CN212530691U - Separated pressing aerosol bottle - Google Patents

Abstract

The utility model belongs to the technical field of the aerial fog bottle, especially, relate to an aerial fog bottle is pressed to cellular-type. The utility model discloses when aerial fog bottle was used to cellular-type press, different liquid are packed into at different compartments, then rotatory the relative stock solution room limit structure of swivel sleeve to the soft cover structure axis of the compartment that required spraying liquid located and the horizontal segment axis coincidence of pipette, the horizontal segment of pipette inserts the soft cover structure and is wrapped up by the soft cover structure, the shower nozzle of pressing the spraying structure can spray, if need spray to another liquid, rotatory the relative stock solution room limit structure of swivel sleeve to the soft cover structure axis of the compartment that another required spraying liquid located and the horizontal segment axis coincidence of pipette again, the horizontal segment of pipette inserts the soft cover structure and is wrapped up by the soft cover structure, it can to press the shower nozzle again to spray, can realize the effect of carrying out the fog spraying to multiple liquid.

Description

Separated pressing aerosol bottle

Technical Field

The utility model belongs to the technical field of the aerial fog bottle, especially, relate to an aerial fog bottle is pressed to cellular-type.

Background

At present, a lot of liquid is filled in a manual pressing type aerosol bottle in a solution form, the existing manual pressing type aerosol bottle generally comprises an atomizing spray head and an aerosol bottle body, foggy solution can be sprayed out from a nozzle of the atomizing spray head by pressing a button on the atomizing spray head, and the aerosol bottle can only realize the fogging of single liquid generally.

Under certain demand conditions, different liquid fogging spraying needs to be convenient to adopt, and if traditional aerial fog bottles are adopted, the spraying is very inconvenient, and a plurality of aerial fog bottles are needed to finish the target, so that the work efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an aerial fog bottle is pressed to cellular-type for solve the current problem that can not satisfy the spraying of hazing to multiple liquid of pressing the aerial fog bottle.

The utility model discloses a concrete technical scheme as follows:

a compartmentalized, press aerosol bottle comprising: the spraying device comprises a spraying structure, a rotary sleeve, a rotary shaft, a liquid storage chamber and a liquid storage chamber limiting structure;

the rotating sleeve and the rotating shaft are both fixedly connected with a spray head limiting structure of the spraying structure, the rotating shaft comprises a vertical section and a horizontal section, the rotating shaft is arranged in the rotating sleeve, the vertical section of the rotating shaft and the rotating sleeve are coaxially arranged, and a liquid suction pipe of the spraying structure is positioned in the rotating shaft and is matched with the rotating shaft in shape;

the liquid storage chamber limiting structure is fixedly connected with the liquid storage chamber, the liquid storage chamber is movably clamped with the rotary sleeve through the liquid storage chamber limiting structure, and the rotary sleeve is sleeved outside the liquid storage chamber limiting structure and can rotate relative to the liquid storage chamber limiting structure;

the liquid storage chamber is divided into more than two compartments by a partition plate, the compartments are communicated with liquid storage chamber guide pipes, a flow guide and flow limiting structure is fixedly arranged on each compartment, the flow guide and flow limiting structure guide pipe of the flow guide and flow limiting structure is of an L-shaped structure and is communicated with the liquid storage chamber guide pipe, and the opening end of the horizontal section of the flow guide and flow limiting structure guide pipe is connected with a soft sleeve structure;

the central axis of the soft sleeve structure and the central axis of the horizontal section of the pipette are positioned at the same height, when the rotary sleeve rotates relative to the liquid storage chamber limiting structure until the central axis of the soft sleeve structure coincides with the central axis of the horizontal section of the pipette, the horizontal section of the pipette is inserted into the soft sleeve structure and is wrapped by the soft sleeve structure.

Preferably, the swivel sleeve is provided with a limiting track, the swivel sleeve is provided with a first groove, the liquid storage chamber limiting structure is provided with a swivel sleeve limiting ball, and the swivel sleeve and the liquid storage chamber limiting structure can be matched with the first groove and the swivel sleeve limiting ball to limit.

Preferably, the number of the first grooves is more than two;

the number of the first grooves is matched with that of the compartments, and the opening end of the horizontal section of the pipette is provided with a first water stop flap, so that the spraying structure can spray or empty different liquids.

Preferably, a second groove is formed in the center of the bottom of the vertical section of the rotating shaft;

the top center of stock solution room is provided with the supporting disk, the supporting disk is located in the second recess and with the rotation axis contact setting.

Preferably, the supporting disk comprises a disk and a limiting block arranged in the circumferential direction, and the limiting block can perform radial telescopic movement relative to the disk.

Preferably, the number of the horizontal sections of the rotating shaft is more than two;

the horizontal sections of more than two rotating shafts are positioned at the same height of the vertical section of the rotating shaft and are circumferentially arranged along the vertical section of the rotating shaft.

Preferably, the horizontal section of the rotating shaft is detachably connected with the vertical section of the rotating shaft.

Preferably, the method further comprises the following steps: a storage box;

the storage box is arranged at the bottom of the liquid storage chamber and is detachably connected with the liquid storage chamber.

Preferably, a plug is arranged at the bottom of the separation chamber, and the plug is detachably connected with the separation chamber;

and a second water stop valve is arranged at the opening end of the soft sleeve structure.

Preferably, the spraying structure further comprises a spray head, a spray opening, a liquid outlet guide pipe, a piston sleeve, a piston and a spring;

the nozzle is arranged on the spray head and communicated with the liquid outlet guide pipe, the liquid outlet guide pipe is L-shaped, the piston and the spring are located in the piston sleeve, the liquid outlet guide pipe, the piston and the spring are sequentially connected, the piston sleeve is communicated with the liquid suction pipe, and the spray head limiting structure is movably connected with the spray head through the piston.

To sum up, the utility model provides a aerosol bottle is pressed to cellular-type, include: the spraying device comprises a spraying structure, a rotary sleeve, a rotary shaft, a liquid storage chamber and a liquid storage chamber limiting structure; the rotating sleeve and the rotating shaft are both fixedly connected with a spray head limiting structure of the spraying structure, the rotating shaft comprises a vertical section and a horizontal section, the rotating shaft is arranged in the rotating sleeve, the vertical section of the rotating shaft and the rotating sleeve are coaxially arranged, and a liquid suction pipe of the spraying structure is positioned in the rotating shaft and is matched with the rotating shaft in shape; the liquid storage chamber limiting structure is fixedly connected with the liquid storage chamber, the liquid storage chamber is movably clamped with the rotary sleeve through the liquid storage chamber limiting structure, and the rotary sleeve is sleeved outside the liquid storage chamber limiting structure and can rotate relative to the liquid storage chamber limiting structure; the liquid storage chamber is divided into more than two compartments by a partition plate, the compartments are communicated with liquid storage chamber guide pipes, a flow guide and flow limiting structure is fixedly arranged on each compartment, the flow guide and flow limiting structure guide pipe of the flow guide and flow limiting structure is of an L-shaped structure and is communicated with the liquid storage chamber guide pipe, and the opening end of the horizontal section of the flow guide and flow limiting structure guide pipe is connected with a soft sleeve structure; the central axis of the soft sleeve structure and the central axis of the horizontal section of the pipette are positioned at the same height, when the rotary sleeve rotates relative to the liquid storage chamber limiting structure until the central axis of the soft sleeve structure coincides with the central axis of the horizontal section of the pipette, the horizontal section of the pipette is inserted into the soft sleeve structure and is wrapped by the soft sleeve structure.

In the utility model, the rotating shaft is arranged inside the rotating sleeve, the vertical section of the rotating shaft and the rotating sleeve are coaxially arranged, the liquid suction pipe of the spraying structure is positioned inside the rotating shaft, the shape of the liquid suction pipe is matched with the rotating shaft, the rotating sleeve is sleeved outside the limiting structure of the liquid storage chamber and can rotate relative to the limiting structure of the liquid storage chamber, the liquid storage chamber is divided into more than two compartments by a partition plate, the compartments are fixedly provided with the flow guide and flow limiting structure, the flow guide and flow limiting structure conduit of the flow guide and flow limiting structure is L-shaped and is communicated with the liquid storage chamber conduit, the horizontal section open end of the flow guide and flow limiting structure conduit is connected with the soft sleeve structure, the central axis of the soft sleeve structure and the central axis of the horizontal section of the liquid suction pipe are positioned at the same height, when the rotating sleeve rotates relative to the limiting structure, when this aerial fog bottle is pressed to cellular-type uses, pack into different liquid at different compartments, then rotatory the relative stock solution room limit structure of swivel sleeve to the cushion cover structure axis of the compartment that required spraying liquid was located and the horizontal segment axis coincidence of pipette, the horizontal segment of pipette inserts the cushion cover structure and is wrapped up by the cushion cover structure, the shower nozzle of pressing the spraying structure can spray, if need spray to another liquid, rotatory the relative stock solution room limit structure of swivel sleeve to the cushion cover structure axis of the compartment that another required spraying liquid was located and the horizontal segment axis coincidence of pipette again, the horizontal segment of pipette inserts the cushion cover structure and is wrapped up by the cushion cover structure, it can to press the shower nozzle again to spray, can realize the effect of carrying out the fog spraying to multiple liquid.

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.

Fig. 1 is a schematic perspective view of a separated pressing aerosol bottle according to an embodiment of the present invention;

fig. 2 is a schematic cross-sectional structure view of a separated pressing aerosol bottle according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of a flow guiding and limiting structure in a separated pressing aerosol bottle according to an embodiment of the present invention;

fig. 4 is a schematic cross-sectional structural view of a flow guiding and limiting structure in a separated pressing aerosol bottle according to an embodiment of the present invention;

fig. 5 is an assembled perspective view of a separated pressing aerosol bottle according to an embodiment of the present invention;

fig. 6 is a schematic perspective view of a support plate in a separated pressing aerosol bottle according to an embodiment of the present invention;

fig. 7 is a schematic cross-sectional view of a support plate in a separated pressing aerosol bottle according to an embodiment of the present invention;

fig. 8 is a schematic perspective view of a rotary shaft in a separated pressing aerosol bottle according to an embodiment of the present invention;

fig. 9 is an assembled perspective view of a rotary shaft in a separated pressing aerosol bottle according to an embodiment of the present invention;

fig. 10 is a schematic perspective view of a storage box in a separate pressing aerosol bottle according to an embodiment of the present invention;

fig. 11 is a schematic perspective view of a nozzle (unfilled), a short nozzle, a long nozzle, and a hose nozzle in a separate pressing aerosol bottle according to an embodiment of the present invention (from left to right);

fig. 12 is a schematic cross-sectional view of a nozzle (unfilled), a short nozzle, a long nozzle, and a hose nozzle in a separate push aerosol bottle according to an embodiment of the present invention;

illustration of the drawings: 1. a spray head; 2. a spout; 3. a sealing cover is sleeved on the rotating sleeve; 4. a bottle cap groove limiting ball; 5. a rotating sleeve; 6. a thermometer case; 7. a plug; 8. a bottle cap; 9. a liquid outlet conduit; 10. a spray head limiting structure; 11. a piston; 12. a spring; 13. a rotating shaft; 14. a pipette; 15. a rotating sleeve connecting rod; 16. a support disc; 17. a flow guiding and limiting structure; 18. a reservoir conduit; 20. a partition plate; 21. a liquid storage chamber limiting structure; 22. a rotating sleeve limiting ball; 23. a liquid storage chamber; 24. a separate press aerosol bottle; 25. a soft sleeve structure; 26. a second water stop flap; 27. a flow-directing and flow-limiting structural conduit; 28. a nozzle cavity; 29. a nozzle soft plug; 30. a nozzle member; 31. a nozzle connecting member; 32. a spray nozzle; 33. a spout conduit; 34. a short spout member; 35. a long spout member; 36. a hose spout member; 37. a bottle cap groove; 38. a first groove; 39. a limiting track; 41. a second groove; 42. a limiting block; 43. supporting a disc spring; 44. a horizontal section of the rotating shaft; 45. a threaded hole; 46. a rotating shaft plug; 47. a storage box; 48. a storage box cover; 49. a hinged circular shaft; 50. a strip buckle; 51. the buckle spacing groove.

Detailed Description

The utility model provides a fog bottle is pressed to cellular-type for solve the current problem that can not satisfy the spraying of hazing to multiple liquid of pressing the fog bottle.

In the description of the embodiments of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of describing the embodiments of the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the embodiments of the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present invention, it should be noted that unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the embodiments of the present invention can be understood in specific cases by those skilled in the art.

Please refer to fig. 1 and fig. 2, which are a schematic perspective view and a schematic cross-sectional view of a separated pressing aerosol bottle according to an embodiment of the present invention.

The embodiment of the utility model provides an embodiment that a separated press aerosol bottle includes: the spraying structure, the rotary sleeve 5, the rotary shaft 13, the liquid storage chamber 23 and the liquid storage chamber limiting structure 21;

the rotary sleeve 5 and the rotary shaft 13 are fixedly connected with a spray head limiting structure 10 of the spraying structure, the rotary shaft 13 comprises a vertical section and a horizontal section, the rotary shaft 13 is arranged in the rotary sleeve 5, the vertical section of the rotary shaft 13 is coaxially arranged with the rotary sleeve 5, and a pipette 14 of the spraying structure is positioned in the rotary shaft 13 and is matched with the rotary shaft 13 in shape;

the liquid storage chamber limiting structure 21 is fixedly connected with the liquid storage chamber 23, the liquid storage chamber 23 is movably clamped with the rotary sleeve 5 through the liquid storage chamber limiting structure 21, and the rotary sleeve 5 is sleeved outside the liquid storage chamber limiting structure 21 and can rotate relative to the liquid storage chamber limiting structure 21;

the liquid storage chamber 23 is divided into more than two compartments by the partition plate 20, the compartments are communicated with the liquid storage chamber conduit 18, the compartments are fixedly provided with a flow guide and flow limiting structure 17, the flow guide and flow limiting structure conduit 27 of the flow guide and flow limiting structure 17 is of an L-shaped structure and is communicated with the liquid storage chamber conduit 18, and the opening end of the horizontal section of the flow guide and flow limiting structure conduit 27 is connected with a soft sleeve structure 25;

the central axis of the soft sleeve structure 25 and the central axis of the horizontal section of the pipette 14 are located at the same height, when the rotary sleeve 5 rotates relative to the liquid storage chamber limiting structure 21 until the central axis of the soft sleeve structure 25 coincides with the central axis of the horizontal section of the pipette 14, the horizontal section of the pipette 14 is inserted into the soft sleeve structure 25 and is wrapped by the soft sleeve structure 25.

In the utility model, the rotating shaft 13 is arranged inside the rotating sleeve 5, the vertical section of the rotating shaft 13 is arranged coaxially with the rotating sleeve 5, the pipette 14 of the spraying structure is positioned inside the rotating shaft 13, the shape of the pipette is matched with the rotating shaft 13, the rotating sleeve 5 is sleeved outside the liquid storage chamber limiting structure 21 and can rotate relative to the liquid storage chamber limiting structure 21, the liquid storage chamber 23 is divided into more than two compartments by a partition plate 20, a diversion flow-limiting structure 17 is fixedly arranged on each compartment, a diversion flow-limiting structure conduit 27 of the diversion flow-limiting structure 17 is L-shaped and is communicated with a liquid storage chamber conduit 18, the open end of the horizontal section of the diversion flow-limiting structure conduit 27 is connected with a soft sleeve structure 25, the central axis of the soft sleeve structure 25 is positioned at the same height with the central axis of the horizontal section of the pipette 14, the rotating sleeve 5 rotates relative to the liquid storage chamber limiting, the horizontal section of the pipette 14 is inserted into and wrapped by the flexible sleeve structure 25, and when the divided push aerosol bottle 24 is used, different liquids are filled into different compartments, then the rotating sleeve 5 is rotated relative to the liquid storage chamber limiting structure 21 until the central axis of the soft sleeve structure 25 of the compartment where the liquid to be sprayed is positioned coincides with the central axis of the horizontal section of the liquid suction pipe 14, the horizontal section of the liquid suction pipe 14 is inserted into the soft sleeve structure 25 and is wrapped by the soft sleeve structure 25, the spray head 1 of the spray structure is pressed to spray, when another liquid is required to be sprayed, and then the rotating sleeve 5 is rotated relative to the liquid storage chamber limiting structure 21 to the central axis of the soft sleeve structure 25 of the other compartment where the required spraying liquid is located, and the central axis of the horizontal section of the liquid suction pipe 14 is superposed, the horizontal section of the liquid suction pipe 14 is inserted into the soft sleeve structure 25 and is wrapped by the soft sleeve structure 25, and then the spray head 1 is pressed to spray, so that the effect of performing mist spraying on various liquids can be realized.

The above is to carry out detailed description to an embodiment of the aerosol bottle 24 is pressed to the cellular-type that the embodiment of the present invention provided, and the following will carry out detailed description to another embodiment of the aerosol bottle 24 is pressed to the cellular-type that the embodiment of the present invention provided.

Please refer to fig. 1 to 12, fig. 3 and fig. 4 are respectively a schematic diagram of a separated pressing of a flow guiding and flow limiting structure in an aerosol bottle and a schematic diagram of a sectional structure, fig. 5 is a schematic diagram of an assembly of a separated pressing of an aerosol bottle, fig. 6 and fig. 7 are respectively a schematic diagram of a separated pressing of a supporting disk in an aerosol bottle and a schematic diagram of a section, fig. 8 and fig. 9 are respectively a schematic diagram of a separated pressing of a rotating shaft in an aerosol bottle and a schematic diagram of an assembly, fig. 10 is a schematic diagram of a separated pressing of a storing box in an aerosol bottle, fig. 11 and fig. 12 are respectively a schematic diagram of a separated pressing of a nozzle (unfilled part) in an aerosol bottle, A perspective view and a sectional view of the short spouting member, the long spouting member and the hose spouting member.

The embodiment of the utility model provides a pair of another embodiment of aerosol bottle is pressed to cellular-type, include: the spraying structure, the rotary sleeve 5, the rotary shaft 13, the liquid storage chamber 23 and the liquid storage chamber limiting structure 21;

the rotary sleeve 5 and the rotary shaft 13 are fixedly connected with a spray head limiting structure 10 of the spraying structure, the rotary shaft 13 comprises a vertical section and a horizontal section, the rotary shaft 13 is arranged in the rotary sleeve 5, the vertical section of the rotary shaft 13 is coaxially arranged with the rotary sleeve 5, and a pipette 14 of the spraying structure is positioned in the rotary shaft 13 and is matched with the rotary shaft 13 in shape;

the liquid storage chamber limiting structure 21 is fixedly connected with the liquid storage chamber 23, the liquid storage chamber 23 is movably clamped with the rotary sleeve 5 through the liquid storage chamber limiting structure 21, and the rotary sleeve 5 is sleeved outside the liquid storage chamber limiting structure 21 and can rotate relative to the liquid storage chamber limiting structure 21;

the liquid storage chamber 23 is divided into more than two compartments by the partition plate 20, the compartments are communicated with the liquid storage chamber conduit 18, the compartments are fixedly provided with a flow guide and flow limiting structure 17, the flow guide and flow limiting structure conduit 27 of the flow guide and flow limiting structure 17 is of an L-shaped structure and is communicated with the liquid storage chamber conduit 18, and the opening end of the horizontal section of the flow guide and flow limiting structure conduit 27 is connected with a soft sleeve structure 25;

the central axis of the soft sleeve structure 25 and the central axis of the horizontal section of the pipette 14 are located at the same height, when the rotary sleeve 5 rotates relative to the liquid storage chamber limiting structure 21 until the central axis of the soft sleeve structure 25 coincides with the central axis of the horizontal section of the pipette 14, the horizontal section of the pipette 14 is inserted into the soft sleeve structure 25 and is wrapped by the soft sleeve structure 25.

The embodiment of the utility model provides an aerial fog bottle 24 is pressed to cellular-type can realize carrying out fog spraying, 1 spun effect of shower nozzle of different liquid adoption to multiple liquid, a plurality of traditional aerial fog bottles of fungible, and is effectual, efficient, with low costs.

Further, the material of the reservoir conduit 18 is preferably a soft material, the height of the reservoir conduit 18 is preferably the same as the height of the compartment, and the reservoir conduit 18 is preferably rigidly connected to the upper cover of the reservoir 23. The flow guiding and limiting structure 17 comprises a flow guiding and limiting structure conduit 27 and a soft sleeve structure 25, wherein the flow guiding and limiting structure conduit 27 is of an L-shaped structure. The guide flow limiting structure conduit 27 changes the liquid flowing in the vertical direction into the liquid flowing in the horizontal direction, wherein the horizontal direction is towards the center of a circle. When the pipette 14 is inserted into the flexible sleeve structure 25, the flexible sleeve structure 25 wraps the pipette 14 to ensure its engagement with the pipette 14.

The upper portion fixedly connected with of swivel sleeve 5 is closed cover 3 on the swivel sleeve, and swivel sleeve 5 forms wholly with the upper closed cover 3 of swivel sleeve, and swivel sleeve 5 and rotation axis 13 still connect through four swivel sleeve connecting rods 15, and swivel sleeve connecting rod 15 sets up with liquid storage chamber limit structure 21 contact relatively rotation axis 13 circumference, and swivel sleeve connecting rod 15 sets up. The outer side of the rotating sleeve 5 is preferably a triangular convex frosting surface, so that the friction coefficient is increased. The reservoir limiting structure 21 limits the movement of the rotary sleeve 5 and the rotary shaft 13 on the horizontal plane and the vertical plane.

The embodiment of the utility model provides an in, swivel sleeve 5 is provided with spacing track 39, and spacing track 39 is provided with first recess 38, and stock solution room limit structure 21 is provided with swivel sleeve stop ball 22, and swivel sleeve 5 and the cooperation of the first recess 38 of stock solution room limit structure 21 accessible and swivel sleeve stop ball 22 carry on spacingly, and swivel sleeve stop ball 22 still plays the effect that the part bore.

In the embodiment of the present invention, the number of the first grooves 38 is two or more;

the number of first recesses 38 matches the number of compartments and the open end of the horizontal section of the pipette 14 is provided with a first water stop flap so that the spray arrangement can be used for spraying or emptying different liquids.

The spacing of the first recesses 38 is preferably determined based on the position of the flow directing restriction 17 in the reservoir 23, such that it can be determined based on the position of the first recess 38 in which the rotating sleeve stop ball 22 is located whether the rotating sleeve 5 is rotated until the central axis of the target compartment sleeve structure 25 coincides with the central axis of the horizontal section of the pipette 14.

Further, the number of the first grooves 38 is preferably greater than the number of the compartments, the first grooves 38 for determining the emptying position are arranged at the position of the liquid storage chamber 23 according to the diversion flow-limiting structure 17, and when the rotating sleeve limiting ball 22 is located at the first grooves 38 for determining the emptying position, the central axis of the non-flexible sleeve structure 25 is coincident with the central axis of the horizontal section of the pipette 14, so that the spraying structure can be emptied. The open end of the horizontal section of the pipette 14 is provided with a first water stop flap which prevents liquid from flowing out of the pipette 14 due to air pressure and capillary forces when emptying.

To facilitate a clear determination of where the horizontal section of the pipette 14 is located above the reservoir 23, to facilitate the spraying mechanism to spray or empty different liquids, markings are provided on the rotating sleeve 5.

Furthermore, two rotary sleeve limiting balls 22 are preferred, and the two rotary sleeve limiting balls 22 are symmetrically arranged relative to the circle center. The diameter of the swivel sleeve stop ball 22 is preferably the same size as the diameter of the first groove 38.

In the embodiment of the present invention, the center of the bottom of the vertical section of the rotating shaft 13 is provided with a second groove 41;

the top center of the liquid storage chamber 23 is provided with a support disc 16, and the support disc 16 is positioned in the second groove 41 and is in contact with the rotating shaft 13.

In the embodiment of the utility model provides an in, supporting disk 16, swivel sleeve 5, rotation axis 13, stock solution room limit structure 21 and swivel sleeve spacing ball 22 form the rotation type that is connected with stock solution room 23 and switch infusion channel mechanism, can bear bearing, connect and maintain stably of upper portion shower nozzle 1.

The embodiment of the utility model provides an in, supporting disk 16 includes the stopper 42 that disc and circumference set up, and stopper 42 can carry out radial concertina movement for the disc.

The second groove 41 is matched with the supporting disc 16 in size, the lower part of the rotating shaft 13 is hinged with the liquid storage chamber 23 through the supporting disc 16, the rotating shaft can rotate for 360 degrees, and the horizontal and vertical movement of the rotating sleeve 5 can be limited. The rotating shaft 13 has a thickness that satisfies a bearing capacity for restricting horizontal displacement and vertical displacement.

In the embodiment of the present invention, the number of the horizontal sections 44 of the rotating shaft is two or more;

the horizontal sections 44 of the two or more rotating shafts are located at the same height as the vertical section of the rotating shaft 13 and are circumferentially arranged along the vertical section of the rotating shaft 13.

In the embodiment of the present invention, the horizontal section 44 of the rotating shaft is detachably connected to the vertical section of the rotating shaft 13.

The number of horizontal sections of the pipette 14 located inside the rotary shaft 13 is the same as the number of horizontal sections of the rotary shaft 13, the horizontal sections of two or more pipettes 14 are located at the same height as the vertical section of the pipette 14 and are arranged circumferentially along the vertical section of the pipette 14, and the horizontal section of the pipette 14 is detachably connected to the vertical section of the pipette 14.

The limiting block 42 is connected with the disc through a supporting disc spring 43, the limiting block 42 can be contracted through transmission to enable the rotary sleeve 5, the rotary shaft 13 and the liquid storage chamber 23 to be separated, the upper parts of the rotary sleeve 5, the rotary shaft 13 and the liquid storage chamber 23 are exposed, and the horizontal section 44 of the rotary shaft is convenient to clean and install. More than two threaded holes 45 are formed in the vertical section of the rotating shaft 13, and when liquid mixing and spraying are not needed, only one horizontal section is connected to the vertical section of the rotating shaft 13, and the other threaded holes 45 are sealed by a rotating shaft plug 46. When liquid mixing spraying is needed, the rotating sleeve 5 is rotated to enable the limiting block 42 of the supporting disc 16 to shrink, then the rotating shaft plug 46 is taken out, the horizontal section is installed on the vertical section of the rotating shaft 13, and the horizontal section is installed on the vertical section of the liquid suction pipe 14, so that a liquid mixing function is achieved.

The embodiment of the utility model provides an in, still include: a storage box 47;

the storage box 47 is arranged at the bottom of the liquid storage chamber 23 and is detachably connected with the liquid storage chamber 23.

The storage box 47 is cylindrical and can be connected with the liquid storage chamber 23 through a buckle structure. The storage box cover 48 is detachably disposed on the storage box 47, and the storage box 47 can be used to place components such as the rotating shaft plug 46. In the buckle structure, four hinged round shafts 49 are arranged on the storage box 47 and then hinged with four corresponding long-strip buckles 50, and buckle limit grooves 51 matched with the external limit of the liquid storage chamber 23 are arranged on the long-strip buckles 50.

In the embodiment of the utility model, the bottom of the separation chamber is provided with a plug 7, and the plug 7 is detachably connected with the separation chamber;

the open end of the soft sleeve structure 25 is provided with a second water stop flap 26.

The liquid storage chamber 23 is cylindrical, the top of the liquid storage chamber 23 is preferably in a closed state, the bottom of the liquid storage chamber 23 is used as a liquid filling channel, the plug 7 is preferably made of a soft elastic material, is impermeable to liquid and is not reactive to the liquid, the shape of the plug 7 is matched with that of the separation chamber, the plug 7 is used for achieving the closed arrangement of the separation chamber, the addition and replacement of the liquid in the separation chamber are achieved, and the sealing performance of the bottom of the separation chamber is guaranteed. There is not the distance between adjacent stopper 7, and in adjacent stopper 7 direction, marginal extension is for dividing board 20 thickness half, and stopper 7 stretches out a short distance at body direction edge, and in addition because the nature of stopper 7 material, coefficient of friction is great between the contact surface of stopper 7 and aerial fog bottle, can improve holistic stability and prevent that the aerial fog bottle from falling down.

The open end of the soft sleeve structure 25 is provided with a second water stop flap 26 which can facilitate the communication with the pipette 14, and when the pipette 14 is not inserted into the soft sleeve structure 25, the second water stop flap 26 can ensure the tightness of the soft sleeve structure 25 and prevent the liquid from flowing out when the liquid storage chamber 23 is inverted.

In the embodiment of the utility model, the spraying structure further comprises a spray head 1, a spray nozzle 2, a liquid outlet conduit 9, a piston 11 sleeve, a piston 11 and a spring 12;

the nozzle 2 is arranged on the spray head 1 and communicated with the liquid outlet guide pipe 9, the liquid outlet guide pipe 9 is L-shaped, the piston 11 and the spring 12 are located in the piston 11 sleeve, the liquid outlet guide pipe 9, the piston 11 and the spring 12 are sequentially connected, the piston 11 sleeve is communicated with the liquid suction pipe 14, the spray head limiting structure 10 is movably connected with the spray head 1 through the piston 11, the spray head 1 is located on the upper portion of the aerosol bottle and connected with the rotary type switching infusion channel mechanism, and spraying can be achieved by pressing the spray head 1.

A limiting ring is arranged in the piston 11 sleeve to limit the piston 11 and the spring 12. The diameter of the liquid outlet conduit 9 is smaller than that of the piston 11 sleeve. The spray head 1 is big and small, the liquid outlet conduit 9 is L-shaped, so that the liquid flows horizontally from the vertical direction. The nozzle 2 can be a short nozzle, a long nozzle and a hose nozzle, the short nozzle, the long nozzle and the hose nozzle are respectively connected with the nozzle cavity 28 through a short nozzle part 34, a long nozzle part 35 and a hose nozzle part 36, the short nozzle comprises a nozzle cavity 28, a nozzle soft plug 29 and a nozzle part 30, the nozzle soft plug 29 is filled in the nozzle cavity 28, the nozzle soft plug 29 is connected with the nozzle part 30, the nozzle part 30 is provided with a nozzle guide pipe 33, and the nozzle guide pipe 33 is provided with a spray nozzle 32. The long nozzle comprises a nozzle cavity 28, a nozzle soft plug 29, a nozzle connecting part 31 and a nozzle guide pipe, wherein the nozzle soft plug 29 is filled in the nozzle cavity 28, the nozzle soft plug 29 is connected with the nozzle connecting part 31, the nozzle connecting part 31 is provided with a nozzle guide pipe 33, the nozzle guide pipe 33 extends out of the nozzle connecting part 31, and the nozzle guide pipe 33 is provided with a spray nozzle 32. The hose nozzle comprises a nozzle cavity 28, a nozzle soft plug 29, a nozzle connecting part 31 and a nozzle guide pipe, wherein the nozzle soft plug 29 is filled in the nozzle cavity 28, the nozzle soft plug 29 is connected with the nozzle connecting part 31, the nozzle connecting part 31 is provided with a nozzle guide pipe 33, the nozzle guide pipe 33 extends out of the nozzle connecting part 31, the nozzle guide pipe 33 is a hose, and the nozzle guide pipe 33 is provided with a spray nozzle 32. The materials of the nozzle soft plug 29 and the nozzle component 30 are impervious hollow soft elastic materials. A spray head limiting structure 10 is designed between the spray head 1 and the closing cover 3 on the rotating sleeve to limit the horizontal movement and the vertical movement of the spray head 1.

The embodiment of the utility model provides an in, still include: the bottle cap 8 and the bottle cap 8 are preferably made of transparent materials, the upper portion of the bottle cap 8 is closed, the lower portion of the bottle cap 8 is opened, and a bottle cap groove 37 matched with the limiting ball 4 of the bottle cap groove 37 in size is formed in the lower portion of the bottle cap 8 to serve as a fixed bottle cap 8.

Further, the thermometer box 6 is embedded in the bottle body of the liquid storage chamber 23, the thermometer box 6 is arranged in a sealing mode through the waterproof cover, namely, the bottle body of the liquid storage chamber 23 is provided with a cuboid-shaped groove, the thermometer is placed in the cuboid-shaped groove, and the waterproof cover covers the cuboid-shaped groove. The thermometer box 6 arranged at the bottle body of the liquid storage chamber 23 can obtain the temperature of the aerosol bottle. The body of liquid reserve room 23 adopts transparent material, and the body of liquid reserve room 23 marks with the scale mark of liquid reserve room 23 stock solution capacity.

The separated pressing aerosol bottle 24 of the embodiment of the utility model can realize that one aerosol bottle can mist various liquids and can be emptied without influencing the liquid discharge of the next liquid, thereby avoiding the pollution of the previous liquid; one aerosol bottle can be used for selectively and respectively atomizing various liquids and can also be used for selectively and mixedly atomizing various liquids; the thermometer is arranged on the bottle body, so that the environment can be sensed conveniently and the thermometer can be used under different environmental conditions; the bottle body is transparent and is provided with corresponding scale marks, so that the total dosage can be conveniently and accurately controlled; the nozzle is convenient to disassemble and replace, and various fogging forms are realized; the plug 7 is arranged at the bottom of the separation chamber, stabilizes the bottle body of the liquid storage chamber 23 and ensures that the separation chamber has good sealing property; the aerosol bottle can replace the traditional aerosol bottle, and has good effect, high efficiency and low cost; also, the separate press aerosol bottle 24 can replace different types of spouts 2 to achieve different locations of spray.

The above is to carry out detailed description to another embodiment of the aerosol bottle 24 is pressed to a cellular-type that the embodiment of the present invention provides, and the following will carry out detailed description to an application example of the aerosol bottle 24 is pressed to a cellular-type that the embodiment of the present invention provides.

In the utility model discloses in the application example, as shown in fig. 1, press down aerial fog bottle 24 when the cellular-type need not to trade liquid and also need not to mix the spraying, tak away bottle lid 8 from the bottle lid groove 37 spacing ball 4 and the bottle lid groove 37 on the closing cap 3 on the swivel sleeve. When the spray head 1 is pressed downwards by an external force, the spray head 1 will move the piston 11 downwards and the spring 12 is compressed, as shown in fig. 3. The vertical displacement of the spray head 1 stops at the spray head limiting structure 10. At this point a negative pressure will be created inside each conduit. The liquid in the liquid storage chamber 23 passes through the liquid storage chamber conduit 18, the flow guiding and limiting structure 17, the spring 12, the spray head limiting structure 10 and the liquid outlet conduit 9 to reach the spray nozzle. The second water stop flap 26 at the conduit flow restriction and the first water stop flap of the pipette 14 will be opened by the water pressure. The liquid then passes through the nozzle unit 30 or the nozzle unit 31 and the nozzle conduit 33 of the different types of nozzles 2 and is finally atomized at the spray opening 32.

When the aerosol bottle 24 is pressed separately to change the liquid spray, the cap is removed and the thermometer box 6 is checked for temperature information, as shown in fig. 1. Before use, the rotary sleeve 5 is rotated to enable the rotary shaft 13 and the upper closing cover 3 of the rotary sleeve to rotate around the supporting plate 16 towards the direction of the compartment to be switched, meanwhile, the rotary sleeve limiting ball 22 leaves the original first groove 38 in the rotary sleeve 5 and rotates along the limiting track 39, and then when the rotary sleeve limiting ball 22 is located in the first groove 38 which determines the emptying position, the rotary sleeve 5, the rotary shaft 13 and the upper closing cover 3 of the rotary sleeve are fixed, and the emptying stage is performed. The second water stop flap 26 in the last diversion flow-limiting structure 17 after rotation prevents liquid from flowing out from the inside, and the liquid cannot flow out when the aerosol bottle is inverted. During the emptying phase, the liquid will not flow back due to capillary action and air pressure in the first water stop flap of the suction pipe 14 in the rotating shaft 13. Then, in the emptying phase, the spray head 1 is pressed downwards under the action of external force, the spray head 1 drives the piston 11 to move downwards, and the spring 12 is compressed. At this time, negative pressure is generated inside each of the tubes. The liquid in the liquid suction pipe 14 will pass through the spring 12 and the liquid outlet pipe 9 to the nozzle 2, and the liquid passes through the nozzle unit 30 or the nozzle unit 31 and the nozzle pipe 33 of different types of nozzles 2, and finally is atomized at the atomizing nozzle 32. After repeated misting at the emptying stage, the liquid in the pipette 14, the piston 11 housing and the tapping conduit 9 has been emptied. Then the rotating sleeve 5 is rotated again to make the rotating shaft 13 and the upper closing cover 3 of the rotating sleeve rotate around the supporting plate 16 to the direction of the compartment to be switched, the limiting ball 22 of the rotating sleeve leaves the original first groove 38 in the rotating sleeve 5 and rotates along the limiting track 39, then when the limiting ball 22 of the rotating sleeve is positioned in the first groove 38 for determining the liquid outlet of another liquid, the rotating sleeve 5, the rotating shaft 13 and the upper closing cover 3 of the rotating sleeve are fixed, and at this time, the liquid outlet stage of the another liquid is performed. At the same time, the horizontal section of the pipette 14 is inserted into the flexible sleeve structure 25 and wrapped by the flexible sleeve structure 25, and the spray head 1 is pressed to spray another liquid.

When the liquid needs to be cleaned or added, the partitioned pressing aerosol bottle 24 is turned upside down, then the plug 7 at the bottom of the partition chamber is opened, and the cleaning or liquid adding operation is carried out, and the liquid storage chamber conduit 18 is a hose without obstruction. When it is desired to replace a new spout 2, the nozzle member 30 or the nozzle connecting member 31 is pulled out, the soft nozzle plug 29 is disengaged from the nozzle cavity 28, and then the soft nozzle plug 29 of another type of spout 2, such as a short spout, a long spout or a hose spout, is inserted back into the nozzle cavity 28, completing the replacement. Various types of spout 2 components may be placed in the magazine 47.

When liquid mixing and spraying are needed or the upper part of the liquid storage chamber 23 needs to be cleaned, the rotating sleeve 5 is rotated and is forced upwards, the supporting disc spring 43 is contracted due to the force transmission of the limiting block 42, and the supporting disc 16 is contracted. At the same time, the rotating sleeve stop ball 22 leaves the first groove 38 and the horizontal section of the pipette 14 leaves the diversion flow restriction 17. Thereafter, the rotation shaft stopper 46 is taken out of the threaded hole 45 of the rotation shaft 13, and the horizontal section 44 of the rotation shaft is taken out of the magazine 47 to be mounted in the vertical section of the rotation shaft 13, and the horizontal section of the pipette 14 is mounted in the vertical section of the pipette 14. Finally, the aerosol bottle 24 will be pressed in its separate position again by rotating the rotating sleeve 5 and forcing it downwards in the same manner as described above.

It is right above the utility model provides a separate type presses aerosol bottle and has carried out detailed introduction, to the general technical personnel in this field, the foundation the utility model discloses the thought, all have the change part on concrete implementation and application scope, to sum up, this specification content should not be understood as right the utility model discloses a restriction.

Claims (10)

1. A cellular-type aerosol bottle, comprising: the spraying device comprises a spraying structure, a rotary sleeve, a rotary shaft, a liquid storage chamber and a liquid storage chamber limiting structure;

the rotating sleeve and the rotating shaft are both fixedly connected with a spray head limiting structure of the spraying structure, the rotating shaft comprises a vertical section and a horizontal section, the rotating shaft is arranged in the rotating sleeve, the vertical section of the rotating shaft and the rotating sleeve are coaxially arranged, and a liquid suction pipe of the spraying structure is positioned in the rotating shaft and is matched with the rotating shaft in shape;

the liquid storage chamber limiting structure is fixedly connected with the liquid storage chamber, the liquid storage chamber is movably clamped with the rotary sleeve through the liquid storage chamber limiting structure, and the rotary sleeve is sleeved outside the liquid storage chamber limiting structure and can rotate relative to the liquid storage chamber limiting structure;

the liquid storage chamber is divided into more than two compartments by a partition plate, the compartments are communicated with liquid storage chamber guide pipes, a flow guide and flow limiting structure is fixedly arranged on each compartment, the flow guide and flow limiting structure guide pipe of the flow guide and flow limiting structure is of an L-shaped structure and is communicated with the liquid storage chamber guide pipe, and the opening end of the horizontal section of the flow guide and flow limiting structure guide pipe is connected with a soft sleeve structure;

the central axis of the soft sleeve structure and the central axis of the horizontal section of the pipette are positioned at the same height, when the rotary sleeve rotates relative to the liquid storage chamber limiting structure until the central axis of the soft sleeve structure coincides with the central axis of the horizontal section of the pipette, the horizontal section of the pipette is inserted into the soft sleeve structure and is wrapped by the soft sleeve structure.

2. The partitioned pressing aerosol bottle as claimed in claim 1, wherein the rotary sleeve is provided with a limiting track, the limiting track is provided with a first groove, the liquid storage chamber limiting structure is provided with a rotary sleeve limiting ball, and the rotary sleeve and the liquid storage chamber limiting structure can be limited by the first groove and the rotary sleeve limiting ball in a matching manner.

3. The divided push aerosol bottle of claim 2, wherein the number of the first grooves is two or more;

the number of the first grooves is matched with that of the compartments, and the opening end of the horizontal section of the pipette is provided with a first water stop flap, so that the spraying structure can spray or empty different liquids.

4. The cellular-type aerosol bottle of claim 1, wherein the vertical section of the rotating shaft is centrally provided with a second groove at the bottom;

the top center of stock solution room is provided with the supporting disk, the supporting disk is located in the second recess and with the rotation axis contact setting.

5. A divided press aerosol bottle according to claim 4, wherein the support plate comprises a circular disc and a circumferentially arranged stopper which is radially telescopically movable relative to the disc.

6. The cellular-type aerosol bottle of claim 1, wherein the number of horizontal sections of the rotating shaft is two or more;

the horizontal sections of more than two rotating shafts are positioned at the same height of the vertical section of the rotating shaft and are circumferentially arranged along the vertical section of the rotating shaft.

7. The partitioned pressurized aerosol bottle of claim 6, wherein the horizontal segment of the rotational axis is removably connected to the vertical segment of the rotational axis.

8. The compartmentalized, press aerosol bottle of claim 1, further comprising: a storage box;

the storage box is arranged at the bottom of the liquid storage chamber and is detachably connected with the liquid storage chamber.

9. The compartmentalized, push-on aerosol bottle of claim 1, wherein the bottom of the compartment is provided with a stopper that is removably connected to the compartment;

and a second water stop valve is arranged at the opening end of the soft sleeve structure.

10. The divided push aerosol bottle of claim 1, wherein the spray structure further comprises a spray head, a spout, a liquid outlet conduit, a piston sleeve, a piston, and a spring;

the nozzle is arranged on the spray head and communicated with the liquid outlet guide pipe, the liquid outlet guide pipe is L-shaped, the piston and the spring are located in the piston sleeve, the liquid outlet guide pipe, the piston and the spring are sequentially connected, the piston sleeve is communicated with the liquid suction pipe, and the spray head limiting structure is movably connected with the spray head through the piston.

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