CN217828113U - Dental implant surface activation device - Google Patents

Abstract

The utility model discloses a dental implant surface activation device, which comprises an ultraviolet lamp for irradiating an implant, wherein the ultraviolet lamp comprises a UV lamp tube enclosed in a cover cylinder, an upper cylinder opening of the cover cylinder is hermetically provided with an outlet pipe and fire and ground wire pole rods, the outlet pipe is connected with a vacuum pump through an ozone absorption bottle, the fire and ground wire pole rods are respectively connected with the positive pole and the negative pole of the UV lamp tube, and the bottom of the cover cylinder is provided with an implant inlet port communicated with a tube hole of the UV lamp tube; a lifting seat is arranged below the implant inlet, a supporting rod for mounting the implant is arranged on the lifting seat, and the lifting seat drives the supporting rod to enter and exit the tube hole of the UV lamp tube through the implant inlet; and at the in-place position where the implant enters, the lifting seat is limited at the bottom of the cover cylinder and compresses the breathable cotton arranged at the bottom of the cover cylinder. The utility model discloses in arranging the pore of UV fluorescent tube in with the planting body, utilize positive and negative electrode to arouse noble gas and send ultraviolet light, ultraviolet light concentrates inwards to shine the planting body and thoroughly activates its surface rapidly.

Description

Dental implant surface activation device

Technical Field

The utility model relates to a dental treatment technique specifically is a dental implant surface activation device.

Background

In the dental implant technology, an implant is a basic part for dental implant restoration, and generally needs to be activated and modified by irradiating the surface of the implant with an ultraviolet lamp, so that the hydrophilic property of the surface of the implant is improved, the proliferation and the attachment function of osteoblasts after the implant is placed on bone tissues are promoted, and the bone healing time of a patient is accelerated.

The invention patent with application publication number CN113893050A discloses an implant surface modification device, which has the technical scheme that a reflecting surface capable of reflecting ultraviolet light is arranged on one side of an ultraviolet lamp, which is far away from a support, so that when the ultraviolet lamp emits the ultraviolet light outwards, the ultraviolet light emitted in the direction far away from the support can be reflected by the reflecting surface and then irradiated to an implant on the support, thereby improving the utilization efficiency of the ultraviolet light emitted by the ultraviolet lamp and reducing the time for modifying the surface of the implant.

It is obvious that in the patent application of the invention of the implant surface modification device, the ultraviolet light is used for activating the implant which is externally arranged on the ultraviolet lamp, and the energy of the ultraviolet light is not fully utilized.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the prior art is not enough, the utility model provides a dentistry implant surface activation device that ultraviolet ray light utilization efficiency is high.

Can solve above-mentioned technical problem's dentistry implant surface activation device, its technical scheme includes the ultraviolet lamp that shines to the implant, and the institute is different:

1. the ultraviolet lamp comprises a UV lamp tube with a light source irradiating in the tube hole in a centralized manner, the UV lamp tube is sealed in a cover cylinder, an outlet tube, a live wire pole and a ground wire pole are mounted at the upper opening of the cover cylinder through a sealing structure, the outlet tube is connected with a vacuum pump outside the cover cylinder through an ozone absorption bottle, the live wire pole and the ground wire pole are respectively connected with the anode and the cathode of the UV lamp tube in the cover cylinder, and an implant inlet communicated with the tube hole of the UV lamp tube is formed in the bottom of the cover cylinder.

2. The device is characterized in that a lifting seat is arranged below the implant inlet, a supporting rod for mounting the implant is arranged on the lifting seat, and the lifting seat drives the supporting rod to enter and exit the tube hole of the UV lamp tube through the implant inlet.

3. And the lifting seat is limited at the bottom of the cover cylinder and compresses the breathable cotton arranged at the bottom of the cover cylinder at the in-place position where the implant enters, namely the activation position of the implant.

One structure of the UV lamp tube comprises a glass outer tube arranged between a plastic upper cover and a plastic lower cover, rare gas is sealed in an annular cavity in the tube wall of the glass outer tube, shading aluminum foil paper covers the outer tube wall of the glass outer tube, the negative electrode is a ground wire mesh electrode covering the shading aluminum foil paper, and the ground wire mesh electrode and the shading aluminum foil paper are hooped on the outer tube wall of the glass outer tube by upper and lower silica gel rings; the positive electrode is arranged on the inner pipe wall of the glass outer pipe and is a live wire mesh electrode covering the inner pipe wall, the glass inner pipe is embedded in the pipe hole I of the glass outer pipe to tightly squeeze the live wire mesh electrode, and the pipe hole of the UV lamp tube is the pipe hole II of the glass inner pipe.

Furthermore, a ceramic insulating tube is arranged at the upper end of the tube hole I of the glass outer tube, and the live wire pole rod penetrates through the ceramic insulating tube through an air hole in the plastic upper cover and is connected with the live wire mesh electrode; the ground wire pole rod is arranged in a penetrating hole on the plastic upper cover which is aligned beside the glass outer tube in a penetrating way and is connected with the ground wire mesh electrode; and the live wire pole rod and the ground wire pole rod are screwed on the plastic upper cover by corresponding plastic studs.

Furthermore, the cover cylinder comprises an upper cover cylinder and a lower cover cylinder which are screwed mutually, the plastic lower cover is arranged at the bottom of the lower cover cylinder, and the implant enters a cylinder hole at the bottom of the lower cover cylinder and is communicated with the pipe hole II of the glass inner pipe through a cover hole of the plastic lower cover.

The utility model has the advantages that:

1. the utility model discloses dentistry planting body surface activation device arranges the planting body in glass inner tube hole II of UV fluorescent tube, utilizes the noble gas in positive, negative electrode excitation glass outer tube and sends ultraviolet ray light, and ultraviolet ray light concentrates on inwards shining on the planting body, because light energy utilization is high, therefore planting body surface activation is more thoroughly rapid.

2. In the structure of the utility model, the internal activating environment is relatively sealed, which not only satisfies the condition of ozone generation, but also is unlikely to cause the redundant ozone to be distributed out to cause the discomfort of people.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the present invention, showing the lifting base lowered to the lowest implant mounting or dismounting position.

Fig. 2 is a schematic structural view of an embodiment of the present invention, showing the lifting base raised to the highest implant activation position.

Fig. 3 is a schematic structural diagram of the UV lamp tube in the embodiment of fig. 1 and 2.

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

Fig. 5 is a partially enlarged view of fig. 1 at B.

And (3) identifying the figure number: 1. an implant; 2. a UV lamp tube; 3. an air outlet pipe; 4. a live pole; 5. a ground pole; 6. an ozone absorption bottle; 7. a vacuum pump; 8. an implant access port; 9. a lifting seat; 10. a support bar; 11. ventilating cotton; 12. a plastic upper cover; 13. a plastic lower cover; 14. a glass outer tube; 14-1, an annular cavity; 15. a ground mesh electrode; 16. shading aluminum foil paper; 17. a silica gel ring; 18. a live mesh electrode; 19. a glass inner tube; 20. a ceramic insulating tube; 21. plastic studs; 22. an upper cover cylinder; 23. a lower housing barrel; 24. a lifting rod; 25. a sealing cover; 26. a chamber is built in.

Detailed Description

The technical solution of the present invention will be further explained with reference to the embodiments shown in the drawings.

The utility model discloses dental implant surface activation device, including an upper cover section of thick bamboo 22, a lower cover section of thick bamboo 23, ultraviolet lamp, ozone absorption bottle 6 and vacuum pump 7.

The external thread at the lower end of the upper cover cylinder 22 is screwed with the internal thread at the upper section of the lower cover cylinder 23, the upper end cylinder opening of the upper cover cylinder 22 is provided with a sealing cover 25, the sealing cover 25 is provided with an air outlet pipe 3 in the middle, a live wire pole 4 and a ground wire pole 5 at the left side and the right side of the air outlet pipe 3 through sealing structures, the air outlet pipe 3 is communicated with the air inlet of an ozone absorption bottle 6 outside the upper cover cylinder 22, and the air outlet of the ozone absorption bottle 6 is communicated with the air suction opening of a vacuum pump 7 through a pipeline; the central opening at the bottom of the lower cover cylinder 23 is an implant inlet 8, as shown in fig. 1 and 2.

The ultraviolet lamp is arranged in a cylinder body formed by an upper cover cylinder 22 and a lower cover cylinder 23, the ultraviolet lamp comprises a UV lamp tube 2, the UV lamp tube 2 comprises a glass outer tube 14 and a glass inner tube 19, a coaxial annular cavity 14-1 is arranged inside the tube wall of the glass outer tube 14, rare gas is sealed in the annular cavity 14-1, a ceramic insulating tube 20 is coaxially arranged at the upper end of the tube hole of the glass outer tube 14, a plastic upper cover 12 arranged below a sealing cover 25 is sleeved at the upper end of the glass outer tube 14 in a clamping manner, the plastic upper cover 12 is fixed on the outer tube wall of the glass outer tube 14 through a plastic stud 21 which is screwed in laterally, coaxial air holes are formed in the plastic upper cover 12 beside the air holes, and the through holes are formed in the outer tube wall of the glass outer tube 14; the lower end of the glass outer tube 14 is sleeved with a plastic lower cover 13 arranged at the bottom of a lower cover cylinder 23 in a clamping manner, and the plastic lower cover 13 is fixed on the outer tube wall of the glass outer tube 14 through a plastic stud 21 screwed in laterally, as shown in fig. 1, 2 and 3.

The outer tube wall of the glass outer tube 14 between the plastic upper cover 12 and the plastic lower cover 13 is respectively covered with a shading aluminum foil paper 16 and a ground wire mesh electrode 15 from inside to outside, and the ground wire mesh electrode 15 and the shading aluminum foil paper 16 are clamped on the outer tube wall of the glass outer tube 14 by silicon rubber rings 17 at the upper and lower positions to be axially positioned; the lower end of the ground wire pole 5 is inserted through a through hole on the plastic upper cover 12 beside the silica gel ring 17 at the upper position, the ground wire mesh electrode 15 extending upwards to the outside of the silica gel ring 8 at the upper position is connected with the ground wire pole 5, and a plastic stud 21 is screwed on the plastic upper cover 12 in the lateral direction to fix the position of the ground wire pole 5, as shown in fig. 1, 2, 3 and 4.

The inner tube wall of the glass outer tube 14 below the ceramic insulating tube 20 is covered with a live wire mesh electrode 18, a glass inner tube 19 is inserted into a tube hole I of the glass outer tube 14, the glass inner tube 19 tightly extrudes the live wire mesh electrode 18 on the inner tube wall of the glass outer tube 14 to axially position the glass outer tube, the lower end of the live wire pole rod 4 sequentially penetrates through an air hole of the plastic lower cover 12 and the ceramic insulating tube 20, the upper end of the live wire mesh electrode 18 extends out of the glass inner tube 19 to be connected with the live wire pole rod 4, and a plastic stud 21 is screwed into the upper side of the plastic upper cover 12 to fix the live wire pole rod 4; the cover hole of the plastic lower cover 13 is communicated with the pipe hole II of the glass inner pipe 2 upwards and is communicated with the implant inlet 8 at the bottom of the lower cover cylinder 23 downwards, and the pipe hole II of the glass inner pipe 19 is an activated built-in cavity 26 of the implant 1, as shown in fig. 3, 4 and 5.

A lifting seat 9 connected with a side lifting rod 24 is arranged below the implant inlet 8, a supporting rod 10 is arranged on the lifting seat 9, the implant 1 is rotatably mounted on the supporting rod 10, the lifting rod 24 drives the lifting seat 9 to ascend and descend, and the lifting seat 9 drives the supporting rod 10 and the implant 1 to enter and exit a pipe hole II of the UV lamp tube 2 through the implant inlet 8, namely a built-in cavity 26, as shown in figures 1, 2 and 5.

The utility model discloses an operation mode does:

1. when the implant 1 is activated, the lifting seat 9 rises to drive the supporting rod 10 to enter the built-in cavity 26, the implant 1 is located in the middle of the built-in cavity 26 at the activation position of the implant 1, the lifting seat 9 is limited upwards at the bottom of the lower cover cylinder 23 and is pressed on the breathable cotton 11 arranged at the bottom of the lower cover cylinder 23 (the breathable cotton 11 is loose and elastic hollow foam, certain breathability is reserved when the breathable cotton is extruded, and the breathable cotton is not completely sealed), the live wire pole rod 4 and the ground wire pole rod 5 are connected with a power supply, the live wire mesh electrode 18 and the ground wire mesh electrode excite rare gas in the annular cavity 14-1 to emit ultraviolet light, and the ultraviolet light is concentrated in the built-in cavity 26 to activate the implant 1.

2. In the activation treatment process, ozone is generated on the surface of the implant 1 after being irradiated by ultraviolet light and is collected in the built-in cavity 26, the ozone is extracted by the vacuum pump 7 and is collected in the ozone absorption bottle 6, and the vacuum pump 7 can keep a certain vacuum degree in the built-in cavity 26, so that sufficient ozone is generated to clean the surface of the implant 1, and the purpose of cleaning the surface of the implant 1 is achieved.

3. After the activation treatment, the lifting seat 9 descends to drive the support rod 10 and the implant 1 to exit the built-in cavity 26, and the implant 1 is taken down from the support rod 10.

Claims (4)

1. Dental implant surface activation device, including the ultraviolet lamp that shines implant (1), its characterized in that:

the ultraviolet lamp comprises a UV lamp tube (2) with a light source irradiating into the tube hole in a centralized manner, the UV lamp tube (2) is sealed in a cover cylinder, an upper cylinder opening of the cover cylinder is provided with an air outlet tube (3), a live wire pole rod (4) and a ground wire pole rod (5) through a sealing structure, the air outlet tube (3) is connected with a vacuum pump (7) outside the cover cylinder through an ozone absorption bottle (6), the live wire pole rod (4) and the ground wire pole rod (5) are respectively connected with the anode and the cathode of the UV lamp tube (2) in the cover cylinder, and the bottom of the cover cylinder is provided with an implant inlet (8) communicated with the tube hole of the UV lamp tube (2);

a lifting seat (9) is arranged below the implant inlet (8), a supporting rod (10) for installing the implant (1) is arranged on the lifting seat (9), and the lifting seat (9) drives the supporting rod (10) to enter and exit the tube hole of the UV lamp tube (2) through the implant inlet (8);

and the lifting seat (9) is limited at the bottom of the cover cylinder and compresses the breathable cotton (11) arranged at the bottom of the cover cylinder at the in-place position where the implant (1) enters, namely the activation position of the implant (1).

2. The dental implant surface activation device of claim 1, wherein: the UV lamp tube (2) comprises a glass outer tube (14) arranged between a plastic upper cover (12) and a plastic lower cover (13), rare gas is sealed in an annular cavity (14-1) in the tube wall of the glass outer tube (14), shading aluminum foil paper (16) covers the outer tube wall of the glass outer tube (14), a negative electrode is a ground wire mesh electrode (15) covering the shading aluminum foil paper (16), the ground wire mesh electrode (15) and the shading aluminum foil paper (16) are hooped on the outer tube wall of the glass outer tube (14) through a silica gel ring (17) in upper and lower positions, a positive electrode is arranged on the inner tube wall of the glass outer tube (14) and is a live wire mesh electrode (18) covering the inner tube wall, a glass inner tube (19) is embedded in a tube hole I of the glass outer tube (14) to tightly extrude the live wire mesh electrode (18), and a tube hole of the UV lamp tube (2) is a tube hole II of the glass inner tube (19).

3. The dental implant surface activation device according to claim 2, wherein: the upper end of the tube hole I of the glass outer tube (14) is provided with a ceramic insulating tube (20), and the live wire pole rod (4) is connected with the live wire mesh electrode (18) by penetrating the ceramic insulating tube (20) through an air hole on the plastic upper cover (12); the ground wire pole rod (5) is arranged on a through hole on the plastic upper cover (12) which is positioned beside the glass outer tube (14) in a penetrating way and is connected with the ground wire mesh electrode (15); the live wire pole rod (4) and the ground wire pole rod (5) are screwed on the plastic upper cover (12) through corresponding plastic studs (21).

4. The dental implant surface activation device according to claim 2 or 3, wherein: the cover cylinder comprises an upper cover cylinder (22) and a lower cover cylinder (23) which are screwed mutually, the plastic lower cover (13) is arranged at the bottom of the lower cover cylinder (23), and the implant inlet (8) is a cylinder hole at the bottom of the lower cover cylinder (23) and is communicated with the pipe hole II of the glass inner pipe (19) through a cover hole of the plastic lower cover (13).

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