CN210377663U - A limit structure for aerosol canister container - Google Patents

Abstract

The utility model provides a be applied to limit structure of aerosol canister container of spacing aerosol canister container, include: fixing device and push away the lid, wherein fixing device inner wall downside is equipped with spacing subassembly, and the aerosol canister container stretches into in the fixing device and the discharge end of aerosol canister container supports and leans on spacing subassembly, pushes away the direction activity that the bottom of lid locating aerosol canister container bulldozed aerosol canister container toward spacing subassembly, can be used to finely tune the difference in height of different model aerosol canister containers.

Description

A limit structure for aerosol canister container

Technical Field

The utility model relates to a limit structure technical field has especially related to a limit structure for aerosol canister container.

Background

Vending beverage machines have developed rapidly in many countries and are now widely spread in 45 countries. Vending machines are often placed in business offices, event venues, schools, railway stations, waiting rooms, restaurants, internet cafes, KTVs, billiard rooms, beauty centers, leisure walking streets, factories, etc. The mature automatic vending beverage machine in the market at present can realize the full-automatic or semi-automatic vending function, namely, a material tank containing beverage raw materials is arranged in the automatic vending beverage machine, and the material tank discharges materials to be mixed with other solvents to prepare drinkable beverage for consumers to use.

Especially for the beverage machine of vending, the setting precision of its inner charging bucket will directly influence the circumstances of ejection of compact and preparation beverage. However, the material tank can generate processing error in the processing process, even if there is height difference between the material tanks in the same batch, the material tanks with different height difference are arranged in the beverage machine to cause various problems: 1. can lead to unstable bucket structure. The height of the space for placing the charging bucket in the beverage machine is fixed, if the height of the charging bucket does not reach the specified height of the space of the charging bucket, the charging bucket is in an unstable state in the beverage machine, and if the height of the charging bucket is greater than the specified height of the space of the charging bucket, the arrangement of other devices in the beverage machine can be influenced. 2. Resulting in poor discharge results. Because the discharge system of the matched charging bucket in the beverage machine is uniformly configured, the charging bucket which is not matched with the condition can directly influence the discharge result of the beverage machine.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a limit structure for aerosol canister container, but its adaptation aerosol canister container of co-altitude to finely tune aerosol canister container's difference in height, make the beverage machine of its homoenergetic ground adaptation unified configuration, improve ejection of compact effect and quality.

A limit structure for aerosol container is applied to spacing aerosol container, includes: fixing device and push away the lid, wherein fixing device inner wall downside is equipped with spacing subassembly, and the aerosol canister container stretches into in the fixing device and the discharge end of aerosol canister container supports and leans on spacing subassembly, pushes away the direction activity that the bottom of lid locating aerosol canister container bulldozed aerosol canister container toward spacing subassembly.

In some embodiments, the pushing means includes, but is not limited to, a power member for applying a pushing force to the push cover, the power member being at least one of a motor, an electromagnet, and a bi-metal deformation plate, or the push cover is snapped onto the aerosol container to apply a snapping force to the aerosol container.

In some embodiments, when the push cover is fastened to the aerosol container, the side of the push cover is provided with an engaging member, and the fixing device is provided with an engaging position for engaging with the engaging member, wherein the engaging member and the engaging position are engaged with each other to limit the aerosol container at different height positions.

In some embodiments, the fastening component comprises at least one fastening component, the fastening component is a trapezoid with a vertical section being small at the top and big at the bottom, the fastening position is a space with two open ends and an inclined surface at the top, and the inclined surfaces of the fastening component and the fastening position have the same inclination angle; or the embedded and buckled assembly is a convex strip arranged on the side of the push cover, the embedded and buckled position is a groove corresponding to the convex strip, and the convex strip is made of soft materials.

In some embodiments, the top side of the fixing device forms a limiting circular truncated cone, the edge of the inner wall of the limiting circular truncated cone forms a limiting protrusion, an embedding and buckling position is formed between the limiting protrusion and the limiting circular truncated cone, the lower surface of the limiting protrusion is an inclined surface, and the inclined surface of the embedding and buckling part and the inclined surface of the limiting protrusion have the same inclination angle.

In some embodiments, the inclined surface of the snap fastener is a rough surface with uneven wheel shape, concave point shape and convex point shape, and a corresponding rough surface is formed on the inclined surface of the snap fastener.

In some embodiments, the retention tab includes a resilient contact member disposed proximate the lower surface and a non-resilient member, wherein the resilient contact member is connected to the non-resilient member and an end thereof forms a resilient relief with the non-resilient member.

In some embodiments, the spacing between the retention bumps is greater in length than the length of the snap-fit components.

In some embodiments, the retention assembly is radially disposed on an inner wall of the fixture and is selected from at least one of a retention bead, a retention point, or a retention skirt.

In some embodiments, the discharge end of the aerosol container is a circular truncated cone structure with a cross-sectional area that sequentially increases from the discharge port to the bottom end, wherein the limiting component abuts against any cross section of the circular truncated cone structure of the aerosol container.

In some embodiments, the sidewall of the fixture is provided with a uniform symmetrical arrangement of through holes.

The utility model discloses owing to adopted above technical scheme, have apparent technological effect: the utility model has the advantages that the aerosol can container is loaded in the sleeve through the arrangement of the fixing device, so as to play a role of stabilization, and meanwhile, the material in the aerosol can container is uniformly discharged through the discharge needle, so that the uniform quality of each beverage is ensured, the original taste of the beverage is not influenced, and the sealing property of the material is also ensured; meanwhile, the sleeved depth of the aerosol container can be adjusted by rotating the push cover according to the height difference of aerosol containers of different models, and the aerosol container cover has strong applicability.

Drawings

Fig. 1 is an assembly structure diagram of a limiting structure for an aerosol container according to an embodiment of the present invention.

Fig. 2 is an exploded schematic view of a spacing structure for an aerosol canister container according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a push cap for an aerosol container according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of a snap-fit position for an aerosol container according to an embodiment of the present invention.

In the figure: 10-aerosol can container, 20-fixing device, 21-buckling position, 22-limiting circular truncated cone, 23-limiting protrusion, 231-elastic contact piece, 232-non-elastic contact piece, 24-limiting component, 25-through hole, 30-push cover, 31-buckling component and 311-buckling component.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purposes of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

The utility model provides a limit structure for aerosol canister container is applied to spacing aerosol canister container 10, including fixing device 20 and push away lid 30, wherein 20 inner wall downside of fixing device are equipped with spacing subassembly 24, and aerosol canister container 10 stretches into in fixing device 20 and aerosol canister container 10's discharge end supports and leans on spacing subassembly 24, pushes away lid 30 and locates aerosol canister container 10's bottom and bulldozes aerosol canister container 10 toward spacing subassembly 24's direction activity.

The aerosol container 10 is fixed in the fixing device 20, and the fixing device 20 is used in the beverage machine, so that the arrangement of the aerosol can in the beverage machine can be normalized, and the effect of protecting the aerosol container 10 is also achieved. In addition, the limit structure that this scheme provided can finely tune aerosol container 10's difference in height for in fixing device 20 was arranged in steadily to aerosol container 10, improved ejection of compact effect.

Specifically, the lower extreme of aerosol container 10 is spacing by spacing subassembly 25, and the distance of spacing subassembly 25 and fixing device 20 bottom is fixed, and supporting ejection of compact subassembly can set up in this space, and aerosol container 10's top is bulldozed fixedly through pushing away lid 30, and pushes away lid 30 buckle in fixing device 20's different positions in order to revise different aerosol container 10's difference in height.

The pushing manner includes, but is not limited to, applying a pushing force to the push cover 30 by an external power component, where the power component is at least one of a motor, an electromagnet, and a bimetal deformation sheet, or applying a fastening force to the aerosol container 10 by fastening the push cover 30 to the aerosol container 10.

When the push cover 30 is fastened on the aerosol container 10, the side of the push cover 30 is provided with the engaging component 31, the fixing device 20 is provided with the engaging position 21 matched with the engaging component 31, and the engaging component 31 and the engaging position 21 are matched with the aerosol container 10 to limit the aerosol container 10 at different height positions.

Specifically, the fastening component 31 includes at least one fastening component 311, the fastening component 311 is a trapezoid with a vertical cross section being small at the top and large at the bottom, the fastening position 21 is a space with two open ends and a top end being an inclined plane, and the inclined plane of the fastening component 311 and the inclined plane of the fastening position 21 have the same inclination angle.

Or, the engaging member 31 is a protruding rib disposed on the side of the pushing cover 30, and the engaging position 21 is a plurality of grooves corresponding to the protruding rib, wherein the protruding rib is made of a soft material. In this embodiment, the protruding strips of the push cap 30 are fitted into the fitting positions 21 at different positions in the balance between the pressing force and the reaction force given to the aerosol container 10.

When the longitudinal section of the fastener 311 is a trapezoid with a small top and a large bottom, the top side of the fixing device 20 forms a limiting circular truncated cone 22, a limiting protrusion 23 is formed along the edge of the inner wall of the limiting circular truncated cone 22, a fastener insertion position 21 is formed between the limiting protrusion 23 and the limiting circular truncated cone 22, the lower surface of the limiting protrusion 23 is an inclined surface, and the inclined surface of the fastener 311 and the inclined surface of the limiting protrusion 23 have the same inclination angle.

The inclined surface of the snap-in part 311 is a rough surface of uneven wheel shape, concave point shape, convex point shape, and a corresponding rough surface is formed on the inclined surface of the snap-in part 21. In the embodiment of the present invention, the surface of the fastening member 311 is a wave groove, and the fastening position 21 is a corresponding wave strip, so as to increase the friction force between the two inclined planes.

The stopper projection 23 includes an elastic contact member 231 disposed near the lower surface and a non-elastic member 232, wherein the elastic contact member 231 is connected to the non-elastic member 232, and an elastic movement groove 233 is formed between one end and the non-elastic member 232. It should be noted that the elastic contact 231 contacts the fastening member 311, and the upper step surface of the fastening member 311 abuts against the elastic contact 231, so as to press the elastic contact 231 inwards to better complete the fixing of the fastening member 311.

In addition, the spacing length between the limiting protrusions 23 is greater than the length of the snap-in part 311. When the aerosol container is assembled, the clamping piece 311 is positioned in the interval between the limiting protrusions 23 and rotates to enter the clamping position 21, and the clamping piece 311 and the clamping piece 21 are matched to fix aerosol containers 10 with different heights.

In addition, this a limit structure for aerosol canister container includes seal assembly in addition, wherein seal assembly spacing is fixed in on the spacing round platform 22, when pushing away lid 30 and buckle on spacing round platform 22, improves the leakproofness of pushing away lid 30 and fixing device 20 connection through seal assembly, and also can reduce the wearing and tearing that push away lid 30 and fixing device 20 contact.

Specifically, in the embodiment of the present invention, the sealing assembly is a sealing ring disposed on the limiting circular truncated cone 20, and preferably, the sealing assembly is detachably fixed on the limiting circular truncated cone 20. In an embodiment, the limiting circular truncated cone 20 is provided with a connecting hole, a connecting member is correspondingly arranged on the sealing ring, and the sealing ring is fixed by connecting the connecting member to the connecting hole, and of course, the sealing ring can also be fixed on the limiting circular truncated cone 20 in a bonding and buckling manner. In addition, for the better position of the limiting sealing ring, the upper side of the limiting round platform 22 is provided with a clamping rib, the clamping rib is matched with the limiting round platform 22 to form a limiting movable space, and the sealing ring is arranged in the limiting movable space.

The position-limiting assembly 24 is radially disposed on the inner wall of the fixing device 20, and is selected from at least one of a positioning rib, a positioning point or a positioning skirt.

The discharge end of aerosol container 10 is the round platform structure that the cross sectional area enlarges from the discharge gate to the bottom direction in proper order, and wherein spacing subassembly 24 supports the arbitrary cross section of the round platform structure of aerosol container 10. Specifically, the limiting component 24 abuts against the upper circular table surface, the lower circular table surface or any section between the upper circular table surface and the lower circular table surface of the circular table structure of the aerosol container 10.

In addition, in order to ensure the stable air pressure, the side wall of the fixing device 20 is provided with through holes 25 which are uniformly and symmetrically arranged.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by the teaching of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as the present invention, fall within the protection scope of the present invention.

Claims (12)

1. A limit structure for an aerosol canister container, for use in a limited aerosol canister container (10), comprising: fixing device (20) and push away lid (30), wherein fixing device (20) inner wall downside is equipped with spacing subassembly (24), and aerosol container (10) stretch into fixing device (20) and the discharge end of aerosol container (10) supports and leans on spacing subassembly (24), and the bottom that pushes away lid (30) and locate aerosol container (10) bulldozes aerosol container (10) and moves towards the direction of spacing subassembly (24).

2. The limiting structure for the aerosol container as claimed in claim 1, wherein the pushing means includes, but is not limited to, a power member for applying a pushing force to the push cover (30), the power member is at least one of a motor, an electromagnet, a bimetal deformation plate, or the push cover (30) is snapped on the aerosol container (10) to apply a snapping force to the aerosol container (10).

3. The limiting structure for the aerosol container as claimed in claim 2, wherein when the push cover (30) is fastened to the aerosol container (10), the side of the push cover (30) is provided with the engaging component (31), the fixing device (20) is provided with the engaging position (21) for engaging with the engaging component (31), and the engaging component (31) and the engaging position (21) are engaged with the aerosol container (10) to limit the aerosol container at different height positions.

4. The limiting structure for the aerosol container according to claim 3, wherein the fastening component (31) comprises at least one fastening member (311), the fastening member (311) has a trapezoidal longitudinal section with a smaller top and a larger bottom, the fastening position (21) is a space with two open ends and an inclined top, and the inclined angle of the fastening member (311) is the same as the inclined angle of the fastening position (21); or the embedded buckle component (31) is a convex strip arranged on the side of the push cover (30), and the embedded buckle position (21) is a groove corresponding to the convex strip, wherein the convex strip is made of soft materials.

5. The limiting structure for the aerosol can container according to claim 4, wherein the top side of the fixing device (20) forms a limiting circular truncated cone (22), a limiting protrusion (23) is formed on the edge of the inner wall of the limiting circular truncated cone (22), the buckling position (21) is formed between the limiting protrusion (23) and the limiting circular truncated cone (22), the lower surface of the limiting protrusion (23) is an inclined surface, and the inclined surface of the buckling piece (311) and the inclined surface of the limiting protrusion (23) have the same inclined angle.

6. The stopper structure for aerosol container according to claim 4, wherein the inclined surface of the engaging member (311) is a rough surface having an uneven shape of a wheel, a concave point, or a convex point, and a corresponding rough surface is formed on the inclined surface of the engaging portion (21).

7. A stopper structure for an aerosol container as claimed in claim 5, wherein the stopper projection (23) comprises an elastic contact member (231) disposed near the lower surface and a non-elastic member (232), wherein the elastic contact member (231) is connected to the non-elastic member (232) and an elastic movement groove (233) is formed between one end and the non-elastic member (232).

8. The stopper structure for an aerosol container according to claim 5, wherein the spacing length between the stopper projections (23) is longer than the length of the snap piece (311).

9. A stopper structure for aerosol container according to any one of claims 1 to 8, wherein the stopper member (24) is radially provided on the inner wall of the fixing means (20) and is selected from at least one of a positioning rib, a positioning point and a positioning skirt.

10. The limiting structure for the aerosol can container according to claim 9, wherein the discharge end of the aerosol can container (10) is a circular truncated cone structure with a cross-sectional area that is sequentially increased from the discharge end to the bottom end, and the limiting assembly (24) abuts against any cross section of the circular truncated cone structure of the aerosol can container (10).

11. The spacing structure for aerosol can containers according to any one of claims 1 to 8, wherein the side walls of the fixing means (20) are provided with through holes (25) arranged uniformly and symmetrically.

12. The limiting structure for the aerosol can container according to any one of claims 5 to 8, comprising a sealing assembly fixed on the limiting truncated cone (22) and arranged on the limiting structure, wherein the push cover (30) is arranged on the sealing assembly and is embedded and buckled on the limiting truncated cone (22).

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