CN109602090B - Aerial fog generator of high-end lock catch and release mechanism and control method thereof - Google Patents

Abstract

The invention provides an aerosol generator of a high-end lock catch and release mechanism and a control method thereof, comprising a main body; the switching device is arranged on the main body and provided with a connecting surface, a switching control part is arranged on the connecting surface, a control piece is arranged on the switching control part, and the switching control part is provided with a first positioning groove, a second positioning groove, a third positioning groove and a fourth positioning groove; the control member is configured to allow movement only from the first detent to the second detent, the second detent to the third detent, the third detent to the fourth detent, and the fourth detent to the first detent. In order to realize the switching function, the cigarette bullet of different models only need dispose the switching device of different grade type, can install in the main part through the switching device, need not to change the main part, and through the configuration between switching device and the main part, need not the people and pulls out the switching device, and the automatic operation of being convenient for has effectively utilized the main part, has avoided the waste of main part.

Description

Aerial fog generator of high-end lock catch and release mechanism and control method thereof

Technical Field

The invention relates to an aerosol generator of a high-end lock catch and release mechanism and a control method thereof.

Background

At present, an electronic cigarette is used, which comprises a shell, wherein an atomizer, a circuit board, a battery, the battery and the circuit board are arranged in the shell, the upper part of the shell is provided with an opening, the atomizer is arranged in the opening, when the electronic cigarette is used, the electric energy of the battery is transmitted to the atomizer through the circuit board, a heating wire and tobacco tar are arranged in the atomizer, the top of the atomizer is provided with a cigarette holder, the tobacco tar is atomized by the heating wire, and the atomized tobacco tar flows out through the cigarette holder for people to suck; and the atomizer is taken out, so that the atomizer needs to be pulled out from the opening by hands, and the taking-out is inconvenient.

Disclosure of Invention

The present invention is directed to overcome the drawbacks of the prior art, and provides an aerosol generator with a high-end locking and releasing mechanism and a control method thereof, which have the features of an automatic locking and releasing adaptor.

The invention is realized in the following way: an aerosol generator for a high end latch and release mechanism, comprising:

a main body;

the switching device is provided with a first end, a second end and a connecting surface, wherein the first end and the second end are arranged oppositely, the connecting surface is positioned between the first end and the second end, the connecting surface is provided with a switching control part, the switching control part is provided with a control piece, and the switching control part is provided with a first positioning groove, a second positioning groove, a third positioning groove and a fourth positioning groove;

wherein the control member is configured to only allow movement from the first detent to the second detent, the second detent to the third detent, the third detent to the fourth detent, and the fourth detent to the first detent.

Furthermore, the second positioning groove is higher than the first positioning groove, the first positioning groove is communicated with the second positioning groove through a first one-way path, the first one-way path extends obliquely upwards from the inner wall of the first positioning groove, and the sunken depth of the first one-way path is smaller than that of the second positioning groove at the joint of the first one-way path and the second positioning groove.

Furthermore, the second positioning groove is higher than the third positioning groove, the second positioning groove is communicated with the third positioning groove through a second one-way path, the second one-way path extends downwards from the inner wall of the second positioning groove in an inclined mode, and the sunken depth of the second one-way path is smaller than the sunken depth of the third positioning groove at the connecting position of the second one-way path and the third positioning groove.

Furthermore, the fourth positioning groove is higher than the third positioning groove, the third positioning groove is communicated with the fourth positioning groove through a third one-way path, the third one-way path extends obliquely upwards from the inner wall of the third positioning groove, and the sunken depth of the third one-way path is smaller than that of the fourth positioning groove at the joint of the third one-way path and the fourth positioning groove.

Furthermore, the position of the fourth positioning groove is higher than that of the first positioning groove, the fourth positioning groove is communicated with the first positioning groove through a fourth unidirectional path, the fourth unidirectional path extends obliquely downwards from the inner wall of the fourth positioning groove, and the sunken depth of the fourth unidirectional path is smaller than that of the first positioning groove at the joint of the fourth unidirectional path and the first positioning groove.

Furthermore, the first end is located the second end top, a spout still extends downwards in first constant head tank, the spout downwardly extending runs through the second end.

Furthermore, the control member is a metal control rod, which has a fixing portion mounted on the main body, the fixing portion is bent upward to extend a connecting portion, the connecting portion is bent toward the direction of the switching device to extend a braking portion, and the braking portion is mounted on the switching control portion.

Further, the main body is also provided with an elastic sheet which is configured to be pressed and connected with the connecting part.

Furthermore, the main body is provided with a loading slot, the bottom of the loading slot is provided with an elastic body, the switching device is arranged in the loading slot, and the switching device compresses the elastic body to facilitate the up-and-down movement of the switching device.

The main body is provided with the switching device, the switching device is used for installing the smoke cartridge, the switching device is controlled by the control piece, the control piece is configured to only allow the smoke cartridge to move from the first positioning groove to the second positioning groove and from the second positioning groove to the third positioning groove, from the third positioning groove to the fourth positioning groove and from the fourth positioning groove to the first positioning groove, so that the switching function of the switching device is realized, the smoke cartridges of different types can be arranged in the main body through the switching device only by configuring the switching devices of different types, the main body does not need to be replaced, and the switching device does not need to be pulled out by hands through the configuration between the switching device and the main body, so that the automatic operation is facilitated, the main body is effectively utilized, and the waste of the main body is avoided.

A control method of an aerosol generator of a high-end locking and releasing mechanism comprises the following steps:

step one, installing the switching device into the main body to enable the control piece to be positioned in the first positioning groove;

moving the switching device downwards, wherein the control piece moves from the first positioning groove to the second positioning groove;

step three, loosening the mounting device, pushing the mounting device upwards by the elastic body, and moving the control piece from the second positioning groove to the third positioning groove;

fourthly, moving the switching device downwards, wherein the control piece moves from the third positioning groove to the fourth positioning groove;

fifthly, moving the switching device upwards, wherein the control piece moves from the fourth positioning groove to the first positioning groove;

and step six, continuing to move the switching device upwards, and separating the control piece from the first positioning groove.

The invention provides a control method of an aerosol generator of a high-end lock catch and release mechanism, so that automatic operation is realized, manual pulling-out is not needed, and great convenience is brought to the operation of a user.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is an overall perspective assembly view provided by the present invention;

FIG. 2 is a cross-sectional view of the entirety provided by the present invention;

FIG. 3 is an overall exploded perspective view of the present invention;

FIG. 4 is an exploded isometric view of the attachment device provided by the present invention for use with a cartridge;

FIG. 5 is a perspective view of the control member of the present invention in a first detent;

FIG. 6 is a perspective view of the control member of the present invention positioned in a second positioning slot;

FIG. 7 is a perspective view of the control member of the present invention in a third positioning slot;

FIG. 8 is a perspective view of the control member of the present invention in a fourth detent;

FIG. 9 is a schematic view of the control member of the present invention in a fourth unidirectional path;

fig. 10 is a perspective view of the control member of the present invention at another perspective of the first positioning groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, an embodiment of the invention provides an aerosol generator of a high-end locking and releasing mechanism, which includes: a main body 1; the switching device 2 is arranged on the main body 1, the switching device 2 is used for installing the cartridge 3, the switching device 2 is provided with a first end 21 and a second end 22, the first section is arranged opposite to the second end 22, and a connecting surface 23 is arranged between the first end 21 and the second end 22, the connecting surface 23 is provided with a switching control part 24, the switching control part 24 is provided with a control part 4, and the switching control part 24 is provided with a first positioning groove 241, a second positioning groove 242, a third positioning groove 243 and a fourth positioning groove 244; wherein the control member 4 is configured to allow movement only from the first detent 241 to the second detent 242, the second detent 242 to the third detent 243, the third detent 243 to the fourth detent 244, and the fourth detent 244 to the first detent 241.

In the present design, the switching control portion 24 is located at a side surface of the switching device 2, the second positioning groove 242 is higher than the first positioning groove 241, the first positioning groove 241 and the second positioning groove 242 are communicated with each other through the first one-way path 71, the first one-way path 71 extends obliquely upward from an inner wall of the first positioning groove 241, a recessed depth of the first one-way path 71 is smaller than a recessed depth of the second positioning groove 242 at a joint of the first one-way path 71 and the second positioning groove 242, thereby forming a threshold, in a process that the first one-way path 71 extends upward from below, the recessed depth of the first one-way path 71 at the side surface of the switching device 2 gradually decreases, and at a joint with the second positioning groove 242, the recessed depth of the first one-way path 71 is smaller than the recessed depth of the second positioning groove 242, which can prevent the control element 4 from moving from the second positioning groove 242 to the first positioning groove 241, only allow movement from the first positioning groove 241 to the second positioning groove 242, only allow movement in one direction, and not allow movement in a reverse direction.

The second positioning groove 242 is located higher than the third positioning groove 243, the second positioning groove 242 is communicated with the third positioning groove 243 through the second one-way path 72, the second one-way path 72 extends obliquely downwards from the inner wall of the second positioning groove 242, and at the joint of the second one-way path 72 and the third positioning groove 243, the depth of the depression of the second one-way path 72 is smaller than the depth of the depression of the third positioning groove 243, so that a threshold is formed, the control element 4 can be prevented from moving from the third positioning groove 243 to the second positioning groove 242, only the movement from the second positioning groove 242 to the third positioning groove 243 is allowed, only the one-way movement is allowed, and the reverse movement is not allowed. It can also be understood that the depth of the recess of the second one-way path 72 decreases as it extends obliquely downward from the inner wall of the second detent 242, and a threshold is formed at the junction of the second one-way path 72 and the third detent 243 to prevent reverse movement.

The fourth positioning groove 244 is located higher than the third positioning groove 243, the third positioning groove 243 is communicated with the fourth positioning groove 244 through a third one-way path 73, the third one-way path 73 extends obliquely upward from the inner wall of the third positioning groove 243, the recessed depth of the third one-way path 73 is smaller than the recessed depth of the fourth positioning groove 244 at the joint of the third one-way path 73 and the fourth positioning groove 244, and a threshold is formed at the joint of the third one-way path 73 and the fourth positioning groove 244 to prevent reverse movement and not allow reverse movement, which can also be understood that the recessed depth of the third one-way path 73 is decreased gradually in the process of extending obliquely upward from the inner wall of the third positioning groove 243.

The position of the fourth positioning groove 244 is higher than the position of the first positioning groove 241, the fourth positioning groove 244 is communicated with the first positioning groove 241 through the fourth one-way path 74, the fourth one-way path 74 extends obliquely downward from the inner wall of the fourth positioning groove 244, and at the connection position of the fourth one-way path 74 and the first positioning groove 241, the recessed depth of the fourth one-way path 74 is smaller than the recessed depth of the first positioning groove 241, so that a threshold is formed, reverse movement is prevented, and reverse movement is not allowed.

The control member 4 is a metal control rod, which has a fixing portion 41 installed on the main body 1, the fixing portion 41 is bent upwards to extend a connecting portion 42, the connecting portion 42 is bent towards the direction of the adapter 2 to extend a braking portion 43, and the braking portion 43 is installed on the conversion control portion 24. The first end 21 is located above the second end 22, the first positioning slot 241 further extends downwardly to form a sliding slot 245, and the sliding slot 245 extends downwardly through the second end 22 to facilitate the downward movement of the detent portion 43 from the first positioning slot 241 to eject the attachment device through the sliding slot 245.

The main body 1 is further provided with an elastic sheet 5, the elastic sheet 5 is configured to be in compression joint with the connecting part 42, the elastic sheet 5 prevents the connecting part 42 from excessively moving outwards, and the brake part 43 is ensured to be always positioned in the conversion control part 24.

The main body 1 is provided with a loading slot 11, the bottom of the loading slot 11 is provided with an elastic body 12, the adapter 2 is arranged in the loading slot 11, the adapter 2 compresses the elastic body 12 to facilitate the up-and-down movement of the adapter 2, and the elastic body 12 can be a compression spring, elastic rubber and the like.

According to the invention, the main body 1 is provided with the switching device 2, the switching device 2 is used for installing the smoke cartridge 3, the switching device 2 is controlled by the control part 4, the control part 4 is configured to only allow the smoke cartridge to move from the first positioning groove 241 to the second positioning groove 242, the second positioning groove 242 to the third positioning groove 243, the third positioning groove 243 to the fourth positioning groove 244 and the fourth positioning groove 244 to move to the first positioning groove 241, so that the switching function of the switching device 2 is realized, the smoke cartridges 3 of different types can be installed on the main body 1 through the switching device 2 only by configuring the switching devices 2 of different types, the main body 1 does not need to be replaced, and through the configuration between the switching device 2 and the main body 1, the switching device 2 does not need to be pulled out by hands, so that the automatic operation is facilitated, the main body 1 is effectively utilized, and the waste of the main body 1 is avoided.

A method of controlling an aerosol generator of a high end lock and release mechanism comprising the steps of, also herein understood as the method of use of the attachment device:

step one, installing the switching device 2 into the main body 1, and enabling the control piece 4 to be located in the first positioning groove 241;

step two, moving the switching device 2 downwards, wherein the control piece 4 moves from the first positioning groove 241 to the second positioning groove 242;

step three, loosening the attachment device, pushing the attachment device upwards by the elastic body 12, and moving the control member 4 from the second positioning groove 242 to the third positioning groove 243;

step four, moving the switching device 2 downwards, wherein the control element 4 moves from the third positioning groove 243 to the fourth positioning groove 244;

step five, moving the switching device 2 upwards, wherein the control piece 4 moves from the fourth positioning groove 244 to the first positioning groove 241;

and sixthly, continuing to move the switching device 2 upwards, wherein the control piece 4 is separated from the first positioning groove 241, moves downwards from the first positioning groove 241 and enters the sliding groove 245, and then the mounting device is ejected out through the sliding groove 245.

The invention provides a control method of an aerosol generator of a high-end lock catch and release mechanism, so that automatic operation is realized, manual pulling-out is not needed, and great convenience is brought to the operation of a user.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (4)

1. An aerosol generator for a high-end latch and release mechanism, comprising:

a main body;

the switching device is provided with a first end and a second end, the first end and the second end are arranged oppositely, and a connecting surface is positioned between the first end and the second end, the connecting surface is provided with a switching control part, the switching control part is provided with a control piece, and the switching control part is provided with a first positioning groove, a second positioning groove, a third positioning groove and a fourth positioning groove;

wherein the control is configured to only allow movement from the first detent to the second detent, the second detent to the third detent, the third detent to the fourth detent, the fourth detent to the first detent;

the second positioning groove is higher than the first positioning groove, the first positioning groove is communicated with the second positioning groove through a first one-way path, the first one-way path extends obliquely upwards from the inner wall of the first positioning groove, the depth of the first one-way path recessed in the side surface of the switching device is gradually reduced, and the recessed depth of the first one-way path is smaller than the recessed depth of the second positioning groove at the joint of the first one-way path and the second positioning groove;

the second positioning groove is higher than the third positioning groove, the second positioning groove is communicated with the third positioning groove through a second one-way path, the second one-way path extends downwards from the inner wall of the second positioning groove in an inclined mode, the depth of the second one-way path at the side face of the switching device is gradually reduced, and the depth of the second one-way path at the connecting position of the second one-way path and the third positioning groove is smaller than that of the third positioning groove;

the fourth positioning groove is higher than the third positioning groove, the third positioning groove is communicated with the fourth positioning groove through a third one-way path, the third one-way path extends upwards from the inner wall of the third positioning groove in an inclined mode, the sunken depth of the third one-way path on the side face of the switching device is gradually reduced, and the sunken depth of the third one-way path is smaller than the sunken depth of the fourth positioning groove at the connecting position of the third one-way path and the fourth positioning groove;

the position of the fourth positioning groove is higher than that of the first positioning groove, the fourth positioning groove is communicated with the first positioning groove through a fourth one-way path, the fourth one-way path extends downwards from the inner wall of the fourth positioning groove in an inclined mode, the sunken depth of the fourth one-way path on the side face of the switching device is gradually reduced, and the sunken depth of the fourth one-way path is smaller than that of the first positioning groove at the connecting position of the fourth one-way path and the first positioning groove;

the first end is positioned above the second end, the first positioning groove also extends downwards to form a sliding groove, and the sliding groove extends downwards to penetrate through the second end;

the main body is provided with a loading groove, the bottom of the loading groove is provided with an elastic body, the switching device is arranged in the loading groove, and the switching device compresses the elastic body to facilitate the up-and-down movement of the switching device.

2. The aerosol generator of the high-end latch and release mechanism of claim 1, wherein: the control piece is a metal control rod which is provided with a fixing part arranged on the main body, the fixing part is bent upwards to extend a connecting part, the connecting part is bent towards the direction of the switching device to extend a braking part, and the braking part is arranged on the switching control part.

3. The aerosol generator of high-end latch and release mechanism of claim 2, wherein: the main body is also provided with a spring sheet which is configured to be pressed and connected with the connecting part.

4. The method of claim 1, comprising the steps of:

step one, installing the switching device into the main body to enable the control piece to be positioned in the first positioning groove;

moving the switching device downwards, wherein the control piece moves from the first positioning groove to the second positioning groove;

step three, loosening the switching device, pushing the switching device upwards by the elastic body, and moving the control piece from the second positioning groove to the third positioning groove;

fourthly, moving the switching device downwards, wherein the control piece moves from the third positioning groove to the fourth positioning groove;

fifthly, moving the switching device upwards, wherein the control piece moves from the fourth positioning groove to the first positioning groove;

and step six, continuing to move the switching device upwards, and separating the control piece from the first positioning groove.

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