CN117838344A - Mobile phone handle device for planting - Google Patents

Abstract

The invention provides a handle device for a planting mobile phone, which comprises a handle outer sleeve, a sleeve joint fixing piece and an elastic connection clamping ring; a driving motor is arranged in the handle outer sleeve; the sleeving and fixing piece comprises a circular connecting base and a circular inserting sleeve, and sealing rings are respectively arranged on the circular connecting base and the circular inserting sleeve; the elastic connection clamping ring is sleeved on the circular plug sleeve, and is fixed on the clamping inner groove of the planting mobile phone through self elastic nesting when the planting mobile phone is fixedly plugged on the device. When the planting cell-phone assembly is on this device, sealing performance can be guaranteed to the sealing washer on circular connection base and the circular grafting sleeve, and utilizes the elastic connection snap ring to cooperate with the joint indent on the planting cell-phone then can realize the effect of easy dismouting, can solve two pain point problems such as sealing and dismouting on the planting cell-phone simultaneously.

Description

Mobile phone handle device for planting

Technical Field

The invention relates to the technical field of medical equipment, relates to a planting mobile phone matching device, and in particular relates to a planting mobile phone handle device which is good in sealing performance and easy to disassemble and assemble.

Background

The implant replaces the tooth root by the implant after the drill holes are drilled in the alveolar bone, and then the implant is provided with the crown, so that the missing tooth can be restored, and the ideal restoration effect can be achieved. In the process of implementing the dental implant operation, the use of the dental implant navigation system can greatly improve the implant precision.

Generally, a dental implant navigation system includes an optical positioner, an oral positioning reference plate, an implant handpiece, and a handpiece positioning reference plate. After the mouth positioning reference plate is fixedly clamped at the mouth of a patient, infrared light emitted by the mouth positioning reference plate and infrared light emitted by the mobile phone positioning reference plate are respectively acquired by the optical positioner, and the optical positioner is used for integrating the mouth positioning reference plate coordinate system and the mobile phone positioning reference plate coordinate system into a patient oral cavity CT image through calibration and registration, so that accurate planting can be realized by depending on the patient oral cavity CT image. In the above process, the function of the implant mobile phone is to drill holes in the alveolar bone according to a designed repair scheme and cool the alveolar bone through cooling liquid.

In the use, the planting mobile phone needs to be inserted into the mouth of a patient, and it can be understood that the planting mobile phone at least needs to have two characteristics of good sealing performance, easy disassembly and assembly and the like, so as to meet the basic use and disinfection requirements, and the two requirements are contradictory to a certain extent. There is a need in the art to provide a solution for improving a handle device of a mobile phone for planting which has good sealing performance and is easy to be assembled and disassembled.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the handle device for the planting mobile phone, which aims at the defects in the prior art, and achieves the effect of easy disassembly and assembly by the elastic connection clamping ring while ensuring the sealing performance of the device through the sealing ring.

The technical scheme adopted for solving the technical problems is as follows:

a planting handset handle device comprising:

the handle outer sleeve is internally provided with a driving motor;

the device comprises a driving motor, a handle outer sleeve, a sleeve connecting piece and a sleeve connecting piece, wherein the sleeve connecting piece comprises a circular connecting base and a circular inserting sleeve which are integrally formed and concentrically arranged with each other;

and the elastic connection clamping ring is sleeved on the circular plug sleeve, and is nested and fixed on the clamping inner groove of the planting mobile phone through self elasticity when the planting mobile phone is fixedly plugged on the device.

Compared with the prior art, the beneficial effects of the technical scheme are as follows: when the planting cell-phone assembly is on this device, sealing performance can be guaranteed to the sealing washer on circular connection base and the circular grafting sleeve, and utilizes the elastic connection snap ring to cooperate with the joint indent on the planting cell-phone then can realize the effect of easy dismouting, can solve two pain point problems such as sealing and dismouting on the planting cell-phone simultaneously.

Further, the elastic connection clamping ring is of a metal annular structure, and a notch is formed in the metal annular structure;

the elastic connection clamping ring comprises a first inclined ring part, a first clamping ring part, a second inclined ring part and a second clamping ring part, wherein the first inclined ring part, the first clamping ring part, the second inclined ring part and the second clamping ring part are sequentially connected end to form the elastic connection clamping ring, the first inclined ring part is positioned at one end far away from the driving motor, and the second clamping ring part is positioned at one end close to the driving motor;

the inclination angle of the outer inclined surface on the first inclined ring part is smaller than that of the outer inclined surface on the second inclined ring part, and the radius of the first clamping ring part is larger than that of the second clamping ring part; when the planting mobile phone is fixedly inserted on the device, the first inclined ring part, the first clamping ring part and the second inclined ring part are nested and fixed on the clamping inner groove on the planting mobile phone.

The beneficial effects of adopting above-mentioned scheme are: the elastic connection clamping ring has stronger self elasticity through the notch, and the first inclined ring part and the second inclined ring part are convenient to load in or detach from the clamping inner groove; in addition, the inclination of first inclined ring portion and second inclined ring portion for operating personnel only need exert different forces can utilize the joint inner groove to promote the elastic connection snap ring to take place deformation, and then realize loading and dismantlement.

Further, a first claw connecting piece is fixedly arranged on the power output shaft of the driving motor, the first claw connecting piece is positioned in the circular plug sleeve, a second claw connecting piece is arranged on the planting mobile phone, and the driving motor is connected with the planting mobile phone through mutual engagement of the first claw connecting piece and the second claw connecting piece.

The beneficial effects of adopting above-mentioned scheme are: the first claw connecting piece and the second claw connecting piece are meshed with each other to realize the interconnection between the driving motor and the planting mobile phone, so that the power of the driving motor is transmitted to the planting mobile phone.

Further, the first jaw connecting piece comprises a first jaw sleeve, a first jaw connecting arm and a second jaw connecting arm, the first jaw connecting arm and the second jaw connecting arm are integrally arranged on the first jaw sleeve, and guide chamfers are arranged on the first jaw connecting arm and the second jaw connecting arm;

the second jaw connecting piece comprises a second jaw sleeve, a first jaw connecting groove, a second jaw connecting groove, a first guide triangular part and a second guide triangular part, wherein the first jaw connecting groove, the second jaw connecting groove, the first guide triangular part and the second guide triangular part are integrally formed and arranged on the second jaw sleeve, and the first guide triangular part and the second guide triangular part are oppositely arranged between the first jaw connecting groove and the second jaw connecting groove at intervals;

when the driving motor is connected with the planting mobile phone, the first claw connecting arm and the second claw connecting arm are respectively inserted into the first claw connecting groove and the second claw connecting groove.

The beneficial effects of adopting above-mentioned scheme are: on the one hand, the first claw connecting arm and the second claw connecting arm are respectively clamped with the first claw connecting groove and the second claw connecting groove, so that the driving motor and the planting mobile phone form a whole; on the other hand, be provided with the direction chamfer on first jack catch linking arm and second jack catch linking arm, at driving motor and the in-process of planting cell-phone grafting each other, utilize first direction triangle portion, second direction triangle portion and direction chamfer, whatever the relative angle between first jack catch connecting piece and the second jack catch connecting piece, the homoenergetic is light to be accomplished the butt joint.

Further, a signal connecting wire is arranged on the driving motor and is led out from a tail spiral sleeve and a limiting conical piece which are arranged on the outer sleeve of the handle;

the handle outer sleeve is provided with an internal thread connecting part, the tail spiral sleeve and the limit conical piece are provided with an external thread connecting part, the tail spiral sleeve and the limit conical piece are respectively and fixedly arranged on the handle outer sleeve through threaded fit, and the limit conical piece is positioned between the tail spiral sleeve and the handle outer sleeve;

the signal connection line is fixedly provided with a limiting clamping piece, the limiting clamping piece is located between the driving motor and the limiting conical piece, and the signal connection line is in a bending portion between the driving motor and the limiting conical piece through the limiting clamping piece.

The beneficial effects of adopting above-mentioned scheme are: after the signal connecting wire forms a bending part between the driving motor and the limiting conical part, the signal connecting wire is abutted to the limiting conical part through the limiting clamping part, so that the stress point of the signal connecting wire moves backwards, and the signal connecting wire is prevented from falling off from the driving motor after being pulled.

Further, a filling conical part is arranged between the tail spiral sleeve and the limiting conical part, and the filling conical part is a soft structural part;

the filling conical piece comprises a first round platform part, a second round platform part and a wire rod sleeve, wherein the first round platform part, the second round platform part and the wire rod sleeve are coaxially arranged, and first clamping steps are formed between the first round platform part and the second round platform part and between the second round platform part and the wire rod sleeve;

the inner side of the tail spiral sleeve is provided with a second clamping step, and the filling conical piece and the tail spiral sleeve are tightly combined through mutual occlusion of the first clamping step and the second clamping step.

The beneficial effects of adopting above-mentioned scheme are: the soft structural part is used for forming the filling conical part, and the mutual engagement between the filling conical part and the step on the tail spiral sleeve is realized, so that the tightness and the structural stability of the device can be ensured.

Further, a tail sealing ring is further arranged between the handle outer sleeve and the tail spiral sleeve, and when the tail spiral sleeve is screwed and fixed on the handle outer sleeve, the tail sealing ring is filled in a gap between the handle outer sleeve and the tail spiral sleeve.

The beneficial effects of adopting above-mentioned scheme are: a tail sealing ring is further arranged between the handle outer sleeve and the tail spiral sleeve, and when the tail spiral sleeve is screwed and fixed on the handle outer sleeve, the tightness of the device can be further guaranteed by the aid of the tail sealing ring.

Further, 4 stress groove parts are arranged on the outer side of the tail spiral sleeve at intervals.

The beneficial effects of adopting above-mentioned scheme are: the operation personnel are convenient to drive the screw sleeve to rotate through the stress groove part, so that the screw sleeve is convenient to install and detach.

Further, the circular connecting base is provided with a limiting concave part and a light ray emission port, and the planting mobile phone is provided with a limiting convex part and a light ray emission port;

be provided with an pilot lamp in the circular connection base, works as when planting the cell-phone is fixed to be set up on this device, spacing bellying with spacing depressed part is nested each other, light exit with light entrance dock mutually, the light that the pilot lamp sent is passed through in proper order light exit with light entrance dock and get into the planting cell-phone.

The beneficial effects of adopting above-mentioned scheme are: utilize spacing depressed part and spacing bellying pegging graft each other for the relative position between planting cell-phone and this device is fixed, thereby guarantees to like accurate butt joint between light exit and the light entrance, guarantees that the light that the pilot lamp sent can transmit to planting cell-phone on, and then realizes the instruction function in the course of the work.

Further, a base groove is formed in the circular connecting base along the circumferential direction, a base sealing ring is arranged in the base groove, a sleeve groove is formed in the circular plug sleeve along the circumferential direction, and a sleeve sealing ring is arranged in the sleeve groove;

when the planting mobile phone is fixedly inserted on the device, the base sealing ring and the sleeve sealing ring are filled in the gap between the sleeve connecting fixing piece and the planting mobile phone.

The beneficial effects of adopting above-mentioned scheme are: through base sealing washer and sleeve sealing washer, can prevent that outside liquid from getting into this device to guarantee the leakproofness of this device.

Drawings

Fig. 1 is an overall schematic view of a handle device for a planting mobile phone according to the present invention.

Fig. 2 is an exploded view of the handle assembly of the planting mobile phone of the present invention.

Fig. 3 is a partial cross-sectional view of a planting handset in a planting handset handle device of the invention.

Fig. 4 is a schematic view of a snap ring for elastic connection in a handle device for a planting mobile phone according to the present invention.

Fig. 5 is a schematic view of a first jaw connector of the present invention in a hand grip device for a planting mobile phone.

Fig. 6 is a schematic view of a second jaw connector of the present invention in a hand grip device for a planting mobile phone.

Fig. 7 is a schematic view of a socket fastener in a handle device for a planting mobile phone according to the present invention.

Fig. 8 is a partial schematic view of a planting handset in a planting handset handle device of the invention.

Fig. 9 is a schematic view of a filling cone in a handpiece handle set of a planting handpiece of the present invention.

In the drawings, the list of components represented by the respective reference numerals is as follows:

the device comprises a handle outer sleeve 1, a sleeve joint fixing piece 2, an elastic connection clamping ring 3, a driving motor 4, a planting mobile phone, a first claw connecting piece 6, a second claw connecting piece 7, a tail sealing ring 8 and a signal connecting wire 9;

a tail screw sleeve 101, a limit cone 102 and a filling cone 103;

the light source comprises a circular connecting base 201, a circular plug sleeve 202, a limiting concave part 203, a light ray outlet 204, a base sealing ring 205 and a sleeve sealing ring 206;

notch 301, first inclined ring portion 302, first snap ring portion 303, second inclined ring portion 304, second snap ring portion 305;

the clamping inner groove 501, the limiting boss 502 and the light ray entrance opening 503;

a first jaw socket 601, a first jaw connecting arm 602, a second jaw connecting arm 603;

a second jaw socket 701, a first jaw connecting groove 702, a second jaw connecting groove 703, a first guide triangle 704, a second guide triangle 705;

the first round table portion 1031, the second round table portion 1032, and the wire sleeve 1033.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clear and clear, the present invention will be further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

In the description of the present invention, it should be understood that the directions or positional relationships indicated by the terms "center", "upper", "lower", "front", "rear", "left", "right", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or component to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of the two components. When an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. It will be understood by those of ordinary skill in the art that the terms described above are in the specific sense of the present invention.

The dental implant navigation system comprises an optical positioner, an oral positioning reference plate, an implant mobile phone, a mobile phone positioning reference plate and the like. After the mouth positioning reference plate is fixedly clamped at the mouth of a patient, infrared light emitted by the mouth positioning reference plate and infrared light emitted by the mobile phone positioning reference plate are respectively acquired by the optical positioner, and the optical positioner is used for integrating the mouth positioning reference plate coordinate system and the mobile phone positioning reference plate coordinate system into a patient oral cavity CT image through calibration and registration, so that accurate planting can be realized by depending on the patient oral cavity CT image. In the above process, the function of the implant mobile phone is to drill holes in the alveolar bone according to a designed repair scheme and cool the alveolar bone through cooling liquid.

The planting mobile phone is fixedly arranged on the handle device, a driving motor is arranged in the handle device, and the planting mobile phone is driven by the driving motor in the use process, so that the drilling action can be completed; and the cooling action can be completed by injecting cooling liquid through the cooling liquid conveying pipeline. As the planting mobile phone needs to be inserted into the mouth of a patient in the use process, it can be understood that the planting mobile phone at least needs to have the two characteristics of good sealing performance, easy disassembly and assembly and the like, so as to meet the basic use and disinfection requirements. On the one hand, in the use, the mobile phone of planting probably receives the influence of operation technique, and the coolant liquid exists the risk of entering handle device through the mobile phone of planting, and the dedicated driving motor of mobile phone of planting is as accurate device, once intaking just most probably causes the damage. On the other hand, the planting cell-phone needs to visit into the patient's mouth in the use, needs frequently to disinfect in order to prevent cross infection, needs often to dismantle from handle device, connects the space between the fixed subassembly between the two again easily introduces into the risk of intaking. It can be seen that the sealing performance and easy disassembly are mutually contradictory to a certain extent, and a solution is needed to solve both problems.

As shown in fig. 1, 2 and 7, in order to solve the above problems, the present invention provides a handle device for a planting mobile phone, which mainly comprises a handle outer sleeve 1, a sleeve joint fixing member 2 and an elastic connection clamping ring 3.

A driving motor 4 is arranged in the handle outer sleeve 1; the socket joint mounting 2 includes integrated into one piece and the circular connection base 201 and the circular grafting sleeve 202 that mutual concentricity set up, socket joint mounting 2 pass through circular connection base 201 fixed set up in on the driving motor 4, driving motor 4 warp circular grafting sleeve 202 links to each other with the planting cell-phone, circular grafting sleeve 202 expose in the front end of handle outer sleeve 1, circular connection base 201 with be provided with the sealing washer on the circular grafting sleeve 202 respectively.

As can be seen in fig. 1, fig. 2 and fig. 3, the elastic connection snap ring 3 is sleeved on the circular plugging sleeve 202, and when the planting mobile phone 5 is fixedly plugged on the device, the elastic connection snap ring 3 is nested and fixed on the clamping inner groove 501 on the planting mobile phone 5 through self elastic force. The "front" in the present technical solution refers to the direction of the device facing the planting mobile phone 5; the term "rear" in the present technical solution refers to the direction of the device facing away from the planting mobile phone 5.

In the process of installing the planting mobile phone, on one hand, the planting mobile phone 5 and the sleeving and fixing piece 2 are mutually spliced, the circular connecting base 201 and the circular splicing sleeve 202 are both abutted to the planting mobile phone, and meanwhile, the sealing rings on the circular connecting base 201 and the circular splicing sleeve 202 are filled in the gap between the planting mobile phone 5 and the sleeving and fixing piece 2, so that external liquid is prevented from entering the device, and the normal operation of the driving motor 4 is influenced; on the other hand, the elastic connection snap ring 3 is embedded into the clamping inner groove 501 by self elasticity or is ejected out of the clamping inner groove 501, so that the mounting and dismounting of the planting mobile phone are completed, and the operation is convenient.

Therefore, based on the structure, when the planting mobile phone is assembled on the device, the sealing performance of the sealing ring on the circular connecting base 201 and the circular inserting sleeve 202 can be guaranteed, and the effect of easy disassembly and assembly can be achieved by matching the elastic connecting clamping ring 3 with the clamping inner groove 501 on the planting mobile phone, so that the problems of sealing, disassembly and assembly and other pain points on the planting mobile phone can be solved simultaneously.

As shown in fig. 3 and 4, the elastic connection snap ring 3 is a metal ring structure, and the metal ring structure is provided with a notch 301. The elastic connection snap ring 3 is provided with a notch 301, and the elasticity of the elastic connection snap ring can be enhanced by the notch 301. In a natural state, a gap exists between the elastic connection clamping ring 3 and the circular plug sleeve 202, the elastic connection clamping ring 3 is movably sleeved on the circular plug sleeve 202, and the circular plug sleeve 202 can move on the circular plug sleeve 202. When the planting mobile phone is installed and fixed in the device, the sleeving and fixing piece 2 is gradually pressed, and a gap between the elastic connection clamping ring 3 and the circular plug sleeve 202 is gradually compressed until one surface of the elastic connection clamping ring 3 is completely pressed on the clamping inner groove 501, and the other surface is completely pressed on the circular plug sleeve 202.

As shown in fig. 4, the elastic connection clasp 3 includes a first inclined ring portion 302, a first clamping ring portion 303, a second inclined ring portion 304 and a second clamping ring portion 305, where the first inclined ring portion 302, the first clamping ring portion 303, the second inclined ring portion 304 and the second clamping ring portion 305 are sequentially connected end to form the elastic connection clasp 3, the first inclined ring portion 302 is located at one end far away from the driving motor 4, and the second clamping ring portion 305 is located at one end near the driving motor 4.

Specifically, the inclination angle of the outer inclined surface on the first inclined ring portion 302 is smaller than the inclination angle of the outer inclined surface on the second inclined ring portion 304, and the radius of the first clamping ring portion 303 is larger than the radius of the second clamping ring portion 305; when the planting mobile phone is fixedly inserted on the device, the first inclined ring portion 302, the first clamping ring portion 303 and the second inclined ring portion 304 are nested and fixed on the clamping inner groove 501 on the planting mobile phone.

During installation, the elastic connection clamping ring 3 transits through the first inclined ring part 302, gradually compresses the elastic connection clamping ring 3 and then slides into the clamping inner groove 501; when the elastic connection clamp ring 3 is disassembled, the elastic connection clamp ring 3 gradually slides out of the clamping inner groove 501 through the transition of the second inclined ring part 304 until the elastic connection clamp ring 3 returns to the original state. In this process, the inclination angle of the outer inclined surface on the first inclined ring portion 302 is smaller than that of the outer inclined surface on the second inclined ring portion 304, so that the device is easy to load, and relatively requires a relatively large driving force for disassembly, so that the displacement of the planting mobile phone in the operation process can be prevented. The radius of the first clamping ring portion 303 is larger than that of the second clamping ring portion 305, so that the elastic connection clamping ring 3 can be ensured to be fully fixed in the clamping inner groove 501 by using the first clamping ring portion 303.

The elastic connection clamping ring 3 has stronger self elasticity through the notch 301, and the first inclined ring part 302 and the second inclined ring part 304 are utilized to be conveniently loaded in the clamping inner groove 501 or detached from the clamping inner groove 501; in addition, the inclination angles of the first inclined ring portion 302 and the second inclined ring portion 304 enable an operator to apply different forces to enable the elastic connection clamping ring 3 to deform by using the clamping inner groove 501, and loading and dismounting are achieved.

As shown in fig. 5 and 6, a first jaw connector 6 is fixedly arranged on a power output shaft of the driving motor 4, the first jaw connector 6 is located in the circular plugging sleeve 202, a second jaw connector 7 is arranged on the planting mobile phone, and the driving motor 4 is connected with the planting mobile phone by mutual engagement of the first jaw connector 6 and the second jaw connector 7.

The planting cell-phone passes through the cooperation between joint inner groovy 501 and the elastic connection snap ring 3 can realize with the fixed mounting between the driving motor 4, and to realize the power transmission between the two, then need based on the cooperation between first jack catch connecting piece 6 and the second jack catch connecting piece 7. Based on the above structure, the interconnection between the driving motor 4 and the planting mobile phone 5 is realized through the mutual engagement between the first claw connecting piece 6 and the second claw connecting piece 7, so that the power of the driving motor 4 is transmitted to the planting mobile phone 5.

As shown in fig. 5 and 6, specifically, the first jaw connector 6 includes a first jaw socket 601, a first jaw connecting arm 602 and a second jaw connecting arm 603, the first jaw connecting arm 602 and the second jaw connecting arm 603 are integrally formed on the first jaw socket 601, and guide chamfers are provided on the first jaw connecting arm 602 and the second jaw connecting arm 603.

Correspondingly, the second jaw connector 7 includes a second jaw sleeve 701, a first jaw connecting groove 702, a second jaw connecting groove 703, a first guiding triangle portion 704 and a second guiding triangle portion 705, where the first jaw connecting groove 702, the second jaw connecting groove 703, the first guiding triangle portion 704 and the second guiding triangle portion 705 are integrally formed and arranged on the second jaw sleeve 701, and the first guiding triangle portion 704 and the second guiding triangle portion 705 are relatively spaced and arranged between the first jaw connecting groove 702 and the second jaw connecting groove 703.

When the driving motor 4 is connected with the planting mobile phone, the first claw connecting arm 602 and the second claw connecting arm 603 are respectively inserted into the first claw connecting groove 702 and the second claw connecting groove 703.

Based on the above structure, on the one hand, the first claw connecting arm 602, the second claw connecting arm 603 respectively and mutually clamping the first claw connecting groove 702, the second claw connecting groove 703 can form a whole between the driving motor 4 and the planting mobile phone, thereby transmitting the power of the driving motor 4 to the planting mobile phone. On the other hand, the first claw connecting arm 602 and the second claw connecting arm 603 are provided with guide chamfers, and in the process of mutually inserting the driving motor 4 and the planting mobile phone, the butt joint can be easily completed by utilizing the first guide triangular part 704, the second guide triangular part 705 and the guide chamfers no matter the relative angles between the first claw connecting piece 6 and the second claw connecting piece 7, so that the installation process is very simple and convenient without deliberately searching for the opposite insertion angle.

As shown in fig. 2, the driving motor 4 is provided with a signal connection wire 9, and the signal connection wire 9 is led out from a tail spiral sleeve 101 and a limit cone 102 which are arranged on the handle outer sleeve 1. The function of the tail screw sleeve 101 is to form a complete enclosure with the handle outer sleeve 1, thereby isolating the internal components from the environment; the limit cone 102 is then located between the handle outer sleeve 1 and the tail screw sleeve 101.

The handle outer sleeve 1 is provided with an internal thread connecting part, the tail screw sleeve 101 and the limit conical piece 102 are provided with an external thread connecting part, the tail screw sleeve 101 and the limit conical piece 102 are respectively and fixedly arranged on the handle outer sleeve 1 through threaded fit, and the limit conical piece 102 is positioned between the tail screw sleeve 101 and the handle outer sleeve 1. Correspondingly, a limiting clamping piece is fixedly arranged on the signal connecting wire 9 and is positioned between the driving motor 4 and the limiting conical piece 102, and the signal connecting wire 9 forms a bending part between the driving motor 4 and the limiting conical piece 102 through the limiting clamping piece. The limiting and locking piece is only a small node fixedly arranged on the signal connecting wire 9, and can be a tightening belt or other components, and only the signal connecting wire 9 is required to be prevented from being stretched outwards continuously.

It can be understood that when the signal connection wire 9 is under tension, the stress point thereof is at the connection point between the signal connection wire 9 and the driving motor 4, and when the tension is too large, the signal connection wire 9 is very easy to fall off. The present device solves this problem based on the limiting cone 102 and the limiting stop.

After the signal connecting wire 9 forms a bending part between the driving motor 4 and the limiting conical part 102, a certain pulling allowance is formed, the signal connecting wire 9 is abutted to the limiting conical part 102 through the limiting clamping part, when the signal connecting wire 9 is subjected to external pulling force, a stress point moves to the limiting clamping part on the signal connecting wire 9 from the position between the signal connecting wire 9 and the driving motor 4, and therefore the signal connecting wire 9 can be prevented from falling off from the driving motor 4 after being pulled, and a better pulling prevention effect is achieved.

As shown in fig. 2 and 9, a filling cone 103 is further disposed between the tail spiral sleeve 101 and the limiting cone 102, and the filling cone 103 is a soft structural member.

The filling cone 103 includes a first round table portion 1031, a second round table portion 1032, and a wire sleeve 1033, the first round table portion 1031, the second round table portion 1032, and the wire sleeve 1033 are coaxially disposed, and a first clamping step is formed between the first round table portion 1031 and the second round table portion 1032, and between the second round table portion 1032 and the wire sleeve 1033; the inner side of the tail spiral sleeve 101 is provided with a second clamping step, and the filling conical piece 103 and the tail spiral sleeve 101 are tightly combined through mutual occlusion of the first clamping step and the second clamping step.

Based on the structure, the filling conical part 103 is formed by the soft structural part, and the mutual engagement between the filling conical part 103 and the tail spiral sleeve 101 is realized by utilizing the steps on the two parts, so that the tightness and the structural stability of the device can be ensured.

As shown in fig. 2, more preferably, a tail sealing ring 8 is further disposed between the handle outer sleeve 1 and the tail screw sleeve 101, and when the tail screw sleeve 101 is screwed and fixed on the handle outer sleeve 1, the tail sealing ring 8 is filled in a gap between the handle outer sleeve 1 and the tail screw sleeve 101. The tail sealing ring 8 is further arranged between the handle outer sleeve 1 and the tail spiral sleeve 101, and when the tail spiral sleeve 101 is screwed and fixed on the handle outer sleeve 1, the tightness of the device can be further ensured by utilizing the tail sealing ring 8.

Specifically, 4 stress groove portions are arranged on the outer side of the tail spiral sleeve 101 at intervals. The stress groove part is a recess arranged outside the tail screw sleeve 101, and based on 4 stress groove parts, an operator can conveniently drive the screw sleeve to rotate through the stress groove part, so that the screw sleeve can be conveniently installed and disassembled.

As shown in fig. 2, the circular connection base 201 is provided with a limiting concave portion 203 and a light ray outlet 204, and as shown in fig. 8, the planting mobile phone is provided with a limiting convex portion 502 and a light ray inlet 503; the circular connection base 201 is internally provided with an indicator lamp, when the planting mobile phone is fixedly arranged on the device, the limiting protruding portion 502 and the limiting concave portion 203 are mutually nested, the light ray outlet 204 is in butt joint with the light ray inlet 503, and light rays emitted by the indicator lamp sequentially pass through the light ray outlet 204 and the light ray inlet 503 and enter the planting mobile phone.

Based on the above-mentioned structure, utilize spacing depressed part 203 and spacing bellying 502 peg graft each other for the relative position between planting cell-phone and this device is fixed, thereby guarantees to like accurate butt joint between light exit port 204 and the light entrance port 503, guarantees that the light that the pilot lamp sent can transmit to planting cell-phone on, and then realizes the instruction function in the working process.

As shown in fig. 7, the circular connection base 201 is provided with a base groove along the circumferential direction, a base sealing ring 205 is arranged in the base groove, the circular plugging sleeve 202 is provided with a sleeve groove along the circumferential direction, and a sleeve sealing ring 206 is arranged in the sleeve groove; when the planting mobile phone is fixedly inserted on the device, the base sealing ring 205 and the sleeve sealing ring 206 are filled in the gap between the sleeve connecting fixing piece 2 and the planting mobile phone. Through base sealing washer 205 and sleeve sealing washer 206, can prevent that outside liquid from getting into this device to guarantee the leakproofness of this device.

In this technical scheme, the sealing washer includes afterbody sealing washer 8, base sealing washer 205 and sleeve sealing washer 206, and wherein, afterbody sealing washer 8 sets up in the rear portion of this device, and base sealing washer 205 and sleeve sealing washer 206 then set up in the front portion of this device.

It is to be understood that the invention is not limited in its application to the examples described above, but is capable of modification and variation in light of the above teachings by those skilled in the art, and that all such modifications and variations are intended to be included within the scope of the appended claims.

Claims (10)

1. A device for implanting a handpiece, comprising:

the handle outer sleeve is internally provided with a driving motor;

the device comprises a driving motor, a handle outer sleeve, a sleeve connecting piece and a sleeve connecting piece, wherein the sleeve connecting piece comprises a circular connecting base and a circular inserting sleeve which are integrally formed and concentrically arranged with each other;

and the elastic connection clamping ring is sleeved on the circular plug sleeve, and is nested and fixed on the clamping inner groove of the planting mobile phone through self elasticity when the planting mobile phone is fixedly plugged on the device.

2. The handle device for a mobile phone according to claim 1, wherein the elastic connection snap ring is a metal ring structure, and the metal ring structure is provided with a notch;

the elastic connection clamping ring comprises a first inclined ring part, a first clamping ring part, a second inclined ring part and a second clamping ring part, wherein the first inclined ring part, the first clamping ring part, the second inclined ring part and the second clamping ring part are sequentially connected end to form the elastic connection clamping ring, the first inclined ring part is positioned at one end far away from the driving motor, and the second clamping ring part is positioned at one end close to the driving motor;

the inclination angle of the outer inclined surface on the first inclined ring part is smaller than that of the outer inclined surface on the second inclined ring part, and the radius of the first clamping ring part is larger than that of the second clamping ring part; when the planting mobile phone is fixedly inserted on the device, the first inclined ring part, the first clamping ring part and the second inclined ring part are nested and fixed on the clamping inner groove on the planting mobile phone.

3. The planting mobile phone handle device according to claim 1, wherein a first claw connecting piece is fixedly arranged on a power output shaft of the driving motor, the first claw connecting piece is located in the circular plug-in sleeve, a second claw connecting piece is arranged on the planting mobile phone, and the driving motor is connected with the planting mobile phone through mutual engagement of the first claw connecting piece and the second claw connecting piece.

4. A planting handpiece handle device according to claim 3, wherein the first jaw connector comprises a first jaw socket, a first jaw connector arm and a second jaw connector arm integrally formed on the first jaw socket, the first jaw connector arm and the second jaw connector arm having guide chamfers thereon;

the second jaw connecting piece comprises a second jaw sleeve, a first jaw connecting groove, a second jaw connecting groove, a first guide triangular part and a second guide triangular part, wherein the first jaw connecting groove, the second jaw connecting groove, the first guide triangular part and the second guide triangular part are integrally formed and arranged on the second jaw sleeve, and the first guide triangular part and the second guide triangular part are oppositely arranged between the first jaw connecting groove and the second jaw connecting groove at intervals;

when the driving motor is connected with the planting mobile phone, the first claw connecting arm and the second claw connecting arm are respectively inserted into the first claw connecting groove and the second claw connecting groove.

5. The handle device of a planting mobile phone according to claim 1, wherein a signal connection wire is arranged on the driving motor, and the signal connection wire is led out from a tail spiral sleeve and a limiting cone piece which are arranged on the outer sleeve of the handle;

the handle outer sleeve is provided with an internal thread connecting part, the tail spiral sleeve and the limit conical piece are provided with an external thread connecting part, the tail spiral sleeve and the limit conical piece are respectively and fixedly arranged on the handle outer sleeve through threaded fit, and the limit conical piece is positioned between the tail spiral sleeve and the handle outer sleeve;

the signal connection line is fixedly provided with a limiting clamping piece, the limiting clamping piece is located between the driving motor and the limiting conical piece, and the signal connection line is in a bending portion between the driving motor and the limiting conical piece through the limiting clamping piece.

6. The device of claim 5, wherein a filling cone is further provided between the tail screw sleeve and the limiting cone, the filling cone being a soft structure;

the filling conical piece comprises a first round platform part, a second round platform part and a wire rod sleeve, wherein the first round platform part, the second round platform part and the wire rod sleeve are coaxially arranged, and first clamping steps are formed between the first round platform part and the second round platform part and between the second round platform part and the wire rod sleeve;

the inner side of the tail spiral sleeve is provided with a second clamping step, and the filling conical piece and the tail spiral sleeve are tightly combined through mutual occlusion of the first clamping step and the second clamping step.

7. The device of claim 5, wherein a tail seal ring is further provided between the handle outer sleeve and the tail screw sleeve, the tail seal ring filling a gap between the handle outer sleeve and the tail screw sleeve when the tail screw sleeve is screwed onto the handle outer sleeve.

8. The device of claim 5, wherein 4 stress grooves are formed on the outer side of the tail screw sleeve at intervals.

9. The handle device of a planting mobile phone according to claim 1, wherein the circular connecting base is provided with a limiting concave part and a light ray emission port, and the planting mobile phone is provided with a limiting convex part and a light ray emission port;

be provided with an pilot lamp in the circular connection base, works as when planting the cell-phone is fixed to be set up on this device, spacing bellying with spacing depressed part is nested each other, light exit with light entrance dock mutually, the light that the pilot lamp sent is passed through in proper order light exit with light entrance dock and get into the planting cell-phone.

10. A planting mobile phone handle device according to any one of claims 1-9, wherein the circular connection base is provided with a base groove along the circumferential direction, a base sealing ring is arranged in the base groove, the circular plug sleeve is provided with a sleeve groove along the circumferential direction, and a sleeve sealing ring is arranged in the sleeve groove;

when the planting mobile phone is fixedly inserted on the device, the base sealing ring and the sleeve sealing ring are filled in the gap between the sleeve connecting fixing piece and the planting mobile phone.