rod; compression paddle a 1-7; pressure bearing plate a 1-8; pressure bearing shaft a 1-9; a pressure bearing spring a 1-10; equipment mounting plate a 1-11; connection board a 1-12; 1-13 of an opening sealing ring; connecting plate b 1-14; connecting plate c 1-15; connecting plate d 1-16; 1-17 of artificial removable denture; 1-18 of internal thread ring; directionally rotating magnets 1-19; rotating disc a 1-20; the rotation axis a 1-21; friction wheels a 1-22; friction plates 1-23; a slide plate 1-24; rotating disc b 1-25; the rotation axis b 1-26; compression plates b 1-27; pressure bearing plates b 1-28; pressure bearing shafts b 1-29; pressure-bearing springs b 1-30; equipment mounting plates b 1-31; a linkage mounting mechanism 2; a power shaft 2-1; 2-2 of a connecting plate I; 2-3 of a propeller; 2-4 of a connecting plate II; 2-5 of an adsorption tube; 2-6 parts of separation plates of the adsorption tube interval; sealing plates 2-7; adsorption tube a 2-8; 2-9 of a pressurization adsorption connecting plate; 2-10 parts of a connecting plate III; 2-11 parts of a connecting plate; inclined plates 2-12; 2-13 of inclined air guide plates; 2-14 parts of adsorption tubes; connecting plates five 2-15; six connecting plates 2-16; 2-17 of gas-guide tube; rotating the adsorption tubes 2-18; rotating the magnetic plate 2-19; 2-20 parts of anaerobic adhesive adsorption tubes; the lower end is sealed with a sliding cavity 2-21; sealing plates 2-22 on the upper part of the sealing sliding cavity; return line a 2-23; the upper end is sealed with a sliding cavity 2-24; water pipes a 2-25; water pipes b 2-26; water pipes c 2-27; mounting grooves a 2-28; a return pipe b 2-29; mounting grooves 2-30; pushing the square groove 2-31; pushing the inner chute 2-32; 2-33 of an inner sliding shaft; 2-34 sliding limit plates; 2-35 of a sliding limiting spring; hydraulic sealing plates 2-36.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, and fig. 21, and the present invention relates to a removable denture exchange apparatus, and more specifically, to a removable denture exchange apparatus for dental use, which includes a denture slide groove moving mechanism 1 and a linkage mounting mechanism 2, and which can adjust a removable denture mounting groove to a position directly above a patient to which a denture needs to be mounted, and which can transfer a removable denture to a position directly above the patient to which a denture needs to be mounted, and which can mount the removable denture on a pre-embedded screw on a gum of the patient.

The false tooth sliding groove moving mechanism 1 is connected with the linkage installation mechanism 2.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, and fig. 21, and the present embodiment further describes the first embodiment, in which the device is capable of adjusting the removable denture mounting groove directly above the denture to be mounted on the patient, the patient bites the upper teeth on the transparent upper teeth bite plate 1-4, the lower teeth abut between the lower teeth fixing plate a1-2 and the lower teeth fixing plate b1-3, at this time, the rotating disc b1-25 is rotated, the rotating disc b1-25 rotates to drive the rotating shaft b1-26 and the pressing plate b1-27 to move toward the plate b1-28, and the pressing plate b1-27 presses the sealing ring 1-13 toward the pressure plate b1-28, and the pressure plate b1-28, while the pressing plate b1-27 moves, The connecting plates b1-14 are pressed by the pressing plates b1-27 under the action of pressure-bearing springs b1-30 to be automatically reset, the transverse relative positions of the removable denture installing grooves formed by the connecting plates a1-12, the opening sealing rings 1-13 and the connecting plates b1-14 can be adjusted slightly, sliding plates 1-24 below the connecting plates b1-14 slide transversely and slightly in square grooves on an equipment installing plate a1-11, a rotating disc a1-20 rotates, the rotating disc a1-20 drives friction wheels a1-22 to rotate through rotating shafts a1-21, the friction wheels a1-22 rotate to drive friction plates 1-23 to move longitudinally, the friction plates 1-23 move to drive the connecting plates b1-14 to move through the sliding plates 1-24, the connecting plates b1-14 drive the connecting plates a1-12 and the opening sealing rings 1-13 to move, at the moment, the removable denture installing groove formed by the connecting plate a1-12, the open sealing ring 1-13 and the connecting plate b1-14 can be conveyed to the position above the denture needing to be installed between the lower tooth fixing plate b1-3 and the transparent upper tooth occlusal plate 1-4, the lifting rod 1-6 is pressed, the lifting rod 1-6 moves to drive the removable denture installing groove formed by the connecting plate a1-12, the open sealing ring 1-13 and the connecting plate b1-14 to move downwards through the pressing plate a1-7, the removable denture installing groove formed by the connecting plate a1-12, the open sealing ring 1-13 and the connecting plate b1-14 can automatically reset under the action of the pressure bearing spring a1-10, and the removable denture installing groove can be adjusted to be right above the denture needing to be installed in the process.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, and fig. 21, and the present embodiment further describes the first embodiment, wherein the device is capable of transferring the removable denture to the position right above the denture to be mounted on the patient, the device is capable of mounting the removable denture on the embedded screws on the gum of the patient, the removable denture composed of the simulated removable denture 1-17, the internal thread ring 1-18, and the directional rotation magnet 1-19 is placed under the connecting plate d1-16 between the two connecting plates c1-15, at this time, the power shaft 2-1 rotates the propeller 2-3, and the propeller 2-3 blows air to the anaerobic adhesive absorption tube 2-20 when the propeller 2-1 rotates, at the moment, liquid anaerobic adhesive in a space formed by the equipment installation box 1-5 and the equipment installation plate a1-11 can be discharged into the end sealing sliding cavity 2-21 through the anaerobic adhesive adsorption tube 2-20, the anaerobic adhesive firstly fills the upper end sealing sliding cavity 2-24 and then pushes the upper end sealing sliding cavity 2-24 upwards, when the hole on the upper end sealing sliding cavity 2-24 is overlapped with the water tube a2-25 when the upper end sealing sliding cavity 2-24 moves upwards, the anaerobic adhesive is discharged into the internal thread ring 1-18 through the water tube b2-26, then the upper end sealing sliding cavity 2-24 rapidly continues to move upwards, the interference anaerobic adhesive is discharged into the space formed by the equipment installation box 1-5 and the equipment installation plate a1-11 through the return tube a2-23 again in the process, the interference on the upper end sealing sliding cavity 2-24 can be released in the process, when the upper end of the upper end sealing sliding cavity 2-24 moves to the upper end to be contacted with the upper sealing plate 2-22 of the sealing sliding cavity, the hole on the upper end sealing sliding cavity 2-24 is overlapped with the water pipe c2-27, part of anaerobic adhesive enters the space formed by the installation groove a2-28 and the equipment installation box 1-5 through the water pipe c2-27 and enters the pushing square groove 2-31 under the guiding of the installation groove 2-30, the pushing inner chute 2-32 is filled and pressed to push the inner chute 2-32, the inner chute 2-32 can be pushed to automatically reset under the action of the sliding limiting spring 2-35, the pressed pushing inner chute 2-32 firstly slides to the artificial false tooth 1-17, the interference pressure in the installation groove a2-28 can be released through the backflow pipe b2-29, the process pushes the inner chutes 2-32 to push the simulated removable dentures 1-17 in a short distance, adsorption force is applied to the adsorption tubes 2-5 when the propellers 2-3 rotate, the adsorption force of the adsorption tubes 2-5 is divided by the separation plates 2-6 of the adsorption tube sections, a part of the adsorption force acts on the adsorption tubes a2-8, the adsorption force in the adsorption tubes a2-8 adsorbs air to the simulated removable dentures 1-17 under the action of the pressurizing adsorption connecting plates 2-9 and the inclined air guide plates 2-13, the simulated removable dentures 1-17 pushed in a short distance can be adsorbed to the positions of the rectangular holes on the connecting plates b1-14, the other part of the adsorption force acts on the adsorption tubes 2-14, a part of the adsorption force in the adsorption tubes 2-14 acts on the air guide tubes 2-17, and the adsorption force in the air guide tubes 2-17 can enable the simulated removable dentures adsorbed to the positions of the rectangular holes on the connecting plates b1-14 The artificial false tooth 1-17 is adsorbed by the real false tooth 1-17, so that the artificial false tooth 1-17 is closely attached to the connecting plate b1-14, the other part of the adsorption force in the adsorption tube 2-14 acts in the rotary magnetic plate 2-19, the rotary magnetic plate 2-19 starts to rotate under the limit of the rotary adsorption tube 2-18, the rotary adsorption tube 2-18 can drive the directional rotary magnet 1-19 to rotate, the directional rotary magnet 1-19 drives the inner thread ring 1-18 to rotate, the artificial false tooth 1-17 can be fixed on the embedded screw on the gum when the inner thread ring 1-18 rotates, and the transmitted anaerobic adhesive is arranged on the inner thread ring 1-18, so that most of oxygen in the inner thread ring 1-18 can be discharged when the inner thread ring 1-18 is matched with the embedded screw on the gum, so that the anaerobic adhesive plays a role, and the artificial removable denture 1-17 can be tightly matched with the embedded screws on the gum.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.