CN211732488U

CN211732488U - Storage container, storage rack device and coffee baking machine

Info

Publication number: CN211732488U
Application number: CN202020154670.XU
Authority: CN
Inventors: 梁润堂
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-02-06
Filing date: 2020-02-06
Publication date: 2020-10-23
Anticipated expiration: 2030-02-06

Abstract

The utility model provides a storage container, a storage rack device and a coffee roasting machine, which comprises a container shell and a driving circuit module, wherein the container shell comprises an inner transparent insulating shell, an outer transparent insulating shell and a light adjusting layer arranged between the inner transparent insulating shell and the outer transparent insulating shell; the driving circuit module is electrically connected to the dimming layer and drives the dimming layer to be switched into a transparent state or an opaque state. The storage container of the utility model can be washed directly, and can be used for storing the substances avoiding illumination and the substances needing illumination, thereby improving the use compatibility of the storage container; and is suitable for storing food avoiding illumination, and is convenient for a user to observe the storage state of the food.

Description

Storage container, storage rack device and coffee baking machine

Technical Field

The utility model relates to a storage facilities field, concretely relates to storing container and storage rack device, coffee are dried by fire machine.

Background

At present, most of existing storage containers are of single-layer outer wall structures, so that the storage containers are single in state, a transparent storage container needs to be bought by a user who needs to store substances avoiding illumination temporarily, a customer needs to store substances needing illumination temporarily and buy another storage container, and the storage containers are extremely inconvenient.

Meanwhile, in the field of food storage, foods prevented from being illuminated are generally stored in opaque containers, but the foods stored in the opaque containers are difficult to judge the storage state of the foods by naked eyes through the shells of the containers, and the foods in the containers are limited by light rays and difficult to judge when the foods in the containers are observed through the container openings; the food is easy to be poured out, which affects the food sanitation and is inconvenient to operate.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome shortcoming and not enough among the prior art, provide a storage container, this storage container realizes both can having used as the material of storing and avoiding illumination, can be used as the function of storing the material that needs received illumination again, increases the kind that storage container can store food to be convenient for observe the storage condition of food.

An embodiment of the utility model provides a storage container, include:

the container shell comprises an inner transparent insulating shell, an outer transparent insulating shell and a dimming layer arranged between the inner transparent insulating shell and the outer transparent insulating shell;

the driving circuit module is electrically connected to the dimming layer and drives the dimming layer to be switched into a transparent state or an opaque state.

Compared with the prior art, the utility model discloses an adjustable body state of storing container switches into transparent state or opaque state with the body according to actual need to the realization both can be used as the material of storing and avoiding illumination, can be used as the function of storing the material that needs received illumination again, increases the kind that storing container can store food, and is convenient for observe the storage condition of food.

In one embodiment, the dimming layer is a PDLC film having a driving interface, and the electrical output terminal of the driving circuit module is connected to the driving interface of the PDLC film. The effect of switching to the transparent state or the opaque state is ensured, and the use compatibility of the storage container is increased.

In one embodiment, the inner transparent insulating shell comprises a fully transparent inner shell wall and an inner shell bottom, the outer transparent insulating shell comprises a fully transparent shell wall and an outer shell bottom, and the inner shell wall is connected with the top end of the shell wall;

the dimming layer is disposed between the inner housing wall and the housing wall and/or between the inner housing bottom and the outer housing bottom in a full-face covering or partial covering manner.

The PDLC film is protected and fixed, and the storage effect of the storage container is achieved.

In one embodiment, the inner transparent insulating shell comprises a fully transparent inner shell wall and an inner shell bottom, the outer transparent insulating shell comprises a fully transparent outer shell wall and an outer shell bottom, and the inner shell wall is connected with the top end of the outer shell wall.

In one embodiment, the inner transparent insulating shell comprises a partially transparent inner shell wall and an inner shell bottom, the inner shell wall comprising a first transparent portion;

the outer transparent insulating shell comprises a partially transparent shell wall and a shell bottom, and the shell wall comprises a second transparent part;

the inner shell wall is connected with the top end of the shell wall, and the dimming layer is arranged between a first transparent part of the inner shell wall and a second transparent part of the shell wall.

In one embodiment, the inner transparent insulating shell comprises an inner shell bottom and a fully transparent inner shell wall, and the outer transparent insulating shell comprises a fully transparent annular shell wall, and the inner shell wall is connected with the top end of the shell wall.

The dimming layer is disposed between the inner housing wall and the annular housing wall in a fully covered or partially covered manner.

In one embodiment, the top of the inner shell wall is folded outwards, the top of the outer shell wall abuts against the top of the inner shell wall, and the end of the top folded inner shell wall is flush with the outer surface of the top of the outer shell wall. The PDLC film is convenient to fix so as to prevent the PDLC film from generating longitudinal displacement, and meanwhile, liquid is prevented from flowing into the gap between the top of the shell wall and the top of the inner shell wall to influence the storage container, so that the normal use of the storage container is protected.

In one embodiment, the container housing further comprises a bottom film; the driving circuit module is arranged below the bottom of the inner shell; the bottom film is arranged below the drive circuit module, and the tail end of the bottom film is flush with the outer surface of the shell wall; the bottom rubber sheet is provided with a protruding part which props against the inner wall of the shell wall. The electric leakage is prevented, outward pressure is generated on the inner wall of the shell wall, so that the mutual friction force is increased, the primer sheet is prevented from falling naturally, and the storage container is convenient to mount and dismount.

In one embodiment, the vessel shell further comprises a bottom eyelet comprising,

the upper surface of the support ring is propped against the lower surface of the bottom rubber sheet;

an upturned portion extending upwardly from an edge of said support ring along a distal end of said bottom film and an outer surface of said housing wall, said upturned portion sandwiching a bottom portion of said housing wall with said projections of said bottom film;

a fold-down portion extending downward from an edge of the support ring, the fold-down portion supporting the bottom eyelet.

Support the end film, it is right to utilize the elasticity that the metal possessed to produce inside pressure on the shell wall, with end film the bulge cooperation is carried the shell wall, consolidates storage container's bottom to its guard action in its bottom, still be convenient for storage container's installation and dismantlement.

In one embodiment, the container shell further comprises a top metal ring, the radial section of the top metal ring is in an inverted U shape, the top metal ring is sleeved on the top ends of the inner transparent insulating shell and the outer transparent insulating shell, and the top metal ring fixes the inner transparent insulating shell and the outer transparent insulating shell and seals a gap between the inner transparent insulating shell and the outer transparent insulating shell. The top ends of the inner transparent insulating shell and the outer transparent insulating shell are clamped by the elasticity of metal, so that the top of the storage container is consolidated, and the top of the storage container is protected.

In one embodiment, the top metal ring is provided with a convex block, the inner transparent insulating shell is provided with a groove corresponding to the convex block, and the convex block and the groove form a buckle structure. Further consolidate storage container's top, and avoid the top metal loop produces natural displacement, still is convenient for storage container's installation and dismantlement.

In one embodiment, an adhesive layer is provided between the base metal ring and the housing wall, the adhesive layer being formed by an adhesive. Increasing the stability between the bottom parts.

In one embodiment, an adhesive layer is arranged between the top metal ring and the outer transparent insulating shell and/or the inner transparent insulating shell, and the adhesive layer is made of an adhesive. Increasing stability between top members

In one embodiment, the storage container further comprises a container cover provided with a one-way venting valve. Is favorable for improving the storage effect of the storage container.

In one embodiment, the container lid is provided with a display screen. The display screen is used for displaying storage information, such as roasting parameters of coffee beans, shelf life, current storage temperature and humidity, current year, month and day and other information or combination of the storage information.

In one embodiment, the driving circuit module includes a wireless power receiving circuit and a driving circuit, and the wireless power receiving circuit is electrically connected to the dimming layer through the driving circuit. The normal connection of the power supply function of the driving circuit module and the dimming layer is ensured, and due to the effect of wireless power supply, the storage container is not provided with an exposed electric plug and can be directly washed by water.

In one embodiment, the storage container is further externally provided with a power supply base, and the power supply base comprises:

the base body is provided with a power supply module;

the wireless power supply transmitting circuit is arranged in the base body and transmits an electric signal to the wireless power supply receiving circuit;

and the power switch is electrically connected with the power module and controls the wireless power supply transmitting circuit to be switched on and off.

And the power supply condition is controlled, and the normal realization of the function of switching the transparent state and the opaque state of the storage container is facilitated.

In one embodiment, a plurality of the wireless power supply transmitting circuits are uniformly arranged in the base body in the horizontal direction, the number of the power switches corresponds to the number of the wireless power supply transmitting circuits, and each wireless power supply transmitting module is independently controlled by a corresponding single power switch.

Each of the wirelessly powered transmit modules may be individually controlled to be turned on or off to obtain more usage possibilities.

In one embodiment, the power supply base further comprises a plurality of indicator lights, the power supply module is electrically connected with the indicator lights, the indicator lights are in one-to-one correspondence with the power switches, and each indicator light is independently controlled by a corresponding single power switch.

And a user can conveniently judge the corresponding on-off state of the wireless power supply transmitting circuit according to the lighting state of the indicator lamp.

In one embodiment, the storage container application environment is a storage rack device, which is characterized by comprising a storage container and a storage rack;

the storage container comprises a container shell and a driving circuit module, wherein the container shell comprises an inner transparent insulating shell, an outer transparent insulating shell and a dimming layer arranged between the inner transparent insulating shell and the outer transparent insulating shell; the driving circuit module comprises a wireless power supply receiving circuit and a driving circuit, and the wireless power supply receiving circuit is electrically connected to the dimming layer through the driving circuit; the driving circuit module drives the dimming layer to be switched into a transparent state or an opaque state;

the storage rack comprises a plurality of laminates and supports, and the laminates are detachably connected through the supports; each laminate is provided with a plurality of power supply bases for supplying power to the storage container; the power supply base comprises a base body, a wireless power supply transmitting circuit and a power switch, and the base body is provided with a power module; the wireless power supply transmitting circuit is arranged in the base body and transmits an electric signal to the wireless power supply receiving circuit; the power switch is electrically connected with the power module and controls the wireless power supply transmitting circuit to be switched on and off.

In the embodiment, the use environment of the storage container is expanded, and more use scenes are conveniently dealt with.

In one embodiment, the laminate is provided with a power input jack and a power output jack, and the power input jack and the power output jack are respectively electrically connected with the input end and the output end of the power module; the storage rack device is also provided with a power connection line, and two ends of the power connection line are respectively connected with the power input jack of the laminate and the power output jack of the other laminate.

The position of occupying the socket is reduced.

In one embodiment, the pillar includes solid pillar and hidden line pillar, the hidden line pillar is equipped with the recess, the recess is used for placing the power connection line.

The storage rack is prevented from being powered off or tripping over due to tripping over of the power connection line by a user.

In one embodiment, a plurality of the wireless power supply transmitting circuits are uniformly arranged in the base body in the horizontal direction, the number of the power switches corresponds to the number of the wireless power supply transmitting circuits, and each wireless power supply transmitting circuit is independently controlled by a corresponding single power switch.

In one embodiment, the storage container application environment is a coffee roaster, wherein the coffee roaster comprises a plurality of storage containers; the coffee roasting machine is provided with a wireless power supply transmitting circuit, and the wireless power supply transmitting circuit transmits an electric signal to the corresponding wireless power supply receiving circuit of the storage container. Increase the service environment of storing container, be convenient for deal with more use scenes.

Compared with the prior art, the storage container can adjust the state of the bottle body, and the bottle body is switched into a transparent state or an opaque state according to actual needs, so that the function of storing substances avoiding illumination and substances needing illumination can be realized, the types of the food which can be stored in the storage container are increased, and the storage condition of the food can be conveniently observed; it utilizes the switching of wireless power supply control state to can directly carry out the washing, the cleanness after the storing of being convenient for has still increased the security of using. In order that the invention may be more clearly understood, particular embodiments of the invention will now be described with reference to the accompanying drawings.

Drawings

Fig. 1 is a sectional view of a storage container according to an embodiment of the present invention.

Fig. 2 is an exploded view of a storage container according to an embodiment of the present invention.

Fig. 3(a) is a schematic view of a storage container in which the light modulation film is in a transparent state according to an embodiment of the present invention.

Fig. 3(B) is a schematic view of a storage container in which the light modulation film is in a non-transparent state according to an embodiment of the present invention.

Fig. 4 is a schematic view of a container lid according to an embodiment of the present invention.

Fig. 5 is a schematic diagram of a power supply base according to an embodiment of the present invention.

Fig. 6(a) is a schematic front view of a storage rack device according to an embodiment of the present invention.

Fig. 6(B) is a schematic back view of a storage rack device according to an embodiment of the present invention.

Fig. 7 is a schematic view of a supporting rod of a storage rack according to an embodiment of the present invention.

Fig. 8 is a schematic view of a coffee roaster according to an embodiment of the present invention.

Fig. 9 is a schematic view of two storage containers overlapping one another.

1. The coffee roaster comprises a container shell, 11, an inner transparent insulating shell, 111, a groove, 12, an outer transparent insulating shell, 13, a dimming layer, 14 bottom rubber sheets, 15 bottom metal rings, 16 top metal rings, 161 bumps, 17, a container cover, 171 valves, 172, a display screen, 2, a driving circuit module, 3, a power supply base, 31, a base body, 32, a wireless power supply transmitting circuit, 33, a power switch, 34, an indicator light, 4, a storage rack, 41, a layer plate, 411, a power input jack, 412, 42, a support and 5.

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 without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and 2, the storage container relates to the field of storage devices, and is used for storing articles, and includes:

a container housing 1, wherein the container housing 1 comprises an inner transparent insulating shell 11, an outer transparent insulating shell 12 and a dimming layer 13 arranged between the inner transparent insulating shell 11 and the outer transparent insulating shell 12;

the driving circuit module 2 is electrically connected to the dimming layer 13, and the driving circuit module 2 drives the dimming layer 13 to be switched into a transparent state or an opaque state.

In the present embodiment, the container housing 1 is cylindrical, and in other embodiments, the container housing 1 may be square or polygonal, etc.

Referring to fig. 3(a) and 3(B), when the driving circuit module 2 supplies power to the dimming layer 13, the dimming layer 13 is switched to a transparent state; when the driving circuit module 2 stops supplying power to the dimming layer 13, the dimming layer 13 is switched to a non-transparent state, which is specifically represented by that the dimming layer 13 is in a milky opaque state or an atomized opaque state. In one embodiment, the dimming layer 13 is a PDLC film having a driving interface, and the electrical output terminal of the driving circuit module 2 is connected to the driving interface of the PDLC film.

In one embodiment, the driving circuit module 2 may further provide a multi-stage supply voltage or a stepless adjustable supply voltage to the dimming layer 13(PDLC film), so that the dimming layer 13(PDLC film) is switched among a multi-stage or gradual-change translucent state, a transparent state and a non-transparent state. In this embodiment, the dimming layer 13 is a PDLC film, which ensures the effect of switching to a transparent state or an opaque state, and increases the compatibility of the storage container.

In one embodiment, the inner transparent insulating shell 11 comprises a fully transparent inner shell wall and a fully transparent inner shell bottom, the outer transparent insulating shell 12 comprises a fully transparent outer shell wall and a fully transparent outer shell bottom, and the inner shell wall abuts against the top end of the outer shell wall;

the dimming layer 13 is disposed between the inner housing wall and the housing wall and/or between the inner housing bottom and the outer housing bottom in a fully covered or partially covered manner.

In this embodiment, the dimming layer 13 includes the following setting states:

A. the inner shell is arranged between the inner shell wall and the outer shell wall in a full covering mode, but is not arranged between the inner shell bottom and the outer shell bottom;

B. the inner shell is arranged between the inner shell wall and the outer shell wall and between the inner shell bottom and the outer shell bottom in a full covering mode;

C. and is partially disposed between the inner shell wall and the outer shell wall and between the inner shell bottom and the outer shell bottom.

The dimming layer 13 fixes and protects the inner and outer walls of the housing from the use. In other embodiments, the coverage of the dimming layer 13 can be modified by those skilled in the art according to the appearance effect and the storage requirement.

In one embodiment, the top of the inner shell wall is folded outwards, the top of the outer shell wall abuts against the top of the inner shell wall, and the end of the top folded inner shell wall is flush with the outer surface of the top of the outer shell wall.

In this embodiment, the above structure is used to fix the dimming layer 13 or the PDLC film so as to prevent the dimming layer or the PDLC film from being longitudinally displaced, prevent liquid from flowing into the gap between the top of the housing wall and the top of the inner housing wall to affect the use of the storage container, and protect the normal use of the storage container.

In other embodiments, the top of the housing wall and the top of the inner housing wall may be directly connected by a connector, or the housing wall and the inner housing wall may be integrally formed and the tops connected to each other.

In one embodiment, the container housing 1 further comprises a bottom film 14; the driving circuit module 2 is arranged below the bottom of the inner shell; the bottom film 14 is arranged below the driving circuit module 2, and the tail end of the bottom film 14 is flush with the outer surface of the shell wall; the bottom film 14 is provided with a projection which abuts against the inner wall of the housing wall.

In this embodiment, the bottom film 14 is circular, which can prevent electric leakage and generate outward pressure on the inner wall of the housing wall, thereby increasing mutual friction force, preventing the bottom film 14 from falling naturally, and facilitating the installation and disassembly of the storage container. In other embodiments, the shape of the base film can be varied by one skilled in the art based on robustness and ease of assembly and disassembly.

In one embodiment, the vessel shell 1 further comprises a bottom eyelet 15, the bottom eyelet 15 comprising,

a support ring, the upper surface of which abuts against the lower surface of the bottom film 14;

an upturned portion extending upwardly from the edge of the support ring along the distal end of the bottom film 14 and the outer surface of the housing wall, the upturned portion sandwiching the bottom of the housing wall with the projecting portion of the bottom film 14;

a fold-down portion extending downward from the edge of the support ring, the fold-down portion supporting the bottom eyelet 15.

Preferably, the bottom eyelet 15 is of a metal that is not easily deformed, such as steel.

In this embodiment, the bottom metal ring 15 supports the bottom rubber sheet 14, and generates an inward pressure on the housing wall by using the elasticity of the metal, and the bottom metal ring 15 can be separated by a large external force when the housing wall is clamped by the engagement of the protrusion of the bottom rubber sheet 14. The bottom eyelet 15 thus consolidates the bottom of the storage container and protects it, also facilitating the mounting and dismounting of the storage container. In one embodiment, the inner transparent insulating shell 11 comprises a partially transparent inner shell wall comprising a first transparent portion and an inner shell bottom;

in one embodiment, the portion of the folded-up portion contacting the outer surface of the housing wall is provided with a rubber pad to enhance protection of the housing wall and reduce or prevent wear of the housing wall during assembly and disassembly. In other embodiments, one skilled in the art may provide other protective components depending on the protection of the housing wall or to reduce wear during disassembly and assembly.

The outer transparent insulating shell 12 comprises a partially transparent shell wall and a shell bottom, the shell wall comprises a second transparent part;

the inner housing wall abuts the top end of the housing wall and the dimming layer 13 is arranged between a first transparent part of the inner housing wall and a second transparent part of the housing wall.

In this embodiment, the inner wall and the outer wall are partially transparent, and the rest of the inner wall and the outer wall can be made of opaque materials, so as to protect and fix the PDLC film and realize the storage effect of the storage container.

In an embodiment, the container shell 1 further includes a top metal ring 16, a radial cross section of the top metal ring 16 is in an inverted U shape, the top metal ring 16 is sleeved on top ends of the inner transparent insulating shell 11 and the outer transparent insulating shell 12, and the top metal ring 16 fixes the inner transparent insulating shell 11 and the outer transparent insulating shell 12 and seals a gap therebetween.

In this embodiment, the top eyelet 16 is made of steel, and in other embodiments, the top eyelet is made of other materials by one skilled in the art depending on the storage article.

In this embodiment, the top metal ring 16 has elasticity, and clamps the top ends of the inner transparent insulating shell 11 and the outer transparent insulating shell 12, so as to consolidate the top of the storage container and protect the top.

In one embodiment, the top metal ring 16 is provided with a bump 161, the inner transparent insulation shell 11 is provided with a groove 111 corresponding to the bump 161, and the bump 161 and the groove 111 form a snap structure.

In one embodiment, an adhesive layer is provided between the bottom eyelet 15 and the housing wall, said adhesive layer being constituted by an adhesive.

In one embodiment, an adhesive layer is disposed between the top metal ring 16 and the outer transparent insulating shell and/or the inner transparent insulating shell, and the adhesive layer is made of an adhesive.

In this embodiment, buckle structure further consolidates storage container's top, and avoids top metal loop 16 produces natural displacement, and can also be right through artifical hard buckle structure carries out the dismouting, is convenient for storage container's installation and dismantlement.

Referring to fig. 4, in one embodiment, the storage container further includes a container cover 17, and the container cover 17 is provided with a one-way vent valve 171.

In this embodiment, after the container cover 17 is covered, the valve 17 can allow the gas in the container to be naturally and unidirectionally discharged outwards, so as to prevent the internal air pressure of the storage container from being greater than the external air pressure, thereby enhancing the storage effect of the storage container.

In this embodiment, the container cover 17 is further provided with a sealing ring, the sealing ring is made of silica gel, and the sealing ring has the functions of buffering, reducing friction and increasing sealing performance. In other embodiments, one skilled in the art may use other materials to fabricate the sealing ring according to the requirements of sealing, corrosion protection, and buffering protection.

In one embodiment, the container lid 17 is provided with a display screen 172. The display screen 172 is used for displaying storage information, such as roasting parameters of coffee beans, shelf life, current storage temperature and humidity, current year, month, day and other information or a combination of the storage information.

In one embodiment, the driving circuit module 2 includes a wireless power receiving circuit and a driving circuit, and the wireless power receiving circuit is electrically connected to the dimming layer 13 through the driving circuit.

In this embodiment, after receiving the external control information, the wireless power supply receiving circuit executes a corresponding power supply or power supply stop instruction, so as to achieve the effect of switching the dimming layer 13 between the transparent state and the opaque state.

Referring to fig. 5, in an embodiment, a power supply base 3 is further disposed outside the storage container, and the power supply base 3 includes:

the base body 31, the base body 31 is provided with a power module;

the wireless power supply transmitting circuit 32 is arranged in the base body 31 and transmits an electric signal to the wireless power supply receiving circuit;

and the power switch 33 is electrically connected with the power module and controls the wireless power supply transmitting circuit 32 to be switched on and off. In this embodiment, the power supply condition is controlled by the power supply base 3, which is helpful for the normal realization of the function of switching the transparent state and the opaque state of the storage container.

In one embodiment, a plurality of the wireless power transmitting circuits 32 are uniformly arranged in the base body 31 in the horizontal direction, the number of the power switches 33 corresponds to the number of the wireless power transmitting circuits 32, and each wireless power transmitting circuit 32 is independently controlled by a corresponding single power switch 33.

In this embodiment, each wireless power supply transmitting circuit 32 is independently controlled by the corresponding single power switch 33, so that the switching state of the storage containers is not affected, and the storage containers are convenient to place.

In one embodiment, the power supply base 3 is provided with a plurality of indicator lights 34, the power supply module is electrically connected to the indicator lights 34, the indicator lights 34 are in one-to-one correspondence with the power switches 33, and each indicator light 34 is independently controlled by a corresponding single power switch 33.

Preferably, the indicator light 34 is an LED light.

In this embodiment, the color of the indicator light 34 is different from the color of the base body 31, when the power switch 33 is turned on, the wireless power supply transmitting circuit 32 is turned on, and the indicator light emits 34 light to remind the user that the wireless power supply transmitting circuit 32 corresponding to the user is turned on.

The user can conveniently judge the corresponding on-off state of the wireless power supply transmitting circuit 32 according to the lighting state of the indicator lamp 34.

Referring to fig. 6, in one embodiment, the storage container application environment is a storage rack device including,

a storage container and storage rack 4;

the storage container comprises a container shell 1 and a driving circuit module 2, wherein the container shell comprises an inner transparent insulating shell 11, an outer transparent insulating shell 12 and a dimming layer 13 arranged between the inner transparent insulating shell 11 and the outer transparent insulating shell 12; the driving circuit module comprises a wireless power supply receiving circuit and a driving circuit, and the wireless power supply receiving circuit is electrically connected to the light modulation layer 13 through the driving circuit; the driving circuit module drives the dimming layer to be switched into a transparent state or an opaque state;

the storage rack 4 comprises a plurality of laminates 41 and supports 42, wherein the laminates 41 are detachably connected through the supports 42; each laminate 41 is provided with a plurality of power supply bases 3 for supplying power to the storage container; the power supply base 3 comprises a base body 31, a wireless power supply transmitting circuit 32 and a power switch 33, wherein the base body 31 is provided with a power supply module; the wireless power supply transmitting circuit 32 is arranged in the base body 31 and transmits an electric signal to the wireless power supply receiving circuit; the power switch 33 is electrically connected with the power module and controls the wireless power supply transmitting circuit 32 to be switched on and off.

In this embodiment, the use environment of the storage container is expanded, and the storage container is convenient to apply to more different scenes.

In one embodiment, the laminate 41 is provided with a power input jack 411 and a power output jack 412, and the power input jack 411 and the power output jack 412 are electrically connected with the input end and the output end of the power module respectively; the storage rack device is further provided with a power connection line, and two ends of the power connection line are respectively connected with the power input jack 411 of one laminate and the power output jack 412 of the other laminate.

The position of occupying the socket is reduced.

Referring to fig. 7, in one embodiment, the support posts 42 include solid support posts and hidden wire support posts, and the hidden wire support posts are provided with grooves for placing the power connection wires.

Each of the wirelessly powered transmit modules 32 may be individually controlled to be turned on or off to obtain more usage possibilities.

In one embodiment, the power supply base 3 further includes a plurality of indicator lights 34, the power module is electrically connected to the indicator lights 34, the indicator lights 34 are in one-to-one correspondence with the power switches 33, and each indicator light 34 is independently controlled by a corresponding single power switch 33.

Preferably, the indicator light 34 is an LED light.

In this embodiment, the color of the indicator light 33 is different from the color of the base body 31, when the power switch 33 is turned on, the wireless power supply transmitting circuit 32 is turned on, and the indicator light 34 emits light to remind the user that the wireless power supply transmitting circuit 32 corresponding to the user is turned on.

Referring to fig. 8, in an embodiment, the storage container is applied in a coffee roaster 5, wherein the coffee roaster 5 includes the storage container; the coffee roasting machine 5 is provided with a wireless power supply transmitting circuit 32, and the wireless power supply transmitting circuit 32 transmits an electric signal to the corresponding wireless power supply receiving circuit of the storage container.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A storage container, comprising:

2. A storage container as claimed in claim 1, wherein said dimming layer is a PDLC film having a driving interface, and an electrical output of said driving circuit module is connected to said driving interface of said PDLC film.

3. The storage container of claim 2, wherein the inner transparent insulating shell comprises a fully transparent inner shell wall and an inner shell bottom, the outer transparent insulating shell comprises a fully transparent outer shell wall and an outer shell bottom, and the inner shell wall is connected to a top end of the outer shell wall;

4. A storage container according to claim 2, wherein the inner transparent insulating shell comprises a partially transparent inner shell wall and an inner shell bottom, the inner shell wall comprising a first transparent portion;

5. A storage container as claimed in claim 2, wherein said inner transparent insulating shell comprises an inner shell bottom and a fully transparent inner shell wall, said outer transparent insulating shell comprises a fully transparent annular shell wall, said inner shell wall being connected to a top end of said shell wall;

6. The storage container of claim 5, wherein the top portion of the inner wall is folded over and the top portion of the outer wall abuts the top portion of the inner wall, and the end of the top portion of the inner wall is flush with the outer surface of the top portion of the outer wall.

7. A storage container as claimed in claim 6, wherein the container shell further comprises a bottom film; the driving circuit module is arranged below the bottom of the inner shell; the bottom film is arranged below the drive circuit module, and the tail end of the bottom film is flush with the outer surface of the shell wall; the bottom rubber sheet is provided with a protruding part which props against the inner wall of the shell wall.

8. A storage container as claimed in claim 7, wherein the container housing further comprises a bottom eyelet, the bottom eyelet comprising,

9. A storage container as claimed in claim 8, wherein the container shell further comprises a top metal ring, the top metal ring has an inverted U-shaped radial cross-section, the top metal ring is sleeved on the top ends of the inner transparent insulating shell and the outer transparent insulating shell, and the top metal ring fixes the inner transparent insulating shell and the outer transparent insulating shell and seals the gap between the inner transparent insulating shell and the outer transparent insulating shell.

10. A storage container as claimed in claim 9, wherein the top metal ring has a protrusion, the transparent insulating shell has a groove at a position corresponding to the protrusion, the protrusion and the groove form a snap-fit structure, and the inner diameter of the top metal ring matches with the outer diameter of the folded-down portion.

11. A storage container according to any one of claims 8 to 10, wherein an adhesive layer is provided between the bottom eyelet and the housing wall, said adhesive layer being formed by an adhesive.

12. A storage container according to claim 9 or 10, wherein an adhesive layer is provided between the top metal ring and the outer transparent insulating shell and/or the inner transparent insulating shell, the adhesive layer being formed by an adhesive.

13. A storage container as claimed in any one of claims 1 to 10, further comprising a lid provided with a one-way vent valve.

14. A storage container as claimed in claim 13, wherein the cover is provided with a display screen.

15. A storage container as claimed in any one of claims 1 to 10, wherein said driving circuit module comprises a wireless power receiving circuit and a driving circuit, said wireless power receiving circuit is electrically connected to said dimming layer through said driving circuit.

16. A storage container as claimed in claim 15, further including a power supply base, the power supply base including:

the base body is provided with a power supply module;

17. A storage container as recited in claim 16, wherein a plurality of said wirelessly powered transmitting circuits are disposed in said base body in a substantially horizontal orientation, said number of power switches corresponds to the number of said wirelessly powered transmitting circuits, and each of said wirelessly powered transmitting circuits is independently controlled by a corresponding single said power switch.

18. A storage container as claimed in claim 17, wherein said power supply base further comprises a plurality of indicator lights, said power module is electrically connected to said indicator lights, said indicator lights are in one-to-one correspondence with said power switches, and each of said indicator lights is independently controlled by a corresponding single said power switch.

19. A storage rack device is characterized by comprising a storage container and a storage rack;

20. The storage rack apparatus of claim 19, wherein the deck is provided with a power input jack and a power output jack, the power input jack and the power output jack being electrically connected to the input and output of the power module, respectively; the storage rack device is also provided with a power connection line, and two ends of the power connection line are respectively connected with the power input jack of the laminate and the power output jack of the other laminate.

21. The storage rack apparatus of claim 20, wherein the posts comprise solid posts and wire-hiding posts, the wire-hiding posts being provided with grooves for placing the power connection wires.

22. The storage rack apparatus of claim 19, wherein said deck has a plurality of post holes on each of the upper and lower surfaces thereof for receiving said posts.

23. The storage rack apparatus of claim 19, wherein a plurality of said wirelessly powered transmitting circuits are uniformly disposed in said base body in a horizontal direction, said number of power switches corresponds to the number of said wirelessly powered transmitting circuits, and each of said wirelessly powered transmitting circuits is independently controlled by a corresponding single said power switch.

24. The storage rack apparatus of claim 23, wherein the power supply base further comprises a plurality of indicator lights, the power module is electrically connected to the indicator lights, the indicator lights correspond to the power switches one-to-one, and each indicator light is independently controlled by a corresponding single power switch.

25. A coffee roaster, comprising a roaster and a storage container as claimed in any one of claims 1 to 14, wherein the roaster is provided with a wireless power supply transmitting circuit, the driving circuit of the storage container comprises a wireless power supply receiving circuit and a driving circuit, and the wireless power supply receiving circuit is electrically connected to the dimming layer through the driving circuit; the wireless power supply transmitting circuit transmits an electric signal to the corresponding wireless power supply receiving circuit of the storage container.