CN218164296U - Child lock mechanism and atomization device - Google Patents

Abstract

The utility model relates to a child lock mechanism and an atomization device; the air conditioner comprises a mounting seat, a control piece and a rotating piece, wherein the mounting seat is provided with a mounting groove and a first air inlet hole which are mutually communicated, the control piece is provided with a third air inlet hole communicated with the first air inlet hole, the side surface of the control piece close to the first air inlet hole is provided with a positioning element, the rotating piece is provided with a second air inlet hole communicated with the third air inlet hole, the side surface of the rotating piece close to the control piece is provided with a positioning groove, and the positioning element can be inserted into the positioning groove; the positioning element on the control piece is inserted into the positioning groove on the rotating piece, so that the control piece can drive the rotating piece to rotate, the position of the second air inlet hole is adjusted, when the second air inlet hole is communicated with the first air inlet hole, the child lock mechanism is in an open state, and when the second air inlet hole is not communicated with the first air inlet hole, the child lock mechanism is in a closed state.

Description

Child lock mechanism and atomization device

Technical Field

The utility model relates to an atomizing technical field especially relates to child's lock mechanism and atomizing device.

Background

The inside of current atomizing device is equipped with oil storage chamber and air current passageway, and the oil storage chamber is used for holding the tobacco tar, and air current passageway has air inlet and gas outlet, is equipped with the atomizing core that is used for atomizing the tobacco tar in the air current passageway, and is equipped with the oil inlet that supplies the tobacco tar to enter into atomizing core department on the air current passageway. When the existing atomizing device is used, a user can control the atomizing core to heat tobacco tar in the airflow channel to atomize the tobacco tar, then the user sucks outside air into the airflow channel through the air inlet by giving suction force to the air outlet, and the sucked air is sucked out by the user after being combined with atomized smoke.

However, when the atomizing device on the market is used, since the user can directly suck the outside air into the airflow channel through the air inlet when giving suction to the air outlet, and the sucked air can be directly sucked out by the user after being combined with the atomized smoke, children can easily use the atomizing device, so that the children are easy to suck the smoke by imitating adults, and the safety is low.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is desirable to provide a child lock mechanism and an atomizing device, which are not easy for a child to operate and improve safety in use.

A child lock mechanism comprising:

the mounting seat is provided with a mounting groove and a first air inlet hole which are communicated with each other;

the rotating piece is rotatably installed in the installation groove and covers the first air inlet hole, a second air inlet hole opposite to the first air inlet hole is formed in the rotating piece, when the rotating piece rotates, the second air inlet hole and the first air inlet hole can be staggered or completely staggered, and a positioning groove is formed in the rotating piece;

the control piece is rotatably installed in the installation groove, a third air inlet hole opposite to the second air inlet hole is formed in the control piece, a positioning element is arranged on the side face, close to the rotating piece, of the control piece, when the positioning element is inserted into the positioning groove, the rotating piece can drive the control piece to rotate, and the position, relative to the first air inlet hole, of the second air inlet hole is adjusted.

In one embodiment, the child lock mechanism further includes an elastic member disposed between the control member and the mounting seat, the elastic member applies a force to the control member away from the rotating member when the positioning element is inserted into the positioning groove, two ends of the elastic member abut against the control member and the mounting seat, respectively, and the elastic member passes through the rotating member.

In the above embodiment, the elastic member can provide resistance for the control member, so that the elastic member can reset the control member after the operation is completed, meanwhile, the elastic member passes through the rotating member, so that the rotating member can relatively limit the elastic member, the stability of the elastic member at the rotating member is enhanced, and meanwhile, the two ends of the elastic member are respectively abutted against the control member and the mounting seat, so that the stability of the elastic member between the control member and the mounting seat is ensured.

In one embodiment, a fixing groove is formed on the mounting groove and/or the control member, and an end of the elastic member is located in the fixing groove.

In the above embodiment, the fixing groove is used to assist the elastic member in fixing, so as to enhance the stability of the elastic member on the mounting groove or the control member.

In one embodiment, the central axis of the elastic member coincides with both the central axis of the control member and the central axis of the mounting groove.

In the above embodiment, when the control member rotates in the mounting groove by using the central axis of the mounting groove as the axis, the elastic member also rotates by using the central axis of the mounting groove as the axis, so that the elastic member does not affect the rotation of the control member.

In one embodiment, an arc-shaped groove is formed in the rotating part, a cylindrical sliding element is arranged in the mounting groove, and the arc-shaped groove is connected with the cylindrical sliding element in a relatively sliding mode.

In the above embodiment, the arc-shaped groove and the columnar sliding element which are connected in a sliding manner assist the rotation of the rotating member in the mounting groove, and meanwhile, the stability between the rotating member and the mounting groove can be enhanced.

In one embodiment, a sealing element is arranged between the rotating member and the mounting groove.

In the above embodiment, the sealing effect between the rotating member and the mounting groove is ensured by the sealing element, and it is ensured that the air at the third air inlet and the second air inlet can be output only through the first air inlet.

In one embodiment, the mounting seat includes a seat body and a first limiting element, the first limiting element is disposed inside the seat body, the rotating element and the control element are disposed between the seat body and the first limiting element, and a through hole is disposed on the first limiting element.

In the above embodiment, the seat body provides a containing space for the rotating part and the control part, the rotating part and the control part in the seat body are limited by the first limiting element, and the installation seat is divided into two parts, so that the production and the installation are convenient.

In one embodiment, the control member comprises a second limiting element and a driving element, the second limiting element is located between the holder body and the first limiting element, and the driving element passes through the through opening and is connected with the second limiting element.

In the above embodiment, the second limiting element can be limited by the seat body and the first limiting element, so that the second limiting element cannot be separated from the mounting seat, and the driving element can conveniently drive the second limiting element to rotate by penetrating the driving element through the first limiting element.

In one embodiment, the first air inlet hole, the second air inlet hole and the third air inlet hole are all arc waist holes.

In the above embodiment, compared with the circular hole or the rectangular hole, the shape of the arc-shaped waist hole facilitates the rotation adjustment of the overlapping area of the second air inlet hole and the first air inlet hole, and the shape of the arc-shaped waist hole also enables the rotation path of the rotating member and the mounting seat to be longer when the second air inlet hole is communicated with the first air inlet hole.

An atomizing device comprises a shell and the child lock mechanism, wherein an airflow channel is arranged in the shell, and the child lock mechanism is installed on the shell and communicated with the airflow channel.

In the above embodiment, the child lock mechanism can control the outside air to enter the inside of the airflow channel.

Advantageous effects

The control piece is pushed to approach the mounting seat, the positioning element on the control piece can be inserted into the positioning groove in the rotating piece, positioning between the control piece and the rotating piece is completed, the control piece can drive the rotating piece to rotate, and then the position of the second air inlet hole is adjusted.

Drawings

FIG. 1 is a schematic, exploded view of a child lock mechanism according to some embodiments of the present application;

FIG. 2 is a schematic view of another angular configuration of a child-resistant mechanism according to some embodiments of the present application;

FIG. 3 is a structural cross-sectional view of a child lock mechanism according to some embodiments of the present application;

FIG. 4 is a schematic illustration of an atomizing device according to some embodiments of the present application;

FIG. 5 is a left side view of the structure of FIG. 3;

FIG. 6 is a schematic diagram of the external structure of an atomizing device according to some embodiments of the present disclosure;

FIG. 7 is a schematic, exploded view of an atomizing device according to some embodiments of the present disclosure;

fig. 8 is a schematic view of another angular, disassembled configuration of an atomization device according to some embodiments of the present disclosure.

Reference numerals are as follows:

1. a mounting seat; 11. a base body; 12. a first stop element;

13. a first air intake hole;

14. mounting grooves;

2. a control member; 21. a second limiting element; 22. a drive element;

23. a third air inlet hole;

24. a positioning element;

25. a fixing groove;

3. a rotating member;

31. a second air intake hole;

32. positioning a groove;

33. an arc-shaped slot;

4. an elastic member;

5. a sealing element;

6. a housing; 61. a housing; 62. a support; 63. an atomizing core; 64. a suction nozzle; 65. a base.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "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, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless expressly specified otherwise.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, a first feature "on" or "under" a second feature may be directly contacting the second feature or the first and second features may be indirectly contacting the second feature through intervening media. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. As used herein, the terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like are for purposes of illustration only and do not denote a single embodiment.

Referring to fig. 1 to 3, an embodiment of the present invention provides a child lock mechanism, which includes a mounting base 1, a control member 2, a rotating member 3 and an elastic member 4. Wherein, the mounting seat 1 can be mounted on an air inlet of a device needing to use a child lock mechanism, and provides a mounting platform for the control member 2, the rotating member 3 and the elastic member 4.

The mounting seat 1 is provided with a mounting groove 14 and a first air inlet 13 which are communicated with each other. Specifically, the mounting groove 14 and the first air inlet 13 are respectively disposed on the front and back surfaces of the mounting base 1. In addition, to ensure the rotating effect, the mounting groove 14 is a circular groove.

Control 2, control 2 rotates to be installed in mounting groove 14, be equipped with the third air inlet 23 with first inlet port 13 looks counterpoint on control 2, and third air inlet 23 eccentric settings is on control 2, control 2 can adjust the dislocation degree of third air inlet 23 and first inlet port 13 when the mounting groove 14 internal rotation and adjust the air inlet face size, when third air inlet 23 and first inlet port 13 stagger completely, be the state of not ventilating between control 2 and mount pad 1, be equipped with positioning element 24 on the side that control 2 is close to first inlet port 13. When the mounting groove 14 is a circular groove, the control member 2 may have a cylindrical shape, so that the control member can rotate in the mounting groove 14. In addition, in order to enhance the stability between the control member 2 and the mounting seat 1, the outer sidewall of the control member 2 may contact the inner sidewall of the mounting groove 14. The positioning element 24 can be a positioning rod, a positioning post or a positioning block.

The rotating part 3, the rotating part 3 is rotatably installed between the installation groove 14 and the control part 2, the rotating part 3 is in contact with the side face of the installation groove 14 where the first air inlet hole 13 is located, the rotating part 3 is provided with a second air inlet hole 31 opposite to the third air inlet hole 23, the second air inlet hole 31 is eccentrically arranged on the rotating part 3, the rotating part 3 can adjust the dislocation degree of the second air inlet hole 31 and the first air inlet hole 13 to adjust the size of an air inlet face when rotating in the installation groove 14, when the second air inlet hole 31 and the first air inlet hole 13 are completely staggered, the space between the rotating part 3 and the installation seat 1 is in an unvented state, the side face of the rotating part 3, which is close to the control part 2, is provided with a positioning groove 32, and the positioning element 24 can be inserted into the positioning groove 32. Wherein, the quantity of positioning groove 32 is no less than the quantity of positioning element 24, and the quantity of positioning element 24 can set up one at least, improves the location effect. In addition, when the installation groove 14 is a circular groove, the rotating member 3 may have a cylindrical shape to facilitate rotation in the installation groove 14. To enhance the stability between the rotary member 3 and the mounting seat 1, the outer side wall of the rotary member 3 may contact the inner side wall of the mounting groove 14.

The elastic element 4, the elastic element 4 is arranged between the control element 2 and the mounting seat 1, when the positioning element 24 is inserted into the positioning groove 32, the elastic element 4 gives a force which is far away from the rotating element 3 with the control element 2. Wherein, the optional spring of elastic component 4, after guaranteeing through the elasticity of spring that control piece 2 is moving to the direction that is close to mount pad 1, if no longer give control piece 2 thrust, control piece 2 can move under the spring action of spring and reset to the direction of keeping away from mount pad 1.

In the child lock mechanism, when the child lock mechanism is used, a user can push the control piece 2 to approach the mounting base 1, the positioning element 24 on the control piece 2 is inserted into the positioning groove 32 on the rotating piece 3, the positioning between the control piece 2 and the rotating piece 3 is completed, then the control piece 2 is rotated to drive the rotating piece 3 to rotate, the position of the second air inlet hole 31 is adjusted, the second air inlet hole 31 is communicated with the first air inlet hole 13, the child lock mechanism is opened, and outside air can enter the first air inlet hole 13 through the third air inlet hole 23 and the second air inlet hole 31 in sequence; if the child lock mechanism is to be closed, the control part 2 can be pushed to approach the mounting seat 1 again, the positioning element 24 on the control part 2 is inserted into the positioning groove 32 on the rotating part 3, then the control part 2 is rotated to drive the rotating part 3 to rotate, so that the second air inlet hole 31 is not communicated with the first air inlet hole 13 any more, and the outside air cannot enter the first air inlet hole 13 through the third air inlet hole 23 and the second air inlet hole 31; in addition, after the rotating member 3 is rotated each time, the control member 2 can be far away from the mounting seat 1 by the elastic force of the elastic member 4 only by loosening the control member 2, so that the positioning element 24 is moved out of the positioning groove 32, and the control member 2 is reset.

In one embodiment, two ends of the elastic member 4 abut against the control member 2 and the mounting seat 1, respectively, and the elastic member 4 passes through the rotating member 3. The rotating part 3 can relatively limit the elastic part 4 by enabling the elastic part 4 to penetrate through the rotating part 3, the stability of the elastic part 4 at the rotating part 3 is enhanced, and meanwhile, the stability of the elastic part 4 between the control part 2 and the mounting seat 1 is ensured by enabling two ends of the elastic part 4 to abut against the control part 2 and the mounting seat 1 respectively. Specifically, be equipped with the through-hole that supplies elastic component 4 to pass on the rotating member 3, when elastic component 4 chose for use the spring, the lateral wall and the through-hole inside wall contact of spring further improve the steadiness of elastic component 4 in rotating member 3 department.

In one embodiment, the mounting groove 14 and/or the control member 2 is provided with a fixing groove 25, and the end of the elastic member 4 is positioned in the fixing groove 25. In one embodiment, the control member 2 is provided with a fixing groove 25, one end of the elastic member 4 is located in the fixing groove 25, and the other end of the elastic member 4 abuts against the mounting seat 1; in another embodiment, the mounting groove 14 is provided with a fixing groove 25, one end of the elastic member 4 is located in the fixing groove 25, and the other end of the elastic member 4 abuts against the control member 2 (not shown in the figure); in another embodiment, the mounting groove 14 and the control member 2 are provided with fixing grooves 25, and both ends of the elastic member 4 are respectively positioned in the two fixing grooves 25 (not shown). The fixing of the elastic member 4 is assisted by the fixing groove 25, thereby enhancing the stability of the elastic member 4 on the mounting groove 14 or the control member 2.

In one embodiment, the central axes of the elastic element 4, the control element 2 and the mounting groove 14 coincide. When the control member 2 rotates in the mounting groove 14 by taking the central axis of the mounting groove 14 as an axis, the elastic member 4 also rotates by taking the central axis of the mounting groove 14 as an axis, so that the elastic member 4 does not influence the rotation of the control member 2. In addition, the central axis of the control member 2 and the central axis of the rotating member 3 are coincident with the central axis of the mounting groove 14, so that the control member 2 and the rotating member 3 rotate by taking the central axis of the mounting groove 14 as an axis.

In one embodiment, the rotating member 3 is provided with an arc-shaped slot 33, the installation slot 14 is provided with a cylindrical sliding element, and the arc-shaped slot 33 is connected with the cylindrical sliding element in a relative sliding manner. That is, the columnar sliding member is inserted into the inside of the arc-shaped groove and can slide along the path of the arc-shaped groove. Through the arc-shaped slot 33 and the columnar sliding element which are connected in a sliding manner, the rotation of the rotating part 3 in the mounting groove 14 is assisted, and meanwhile, the stability between the rotating part 3 and the mounting groove 14 can be enhanced. In addition, because the cylindrical sliding element is inserted into the arc-shaped groove, the cylindrical sliding element can also be removed from the arc-shaped groove, so that the rotating part 3 can be conveniently taken out from the mounting groove 14.

In one embodiment, a sealing element 5 is provided between the rotary member 3 and the mounting groove 14. Specifically, the sealing element 5 may be a gasket. The sealing effect between the rotating member 3 and the mounting groove 14 is ensured by the sealing element 5, and it is ensured that the air at the third air inlet hole 23 and the second air inlet hole 31 can only be output through the first air inlet hole 13. In one embodiment, an annular groove is formed in the outer side wall of the rotating part 3, the sealing element 5 is sleeved on the annular groove, the inner side wall and the outer side wall of the sealing element 5 are respectively in contact with the annular groove and the mounting groove 14, the sealing element 5 can be limited through the annular groove, and the stability between the sealing element 5 and the rotating part 3 is ensured; in another embodiment, an annular groove is formed on the inner side wall of the mounting groove 14, the sealing element 5 is arranged in the annular groove, the inner side wall and the outer side wall of the sealing element 5 are respectively in contact with the rotating member 3 and the annular groove (not shown in the figure), and the sealing element 5 is limited by the annular groove, so that the stability between the sealing element 5 and the mounting seat 1 is ensured.

In one embodiment, the mounting base 1 includes a base 11 and a first limiting element 12, the first limiting element 12 is disposed inside the base 11, the rotating element 3 and the control element 2 are disposed between the base 11 and the first limiting element 12, and the first limiting element 12 is provided with a through hole. Specifically, the mounting groove 14 is disposed in the base 11, the first limiting element 12 is disposed in the mounting groove 14, the first limiting element 12 is used for limiting the rotating member 3 and the control member 2 which are also located in the mounting groove 14, and the through hole is used for assisting a user to drive the rotating member 3 to rotate. For rotating member 3 and control 2 provide accommodation space through pedestal 11, carry on spacingly to rotating member 3 and control 2 that lie in pedestal 11 through first spacing component 12, through dividing mount pad 1 into two parts, conveniently produce and install. In addition, a groove or a twisted piece can be arranged on the side surface of the rotating member 3 close to the through opening, and a user can insert fingers into the groove or pinch the twisted piece and then rotate the rotating member 3.

In one embodiment, the control member 2 comprises a second limiting element 21 and a driving element 22, the second limiting element 21 is located between the seat body 11 and the first limiting element 12, and the driving element 22 passes through the through opening and is connected with the second limiting element 21. Specifically, the positioning element 24 and the driving element 22 are respectively disposed on the front and back surfaces of the second limiting element 21, and when the driving element 22 drives the second limiting element 21 to rotate, the positioning element 24 rotates therewith. The second limiting element 21 can be limited by the seat body 11 and the first limiting element 12, so that the second limiting element 21 cannot be separated from the mounting seat 1, and the driving element 22 can conveniently drive the second limiting element 21 to rotate by enabling the driving element 22 to penetrate through the first limiting element 12.

In one embodiment, the first air inlet hole 13 is eccentrically arranged on the mounting seat 1, the third air inlet hole 23 is eccentrically arranged on the control member 2, and the second air inlet hole 31 is eccentrically arranged on the rotating member 3, the eccentric arrangement mode can enable the control member 2 to adjust the dislocation degree of the third air inlet hole 23 and the first air inlet hole 13 to adjust the size of an air inlet surface when rotating in the mounting groove 14, and enable the rotating member 3 to adjust the dislocation degree of the second air inlet hole 31 and the first air inlet hole 13 to adjust the size of the air inlet surface when rotating in the mounting groove 14. The first air inlet hole 13, the second air inlet hole 31 and the third air inlet hole 23 are all arc-shaped waist holes. Specifically, arc waist hole includes the arc hole and sets up the round hole at arc hole both ends, and the radius of arc hole and round hole is unanimous, and the arc hole is also unanimous with the centre of a circle of mounting groove 14. Compared with a circular hole or a rectangular hole, the shape of the arc-shaped waist hole is more convenient for rotating and adjusting the overlapping area of the second air inlet hole 31 and the first air inlet hole 13, and the shape of the arc-shaped waist hole can also make the rotating path between the rotating piece 3 and the mounting seat 1 longer when the second air inlet hole 31 is communicated with the first air inlet hole 13.

Referring to fig. 4-5, an atomizing device includes a housing 6 and the child-lock mechanism, an airflow channel is provided in the housing 6, the child-lock mechanism is mounted on the housing 6 and is communicated with the airflow channel, and the child-lock mechanism can control outside air to enter the airflow channel.

Referring to fig. 7-8, specifically, the housing 6 includes a casing 61, a support 62, an atomizing core 63, a suction nozzle 64, and a base 65, the support 62 is disposed inside the casing 61, the atomizing core 63 is disposed inside the support 62, the airflow channel is located inside the atomizing core, the suction nozzle 64 is disposed on the casing 61 and is communicated with the airflow channel, the base 65 is disposed on the casing 61, and a mounting opening for mounting the child lock mechanism is disposed on the base 65, and the mounting opening is communicated with the airflow channel. When suction force is given to the suction nozzle, if the child lock mechanism is in an open state, outside air can be sucked into the airflow channel through the third air inlet hole 23, the second air inlet hole 31 and the first air inlet hole 13 in sequence, so that aerosol in the airflow channel can be sucked out through the suction nozzle; if the child lock mechanism is in the open state, outside air cannot enter the air flow channel, and aerosol in the air flow channel cannot be sucked out through the suction nozzle.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A child lock mechanism, comprising:

the air conditioner comprises a mounting seat (1), wherein the mounting seat (1) is provided with a mounting groove (14) and a first air inlet hole (13) which are communicated with each other;

the rotating piece (3) is rotatably installed in the installation groove (14), a second air inlet hole (31) opposite to the first air inlet hole (13) is formed in the rotating piece (3), when the rotating piece (3) rotates, the second air inlet hole (31) can be staggered or completely staggered with the first air inlet hole (13), and a positioning groove (32) is formed in the side face, far away from the installation groove (14), of the rotating piece (3);

the control piece (2) is rotatably installed in the installation groove (14), a third air inlet hole (23) opposite to the second air inlet hole (31) is formed in the control piece (2), a positioning element (24) is arranged on the side face, close to the rotating piece (3), of the control piece (2), when the positioning element (24) is inserted into the positioning groove (32), the rotating piece (3) can drive the control piece (2) to rotate, and the position, relative to the first air inlet hole (13), of the second air inlet hole (31) is adjusted.

2. A child-lock mechanism according to claim 1, characterized in that the mechanism further comprises a resilient member (4), the resilient member (4) being disposed between the control member (2) and the mounting (1), the resilient member (4) imparting a force to the control member (2) away from the rotary member (3) when the positioning element (24) is inserted into the positioning slot (32).

3. A child lock mechanism according to claim 2, characterized in that the control member (2) is provided with a fixing groove (25), two ends of the elastic member (4) are respectively abutted against the fixing groove (25) and the mounting seat (1), the elastic member (4) passes through the rotating member (3), and a central axis of the elastic member (4), a central axis of the control member (2) and a central axis of the mounting groove (14) are all coincident.

4. A child lock mechanism according to claim 1, characterized in that an arc-shaped slot (33) is provided on the rotary member (3), and the center of the arc-shaped slot (33) coincides with the center of the rotary member (3), and a cylindrical sliding element is provided in the mounting groove (14), and the end of the cylindrical sliding element is inserted into the arc-shaped slot (33) and can slide along the path of the arc-shaped slot (33).

5. A child lock mechanism according to claim 1, wherein an annular groove is provided on an outer side wall of the rotary member (3), a sealing element (5) is sleeved on the annular groove, an outer side wall of the sealing element (5) abuts against an inner side wall of the mounting groove (14), and the first air inlet hole (13) is provided on an inner bottom wall of the mounting groove (14) in a penetrating manner.

6. A child lock mechanism according to claim 1, characterized in that the mounting seat (1) comprises a seat body (11) and a first limiting element (12), the first limiting element (12) is arranged inside the seat body (11), the rotating member (3) and the control member (2) are both arranged between the seat body (11) and the first limiting element (12), and a through opening is arranged on the first limiting element (12).

7. A child-lock mechanism according to claim 6, characterised in that the control member (2) includes a second stop element (21) and an actuating element (22), the second stop element (21) being located between the seat (11) and the first stop element (12), the actuating element (22) passing through the through-opening and being connected to the second stop element (21).

8. A child lock mechanism according to claim 1, characterised in that the first air inlet aperture (13) is eccentrically located on the mounting (1), the third air inlet aperture (23) is eccentrically located on the control member (2), the second air inlet aperture (31) is eccentrically located on the rotary member (3), and the first air inlet aperture (13), the second air inlet aperture (31) and the third air inlet aperture (23) are all arcuate kidney apertures.

9. An atomising device characterised in that it comprises a housing (6) and a child-lock mechanism as claimed in any one of claims 1 to 8, an airflow path being provided in the housing (6), the child-lock mechanism being mounted on the housing (6) and communicating with the airflow path.

10. Atomizing device according to claim 9, characterized in that the housing (6) comprises a casing (61), a support (62), an atomizing core (63), a suction nozzle (64) and a base (65), the support (62) is arranged inside the casing (61), the atomizing core (63) is arranged inside the support (62), and the air flow channel is located inside the atomizing core (63), the suction nozzle (64) is arranged on the casing (61) and is in communication with the air flow channel, the base (65) is arranged on the casing (61), a mounting opening for mounting the child lock mechanism is arranged on the base (65), and the mounting opening is in communication with the air flow channel.

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