CN214494054U - Implant packaging bottle - Google Patents

Abstract

The utility model discloses an implant packing bottle, include: a bottle body; the bottle cap is provided with a bottle cap body detachably connected with one end of the bottle body and an implant support frame extending into the bottle body; the power-on base is arranged at the other end of the bottle body; the implant support is detachably connected with the implant support frame, and the implant can be arranged on the implant support; the ultraviolet light sources are arranged in the bottle body and are in power-on connection with the power-on base, and the number of the ultraviolet light sources is multiple; when the implant support frame extends into the bottle body, the ultraviolet light sources are arranged around the implants on the implant support frame. The utility model provides an implant packaging bottle, the surface of the implant can be activated and cleaned without taking out the implant, thereby effectively reducing the infection risk; does not affect the secondary sterilization operation and avoids waste.

Description

Implant packaging bottle

Technical Field

The utility model relates to an implant packing container equipment technical field, in particular to implant packing bottle.

Background

The dental implant is implanted into the upper and lower jawbone of the edentulous part of human body by means of surgical operation, and after the operation wound is healed, a device for repairing the abutment and the crown is arranged on the upper part of the dental implant. For modern oral cavity, the implant is widely used for tooth loss and restoration due to its features of beauty, comfort and long life, and is called the third pair of human teeth.

The hydrophilic dental implant often has more excellent bioactivity, and a series of researches show that the hydrophilic dental implant has a promotion effect on the differentiation of osteocytes and is particularly effective on early osseointegration. However, the contact angle of the existing implant is generally higher (about 90 degrees), and the hydrophilicity of part of hydrophilic implants is obviously reduced after the part of hydrophilic implants are placed for a period of time; the non-hydrophilic reason of the implant is mainly the pollution of surface carbide, the hydrophilic surface of the implant is easy to form molecular bonds with carbon molecules due to the existence of carbon dioxide in the environment in the production and processing process, the hydrophilic surface of the implant is adhered to the surface of the implant, so that the hydrophilic implant cannot be combined with water molecules and becomes hydrophobic, and the process makes the storage of the hydrophilic implant quite difficult. Some manufacturers try to preserve the activated implant by techniques such as air isolation, but the cost is high, the effect is poor, and the hydrophilicity is difficult to maintain for a long time.

Ultraviolet ray irradiation is a process which can carry out activation treatment on the surface of an implant before a dental implant operation so as to obtain a hydrophilic surface again, but the existing ultraviolet activation irradiation device needs to take the implant out of a packaging bottle in advance so as to expose the implant in the air, and the implant is very easy to be polluted. In addition, the implant can not be sterilized for the second time after being taken out, and once the operation time needs to be changed due to the reasons of patients or doctors, the implant can not be used continuously, thereby causing waste.

Therefore, how to reduce the risk of infection and avoid waste is a problem to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an implant packing bottle to reduce the infection risk, avoid extravagant.

In order to achieve the above object, the utility model provides a following technical scheme:

an implant packaging bottle comprising:

a bottle body;

the bottle cap is provided with a bottle cap body detachably connected with one end of the bottle body and an implant support frame extending into the bottle body;

the power-on base is arranged at the other end of the bottle body;

the implant support is detachably connected with the implant support frame, and the implant can be arranged on the implant support;

the ultraviolet light sources are arranged in the bottle body and are in power-on connection with the power-on base, and the number of the ultraviolet light sources is multiple; when the implant support frame extends into the bottle body, the ultraviolet light sources are arranged around the implants on the implant support frame.

Optionally, in the implant packaging bottle, the ultraviolet light emitted by the ultraviolet light source is UV-A, UV-B or UV-C;

the ultraviolet light source is an excimer lamp.

Optionally, in the implant packaging bottle, when the implant support frame extends into the bottle body, the distance between the ultraviolet light source and the implant is 1mm-10 mm.

Optionally, in the implant packaging bottle, one end of the implant support frame, which is far away from the bottle cap body, is provided with a connecting part detachably connected with the implant support;

the implant support frame is also provided with avoidance holes and a concave cambered surface;

the concave arc surface set up in form on the planting body support frame to the planting body support frame is inside sunken dodges the space, planting body on the planting body support is used for setting up dodge in the space, it runs through to dodge the hole concave arc surface with the planting body support frame dorsad the surface of concave arc surface.

Optionally, in the implant packaging bottle, the number of the ultraviolet light sources is four, and the four ultraviolet light sources are respectively a first ultraviolet light source, a second ultraviolet light source, a third ultraviolet light source and a fourth ultraviolet light source which are sequentially arranged along the circumferential direction of the implant;

the second ultraviolet source with the concave arc orientation of concave cambered surface corresponds the setting, first ultraviolet source reaches the third ultraviolet source symmetry set up in the both sides of concave cambered surface, the fourth ultraviolet source with it corresponds the setting to dodge the hole.

Optionally, in the implant packaging bottle, a clamping plate is arranged at one end, away from the bottle cap body, of the implant supporting frame, a clamping groove is formed in the clamping plate, and the implant support can be clamped in the clamping groove.

Optionally, in the above implant packaging bottle, the implant support includes:

the first positioning part is used for being in positioning contact with one side face of the clamping plate;

the second positioning part is used for positioning and contacting with the other side surface of the clamping plate;

the clamping part is connected between the first positioning part and the second positioning part;

the buckle is used for being detachably connected with the implant and is arranged at one end of the first positioning part, which is far away from the second positioning part;

the circumferential positioning section is used for positioning and matching with the inner wall of the implant;

the axial positioning section is used for being matched with the end face of the implant in a positioning mode, one end of the axial positioning section is connected with one end, away from the second positioning part, of the first positioning part, the other end of the axial positioning section is connected with one end of the circumferential positioning section, and the other end of the circumferential positioning section is connected with the buckle;

the positioning clamping ring is arranged on the clamping part; and a positioning clamping groove matched with the positioning clamping ring is arranged at the bottom of the clamping groove.

Optionally, in the implant packaging bottle, the power-on base includes a plurality of connecting parts;

the plurality of ultraviolet light sources are connected with the plurality of connecting parts in a one-to-one corresponding manner;

the ultraviolet light source comprises a lamp tube body and a conductive connecting part;

the connecting part is a connecting cylinder which is coaxial with the lamp tube body, and a conductive connecting piece which is conductively connected with the conductive connecting part is arranged in the connecting part.

Optionally, in the implant packaging bottle, the connection opening of the connection part is a clamping interface;

the periphery of the conductive connecting part is provided with a limit fitting piece which can pass through the clamping interface and is axially positioned with the clamping interface.

Optionally, in the implant packaging bottle, the power supply base is provided with a power supply obtaining part;

the power supply acquisition part is a power supply circuit system and a battery detachably connected with the power supply circuit system; or, the power supply acquisition part is a plug-in interface.

Optionally, in the implant packaging bottle, the bottle cap body comprises a square structure at the top and a bottle cap body;

the bottle cap body is detachably connected with one end of the bottle body.

Optionally, in the implant packaging bottle, an accommodating cavity is formed in the top square structure, and a switch door for opening and closing the accommodating cavity is formed on the top surface or the side surface of the top square structure.

Optionally, in the implant packaging bottle, one end of the bottle body is provided with an external thread section, and the inside of the bottle cap is provided with an internal thread structure matched with the external thread section;

and/or an internal thread section is arranged inside the other end of the bottle body, and an external thread structure matched with the internal thread section is arranged outside the electrifying base.

According to the technical scheme, the utility model provides an implant packing bottle, the implant is installed on the implant support to the implant support can be dismantled with the implant support frame and be connected. When the bottle cap body of the bottle cap is oppositely connected with the bottle body, the implant support frame is connected with the implant support and the implant to extend into the bottle body; the ultraviolet light source is connected with the power-on base in a power-on mode, and when the implant support frame extends into the bottle body, the plurality of ultraviolet light sources are arranged around the implant on the implant support frame. Therefore, in the clinical use process, when the surface of the implant needs to be activated, the ultraviolet light source is powered through the electrifying base, so that ultraviolet light emitted by the ultraviolet light source directly irradiates on the implant, the surface of the implant is subjected to photocatalysis, the chemical bond of the implant surface C and H is broken, and the surface cleanliness of the implant is improved. After a period of time, the bottle cap is opened, the implant is taken out from the inner bottle by using a tool (such as a special adapter) and is rapidly implanted into the alveolar bone of a patient, and the highest activity of the surface of the implant can be ensured. The utility model provides an implant packing bottle through directly setting up ultraviolet source in the body, has realized built-in ultraviolet activation technique for ultraviolet light that ultraviolet source sent directly shines on the implant, obtains the best activation effect. The surface of the implant can be activated and cleaned without taking out the implant, so that the infection risk is effectively reduced; does not affect the secondary sterilization operation and avoids waste.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of a three-dimensional structure of an implant packaging bottle provided by an embodiment of the present invention;

fig. 2 is a schematic view of a top view structure of an implant packaging bottle provided by an embodiment of the present invention;

fig. 3 is a schematic view of a bottom view structure of an implant packaging bottle according to an embodiment of the present invention;

fig. 4 is a schematic cross-sectional structural view of an implant packaging bottle provided by an embodiment of the present invention;

fig. 5 is a schematic view of an installation structure of an implant support and an implant support frame according to an embodiment of the present invention;

fig. 6 is a partial schematic view of an installation structure of an implant support and an implant support frame according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a bottle cap according to an embodiment of the present invention;

fig. 8 is a schematic cross-sectional view of a bottle cap according to an embodiment of the present invention;

fig. 9 is a schematic view of an implant holder and an installation structure of an implant according to an embodiment of the present invention;

fig. 10 is a schematic structural view of an implant support according to an embodiment of the present invention;

fig. 11 is a schematic structural view of an implant according to an embodiment of the present invention;

fig. 12 is a schematic view of an implant holder and an implant in cross-section for installation according to an embodiment of the present invention;

fig. 13 is a first structural schematic diagram of an energization base according to an embodiment of the present invention;

fig. 14 is a second schematic structural diagram of the power-on base according to the embodiment of the present invention;

fig. 15 is a schematic cross-sectional view of an energized base according to an embodiment of the present invention;

fig. 16 is a schematic structural diagram of an ultraviolet light source according to an embodiment of the present invention;

fig. 17 is a schematic view of an assembly structure of the power-on base and the ultraviolet light source according to an embodiment of the present invention;

fig. 18 is a schematic structural view of a bottle body according to an embodiment of the present invention;

fig. 19 is a schematic view of an assembly structure of a bottle body and a power-on base according to an embodiment of the present invention.

Detailed Description

The utility model discloses an implant packing bottle to reduce the infection risk, avoid extravagant.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-19, an embodiment of the present invention provides an implant packaging bottle, which includes a bottle body 2, a bottle cap 1, an energizing base 3, an implant holder 4 and an ultraviolet light source 5. The bottle cap 1 is provided with a bottle cap body detachably connected with one end of the bottle body 2 and an implant support frame 13 used for extending into the bottle body 2; the electrifying base 3 is arranged at the other end of the bottle body 2; the implant support 4 is detachably connected with the implant support frame 13, and the implant 100 can be arranged on the implant support 4; the ultraviolet light sources 5 are arranged in the bottle body 2, the ultraviolet light sources 5 are in power-on connection with the power-on base 3, and the number of the ultraviolet light sources 5 is multiple; when the implant support frame 13 extends into the bottle body 2, the plurality of ultraviolet light sources 5 are arranged around the implant 100 on the implant support 4.

The embodiment of the utility model provides an implant packing bottle, implant 100 installs on implant support 4 to implant support 4 can be dismantled with implant support frame 13 and be connected. When the bottle cap body of the bottle cap 1 is oppositely connected with the bottle body 2, the implant support frame 13 with the implant support 4 and the implant 100 extends into the bottle body 2; the ultraviolet light sources 5 are connected with the electrifying base 3 in an electrifying way, and when the implant support frame 13 extends into the bottle body 2, the plurality of ultraviolet light sources 5 are arranged around the implants 100 on the implant support 4. Therefore, in the clinical use process, when the surface of the implant 100 needs to be activated, the ultraviolet light source 5 is powered by the electrifying base 3, so that ultraviolet light emitted by the ultraviolet light source 5 directly irradiates on the implant 100, the surface of the implant 100 is subjected to photocatalysis, the chemical bonds of the H on the surface C of the implant 100 are broken, and the surface cleanliness of the implant 100 is improved. After a period of time, the cap 1 is opened, and the implant 100 is taken out of the inner bottle using a tool (e.g., a special adapter) and rapidly implanted into the alveolar bone of the patient, thereby ensuring the highest activity of the surface of the implant 100. The embodiment of the utility model provides an implant packing bottle through directly setting up ultraviolet source 5 in body 2, has realized built-in ultraviolet activation technique for the ultraviolet light that ultraviolet source 5 sent directly shines on implant 100, obtains the best activation effect. The surface of the implant 100 can be activated and cleaned without taking out the implant 100, thereby effectively reducing the risk of infection; does not affect the secondary sterilization operation and avoids waste.

At present, ordinary ultraviolet lamp activation time overlength (generally more than 4 h), the embodiment of the utility model provides an implant packing bottle, because a plurality of ultraviolet source 5 set up around implant 100 on implant support 4, the ultraviolet light direct irradiation that ultraviolet source 5 sent can reduce ultraviolet activation time to within 2h on implant 100, has effectively improved activation efficiency. Certainly, the ultraviolet irradiation time of the implant packaging bottle provided by the embodiment of the present invention may be any one time from 0.1h to 48h, and is not limited specifically here. Utilize the implant 100 of the implant packaging bottle provided by the embodiment of the utility model can better interact with osteogenic protein and osteoblast in body fluid, and has higher hydrophilicity and bioactivity.

In this embodiment, the implant support 13 and the cap body are preferably an integral structure.

For optimum activation, the ultraviolet light from the ultraviolet light source 5 is UV-A, UV-B, UV-C, etc. Wherein, the wavelength of UV-A is 400-315 nm, the wavelength of UV-B is 315-280 nm, and the wavelength of UV-C is 280-190nm, because the shorter the wavelength, the higher the energy, the better the activation effect, so the UV-C light source with the wavelength of 280-190nm is preferred.

For optimal activation, the ultraviolet light source 5 may be an excimer lamp; the characteristic that the excimer lamp emits single 172nm vacuum ultraviolet rays (VUV) with concentrated energy is utilized to emit vacuum ultraviolet photon energy as high as 7.2eV, which is enough to open most molecular bonds, thereby realizing the rapid removal of organic carbides on the surface of the implant 100. Of course, the uv light source 5 can also be provided as other types of lamps, which are not described here in any more detail and are all within the scope of protection.

Furthermore, for the best activation effect, the distance from the ultraviolet light source 5 to the implant 100 is 1mm-10mm when the implant support 13 is inserted into the bottle body 2. The intensity of the uv light is inversely proportional to the square of the distance, and too far will cause the activation effect to be greatly reduced and too close to easily contact the surface of the implant 100.

In a first embodiment:

pretreatment: firstly, machining a prepared implant 100, wherein the diameter of the implant 100 is 4mm, the length of the implant 100 is 10mm, carrying out surface treatment on a sample by utilizing a sand blasting and acid etching process, and cleaning and drying the sample in a clean environment. The implant 100 is located in the implant packaging bottle provided by the embodiment of the utility model.

And (3) activation: treat 2h before the experiment, carry out activation treatment to implant 100 in the implant packing bottle that the embodiment of the utility model provides, test immediately after the activation.

Test data: contact angle (using contact angle meter).

And (3) testing results: the contact angle is 0 deg..

In a second embodiment:

pretreatment: firstly, machining a prepared implant 100, wherein the diameter of the implant 100 is 4mm, the length of the implant 100 is 10mm, carrying out surface treatment on a sample by utilizing a sand blasting and acid etching process, and cleaning and drying the sample in a clean environment.

And (3) activation: no activation was performed.

Test data: contact angle (using contact angle meter).

And (3) testing results: the contact angle was 89.8 °.

As can be seen from the above embodiments, the contact angle of the implant packaging bottle provided in the embodiment of the present invention for activating the implant 100 is reduced.

In this embodiment, one end of the implant support frame 13 away from the bottle cap body is provided with a connecting part detachably connected with the implant support 4; the implant support frame 13 has an avoidance space for avoiding the implant 100 on the implant support 4. Through the arrangement, the implant 100 is located in the avoiding space of the implant support frame 13, the situation that the bottle cap 1 is in contact with the inner wall of the bottle body 2 or parts in the bottle body 2 relative to the implant 100 in the installation process of the bottle body 2 is effectively avoided, the implant 100 is protected, and the infection risk is further reduced.

As shown in fig. 7 and 8, the implant support frame 13 further has an avoiding hole 133 and a concave arc surface 134; the avoidance space is a recessed structure formed by the concave arc surface 134 arranged on the implant support frame 13 and recessed towards the inside of the implant support frame 13, and the avoidance hole 133 penetrates through the concave arc surface 134 and the outer surface of the implant support frame 13, which is back to the concave arc surface 134. With the above arrangement, blocking of ultraviolet rays emitted from the ultraviolet light source 5 is reduced as much as possible on the basis that the implant support 13 protects the implant 100.

In order to improve the activation effect, the number of the ultraviolet light sources 5 is four, and the four ultraviolet light sources are respectively a first ultraviolet light source, a second ultraviolet light source, a third ultraviolet light source and a fourth ultraviolet light source which are sequentially arranged along the circumferential direction of the implant 100; the second ultraviolet light source is arranged corresponding to the concave arc direction of the concave arc surface 134, the first ultraviolet light source and the third ultraviolet light source are symmetrically arranged on two sides of the concave arc surface 134, and the fourth ultraviolet light source is arranged corresponding to the avoiding hole 133. Other numbers of uv-light sources 5, such as three or five, etc., may also be provided.

As shown in fig. 6, one end of the implant support frame 13, which is far away from the bottle cap body, is provided with a clamping plate 131, a clamping groove 132 is formed in the clamping plate 131, and the implant support 4 can be clamped in the clamping groove 132. In this embodiment, the opening of the locking slot 132 is located at an end of the locking plate 131 opposite to the avoiding hole 133, so as to facilitate the operation of taking and placing the implant holder. Through the clamping groove arrangement, the operation of detachable connection is realized. Other configurations, such as a male-female mating configuration, may also be provided.

Further, the implant support 4 includes: a first positioning member 43 for positioning contact with one side surface of the chucking plate 131; a second positioning member 41 for positioning contact with the other side surface of the chucking plate 131; a clamping part connected between the first positioning part 43 and the second positioning part 41; a buckle 46 for detachable connection with the implant 100, wherein the buckle 46 is disposed at an end of the first positioning member 43 away from the second positioning member 41. Through the arrangement, the implant 100 can be conveniently taken and placed relative to the implant support 4, and the implant support 4 can be conveniently detached relative to the implant support frame 13.

In order to improve the positioning effect of the implant 100 mounted on the implant support 4, the implant support 4 further includes: a circumferential positioning section 45 for positioning and matching with the inner wall 101 of the implant 100; an axial positioning section 44 for positioning and matching with the end surface 102 of the implant 100, one end of the axial positioning section 44 is connected with one end of the first positioning part 43 far away from the second positioning part 41, the other end of the axial positioning section 44 is connected with one end of the circumferential positioning section 45, and the other end of the circumferential positioning section 45 is connected with the buckle 46.

In order to improve the mounting and stabilizing effect of the implant support 4 on the implant support frame 13, the implant support 4 further comprises a positioning snap ring 42, and the positioning snap ring 42 is arranged on the clamping part; the bottom of the slot 132 is provided with a positioning slot matched with the positioning snap ring 42. It will be appreciated that the snap fit portion is an interference fit with the snap slot 132.

As shown in fig. 13, the energization base 3 includes a plurality of connection portions 32; the plurality of ultraviolet light sources 5 are connected to the plurality of connection portions 32 in a one-to-one correspondence. Through the arrangement, the ultraviolet light sources 5 are connected with the connecting parts 32 to form an independent individual, and the combined structure formed by connecting the ultraviolet light sources 5 with the connecting parts 32 is arranged around the implant 100, so that enough space is provided for the implant 100, and the internal layout of the implant packaging bottle is optimized.

Further, the ultraviolet light source 5 includes a lamp body 51 and a conductive connecting portion 52; the connecting portion 32 is a connecting cylinder disposed coaxially with the lamp body 51, and the connecting portion 32 has therein a conductive connecting member 34 conductively connected to the conductive connecting portion 52. That is, the combined structure formed by connecting the ultraviolet light source 5 and the connecting portion 32 is a columnar structure.

In order to facilitate installation and improve the axial positioning effect, the connecting opening of the connecting part 32 is a clamping interface; the outer periphery of the conductive connecting portion 52 is provided with a limit fitting 53 that can pass through the card interface and be positioned axially therewith. In this embodiment, the stop fitting 53 is an O-ring. The internal diameter of joint interface is less than the internal diameter of the main part of connecting portion 32 for the main part of connecting portion 32 forms the location terminal surface with the inside of joint interface, and the spacing fitting piece 53 of electrically conductive connecting portion 52 periphery passes through the joint interface and gets into the main part of connecting portion 32, and spacing fitting piece 53 is towards the top surface and the location terminal surface location contact of fluorescent tube body 51, avoids electrically conductive connecting portion 52 and connecting portion 32 to break away from relatively, so that realize the axial positioning effect. Further, the conductive connecting member 34 is an elastic metal sheet, and provides an upward supporting force for the ultraviolet light source 5.

In one embodiment, the energization base 3 has a power source acquiring part 33; the power acquisition unit 33 is a power circuit system and a battery detachably connected to the power circuit system. Among them, the battery may preferably be a button battery.

In another embodiment, the energization base 3 has a power source obtaining portion 33; the power acquisition unit 33 is a plug interface. The plug interface may be a USB interface or other types of interfaces. The power supply can be more conveniently obtained by connecting the plug interface with an external power socket.

In order to facilitate a doctor or a nurse to apply torque, the bottle cap 1 and the bottle body 2 are unscrewed, and the bottle cap body comprises a top square structure 11 and a bottle cap body 12; the bottle cap body 12 is detachably connected with one end of the bottle body 2. The top square structure 11 and the bottle cap body 12 may be an integral structure or a detachable structure.

Furthermore, an accommodating cavity is arranged in the top square structure 11, and a switch door for opening and closing the accommodating cavity is arranged on the top surface or the side surface of the top square structure 11. By providing a receiving cavity in the top square structure 11, to facilitate placement of components (e.g., a closing screw) used in conjunction with the implant 100, the opening and closing door may be a rotating cover or the like.

In order to protect the energizing base 3, the body 2 includes an outer shroud 23 surrounding the energizing base 3. That is, the energization base 3 is fitted into the outer retainer 23.

In this embodiment, the bottle body 2 has an external thread section 21 at one end, and the bottle cap 1 has an internal thread structure 121 inside to match with the external thread section 21.

Also can make circular telegram base 3 can dismantle with the other end of body 2 and be connected, conveniently make circular telegram base 3 reuse when body 2 can't use to in the utilization ratio of improvement circular telegram base 3.

Further, the other end of the bottle body 2 is internally provided with an internal thread section 22, and the exterior of the electrifying base 3 is provided with an external thread structure 31 matched with the internal thread section 22.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (13)

1. An implant packaging bottle, comprising:

a body (2);

the bottle cap (1) is provided with a bottle cap body detachably connected with one end of the bottle body (2) and an implant support frame (13) extending into the bottle body (2);

the power-on base (3), the power-on base (3) is arranged at the other end of the bottle body (2);

the implant support (4) is detachably connected with the implant support frame (13), and an implant (100) can be arranged on the implant support (4);

the ultraviolet light sources (5) are arranged in the bottle body (2), the ultraviolet light sources (5) are in power-on connection with the power-on base (3), and the number of the ultraviolet light sources (5) is multiple; when the implant support frame (13) extends into the bottle body (2), the ultraviolet light sources (5) are arranged around the implants (100) on the implant support (4).

2. The implant packaging bottle according to claim 1, wherein the ultraviolet light source (5) emits ultraviolet light of UV-A, UV-B or UV-C;

and/or the ultraviolet light source (5) is an excimer lamp.

3. The implant packaging bottle of claim 1, characterized in that the distance from the ultraviolet light source (5) to the implant (100) when the implant support (13) is inserted into the bottle body (2) is 1mm-10 mm.

4. The implant packaging bottle according to claim 1, wherein the end of the implant support (13) away from the bottle cap body has a connection part detachably connected with the implant holder (4);

the implant support frame (13) is also provided with an avoidance hole (133) and a concave cambered surface (134);

concave cambered surface (134) set up in form on implant support frame (13) to implant support frame (13) inside sunken dodge the space, implant (100) on implant support (4) are used for setting up dodge in the space, it runs through to dodge hole (133 concave cambered surface (134) with implant support frame (13) dorsad the surface of concave cambered surface (134).

5. The implant packaging bottle according to claim 4, wherein the number of the ultraviolet light sources (5) is four, and the four ultraviolet light sources are respectively a first ultraviolet light source, a second ultraviolet light source, a third ultraviolet light source and a fourth ultraviolet light source which are sequentially arranged along the circumferential direction of the implant (100);

the second ultraviolet source with the concave arc orientation of concave cambered surface (134) corresponds the setting, first ultraviolet source reaches the third ultraviolet source symmetry set up in the both sides of concave cambered surface (134), the fourth ultraviolet source with dodge hole (133) and correspond the setting.

6. The implant packaging bottle as claimed in claim 1, wherein a clamping plate (131) is arranged at one end of the implant support frame (13) far away from the bottle cap body, a clamping groove (132) is arranged on the clamping plate (131), and the implant support (4) can be clamped in the clamping groove (132).

7. The implant packaging bottle according to claim 6, characterized in that the implant carrier (4) comprises:

a first positioning part (43) for positioning contact with one side surface of the card board (131);

a second positioning part (41) which is used for positioning and contacting with the other side surface of the clamping plate (131);

a clamping part connected between the first positioning component (43) and the second positioning component (41);

a buckle (46) used for being detachably connected with the implant (100), wherein the buckle (46) is arranged at one end of the first positioning part (43) far away from the second positioning part (41);

a circumferential positioning section (45) for positioning and matching with the inner wall (101) of the implant (100);

an axial positioning section (44) used for being matched with the end face (102) of the implant (100) in a positioning mode, one end of the axial positioning section (44) is connected with one end, away from the second positioning part (41), of the first positioning part (43), the other end of the axial positioning section (44) is connected with one end of the circumferential positioning section (45), and the other end of the circumferential positioning section (45) is connected with the buckle (46);

the positioning clamping ring (42), the positioning clamping ring (42) is arranged on the clamping part; the bottom of the clamping groove (132) is provided with a positioning clamping groove matched with the positioning clamping ring (42).

8. The implant packaging bottle according to claim 1, characterized in that the energizing base (3) comprises a plurality of connections (32);

the ultraviolet light sources (5) are correspondingly connected with the connecting parts (32) one by one;

the ultraviolet light source (5) comprises a lamp tube body (51) and a conductive connecting part (52);

the connecting part (32) is a connecting cylinder which is coaxial with the lamp tube body (51), and a conductive connecting piece (34) which is conductively connected with the conductive connecting part (52) is arranged in the connecting part (32).

9. The implant packaging bottle according to claim 8, wherein the connection opening of the connection portion (32) is a snap interface;

the periphery of the conductive connecting part (52) is provided with a limit matching piece (53) which can pass through the clamping interface and is axially positioned with the clamping interface.

10. The implant packaging bottle according to claim 1, characterized in that said energizing base (3) has a power source obtaining part (33);

the power supply acquisition part (33) is a power supply circuit system and a battery detachably connected with the power supply circuit system; or the power supply acquisition part (33) is a plug-in interface.

11. The implant packaging bottle of claim 1, characterized in that said cap body comprises a top square structure (11) and a cap body (12);

the bottle cap body (12) is detachably connected with one end of the bottle body (2).

12. The implant packaging bottle according to claim 11, characterized in that the top square structure (11) has a receiving cavity therein, and the top surface or side surface of the top square structure (11) has a switch door for opening and closing the receiving cavity.

13. The implant packaging bottle according to any one of claims 1 to 12, wherein the body (2) has an external thread section (21) at one end, and the cap (1) has an internal thread structure (121) inside which the external thread section (21) is fitted; and/or an internal thread section (22) is arranged inside the other end of the bottle body (2), and an external thread structure (31) matched with the internal thread section (22) is arranged outside the electrifying base (3).

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