CN217134318U - UV lamp structure for activating surface of dental implant - Google Patents

Abstract

The utility model discloses a UV lamp structure for activation of dental implant surface, including the gas discharger, the gas discharger includes the glass outer tube, it has rare gas to seal in the annular cavity in the glass outer tube pipe wall, from interior to exterior covers has ground wire mesh electrode and shading aluminium foil paper on the outer tube wall of glass outer tube, ground wire mesh electrode and shading aluminium foil paper are by last, the silica gel circle of lower position cramps on the outer tube wall of glass outer tube and axial positioning, the interior tube wall of glass outer tube coats and is stamped live wire mesh electrode, it has the glass inner tube to inlay in the tube hole of glass outer tube and fill in, live wire mesh electrode is crowded tightly on the interior tube wall of glass outer tube and axial positioning by the glass inner tube, the tube hole of glass inner tube is the built-in cavity of implant activation. The utility model discloses in arranging the built-in cavity of glass inner tube in with the planting body, utilize positive, negative electrode to arouse the interior noble gas of glass outer tube and send ultraviolet ray, ultraviolet ray is concentrated to the internal illumination light, and light energy utilization rate is high, can make planting body surface activation more thoroughly rapidly.

Description

UV lamp structure for activating surface of dental implant

Technical Field

The utility model relates to a dental treatment technique specifically is a UV lamp structure that is used for activation of dental implant surface.

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 with application publication number CN113893050A discloses an implant surface modification device, which is characterized in 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.

Obviously, in the invention patent application of the implant surface modification device, the ultraviolet light is used for activating the implant arranged in the ultraviolet lamp, and the energy of the ultraviolet light is not fully utilized.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model aims to solve the technical problem that an ultraviolet light utilization efficiency is high is used for the activated UV lamp structure of dentistry planting body surface is proposed.

The technical scheme includes that the UV lamp structure comprises a gas discharger, the gas discharger comprises a glass outer tube, rare gas is sealed in an annular cavity in the tube wall of the glass outer tube, the outer tube wall of the glass outer tube is covered with shading aluminum foil paper and a ground wire mesh electrode from inside to outside, the ground wire mesh electrode and the shading aluminum foil paper are hooped on the outer tube wall of the glass outer tube through upper and lower silica gel rings and are axially positioned, the inner tube wall of the glass outer tube is covered with a live wire mesh electrode, a glass inner tube is embedded in a tube hole of the glass outer tube, the live wire mesh electrode is tightly squeezed on the inner tube wall of the glass outer tube by the glass inner tube and is axially positioned, and the tube hole of the glass inner tube is a built-in cavity for activating the implant.

The technical scheme is further perfected as follows:

1. the upper and lower both ends of glass outer tube are equipped with plastic upper cover and plastic lower cover respectively, and the upper end of glass outer tube hole is equipped with ceramic-insulated pipe, alternate in the ceramic-insulated pipe and have the live wire pole piece, the netted electrode of live wire is connected to the lower extreme of live wire pole piece, and the gas pocket that sets up is upwards stretched out from the plastic upper cover to the upper end of live wire pole piece.

2. And a ground wire pole rod is arranged on the plastic upper cover positioned beside the glass outer tube in a penetrating way, and the lower end of the ground wire pole rod is connected with a ground wire mesh electrode.

3. And the plastic lower cover is provided with an implant inlet hole communicated with the built-in cavity of the glass inner tube.

Conventionally, the live wire pole and the ground wire pole are both screwed on the plastic upper cover by corresponding plastic studs.

The utility model has the advantages that:

1. the utility model discloses in arranging the built-in cavity of glass inner tube in with the planting body, utilize positive, negative electrode to arouse the interior noble gas of glass outer tube and send ultraviolet ray, ultraviolet ray is concentrated inwards to shine in the planting body, and the light energy utilization ratio is high, therefore planting body surface activation is more thoroughly rapid.

2. The utility model discloses in the structure, adorn live wire pole and the ground wire pole of adorning on the plastic upper cover admittedly and be separated by the certain distance, the installation is taken one's place reliable and stable, has effectively prevented between live wire pole and the ground wire pole interval unstability and has caused the problem emergence that opens circuit.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a partially enlarged view of a in fig. 1.

And (3) identifying the figure number: 1. a glass outer tube; 1-1, an annular cavity; 2. a glass inner tube; 2-1, arranging a cavity inside; 3. a ground mesh electrode; 4. shading aluminum foil paper; 5. a live mesh electrode; 6. a plastic upper cover; 7. a plastic lower cover; 7-1, an implant access hole; 8. a silica gel ring; 9. a ceramic insulating tube; 10. a live pole; 11. a ground pole; 12. plastic studs.

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 is used for activated UV lamp structure of dental implant surface, including glass outer tube 1 and glass inner tube 2.

A coaxial annular cavity 1-1 is arranged in the tube wall of the glass outer tube 1, rare gas is sealed in the annular cavity 1-1, a ceramic insulating tube 9 is coaxially arranged at the upper end port of the tube hole of the glass outer tube 1, a plastic upper cover 6 is clamped and sleeved at the upper end of the glass outer tube 1, the plastic upper cover 6 is fixed on the outer tube wall of the glass outer tube 1 through a plastic stud 12 which is screwed in laterally, coaxial air holes are formed in the plastic upper cover 6, penetrating holes are formed in the plastic upper cover 6 beside the air holes, and the penetrating holes are positioned outside the outer tube wall of the glass outer tube 1; the lower end of the glass outer tube 1 is clamped and sleeved with a plastic lower cover 7, and the plastic lower cover 7 is fixed on the outer tube wall of the glass outer tube 1 through a plastic stud 12 which is screwed in laterally, as shown in fig. 1.

The outer tube wall of the glass outer tube 1 between the plastic upper cover 6 and the plastic lower cover 7 is respectively covered with shading aluminum foil paper 4 and a ground wire mesh electrode 3 from inside to outside, and the ground wire mesh electrode 3 and the shading aluminum foil paper 4 are clamped on the outer tube wall of the glass outer tube 1 by upper and lower silica gel rings 8 to be axially positioned; a ground wire pole 11 is inserted into the through hole on the plastic upper cover 6, the lower end of the ground wire pole 11 is connected with the ground wire mesh electrode 3 (the silicon rubber ring 8 which upwards extends out of the upper position), and a plastic stud 12 is screwed on the plastic upper cover 6 in the lateral direction to fix the ground wire pole 11 in position, as shown in fig. 1 and 2.

The inner pipe wall of the glass outer pipe 1 below the ceramic insulating pipe 9 is covered with a live wire mesh electrode 5, a live wire pole 10 is inserted into the ceramic insulating pipe 9, the upper end of the live wire pole 10 extends upwards out of the plastic upper cover 6 through an air hole, a plastic stud 12 is screwed into the upper side of the plastic upper cover 6 in the lateral direction, the position of the live wire pole 10 is fixed, a glass inner pipe 2 is inserted into a pipe hole of the glass outer pipe 1, the glass inner pipe 2 extrudes the live wire mesh electrode 5 on the inner pipe wall of the glass outer pipe 1 to axially position the live wire mesh electrode, and the upper end of the live wire mesh electrode 5 extends out of the glass inner pipe 2 and is connected with the lower end of the live wire pole 10; the plastic lower cover 7 is provided with a coaxial implant inlet hole 7-1 communicated with the pipe hole of the glass inner pipe 2, and the pipe hole of the glass inner pipe 2 is a built-in chamber 13 for activating the implant, as shown in fig. 1 and 2.

The utility model discloses an operation mode does:

the implant is placed in the built-in chamber 13 from the implant inlet hole 7-1 of the plastic lower cover 7, the live wire pole 10 and the ground wire pole 11 are connected with a power supply, the positive electrode and the negative electrode excite the rare gas in the annular cavity 1-1 to emit ultraviolet light, and the ultraviolet light is concentrated in the built-in chamber 13 to activate the implant.

Claims (3)

1. UV lamp structure for dental implant surface activation, comprising a gas discharger, characterized in that: the gas discharger comprises a glass outer tube (1), rare gas is sealed in an annular cavity (1-1) in the tube wall of the glass outer tube (1), light-shading aluminum foil paper (4) and a ground wire mesh electrode (3) are covered on the outer tube wall of the glass outer tube (1) from inside to outside, the ground wire mesh electrode (3) and the shading aluminum foil paper (4) are clamped on the outer pipe wall of the glass outer pipe (1) by the silica gel rings (8) at the upper and lower positions to be axially positioned, the inner pipe wall of the glass outer pipe (1) is covered with the live wire mesh electrode (5), the glass inner pipe (2) is embedded in the pipe hole of the glass outer pipe (1), the live wire mesh electrode (5) is tightly extruded on the inner tube wall of the glass outer tube (1) by the glass inner tube (2) to be axially positioned, the pore of the glass inner tube (2) is an internal cavity (13) for activating the implant.

2. The UV lamp structure for dental implant surface activation according to claim 1, characterized in that:

the upper end and the lower end of the glass outer tube (1) are respectively provided with a plastic upper cover (6) and a plastic lower cover (7), the upper end of a tube hole of the glass outer tube (1) is provided with a ceramic insulating tube (9), a live wire pole rod (10) is inserted in the ceramic insulating tube (9), the lower end of the live wire pole rod (10) is connected with a live wire mesh electrode (5), and the upper end of the live wire pole rod (10) extends upwards from an air hole formed in the plastic upper cover (6);

a ground wire pole rod (11) is arranged on the plastic upper cover (6) aligned to the side of the glass outer tube (1) in a penetrating way, and the lower end of the ground wire pole rod (11) is connected with a ground wire mesh electrode (3);

the plastic lower cover (7) is provided with an implant inlet hole (7-1) communicated with the built-in cavity of the glass inner tube (2).

3. The UV lamp structure for dental implant surface activation according to claim 2, characterized in that: the live wire pole rod (10) and the ground wire pole rod (11) are screwed on the plastic upper cover (6) through corresponding plastic studs (12).

Images