WO2020184849A1 - Ultraviolet discharge lamp apparatus - Google Patents

Abstract

Provided is an ultraviolet discharge lamp apparatus. The purpose of the ultraviolet discharge lamp apparatus according to an embodiment of the present invention is to perform surface modification treatment on an implant fixture by using UV light, after an ampoule in which the implant fixture is contained is input. The ultraviolet discharge lamp apparatus comprises: a housing having formed in a side thereof an ampoule inlet hole for inputting the ampoule to the inside; an ultraviolet discharge lamp which is seated inside the housing to be positioned under the ampoule inlet hole and generates UV light for performing the surface modification treatment on the implant fixture; and a location adjustment unit comprising an ampoule holder which has an end portion supporting a lower portion of the ampoule input through the ampoule inlet hole and moves up and down in the height direction in the ultraviolet discharge lamp to change the position of the ampoule.

Description

UV discharge lamp device

The present invention relates to an ultraviolet discharge lamp device, and more particularly, to an ultraviolet discharge lamp device capable of modifying the surface of a dental implant fixture.

Recently, dental implants, which are artificial teeth, are increasing in frequency. The implant acts as a tooth by being coupled to a fixture inserted into the pubis.

The dental implant structure, which is usually an artificial tooth, is composed of three structures including an implant fixture (Fixture-artificial tooth root), abutment and prosthesis (Crown-artificial tooth), and the material of the fixture is titanium and titanium alloy. This is common.

In an implant procedure, the area of the implant fixture inserted into the pubis needs to be completely placed in the pubis.

To this end, when UV light is irradiated onto the implant surface, especially the implant fixture, the surface of the implant fixture is modified through ozone generated by UV light and UV light, thereby promoting the proliferation and attachment function of bone-forming cells.

However, in the conventional surface modification treatment apparatus using UV light, light is irradiated while the implant and the light source are spaced apart a predetermined distance. Accordingly, in order to irradiate light evenly over the entire surface of the implant fixture, it was a common method to rotate the implant fixture while maintaining a certain distance between the implant fixture and the light source.

Accordingly, since the conventional surface modification treatment device takes a long time to modify the surface of the implant fixture, several fixtures had to be surface-modified at the same time, and the surface-modified implant fixtures that were not used after the procedure were When stored in a storage case again or stored in a storage case for reuse, the surface is oxidized or contaminated and the surface modification effect disappears.

For this reason, in order to reuse the surface-modified implant fixture stored in the storage case, there is a problem in that the surface-modifying treatment must be performed again during reuse.

The present invention is to solve the above problems, and provides an ultraviolet discharge lamp device capable of automating the injection, surface modification treatment and discharge of the ampoule in which the implant fixture is stored while minimizing the surface modification treatment time of the implant fixture. I want to.

In addition, the present invention is to provide an ultraviolet discharge lamp device capable of performing surface modification in a state accommodated in a storage case without removing an implant fixture from the storage case.

According to one aspect of the present invention, as an apparatus for inserting an ampoule in which the implant fixture is stored and modifying the surface of the implant fixture using UV light, an ampoule inlet is formed at one side for introducing the ampoule into the interior. housing; An ultraviolet discharge lamp mounted inside the housing so as to be located below the ampoule inlet and generating UV light for modifying the surface of the implant fixture; And a position adjusting unit including an ampoule holder at one end supporting the lower portion of the ampoule input through the ampoule inlet and moving up and down along the height direction inside the ultraviolet discharge lamp to change the position of the ampoule; Provide the device.

As an embodiment, the housing may include at least one air passage formed along a circumferential direction so that outside air may move toward the ultraviolet discharge lamp.

In one embodiment, the ultraviolet discharge lamp device may further include an opening/closing means for opening and closing the ampoule inlet. For example, the opening/closing means includes a driving motor providing a rotational force, and a cam eccentrically connected to a rotation shaft of the driving motor. A member, a connecting rod that maintains a state in which one side is in contact with the cam member and rotates about a rotating table through rotation of the cam member, and a plate-shaped opening and closing member fixedly coupled to the connecting rod on one side, the The opening/closing member may be changed to a closed state covering the upper portion of the ampoule inlet through the pivoting motion of the connecting rod, or may be changed to an open state in which the upper portion of the ampoule inlet is opened.

As an embodiment, the ultraviolet discharge lamp includes an ultraviolet discharge container filled with a discharge gas that generates UV light between an inner tube and an outer tube of a hollow type with upper and lower ends connected to each other, and an open upper portion of the ultraviolet discharge container and It may include a hollow internal electrode fastened to at least one side of the open lower portion, and an external electrode disposed to surround the outside of the ultraviolet discharge container. At this time, the ampoule holder is raised and lowered from the inside of the inner tube along the height direction of the ultraviolet discharge lamp, and the ampoule injected into the housing through the ampoule inlet is moved to the implant fixture through the movement of the ampoule holder. It can be changed to be located at a position not overlapping with the internal electrode.

In one embodiment, the position adjusting unit includes an ampoule holder for supporting a lower portion of the ampoule inserted into the ampoule inlet, at least one guide bar having one end fixedly installed on the housing, and sliding in the up and down directions along the guide bar. A slider coupled to be movable and fixedly coupled to an end of the ampoule holder, and a power transmission member fixedly installed on a rotating shaft of a driving motor, and the power transmission member is installed so that one side of the driving motor is engaged with the slider. When rotating, the slider can be moved up and down. At this time, the power transmission member may include a bar-shaped body having a predetermined length and a protruding member hinged to one surface of the body, and the slider may include a seating groove accommodated while the protruding member is engaged with one surface of the body. In addition, the slider may be raised or lowered by a driving force generated through a protruding member linearly moving along the seating groove when the driving motor rotates.

As an embodiment, the ampoule holder may be formed in a hollow shape so that ozone generated by ultraviolet rays can move when the surface of the implant fixture is modified. In this case, the ultraviolet discharge lamp device may further include a fan for sucking the ozone and discharging it to the outside, and the fan may be connected to the open lower part of the ampoule holder through a connection pipe. In addition, the ultraviolet discharge lamp device may further include a filter provided at a front end of the fan, and the filter may remove ozone discharged from the ampoule holder.

As an embodiment, the ampoule holder may be rotatably provided. For example, the ultraviolet discharge lamp device further includes a driven gear coupled to a lower side of the ampoule holder, a driving gear meshed with the driven gear, and a driving motor that transmits rotational force to the driving gear, so that the ampoule holder is a driving motor. Can be rotated through.

As an embodiment, the ultraviolet discharge lamp device may include a control unit that controls driving.

In the ultraviolet discharge lamp device according to an embodiment of the present invention, after the ampoule in which the implant fixture is stored is injected into ultraviolet light, the implant structure may be surface-modified inside the UV lamp having a double tube structure. Accordingly, since the ultraviolet discharge lamp device according to an embodiment of the present invention can simultaneously irradiate uniform UV light to the entire surface of the implant fixture, the surface modification treatment time can be rapidly reduced. For this reason, the ultraviolet discharge lamp device according to an embodiment of the present invention can be used immediately by modifying the surface of the implant fixture immediately before the procedure.

In addition, the ultraviolet discharge lamp device according to an embodiment of the present invention may perform a surface modification treatment of the implant fixture while the light transmitting case in which the implant fixture is stored is mounted. For this reason, the ultraviolet discharge lamp device according to an embodiment of the present invention can shorten the time required for surface treatment and prevent contamination of the implant fixture that may occur during the surface modification process.

1 is an external view of an ultraviolet discharge lamp device according to an embodiment of the present invention.

FIG. 2 is a diagram showing the internal configuration of FIG. 1.

3 is a view showing a main part of the ultraviolet discharge lamp device according to an embodiment of the present invention.

4 is an exploded view of FIG. 3.

FIG. 5 is a cross-sectional view in the direction A-A of FIG. 3, illustrating a state in which an ampoule is inserted through an ampoule inlet.

6 is a view showing a state in which the ampoule is moved downward in FIG. 5.

7 is a cross-sectional view in the direction B-B of FIG. 3.

8 is a view showing an extract of a position adjustment unit in the ultraviolet discharge lamp device according to an embodiment of the present invention.

9 is a view showing the coupling relationship between the slider and the power transmission member in FIG.

10 is a view showing an operating state in which the power transmission member is raised and lowered in FIG. 8.

11 is a view extracted from the opening and closing means in FIG.

12 is a view of FIG. 8 viewed from a different angle.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement the present invention. The present invention may be implemented in various different forms, and is not limited to the embodiments described herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and the same reference numerals are added to the same or similar components throughout the specification.

The ultraviolet discharge lamp device 100 according to an embodiment of the present invention uses the UV light generated from the ultraviolet discharge lamp 130 when the ampoule 10 in which the implant fixture 1 is stored is inserted into the implant fixture ( The surface of 1) can be modified.

To this end, the ultraviolet discharge lamp device 100 according to an embodiment of the present invention includes a main body 110, a housing 120, an ultraviolet discharge lamp 130, and a position adjusting unit 140 as shown in FIGS. 1 to 3. ) Can be included.

In the present invention, the ampoule 10 may be one in which the implant fixture 1, which is an object to be treated, is stored. Such ampoule 10 may be one in which the implant fixture 1 is accommodated in a hollow receiving member 12 whose both ends are open as shown in FIGS. 4 to 7, and the receiving member 12 is opened. Both ends may be combined with a pair of end caps 14. In addition, the pair of end caps 14 are supplied with external air to the interior of the receiving member 12 and the ozone generated from the external air in the process of modifying the surface of the implant fixture 1 is transferred to the fan 170 It may include at least one moving passage (15) that is formed through so as to move through the suction force provided from ).

However, the configuration of the ampoule 10 is not limited thereto, and may be appropriately changed as long as it is a shape capable of accommodating the implant fixture 1 therein.

The ampoule 10 may be introduced into the ultraviolet discharge lamp 130 through the ampoule inlet 124 formed in the housing 120, and the implant through the UV light generated from the ultraviolet discharge lamp 130 The surface of the fixture 1 may be modified. A detailed description of this will be described later.

The body 110 may accommodate various parts therein, and a combination of the housing 120, the ultraviolet discharge lamp 130, and the positioning unit 140 may be coupled to one side.

For example, a combination of the housing 120, the ultraviolet discharge lamp 130, and the positioning unit 140 may be mounted in the mounting hole 112 formed on one side of the main body 110.

In addition, a control unit for controlling the overall operation of the ultraviolet discharge lamp device 100 according to an embodiment of the present invention may be provided on the side of the main body 110, and the main body 110 supplies power to the control unit. It may include a power supply for.

Here, the control unit may include an AP chip mounted on one surface of the circuit board, and may include a panel unit 190 for a user's manipulation signal such as power on/off, pause, etc. through user manipulation. In addition, the power supply unit may be a known battery accommodated in the main body, or may be an external power supply supplying power to the control unit through a cable (not shown) such as a plug.

However, the structure of the main body 110 is not limited thereto, and the housing 120, the ultraviolet discharge lamp 130, and the position adjusting unit 140 may be suitably changed as long as the combination can be mounted. .

The housing 120 may be coupled to the mounting hole 112 of the main body 110 while the ultraviolet discharge lamp 130 is disposed therein. The housing 120 may be provided with an ampoule inlet 124 for injecting the ampoule 10, which is an object to be processed, into the ultraviolet discharge lamp 130.

Through this, in the case of modifying the surface of the implant fixture 1 stored in the ampoule 10, the user inserts the ampoule 10 toward the ultraviolet discharge lamp 130 through the ampoule inlet 124 can do.

In this case, the housing 120 may be composed of one member, but may have a structure in which a plurality of members are coupled to each other.

As an example, the housing 120 may include a hollow housing body 121 with open upper and lower portions, and a cover 122 covering the open upper portion of the housing body 121, and the ampoule inlet The 124 may be formed through the cover 122. In this case, a plate-shaped support plate 123 having a predetermined area may be fastened to the open lower side of the housing body 121.

Accordingly, the housing 120 may be formed in a housing shape having an internal space through the housing body 121, the cover 122, and the support plate 123, and the ultraviolet discharge lamp 130 at the inner space side. ) Can be placed.

In this case, the ultraviolet discharge lamp 130 may be disposed directly under the ampoule inlet 124, and the lower side may be fixed to the support plate 123.

Through this, when the ampoule 10 is inserted into the ampoule inlet 124 side, the ampoule 10 can move toward the ultraviolet discharge lamp 130, and the ampoule 10 is through an ampoule holder 141 to be described later. It can be moved to an appropriate position inside the ultraviolet discharge lamp 130.

However, the structure of the housing 120 is not limited thereto, and the ultraviolet discharge lamp 130 may be disposed therein, and the ampoule inlet 124 for introducing the ampoule 10 toward the ultraviolet discharge lamp 130 If is formed, it can be appropriately changed.

In this case, the housing 120 may include at least one air passage 125 for supplying outside air to the ultraviolet discharge lamp 130. For example, the air passage 125 may be formed on the side of the housing body 121, and a plurality of air passages 125 may be formed along the circumferential direction of the housing body 121.

In addition, the air passage 125 is a region corresponding to the position of the ampoule 10, which is subjected to surface modification treatment after being introduced through the ampoule inlet 124 of the housing body 121 as shown in FIG. Can be formed in

Accordingly, the ultraviolet discharge lamp device 100 according to an embodiment of the present invention discharges the ultraviolet rays through the air passage 125 in the surface modification treatment process using the UV light generated from the ultraviolet discharge lamp 130. Outside air may be supplied to the lamp 130.

Through this, heat generated in the surface modification process using UV light generated from the ultraviolet discharge lamp 130 can be cooled through the outside air, thereby increasing the temperature of the implant fixture 1 during the surface modification process. Can be prevented.

Meanwhile, the ampoule inlet 124 may be changed into an open state and a closed state through an opening and closing means.

As an example, the ampoule inlet 124 is changed to an open state when an object to be treated is to be injected into the ultraviolet discharge lamp 130 and the surface of the implant fixture 1 is modified using UV light. When the processed ampoule 10 is discharged to the outside through the ampoule inlet 124, it may be changed to a closed state.

Accordingly, in the ultraviolet discharge lamp apparatus 100 according to an embodiment of the present invention, when the ampoule 10 is surface-modified, outside air is supplied to the ultraviolet discharge lamp 130 through the open ampoule inlet 124. When the ampoule 10 is not subjected to the surface modification treatment, the ampoule inlet 124 is maintained in a closed state, thereby preventing foreign substances from flowing into the ultraviolet discharge lamp 130.

In this case, the opening and closing means may be manually operated through a user's manipulation, but may be automatically opened and closed through the control of the controller.

For example, as shown in FIG. 11, the opening and closing means includes a drive motor 151 driven by driving of the control unit, a cam member 152 rotated by the drive motor 151, and the cam member ( It may include a rotating table 153 rotated by 152, wherein the rotating table 153 has a connecting table 154 having one side in contact with the cam member 152 and an opening and closing disposed above the ampoule inlet 124 Each of the members 155 may be combined.

Specifically, the drive motor 151 may be fixed to one side of the support plate 123 via a bracket 157, and the cam member 152 may be axially coupled to the rotation shaft of the drive motor 151. have. In addition, the connecting rod 154 may be disposed so that one side of the connecting rod 154 is in contact with the cam member 152 in a state fixedly coupled to the lower side of the rotating rod 153, and the opening/closing member 155 is the rotating rod 153 It can be fixedly coupled to the upper side of the. In this case, one side of the connecting rod 154 may be interconnected with one side of the bracket 157 through an elastic member 156.

Accordingly, when the driving motor 151 is driven, the cam member 152 may rotate about the rotation axis of the driving motor 151, and the connecting rod 154 in contact with the cam member 152 is The member 152 may be rotated around the rotating table 153 by rotation of the member 152.

Here, the driving motor 151 may rotate forward or backward through the control of the controller. Accordingly, the cam member 152 may also be rotated in a forward or reverse direction, and the elastic member 156 may store an elastic force according to the rotation direction of the cam member 152 or return to its original position using the stored elastic force. I can.

Accordingly, the connecting rod 154 in contact with the cam member 152 can reciprocate and rotate around the rotating table 153, and the opening/closing member 155 fixedly coupled to the upper side of the rotating table 153 is also Like the connecting rod 154, it may reciprocate and rotate around the rotating rod 153.

Through this, when the rotating table 153 rotates, the opening/closing member 155 fixedly coupled to the upper side of the rotating table 153 is also rotated around the rotating table 153 so that it is positioned above the ampoule inlet 124. It may be disposed or separated from the upper portion of the ampoule inlet 124.

The UV discharge lamp 130 generates UV light and then irradiates the generated UV light toward the ampoule 10 inserted through the ampoule inlet 124 to the surface of the implant fixture 1 accommodated in the ampoule 10. Can be modified.

To this end, the ultraviolet discharge lamp 130 may be disposed inside the housing 120, and may be disposed below the ampoule inlet 124.

In this case, the ultraviolet discharge lamp 130 may be configured to be exposed to UV light while the ampoule 10 injected through the ampoule inlet 124 is located inside.

Through this, the ultraviolet discharge lamp device 100 according to an embodiment of the present invention can simultaneously irradiate uniform UV light to the entire surface of the implant fixture 1 as the object to be treated, so that the treatment time for surface modification Can be rapidly shortened. For this reason, the ultraviolet discharge lamp device 100 according to an embodiment of the present invention can modify the surface of the implant fixture 1 immediately before the procedure, so that the surface-modified implant fixture 1 It can provide simplicity that can be used immediately. In addition, contamination of the implant fixture 1 that may occur during the surface modification process can be prevented.

For example, the ultraviolet discharge lamp 130 may include an ultraviolet discharge container 131, at least one internal electrode 132, and an external electrode 133 as shown in FIGS. 4 to 7.

In this case, the ultraviolet discharge container 131 may be a hollow type filled with a discharge gas therein, and the internal electrode 132 may be inserted into the ultraviolet discharge container 131, and the external electrode Reference numeral 133 may be disposed to surround the outside of the ultraviolet discharge container 131.

In addition, the internal electrode 132 may be formed in a hollow shape, similar to the ultraviolet discharge container 131. Through this, the ampoule 10 injected through the ampoule inlet 124 may move into the ultraviolet discharge container 131 through the hollow portion of the internal electrode 132.

Specifically, the ultraviolet discharge vessel 131 may include a hollow inner tube (131a) and an outer tube (131b) having different diameters, the inner tube (131a) and the outer tube (131b) are They may be spaced apart from each other, and the inner tube 131a and the outer tube 131b may have upper and lower ends connected to each other via a connection part 131c.

Through this, the ultraviolet discharge container 131 may include a sealed space formed through the inner tube 131a, the outer tube 131b, and the connection part 131c, and the sealed space for generating UV light Discharge gas may be filled.

Here, the energy for the discharge gas may be changed by electric energy applied to the internal electrode 132 and the external electrode 133. Therefore, UV light may be generated by using the discharge gas.

At this time, the discharge gas may include Xe (wavelength 172 nm), ArF (wavelength 193 nm), KrCl (wavelength 222 nm), KrF (wavelength 248 nm), XeCl (wavelength 308 nm), or XeF (wavelength 351 nm). A discharge gas that generates excimer UV light may be used.

In addition, as the discharge gas, a material capable of generating UV light in the UVC wavelength range (100 nm to 280 nm) may be used. Preferably, excimer UV light of 172 nm may be used as the discharge gas. In this case, the surface modification treatment of the implant fixture may be performed in 5 to 40 seconds.

However, the gas for discharging is not limited thereto, and any one capable of generating UV light for surface modification treatment of an implant fixture may be used without limitation.

Meanwhile, the internal electrodes 132 may be provided in a pair, and may be inserted into the upper and lower sides of the ultraviolet discharge container 131, respectively, and the pair of internal electrodes 132 may be provided in the ultraviolet discharge container. In the state inserted in the (131) side, they can be spaced apart from each other.

Through this, the ampoule 10 injected into the ultraviolet discharge lamp 130 through the ampoule inlet 124 may be disposed at a position that does not overlap the pair of internal electrodes 132, and in more detail, the ampoule 10 The implant fixture 1 stored in) may be positioned at a position that does not overlap the pair of internal electrodes 132.

Accordingly, since the UV light generated from the ultraviolet discharge container 131 is not blocked by the internal electrode 132 and can be directly radiated to the hollow portion of the ultraviolet discharge container 131, the UV light is It is possible to uniformly irradiate the implant fixture 1 disposed in a position that does not overlap with 132. For this reason, the ultraviolet discharge lamp apparatus 100 according to an embodiment of the present invention not only can uniformly perform the surface modification of the implant fixture, but also can rapidly shorten the surface modification treatment time.

As described above, the external electrode 133 may be formed in a hollow shape, and may be disposed to surround the outer tube 131b of the ultraviolet discharge container 131. Such external electrodes 133 may be provided to have a length relatively longer than the spacing between the pair of internal electrodes 132, and both end sides are at both ends of the ultraviolet discharge vessel 131. It may be disposed to surround a partial length of each inserted internal electrode 132.

Through this, the external electrode 133 may reflect UV light generated by the discharge gas toward the hollow portion of the ultraviolet discharge container 131. Here, the external electrode 133 may be mirror-treated to reflect UV light.

In this case, the external electrode 133 may perform a heat dissipation function of cooling heat generated when UV light is generated. To this end, the external electrode 133 may include at least one cooling fin 134 protruding outward along the circumferential direction, and when a plurality of the cooling fins 134 are provided, It can be formed to be spaced apart at intervals. The cooling fins 134 can increase heat dissipation efficiency by increasing the contact area with the outside air.

Here, the outside air in contact with the cooling fins 134 may be introduced through the air passage 125 formed in the housing 120.

The position adjustment unit 140 may include an ampoule holder 141 for supporting a lower portion of the ampoule 10 inserted through the ampoule inlet 124, and the ampoule holder 141 is driven by the control unit. It can be raised or lowered. Through this, the ampoule holder 141 moves the ampoule 10 to a position for modifying the surface of the implant fixture 1 or transfers the ampoule 10 with surface modification treatment to the ampoule inlet 124 side. Can be moved.

That is, in the ultraviolet discharge lamp apparatus 100 according to an embodiment of the present invention, when the surface modification treatment of the implant fixture 1 is required, the ampoule 10 injected into the ampoule inlet 124 is the position adjusting unit 140 By moving to a predetermined position through the surface modification treatment is performed, and when the surface modification treatment is completed, a process of returning to the original position may be automatically performed.

Through this, the user can easily collect the ampoule 10 for surface modification treatment or the ampoule 10 on which the surface modification treatment is completed through the ampoule inlet 124.

Here, the ampoule holder 141 may be raised and lowered along the height direction of the ultraviolet discharge lamp 130, and the ampoule 10 input through the ampoule inlet 124 prevents the movement of the ampoule holder 141. Through this, the implant fixture 1 may be changed to be positioned at a position not overlapping with the internal electrode 132.

To this end, the position adjustment unit 140 includes an ampoule holder 141 for supporting the lower portion of the ampoule 10 injected into the ampoule inlet 124, as shown in FIG. 8, and one end is in the housing 120. At least one guide bar 142 that is fixedly installed, and a slider 143 that is coupled to be slidably movable in an up and down direction along the guide bar 142 and to which an end of the ampoule holder 141 is fixedly coupled, and It may include a power transmission member 144 fixedly installed on the rotation shaft of the drive motor 145.

Here, the ampoule holder 141 may be formed in a bar shape having a predetermined length, and may be disposed to be located in the hollow portion of the ultraviolet discharge container 131. In addition, the at least one guide bar 142 may have an upper end fixed to the support plate 123 side of the housing 120, and the driving motor 145 is an extension part extending from the support plate 123 ( 123a) can be fixedly coupled to one side. Here, the support plate 123 and the extension part 123a may be one member, but two members may be mutually fastened.

In addition, a speed reducer 147 for decelerating the rotational speed of the power transmission member 144 may be provided at the front end side of the drive motor 145.

At this time, the power transmission member 144 may be installed so that one side engages with the slider 143 as shown in FIGS. 8 to 10. Through this, the power transmission member 144 may move the slider 143 in the up and down directions when the driving motor 145 is rotated.

As an example, the power transmission member 144 may include a bar-shaped body 144a having a predetermined length and a protruding member 144b hinged to one surface of the body 144a as shown in FIG. The slider 143 may have a seating groove 143a that is accommodated while the protruding member 144b is engaged with one surface of the slider 143.

Through this, as shown in FIG. 10, the power transmission member 144 can be rotated when the driving motor 145 rotates, and the rotational force of the power transmission member 144 is the seating groove of the slider 143 It can be converted into a driving force for linearly moving the protruding member 144b engaged with the (143a) along the mounting groove (143a). Accordingly, the slider 143 may be raised and lowered along the guide bar 142 by a driving force generated when the protruding member 144b linearly moves along the seating groove 143a.

Through this, as shown in FIGS. 5 and 6, when the slider 143 rises or falls along the guide bar 142, the ampoule holder 141 fixed to the slider 143 may rise or fall. The position of the ampoule 10 supported by the ampoule holder 141 may be changed inside the ultraviolet discharge container 131.

Meanwhile, the ampoule holder 141 may be rotatably provided inside the ultraviolet discharge container 131.

As an example, the ultraviolet discharge lamp device 100 according to an embodiment of the present invention includes a driven gear 161 and the driven gear 161 coupled to the lower side of the ampoule holder 141 as shown in FIG. 12. It may further include a driving gear 162 meshed with and a driving motor 163 for transmitting rotational force to the driving gear 162.

Through this, the ultraviolet discharge lamp device 100 according to an embodiment of the present invention is the ampoule even if the amount of light radiated through the circumferential surface of the inner tube is not the same according to the circumferential surface position of the inner tube As the ampoule 10 in which the implant fixture 1 is stored is rotated together through the rotation of the holder 141, the amount of accumulated light irradiated to the surface of the implant fixture 1 may be the same.

Meanwhile, in the ultraviolet discharge lamp device 100 according to an embodiment of the present invention, the ampoule holder 141 may be formed in a hollow shape, and the hollow portion of the ampoule holder 141 moves formed in the ampoule 10 It can communicate with each other with the passage (15).

Accordingly, when the implant fixture 1 is surface-modified, ozone generated by UV light irradiated from the ultraviolet discharge lamp 130 may move through the hollow portion of the ampoule holder 141.

For this reason, the concentration of ozone generated by UV light during the surface modification process is appropriately adjusted, so that the quality of the surface modification of the implant fixture 1 can be prevented from deteriorating.

On the other hand, the ultraviolet discharge lamp device 100 according to an embodiment of the present invention further includes a fan 170 for easily discharging ozone generated by UV light to the outside during the surface modification treatment of the implant fixture 1 Can include.

Such a fan 170 may be mounted inside the main body 110 as illustrated in FIG. 2, and may be connected to the ampoule holder 141 via a connection pipe 172. Through this, when the fan 170 is operated, outside air may be supplied to the ultraviolet discharge lamp 130 through the ampoule inlet 124, and ozone generated through UV light during the surface modification treatment is converted into the fan 170 ) Through the suction power of the ampoule holder 141, it can be moved to the fan 170.

Here, the fan 170 may be driven through the control unit, and a driving speed may be appropriately controlled through the control unit. For example, the control unit may control the driving speed of the fan 170 so that ozone of an appropriate concentration may be generated during the surface modification treatment of the implant fixture 1 inserted into the ultraviolet discharge lamp 130. In addition, the control unit may control the driving speed of the fan 170 at different speeds in the first situation where the purpose of inflow of outside air through the ampoule inlet 124 is the purpose and the second situation in which the purpose of discharging ozone generated during the surface modification treatment have.

Meanwhile, the ultraviolet discharge lamp device 100 according to an embodiment of the present invention may further include a filter 180.

Such a filter 180 may be provided at a front end of the fan 170 and may remove ozone discharged from the ampoule holder 141. Through this, ozone sucked from the ampoule holder 141 by the suction force of the fan 170 may be discharged to the outside through the fan 170 after ozone is removed while passing through the filter 180.

For example, the filter 180 may be a carbon filter, or a filter including an ozone adsorbent such as activated carbon.

Although an embodiment of the present invention has been described above, the spirit of the present invention is not limited to the embodiment presented in the present specification, and those skilled in the art who understand the spirit of the present invention can add components within the scope of the same idea. It will be possible to easily propose other embodiments by changing, deleting, adding, etc., but it will be said that this is also within the scope of the present invention.

Claims (14)

1. As a device for modifying the surface of the implant fixture by inserting the ampoule in which the implant fixture is stored and using UV light,

   A housing having an ampoule input port formed on one side of the ampoule into the interior;

   An ultraviolet discharge lamp mounted inside the housing so as to be located below the ampoule inlet and generating UV light for modifying the surface of the implant fixture; And

   Ultraviolet discharge lamp device comprising: a position adjusting unit including an ampoule holder at one end supporting a lower portion of the ampoule inserted through the ampoule inlet and moving up and down along the height direction inside the ultraviolet discharge lamp to change the position of the ampoule; .
2. The ultraviolet discharge lamp device of claim 1, wherein the housing includes at least one air passage formed along a circumferential direction so that outside air can move toward the ultraviolet discharge lamp.
3. The ultraviolet discharge lamp device of claim 1, wherein the ultraviolet discharge lamp device further comprises an opening and closing means for opening and closing the ampoule inlet.
4. The rotation table according to claim 3, wherein the opening/closing means comprises a driving motor providing rotational force, a cam member eccentrically connected to a rotation shaft of the driving motor, and one side of the driving motor maintains a state in contact with the cam member and rotates the cam member. A connecting rod that rotates around and one side includes a plate-shaped opening and closing member fixedly coupled to the connecting rod,

   The opening/closing member is changed to a closed state covering an upper portion of the ampoule inlet through the pivoting motion of the connecting rod, or to an open state in which the upper portion of the ampoule inlet is opened.
5. The method of claim 1, wherein the ultraviolet discharge lamp includes an ultraviolet discharge container filled with a discharge gas that generates UV light between the hollow inner tube and the outer tube, the upper and lower ends of which are connected to each other, and an open upper part of the ultraviolet discharge container. And a hollow internal electrode fastened to at least one side of the open lower portion, and an external electrode disposed to surround the outside of the ultraviolet discharge container.
6. The method of claim 5, wherein the ampoule holder is raised and lowered along the height direction of the ultraviolet discharge lamp in the inner tube, and the ampoule injected into the housing through the ampoule inlet is moved through the ampoule holder. Ultraviolet discharge lamp device that is changed so that the implant fixture is positioned at a position not overlapping with the internal electrode.
7. The method of claim 1, wherein the position adjusting unit comprises: an ampoule holder for supporting a lower portion of the ampoule inserted into the ampoule inlet; at least one guide bar whose one end is fixedly installed to the housing; and vertically along the guide bar. A slider coupled to be slidably movable and fixedly coupled to an end of the ampoule holder, and a power transmission member fixedly installed on a rotation shaft of a driving motor, and the power transmission member is installed so that one side of the power transmission member is engaged with the slider. Ultraviolet discharge lamp device for moving the slider in the up and down directions during rotation of.
8. The method of claim 7, wherein the power transmission member comprises a bar-shaped body having a predetermined length and a protruding member hinged to one surface of the body,

   The slider includes a seating groove in which the protruding member is engaged and accommodated on one surface,

   The slider is an ultraviolet discharge lamp device that is raised and lowered by a driving force generated through a protruding member linearly moving along the seating groove when the driving motor rotates.
9. The ultraviolet discharge lamp device of claim 1, wherein the ampoule holder is formed in a hollow shape so that ozone generated by ultraviolet rays can move when the surface of the implant fixture is modified.
10. The ultraviolet discharge lamp of claim 9, wherein the ultraviolet discharge lamp device further comprises a fan for inhaling the ozone and discharging it to the outside, wherein the fan is connected to an open lower part of the ampoule holder through a connection tube. Device.
11. The ultraviolet discharge lamp device according to claim 10, wherein the ultraviolet discharge lamp device further comprises a filter provided at a front end of the fan, and the filter removes ozone discharged from the ampoule holder.
12. The ultraviolet discharge lamp device of claim 1, wherein the ampoule holder is rotatably provided.
13. The ultraviolet discharge lamp of claim 12, wherein the ultraviolet discharge lamp device further comprises a driven gear coupled to a lower side of the ampoule holder, a driving gear meshed with the driven gear, and a driving motor transmitting rotational force to the driving gear. Device.
14. The ultraviolet discharge lamp device of claim 1, wherein the ultraviolet discharge lamp device further comprises a control unit for controlling driving.

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