CN219594333U - Integrated drink device - Google Patents

Abstract

The utility model discloses an integrated drink device, which comprises a coffee machine and external equipment, wherein the coffee machine is provided with a coffee machine; the coffee machine comprises an energy supply module and an external interface module, wherein the energy supply module is used for being connected with an energy supply system to supply energy for the operation of the coffee machine; the external interface module is arranged on the outer side wall of the machine body of the coffee machine and is connected with the energy supply module to supply energy to the external equipment; the external equipment is provided with an input module matched with the external interface module. Different external devices can realize different functions to meet the requirements of different drinks, and the external interface module for supplying energy to the external devices is arranged, so that the situation of shortage of household sockets can be relieved.

Description

Integrated drink device

Technical Field

The utility model relates to the field of beverage making equipment, in particular to an integrated beverage device.

Background

Along with the improvement of pursuit of people on quality life, the diversified demands on drinks are greatly increased, and along with the development of information technology, a house becomes a life style of most people, especially in epidemic age, and more people begin to pay attention to pursuit of health food.

At present, a main stream coffee machine in the market mainly comprises two main core components, namely extraction and grinding, so that the requirements of coffee beverages can be basically met, but only coffee can be manufactured, cross-product beverages cannot be manufactured, a user needs to purchase corresponding devices additionally when want to manufacture the cross-product beverages, each device needs a socket, the socket is possibly short, and the user cannot use the devices to manufacture the beverages at the same time.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides an integrated drink device, different external devices of which can realize different functions to meet the requirements of different drinks, and the integrated drink device is provided with an external interface module for supplying power to the external devices, so that the situation of shortage of household sockets can be relieved.

In order to achieve the above purpose, the utility model is realized by adopting the following technical scheme:

an integrated beverage appliance comprising a coffee machine, and an external device;

the coffee machine comprises an energy supply module and an external interface module, wherein the energy supply module is used for being connected with an energy supply system to supply energy for the operation of the coffee machine; the external interface module is arranged on the outer side wall of the machine body of the coffee machine and is connected with the energy supply module to supply energy to the external equipment;

the external equipment is provided with an input module matched with the external interface module.

Specifically, the energy supply system is a utility grid, and the energy supply module comprises a plug connected with the utility grid; the energy supply module is arranged in the coffee machine, one end of a power line of the energy supply module penetrates out of the coffee machine and is provided with a plug.

With the structure, a user can make coffee through a coffee machine in the integrated drink device, and can also make other drinks through external equipment in the integrated drink device, for example, when the external equipment comprises a stirrer, the user can use the stirrer to make fruit juice or make sand ice to realize making the drink containing the sand ice; when the external equipment comprises a health preserving kettle, a user can use the health preserving kettle to brew health preserving tea drinks; when the external device includes a milk frother, a user can make milk froths to achieve making coffee of different flavors, etc.;

the integrated drink device can meet the requirements of users on different drinks, exert the autonomy of the users and meet the pursuit of the users on high quality;

when the coffee machine is used, a user needs to connect an energy supply module on the coffee machine with an energy supply system such as a commercial power grid, the energy supply module can provide energy for the operation of the coffee machine, and the user can make coffee through the coffee machine; if the user wants to use the external equipment, the user can use the external equipment only by connecting an input module of the external equipment with an external interface module on the coffee machine to realize the energy supply of the external equipment; above-mentioned structure, integrated drink device only needs to occupy a socket hole, effectively alleviates domestic socket not enough condition, and because integrated drink device integrates for it can realize more functions in limited space.

Further, the external interface module is rotatably arranged on the outer side wall of the machine body of the coffee machine, and in a state that the external interface module is rotatably unfolded, the top surface of the external interface module is formed into a containing surface for placing the external equipment, and an output interface is arranged on the containing surface; correspondingly, the input module is arranged on the bottom surface of the external equipment and is formed into an input interface matched with the output interface.

By adopting the structure, the external interface module is rotatably arranged on the outer side of the machine body of the coffee machine, so that the folding and storage of the external interface module can be realized, and a user can occupy a smaller table surface area of an operation table surface when not using external equipment; when a user needs to use the external equipment, the external interface module needs to be rotated to be unfolded, the external equipment is placed on the accommodating surface of the external interface module, and at the moment, the input module on the bottom surface of the external equipment is in butt joint with the output interface on the accommodating surface to realize electric connection, so that the implementation is convenient.

Further, the external interface module is rotatably arranged at the bottom end of the outer side wall of the machine body of the coffee machine, and the bottom surface of the external interface module is flush with the bottom surface of the coffee machine in a state that the external interface module is rotatably unfolded.

By adopting the structure, as the bottom surface of the coffee machine is placed on the operation table surface, when a user rotates the external interface module to be in an unfolding state, the bottom surface of the external interface module is also in contact with the operation table surface, so that the external equipment is prevented from damaging the external interface module when placed on the accommodating surface of the external interface module, and the structural design of the integrated drink device is more reasonable.

Further, a rotary mounting part is formed by extending outwards on the outer wall of the machine body of the coffee machine, a mounting groove matched with the external interface module is formed in the rotary mounting part, and a first rotary matching hole and a second rotary matching hole are respectively formed in two opposite side walls of the mounting groove;

correspondingly, the side wall of the external interface module facing the first rotating fit hole is convexly provided with a matched first rotating shaft, and the side wall of the external interface module facing the second rotating fit hole is convexly provided with a matched second rotating shaft; the first rotating shaft is provided with a wire passing hole penetrating through the first rotating shaft.

By adopting the structure, the external interface module is arranged in the mounting groove, and is respectively in rotary fit with the first rotary fit hole and the second rotary fit hole on the mounting groove through the first rotary shaft and the second rotary shaft on the external interface module, so that the rotary connection of the external interface module is realized; specifically, the first rotating fit hole is coaxial with the second rotating fit hole, and the first rotating shaft and the second rotating shaft are coaxial;

the arrangement of the wire passing holes is convenient for the output interface in the external interface module to be connected with the energy supply module on the coffee machine, and the rotation of the external interface module does not influence the connection of the output interface and the energy supply module.

Further, the output interface protrudes from the accommodating surface, and the input interface is correspondingly in plug-in fit with the output interface;

and under the state that the external interface module rotates to be folded, the outer side wall of the machine body of the coffee machine is inwards sunken at the corresponding position of the output interface to form a containing groove for containing the output interface.

By adopting the structure, the output interface protrudes out of the accommodating surface, so that a user can conveniently realize quick and accurate butt joint of the output interface and an input interface on the external device when the external device is placed on the accommodating surface;

the setting of holding tank makes the rotation under the external interface module is folding state, external interface module's holding face can be better with the laminating of the fuselage lateral wall of coffee machine.

Further, the external equipment comprises one or more of a stirrer, a health preserving kettle and a milk foam machine.

Further, the coffee machine comprises a coffee machine body, a grinding structure for grinding coffee beans to coffee powder, an extraction structure for extracting coffee capsules or the coffee powder ground by the grinding structure, and a water supply structure for supplying water to the extraction structure, wherein the grinding structure, the extraction structure and the water supply structure are arranged on the coffee machine body.

By adopting the structure, a user can grind coffee beans into coffee powder through the grinding structure, then the ground coffee powder is placed in the extraction structure, the extraction structure obtains hot water from the water supply structure to extract and brew the coffee powder to obtain coffee, and finally the coffee flows out from a liquid outlet in the extraction structure; or the user may directly place the purchased coffee capsule in the extraction structure to make coffee.

Further, the grinding structure and the extraction structure are externally arranged on the coffee machine main body, and are preferably detachably arranged.

By adopting the structure, the grinding structure and the extraction structure are convenient to maintain during later use.

Further, the grinding structure comprises a grinding device with a powder outlet arranged at the lower end and a powder filling container, wherein the powder filling container is detachably arranged below the grinding device.

With the structure, the coffee beans are ground into coffee powder in the grinding device and then fall into the powder filling container through the powder outlet; when the amount of coffee powder in the powder filling container is added to a proper amount, the powder filling container can be detached from the lower part of the grinding device and moved into the extraction structure for extraction operation.

Specifically, a container bracket for placing and supporting the powder filling container is arranged below the grinding structure of the coffee machine body; the user can conveniently place the powder filling container on the container support or take the powder filling container off the container support so as to realize the detachable setting of the powder filling container.

Further, the grinding device comprises a feed box with a feed channel, a grinding component which is matched with the feed box and is arranged, and a driving component for driving the grinding component to work; the grinding assembly comprises a static grinding wheel, a dynamic grinding wheel and a grinding shell,

the grinding shell is provided with a grinding cavity communicated with the feeding channel;

the static grinding wheel is arranged in the grinding cavity, and an abrasive passage which is vertically communicated and communicated with the feeding channel is arranged in the static grinding wheel;

the movable grinding wheel is arranged in the grinding material channel, and a grinding gap for grinding is formed between the outer wall of the movable grinding wheel and the inner wall of the grinding material channel;

the driving assembly is connected with the movable grinding wheel to drive rotation, and the driving assembly is connected with the energy supply module.

By adopting the structure, the user places the coffee beans in the feed box, the coffee beans in the feed box can fall into the grinding cavity in the grinding component through the feed channel, and the movable grinding wheel rotates under the driving of the driving component so as to grind the coffee beans, and ground coffee powder falls into the powder filling container through the powder outlet.

Specifically, the driving assembly is located in the feeding channel, the driving assembly is provided with a driving installation part penetrating through the side wall of the feeding channel and connected with the coffee machine body, and the driving assembly is connected with the energy supply module through the driving installation part; more specifically, the driving component is a driving motor, an output shaft of the driving motor is connected with the movable grinding wheel, and the movable grinding wheel is conical; the grinding assembly is detachably mounted on the bin for maintenance.

Further, the extraction structure comprises an extraction seat and an extraction cover matched with the extraction seat, an extraction cavity for accommodating a coffee capsule or a powder filling container is arranged on the extraction seat, and a liquid outlet is arranged at the lower end of the extraction cavity; the extraction cover can be close to and far away from the extraction seat; the extraction cover and the water supply structure.

By adopting the structure, when the coffee machine is used, a user operates the extraction cover to keep away from the extraction seat so as to expose the extraction cavity, a coffee capsule or a powder filling container filled with coffee powder is placed in the extraction cavity, the extraction cover is operated again so as to be close to the extraction seat so as to be matched with the extraction seat, and the extraction cover obtains hot water through the water supply structure so as to extract and brew the coffee capsule and the coffee powder, and the obtained coffee falls into the container below the extraction cover through the liquid outlet.

Specifically, a capsule puncture needle is arranged on one side of the extraction cover facing the extraction cavity, and the capsule puncture needle is connected with the water supply structure; the extraction cover is rotatably arranged on the extraction seat so as to realize the far-away approaching of the extraction cover and the extraction seat.

Further, the extraction subassembly is including being used for driving extraction lid pivoted handle, wherein, the handle rotates to be set up extraction is covered, the lower extreme of handle stretches into in the extraction lid, and the lower extreme extends to be formed with L type block portion, corresponding, the extraction lid rotation is provided with the locking lever, the one end of locking lever extends to the upper end of L type block portion, the other end extends to the inside wall of extraction seat and forms locking buckle, the extraction seat is in locking buckle corresponds position department and is provided with locking draw-in groove.

By adopting the structure, when the extraction cover is covered on the extraction seat, the locking buckle is clamped into the locking clamping groove, so that the extraction cover and the extraction seat are locked; when a user rotates the handle, the L-shaped clamping part drives the lock rod to rotate, and the locking buckle of the lock rod is separated from the locking clamping groove, so that the locking of the extraction cover and the extraction seat is released.

Further, the water supply structure comprises a water tank, a heating pipe and a water pump for providing power, wherein one end of the heating pipe is connected with the water tank, and the other end of the heating pipe is connected with the extraction structure; specifically, the water tank is detachably arranged on the coffee machine body, and the heating pipe and the water pump are arranged in the coffee machine body.

Further, the powder filling container comprises a powder filling container body and a powder filling cover, wherein the powder filling cover is inwards sunken to form an avoidance groove for avoiding the pricker on the extraction cover, and a plurality of through holes are formed in the avoidance groove.

Further, the coffee machine body is provided with a containing box for containing the powder filling container.

Compared with the prior art, the utility model has the following beneficial effects:

(1) According to the integrated drink device, different external devices can realize different functions to meet the requirements of different drinks.

(2) The integrated drink device is provided with the external interface module for supplying power to external equipment, so that the condition of shortage of household sockets can be relieved.

(3) The integrated drink device has reasonable structural design, is more integrated, can realize more functions on a limited operation table top, and is convenient to clean.

Drawings

FIG. 1 is a schematic diagram of an integrated beverage device of the present utility model;

FIG. 2 is a schematic view of the integrated beverage unit according to the present utility model at another angle;

FIG. 3 is a schematic diagram illustrating the installation of an external interface module in an integrated beverage appliance according to the present utility model;

FIG. 4 is a schematic view of an external interface module of the integrated beverage appliance according to the present utility model at another angle;

FIG. 5 is a schematic cross-sectional view of an abrasive structure in an integrated beverage device of the present utility model;

FIG. 6 is a schematic cross-sectional view of an integrated beverage appliance of the present utility model (embodying an extraction structure and a water supply structure);

FIG. 7 is a schematic view of the powder container of the integrated beverage device of the present utility model;

reference numerals: 1a coffee machine; 101 an energy supply module; 102 an external interface module; 1021 receiving surface; 1022 output interface; 1023a first rotation axis; 1023a wire vias; 1024 a second rotational shaft; 103 rotating the mounting part; 1031 mounting grooves; 1032 a first rotational mating aperture; 1033 a second rotational mating hole; 104 accommodating grooves; 105 coffee machine body; 106 grinding the structure; 1061 grinding means; 1061a bin; 1061a1 feed channel; 1061b an abrasive assembly; 1061b1 static grinding wheel; 1061b2 grinding wheel; 1061b3 grinding the shell; 1061b4 grinding chamber; 1061b5 an abrasive path; 1061b6 polishing gap; 1061c drive assembly; 1061c1 driving the mounting portion; 1061d powder outlet; 1062 filling a powder container; 1062a powder-filled container body; 1062b filling with powder; 1062c avoiding grooves; 1062d through holes; 107 extraction of the structure; 1071 extraction seat; 1071a extraction chamber; 1071b liquid outlet; 1071c lock the card slot; 1072 extraction cap; 1072a spike; 1073 handle; 1073 aL-type engagement portions; 1074 lock lever; 1074a locking catch; 108 a water supply structure; 1081 a water tank; 1082 heating the tube; 109 a housing case; 1010 vessel holders; 2 an external device; 201 input module.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

As shown in fig. 1-7, an integrated beverage appliance comprises a coffee machine 1, and an external device 2;

the coffee machine 1 comprises an energy supply module 101 and an external interface module 102, wherein the energy supply module 101 is used for being connected with an energy supply system to supply energy for the operation of the coffee machine 1; the external interface module 102 is arranged on the outer side wall of the machine body of the coffee machine 1 and is connected with the energy supply module 101 to supply energy to the external equipment 2;

the external device 2 is provided with an input module 201 matched with the external interface module 102.

Specifically, the energy supply system is a utility grid, and the energy supply module 101 includes a plug connected to the utility grid; the energy supply module 101 is arranged in the coffee machine 1, and one end of a power line of the energy supply module penetrates out of the coffee machine 1 and is provided with a plug.

With the above structure, a user can make coffee through the coffee machine 1 in the integrated beverage device, and can also make other beverages through the external device 2 in the integrated beverage device, for example, when the external device 2 comprises a blender, the user can use the blender to make juice or make slush to realize making beverages containing slush; when the external device 2 comprises a health preserving kettle, a user can use the health preserving kettle to brew health preserving tea drinks; when the external device 2 comprises a frothing machine, the user can make a frothing to achieve making coffee of different flavors, etc.;

the integrated drink device can meet the requirements of users on different drinks, exert the autonomy of the users and meet the pursuit of the users on high quality;

when in use, a user needs to connect the energy supply module 101 on the coffee machine 1 with an energy supply system such as a utility grid, the energy supply module 101 can provide energy for the operation of the coffee machine 1, and the user can make coffee through the coffee machine 1; if the user wants to use the external device 2, the user can use the external device 2 only by connecting the input module 201 of the external device 2 with the external interface module 102 on the coffee machine 1 to realize the energy supply of the external device 2; above-mentioned structure, integrated drink device only needs to occupy a socket hole, effectively alleviates domestic socket not enough condition, and because integrated drink device integrates for it can realize more functions in limited space.

Further, the external interface module 102 is rotatably disposed on the outer side wall of the machine body of the coffee machine 1, and in a state that the external interface module 102 is rotatably unfolded, a top surface of the external interface module is formed into a receiving surface 1021 for placing the external device 2, and an output interface 1022 is disposed on the receiving surface 1021; correspondingly, the input module 201 is disposed on the bottom surface of the external device 2 and is formed as an input interface matched with the output interface 1022.

With the above structure, the external interface module 102 is rotatably arranged on the outer side of the machine body of the coffee machine 1, so that the folding and storage of the external interface module 102 can be realized, and the coffee machine 1 can occupy a smaller table surface area of an operation table surface when a user does not use the external device 2; when the user needs to use the external device 2, the external interface module 102 needs to be rotated to be unfolded, and then the external device 2 is placed on the accommodation surface 1021 of the external interface module 102, and at this time, the input module 201 on the bottom surface of the external device 2 is in butt joint with the output interface 1022 on the accommodation surface 1021 to realize electrical connection, which is convenient to realize.

Further, the external interface module 102 is rotatably disposed at the bottom end of the outer sidewall of the body of the coffee maker 1, and the bottom surface of the external interface module 102 is flush with the bottom surface of the coffee maker 1 in a state that the external interface module is rotatably unfolded.

With the above structure, since the bottom surface of the coffee machine 1 is placed on the operation table, when the user rotates the external interface module 102 to be in the unfolded state, the bottom surface of the external interface module 102 is also in contact with the operation table, so as to prevent the external device 2 from damaging the external interface module 102 when placed on the accommodation surface 1021 of the external interface module 102, and the integrated beverage device has a more reasonable structural design.

Further, a rotation mounting portion 103 is formed by extending outwards from the outer wall of the machine body of the coffee machine 1, a mounting groove (1031) matched with the external interface module 102 is formed in the rotation mounting portion 103, and a first rotation matching hole 1032 and a second rotation matching hole 1033 are respectively formed in two opposite side walls of the mounting groove (1031);

correspondingly, the external interface module 102 is provided with a matched first rotation shaft 1023 protruding towards the side wall of the first rotation matching hole 1032, and a matched second rotation shaft 1024 protruding towards the side wall of the second rotation matching hole 1033; the first rotation shaft 1023 is provided with a via hole 1023a penetrating itself.

With the above structure, the external interface module 102 is disposed in the mounting groove (1031), and is in rotational fit with the first rotational fit hole 1032 and the second rotational fit hole 1033 on the mounting groove (1031) through the first rotational shaft 1023 and the second rotational shaft 1024 on the external interface module 102, respectively, so as to realize rotational connection of the external interface module 102; specifically, the first rotation engagement hole 1032 is coaxial with the second rotation engagement hole 1033, and the first rotation shaft 1023 and the second rotation shaft 1024 are coaxial;

the arrangement of the wire through hole 1023a facilitates the connection of the output interface 1022 of the external interface module 102 with the power supply module 101 of the coffee machine 1, and the rotation of the external interface module 102 does not affect the connection of the output interface 1022 with the power supply module 101.

Further, the output interface 1022 protrudes from the accommodation surface 1021, and the input interface is correspondingly in plug-in fit with the output interface 1022;

in a folded state of the external interface module 102, the outer side wall of the body of the coffee machine 1 is recessed inwards at the position corresponding to the output interface 1022 to form a containing groove 104 for containing the output interface 1022.

With the above structure, the output interface 1022 protrudes from the accommodating surface 1021, so that a user can conveniently and quickly and accurately dock the output interface 1022 with an input interface on the external device 2 when the external device 2 is placed on the accommodating surface 1021;

the accommodating groove 104 is provided, so that when the external interface module 102 is rotated to be in a folded state, the accommodating surface 1021 of the external interface module 102 can be better attached to the outer side wall of the machine body of the coffee machine 1.

Further, the external device 2 comprises one or more of a stirrer, a health preserving kettle and a milk foam machine.

Further, the coffee machine 1 comprises a coffee machine body 105, a grinding structure 106 for grinding coffee beans to coffee powder, an extraction structure 107 for extracting coffee capsules or coffee powder ground by the grinding structure 106, and a water supply structure 108 for supplying water to the extraction structure 107, wherein the grinding structure 106, the extraction structure 107 and the water supply structure 108 are arranged on the coffee machine body 105.

With the above structure, the user may grind the coffee beans into coffee powder through the grinding structure 106, then place the ground coffee powder in the extraction structure 107, the extraction structure 107 obtains hot water from the water supply structure 108 to extract and brew the coffee powder to obtain coffee, and finally the coffee flows out from the liquid outlet 1071b in the extraction structure 107; or the user may directly place the purchased coffee capsules in the extraction structure 107 to make coffee.

Further, the grinding structure 106 and the extracting structure 107 are externally mounted on the coffee machine body 105, preferably detachably mounted.

By adopting the structure, the grinding structure 106 and the extraction structure 107 are convenient to maintain in the later use.

Further, the grinding structure 106 includes a grinding device 1061 with a powder outlet 1061d at a lower end, and a powder filling container 1062, where the powder filling container 1062 is detachably disposed below the grinding device 1061.

With the above structure, the coffee beans are ground into coffee powder in the grinding device 1061 and then fall into the powder filling container 1062 through the powder outlet 1061 d; when the amount of coffee powder in the powder filling container 1062 is added, the powder filling container 1062 may be removed from under the grinding apparatus 1061 and moved into the extraction structure 107 for extraction.

Specifically, the coffee maker 1 body is provided with a container holder 1010 for holding and supporting the powder filling container 1062 below the grinding structure 106; the user can conveniently place the powder filling container 1062 on the container stand 1010 or remove the powder filling container 1062 from the container stand 1010 to realize the detachable arrangement of the powder filling container 1062.

Further, the grinding apparatus 1061 includes a feed box 1061a having a feed channel 1061a1, a grinding assembly 1061b mounted in mating engagement with the feed box 1061a, and a drive assembly 1061c for driving the grinding assembly 1061b into operation; the grinding assembly 1061b includes a static grinding wheel 1061b1, a dynamic grinding wheel 1061b2, and a grinding housing 1061b3,

the grinding housing 1061b3 has a grinding chamber 1061b4 in communication with the feed channel 1061a 1;

the static grinding wheel 1061b1 is installed in the grinding cavity 1061b4, and an abrasive channel 1061b5 which is vertically penetrated and communicated with the feeding channel 1061a1 is arranged in the static grinding wheel 1061 b;

the movable grinding wheel 1061b2 is disposed in the abrasive channel 1061b5, and a grinding gap 1061b6 is formed between the outer wall of the movable grinding wheel 1061b2 and the inner wall of the abrasive channel 1061b5 for grinding;

the driving component 1061c is connected to the grinding wheel 1061b2 to drive rotation, and the driving component 1061c is connected to the power supply module 101.

With the above structure, the user places the coffee beans in the bin 1061a, the coffee beans in the bin 1061a may fall into the grinding chamber 1061b4 of the grinding assembly 1061b through the feeding channel 1061a1, and the movable grinding wheel 1061b2 is driven by the driving assembly 1061c to rotate so as to grind the coffee beans, and the ground coffee powder falls into the powder filling container 1062 through the powder outlet 1061 d.

Specifically, the driving component 1061c is located in the feeding channel 1061a1, the driving component 1061c is provided with a driving mounting portion 1061c1 that passes through a sidewall of the feeding channel 1061a1 and is connected to the coffee machine 1 body, and the driving component 1061c is connected to the power supply module 101 through the driving mounting portion 1061c 1; more specifically, the driving component 1061c is a driving motor, an output shaft of the driving motor is connected to the moving grinding wheel 1061b2, and the moving grinding wheel 1061b2 is tapered; the abrasive assembly 1061b is removably mounted to the bin 1061a for maintenance.

Further, the extraction structure 107 includes an extraction seat 1071, and an extraction cover 1072 matched with the extraction seat 1071, an extraction cavity 1071a for accommodating a coffee capsule or a powder filling container 1062 is provided on the extraction seat 1071, and a liquid outlet 1071b is provided at the lower end of the extraction cavity 1071 a; the extraction cap 1072 may be moved closer to and farther from each other than the extraction seat 1071; the extraction cap 1072 and the water supply structure 108.

With the above structure, when in use, a user operates the extraction cover 1072 to separate from the extraction seat 1071 so as to expose the extraction cavity 1071a, places the coffee capsule or the powder filling container 1062 filled with coffee powder in the extraction cavity 1071a, and again operates the extraction cover 1072 to approach the extraction seat 1071 so as to cooperate with the extraction seat 1071, and the extraction cover 1072 obtains hot water through the water supply structure 108 so as to extract and brew the coffee capsule and the coffee powder, and the obtained coffee falls into the container below the liquid outlet 1071 b.

Specifically, a capsule spike 1072a is disposed on a side of the extraction cap 1072 facing the extraction cavity 1071a, and the capsule spike 1072a is connected with the water supply structure 108; the extraction cap 1072 is rotatably disposed on the extraction seat 1071 to achieve remote access therebetween.

Further, the extraction assembly comprises a handle 1073 for driving the extraction cover 1072 to rotate, wherein the handle 1073 is rotatably arranged on the extraction cover 1072, the lower end of the handle 1073 extends into the extraction cover 1072, an L-shaped clamping portion 1073A is formed at the lower end of the handle 1073 in an extending mode, a lock rod 1074 is correspondingly arranged in the extraction cover 1072 in a rotating mode, one end of the lock rod 1074 extends to the upper end of the L-shaped clamping portion 1073A, the other end of the lock rod 1074 extends to the inner side wall of the extraction seat 1071 and forms a locking buckle 1074a, and the extraction seat 1071 is provided with a locking clamping groove 1071c at the corresponding position of the locking buckle 1074 a.

With the above structure, when the extraction cover 1072 is covered on the extraction seat 1071, the locking buckle 1074a is locked into the locking slot 1071c, so as to lock the extraction cover 1072 and the extraction seat 1071; when the user rotates the handle 1073, the L-shaped engaging portion 1073A drives the lock rod 1074 to rotate, and the locking buckle 1074a of the lock rod 1074 is separated from the locking slot, so as to unlock the extraction cover 1072 and the extraction seat 1071.

Further, the water supply structure 108 includes a water tank 1081, a heating pipe 1082, and a water pump for supplying power, wherein one end of the heating pipe 1082 is connected to the water tank 1081, and the other end is connected to the extraction structure 107; specifically, the water tank 1081 is detachably mounted on the coffee machine 1 body, and the heating pipe 1082 and the water pump are disposed in the coffee machine 1 body.

Further, the powder filling container 1062 includes a powder filling container main body 1062a and a powder filling cover 1062b, the powder filling cover 1062b is recessed inwards to form a recess 1062c for avoiding the spike 1072a on the extraction cover 1072, and a plurality of through holes 1062d are formed in the recess 1062 c.

Further, the coffee maker 1 body is provided with a housing box 109 for housing the powder filling container 1062.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (10)

1. An integrated beverage device, characterized in that: comprises a coffee machine (1) and an external device (2);

the coffee machine (1) comprises an energy supply module (101) and an external interface module (102), wherein the energy supply module (101) is used for being connected with an energy supply system to supply energy for the operation of the coffee machine (1); the external interface module (102) is arranged on the outer side wall of the machine body of the coffee machine (1) and is connected with the energy supply module (101) to supply energy to the external equipment (2);

the external device (2) is provided with an input module (201) matched with the external interface module (102).

2. The integrated beverage appliance of claim 1, wherein: the external interface module (102) is rotatably arranged on the outer side wall of the machine body of the coffee machine (1), and in a state that the external interface module (102) is rotatably unfolded, the top surface of the external interface module is formed into a containing surface (1021) for containing the external equipment (2), and an output interface (1022) is arranged on the containing surface (1021); correspondingly, the input module (201) is arranged on the bottom surface of the external device (2) and is formed into an input interface matched with the output interface (1022).

3. The integrated beverage appliance of claim 2, wherein: the external interface module (102) is rotatably arranged at the bottom end of the outer side wall of the machine body of the coffee machine (1), and the bottom surface of the external interface module (102) is flush with the bottom surface of the coffee machine (1) when the external interface module is rotatably unfolded.

4. The integrated beverage appliance of claim 2, wherein: a rotary mounting part (103) is formed by extending outwards on the outer wall of the machine body of the coffee machine (1), a mounting groove (1031) matched with the external interface module (102) is formed in the rotary mounting part (103), and a first rotary matching hole (1032) and a second rotary matching hole (1033) are respectively formed in two opposite side walls of the mounting groove (1031);

correspondingly, a matched first rotating shaft (1023) is convexly arranged on the side wall of the external interface module (102) facing the first rotating matching hole (1032), and a matched second rotating shaft (1024) is convexly arranged on the side wall facing the second rotating matching hole (1033); the first rotation shaft (1023) is provided with a via hole (1023 a) penetrating through itself.

5. The integrated beverage appliance of claim 2, wherein: the output interface (1022) protrudes from the accommodating surface (1021), and the input interface is correspondingly in plug-in fit with the output interface (1022);

in a state that the external interface module (102) is rotated and folded, the outer side wall of the machine body of the coffee machine (1) is inwards recessed at a position corresponding to the output interface (1022) to form a containing groove (104) for containing the output interface (1022).

6. The integrated beverage appliance of claim 1, wherein: the external equipment (2) comprises one or more of a stirrer, a health preserving kettle and a milk foam machine.

7. The integrated beverage appliance of claim 1, wherein: the coffee machine (1) comprises a coffee machine body (105), a grinding structure (106) for grinding coffee beans to coffee powder, an extraction structure (107) for extracting coffee capsules or the coffee powder ground by the grinding structure (106), and a water supply structure (108) for supplying water to the extraction structure (107), wherein the grinding structure (106), the extraction structure (107) and the water supply structure (108) are arranged on the coffee machine body (105).

8. The integrated beverage appliance of claim 7 wherein: the grinding structure (106) comprises a grinding device (1061) with a powder outlet (1061 d) arranged at the lower end and a powder filling container (1062), wherein the powder filling container (1062) is detachably arranged below the grinding device (1061);

the grinding device (1061) comprises a feed box (1061 a) with a feed channel (1061 a 1), a grinding component (1061 b) matched with the feed box (1061 a), and a driving component (1061 c) for driving the grinding component (1061 b) to work; the grinding assembly (1061 b) includes a stationary grinding wheel (1061 b 1), a movable grinding wheel (1061 b 2), and a grinding housing (1061 b 3),

the grinding housing (1061 b 3) has a grinding chamber (1061 b 4) in communication with the feed channel (1061 a 1);

the static grinding wheel (1061 b 1) is arranged in the grinding cavity (1061 b 4) and is internally provided with an abrasive passage (1061 b 5) which is communicated with the feeding channel (1061 a 1) up and down;

the movable grinding wheel (1061 b 2) is arranged in the grinding material channel (1061 b 5), and a grinding gap (1061 b 6) for grinding is formed between the outer wall of the movable grinding wheel (1061 b 2) and the inner wall of the grinding material channel (1061 b 5);

the driving component (1061 c) is connected with the movable grinding wheel (1061 b 2) to drive rotation, and the driving component (1061 c) is connected with the energy supply module (101).

9. The integrated beverage appliance of claim 7 wherein: the extraction structure (107) comprises an extraction seat (1071) and an extraction cover (1072) matched with the extraction seat (1071), an extraction cavity (1071 a) for accommodating a coffee capsule or a powder filling container (1062) is arranged on the extraction seat (1071), and a liquid outlet (1071 b) is arranged at the lower end of the extraction cavity (1071 a); the extraction cover (1072) can be mutually close and far away relative to the extraction seat (1071); the extraction cap (1072) and the water supply structure (108).

10. The integrated beverage appliance of claim 7 wherein: the water supply structure (108) comprises a water tank (1081), a heating pipe (1082) and a water pump for providing power, wherein one end of the heating pipe (1082) is connected with the water tank (1081), and the other end of the heating pipe is connected with the extraction structure (107).