CN216962675U - Novel digital oral cavity is planted and is got mould device - Google Patents

Abstract

The utility model discloses a novel digital oral cavity planting and mold taking device, which belongs to the technical field of oral cavity planting, and comprises a holding component, a clamping component and a fastening loop bar, wherein the fastening loop bar is clamped inside the clamping component, an elastic structure in the clamping component can support the fastening loop bar, an implant long nail can be clamped inside the fastening loop bar, the fastening loop bar is matched with the implant long nail in size, the clamping component is detachably connected inside the holding component, the holding component comprises two holding rods, and the angle between the two holding rods can be adjusted; the device can be fast with the long nail screw in of implant when the mould is got, need not other fixed knot structure simultaneously, can carry out the tooth mould and place, is convenient for place the silica gel facing simultaneously, improves operation efficiency, alleviates patient's misery.

Description

Novel digital oral cavity is planted and is got mould device

Technical Field

The utility model belongs to the technical field of oral implantation, and particularly relates to a novel digital oral implantation mold taking device.

Background

The implant denture repair comprises a series of processes of implant scheme making, implant implantation, implant transfer impression, denture making, try-on and wearing, maintenance after the implant repair is finished, and the like. And an accurate impression and a working model for the transfer of the implant transfer relationship are taken as the basis of the denture making.

The implant surgery makes a prosthesis according to the tooth form of the surgical object and makes it important that the prosthesis is located at a precise position, so that the impression material is used for printing the tooth form of the surgical object to make an accurate tooth model, and the prosthesis is used for making the most accurate prosthesis for the model to perform actual surgery.

In the traditional method, after the impression is finished, the transfer screw rod is rotated and unscrewed vertically to the implant and is taken out of the oral cavity of the patient along with the impression material and the tray, but when the opening degree of the patient is small or the gap between the upper tooth and the lower tooth is too small, the rotation in the vertical direction becomes extremely difficult due to insufficient space, so that the operation difficulty of a doctor is increased, and the pain of the patient is further increased. If the model is taken out and the transfer is not accurate, the patient needs to see a doctor again, so that the labor intensity of the doctor is increased, and the satisfaction degree of the patient is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel digital oral implant mold taking device, which can quickly screw in an implant long nail during mold taking, does not need other fixing structures, can place a dental model, is convenient to place a silica gel tooth socket, improves the operation efficiency and relieves the pain of a patient.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a novel digital oral cavity is planted and is got mould device, this novel digital oral cavity is planted and get mould device is including gripping subassembly, centre gripping subassembly, fastening loop bar centre gripping is in inside the centre gripping subassembly, elastic construction can support fastening loop bar in the centre gripping subassembly, but the inside centre gripping of fastening loop bar plants body spike, fastening loop bar and plant body spike size cooperate, the centre gripping subassembly can be dismantled the connection and inside the subassembly grips, the subassembly grips including holding the pole, holds the pole and is equipped with two, and two angle between the pole are adjustable.

Further, the subassembly that grips still including fixing the connecting rod of holding pole one end, the connecting rod is kept away from holding the pole end and is fixed with the arc dead lever, and two connecting rod outsides are equipped with solid fixed ring, and the connecting rod is located solid fixed ring inside department external fixation and has japanese to detain, and two japanese detains and all rotate to connect inside solid fixed ring.

Adopt above-mentioned scheme: the two holding rods can be adjusted to any required angle between the angles of the two holding rods under the connection of the Japanese buckle

Further, the centre gripping subassembly is including dismantling to connect two the inboard annular rack of arc dead lever, and corresponding arc dead lever inboard is fixed with the connecting piece of cladding annular rack, and annular rack rotates to be connected inside the connecting piece, annular rack both sides still are connected with drive annular rack pivoted driving piece, and the inboard elastic connection of annular rack has the arc grip block.

Adopt above-mentioned scheme: but through the centre gripping fastening loop bar of arc grip block, utilize rotatable annular rack to drive the fastening loop bar simultaneously, and then lie in the steerable rotation of the inside implant spike of fastening loop bar, improve the screw in speed of implant spike, can utilize the fastening loop bar to carry out the gypsum department on the implant and place simultaneously after the implant spike screw in, and then do not need other fixed knot to construct, improve operation efficiency, alleviate patient's misery.

Furthermore, the connecting piece is including fixing the inboard fixed block of arc dead lever, fixed block upper end screwed connection have the lid to close the piece, and the fixed block closes a lid with the lid and closes the department and be equipped with and supply annular rack pivoted spout.

Adopt above-mentioned scheme: the annular rack can be detached, so that the size of the annular rack can be freely changed when the long implant nails with different sizes are installed, the long implant nails with different sizes can be clamped, and the applicability is wide.

Further, the driving piece comprises a gear meshed with the annular rack, the gear is rotatably connected inside the arc-shaped fixing rod, the gears are connected with motors, and the motors are fixed at the upper ends of the arc-shaped fixing rod.

Adopt above-mentioned scheme: the motor is adopted to control the rotation, so that the efficiency of the whole operation is greatly improved, the operation difficulty is reduced, and the pain of a patient is relieved.

Furthermore, a plurality of connecting springs are fixed on the inner side of the annular rack and arranged along the circumferential direction, the connecting springs are far away from the end, fixed, of the annular rack, and two arc-shaped clamping plates are symmetrically arranged.

Adopt above-mentioned scheme: the distance between arc grip block and the annular rack is adjustable, but the not unidimensional fastening loop bar of centre gripping, and further for the long nail of the implant of the not unidimensional centre gripping provides the selection, and the stability of fastening loop bar is multiplicable to coupling spring's resilience simultaneously, is favorable to the doctor to carry out the delivery.

Furthermore, a motor control button is fixed to the holding rod far away from the connecting rod end and used for controlling a motor switch, and a rubber sleeve is further sleeved outside the holding rod.

Adopt above-mentioned scheme: the controllable motor switch when gripping is convenient for control, and the outside of the gripping rod is provided with the rubber sleeve, so that the comfort for the doctor to grip is increased.

The utility model has the beneficial effects that:

1. but through the centre gripping fastening loop bar of arc grip block, utilize rotatable annular rack to drive the fastening loop bar simultaneously, and then lie in the steerable rotation of the inside implant spike of fastening loop bar, improve the screw in speed of implant spike, can utilize the fastening loop bar to carry out the gypsum department on the implant and place simultaneously after the implant spike screw in, and then do not need other fixed knot to construct, improve operation efficiency, alleviate patient's misery.

2. The distance between arc grip block and the annular rack is adjustable, but the not unidimensional fastening loop bar of centre gripping, and further for the not unidimensional long nail of the implant of centre gripping provides the selection, and the stability of the multiplicable fastening loop bar of resilience of coupling spring is favorable to the doctor to carry out the delivery.

3. Adopt the motor to control the rotation, improve the efficiency of whole operation greatly, reduce the operation degree of difficulty, alleviate patient's misery, and steerable motor switch when gripping, the control of being convenient for, and the outside rubber sleeve that sets up of holding pole increases the comfort that the doctor gripped.

Drawings

Fig. 1 is a schematic structural diagram of a novel digital oral implant mold taking device provided by the utility model;

FIG. 2 is a schematic structural view of a grip assembly of the novel digital oral cavity implanting and mold removing device provided by the utility model;

FIG. 3 is a schematic structural view of a clamping assembly of the novel digital oral cavity implanting and mold removing device provided by the utility model;

fig. 4 is an enlarged schematic view of the position I in fig. 2 of a novel digital oral implant mold taking device provided by the utility model;

fig. 5 is an enlarged schematic view of the part II in fig. 3 of the novel digital oral cavity implanting and mold-taking device provided by the utility model.

In the figure: 1. a gripping assembly; 2. a clamping assembly; 3. fastening the loop bar; 4. a holding rod; 5. a connecting rod; 6. an arc-shaped fixing rod; 7. a fixing ring; 8. a Japanese button; 9. an annular rack; 10. an arc-shaped clamping plate; 11. a fixed block; 12. covering the block; 13. a chute; 14. a gear; 15. a motor; 16. a connecting spring; 17. a motor control button; 18. a rubber sleeve.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 5, the digital oral implanting and mold-taking device according to the embodiment of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in figure 1, this novel digital oral implantation mold taking device is including holding subassembly 1, clamping component 2, fastening loop bar 3 centre gripping is in inside clamping component 2, and elastic construction can support fastening loop bar 3 in the clamping component 2, the inside plant body spike of holding of fastening loop bar 3 cooperatees, fastening loop bar 3 and plant body spike size, clamping component 2 can dismantle the connection and be in inside holding subassembly 1, holding subassembly 1 includes holding pole 4, and holding pole 4 is equipped with two, and the angle between two holding poles 4 is adjustable.

Specifically, as shown in fig. 2, the holding assembly 1 further comprises a connecting rod 5 fixed at one end of the holding rod 4, an arc-shaped fixing rod 6 is fixed at the end, away from the holding rod 4, of the connecting rod 5, a fixing ring 7 is arranged outside the two connecting rods 5, a japanese button 8 is fixed outside the connecting rod 5, which is located inside the fixing ring 7, and the two japanese buttons 8 are all rotatably connected inside the fixing ring 7.

The toggle 8 is commercially available, has a function of limiting a rotating position, and can realize the distance between the two arc-shaped fixing rods 6 by adjusting the angle between the two holding rods 4, thereby providing a basic condition for adjusting the size.

Specifically, as shown in fig. 3 and 5, the clamping assembly 2 includes two annular racks 9 detachably connected to the inner sides of the arc-shaped fixing rods 6, the inner sides of the corresponding arc-shaped fixing rods 6 are fixed with connecting pieces for covering the annular racks 9, the annular racks 9 are rotatably connected to the inner sides of the connecting pieces, driving pieces for driving the annular racks 9 to rotate are further connected to two sides of the annular racks 9, and arc-shaped clamping plates 10 are elastically connected to the inner sides of the annular racks 9.

As shown in fig. 4, the connecting member includes a fixing block 11 fixed on the inner side of the arc-shaped fixing rod 6, a covering block 12 is screwed on the upper end of the fixing block 11, and a sliding groove 13 for rotating the annular rack 9 is formed at the covering position of the fixing block 11 and the covering block 12.

When the annular rack 9 is placed inside, the covering block 12 is firstly opened, the annular rack 9 is placed inside the sliding groove 13 on the fixing block 11, and then the covering block 12 and the fixing block 11 are fixed through screws to complete the installation of the annular rack 9.

Wherein, the driving piece includes with gear 14 of annular rack 9 meshing, gear 14 rotates to be connected inside arc dead lever 6, and gear 14 all is connected with motor 15, and motor 15 is fixed in arc dead lever 6 upper end.

A motor control button 17 is fixed at the end, far away from the connecting rod 5, of the holding rod 4, the motor control button 17 is used for controlling the opening and closing of the motor 15, and a rubber sleeve 18 is further sleeved outside the holding rod 4.

When the annular rack 9 is driven to rotate, the motor 15 is turned on by pressing the motor control button 17 when the grip lever 4 is gripped, the motor 15 controls the gear 14 to rotate, and the gear 14 drives the annular rack 9 to rotate when rotating.

The elastic connection is characterized in that a plurality of connecting springs 16 are fixed on the inner side of the annular rack 9, the connecting springs 16 are arranged along the circumferential direction, the connecting springs 16 are far away from the annular rack 9, the arc-shaped clamping plates 10 are fixed, and the two arc-shaped clamping plates 10 are symmetrically arranged.

The fastening loop bar 3 can be clamped in the arc-shaped clamping plate 10, when the annular rack 9 rotates, the arc-shaped clamping plate 10 in the arc-shaped clamping plate can be driven to rotate, and then the fastening loop bar 3 can rotate.

The working principle of the utility model is as follows: when getting the mould, at first select the fastening loop bar 3 of suitable plant body spike, place fastening loop bar 3 between arc grip block 10, arc grip block 10 is contradicted fixedly by the coupling spring 16 of both sides, secondly, install annular rack 9 in arc dead lever 6 inboardly, when opening motor 15, can drive fastening loop bar 3 and rotate, and then inside with plant body spike screw in plant, after the screw in, at the inside gypsum of placing of fastening loop bar 3, take off behind fastening loop bar 3, sheathe silica gel facing in at the gypsum outside, accomplish the mould of getting.

The fastening loop bar 3 in the utility model can be customized according to the shape and the size of the long nail of the implant.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. A novel digital oral cavity planting and mold taking device is characterized by comprising a holding component (1), a clamping component (2) and a fastening loop bar (3), wherein the fastening loop bar (3) is clamped inside the clamping component (2), an elastic structure can support the fastening loop bar (3) in the clamping component (2), an implant long nail can be clamped inside the fastening loop bar (3), the fastening loop bar (3) is matched with the implant long nail in size, the clamping component (2) is detachably connected inside the holding component (1), the holding component (1) comprises holding rods (4), two holding rods (4) are arranged, and the angle between the two holding rods (4) can be adjusted;

the holding assembly (1) further comprises connecting rods (5) fixed at one ends of the holding rods (4), arc-shaped fixing rods (6) are fixed at the ends, far away from the holding rods (4), of the connecting rods (5), fixing rings (7) are arranged outside the two connecting rods (5), Japanese buckles (8) are fixed outside the connecting rods (5) located inside the fixing rings (7), and the two Japanese buckles (8) are rotatably connected inside the fixing rings (7);

centre gripping subassembly (2) are including dismantling to connect two annular rack (9) of arc dead lever (6) inboard, and corresponding arc dead lever (6) inboard is fixed with the connecting piece of cladding annular rack (9), and annular rack (9) rotate to be connected inside the connecting piece, annular rack (9) both sides still are connected with drive annular rack (9) pivoted driving piece, and annular rack (9) inboard elastic connection has arc grip block (10).

2. The novel digital oral implant mold taking device as claimed in claim 1, wherein the connecting member comprises a fixing block (11) fixed inside the arc-shaped fixing rod (6), a covering block (12) is screwed on the upper end of the fixing block (11), and a sliding groove (13) for the rotation of the annular rack (9) is formed at the covering position of the fixing block (11) and the covering block (12).

3. The novel digital oral implant mold taking device as claimed in claim 1, wherein the driving member comprises a gear (14) engaged with the annular rack (9), the gear (14) is rotatably connected inside the arc-shaped fixing rod (6), the gears (14) are connected with motors (15), and the motors (15) are fixed at the upper ends of the arc-shaped fixing rods (6).

4. The novel digital oral implant mold taking device according to claim 1, wherein a plurality of connecting springs (16) are fixed on the inner side of the annular rack (9), the connecting springs (16) are arranged along the circumferential direction, the connecting springs (16) are far away from the annular rack (9) to fix the arc-shaped clamping plates (10), and two arc-shaped clamping plates (10) are symmetrically arranged.

5. The novel digital oral cavity implanting and mold taking device as claimed in claim 1, wherein a motor control button (17) is fixed to the end, away from the connecting rod (5), of the holding rod (4), the motor control button (17) is used for controlling a motor (15) to be turned on and off, and a rubber sleeve (18) is further sleeved outside the holding rod (4).

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