CN118123902A - Floating shaver - Google Patents

Abstract

The application relates to a floating shaver, wherein an inner cutter net assembly is provided with a first accommodating groove, and an outer cutter net assembly is provided with a second accommodating groove; the movable cutter assembly comprises an inner movable cutter assembly and an outer movable cutter assembly, the inner movable cutter assembly extends into the first accommodating groove, and the outer movable cutter assembly extends into the second accommodating groove; the knife net elastic transmission assembly is connected with the knife net assembly and used for driving the knife net assembly to rotate, and the movable knife elastic transmission assembly is connected with the movable knife assembly and used for driving the movable knife assembly to rotate; the driving device is connected with the elastic transmission assembly and is used for driving the knife net elastic transmission assembly and the movable knife assembly to rotate. The application discloses a floating shaver, which is characterized in that a cutter mesh elastic transmission assembly and a movable cutter elastic transmission assembly are respectively arranged to respectively drive the cutter mesh assembly and the movable cutter assembly to elastically rotate, so that the cutter mesh assembly and the movable cutter assembly of the shaver can float according to the fluctuation position of a joint surface when rotating, and better veneering performance is achieved.

Description

Floating shaver

Technical Field

The invention relates to the technical field of shavers, in particular to a floating shaver.

Background

The electric shaver consists of a stainless steel knife net, an inner knife blade, a miniature motor and a shell. The knife net is a fixed outer knife blade, and a plurality of holes are formed on the knife net, so that beards can extend into the holes. The miniature motor is driven by electric energy to drive the inner blade to act, and the beard extending into the hole is cut off by utilizing the shearing principle. In order to ensure the rigidity of the cutter mesh, the area of the cutter mesh is often designed to be smaller, so that the shaving area is small, the shaver is required to be continuously moved in use, the angle of the shaver is changed, the shaving range is enlarged, and the use and the operation are more troublesome. In order to solve the above problems, a plurality of net shaver products have been developed. However, the cutter nets of the electric shaver product cannot rotate and elastically float, the cutter nets cannot rotate forward and backward independently, and the cutter nets and the inner blades cannot rotate independently. The user often needs to adjust the face angle of shaving by oneself according to actual need, and complex operation. Moreover, the product has unsatisfactory veneering performance, poor beard catching capability and beard cutting capability and low shaving efficiency.

Disclosure of Invention

Based on the problems, the cutter mesh and the cutter blade cannot rotate and float independently, so that the product veneering performance is not ideal, and the floating shaver is needed.

A floating shaver, comprising: a housing assembly; the knife net assembly is arranged on the shell assembly and comprises an inner knife net assembly and an outer knife net assembly, the inner knife net assembly is provided with a first accommodating groove, and the outer knife net assembly is provided with a second accommodating groove; the movable cutter assembly comprises an inner movable cutter assembly and an outer movable cutter assembly, the inner movable cutter assembly extends into the first accommodating groove, and the outer movable cutter assembly extends into the second accommodating groove; the elastic transmission assembly comprises a cutter mesh elastic transmission assembly and a movable cutter elastic transmission assembly, the cutter mesh elastic transmission assembly is arranged on the shell assembly and connected with the cutter mesh assembly, the cutter mesh elastic transmission assembly is used for driving the cutter mesh assembly to rotate, the movable cutter elastic transmission assembly is connected with the movable cutter assembly, and the movable cutter elastic transmission assembly is used for driving the movable cutter assembly to rotate; the driving device is connected with the elastic transmission assembly and is used for driving the knife net elastic transmission assembly and the movable knife assembly to rotate.

The application discloses a floating shaver, which is characterized in that an inner cutter mesh assembly and an outer cutter mesh assembly are arranged on the inner side of the inner cutter mesh assembly, an inner movable cutter assembly and an outer movable cutter assembly are correspondingly arranged on the inner side of the inner cutter mesh assembly, the inner movable cutter assembly is arranged in a first accommodating groove, the outer movable cutter assembly is arranged in a second accommodating groove, and the cutter mesh assembly and the movable cutter assembly are respectively driven to elastically rotate by arranging a cutter mesh elastic transmission assembly and a movable cutter elastic transmission assembly respectively, so that the cutter mesh assembly and the movable cutter assembly of the shaver can float according to the fluctuation position of a joint surface when rotating, and better veneering performance is achieved. The driving device is respectively connected with the knife net elastic transmission assembly and the movable knife elastic transmission assembly to provide power for the movement of the knife net elastic transmission assembly, so that the knife net assembly and the movable knife assembly are driven to rotate. The elastic transmission component rotates in the shaving process of the cutter net component and the movable cutter component and floats according to the angle of the joint surface and the stress condition of the shaver, so that the veneering performance can be effectively improved, the beard can be more efficiently captured and cut, the experience of a user in the use process is improved, and better comfort level is achieved.

In one embodiment, the cutter mesh elastic transmission assembly comprises a positive and negative transmission assembly and a cutter mesh driven assembly, the positive and negative transmission assembly is in meshed connection with the driving device, the driving device can drive the positive and negative transmission assembly to rotate positively and negatively, one end of the cutter mesh driven assembly is connected with the positive and negative transmission assembly, and the other end of the cutter mesh driven assembly is in meshed connection with the outer cutter mesh assembly. The front and back transmission assembly is meshed with the driving device, the driving device can drive the front and back transmission assembly to rotate in the forward and reverse directions, and the front and back transmission assembly, the cutter mesh driven assembly and the outer cutter mesh assembly are sequentially connected, so that the cutter mesh assembly can rotate in the forward and reverse directions, and the rotating direction of the cutter mesh assembly can be opposite to the rotating direction of the movable cutter assembly; on the other hand, the front and back transmission components and the shaver net driven component are respectively provided with springs, and the springs can generate elastic deformation, so that the shaver can float according to the fluctuation condition of a use part, the rotation angle and the stress condition of the shaver in the use process, and the shaver can better improve the beard capturing capability of the shaver.

In one embodiment, the positive and negative transmission assembly comprises a first rotating member, a second rotating member and a first elastic member, wherein the first rotating member is in meshed connection with the driving device, the second rotating member is arranged on the first rotating member, and two ends of the first elastic member are respectively abutted against the first rotating member and the second rotating member. Through being equipped with first rotating member and the positive and negative rotation drive assembly meshing of the sword net on the drive arrangement and being connected, drive arrangement enables first rotating member and carries out positive and negative rotation, and the second rotates the piece setting and rotates on first rotating member, specifically, rotates through a plurality of archs and the mutual block of recess between piece with the second for the second rotates the piece and can carry out positive and negative rotation thereupon, and the transmission process is more stable, and transmission efficiency is high. Through being equipped with first elastic component between first rotating member and the second rotating member, first elastic component can produce elastic deformation, and outer cutter net subassembly is at atress in-process, and the relative movement can take place in the position between first rotating member and the second rotating member for cutter net elastic transmission subassembly floats along the deformation direction of first elastic component simultaneously at pivoted in-process, thereby is favorable to outer cutter net subassembly to produce better according to the condition that the razor was used and floats, in order to obtain better floatability and wainscot nature.

In one embodiment, the knife net driven component comprises a connecting piece, a knife net driven piece and a second elastic piece, wherein the connecting piece is connected with the positive and negative transmission component, two ends of the second elastic piece are respectively propped against the connecting piece and the knife net driven piece, and the knife net driven piece is connected with the outer knife net component. One end of the connecting piece is connected with a second rotating piece on the positive and negative transmission component, and two ends of the second elastic piece are respectively propped against the connecting piece and the cutter mesh driven piece, so that the cutter mesh driven component can float according to the elastic deformation direction of the second elastic piece in the rotating process, and the outer cutter mesh component can be driven to rotate and float according to the fluctuation condition of a using part, the rotating angle and the stress condition of the shaver in the using process, thereby obtaining better floatability and veneering performance and improving the shaving efficiency.

In one embodiment, the device further comprises an inner knife net support assembly, wherein the inner knife net support assembly is arranged on the shell assembly, the inner knife net support assembly is arranged opposite to the inner knife net assembly, and the inner knife net support assembly is propped against the inner knife net assembly. Through being provided with interior knife net support subassembly and interior knife net subassembly on the casing and offset, its effect that can play the support to interior knife net subassembly on the one hand for interior knife net subassembly is more stable at pivoted in-process, and on the other hand, at the in-process that the razor was used, can produce certain elastic deformation after the interior knife net support subassembly atress that offsets with interior knife net subassembly inboard, makes interior knife net subassembly can float along with the atress condition. Optionally, the inner knife net support assembly comprises a support seat and an elastic sheet, the support seat is arranged on the shell assembly, the elastic sheet is arranged on the support seat, and the other end of the elastic sheet abuts against the inner knife net assembly.

The knife net assembly further comprises a centering ring assembly, the centering ring assembly is located between the inner knife net assembly and the outer knife net assembly, the centering ring assembly is arranged adjacent to the outer moving knife assembly, and the inner knife net support assembly is arranged on the centering ring assembly. The centering ring assembly is arranged between the inner cutter net assembly and the outer cutter net assembly, the centering ring assembly is arranged, the outer side of the centering ring assembly is adjacent to the outer moving cutter assembly, the inner side of the centering ring assembly is adjacent to the inner moving cutter assembly, the centering ring assembly can play a role in limiting the position of the outer moving cutter assembly, and further, the inner cutter net support assembly can be arranged on the centering ring assembly, so that the overall structure is more compact, and the movement is more reliable.

In one embodiment, the movable knife elastic transmission assembly comprises a movable knife transmission assembly, a movable knife driven assembly and a second connecting piece, wherein the movable knife transmission assembly is connected with the driving device, two ends of the second connecting piece are respectively connected with the movable knife transmission assembly and the movable knife driven assembly, and the movable knife driven assembly is connected with the inner movable knife assembly and the outer movable knife assembly. Through setting up and moving sword drive assembly and moving the link of sword elastic transmission subassembly and drive arrangement for drive arrangement's motion power transmission arrives and moves sword drive assembly and make it rotate, and moving sword drive assembly and moving sword driven assembly are connected respectively at the both ends of second connecting piece, make the power more steadily transmit to moving on the sword driven assembly through setting up the second connecting piece, move the other end of sword driven assembly and move the sword subassembly with interior moving the sword subassembly and being connected outward respectively, make interior moving the sword subassembly and moving the sword subassembly outward and can rotate simultaneously and float from top to bottom according to the circumstances of using the atress, its motion transmission's system is more reliable and stable, can further improve the floating range of razor in the course of working.

In one embodiment, the moving blade driven assembly comprises an inner moving blade driven member, an outer moving blade driven member and an elastic transmission member, wherein the elastic transmission member is connected with the second connecting member, the inner moving blade driven member and the outer moving blade driven member are arranged on the elastic transmission member, the outer moving blade driven member is positioned on the outer side of the inner moving blade driven member, the outer moving blade driven member is connected with the outer moving blade assembly, and the inner moving blade driven member is connected with the inner moving blade assembly. One side through elastic transmission subassembly and one side and the second connecting piece are connected, make it drive the interior sword follower that moves and move the sword follower outward and rotate that set up on elastic transmission subassembly, on the other hand, elastic transmission subassembly is including the elastic component for elastic transmission subassembly's whole can float according to the fluctuation condition of use position, turned angle and the atress condition of razor in the use, and drive interior sword subassembly and outer sword subassembly and float.

In one embodiment, the moving blade transmission assembly comprises a first transmission member, a second transmission member and a third elastic member, wherein the first transmission member is connected with the driving device, the second transmission member is arranged on the first transmission member, and two ends of the third elastic member are respectively abutted against the first transmission member and the second transmission member. Through being equipped with the movable cutter drive assembly on first driving medium and the drive arrangement and being connected, drive arrangement can make first driving medium rotate, the second rotates the piece setting and is on first driving medium, specifically, through a plurality of archs and recess mutual block between first driving medium and the second driving medium, make the second rotate the piece and rotate along with it, its structure is more stable, through being equipped with the third elastic component between first driving medium and the second rotating medium, the elastic deformation can be produced to the third elastic component, interior movable cutter subassembly and the outer movable cutter subassembly can take place to remove at the in-process of atress, the relative position between first driving medium and the second rotating medium can produce at pivoted in-process simultaneously and float, thereby be favorable to interior movable cutter subassembly and outer movable cutter subassembly to produce the float better according to the circumstances that the razor was used, in order to obtain better floatability and wainscot.

In one embodiment, the driving device comprises a power assembly, a cutter net forward and reverse rotation driving assembly and a movable cutter driving assembly, wherein the power assembly is connected with the movable cutter driving assembly, the power assembly is used for driving the movable cutter driving assembly to rotate, one end of the movable cutter driving assembly is connected with the movable cutter elastic transmission assembly, the cutter net forward and reverse rotation driving assembly is meshed with the movable cutter driving assembly, the cutter net forward and reverse rotation driving assembly is connected with the cutter net elastic transmission assembly, and the cutter net forward and reverse rotation driving assembly is used for driving the cutter net elastic transmission assembly to forward and reverse rotate. Through being equipped with movable knife drive assembly, its one end is connected with power component meshing, and the other end is connected with movable knife elastic transmission assembly meshing for the drive movable knife elastic transmission assembly rotates, is connected with gear assembly and the positive and negative rotation drive assembly meshing of sword net on the movable knife drive assembly, and the positive and negative rotation drive assembly of sword net rotates through corotation and opposite direction, makes its positive and negative rotation drive assembly of sword net and the positive and negative rotation of sword net subassembly realization that drive connection improve the razor, on the other hand, this structure only need use a power supply just can realize the sword net subassembly and move the rotation respectively of sword subassembly, this simple structure is high-efficient, energy-concerving and environment-protective.

In one embodiment, the cutter mesh forward and backward rotation driving assembly comprises a gear assembly, a forward and backward driving assembly and a cutter mesh transmission gear assembly, the gear assembly is in meshed connection with the movable cutter driving assembly, the forward and backward driving assembly is in meshed connection with the gear assembly, the forward and backward driving assembly is connected with the cutter mesh transmission gear assembly, the forward and backward driving assembly can drive the cutter mesh transmission gear assembly to perform forward and backward rotation, and the cutter mesh transmission gear assembly is in meshed connection with the cutter mesh elastic transmission assembly. Through setting up gear assembly and moving the sword drive assembly and being connected for the rotation rate of sword net subassembly is less than the rotation rate of moving the sword subassembly, is favorable to providing more comfortable wainscot for the user and feels, and gear assembly includes a plurality of gear assemblies, is favorable to the power to transmit more steadily, is connected through the meshing respectively with gear assembly and sword net drive gear assembly through being equipped with positive and negative drive assembly, makes sword net drive gear assembly can drive the sword net subassembly and carry out positive and negative rotation, thereby makes the rotation direction of sword net subassembly and moving the sword subassembly can be opposite.

In one embodiment, the movable knife driving assembly comprises a movable knife transmission gear assembly and a transmission shaft, the movable knife transmission gear assembly is respectively in meshed connection with the power assembly and the knife net positive and negative rotation driving assembly, the transmission shaft is arranged on the movable knife transmission gear assembly in a penetrating mode, one end of the transmission shaft is connected with the movable knife elastic transmission assembly, and the transmission shaft is used for driving the movable knife elastic transmission assembly to rotate. The transmission shaft runs through the center of the movable knife transmission gear assembly, the other end of the transmission shaft is connected with the movable knife elastic transmission assembly, the movable knife transmission gear assembly is meshed with the first gear piece, and speed regulation is carried out through the movable knife transmission gear assembly.

In one embodiment, the power assembly comprises a motor, a first connecting shaft and a first gear member, wherein the first connecting shaft is connected with the motor, the first connecting shaft is arranged on the first gear member in a penetrating mode, and the first gear member is connected with the movable cutter driving assembly in a meshed mode. The power take off end of motor is first connecting axle, and first connecting axle runs through the setting on first gear spare, through setting up cooperation motion between first gear spare and the movable knife transmission gear subassembly for drive arrangement's transmission process is more reliable and stable, can also design the speed of movable knife subassembly and knife network subassembly through the meshing condition between the gear.

In one embodiment, the housing assembly comprises a nose housing assembly, a body housing assembly and a housing connecting seat, the housing connecting seat is arranged on the body housing assembly, the nose housing assembly is arranged on the housing connecting seat, the housing connecting seat is positioned between the nose housing assembly and the body housing assembly, and the cutter mesh assembly and the movable cutter assembly are arranged on the nose housing assembly. The machine head shell assembly and the machine body shell assembly are connected through the shell connecting seat, and the shell connecting seat is also used as a connecting fastener of the knife net elastic transmission assembly and the movable knife elastic transmission assembly, so that the internal structure is more compact.

In one embodiment, the handpiece housing assembly includes a lower cap assembly, an upper cap assembly and a button assembly, the lower cap assembly is disposed on the housing connection base, the upper cap assembly is movably disposed on the lower cap assembly, the cutter mesh assembly and the movable cutter assembly are disposed on the upper cap assembly, the button assembly is disposed on the lower cap assembly, the button assembly is connected with the upper cap assembly, and the button assembly is used for opening the upper cap assembly. The upper cover component and the lower cover component can be movably connected through the hinge component, the upper cover component is opened through the button component, and a user can conveniently open the upper cover component and clean the knife net component and the knife moving component which are arranged on the upper cover component.

In one embodiment, the device further comprises an elastic silica gel piece, the elastic silica gel piece is arranged on the shell connecting seat, the other end of the elastic silica gel piece is connected with the machine head shell assembly, the elastic silica gel piece comprises an upper connecting portion, a silica gel body and a lower connecting portion, the upper connecting portion and the lower connecting portion are respectively arranged at two ends of the silica gel body, the upper connecting portion is connected with the machine head shell assembly, a limiting groove is formed in the outer wall of the shell connecting seat, and the limiting groove is matched with the lower connecting portion.

In one embodiment, the device further comprises an elastic silica gel piece, wherein the elastic silica gel piece is arranged on the shell connecting seat, the other end of the elastic silica gel piece is connected with the machine head shell assembly, and the outer wall of the elastic silica gel piece forms a wavy curved surface. The elastic silica gel piece is connected with the machine head shell assembly and the shell connecting seat, so that the whole cutter head device can elastically float according to the stress condition and the rotation use angle in the use process, the head device of the shaver can float in cooperation with the cutter mesh assembly and the movable cutter assembly, the impact force of the movement process on the shaver shell assembly is buffered, the floatability of the whole shaver is more efficient, and the use experience is better; on the other hand, the elastic silica gel piece makes the elastic transmission process effect of the elastic transmission component of the product better. The elastic silica gel piece is respectively matched and fixed with the machine head shell assembly and the shell connecting seat through being provided with an upper connecting part and a lower connecting part.

In one embodiment, the device further comprises an elastic silica gel piece, wherein the elastic silica gel piece is arranged on the shell connecting seat, and the other end of the elastic silica gel piece is connected with the machine head shell assembly.

In one embodiment, the driving device can drive the knife net elastic transmission assembly to rotate forwards and reversely. Through being equipped with drive arrangement and making the cutter mesh elastic transmission subassembly forward rotation and reverse rotation for the cutter mesh subassembly that sets up on the cutter mesh elastic transmission subassembly can carry out forward rotation and reverse subassembly, and the razor is in the in-process of using, and its movable knife subassembly can carry out the rotation of opposite direction with the cutter mesh subassembly, thereby makes the in-process of shaving realize better wainscot nature and improves shaving efficiency, and reaches better comfort level.

Drawings

Fig. 1 is a schematic view of a floating shaver;

fig. 2 is a schematic view of a floating shaver cap removed;

fig. 3 is an exploded view of a floating shaver;

FIG. 4 is a schematic view of a head of a floating shaver;

FIG. 5 is a schematic view of an elastomeric silicone member;

FIG. 6 is a schematic view of the motion transfer of the elastic rotation of the blade network assembly;

FIG. 7 is a schematic view of the transmission of motion of the elastic rotation of the movable blade assembly;

FIG. 8 is an assembled cross-sectional view of the flexible drive assembly, moving blade assembly and blade web assembly;

FIG. 9 is a cross-sectional view of the attachment of the knife web elastic drive assembly to the knife web assembly;

FIG. 10 is a perspective view of the attachment of the knife web elastic drive assembly to the knife web assembly;

FIG. 11 is one of the exploded views of the knife net elastic drive assembly;

FIG. 12 is a second exploded view of the knife net elastic drive assembly;

FIG. 13 is a cross-sectional view of the connection of the movable blade elastic transmission assembly and the movable blade assembly;

FIG. 14 is a perspective view of the connection of the movable blade elastic transmission assembly and the movable blade assembly;

FIG. 15 is one of the exploded views of the movable blade elastic drive assembly;

FIG. 16 is a second exploded view of the flexible drive assembly of the moving blade;

FIG. 17 is a schematic diagram of a drive device;

FIG. 18 is an exploded view of the drive device;

FIG. 19 is an exploded view of the knife web forward and reverse drive assembly;

FIG. 20 is a schematic view of a knife web forward and reverse drive assembly;

Fig. 21 is an enlarged view at a of fig. 3.

Wherein, the correspondence between the reference numerals and the component names is:

1 a shell component, a 101 limiting groove, 11 a machine head shell component, 111 a lower cover component, 112 an upper cover component, 113 a button component, 12 a machine body shell component and 13 a shell connecting seat;

2 knife net components, 21 inner knife net components, 22 outer knife net components, 23 centering ring components;

3 moving knife components, 31 inner moving knife components, 32 outer moving knife components;

41 knife net elastic transmission components, 411 positive and negative transmission components, 4111 first rotation components, 4112 second rotation components, 4113 first elastic components, 412 knife net driven components, 4121 connecting components, 4122 knife net driven components, 4123 second elastic components, 42 movable knife elastic transmission components, 421 movable knife transmission components, 4211 first transmission components, 4212 second transmission components, 4213 elastic groups, 422 movable knife driven components, 4221 inner movable knife driven components, 4222 outer movable knife driven components, 4223 elastic transmission components and 423 second connecting components;

The device comprises a 5 driving device, a 51 power component, a 511 motor, a 512 first connecting shaft, a 513 first gear piece, a 52 cutter mesh forward and reverse rotation driving component, a 521 gear component, a 522 forward and reverse driving component, a 523 cutter mesh transmission gear component, a 53 movable cutter driving component, a 531 movable cutter transmission gear component and a 532 transmission shaft;

6 elastic silica gel piece, 61 connecting part, 62 silica gel body, 63 lower connecting part;

And 7, an inner knife net support assembly.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will be more clearly understood, a more particular description of the application will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, without conflict, the embodiments of the present application and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those described herein, and therefore the scope of the present invention is not limited to the specific embodiments disclosed below.

A floating shaver according to some embodiments of the present invention is described below with reference to the accompanying drawings.

As shown in fig. 1 to 20, the present embodiment discloses a floating shaver including: a housing assembly 1; the knife net assembly 2 is arranged on the shell assembly 1, the knife net assembly 2 comprises an inner knife net assembly 21 and an outer knife net assembly 22, the inner knife net assembly 21 is provided with a first accommodating groove, and the outer knife net assembly 22 is provided with a second accommodating groove; the movable cutter assembly 3, the movable cutter assembly 3 comprises an inner movable cutter assembly 31 and an outer movable cutter assembly 32, the inner movable cutter assembly 31 extends into the first accommodating groove, and the outer movable cutter assembly 32 extends into the second accommodating groove; the elastic transmission assembly comprises a cutter mesh elastic transmission assembly 41 and a movable cutter elastic transmission assembly 42, the cutter mesh elastic transmission assembly 41 is arranged on the shell assembly 1, the cutter mesh elastic transmission assembly 41 is connected with the cutter mesh assembly 2, the cutter mesh elastic transmission assembly 41 is used for driving the cutter mesh assembly 2 to rotate, the movable cutter elastic transmission assembly 42 is connected with the movable cutter assembly 3, and the movable cutter elastic transmission assembly 42 is used for driving the movable cutter assembly 3 to rotate; the driving device 5 is connected with the elastic transmission assembly 4, and the driving device 5 is used for driving the knife net elastic transmission assembly 41 and the movable knife assembly 3 to rotate.

The application discloses a floating shaver, which is characterized in that an inner cutter mesh assembly 21 and an outer cutter mesh assembly 22 are arranged, the outer cutter mesh assembly 22 is arranged on the inner side of the inner cutter mesh assembly 21, an inner movable cutter assembly 31 and an outer movable cutter assembly 32 are correspondingly arranged, the inner movable cutter assembly 31 is arranged in a first accommodating groove, the outer movable cutter assembly 32 is arranged in a second accommodating groove, and the cutter mesh assembly 2 and the movable cutter assembly 3 are respectively driven to elastically rotate by arranging a cutter mesh elastic transmission assembly 41 and a movable cutter elastic transmission assembly 42, so that the cutter mesh assembly 2 and the movable cutter assembly 3 of the shaver can float according to the fluctuation position of a joint surface to achieve better veneering performance while rotating. The driving device 5 is respectively connected with the cutter mesh elastic transmission assembly 41 and the movable cutter elastic transmission assembly 42 to provide power for the movement of the cutter mesh elastic transmission assembly, so that the rotation of the cutter mesh assembly 2 and the movable cutter assembly 3 is driven. The elastic transmission component rotates in the shaving process of the cutter mesh component 2 and the movable cutter component 3 and floats according to the angle of the joint surface and the stress condition of the shaver, so that the veneering performance can be effectively improved, the beard can be more efficiently captured and cut, the experience of a user in the use process is improved, and better comfort level is achieved.

As shown in fig. 6 to 12, this embodiment further defines, in addition to the features of the above-described embodiment: the cutter mesh elastic transmission assembly 41 comprises a front and back transmission assembly 411 and a cutter mesh driven assembly 412, the front and back transmission assembly 411 is connected with the driving device 5 in a meshed manner, the driving device 5 can drive the front and back transmission assembly 411 to rotate in the front and back direction, one end of the cutter mesh driven assembly 412 is connected with the front and back transmission assembly 411, and the other end of the cutter mesh driven assembly 412 is connected with the outer cutter mesh assembly 22. The positive and negative transmission component 411 is meshed with the driving device 5, the driving device 5 can drive the positive and negative transmission component 411 to rotate in the positive and negative directions, and the positive and negative transmission component 411, the cutter mesh driven component 412 and the outer cutter mesh component 22 are sequentially connected, so that the outer cutter mesh component 22 can rotate in the positive and negative directions, and the rotating direction of the outer cutter mesh component 22 can be opposite to the rotating direction of the outer cutter component 32; on the other hand, the front and back transmission component 411 and the knife net driven component 412 are respectively provided with a spring, and the springs can generate elastic deformation, so that the shaver can float according to the fluctuation condition of a using part, the rotation angle and the stress condition of the shaver in the using process, and the beard capturing capability of the shaver can be better improved.

In addition to the features of the above embodiments, the present embodiment further defines: the inner knife net support assembly 7 is arranged on the shell assembly 1, the inner knife net support assembly 7 is arranged opposite to the inner knife net assembly 21, and the inner knife net support assembly 7 abuts against the inner knife net assembly 21. Through being provided with interior sword net support subassembly 7 and interior sword net subassembly 21 on the casing and offset, its effect that can play the support to interior sword net subassembly 21 on the one hand for interior sword net subassembly 21 is more stable at pivoted process, on the other hand, in the razor use, can produce elastic deformation after the interior sword net support subassembly 7 atress that offsets with interior sword net subassembly 21 inboard, makes interior sword net subassembly 21 can float along with the atress condition. Optionally, the inner cutter mesh support assembly 7 includes a support base and an elastic sheet, the support base is disposed on the housing assembly 1, the elastic sheet is disposed on the support base, and the other end of the elastic sheet abuts against the inner cutter mesh assembly 21.

In addition to the features of the above embodiments, the present embodiment further defines: the cutter wire assembly 2 further comprises a centering ring assembly 23, the centering ring assembly 23 is located between the inner cutter wire assembly 21 and the outer cutter wire assembly 22, the centering ring assembly 23 is arranged adjacent to the outer moving cutter assembly 32, and the inner cutter wire support assembly 7 is arranged on the centering ring assembly 23. The centering ring assembly 23 is arranged between the inner cutter mesh assembly 21 and the outer cutter mesh assembly 22, and by arranging the centering ring assembly 23, the outer side of the centering ring assembly is adjacent to the outer cutter assembly 32, the inner side of the centering ring assembly is adjacent to the inner cutter assembly 31, so that the centering ring assembly can play a role in limiting the position of the outer cutter assembly 32, and further, the inner cutter mesh support assembly 7 can be arranged on the centering ring assembly 23, so that the overall structure is more compact, and the movement is more reliable.

In addition to the features of the above embodiments, the present embodiment further defines: the forward and reverse transmission assembly 411 includes a first rotating member 4111, a second rotating member 4112, and a first elastic member 4113, wherein the first rotating member 4111 is engaged with the driving device 5, the second rotating member 4112 is disposed on the first rotating member 4111, and two ends of the first elastic member 4113 respectively abut against the first rotating member 4111 and the second rotating member 4112. Through being provided with the first rotating member 4111 and being connected with the cutter mesh forward and backward rotation driving assembly 52 on the driving device 5 in a meshed manner, the driving device can enable the first rotating member 4111 to rotate forward and backward, the second rotating member 4112 is arranged on the first rotating member 4111, specifically, the first rotating member 4111 and the second rotating member 4112 are mutually clamped through a plurality of protrusions and grooves, so that the second rotating member 4112 can rotate forward and backward along with the first rotating member 4111, the transmission process is more stable, and the transmission efficiency is high. By arranging the first elastic member 4113 between the first rotating member 4111 and the second rotating member 4112, the first elastic member 4113 can elastically deform, and the outer cutter mesh assembly 22 can relatively move between the first rotating member 4111 and the second rotating member 4112 in the stress process, so that the cutter mesh elastic transmission assembly 41 can float along the deformation direction of the first elastic member 4113 in the rotating process, and the outer cutter mesh assembly can better float according to the use condition of the shaver, so that better floatability and veneering performance can be obtained.

In addition to the features of the above embodiments, the present embodiment further defines: the knife net driven component 412 comprises a connecting piece 4121, a knife net driven piece 4122 and a second elastic piece 4123, wherein the connecting piece 4121 is connected with the front and back transmission component 411, two ends of the second elastic piece 4123 are respectively abutted against the connecting piece 4121 and the knife net driven piece 4122, and the knife net driven piece 4122 is connected with the outer knife net component 22. One end of the connecting member 4121 is connected with the second rotating member 4112 on the front and back transmission assembly 411, and two ends of the second elastic member 4123 are respectively abutted against the connecting member 4121 and the cutter mesh driven member 4122, so that the cutter mesh driven assembly 412 can float according to the elastic deformation direction of the second elastic member 4123 in the rotating process, and the outer cutter mesh assembly 22 is driven to rotate and float according to the fluctuation condition of the using part, the rotating angle and the stress condition of the shaver in the using process, so that better floatability and overlay are obtained, and the shaving efficiency is improved.

As shown in fig. 6, 13 to 16, in addition to the features of the above-described embodiment, the present embodiment further defines: the movable knife elastic transmission assembly 42 comprises a movable knife transmission assembly 421, a movable knife driven assembly 422 and a second connecting piece 423, the movable knife transmission assembly 421 is connected with the driving device, two ends of the second connecting piece 423 are respectively connected with the movable knife transmission assembly 421 and the movable knife driven assembly 422, and the movable knife driven assembly 422 is connected with the inner movable knife assembly 31 and the outer movable knife assembly 32. Through setting up moving knife drive assembly 421 as the link of moving knife elastic transmission assembly 42 and drive arrangement 5 for drive arrangement 5's motion power transmission arrives moving knife drive assembly 421 and makes it rotate, moving knife drive assembly 421 and moving knife driven assembly 422 are connected respectively to the both ends of second connecting piece 423, make the power more steadily transmit to moving knife driven assembly 422 through setting up second connecting piece 423 on, moving knife driven assembly 422's the other end is connected with interior moving knife assembly 31 and outer moving knife assembly 32 respectively, make interior moving knife assembly 31 and outer moving knife assembly 32 can rotate simultaneously and float from top to bottom according to the circumstances of using the atress, its motion transmission's system is more reliable and stable, can further improve the floating range of razor in the course of working.

In addition to the features of the above embodiments, the present embodiment further defines: the moving blade follower assembly 422 includes an inner moving blade follower 4221, an outer moving blade follower 4222 and an elastic transmission member 4223, the elastic transmission member 4223 is connected with the second connection member 423, the inner moving blade follower 4221 and the outer moving blade follower 4222 are disposed on the elastic transmission member 4223, the outer moving blade follower 4222 is located on the outer side of the inner moving blade follower 4221, the outer moving blade follower 4222 is connected with the outer moving blade assembly 32, and the inner moving blade follower 4221 is connected with the inner moving blade assembly 31. One side of the elastic transmission assembly 4223 is connected with the second connecting piece 423, so that the elastic transmission assembly 4223 can drive the inner moving blade driven piece 4221 and the outer moving blade driven piece 4222 which are arranged on the elastic transmission assembly 4223 to rotate, and on the other hand, the elastic transmission assembly 4223 comprises an elastic piece, so that the whole of the elastic transmission assembly 4223 can float according to the fluctuation condition, the rotation angle and the stress condition of the shaver in the use process of the use part, and the inner moving blade assembly 31 and the outer moving blade assembly 32 are driven to float.

In addition to the features of the above embodiments, the present embodiment further defines: the moving blade transmission assembly 421 includes a first transmission member 4211, a second transmission member 4212, and a third elastic member 4213, where the first transmission member 4211 is connected to the driving device 5, the second transmission member 4212 is disposed on the first transmission member 4211, and two ends of the third elastic member 4213 respectively abut against the first transmission member 4211 and the second transmission member 4212. The driving device 5 can enable the first driving member 4211 to rotate through being provided with the first driving member 4211 and the movable cutter driving assembly 53 on the driving device 5, the second driving member 4212 is arranged on the first driving member 4211, specifically, the first driving member and the second driving member are mutually clamped with the grooves through a plurality of protrusions, so that the second driving member 4212 can rotate along with the first driving member 4211, the driving structure is more stable, the third elastic member 4213 is arranged between the first driving member 4211 and the second driving member 4212, the third elastic member 4213 can generate elastic deformation, the relative positions between the first driving member 4211 and the second driving member 4212 can be moved in the stressing process of the inner movable cutter assembly 31 and the outer movable cutter assembly 32, and the movable cutter elastic driving assembly 42 can float in the rotating process at the same time, so that the inner movable cutter assembly 31 and the outer movable cutter assembly 32 can float better according to the use condition of the shaver, and better floatability and veneering performance are obtained.

As shown in fig. 17 to 20, this embodiment further defines, in addition to the features of the above-described embodiment: the driving device 5 comprises a power assembly 51, a cutter net forward and reverse rotation driving assembly 52 and a movable cutter driving assembly 53, wherein the power assembly 51 is connected with the movable cutter driving assembly 53, the power assembly 51 is used for driving the movable cutter driving assembly 53 to rotate, one end of the movable cutter driving assembly 53 is connected with the movable cutter elastic transmission assembly 42, the cutter net forward and reverse rotation driving assembly 52 is connected with the movable cutter driving assembly 53 in a meshed manner, the cutter net forward and reverse rotation driving assembly 52 is connected with the cutter net elastic transmission assembly 41, and the cutter net forward and reverse rotation driving assembly 52 is used for driving the cutter net elastic transmission assembly 41 to perform forward and reverse rotation. Through being equipped with movable knife drive assembly 53, its one end is connected with power component 51, the other end is connected with movable knife elastic transmission assembly 42 for the drive movable knife elastic transmission assembly rotates, be connected with gear assembly on the movable knife drive assembly 53 and the positive and negative rotation drive assembly 52 meshing of sword net is connected, the positive and negative rotation drive assembly 52 of sword net rotates through forward and reverse direction, make its drive connection's the positive and negative rotation drive assembly 52 of sword net realize positive and negative rotation with sword net subassembly 2, improve the effect of shaving of razor, on the other hand, this structure only needs to use a power supply just can realize the rotation respectively of sword net subassembly 2 and movable knife subassembly 3, this simple structure is high-efficient, energy-concerving and environment-protective.

In addition to the features of the above embodiments, the present embodiment further defines: the cutter mesh forward and backward rotation driving assembly 52 comprises a gear assembly 521, a forward and backward driving assembly 522 and a cutter mesh transmission gear assembly 523, the gear assembly 521 is in meshed connection with the movable cutter driving assembly 53, the forward and backward driving assembly 522 is in meshed connection with the gear assembly 521, the forward and backward driving assembly 522 is connected with the cutter mesh transmission gear assembly 523, the forward and backward driving assembly 522 can drive the cutter mesh transmission gear assembly 523 to perform forward and backward rotation, and the cutter mesh transmission gear assembly 523 is in meshed connection with the cutter mesh elastic transmission assembly 41. The gear component 521 is connected with the movable cutter driving component 52, so that the rotation speed of the cutter mesh component 2 is smaller than that of the movable cutter component 3, more comfortable facing sense is provided for a user, the gear component 521 comprises a plurality of gear components, more stable power transmission is facilitated, the positive and negative driving component 522 is respectively connected with the gear component 521 and the cutter mesh transmission gear component 523 through meshing, and the cutter mesh transmission gear component 523 can drive the cutter mesh component 2 to rotate positively and negatively, so that the rotation directions of the cutter mesh component 2 and the movable cutter component 3 can be opposite.

In addition to the features of the above embodiments, the present embodiment further defines: the movable knife driving assembly 53 comprises a movable knife transmission gear assembly 531 and a transmission shaft 532, the movable knife transmission gear assembly 531 is respectively connected with the power assembly 51 and the knife net forward and reverse rotation driving assembly 52 in a meshed mode, the transmission shaft 532 is arranged on the movable knife transmission gear assembly 531 in a penetrating mode, one end of the transmission shaft 532 is connected with the movable knife elastic transmission assembly 42, and the transmission shaft 532 is used for driving the movable knife elastic transmission assembly 42 to rotate. The transmission shaft 532 is arranged in the center of the movable cutter transmission gear assembly 531 in a penetrating manner, the other end of the transmission shaft 532 is connected with the movable cutter elastic transmission assembly 42, the movable cutter transmission gear assembly 531 is connected with the first gear member 513 in a meshed manner, and speed regulation is performed through the movable cutter transmission gear assembly 531.

In addition to the features of the above embodiments, the present embodiment further defines: the power assembly 51 comprises a motor 511, a first connecting shaft 512 and a first gear member 513, wherein the first connecting shaft 512 is connected with the motor 511, the first connecting shaft 512 is penetratingly arranged on the first gear member 513, and the first gear member 513 is in meshed connection with the movable cutter driving assembly 53. The power take off end of motor is first connecting axle 512, and first connecting axle 512 runs through and sets up on first gear 513, through setting up cooperation motion between first gear 513 and the sword transmission gear component 531 for the transmission course of drive arrangement 5 is more reliable and stable, can also design the speed of moving sword subassembly 3 and knife network subassembly 2 through the meshing condition between the gear.

As shown in fig. 1 to 5, this embodiment further defines, in addition to the features of the above-described embodiment: the housing assembly 1 comprises a machine head housing assembly 11, a machine body housing assembly 12 and a housing connecting seat 13, wherein the housing connecting seat 13 is arranged on the machine body housing assembly 12, the machine head housing assembly 11 is arranged on the housing connecting seat 13, the housing connecting seat 13 is positioned between the machine head housing assembly 11 and the machine body housing assembly 12, and the knife net assembly 2 and the movable knife assembly 3 are arranged on the machine head housing assembly 11. The machine head shell assembly 11 and the machine body shell assembly 12 are connected through the shell connecting seat 13, and the shell connecting seat 13 is also used as a connecting fastener of the knife net elastic transmission assembly 41 and the movable knife elastic transmission assembly 42, so that the internal structure is more compact.

In addition to the features of the above embodiments, the present embodiment further defines: the handpiece housing assembly 11 includes a lower cover assembly 111, an upper cover assembly 112, and a button assembly 113, the lower cover assembly 111 is disposed on the housing connection base 13, the upper cover assembly 112 is movably disposed on the lower cover assembly 111, the knife net assembly 2 and the knife assembly 3 are disposed on the upper cover assembly 112, the button assembly 113 is disposed on the lower cover assembly 111, the button assembly 113 is connected with the upper cover assembly 112, and the button assembly 113 is used for opening the upper cover assembly 112. The upper cover assembly 112 and the lower cover assembly 111 can be movably connected through the loose-leaf assembly, and the upper cover assembly 112 is opened through the button assembly 113, so that a user can conveniently open the upper cover assembly 112 and clean the knife net assembly 2 and the movable knife assembly 3 which are arranged on the upper cover assembly 112.

As shown in fig. 1, 3, 5 and 21, this embodiment further defines, in addition to the features of the above-described embodiment: still include elastic silica gel piece 6, elastic silica gel piece 6 sets up on casing connecting seat 13, and elastic silica gel piece 6's the other end is connected with aircraft nose casing subassembly 11, and elastic silica gel piece 6 includes upper junction 61, silica gel body 62 and lower junction 63, and upper junction 61 and lower junction 63 set up respectively at the both ends of silica gel body 62, and upper junction is connected with aircraft nose casing subassembly 11, is formed with spacing recess 101 on the outer wall of casing connecting seat 13, spacing recess and lower junction 63 looks adaptation.

In addition to the features of the above embodiments, the present embodiment further defines: still include elastic silica gel piece 6, elastic silica gel piece 6 sets up on casing connecting seat 13, and the other end and the aircraft nose casing subassembly 11 of elastic silica gel piece 6 are connected, and the outer wall of elastic silica gel piece 6 forms the wave curved surface. The elastic silica gel piece is connected with the machine head shell assembly 11 and the shell connecting seat 13, so that the whole cutter head device can elastically float according to the stress condition and the rotation use angle in the use process, the head device of the shaver can float in cooperation with the cutter mesh assembly 2 and the movable cutter assembly 3, the impact force of the movement process on the shaver shell assembly 1 is buffered, the floatability of the whole shaver is more efficient, and the use experience is better; on the other hand, the elastic silica gel piece 6 enables the elastic transmission process effect of the elastic transmission component 4 of the product to be better. The elastic silica gel piece 6 is respectively matched and fixed with the machine head shell assembly 11 and the shell connecting seat 13 by being provided with an upper connecting part 61 and a lower connecting part 62.

In addition to the features of the above embodiments, the present embodiment further defines: still include elastic silica gel piece 6, elastic silica gel piece 6 sets up on casing connecting seat 13, and the other end and the aircraft nose casing subassembly 11 of elastic silica gel piece 6 are connected.

In addition to the features of the above embodiments, the present embodiment further defines: the driving device 5 can drive the knife net elastic transmission assembly 41 to rotate forward and reversely. Through being equipped with drive arrangement and making the cutter mesh elastic transmission assembly 41 carry out forward rotation and reverse rotation for the cutter mesh subassembly 2 that sets up on the cutter mesh elastic transmission assembly 41 can carry out forward rotation and reverse subassembly, and the razor is in the in-process of using, and its movable knife subassembly 3 can carry out the rotation of opposite direction with the cutter mesh subassembly 2, thereby makes the in-process of shaving realize better wainscot nature and improves shaving efficiency, and reaches better comfort level.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (12)

1. A floating shaver, comprising:

A housing assembly (1);

The knife net assembly (2), the knife net assembly (2) is arranged on the shell assembly (1), the knife net assembly (2) comprises an inner knife net assembly (21) and an outer knife net assembly (22), the inner knife net assembly (21) is provided with a first accommodating groove, and the outer knife net assembly (22) is provided with a second accommodating groove;

The movable cutter assembly (3), the movable cutter assembly (3) comprises an inner movable cutter assembly (31) and an outer movable cutter assembly (32), the inner movable cutter assembly (31) extends into the first accommodating groove, and the outer movable cutter assembly (32) extends into the second accommodating groove;

The elastic transmission assembly comprises a cutter mesh elastic transmission assembly (41) and a movable cutter elastic transmission assembly (42), the cutter mesh elastic transmission assembly (41) is arranged on the shell assembly (1), the cutter mesh elastic transmission assembly (41) is connected with the cutter mesh assembly (2), the cutter mesh elastic transmission assembly (41) is used for driving the cutter mesh assembly (2) to rotate, the movable cutter elastic transmission assembly (42) is connected with the movable cutter assembly (3), and the movable cutter elastic transmission assembly (42) is used for driving the movable cutter assembly (3) to rotate;

The driving device (5) is connected with the elastic transmission assembly, and the driving device (5) is used for driving the cutter mesh elastic transmission assembly (41) and the movable cutter assembly (3) to rotate.

2. The floating shaver as in claim 1, wherein the cutter-net elastic transmission assembly (41) comprises a forward-reverse transmission assembly (411) and a cutter-net driven assembly (412), the forward-reverse transmission assembly (411) is in meshed connection with the driving device (5), the driving device (5) can drive the forward-reverse transmission assembly (411) to rotate forward and reverse, one end of the cutter-net driven assembly (412) is connected with the forward-reverse transmission assembly (411), and the other end of the cutter-net driven assembly (412) is in meshed connection with the outer cutter-net assembly (22).

3. A floating shaver as in any of claims 1 or 2, further comprising an inner cutter mesh holder assembly (7), the inner cutter mesh holder assembly (7) being arranged on the housing assembly (1), the inner cutter mesh holder assembly (7) being arranged opposite the inner cutter mesh assembly (21), the inner cutter mesh holder assembly (7) being in abutment with the inner cutter mesh assembly (21).

4. A floating shaver as in claim 3, wherein the cutter-net assembly (2) further comprises a centering ring assembly (23), the centering ring assembly (23) being located between the inner cutter-net assembly (21) and the outer cutter-net assembly (22), the centering ring assembly (23) being disposed adjacent to the outer moving cutter assembly (32), the inner cutter-net holder assembly (7) being disposed on the centering ring assembly (23).

5. The floating shaver as set forth in claim 2, wherein the forward and reverse transmission assembly (411) comprises a first rotary member (4111), a second rotary member (4112) and a first elastic member (4113), the first rotary member (4111) being engaged with the driving device (5), the second rotary member (4112) being disposed on the first rotary member (4111), both ends of the first elastic member (4113) being respectively abutted against the first rotary member (4111) and the second rotary member (4112); and/or

The cutter mesh driven component (412) comprises a connecting piece (4121), a cutter mesh driven piece (4122) and a second elastic piece (4123), wherein the connecting piece (4121) is connected with the positive and negative transmission component (411), two ends of the second elastic piece (4123) are respectively propped against the connecting piece (4121) and the cutter mesh driven piece (4122), and the cutter mesh driven piece (4122) is connected with the outer cutter mesh component (22).

6. The floating shaver as in claim 1, wherein the movable blade elastic transmission assembly (42) comprises a movable blade transmission assembly (421), a movable blade driven assembly (422) and a second connecting member (423), the movable blade transmission assembly (421) is connected with the driving device, both ends of the second connecting member (423) are respectively connected with the movable blade transmission assembly (421) and the movable blade driven assembly (422), and the movable blade driven assembly (422) is connected with the inner movable blade assembly (31) and the outer movable blade assembly (32).

7. The floating shaver as in claim 6, wherein the moving blade follower assembly (422) comprises an inner moving blade follower (4221), an outer moving blade follower (4222) and an elastic transmission member (4223), the elastic transmission member (4223) being connected to the second connection member (423), the inner moving blade follower (4221) and the outer moving blade follower (4222) being provided on the elastic transmission member (4223), the outer moving blade follower (4222) being located outside the inner moving blade follower (4221), the outer moving blade follower (4222) being connected to the outer moving blade assembly (32), the inner moving blade follower (4221) being connected to the inner moving blade assembly (31); and/or

The movable cutter transmission assembly (421) comprises a first transmission member (4211), a second transmission member (4212) and a third elastic member (4213), wherein the first transmission member (4211) is connected with the driving device (5), the second transmission member (4212) is arranged on the first transmission member (4211), and two ends of the third elastic member (4213) are respectively abutted against the first transmission member (4211) and the second transmission member (4212).

8. The floating shaver as in claim 1, wherein the driving device (5) comprises a power assembly (51), a cutter mesh forward and reverse rotation driving assembly (52) and a movable cutter driving assembly (53), the power assembly (51) is connected with the movable cutter driving assembly (53), the power assembly (51) is used for driving the movable cutter driving assembly (53) to rotate, one end of the movable cutter driving assembly (53) is connected with the movable cutter elastic transmission assembly (42), the cutter mesh forward and reverse rotation driving assembly (52) is connected with the movable cutter driving assembly (53) in a meshed manner, the cutter mesh forward and reverse rotation driving assembly (52) is connected with the cutter mesh elastic transmission assembly (41), and the cutter mesh forward and reverse rotation driving assembly (52) is used for driving the cutter mesh elastic transmission assembly (41) to rotate forward and reverse.

9. The floating shaver as in claim 8, wherein,

The cutter mesh forward and backward rotation driving assembly (52) comprises a gear assembly (521), a forward and backward driving assembly (522) and a cutter mesh transmission gear assembly (523), the gear assembly (521) is in meshed connection with the movable cutter driving assembly (53), the forward and backward driving assembly (522) is in meshed connection with the gear assembly (521), the forward and backward driving assembly (522) is connected with the cutter mesh transmission gear assembly (523), the forward and backward driving assembly (522) can drive the cutter mesh transmission gear assembly (523) to perform forward and backward rotation, and the cutter mesh transmission gear assembly (523) is in meshed connection with the cutter mesh elastic transmission assembly (41); and/or

The movable cutter driving assembly (53) comprises a movable cutter transmission gear assembly (531) and a transmission shaft (532), the movable cutter transmission gear assembly (531) is respectively connected with the power assembly (51) and the cutter mesh forward and reverse rotation driving assembly (52) in a meshed mode, the transmission shaft (532) is arranged on the movable cutter transmission gear assembly (531) in a penetrating mode, one end of the transmission shaft (532) is connected with the movable cutter elastic transmission assembly (42), and the transmission shaft (532) is used for driving the movable cutter elastic transmission assembly (42) to rotate; and/or

The power assembly (51) comprises a motor (511), a first connecting shaft (512) and a first gear piece (513), wherein the first connecting shaft (512) is connected with the motor (511), the first connecting shaft (512) is arranged on the first gear piece (513) in a penetrating mode, and the first gear piece (513) is connected with the movable cutter driving assembly (53) in a meshed mode.

10. The floating shaver as in claim 1, wherein the housing assembly (1) comprises a head housing assembly (11), a body housing assembly (12) and a housing connection holder (13), the housing connection holder (13) being provided on the body housing assembly (12), the head housing assembly (11) being provided on the housing connection holder (13), the housing connection holder (13) being located between the head housing assembly (11) and the body housing assembly (12), the cutter mesh assembly (2) and the movable cutter assembly (3) being provided on the head housing assembly (11).

11. The floating shaver as in claim 9, wherein,

The machine head shell assembly (11) comprises a lower cover assembly (111), an upper cover assembly (112) and a button assembly (113), wherein the lower cover assembly (111) is arranged on the shell connecting seat (13), the upper cover assembly (112) is movably arranged on the lower cover assembly (111), the knife net assembly (2) and the knife moving assembly (3) are arranged on the upper cover assembly (112), the button assembly (113) is arranged on the lower cover assembly (111), the button assembly (113) is connected with the upper cover assembly (112), and the button assembly (113) is used for opening the upper cover assembly (112); and/or

The machine head comprises a machine head shell assembly, and is characterized by further comprising an elastic silica gel piece (6), wherein the elastic silica gel piece (6) is arranged on the shell connecting seat (13), the other end of the elastic silica gel piece (6) is connected with the machine head shell assembly (11), the elastic silica gel piece (6) comprises an upper connecting portion (61), a silica gel body (62) and a lower connecting portion (63), the upper connecting portion (61) and the lower connecting portion (63) are respectively arranged at two ends of the silica gel body (62), the upper connecting portion is connected with the machine head shell assembly (11), a limiting groove (101) is formed in the outer wall of the shell connecting seat (13), and the limiting groove is matched with the lower connecting portion (63); or (b)

The machine head comprises a machine head shell assembly (11), and is characterized by further comprising an elastic silica gel piece (6), wherein the elastic silica gel piece (6) is arranged on the shell connecting seat (13), the other end of the elastic silica gel piece (6) is connected with the machine head shell assembly (11), and the outer wall of the elastic silica gel piece (6) forms a wavy curved surface; or (b)

Still include elasticity silica gel spare (6), elasticity silica gel spare (6) set up on casing connecting seat (13), the other end of elasticity silica gel spare (6) with aircraft nose casing subassembly (11) are connected.

12. A floating shaver as in claim 1, wherein the driving means (5) are capable of driving the mesh elastic transmission assembly (41) in both forward and reverse rotation.