CN111956917B - Multifunctional ultrasonic atomizer - Google Patents

Abstract

The invention discloses a multifunctional ultrasonic atomizer, which comprises: handheld portion, ultrasonic atomization seat set up in handheld portion, are provided with control mechanism in the handheld portion, are provided with the liquid medicine chamber in the ultrasonic atomization seat, and the left end of ultrasonic atomization seat can be dismantled and be provided with the atomizing and lead the mouth, and the atomizing is led and is provided with the ultrasonic atomization piece in the mouth, and the ultrasonic atomization piece is connected with control mechanism selectivity electricity. The multifunctional ultrasonic atomizer mainly comprises a handheld part and an ultrasonic atomizing seat, wherein the ultrasonic atomizing seat can be detached from the handheld part, so that a user can clean the ultrasonic atomizing seat conveniently; the liquid medicine bowl cover that sets on the ultrasonic atomization seat adopts smooth design for the upper surface of liquid medicine bowl cover is on the coplanar almost, has pleasing to the eye and easily manufacturing's advantage, so this function ultrasonic nebulizer can not only satisfy user's atomizing requirement, has still satisfied user's to appearance, clear requirement, makes it have so many functions, satisfies user's travelling comfort.

Description

Multifunctional ultrasonic atomizer

Technical Field

The invention relates to the technical field of atomizers, in particular to a multifunctional ultrasonic atomizer.

Background

An atomizer is a device that atomizes a liquid. The types of atomizers are various, and the atomizers can be divided into air humidifiers, medical atomizers and tobacco tar atomizers according to different purposes, wherein the medical atomizers are mainly used for treating respiratory diseases, such as cough, asthma, bronchitis and the like. The existing atomizer is large in size, is not suitable to be carried and cannot be held by hand, so that the application range of the atomizer is small, the atomizing assembly cannot be replaced, and after the atomizing assembly is damaged, only the atomizing assembly can be discarded integrally, the atomization assembly cannot be maintained, so that the resource waste is caused, and the use cost is high. And the upper cover of the atomization component of the existing atomizer is uneven, is not beautiful, is not easy to process and manufacture, and is not suitable for cleaning.

Therefore, there is a need for a multifunctional ultrasonic atomizer to at least partially solve the problems of the prior art.

Disclosure of Invention

In this summary, concepts in a simplified form are introduced that are further described in the detailed description. This summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above problems, the present invention provides a multifunctional ultrasonic atomizer comprising:

handheld portion, ultrasonic atomization seat sets up in the handheld portion, be provided with control mechanism in the handheld portion, be provided with the liquid medicine chamber in the ultrasonic atomization seat, the liquid medicine chamber upper end is provided with the liquid medicine bowl cover, the left end of ultrasonic atomization seat can be dismantled and is provided with the atomizing and lead the mouth, be provided with the atomizing block on the atomizing leads the mouth, the atomizing is led and is provided with the ultrasonic atomization piece in the mouth, the ultrasonic atomization piece with control mechanism selectivity ground is connected.

Preferably, wherein, handheld portion include left casing and with the right casing of left side body coupling, ultrasonic atomization seat detachably sets up the upper end of left casing, be provided with in the right side casing with the clamping mechanism that ultrasonic atomization seat is connected.

Preferably, the clamping mechanism comprises a clamping seat, a vertical clamping rod, a vertical spring, a horizontal pushing seat and a horizontal spring, the clamping seat is arranged in the right shell and is provided with a vertical clamping hole and a horizontal clamping hole, the upper end of the right shell is provided with a first through hole corresponding to the vertical clamping hole, the right side wall of the right shell is provided with a second through hole corresponding to the horizontal clamping hole, the vertical clamping rod is arranged in the vertical pull groove, the vertical spring is arranged at the bottom of the vertical clamping hole and abuts against the lower end of the vertical clamping rod, so that the upper end of the vertical clamping rod penetrates through the first through hole and is clamped in the clamping groove at the bottom of the ultrasonic atomizing base, the horizontally-arranged pushing seat is arranged in the horizontally-arranged clamping hole, and the horizontally-arranged spring is arranged in the horizontally-arranged clamping hole and abuts against the horizontally-arranged pushing seat, so that the right end of the horizontally-arranged pushing seat penetrates out of the second through hole.

Preferably, wherein, control mechanism includes battery compartment, control panel and plugboard, the battery compartment sets up in the handheld portion, and the bottom of handheld portion be provided with the battery bedplate that the battery compartment corresponds, the control panel sets up the left side of battery compartment and with the battery compartment electricity is connected, be provided with the power key on the left side wall of handheld portion, the power key with the control panel electricity is connected, the plugboard sets up the inside of handheld portion is close to its upper end, be provided with first electrode column on the plugboard, first electrode column with the control panel electricity is connected, first electrode column with ultrasonic atomization piece selective electricity is connected.

Preferably, wherein, the left end of ultrasonic atomization seat is provided with the atomizing groove, the right-hand member that the mouth was led in the atomizing is connected the atomizing inslot, the ultrasonic atomization piece sets up the right-hand member that the mouth was led in the atomizing, and the ultrasonic atomization piece with be provided with the sealing washer between the atomizing groove, lie in on the ultrasonic atomization seat all be provided with the electrode hole in the both sides position in atomizing groove, be provided with second electrode post and supporting spring in the electrode hole, the supporting spring cover is in support on the second electrode post and support the top the ultrasonic atomization piece, the right-hand member of second electrode post with the left end electric connection of first electrode post.

Preferably, a third through hole is formed in the left surface of the atomization guide nozzle, a threaded hole corresponding to the third through hole is formed in the ultrasonic atomization seat, and the third through hole and the threaded hole are connected through a screw rod.

Preferably, the right casing is further provided with a charging connector and an interface separation blade, the charging connector is electrically connected with the control panel, and the interface separation blade is arranged on the charging connector.

Preferably, an annular groove is formed in the bottom of the handheld portion, an inner support assembly is arranged in the annular groove, the inner support mechanism comprises an annular convex plate, a plurality of first inner support mechanisms and a plurality of second inner support mechanisms, and the plurality of first inner support mechanisms and the plurality of second inner support mechanisms are arranged between the annular convex plate and the inner top surface of the annular groove in an intersecting manner;

the first inner supporting mechanism comprises a first vertical rod, a first bottom plate, an expansion rod, a first spring, a first top plate, two bent elastic rods and a plurality of second springs, the first vertical rod is arranged on the annular convex plate, the first bottom plate is arranged on the first vertical rod, the expansion rod is arranged on the first bottom plate, the first top plate is arranged on the expansion rod, the plurality of second springs are connected between the first top plate and the inner top surface of the annular groove, the first spring is sleeved on the expansion rod and abuts against the space between the first top plate and the first bottom plate, the two bent elastic rods are respectively arranged on two sides of the expansion rod, the upper end of each bent elastic rod is connected with the end of the first top plate, and the lower end of each bent elastic rod is connected with the end of the first bottom plate;

prop mechanism and fourth internal stay mechanism in the second includes two vertical poles of second, internal stay case, second bottom plate, third bottom plate and second roof, third, prop the mechanism in, internal stay case with the interior top surface of annular groove is connected, the second roof is connected prop on the interior top surface of case in, prop the mechanism setting in the third the second roof with between the second bottom plate, prop the mechanism setting in the fourth the second bottom plate with between the third bottom plate, the upper end of the vertical pole of second is passed the bottom of internal stay case and with the third bottom plate is connected, the lower extreme of the vertical pole of second with the annular flange is connected.

Preferably, two fourth inner supporting mechanisms are arranged, each fourth inner supporting mechanism comprises a third vertical rod, a sleeve buckle, a fourth spring and two first inclined rods, the upper end of the third vertical rod is connected with the second bottom plate, the lower end of the third vertical rod is inserted into a fourth through hole of the third bottom plate, the sleeve buckle and the fourth spring are sleeved on the third vertical rod, the upper end of each first inclined rod is hinged to the sleeve buckle, the lower end of each first inclined rod is hinged to the upper surface of the third bottom plate, the upper end of each fourth spring abuts against the lower surface of the second bottom plate, and the lower end of each fourth spring abuts against the upper end of the sleeve buckle;

the third internal support mechanism comprises two internal support hinged frames, two horizontally-arranged inner rods, a horizontally-arranged outer barrel, two limit baffles and a third spring, the upper end of each internal support hinged frame is hinged to the lower surface of the second top plate, the lower end of each internal support hinged frame is hinged to the upper surface of the second bottom plate, the inner ends of the horizontally-arranged inner rods are inserted into the horizontally-arranged outer barrel, the limit baffles are arranged in the horizontally-arranged outer barrel and connected to the inner ends of the horizontally-arranged inner rods, the third spring is arranged between the two limit baffles, and the outer ends of the horizontally-arranged inner rods are connected with the middle ends of the internal support hinged frames.

Preferably, the inner support hinge frame comprises a fourth vertical rod, a second diagonal rod and a third diagonal rod, the upper end of the second diagonal rod is hinged to the lower surface of the second top plate, the lower end of the second diagonal rod is hinged to the upper end of the fourth vertical rod, the lower end of the third diagonal rod is hinged to the lower surface of the second bottom plate, the upper end of the third diagonal rod is hinged to the lower end of the fourth vertical rod, and the fourth vertical rod is connected with the outer end of the horizontally arranged inner rod.

Compared with the prior art, the invention at least comprises the following beneficial effects:

the invention provides a multifunctional ultrasonic atomizer which mainly comprises a handheld part and an ultrasonic atomizing seat, wherein the ultrasonic atomizing seat can be detached from the handheld part, so that a user can clean the ultrasonic atomizing seat conveniently; and the liquid medicine bowl cover that sets on the ultrasonic atomization seat adopts smooth design for the upper surface of liquid medicine bowl cover is almost in the coplanar, has pleasing to the eye and easily manufacturing's advantage, so this function ultrasonic nebulizer can not only satisfy user's atomizing requirement, has still satisfied user's to appearance, clear requirement, makes it have so many functions, satisfies user's travelling comfort.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of a multifunctional ultrasonic atomizer according to the present invention.

Fig. 2 is a schematic view of the internal structure of the multifunctional ultrasonic atomizer according to the present invention.

Fig. 3 is a schematic structural diagram of a clamping mechanism in the multifunctional ultrasonic atomizer according to the present invention.

Fig. 4 is a schematic structural diagram of an ultrasonic atomizing base in the multifunctional ultrasonic atomizer of the present invention.

Fig. 5 is a schematic view of an interposer in the multifunctional ultrasonic atomizer according to the present invention.

Fig. 6 is a structural bottom view of an ultrasonic atomizing base in the multifunctional ultrasonic atomizer of the present invention.

Fig. 7 is a schematic structural view of a traditional Chinese medicine liquid cavity of the multifunctional ultrasonic atomizer.

Fig. 8 is a schematic structural diagram of a first internal supporting mechanism in the multifunctional ultrasonic atomizer according to the present invention.

Fig. 9 is a schematic view of a partial structure of an inner support assembly in the multifunctional ultrasonic atomizer according to the present invention.

Fig. 10 is a schematic structural diagram of a second internal supporting mechanism in the multifunctional ultrasonic atomizer according to the present invention.

Detailed Description

The present invention is further described in detail below with reference to the drawings and examples so that those skilled in the art can practice the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 to 10, the present invention provides a multifunctional ultrasonic atomizer comprising:

handheld portion 1, ultrasonic atomization seat 2 sets up on the handheld portion 1, be provided with control mechanism in the handheld portion 1, be provided with liquid medicine chamber 201 in the ultrasonic atomization seat 2, liquid medicine chamber 201 upper end is provided with liquid medicine bowl cover 202, the left end of ultrasonic atomization seat 2 can be dismantled and is provided with the atomizing and lead mouth 203, be provided with atomizing block 213 on the atomizing leads mouth 203, the atomizing is led and is provided with ultrasonic atomization piece 204 in the mouth 203, ultrasonic atomization piece 204 with control mechanism selectivity ground electricity is connected.

The working principle of the technical scheme is as follows: the invention provides a multifunctional ultrasonic atomizer which mainly comprises a handheld part 1 and an ultrasonic atomizing base 2, wherein the ultrasonic atomizing base 2 can be conveniently installed on the handheld part 1 and also can be conveniently detached from the handheld part 1, a control mechanism is arranged in the handheld part 1 and is used for starting an ultrasonic atomizing sheet 204 in the ultrasonic atomizing base 2, so that after a liquid medicine cup cover 202 on the ultrasonic atomizing base 2 is opened by a user (the liquid medicine cup cover 202 is connected with a buckle base on the ultrasonic atomizing base 2 through a rotating buckle 214), liquid medicine can be added into a liquid medicine cavity 201, an atomizing cover cap 213 on an atomizing guide nozzle 203 is installed on the atomizing guide nozzle 203, then the ultrasonic atomizing sheet 204 is started, and atomized liquid medicine is sprayed out through the atomizing guide nozzle 203.

The beneficial effects of the above technical scheme are that: through the design of the structure, the invention provides a multifunctional ultrasonic atomizer which mainly comprises a handheld part 1 and an ultrasonic atomizing seat 2, wherein the ultrasonic atomizing seat 2 can be detached from the handheld part 1, so that a user can clean the ultrasonic atomizing seat 2 conveniently; and the liquid medicine bowl cover 202 that sets on ultrasonic atomization seat 2 adopts smooth design for the upper surface of liquid medicine bowl cover 202 is almost in the coplanar, has pleasing to the eye and easily manufacturing's advantage, so this function ultrasonic nebulizer can not only satisfy user's atomizing requirement, has still satisfied user's to appearance, clear requirement, makes it have so many functions, satisfies user's travelling comfort.

In one embodiment, the handheld portion 1 includes a left housing 101 and a right housing 102 connected to the left housing 101, the ultrasonic atomizing base 2 is detachably disposed at an upper end of the left housing 101, and a clamping mechanism connected to the ultrasonic atomizing base 2 is disposed in the right housing 102.

The working principle of the technical scheme is as follows: the handheld portion 1 includes left casing 1 and right casing 102 in this embodiment, and wherein, control mechanism installs in the inner chamber between left casing 1 and right casing 102, and ultrasonic atomization seat 2 detachably sets up the upper end at left casing 101, is provided with the latch mechanism who is connected with ultrasonic atomization seat 2 in the right casing 102, and the user can realize fixed with the dismantlement of the installation of ultrasonic atomization seat 2 through this latch mechanism like this, and the user starts ultrasonic atomization seat 2 through control mechanism and atomizes the liquid medicine.

The beneficial effects of the above technical scheme are that: through the design of the structure, the embodiment provides a specific structure of the handheld portion 1, and the handheld portion 1 mainly comprises the left shell 101 and the right shell 102, which facilitates the production and manufacturing of the handheld portion 1.

In one embodiment, the clamping mechanism includes a clamping seat 301, a vertical clamping rod 302, a vertical spring 303, a horizontal pushing seat 304, and a horizontal spring 309, the clamping seat 301 is disposed in the right housing 102, the clamping seat 301 is provided with a vertical clamping hole 305 and a horizontal clamping hole 306, the upper end of the right housing 102 is provided with a first through hole 307 corresponding to the vertical clamping hole 305, the right sidewall of the right housing 102 is provided with a second through hole 308 corresponding to the horizontal clamping hole 306, the vertical clamping rod 302 is disposed in the vertical pull groove, the vertical spring 303 is disposed at the bottom of the vertical clamping hole 305 and abuts against the lower end of the vertical clamping rod 302, so that the upper end of the vertical clamping rod 302 penetrates through the first through hole 307 and is clamped into the clamping groove 205 at the bottom of the ultrasonic atomizing base 2, the horizontal pushing seat 304 is disposed in the horizontal clamping hole 306, the horizontal spring 309 is disposed in the horizontal clamping hole 306 and abuts against the horizontal pushing seat 304, so that the right end of the horizontal pushing seat 304 penetrates out of the second through hole 308.

The working principle of the technical scheme is as follows: the clamping mechanism in this embodiment is used for locking and separating the ultrasonic atomization seat 2, and comprises a clamping seat 301, a vertical clamping rod 302, a vertical spring 303, a horizontal pushing seat 304 and a horizontal spring 309, the clamping seat 301 is arranged in the right shell 102, when a user uses the clamping seat, the horizontal pushing seat 304 is pressed down by hand, the horizontal pushing seat 304 is pushed towards the inside of the clamping seat 301 to compress the horizontal spring 309, the horizontal wedge-shaped part at the left end of the horizontal pushing seat 304 moves along the vertical wedge-shaped part on the vertical clamping rod 302 to press the vertical wedge-shaped part downwards, so that the vertical chucking rods 302 move downward along the vertical chucking holes 305 in the chucking seats 301, and compresses the vertical spring 303, the upper end of the vertical clamping rod 302 is separated from the clamping groove 205 at the bottom of the ultrasonic atomizing base 2 through the first through hole 307, furthermore, the ultrasonic atomization seat 2 is not locked with the right shell 102, so that the ultrasonic atomization seat 2 is convenient to take down;

on the contrary, the upper end of the vertical clamping rod 302 is inserted into the clamping groove 205 at the bottom of the ultrasonic atomization seat 2 through the first through hole 307, so as to fix the ultrasonic atomization seat 2 on the right housing 102.

Wherein, still designed supplementary spacing hole 215 in the right side of ultrasonic atomization seat 2, set up supplementary gag lever post 216 in the left casing 101, like this when ultrasonic atomization seat 2 is installed on right casing 102, supplementary gag lever post 216 can peg graft in supplementary spacing hole 215, makes ultrasonic atomization seat 2 all fixed on horizontal direction, vertical direction like this.

The beneficial effects of the above technical scheme are that: through the design of the above structure, the specific structure of the clamping mechanism is provided in this embodiment, the clamping mechanism includes a clamping seat 301, a vertical clamping rod 302, a vertical spring 303, a horizontal pushing seat 304 and a horizontal spring 309, and the clamping mechanism adopts a simple structure to realize the fixed locking and dismounting of the ultrasonic atomization seat 2.

In one embodiment, the control mechanism includes a battery compartment 401, a control board 402 and a plug board 403, the battery compartment 401 is disposed in the handheld portion 1, and a battery seat board 103 corresponding to the battery compartment 401 is disposed at the bottom of the handheld portion 1, the control board 402 is disposed at the left side of the battery compartment 401 and electrically connected to the battery compartment 401, a power key 104 is disposed on the left side wall of the handheld portion 1, the power key 104 is electrically connected to the control board 402, the plug board 403 is disposed inside the handheld portion 1 and near the upper end thereof, a first electrode column 404 is disposed on the plug board 403, the first electrode column 404 is electrically connected to the control board 402, and the first electrode column 404 is selectively electrically connected to the ultrasonic atomization sheet 204.

The working principle of the technical scheme is as follows: control mechanism includes battery compartment 401 in this embodiment, control panel 402 and plugboard 403, the bottom of handheld portion 1 is provided with the battery seat board 103 that corresponds with battery compartment 401, the user can open battery seat board 103 like this and place the battery in battery compartment 401, and be provided with power key 104 on the left side wall of handheld portion 1, the user can press power key 104 like this, make control panel 402 and plugboard 403 switch-on, battery compartment 401 supplies power to control panel 402 and plugboard 403, and then first electrode column 404 on plugboard 403 is switched on, supply power to ultrasonic atomization piece 204, make ultrasonic atomization piece 204 atomize the liquid medicine, made things convenient for the user to use.

The beneficial effects of the above technical scheme are that: through the design of the structure, the present embodiment provides a specific structure of the control mechanism, the control mechanism includes a battery compartment 401, a control board 402 and a plug board 403, and the user presses the power key 104 to enable the battery compartment 401 to supply power to the control board 402 and the plug board 403, which is convenient for the user to use the multifunctional ultrasonic atomizer of the present invention.

In one embodiment, the left end of ultrasonic atomization seat 2 is provided with atomizing groove 205, the right-hand member of atomizing guide 203 is connected in atomizing groove 205, ultrasonic atomization piece 204 sets up the right-hand member of atomizing guide 203, and ultrasonic atomization piece 204 with be provided with sealing washer 206 between the atomizing groove 205, all be provided with electrode hole 207 in the both sides position that lies in atomizing groove 205 on the ultrasonic atomization seat 2, be provided with second electrode column 208 and supporting spring 209 in the electrode hole 207, supporting spring 209 overlaps in the second electrode column 208 and supports the top ultrasonic atomization piece 204, the right-hand member of second electrode column 208 with the left end electricity of first electrode column 404 is connected.

The working principle of the technical scheme is as follows: in this embodiment, an atomization groove 205 is arranged at the left end of the ultrasonic atomization seat 2, the right end of the atomization nozzle 203 is connected in the atomization groove 205, an ultrasonic atomization sheet 204 is designed at the right end of the atomization nozzle 203, and the liquid medicine cavity 201 of the ultrasonic atomization seat 2 is communicated with the atomization groove 205, so that liquid medicine in the liquid medicine cavity 201 enters the atomization groove 205 and is atomized by the ultrasonic atomization sheet 204; in order to avoid liquid leakage between the ultrasonic atomization sheet 204 and the atomization groove 205, a seal ring 206 is arranged on the ultrasonic atomization sheet 204; and the ultrasonic atomization seat 2 is provided with an electrode hole 207, and the second electrode column 208 and the support spring 209 connected with the ultrasonic atomization sheet 204 can be inserted into the electrode hole 207, so that the second electrode column 208 is electrically connected with the first electrode column 404, when the ultrasonic atomization sheet 204 is replaced, the support spring 209 can provide elasticity for the ultrasonic atomization sheet 204, and then the ultrasonic atomization sheet 204 is pushed outwards, thereby facilitating the ultrasonic atomization sheet 204.

The beneficial effects of the above technical scheme are that: through the design of the structure, the structures such as the atomizing groove 205, the electrode hole 207, the second electrode column 208 and the supporting spring 209 are provided in the embodiment, which is convenient for a user to use and also convenient for the user to replace the ultrasonic atomizing sheet 204.

In one embodiment, a third through hole 212 is formed on the left surface of the atomization nozzle 203, a threaded hole 210 corresponding to the third through hole 212 is formed on the ultrasonic atomization seat 2, and the third through hole 212 and the threaded hole 210 are connected through a screw 211.

The working principle of the technical scheme is as follows: in this embodiment, a third through hole 212 is formed in the left surface of the ultrasonic atomization seat 2, and a threaded hole 210 corresponding to the third through hole 212 is formed in the ultrasonic atomization seat 2, so that the atomization guide nozzle 203 can be installed on the ultrasonic atomization seat 2 through the threaded rod 211.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, provided third through hole 212, screw hole 210 and screw 211 in this embodiment, the guide mouth 203 that conveniently will atomize like this is dismantled from ultrasonic atomization seat 2 to change ultrasonic atomization piece 204.

In one embodiment, the right housing 102 is further provided with a charging connector 105 and an interface baffle 106, the charging connector 105 is electrically connected with the control board 402, and the interface baffle 106 is disposed on the charging connector 105.

The working principle of the technical scheme is as follows: in order to avoid that the user always opens the battery seat plate 103 at the bottom of the handheld portion 1 when the electric quantity of the battery is insufficient, the right housing 102 is provided with the charging connector 105 and the interface blocking piece 106, so that the user opens the interface blocking piece 106 during charging, the power cord of the charging adapter is inserted into the interface on the charging connector 105, the charging connector 105 charges the battery through the control panel 402, and the battery is a rechargeable battery.

The beneficial effects of the above technical scheme are that: through the design of the structure, the charging connector 105 and the interface blocking piece 106 are provided in the embodiment, so that the multifunctional ultrasonic atomizer provided by the invention is further convenient for a user to charge, and thus the user can carry the multifunctional ultrasonic atomizer and the charging adapter out, and a large number of batteries are avoided.

In one embodiment, an annular groove 107 is formed at the bottom of the handheld portion 1, an inner supporting component is arranged in the annular groove 107, the inner supporting mechanism includes an annular convex plate 108, a plurality of first inner supporting mechanisms and a plurality of second inner supporting mechanisms, and the plurality of first inner supporting mechanisms and the plurality of second inner supporting mechanisms are arranged between the annular convex plate 108 and an inner top surface of the annular groove 107 in an intersecting manner;

the first internal supporting mechanism comprises a first vertical rod 501, a first bottom plate 502, a telescopic rod 503, a first spring 504, a first top plate 505, two bending elastic rods 506 and a plurality of second springs 507, the first vertical rod 501 is disposed on the annular convex plate 108, the first bottom plate 502 is disposed on the first vertical rod 501, the telescopic rod 503 is disposed on the first bottom plate 502, the first top plate 505 is disposed on the telescopic rod 503, a plurality of second springs 507 are connected between the first top plate 505 and the inner top surface of the annular groove 107, the first springs 504 are sleeved on the telescopic rod 503, and is abutted between the first top plate 505 and the first bottom plate 502, the two bending elastic rods 506 are respectively arranged at two sides of the telescopic rod 503, the upper end of the bending elastic rod 506 is connected with the end of the first top plate 505, and the lower end is connected with the end of the first bottom plate 502;

the second internal supporting mechanism comprises two second vertical rods 508, an internal supporting box 509, a second bottom plate 510, a third bottom plate 511, a second top plate 512, a third internal supporting mechanism and a fourth internal supporting mechanism, the internal supporting box 509 is connected with the internal top surface of the annular groove 107, the second top plate 512 is connected on the internal top surface of the internal supporting box 509, the third internal supporting mechanism is arranged between the second top plate 512 and the second bottom plate 510, the fourth internal supporting mechanism is arranged between the second bottom plate 510 and the third bottom plate 511, the upper end of each second vertical rod 508 penetrates through the bottom of the internal supporting box 509 and is connected with the third bottom plate 511, and the lower end of each second vertical rod 508 is connected with the annular convex plate 108.

The working principle of the technical scheme is as follows: when the multifunctional ultrasonic atomizer of the present invention is used by a user, an unexpected situation is inevitable, such as the user accidentally drops the multifunctional ultrasonic atomizer on the ground, the bottom of the handheld portion 1 is provided with the annular groove 107, and the annular groove 107 is internally provided with the inner support assembly, which includes the annular convex plate 108, the first inner support mechanisms and the second inner support mechanisms, the annular convex plate 108 is located at the notch of the annular groove 107 and extends out of the notch of the annular groove 107, and the first inner support mechanisms and the second inner support mechanisms are mutually crossed, so when the multifunctional ultrasonic atomizer drops on the ground with the bottom, the annular convex plate 108 firstly contacts the ground and is pressed towards the inside of the annular groove 107, i.e. moves upwards, so that the annular convex plate 108 can support the first inner support mechanisms, The second internal supporting mechanism extrudes upwards;

the first internal support mechanism comprises a first vertical rod 501, a first bottom plate 502, an expansion rod 503, a first spring 504, a first top plate 505, two bending elastic rods 506 and a plurality of second springs 507, wherein the first vertical rod 501 is pressed upwards by the annular convex plate 108, the first vertical rod 501 presses the first bottom plate 502 upwards, the expansion rod 503, the first spring 504 and the two bending elastic rods 506 are pressed upwards, the expansion rod 503 and the first spring 504 are contracted, the bending elastic rods 506 are contracted upwards to offset the extrusion of the annular convex plate 108, and when the annular convex plate 108 continues to be pressed upwards, the first top plate 505 and the plurality of second springs 507 are also pressed, and the plurality of second springs 507 are also contracted; then the telescopic rod 503, the first spring 504, the two bending elastic rods 506 and the second spring 507 are stressed and restored, and the reciprocating is carried out to offset the impact of the multifunctional ultrasonic atomizer falling to the ground;

the second internal supporting mechanism comprises two second vertical rods 508, an internal supporting box 509, a second bottom plate 510, a third bottom plate 511, a second top plate 512, a third internal supporting mechanism and a fourth internal supporting mechanism, wherein the annular convex plate 108 is connected with the two second vertical rods 508 to push the second vertical rods 508 to move upwards, the upper ends of the second vertical rods 508 are inserted into the internal supporting box 509 and connected with the third bottom plate 511 to press the third bottom plate 511 upwards, the third bottom plate 511 further presses the fourth internal supporting mechanism upwards, after the fourth internal supporting mechanism is pressed, the fourth internal supporting mechanism further presses the second bottom plate 510 upwards, the second bottom plate 510 further presses the third internal supporting mechanism upwards, after the third internal supporting mechanism is pressed to the maximum shrinkage degree, the third internal supporting mechanism returns to the original position, the third internal supporting mechanism presses the second bottom plate 510 downwards, and further the fourth internal supporting mechanism returns downwards, with foretell first internal stay mechanism cooperation use, then to offset the impact of falling this multi-functional ultrasonic nebulizer on the ground in order to realize reciprocating like this, prevent this multi-functional ultrasonic nebulizer from being damaged.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, the annular groove 107 is provided in this embodiment, prop the structure such as mechanism in, should prop the mechanism in including annular flange 108 in, prop mechanism and a plurality of second in a plurality of first, when this multi-functional ultrasonic atomizer falls subaerial with the bottom, annular flange 108 touches subaerially at first, so can be squeezed to the inside of annular groove 107, also be ascending the removal, so annular flange 108 can prop the mechanism in to first, prop the mechanism upwards and extrude in the second, prop the mechanism in the second and use with the cooperation of first internal stay mechanism, so reciprocal then offset the impact of falling this multi-functional ultrasonic atomizer on the ground in order to realize, prevent this multi-functional ultrasonic atomizer from being damaged.

In one embodiment, there are two fourth internal supporting mechanisms, each fourth internal supporting mechanism includes a third vertical rod 517, a sleeve fastener 518, a fourth spring 519 and two first oblique rods 520, an upper end of the third vertical rod 517 is connected to the second bottom plate 510, a lower end of the third vertical rod 517 is inserted into a fourth through hole 524 of the third bottom plate 511, the sleeve fastener 518 and the fourth spring 519 are sleeved on the third vertical rod 517, an upper end of the first oblique rod 520 is hinged to the sleeve fastener 518, a lower end of the first oblique rod 520 is hinged to an upper surface of the third bottom plate 511, an upper end of the fourth spring 519 abuts against a lower surface of the second bottom plate 510, and a lower end of the fourth spring 519 abuts against an upper end of the sleeve fastener 518;

the third internal stay mechanism includes two internal stay hinge brackets, two flat inner rods 513, a flat outer cylinder 514, two limit baffles 515 and a third spring 516, the upper end of the internal stay hinge bracket is hinged with the lower surface of the second top plate 512, the lower end is hinged with the upper surface of the second bottom plate 510, the inner end of the flat inner rod 513 is inserted into the flat outer cylinder 514, the limit baffles 515 are arranged in the flat outer cylinder 514 and connected to the inner end of the flat inner rod 513, the third spring 516 is arranged between the limit baffles 515, and the outer end of the flat inner rod 513 is connected with the middle end of the internal stay hinge bracket.

The working principle of the technical scheme is as follows: the embodiment provides specific structures of a third internal support mechanism and a fourth internal support mechanism, wherein the fourth internal support mechanism comprises a third vertical rod 517, a sleeve buckle 518, a fourth spring 519 and two first oblique rods 520, when the third bottom plate 511 is pushed and extruded upwards by the two second vertical rods 508, because the lower end of the third vertical rod 517 is inserted into the fourth through hole 524, the third bottom plate 511 moves upwards along the two third vertical rods 517, and the first oblique rod 520 on the third bottom plate 511 pushes the sleeve buckle 518 to extrude the fourth spring 519, so that the fourth spring 519 is extruded below the second bottom plate 511, and when the fourth spring 519 reaches the maximum compression, the third bottom plate 511 is further pushed upwards, so that the third bottom plate 511 compresses the third internal support mechanism upwards; the third internal support mechanism specifically comprises two internal support hinged brackets, two horizontally-arranged inner rods 513, a horizontally-arranged outer cylinder 514, two limit baffles 515 and a third spring 516, wherein the two internal support hinged brackets are designed at two sides of the horizontally-arranged outer cylinder 514, when the internal support hinged brackets are upwards extruded by the second bottom plate 510, the internal support hinged brackets shrink towards the horizontally-arranged outer cylinder 514, the horizontally-arranged inner rods 513 are pushed towards the horizontally-arranged outer cylinder 514 by the middle ends of the internal support hinged brackets, the limit baffles 515 at the inner ends of the horizontally-arranged inner rods 513 inwards extrude the third spring 516, and the limit baffles 515 are outwards propped to reset due to the elasticity of the third spring 516, so that the internal support hinged brackets reset again, the second bottom plate 510 resets, and the energy dissipation effect of the third internal support mechanism is realized in a reciprocating manner.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, the third internal stay mechanism is provided in this embodiment, the concrete structure of fourth internal stay mechanism, the fourth internal stay mechanism is located the below of internal stay case, the fourth internal stay mechanism receives the extrusion back of below, compress the third internal stay mechanism, the third internal stay mechanism has the effect of slowing down the compression, and elasticity resets, and then the fourth internal stay mechanism uses with the cooperation of third internal stay mechanism, play the energy dissipation effect to annular flange 108, further realize preventing this multi-functional ultrasonic atomizer from preventing falling the function.

In one embodiment, the internal bracing hinge frame includes a fourth vertical rod 521, a second diagonal rod 522 and a third diagonal rod 523, an upper end of the second diagonal rod 522 is hinged to a lower surface of the second top plate 512, a lower end of the second diagonal rod is hinged to an upper end of the fourth vertical rod 521, a lower end of the third diagonal rod 523 is hinged to a lower surface of the second bottom plate 510, an upper end of the third diagonal rod 521 is hinged to a lower end of the fourth vertical rod 521, and the fourth vertical rod 521 is connected to an outer end of the horizontal inner rod 513.

The working principle of the technical scheme is as follows: in this embodiment, the internal stay hinge bracket includes a fourth vertical rod 521, a second diagonal rod 522 and a third diagonal rod 523, so that the internal stay hinge bracket is substantially V-shaped, when the multifunctional ultrasonic atomizer falls onto the ground, the second bottom plate 510 is moved upward to squeeze the internal stay hinge bracket, so that the third diagonal rod 523 in the two internal stay hinge brackets is pushed upward, and then the upper end of the third diagonal rod 523 pushes the fourth vertical rod 521, so that the fourth vertical rod 521 moves the horizontally-arranged inner rod 513 toward the horizontally-arranged outer barrel 514, and then the lower end of the second diagonal rod 522 also moves toward the horizontally-arranged inner barrel 514, and under the action of the third spring 516, the internal stay hinge bracket resets, so that the internal stay hinge bracket achieves the energy-absorbing function of the third internal stay mechanism, and further achieves the anti-falling function of the multifunctional ultrasonic atomizer.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, this embodiment provides the concrete structure of internal stay hinge frame, and the internal stay hinge frame simple structure and the easy manufacturing of this structure, this internal stay hinge frame include fourth vertical pole 521, second down tube 522 and third down tube 523, with put the interior pole 513 in the tie, put outer tube 514 isotructure cooperation use in the tie, played the effect of falling is prevented to this multi-functional ultrasonic atomizer.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

While embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (8)

1. A multifunctional ultrasonic atomizer, comprising:

the ultrasonic atomization device comprises a handheld part (1) and an ultrasonic atomization seat (2), wherein the ultrasonic atomization seat (2) is arranged on the handheld part (1), a control mechanism is arranged in the handheld part (1), a liquid medicine cavity (201) is arranged in the ultrasonic atomization seat (2), a liquid medicine cup cover (202) is arranged at the upper end of the liquid medicine cavity (201), an atomization nozzle (203) is detachably arranged at the left end of the ultrasonic atomization seat (2), an atomization cap (213) is arranged on the atomization nozzle (203), an ultrasonic atomization sheet (204) is arranged in the atomization nozzle (203), and the ultrasonic atomization sheet (204) is selectively and electrically connected with the control mechanism;

the control mechanism comprises a battery compartment (401), a control panel (402) and a plug board (403), the battery compartment (401) is arranged in the handheld part (1), and the bottom of the hand-held part (1) is provided with a battery seat board (103) corresponding to the battery compartment (401), the control board (402) is arranged at the left side of the battery compartment (401) and is electrically connected with the battery compartment (401), a power key (104) is arranged on the left side wall of the handheld part (1), the power key (104) is electrically connected with the control board (402), the plugboard (403) is arranged inside the handheld part (1) and close to the upper end thereof, a first electrode column (404) is arranged on the insertion board (403), the first electrode column (404) is electrically connected with the control board (402), the first electrode column (404) is selectively electrically connected with the ultrasonic atomization sheet (204);

an annular groove (107) is formed in the bottom of the handheld portion, an inner supporting assembly is arranged in the annular groove (107), the inner supporting assembly comprises an annular convex plate (108), a plurality of first inner supporting mechanisms and a plurality of second inner supporting mechanisms, and the plurality of first inner supporting mechanisms and the plurality of second inner supporting mechanisms are arranged between the annular convex plate (108) and the inner top surface of the annular groove (107) in an intersecting mode;

the first internal supporting mechanism comprises a first vertical rod (501), a first bottom plate (502), an expansion rod (503), a first spring (504), a first top plate (505), two bending elastic rods (506) and a plurality of second springs (507), wherein the first vertical rod (501) is arranged on the annular convex plate (108), the first bottom plate (502) is arranged on the first vertical rod (501), the expansion rod (503) is arranged on the first bottom plate (502), the first top plate (505) is arranged on the expansion rod (503), the plurality of second springs (507) are connected between the first top plate (505) and the inner top surface of the annular groove (107), the first spring (504) is sleeved on the expansion rod (503) and abuts against between the first top plate (505) and the first bottom plate (502), the two bending elastic rods (506) are respectively arranged at two sides of the expansion rod (503), the upper end of the bending elastic rod (506) is connected with the end of the first top plate (505), and the lower end is connected with the end of the first bottom plate (502);

the second internal supporting mechanism comprises two second vertical rods (508), an internal supporting box (509), a second bottom plate (510), a third bottom plate (511) and a second top plate (512), a third internal supporting mechanism and a fourth internal supporting mechanism, wherein the internal supporting box (509) is connected with the inner top surface of the annular groove (107), the second top plate (512) is connected on the inner top surface of the internal supporting box (509), the third internal supporting mechanism is arranged between the second top plate (512) and the second bottom plate (510), the fourth internal supporting mechanism is arranged between the second bottom plate (510) and the third bottom plate (511), the upper end of the second vertical rod (508) penetrates through the bottom of the internal supporting box (509) and is connected with the third bottom plate (511), and the lower end of the second vertical rod (508) is connected with the annular convex plate (108).

2. The multifunctional ultrasonic atomizer according to claim 1, wherein said hand-held portion (1) comprises a left housing (101) and a right housing (102) connected to said left housing (101), said ultrasonic atomizing base (2) is detachably disposed at the upper end of said left housing (101), and a snap-fit mechanism connected to said ultrasonic atomizing base (2) is disposed in said right housing (102).

3. The multifunctional ultrasonic atomizer according to claim 2, wherein said clamping mechanism comprises a clamping seat (301), a vertical clamping rod (302), a vertical spring (303), a horizontal pushing seat (304), and a horizontal spring (309), said clamping seat (301) is disposed in said right housing (102), said clamping seat (301) is provided with a vertical clamping hole (305) and a horizontal clamping hole (306), the upper end of said right housing (102) is provided with a first through hole (307) corresponding to said vertical clamping hole (305), the right side wall of said right housing (102) is provided with a second through hole (308) corresponding to said horizontal clamping hole (306), said vertical clamping rod (302) is disposed in said vertical clamping hole (305), said vertical spring (303) is disposed at the bottom of said vertical clamping hole (305) and abuts against the lower end of said vertical clamping rod (302), the upper end of the vertical clamping rod (302) penetrates through the first through hole (307) and is clamped into the clamping groove at the bottom of the ultrasonic atomization seat (2), the horizontally-arranged push seat (304) is arranged in the horizontally-arranged clamping hole (306), the horizontally-arranged spring (309) is arranged in the horizontally-arranged clamping hole (306) and abuts against the horizontally-arranged push seat (304), and the right end of the horizontally-arranged push seat (304) penetrates through the second through hole (308).

4. The multifunctional ultrasonic atomizer according to claim 1, characterized in that the left end of said ultrasonic atomizing base (2) is provided with an atomizing groove (205), the right end of the atomization guide nozzle (203) is connected in the atomization groove (205), the ultrasonic atomization sheet (204) is arranged at the right end of the atomization guide nozzle (203), and a sealing ring (206) is arranged between the ultrasonic atomization sheet (204) and the atomization groove (205), electrode holes (207) are arranged in the parts of the ultrasonic atomizing base (2) which are positioned at the two sides of the atomizing groove (205), a second electrode column (208) and a supporting spring (209) are arranged in the electrode hole (207), the supporting spring (209) is sleeved on the second electrode column (208) and is propped against the ultrasonic atomization sheet (204), the right end of the second electrode column (208) is electrically connected with the left end of the first electrode column (404).

5. The multifunctional ultrasonic atomizer according to any one of claims 1 to 4, wherein a third through hole (212) is provided on the left surface of the atomizing nozzle (203), a threaded hole (210) corresponding to the third through hole (212) is provided on the ultrasonic atomizing base (2), and the third through hole (212) and the threaded hole (210) are connected by a screw (211).

6. The multifunctional ultrasonic atomizer according to claim 4, wherein a charging connector (105) and an interface baffle (106) are further disposed on the right housing (102), the charging connector (105) is electrically connected to the control board (402), and the interface baffle (106) is disposed on the charging connector (105).

7. The multifunctional ultrasonic atomizer according to claim 1, wherein there are two fourth internal supporting mechanisms, each fourth internal supporting mechanism comprises a third vertical rod (517), a buckle (518), a fourth spring (519) and two first diagonal rods (520), the upper end of the third vertical rod (517) is connected to the second bottom plate (510), the lower end of the third vertical rod is inserted into a fourth through hole (524) of the third bottom plate (511), the buckle (518) and the fourth spring (519) are sleeved on the third vertical rod (517), the upper end of the first diagonal rod (520) is hinged to the buckle (518), the lower end of the first diagonal rod is hinged to the upper surface of the third bottom plate (511), the upper end of the fourth spring (519) abuts against the lower surface of the second bottom plate (510), and the lower end of the fourth spring abuts against the upper end of the buckle (518);

the third internal stay mechanism comprises two internal stay hinge frames, two horizontally-arranged inner rods (513), a horizontally-arranged outer cylinder (514), two limit baffles (515) and a third spring (516), the upper ends of the internal stay hinge frames are hinged to the lower surface of the second top plate (512), the lower ends of the internal stay hinge frames are hinged to the upper surface of the second bottom plate (510), the inner ends of the horizontally-arranged inner rods (513) are inserted into the horizontally-arranged outer cylinder (514), the limit baffles (515) are arranged in the horizontally-arranged outer cylinder (514) and connected to the inner ends of the horizontally-arranged inner rods (513), the third spring (516) is arranged between the limit baffles (515), and the outer ends of the horizontally-arranged inner rods (513) are connected with the middle ends of the internal stay hinge frames.

8. The multifunctional ultrasonic atomizer according to claim 7, wherein said internal brace hinge comprises a fourth vertical rod (521), a second diagonal rod (522) and a third diagonal rod (523), an upper end of said second diagonal rod (522) is hinged to a lower surface of said second top plate (512), a lower end of said second diagonal rod is hinged to an upper end of said fourth vertical rod (521), a lower end of said third diagonal rod (523) is hinged to a lower surface of said second bottom plate (510), an upper end of said third diagonal rod is hinged to a lower end of said fourth vertical rod (521), and said fourth vertical rod (521) is connected to an outer end of said horizontal inner rod (513).

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