CN115428994A - Atomizer and atomization main body thereof - Google Patents

Abstract

The invention discloses an atomizer and an atomizing main body thereof, wherein the atomizer comprises an atomizing main body and an atomizing head assembly, one end of the atomizing main body is provided with a rotating sleeve and a pushing shaft at the center, an electrode is arranged at a position deviating from the center, the side part of the atomizing main body is provided with a button machine, a linkage mechanism is arranged between the button machine and the rotating sleeve as well as the pushing shaft, and a restorer of the button machine is arranged in the atomizing main body; this atomizing head subassembly rotate assemble in push away the axle, and with the commentaries on classics cover transmission fit, atomizing head subassembly include a plurality of monomer atomising heads, and a plurality of monomer atomising heads distribute in a circumference that uses the rotation center of atomizing head subassembly as the centre of a circle, one of them monomer atomising head's electrode with the electrode of atomizer main part links to each other. The switching operation of the single atomizing heads of the atomizer can be realized only by buckling the button machine, and the operation is very convenient.

Description

Atomizer and atomization main body thereof

Technical Field

The invention relates to the field of atomizers, in particular to an atomizer and an atomizing main body thereof.

Background

An atomizer is a device that heats and atomizes an aerosol substrate and outputs the aerosol. The atomizing head comprises a suction nozzle, an atomizing core and an aerosol substrate, the atomizing head supplies power to the atomizing head, and when the atomizing head works, the atomizing core converts electric energy into heat energy to act on the aerosol substrate, so that the aerosol substrate is heated and atomized to form aerosol which is output from the suction nozzle.

Most existing nebulizers can only produce aerosols with one taste, and if the taste is changed, the aerosol matrix in the nebulizing core needs to be replaced. There are some flavor-convertible atomizers, although the flavor can be converted, when the flavor is converted, the atomizer needs to be pushed by hand to slide or the shell needs to be rotated by hand, so that the operation is inconvenient.

Disclosure of Invention

The invention aims to provide an atomizer so as to improve the convenience of switching the operation of a single atomizing head.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

an atomizer comprises an atomizing main body and an atomizing head assembly,

one end of the atomization main body is provided with a rotating sleeve and a pushing shaft at the center, an electrode is arranged at a position deviating from the center, a buckling machine is arranged on the side part of the atomization main body, a linkage mechanism is arranged between the buckling machine and the rotating sleeve as well as between the buckling machine and the pushing shaft, the buckling machine drives the pushing shaft to move outwards and drives the rotating sleeve to rotate for an angle when buckled, and a restorer of the pushing shaft and the buckling machine is arranged in the atomization main body;

the atomizing head subassembly rotate assemble in push away the axle, and with the commentaries on classics cover transmission cooperation, the atomizing head subassembly includes a plurality of monomer atomising heads, a plurality of monomer atomising heads distribute in a circumference that uses the rotation center of atomizing head subassembly as the centre of a circle, one of them monomer atomising head the electrode with the electrode of atomizer main part links to each other.

In some embodiments, one end of the atomizing head assembly is provided with a first magnet corresponding to each single atomizing head, one end of the atomizing main body is provided with a second magnet, after the atomizing head assembly rotates, the second magnet attracts the first magnet, and the electrode of the auxiliary single atomizing head is aligned with the electrode on the atomizing main body.

In some embodiments, the linkage between the sear and the push shaft comprises: the first rack is fixedly arranged on the push shaft; the first gear is rotatably arranged on the atomization main body and meshed and matched with the first rack; a second gear disposed coaxially in parallel with the first gear; and the sliding rack is meshed and matched with the second gear and matched with the connecting rod pair of the button sewing machine.

In some embodiments, the push shaft and the fastening machine share one restorer, the restorer includes a pressure spring and a stop pin, the stop pin is fixedly disposed at an end portion of the push shaft away from the atomizing head assembly, the pressure spring is sleeved on the push shaft, and two ends of the pressure spring are respectively in press fit with the stop pin and the atomizing main body.

In some embodiments, the sliding rack is formed on a sliding block, the sliding block is provided with a first slot and a second slot which are vertically intersected, the sliding rack is formed on the wall of the second slot, the first rack and the first gear are arranged in the first slot, and the second gear is arranged in the second slot.

In some embodiments, the linkage between the sear and the rotating sleeve comprises: the ratchet wheel is fixedly arranged on the rotating sleeve; a pawl in meshing fit with the ratchet wheel; and an elastic member pressing the pawl toward the ratchet wheel; the connecting rod of the pawl is in running fit with a pin on a sliding block, so that the pawl can move along with the sliding block and can swing to be separated from or combined with the ratchet wheel.

In some embodiments, the elastic member is a torsion spring, the torsion spring is disposed at the rotation center of the connecting rod, and the torsion spring has two spring arms, and the two spring arms are respectively in press-fit with the connecting rod and the sliding block.

In some embodiments, the unitary atomizing head is removably configured to the atomizing head assembly.

In some embodiments, a connecting sleeve is fixedly arranged at the center of the atomizing head assembly, the push shaft is movably matched with the connecting sleeve, a threaded hole is formed in the end part of the push shaft, the threaded hole is matched with the screw rod to fix the atomizing head assembly on the push shaft, end teeth are formed in the end part of the connecting sleeve and the end part of the rotating sleeve, and the rotating sleeve is connected with the connecting sleeve through the end teeth in an engaged manner.

The invention also provides an atomization main body, wherein a rotating sleeve and a pushing shaft are arranged at the center of one end of the atomization main body, an electrode is arranged at a position deviated from the center, a buckling machine is arranged at the side part of the atomization main body, a linkage mechanism is arranged among the buckling machine, the rotating sleeve and the pushing shaft, the buckling machine drives the pushing shaft to move outwards and drives the rotating sleeve to rotate for an angle when being buckled, and a restorer of the pushing shaft and the buckling machine is arranged in the atomization main body.

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

the atomizer is characterized in that a rotating sleeve and a push shaft are arranged at the center of one end of an atomizing main body, an electrode is arranged at a position deviated from the center, a buckling machine is arranged at the side part of the atomizing main body, a linkage mechanism is arranged between the buckling machine and the rotating sleeve as well as between the buckling machine and the push shaft, and a restorer of the push shaft and the buckling machine is arranged in the atomizing main body, so that when the buckling machine is buckled, the push shaft is driven to move outwards and the rotating sleeve is driven to rotate for an angle, and when the buckling machine is loosened, the restorer drives the push shaft to move inwards; combine the atomizing head subassembly to rotate to assemble in pushing away the axle and with changeing cover transmission fit, a plurality of monomer atomising heads evenly distributed of atomising head subassembly is on a circumference that uses the rotation center of atomising head subassembly as the centre of a circle, and the electrode of a monomer atomising head links to each other with the electrode of atomizer main part, makes the above-mentioned operation to detaining the machine, can drive the atomising head subassembly and pushed out and rotate an angle earlier, and the back is pullback, thereby has realized the switching operation to connecting the monomer atomising head in the atomising main part. Because the switching operation of the single atomizing head of the atomizer can be realized only by buckling the button machine, the operation is very convenient. In addition, in the switching process, the movement of the atomizing head assembly comprises the forward pushing movement and the rotation, so that the electrode on the atomizing main body can adopt an elastic electrode without obstructing the rotation of the atomizing head, and the power supply reliability can be improved.

Drawings

FIG. 1 is a schematic diagram of an atomizer according to some embodiments;

FIG. 2 is a schematic view of the external structure of the atomizing body;

FIG. 3 is a schematic view of the internal structure of the atomizing body;

FIG. 4 is an exploded view of an atomizing body;

FIG. 5 is a schematic view of a combination structure of a sliding rack, two gears and a sliding block;

FIG. 6 is a schematic structural view of an atomizing head assembly;

FIG. 7 is a schematic view of the combination of the atomizing head assembly and the atomizing body;

FIG. 8 is an exploded view of the atomizing head assembly;

fig. 9 is a schematic structural diagram of a single atomizing head.

Detailed Description

The invention is further illustrated with reference to the following figures and examples.

Referring to fig. 1, the atomizer of some embodiments includes an atomizing body 100 and an atomizing head assembly 200, the atomizing head assembly 200 is disposed at one end of the atomizing body 100, and one end of the atomizing head assembly 200 has a suction nozzle 300. The atomizing body 100 provides power and a control signal to the atomizing head assembly 200, and when the atomizing head assembly is operated, the heat generating core in the atomizing head assembly 200 converts the power into heat energy to heat the aerosol substrate, and the aerosol substrate is converted into aerosol and is output from the suction nozzle 300.

The external structure of the atomising body 100 is shown in figure 2.

As shown in fig. 2, two output electrodes 105 are fixedly attached to the front end 101 of the atomizing body 100 at positions offset from the center. The two output electrodes 105 are electrically connected to a battery inside the atomizing body 100 for supplying power to the atomizing head. Output electrode 105 is preferably a pogo pin. Adopt the spring needle electrode, when being connected with the input electrode contact on the atomising head, the elasticity of spring needle will make the contact between the electrode more reliable.

The front end 101 of the atomizing main body 100 is provided with a shaft hole at the center, a rotating sleeve 103 is rotatably mounted in the shaft hole, a push shaft 102 is movably mounted in the rotating sleeve 103, and a button machine 106 is arranged on the side of the atomizing main body 100.

Fig. 3 shows the internal structure of the atomizing body 100.

As shown in fig. 3, the sear 106 is supported by the fulcrum 1061, and the link pair 1062 of the sear 106 is engaged with the slider 107, so that when the sear 106 is locked, the slider 107 is slid to the right by the link pair 1062. The rightward direction is a direction away from the axis of the mounting push shaft 102.

The slider 107 is formed with a second rack 1071 (see fig. 4 and 5), and the second rack 1071 slides along the slider 107, which is called a slide rack. The push shaft 102 is formed with a first rack 112, the first rack 112 is engaged with a first gear 111, and the first gear 111 is mounted on the main body of the atomizing main body through a support shaft 110.

Referring to fig. 4 and 5, the first gear 111 is provided in parallel with a second gear 1111, and the second gear 1111 is in meshing engagement with the second rack 1071. The first gear 111 and the second gear 1111 are attached to the support shaft 110 and can be interlocked with each other. The first gear 111 and the second gear 1111 are preferably formed by the same double gear.

The combination of the first gear 111, the second gear 1111, the first rack 112, and the second rack 1071 constitutes a linkage mechanism between the sear 106 and the push shaft 102. When the sear 106 is locked, the slider 107 drives the second rack 1071 to slide to the right side in fig. 3, the second rack 1071 drives the second gear 1111 to rotate, the second gear 1111 drives the first gear 111 to synchronously rotate, and the first gear 111 drives the first rack 112 to move to the upper side in fig. 3, so that the push shaft 102 moves upward, and the upward movement of the push shaft 102 is the outward pushing movement of the push shaft.

Referring to fig. 3 and 4, a link 109 is mounted on the top of the slider 107 by a pin 108, the link 109 is formed with a pawl 1091, the lower end of the rotary sleeve 103 is formed with a ratchet 1031, and the pawl 1091 is engaged with a tooth of the ratchet 1031. A torsion spring 1092 is mounted on the pin 108, and two arms of the torsion spring 1092 are respectively in press fit with the link 109 and the slider 107, so that the pawl 1091 is reliably engaged with the ratchet 1031.

The linkage 109, pawl 1091, torsion spring 1092, and ratchet 1031 form a linkage between the sear 106 and the rotary sleeve 103. When the sear 106 is locked, the slider 107 drives the link 109 to slide to the right in fig. 3, the link 109 drives the pawl 1091 to move to the right, and the pawl 1091 drives the ratchet 1031 to rotate by a tooth position, so that the rotary sleeve 103 rotates by a certain angle.

The two linkage mechanisms are both connected with the button machine 106 through a slide block 107. So that the push shaft 102 and the rotary sleeve 103 are linked when the button machine 106 is buckled.

Referring to fig. 3 and 4, a pressure spring 113 and a stop pin 114 are disposed at an end of the push shaft 102 away from the atomizing head assembly, one end of the pressure spring 113 is in press fit with the stop pin 114, and the other end is in press fit with the main body of the atomizing main body, so as to apply a downward elastic force to the push shaft 102.

The compression spring 113 and the stop pin 114 form a reset device for the push shaft 102 and the sear 106. When the finger leaves the sear 106, the pushing shaft 102 is reset to move downwards in fig. 3 by the elasticity of the compression spring 113, the downward movement of the pushing shaft 102 is the inward-retracting movement of the pushing shaft 102, and the inward-retracting movement of the pushing shaft is also called as the pull-back movement, and in short is the reverse movement of the outward-pushing movement of the pushing shaft. The movement of the push shaft 102 is transferred to the sear 106 through the above-described linkage between the push shaft 102 and the sear 106, thereby resetting the sear 106.

The pawl 1091 will also reset following the reset of the sear 106. Specifically, during the operation of the sear 106, the slider 107 will move to the left in fig. 3, and the slider 10 will move the link 109 to the left, thereby causing the pawl 1091 to pass over one tooth of the ratchet 1031 and engage the next tooth of the ratchet 1031.

Fig. 6 shows the structure of the atomizing head assembly 200. The center of the atomizing head assembly 200 is provided with a shaft hole, a connecting sleeve 203 is fixedly arranged in the shaft hole, and the end part of the connecting sleeve 203 is provided with end teeth. The atomizing head assembly 200 is provided with five single atomizing heads 201 which are uniformly distributed on the same circumference with the rotation center of the atomizing head assembly 200 as the center of circle. Each of the single atomizing heads 201 is provided with two input electrodes 202. The five single atomizing heads 201 contain different aerosol substrates, and can generate aerosols with different tastes.

As other embodiments, the number of the single atomizing heads 201 of the atomizing head assembly 200 may also be three, four, six, seven, etc., and the number of the single atomizing heads 201 is not limited in the present invention. The aerosol substrates contained in the individual atomising heads 201 may be the same or different, or some of the individual atomising heads 201 may contain the same aerosol substrate and others of the individual atomising heads 201 may contain different aerosol substrates.

Referring to fig. 7, the push shaft 102 of the atomizing body 100 is fitted into the connection sleeve 203 of the atomizing head assembly 200, the push shaft 102 is rotatable relative to the connection sleeve 203, and the rotation sleeve 103 of the atomizing body 100 is in snap-fit connection with the connection sleeve 203 through end teeth. A threaded hole is formed at the end of the push shaft 102, and a screw 205 is screwed into the threaded hole to fix the atomizing head assembly 200 to the push shaft 102.

The combination of the above-described atomizing body 100 and the atomizing head assembly 200 constitutes a multi-flavor atomizer. The conversion of the taste can be conveniently realized by buckling the button machine 106 with fingers. The principle is as follows: when the button machine 106 is buckled once, the button machine 106 drives the push shaft 102 and the rotating sleeve 103 to be linked through the linkage mechanism, and the push shaft 102 drives the atomizing head assembly 200 to move towards the upper side in the figure 7, so that the input electrode of the currently working single atomizing head is separated from the output electrode of the atomizing main body; the rotary sleeve 103 drives the atomizing head assembly 200 to rotate by a tooth position, so that the currently working single atomizing head is staggered with the output electrode of the atomizing main body, and the next single atomizing head is aligned with the output electrode of the atomizing main body; after the button machine 106 is loosened by fingers, under the thrust action of the pressure spring 113, the push shaft 103 and the button machine 106 are reset, the push shaft 102 drives the atomizing head assembly 200 to move downwards and reset, and the input electrode of the next single atomizing head is in contact connection with the output electrode of the atomizing main body, so that the taste conversion is completed. During this process, the pawl is also reset, engaging the next tooth of the ratchet wheel. The above-mentioned taste conversion is completed once, and once the button machine 106 is buckled, the taste conversion can be realized once.

Due to the influence of part processing errors and the like, the input electrode on the atomizing head and the output electrode on the atomizing main body are not completely aligned after the multi-flavor atomizer performs flavor conversion. To solve this problem, referring to fig. 2 and 6 again, a first magnet 204 is further provided at the rear end of the atomizing head assembly 200, i.e., the end of the atomizing head assembly 200 facing the atomizing body 100, corresponding to each individual atomizing head 201, and a second magnet 104 is provided at the front end of the atomizing body 100. The second magnet 104 is matched with the first magnet 204, and the input electrode of the auxiliary monomer atomizing head is aligned with the output electrode of the atomizing main body by utilizing the principle that opposite poles attract and same poles repel.

With further reference to fig. 5, a second rack 1071 is formed on the slider 107, the slider 107 is provided with a first slot 1073 and a second slot 1072 intersecting perpendicularly, the second rack 1071 is formed on a hole wall of the second slot 1072, the first rack and the first gear 111 are disposed in the first slot 1073, and the second gear 1111 is disposed in the second slot 1072. This structure, with two gears built-in the slider 107, realized compact structure, small beneficial effect.

Referring to fig. 8, the atomizer assembly 200 is composed of a magazine assembly 210, a single atomizer head 201 and a nozzle assembly 220, wherein the single atomizer head 201 is detachably inserted into the magazine assembly 210. When the nozzle assembly 220 is removed, the single atomizing head 201 can be replaced, and a plurality of single atomizers 201 can be filled at one time.

Referring to fig. 9, the single atomizing head 201 includes an upper cap 2011, an atomizing tube 2012, a substrate container 2013, a liquid guiding medium 2014, a heat generating core 2015, a lower cap 2016 and an input electrode 2017. In the aerosol substrate Rong Zhuangyu substrate container 2013, the heating core 2015 is electrically connected with the input electrode 2017. After the power is switched on, the heating core generates heat, the aerosol substrate enters the heating core through the liquid guide medium 2014, is heated and then is converted into aerosol, and the aerosol is output through the atomizing pipe 2012. In this embodiment, the liquid guiding medium 2014 is liquid guiding cotton. As another example, porous ceramics or the like may be used as the liquid guiding medium.

As another embodiment, a gear may be fixedly disposed at the inner end of the sear 106, the sear 106 is mounted to the atomization body through a core shaft of the gear, the gear directly or indirectly engages with the rack 112 on the push shaft 102, so as to form a linkage between the sear 106 and the push shaft 102, when the sear 106 is driven, the gear at the inner end of the sear 106 rotates, and the gear drives the rack 112 to move, thereby driving the push shaft 102 to move. In this embodiment, the linkage between the sear 106 and the turnbuckle 103 is the same as in the previous embodiment.

As another embodiment, the reset of the sear 106 can also be a torsion spring, which is placed at the fulcrum of the sear. Because the button machine is linked with the push shaft, the reset of the push shaft can be realized through the torsion spring.

In the embodiment of fig. 4, in the linkage mechanism between the sear and the rotary sleeve, a torsion spring 1092 is used as an elastic member to press the pawl 1091 against the ratchet 1031, so that the pawl 1091 is reliably engaged with the ratchet 1031. It will be understood by those skilled in the art that a tension spring is provided between the side of the link 109 facing the ratchet 1031 and the slider 107, or a compression spring is provided between the side of the link 109 facing away from the ratchet 1031 and the slider 107, so as to press the pawl 1091 toward the ratchet 1031 and reliably engage the pawl 1091 with the ratchet 1031.

The present invention has been described in detail with reference to the specific embodiments, and the detailed description is only for the purpose of helping those skilled in the art understand the present invention, and is not to be construed as limiting the scope of the present invention. Various modifications, equivalent changes, etc. made by those skilled in the art under the spirit of the present invention shall be included in the protection scope of the present invention.

Claims (10)

1. An atomizer, characterized by:

comprises an atomizing main body and an atomizing head component,

one end of the atomization main body is provided with a rotating sleeve and a pushing shaft at the center, an electrode is arranged at a position deviating from the center, a buckling machine is arranged on the side part of the atomization main body, a linkage mechanism is arranged between the buckling machine and the rotating sleeve as well as between the buckling machine and the pushing shaft, the buckling machine drives the pushing shaft to move outwards and drives the rotating sleeve to rotate for an angle when buckled, and a restorer of the pushing shaft and the buckling machine is arranged in the atomization main body;

the atomizing head subassembly rotate assemble in push away the axle, and with the commentaries on classics cover transmission cooperation, the atomizing head subassembly includes a plurality of monomer atomising heads, a plurality of monomer atomising heads distribute in a circumference that uses the rotation center of atomizing head subassembly as the centre of a circle, one of them monomer atomising head the electrode with the electrode of atomizer main part links to each other.

2. The atomizer of claim 1, wherein one end of the atomizing head assembly is provided with a first magnet corresponding to each single atomizing head, and one end of the atomizing main body is provided with a second magnet, and after the atomizing head assembly rotates, the second magnet attracts the first magnet, and the electrodes of the auxiliary single atomizing heads are aligned with the electrodes on the atomizing main body.

3. The atomizer of claim 1, wherein the linkage between said sear and push shaft comprises:

the first rack is fixedly arranged on the push shaft;

the first gear is rotatably arranged on the atomization main body and meshed and matched with the first rack;

a second gear disposed coaxially in parallel with the first gear; and

and the sliding rack is meshed and matched with the second gear and matched with the connecting rod pair of the button sewing machine.

4. The atomizer according to claim 3, wherein the push shaft and the fastening machine share a restorer, the restorer comprises a pressure spring and a stop pin, the stop pin is fixedly arranged at an end portion of the push shaft far away from the atomizing head assembly, the pressure spring is sleeved on the push shaft, and two ends of the pressure spring are respectively in press fit with the stop pin and the atomizing body.

5. The nebulizer of claim 3, wherein the sliding rack is formed on a slider having a first slot and a second slot that intersect perpendicularly, wherein the sliding rack is formed on a wall of the second slot, wherein the first rack and the first gear are disposed in the first slot, and wherein the second gear is disposed in the second slot.

6. The atomizer of claim 1, wherein the linkage between said sear and rotating sleeve comprises:

the ratchet wheel is fixedly arranged on the rotating sleeve;

a pawl in meshing fit with the ratchet wheel; and

an elastic member pressing the pawl to the ratchet;

the connecting rod of the pawl is in running fit with a pin on a sliding block, so that the pawl can move along with the sliding block and can swing to be separated from or combined with the ratchet wheel.

7. The atomizer according to claim 6, wherein the elastic member is a torsion spring disposed at a rotation center of the connecting rod, and the torsion spring has two spring arms which are respectively press-fitted with the connecting rod and the slider.

8. The nebulizer of claim 1, wherein the unitary nebulizing head is removably configured to the nebulizing head assembly.

9. The atomizer as claimed in claim 1, wherein a connecting sleeve is fixedly disposed at the center of the atomizing head assembly, the pushing shaft is movably engaged with the connecting sleeve, a threaded hole is formed at the end of the pushing shaft, the threaded hole is engaged with the screw rod to fix the atomizing head assembly to the pushing shaft, end teeth are formed at the end of the connecting sleeve and the end of the rotating sleeve, and the rotating sleeve is engaged with the connecting sleeve through the end teeth.

10. An atomising body which is characterised in that: the atomizing device comprises an atomizing main body and is characterized in that a rotating sleeve and a pushing shaft are arranged at the center of one end of the atomizing main body, an electrode is arranged at a position deviated from the center, a button machine is arranged on the side portion of the atomizing main body, a linkage mechanism is arranged between the button machine and the rotating sleeve and between the button machine and the pushing shaft, the button machine drives the pushing shaft to move outwards and drives the rotating sleeve to rotate by an angle, and a restorer of the pushing shaft and the button machine is arranged inside the atomizing main body.

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