CN115089866B - Facial planting device for medical beauty with exosome - Google Patents

Abstract

The invention discloses a facial planting device of an exosome applied to medical science and beauty, which comprises a first shell, wherein a first cavity and a second cavity are arranged in the first shell, an injection mechanism is arranged in the first cavity, and a leading-in mechanism is arranged in the second cavity; the injection mechanism is used for smearing the exosome on the face of the human body; the introducing mechanism is used for delivering the coated exosome into the mesoderm of the face. The exosome applied to the facial planting device for medical beauty provided by the invention is combined with the planting mechanism through the injection mechanism, and can be immediately introduced into the mesoderm of the face of a human body after being smeared, so that the exosome can be smeared and introduced at the same time.

Description

Exosome is applied to face planting device who doctors and nurses

Technical Field

The invention relates to the field of health care, in particular to a facial planting device for applying exosomes to medical and beauty.

Background

Exosomes refer to small membrane vesicles (30-150 nm) containing complex RNAs and proteins, which today refer to disc-like vesicles 40-100nm in diameter, naturally occurring in body fluids, including blood, saliva, urine, cerebrospinal fluid and milk, for participating in substance transport and information transfer between cells. The skin-care product is widely applied to the beauty industry due to the superior functional characteristics, and the main action mechanism of the skin-care product is that exosomes are injected into mesoderm to accelerate the metabolism of cells and remove harmful free radicals in the skin, so that the skin repairing and regenerating capability is improved, and the anti-aging purpose is achieved; exosomes are biologically active and are typically placed in an environment at 4 ℃ when short-term storage is required, or-20 ℃ to-80 ℃ if long-term storage is required.

If the grant notice number is CN 214807869U, the date of grant is 2021.11.23, the name is "a leading-in appearance of stem cell exosome non-invasive intelligence" utility model patent, including leading-in appearance, be provided with leading-in head in the leading-in appearance, the right-hand member fixedly connected with connecting groove piece of leading-in appearance, the right-hand member opening part of leading-in appearance is provided with the closing cover, be provided with the round pin axle in the top of closing cover, the positive one end of round pin axle and the one end at the back joint respectively are at the front of connecting groove piece inner wall and the back of inner wall, the outer wall of round pin axle is provided with the coil spring, and the outer wall fixed connection of the one end of coil spring and closing cover. The upper surface of leading-in appearance inner wall and the lower surface of inner wall respectively fixedly connected with first stopper and second stopper, fixedly connected with backup pad in the leading-in appearance, the left end fixedly connected with spring of leading-in head, the left end of spring and the right flank fixed connection of backup pad, the left end of leading-in head is provided with the pipe, the left end of leading-in head is provided with the stay cord.

The existing exosome planting mode adopts the steps that exosomes are manually coated on the face of a human body firstly, then the coated exosomes are introduced into a mesoderm on the face through an exosome introduction instrument, the introduction of the exosomes can be completed within more than 10 minutes, obviously, the bioactivity of the exosomes can be seriously influenced when the exosomes are at an inappropriate temperature for a long time, and therefore, the effect of the exosomes is reduced.

Disclosure of Invention

The invention aims to provide a facial planting device with exosomes applied to medical and beauty treatment, and aims to overcome the defects in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme:

an exosome is applied to a face planting device for medical and beauty, and comprises a first shell, wherein a first cavity and a second cavity are formed in the first shell, an injection mechanism is arranged in the first cavity, and a leading-in mechanism is arranged in the second cavity;

the injection mechanism is used for smearing the exosome on the face of the human body;

the introducing mechanism is used for delivering the coated exosome into the mesoderm of the face.

Foretell an exosome is applied to face planting device of doctor's beauty, first shell includes first semi-circular barrel and second semi-circular barrel, first semi-circular barrel with pass through hinged joint between the second semi-circular barrel, first semi-circular barrel one side is provided with the fixture block, second semi-circular barrel one side is provided with the draw-in groove, fixture block and draw-in groove joint.

Foretell exosome is applied to face planting device of doctor-beauty, injection mechanism includes the syringe, first cavity inside wall rigid coupling has the snap ring, the syringe joint in on the snap ring, first cavity inside wall sliding connection has the cardboard, syringe top joint is in the cardboard, cardboard one side is provided with lift drive assembly.

Foretell exosome is applied to medical and American facial planting device, the cardboard open end is the loudspeaker form.

Foretell exosome is applied to beautiful facial planting device of doctor, two spouts, two have been seted up to cardboard inside elastic connection has two butt pieces in the spout, two the butt piece all with syringe top butt, two install the connecting rod between the butt piece.

Foretell exosome is applied to face planting device of doctor-beauty, first shell bottom can dismantle and be connected with the second shell.

The exosome is applied to the face planting device for medical beauty, a shunt is fixedly connected in the second shell, and a connecting pipe is arranged between the shunt and the injector.

The exosome is applied to the medical and aesthetic facial planting device, a floating plate is fixedly connected to the flow divider, and the cross section of the floating plate is in a right-angled trapezoid shape.

Foretell exosome is applied to face planting device of doctor-beauty, leading-in mechanism include the limiting plate and with limiting plate sliding connection's transfer line, the limiting plate rigid coupling in the second cavity internal wall, be provided with the introduction board in the second shell, introduction board top rigid coupling has the round bar, second shell inside wall rigid coupling has the fixed plate, the round bar with fixed plate sliding connection, be provided with the resilience spring between fixed plate and the introduction board, the round bar with the connection can be dismantled to the transfer line, the transfer line top is provided with reciprocating drive subassembly.

The exosome is applied to the face planting device for medical beauty, and a heat preservation mechanism is arranged in the first cavity.

In the technical scheme, the exosome is applied to the medical and beauty facial planting device, and the injection mechanism and the planting mechanism are combined, so that the exosome can be immediately introduced into the mesoderm of the face of a human body after being coated, and the exosome can be introduced while being coated.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIG. 1 is a schematic view of the overall structure of an embodiment of the present invention showing the opened state of a first drum;

fig. 2 is a schematic front view of a first barrel in a closed state according to an embodiment of the present invention;

FIG. 3 is a schematic sectional view of the whole structure at a-a in FIG. 2;

FIG. 4 is a partial cross-sectional structural view at b-b in FIG. 2;

FIG. 5 is a schematic view of a portion of FIG. 2 taken in section at c-c;

fig. 6 is a schematic view of the overall structure of the second housing interior according to the embodiment of the present invention;

FIG. 7 is a schematic view of the installation of the splitter and the auxiliary plate according to the embodiment of the present invention;

FIG. 8 is a side view of the first barrel in a closed position according to an embodiment of the present invention;

FIG. 9 is a schematic view of a portion of FIG. 8 taken in section at d-d;

fig. 10 is a schematic overall structure diagram of a second housing according to an embodiment of the present invention;

FIG. 11 is a schematic view of the overall structure of an auxiliary board according to an embodiment of the present invention;

fig. 12 is a schematic view of an overall structure of a guide plate according to an embodiment of the present invention;

FIG. 13 is an enlarged view of a portion of the structure at A in FIG. 3;

FIG. 14 is an enlarged view of a portion of the structure at B in FIG. 4;

fig. 15 is an enlarged view of a portion of the structure at C in fig. 7:

1. a first housing; 1.1, a first semi-barrel; 1.1.1, a fixture block; 1.2, a second semi-cylinder; 1.2.1, a clamping groove; 2. a first cavity; 3. a second cavity; 4. an injector; 4.1, a pull rod; 5. a snap ring; 6. clamping a plate; 6.1, a chute; 7. a butting block; 8. a connecting rod; 9. a second housing; 9.1, a limiting block; 9.2, a guide groove; 10. a flow divider; 11. a connecting pipe; 12. smearing a plate; 13. a limiting plate; 14. a transmission rod; 15. a guide-in plate; 15.1, introducing a needle; 15.2, a lifting plate; 15.3, a first wedge-shaped block; 15.4, a limiting groove; 15.5, bumps; 16. a round bar; 17. a fixing plate; 18. a rebound spring; 19. an auxiliary plate; 19.1, pinholes; 19.2, ribs; 19.3, a channel; 19.4, a flow guide block; 19.5, a second wedge-shaped block; 19.6, guide rails; 19.7, grooves.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

In the embodiment of the invention, for convenience of description, the direction of the second housing axially facing the first housing is called upward, and vice versa, and the direction is also the direction of the face planting device when the face planting device is used.

Referring to fig. 1 to 15, an embodiment of the present invention provides a facial implanting device for applying an exosome to medical science and beauty, including a first housing 1, a first cavity 2 and a second cavity 3 are arranged in the first housing 1, an injection mechanism is arranged in the first cavity 2, and an introduction mechanism is arranged in the second cavity 3; the injection mechanism is used for smearing the exosome on the face of the human body; the introducing mechanism is used for delivering the coated exosome into the mesoderm of the face.

Specifically, the injection mechanism can extract exosomes from a storage container of the exosomes in a suction mode, then the exosomes after being sucked are injected to the face, then the exosomes are uniformly coated in the area where the exosomes need to be planted, the introduction mechanism can open a plurality of nano-level passages through a medicine capillary passage technology, the exosomes are introduced into mesoderm, a conducting wire for connecting equipment is arranged at the top end of the first shell 1, the first shell 1 is cylindrical and can also be in other shapes convenient for being held by a person, the middle of the first shell is divided into two hollow areas by a partition plate, the two hollow areas respectively correspond to the first cavity 2 and the second cavity 3, the injection mechanism is arranged in the first cavity 2, the introduction mechanism is arranged in the second cavity 3, the injection mechanism and the introduction mechanism can be combined in the same first shell 1, the coated exosomes can be immediately introduced into the facial mesoderm after the exosomes are coated, the introduction of the exosomes is realized, the integration of the two operation steps is realized, the effect of the exosomes is realized, the anti-aging effect is realized, and the benefit of the long-aging effect of the implant is realized.

Preferably, the first housing 1 includes a first half-drum 1.1 and a second half-drum 1.2, one side of the first half-drum 1.1 is connected with one side of the second half-drum 1.2 through a hinge, a clamping block 1.1.1 is further disposed on one side of the first half-drum 1.1, a clamping groove 1.2.1 is disposed on the other side of the second half-drum 1.2, the clamping block 1.1.1 is clamped with the clamping groove 1.2.1 to clamp the other side of the first half-drum 1.1 to the other side of the second half-drum 1.2, specifically, an area enclosed by the first half-drum 1.1 is a first cavity 2, an area enclosed by the second half-drum 1.2 is a second cavity 3, the clamping block 1.1.1 includes a mounting plate and two elastic plates, the two elastic plates are disposed on two sides of the mounting plate respectively, when fixture block 1.1.1 and draw-in groove 1.2.1 joint, the elastic plate is extruded, thereby can provide reaction force with fixture block 1.1.1 and draw-in groove 1.2.1 joint, first semi-drum 1.1 is provided with the fixed axle with second semi-drum 1.2 hinge department, first semi-drum 1.1 can be rotatory round the fixed axle, when first cavity 2 seals, fixture block 1.1.1 and draw-in groove 1.2.1 joint, when needs open first cavity 2, relieve fixture block 1.1.1 and draw-in groove 1.2.1's linkage effect through the manpower, thereby can open first cavity 2, the effect that so sets up lies in, through setting up the first cavity 2 that can open and shut fast, thereby can conveniently change the splendid attire container of the secretion body inside first cavity 2.

As an embodiment of the present invention, preferably, the injection mechanism includes an injector 4, a snap ring 5 is fixedly connected to an inner side wall of the first cavity 2, the injector 4 is clamped on the snap ring 5, a snap plate 6 is slidably connected to an inner side wall of the first cavity 2, a top end of the injector 4 is clamped in the snap plate 6, a lifting drive assembly is disposed on one side of the snap plate 6, specifically, the injector 4 includes a barrel, a piston is slidably connected to an inner side wall of the barrel, a pull rod 4.1 is fixedly connected to the piston, two snap rings 5 are provided, an inner diameter of the snap ring 5 is adapted to a diameter of the injector 4, the snap ring 5 is made of an elastic material, a placement groove adapted to a top end of the pull rod 4.1 is formed in the snap plate 6, the lifting drive assembly preferably selects a drive motor and a threaded rod to drive the snap plate 6 to lift, and a threaded hole adapted to the threaded rod is formed in the snap plate 6, so configured that an exosome is extracted into the injector 4, then a top end of the pull rod 4.1 is placed in the placement groove, and the barrel is clamped in the snap ring 5, so that the injector 4 can be fixed, the drive motor to drive the threaded rod to drive the output end of the injector to drive the injector to move the injector 4 to move the injector along an axial direction, thereby to extrude the syringe 4, and to move the injector, so as to drive the injector 4, and to move the piston, and to stably drive the injector 4.

Furthermore, the injection speed of the exosome can be controlled by controlling the rotating speed of the driving motor, and the stability of the exosome during injection is improved by an automatic injection mode.

Still further, 6 open ends of cardboard are the loudspeaker form, and is concrete, and the loudspeaker form indicates that 6 inside standing groove open area of cardboard is greater than the inboard area, and the effect that so sets up lies in, when the standing groove opening of pull rod 4.1 contact, because the standing groove opening is provided with great area for pull rod 4.1 enters into the standing groove edge very easily, then along with the edge can be relaxed inside sliding to the standing groove, made things convenient for pull rod 4.1 fixed.

As an embodiment of the invention, preferably, two sliding grooves 6.1 are formed in the clamping plate 6, two abutting blocks 7 are elastically connected in the two sliding grooves 6.1, the two abutting blocks 7 are abutted against the top end of the injector 4, a connecting rod 8 is installed between the two abutting blocks 7, specifically, the cross sections of the two abutting blocks 7 are in a right-angled ladder shape, the sliding grooves 6.1 are matched with the abutting blocks 7, a spring is elastically connected and preferred, one end of the spring is fixedly connected with the top ends of the abutting blocks 7, the other end of the spring is fixedly connected with the inner wall of the sliding groove 6.1, the connecting rod 8 is in a shape of '20866', and the two ends of the connecting rod 8 are respectively fixedly connected with the top ends of the two abutting blocks 7, and leave the human finger clearance that can insert between connecting rod 8 and the 6 tops of cardboard, the effect that so sets up lies in, when putting into the standing groove with pull rod 4.1 inside, pull rod 4.1 can contact and extrude the inclined plane of butt piece 7, thereby it slides along spout 6.1 inner wall to drive butt piece 7, finish with 7 extrudees of butt piece when pull rod 4.1, under the elastic force effect of spring, can realize butt piece 7's automatic re-setting, butt piece 7's right angle face and pull rod 4.1 butt this moment, thereby prevent that pull rod 4.1 from breaking away from in the standing groove, the fixed stability of syringe 4 has been increased.

Further, when the syringe 4 needs to be taken out of the first cavity 2, the first half barrel 1.1 is opened, then the connecting rod 8 is pulled by one hand, so that the limiting effect of the abutting block 7 on the pull rod 4.1 can be contacted, and the barrel can be taken out of the clamping ring 5 by the other hand with force.

As an embodiment of the present invention, preferably, the second housing 9 is detachably connected to the bottom end of the first housing 1, specifically, the second housing 9 is hollow, and is configured to have the same shape as the first housing 1, and the size of the second housing is matched with that of the first housing 1, and the detachable connection can be a snap connection or an insertion connection, so that the first housing 1 and the second housing 9 can be separated, and the effect of the configuration is that the second housing 9 and the parts arranged inside the second housing 9 are disposable articles, after the planting of an exosome is completed, the second housing 9 needs to be replaced with a new one, and the detachable connection can facilitate quick replacement of the second housing 9.

As an embodiment of the present invention, it is preferable that a shunt 10 is fixedly connected to the second housing 9, a connection pipe 11 is disposed between the shunt 10 and the injector 4, specifically, the shunt 10 is preferably a rectangular parallelepiped with a hollow interior, an extension portion is disposed at a top end of the shunt 10, a plurality of injection holes are disposed in the shunt 10, two ends of the connection pipe 11 are communicated with an outlet of the injector 4 and the extension portion of the shunt 10, and the top end of the connection pipe 11 is connected to the outlet of the injector 4 in a plug-in manner, so that when the injector 4 injects an exosome, the injection holes divide an exosome injected from the outlet of the injector 4 into a plurality of strands uniformly and inject the strands onto the facial skin uniformly.

Further, the plug-in connection can facilitate the separation of the syringe 4 from the connection tube 11, and when the first housing 1 is separated from the second housing 9, the syringe 4 can be separated synchronously, thereby facilitating the replacement of the second housing 9 and the internal parts of the second housing 9.

As an embodiment of the present invention, preferably, a troweling plate 12 is fixedly connected to the shunt 10, a cross section of the troweling plate 12 is in a right trapezoid shape, specifically, the troweling plate 12 is fixedly connected below the shunt 10 and located at a rear side of a movement stroke of the injection hole, and a gap for accommodating passage of the exosome is left between the troweling plate 12 and a face, that is, a bottom end of the troweling plate 12 should be slightly higher than a bottom end of the second housing 9.

As an embodiment of the present invention, preferably, the guiding mechanism includes a limiting plate 13 and a transmission rod 14 slidably connected to the limiting plate 13, the limiting plate 13 is fixedly connected to an inner side wall of the second cavity 3, a guiding plate 15 is disposed in the second housing 9, a round rod 16 is fixedly connected to a top end of the guiding plate 15, a fixing plate 17 is fixedly connected to an inner side wall of the second housing 9, the round rod 16 is slidably connected to the fixing plate 17, a rebound spring 18 is disposed between the fixing plate 17 and the guiding plate 15, the round rod 16 is detachably connected to the transmission rod 14, a reciprocating driving assembly is disposed at a top end of the transmission rod 14, specifically, the guiding plate 15 includes a square plate and a plurality of guiding needles 15.1 fixedly connected to a lower portion of the square plate, a hole adapted to the round rod 16 is formed in the fixing plate 17, so that the round rod 16 can only move along its own axial direction, and the round rod 16 is fixedly connected to the guiding plate 15, so that the guiding plate 15 can only axially move along the round rod 16, the driving rod 14 can be a cylindrical rod or other shapes capable of transmitting power, a limiting hole matched with the driving rod 14 is formed in the limiting plate 13, the limiting hole can limit the radial movement of the driving rod 14, so that the driving rod 14 can only axially move along the limiting hole, the fixing plate 17 is fixedly connected to the inner side wall of the second housing 9 and is positioned right above the guiding plate 15, the reciprocating driving component is preferably a cam reciprocating component, one end of the rebound spring 18 is fixedly connected with the fixing plate 17, the other end of the rebound spring 18 is fixedly connected with the guiding plate 15 and is used for further providing the rising return power of the guiding plate 15, the detachable connection can be one of a joint connection, a screw joint connection or other connection modes convenient for transmitting kinetic energy, and the arrangement is used for providing the power for the axial reciprocating movement of the driving rod 14 through the cam reciprocating component, so that the transmission rod 14 reciprocates along the limiting hole, and the transmission rod 14 drives the round rod 16 and the guide plate 15 to reciprocate, and the guide needle 15.1 at the bottom of the guide plate 15 penetrates into the mesoderm of the face, and the area passed by the guide plate 15 is coated with the exosome by the injection mechanism, so that the exosome can be simultaneously brought into the mesoderm while the guide needle 15.1 penetrates into the face of the user, and the planting of the exosome is realized.

Further, a lifting plate 15.2 is slidably connected in the introducing plate 15, specifically, the introducing plate 15 is of a telescopic structure, and the position of the lifting plate 15.2 in the introducing plate 15 can be adjusted, so that the length of the introducing needle 15.1 in the introducing plate 15 can be adjusted by the height of the lifting plate 15.2, when the length of the introducing needle 15.1 entering the introducing plate 15 is larger, the length of the introducing needle 15.1 which can be introduced is smaller, and when the length of the introducing needle 15.1 entering the introducing plate 15 is larger, the length of the introducing needle 15.1 which can be introduced is adjusted, namely, the depth of the exosome introduction is adjusted.

Still further, 9 inside wall rigid couplings of second shell have stopper 9.1, the spacing groove 15.4 has been seted up to the introduction plate 15, stopper 9.1 and spacing groove 15.4 sliding connection, it is specific, stopper 9.1 and spacing groove 15.4 all are provided with two, and the effect that so sets up lies in, under stopper 9.1 and spacing groove 15.4 sliding connection's effect, appears self-rotation when can prevent to introduce plate 15 and reciprocate to increase the stability of introducing the lift of plate 15.

As an embodiment of the present invention, it is preferable that an auxiliary plate 19 is disposed in the second housing 9, the auxiliary plate 19 is fixedly connected to a guide rail 19.6, the inner side wall of the second housing 9 and the side wall of the shunt 10 are both provided with a guide groove 9.2 having a diameter adapted to the guide rail 19.6, the guide rail 19.6 is slidably connected to the guide groove 9.2, specifically, the length of the guide groove 9.2 is longer than the length of the guide rail 19.6, the auxiliary plate 19 is in a shape of "concave", and the auxiliary plate 19 is provided with needle holes 19.1 corresponding to the introduction needles 15.1 one by one, and the arrangement is such that the auxiliary plate 19 has a certain sealing effect on the inside of the second housing 9, so as to reduce the exosomes flowing out from the injection holes from entering the second housing 9, thereby reducing the waste of the exosomes, and the auxiliary plate 19 can move under the effect of the sliding connection of the guide rail 19.6 and the guide groove 9.2.

Further, a plurality of ribs 19.2 are fixedly connected below the auxiliary plate 19, a plurality of channels 19.3 are formed between the ribs 19.2, the needle holes 19.1 are uniformly arranged in the channels 19.3, a plurality of flow guide blocks 19.4 are fixedly connected between the ribs 19.2, the needle holes 19.1 are respectively positioned at one end of each flow guide block 19.4, specifically, the ribs 19.2 are in a cuboid shape and are uniformly arranged below the auxiliary plate 19, the flow guide blocks 19.4 are in a triangular shape and are arranged in one-to-one correspondence with the needle holes 19.1, the arrangement is characterized in that one end of each rib 19.2 plays a role in flow guide of the coated exosomes, redundant exosomes are newly guided to the lower part of the injection hole and are leveled again by the leveling plate 12, the waste of the exosomes is reduced, the plurality of channels 19.3 among the plurality of ribs 19.2 can play a role in really smearing the area of the exosomes, and the exosomes can be sent to the implantation embryo in the area of the implantation area needed face when the exosomes in each time, and the implantation area can be sent to the implantation embryo 15.1.

Still further, the guide block 19.4 in the channel 19.3 can gather the exosomes in the channel 19.3, so that the exosomes in the channel 19.3 can be almost all concentrated at the position of the needle hole 19.1, and as many exosomes as possible can enter the mesoderm in the face of the planted person when the introducing needle 15.1 conducts introduction, and obviously, the introduction quantity of the exosomes can be increased, so that the metabolic rate of cells in the mesoderm can be increased, and the anti-aging effect of the exosomes can be increased.

Still further, in the process of planting the exosome, an operator generally determines whether the exosome successfully flows out of the flow divider 10 by visually observing whether the area after the exosome is planted is wet, but since the exosome is transparent and the thickness of the applied exosome is small, the situation of determination errors is easily caused only by visual observation, and in the present invention, under the action of the rib 19.2 and the flow guide block 19.4 at the bottom of the auxiliary plate 19, the area of the applied exosome is corrugated, and under the gathering action of the flow guide block 19.4, the exosome in the area can be improved, obviously, the phenomenon can provide great help for the operator to determine whether the exosome successfully flows out of the flow divider 10.

As an embodiment of the present invention, preferably, the top of the introducing plate 15 is fixedly connected with a first wedge block 15.3, the inner side wall of the auxiliary plate 19 is fixedly connected with a second wedge block 19.5, and the second wedge block 19.5 is elastically connected with the inner side wall of the second housing 9, the first wedge block 15.3 is abutted against the second wedge block 19.5, specifically, two second wedge blocks 19.5 are preferred and symmetrically arranged on the inner side wall of the auxiliary plate 19 at both sides, the elastic connection is preferably a rebound spring, one end of the rebound spring is fixedly connected to the second wedge block 19.5, the other end of the rebound spring is fixedly connected to the inner side wall of the second housing 9, two first wedge blocks 15.3 are respectively and symmetrically arranged at both sides of the top of the introducing plate 15, and both the upper and lower sides of the first wedge block 15.3 and the second wedge block 19.5 are provided with wedge faces, the function that, after one introduction of the introducing plate 15 is completed, the introducing plate 15 moves upward under the action of the cam motion assembly, thereby driving the first wedge block 15.3 to move upward synchronously, wherein the two wedge blocks have a continuous ascending stroke: a first stroke and a second stroke, wherein the first stroke is a free ascending stroke, the guide needle 15.1 can be separated from the needle hole 19.1 in the vertical direction under the stroke, the first wedge block 15.3 is not abutted with the second wedge block 19.5 (namely a gap is formed between the first wedge block 15.3 and the second wedge block 19.5 in the initial state), the second stroke is an abutting stroke of a wedge surface above the first wedge block 15.3 and a wedge surface below the second wedge block 19.5, and when the first wedge block 15.3 is contacted with the second wedge block 19.5 and extruded under the stroke, a horizontal (the horizontal direction is a direction vertical to the length direction of the rib 19.2) acting force is provided to the second wedge block 19.5, under the action of the sliding connection between the guide rail 19.6 and the guide groove 9.2, the second wedge-shaped block 19.5 and the auxiliary plate 19 are pushed to move horizontally, the rebound spring is compressed at the moment, so that the rib 19.2 moves to the position above the region into which the introduction needle 15.1 is just introduced, the rib 19.2 sinks into the channel 19.3 due to the soft skin of the face, the bottom end of the rib 19.2 is higher than the inner wall of the channel 19.3, the rib 19.2 moves horizontally and simultaneously performs squeezing massage on the region into which the introduction needle 15.1 is just introduced, the second wedge-shaped block 19.5 automatically resets under the action of the rebound spring after squeezing is finished, and the introduction plate 15 also has two continuous strokes when descending: a third stroke and a fourth stroke, the third stroke is a stroke in which a wedge-shaped surface below the first wedge-shaped block 15.3 abuts against a wedge-shaped surface above the second wedge-shaped block 19.5, when the first wedge-shaped block 15.3 contacts and extrudes the second wedge-shaped block 19.5, a horizontal acting force is also provided to the second wedge-shaped block 19.5, and the auxiliary plate 19 and the rib 19.2 are also moved horizontally, so that the rib 19.2 performs extrusion massage again on a region into which the needle 15.1 has just been introduced, in the third stroke, after the wedge-shaped surface below the first wedge-shaped block 15.3 abuts against a wedge-shaped surface above the second wedge-shaped block 19.5, the second wedge-shaped block 19.5 and the auxiliary plate 19 move horizontally in synchronization under the action of a rebound spring, so that the needle 15.1 moves to a position right above the needle hole 19.1, and then enters the fourth stroke, the fourth stroke is a normal falling process of the needle introduction plate 15, and since the rebound spring after the third stroke is in the needle 15.1, the needle introduction process, the needle 15.1 has just fallen outside the needle hole, the needle introduction area can be introduced into the needle hole 15.1, and the needle hole 15.15 is introduced into the normal falling process, so that the needle hole can be introduced into the needle hole 15.1, the needle introduction process, and the needle introduction process can be increased.

Further, between the third stroke and the fourth stroke, the squeezing effect of the first wedge-shaped block 15.3 on the second wedge-shaped block 19.5 is slowly released, at this time, the second wedge-shaped block 19.5 and the auxiliary plate 19 move in reverse under the elastic force of the rebound spring, so as to drive the guide rail 19.6 to move in reverse along the guide groove 9.2, when the guide rail 19.6 moves to the edge of the guide groove 9.2, the guide rail 19.6 and the auxiliary plate 19 stop moving, at this time, the needle hole 19.1 of the auxiliary plate 19 is just under the guide needle 15.1, so as to prepare for the next introduction of the exosomes, at this time, the rebound spring is still in a compressed state, and the reverse elastic force provided by the rebound spring makes the guide rail 19.6 cling to the edge of the guide groove 9.2, so as to fix the position of the auxiliary plate 19, avoid the auxiliary plate 19 from shaking, and thus the needle hole 19.1 is always under the guide needle 15.1.

Further, a bump 15.5 is fixedly connected to the guide plate 15, a groove 19.7 is formed in the inner side wall of the auxiliary plate 19, the bump 15.5 is slidably connected to the groove 19.7, a passive alarm mechanism is arranged inside the bump 15.5, the passive alarm mechanism includes a pressure sensor, the pressure sensor is mounted at the bottom of the bump 15.5, specifically, two bumps 15.5 and two grooves 19.7 are arranged, the two bumps 15.5 are respectively located on the outer walls of two sides of the guide plate 15, the two grooves 19.7 are respectively located on the inner walls of two sides of the auxiliary plate 19, the bottom end of the bump 15.5 is arc-shaped, the groove 19.7 is similar to a funnel shape, that is, the top opening of the groove 19.7 is larger than the bottom end, and the width of the bump 15.5 is approximately equal to the width of the bottom end of the groove 19.7, in the first stroke and the fourth stroke, the bump 15.5 is completely located at the bottom end of the groove 19.7, the guide needle 15.1 is just located in the pinhole 19.1, the two pressure sensors are respectively mounted at the bottom ends of the two bumps 15.5, and the pressure sensor is electrically connected to the controller, and the effect of the bump 15.5 is that the two bumps 15.5 is that: one is a guiding function, when the guiding plate 15 descends, the bumps 15.5 on two sides of the guiding plate are driven to descend, when the auxiliary plate 19 is not completely reset under the action of the rebound spring, because the groove 19.7 adopts an approximately funnel-shaped design, the bumps 15.5 can contact the inclined side walls of the groove 19.7 and slide to the bottom end of the groove 19.7 along the inclined side walls of the groove 19.7, at the moment, the guiding needles 15.1 are correspondingly positioned above the needle holes 19.1 one by one, so that the guiding needles 15.1 can smoothly penetrate out of the needle holes 19.1, and the other is a calibration alarm function, when the bumps 15.5 cannot accurately fall to the bottom end of the groove 19.7, namely, the pressure sensors at the bottoms of the bumps 15.5 are blocked on the inclined side walls of the groove 19.7, so that a large pressure alarm is detected, namely, when the pressure sensors sense large pressure, the controller can open the buzzer and close the reciprocating cam assembly, at the moment, the instrument gives an alarm, so that a worker can timely inform that the bumps 15.5 and the groove 19.7 and the cam assembly fails, and the cam assembly cannot normally work, thereby avoiding damage caused by the blockage of the reciprocating movement of the cam assembly.

As an embodiment of the present invention, preferably, a heat preservation mechanism is disposed in the first cavity 2, and specifically, the heat preservation mechanism may be a heat preservation layer added in a side wall of the first cavity 2 or other heat preservation methods in the prior art, so as to prevent the exosome inside the injector 4 from changing under the influence of external temperature factors, thereby ensuring the biological activity of the exosome as much as possible.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (6)

1. The facial planting device for applying exosomes to medical science and beauty comprises a first shell and is characterized in that a first cavity and a second cavity are formed in the first shell, an injection mechanism is arranged in the first cavity, and a guide-in mechanism is arranged in the second cavity; the injection mechanism is used for smearing the exosome on the face of the human body; the injection mechanism comprises an injector, a clamping ring is fixedly connected to the inner side wall of the first cavity, the injector is clamped on the clamping ring, a clamping plate is connected to the inner side wall of the first cavity in a sliding mode, the top end of the injector is clamped in the clamping plate, and a lifting driving assembly is arranged on one side of the clamping plate; two sliding grooves are formed in the clamping plate, two abutting blocks are elastically connected in the two sliding grooves, the two abutting blocks are abutted to the top end of the injector, a connecting rod is arranged between the two abutting blocks, and the bottom end of the first shell is detachably connected with a second shell;

the guiding mechanism is used for conveying the smeared exosome into a mesocotium of the face and comprises a limiting plate and a transmission rod in sliding connection with the limiting plate, the limiting plate is fixedly connected to the inner side wall of the second cavity, a guiding plate is arranged in the second shell, a round rod is fixedly connected to the top end of the guiding plate, a fixing plate is fixedly connected to the inner side wall of the second shell, the round rod is in sliding connection with the fixing plate, a rebound spring is arranged between the fixing plate and the guiding plate, the round rod is detachably connected with the transmission rod, and a reciprocating driving assembly is arranged at the top end of the transmission rod;

the auxiliary plate is arranged in the second outer shell and fixedly connected with a guide rail, guide grooves matched with the diameter of the guide rail are formed in the inner side wall of the second outer shell and the side wall of the flow divider, the guide rail is in sliding connection with the guide grooves, the length of each guide groove is longer than that of the guide rail, the auxiliary plate is in a concave shape, needle holes in one-to-one correspondence with the guide needles are formed in the auxiliary plate, a plurality of ribs are fixedly connected below the auxiliary plate, a plurality of channels are formed among the ribs, each needle hole is uniformly arranged in each channel, a plurality of flow guide blocks are fixedly connected among the ribs, each needle hole is located at one end of each flow guide block, each rib is in a cuboid shape, the plurality of ribs are uniformly arranged below the auxiliary plate, the flow guide blocks are in a triangular shape and are arranged in one-to-one correspondence with the needle holes, one end of each rib plays a flow guide role in guiding for the applied exosomes, the redundant exosomes are guided to the injection holes, and are trowelled again through the trowelling plate.

2. The facial planting device of an exosome applied to medical beauty according to claim 1, wherein the first shell comprises a first semi-circular barrel and a second semi-circular barrel, the first semi-circular barrel is connected with the second semi-circular barrel through a hinge, a clamping block is arranged on one side of the first semi-circular barrel, a clamping groove is arranged on one side of the second semi-circular barrel, and the clamping block is clamped with the clamping groove.

3. The device for implanting exosomes into the face of medical and aesthetic people according to claim 1, wherein the open end of the clamping plate is trumpet-shaped.

4. The device for implanting exosomes into beauty treatment face according to claim 1, wherein a shunt is fixedly connected in the second shell, and a connecting pipe is arranged between the shunt and the injector.

5. The device for implanting an exosome to a medical and aesthetic face according to claim 4, wherein a floating plate is fixedly connected to the shunt, and the cross section of the floating plate is in a right trapezoid shape.

6. An exosome according to claim 1 applied to a medical and aesthetic face implanting device, wherein a heat preserving mechanism is arranged in the first cavity.

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