CN108175284B - Automatic extractor of coffee machine - Google Patents

Abstract

The invention discloses an automatic extractor of a coffee machine, which comprises a shell, a feeding component, an extraction component, a driving component and a connecting component, wherein the feeding component is connected with the extracting component; the extraction assembly comprises an extraction cylinder, an upper compression part and a lower compression part which are arranged in the shell, an extraction cavity is arranged on the extraction cylinder, the upper compression part and the lower compression part are respectively provided with a vertical moving stroke, the extraction cavity is respectively positioned on the moving paths of the upper compression part and the lower compression part, and water guide pipes are respectively arranged on the upper compression part and the lower compression part; the feeding assembly comprises a feeding hopper, wherein the feeding hopper has a rotating stroke; the connecting component comprises a connecting piece which is connected in the shell in a sliding way, the feeding component and the upper compression piece are respectively arranged in the connecting piece, the feeding component and the upper compression piece are respectively provided with a moving stroke, the upper part of the extraction cavity is positioned on the moving path of the feeding component and the upper compression piece, the shell is provided with a feeding port, and the feeding port is positioned above the moving path of the feeding hopper. Can simply and conveniently prepare the freshly ground coffee. The invention is applied to a coffee making apparatus.

Description

Automatic extractor of coffee machine

Technical Field

The invention relates to a coffee machine, in particular to an automatic extractor of the coffee machine.

Background

The prior art is used for making the coffee machine of the prior art is semi-automatic, the making process of the prior art is complex, a person who can skillfully operate the coffee machine to make the prior art high-grade coffee beverage is called a coffee technician, only a cafe, a bar and a meeting place are required to be used for making the prior art coffee, the prior art coffee is difficult to be made by a common household or office, and the prior art instant coffee can only be drunk after the prior art is required to be made, so that the prior art has the problem and the defect that the prior art instant coffee is difficult to be made.

Disclosure of Invention

In order to solve the problems, the invention aims to provide an automatic extractor of a coffee machine, which can simply and conveniently prepare freshly ground coffee.

The technical scheme adopted by the invention is as follows: an automatic extractor of a coffee machine,

comprises a shell, a charging component, an extraction component, a driving component and a connecting component;

the extraction assembly comprises an extraction cylinder, an upper compression part and a lower compression part which are arranged in a shell, wherein an extraction cavity vertically penetrating the extraction cylinder is arranged on the extraction cylinder, the upper compression part is positioned above the extraction cylinder, the upper compression part has a vertically moving stroke, the extraction cavity is positioned on a moving path of the upper compression part, the lower compression part is positioned below the extraction cylinder, the lower compression part has a vertically moving stroke, the extraction cavity is positioned on a moving path of the lower compression part, water guide pipes are respectively arranged on the upper compression part and the lower compression part, one end of each water guide pipe is communicated with the extraction cavity, and the other end of each water guide pipe extends out of the shell;

the charging assembly comprises a charging hopper, wherein the charging hopper has a rotating stroke;

the connecting component comprises a connecting piece which is transversely and slidably connected in the shell, the feeding component and the upper compression piece are respectively arranged in the connecting piece, the feeding component and the upper compression piece are respectively provided with a transversely moving stroke, the upper part of the extraction cavity is arranged on a path of movement of the feeding component and the upper compression piece, the shell is provided with a feeding port, and the feeding port is positioned above a path of movement of the feeding hopper;

the driving assembly comprises a first motor, a second motor, a third motor and a steering engine, wherein the first motor is connected with the transmission of the connecting piece, the second motor is connected with the transmission of the lower compression piece, the third motor is connected with the transmission of the upper compression piece, and the steering engine is connected with the transmission of the charging hopper.

As a further improvement of the technical scheme, the connecting component further comprises a driving support, the first motor is arranged on the driving support, a transmission gear set is arranged on the driving support and is in transmission connection with the first motor, the transmission gear set comprises first driving gears arranged on two sides of the top of the driving support, racks corresponding to the first driving gears are arranged on the inner wall of the connecting component, and the first driving gears are meshed with the corresponding racks.

As a further improvement of the technical scheme, the outer wall of the connecting piece is provided with a first clamping part corresponding to the rack, the inner wall of the shell is provided with a transverse sliding groove, the first clamping part is slidably connected in the sliding groove, and two ends of the sliding groove are respectively provided with a second clamping part.

As a further improvement of the technical scheme, the upper compression piece and the lower compression piece are respectively threaded columns, the upper compression piece and the lower compression piece are respectively sleeved with a transmission gear, the upper compression piece and the lower compression piece are respectively connected with the corresponding transmission gear in a threaded manner, the transmission gear corresponding to the upper compression piece is connected with a third motor in a transmission manner, and the transmission gear corresponding to the lower compression piece is connected with a second motor in a transmission manner.

As a further improvement of the technical scheme, the transmission gear set further comprises a second driving gear, the second motor is arranged on the driving support, and the second motor, the second driving gear and the transmission gear corresponding to the lower compression piece are sequentially connected in a transmission mode.

As a further improvement of the technical scheme, the connecting assembly further comprises a connecting support, the third motor and the transmission gear corresponding to the upper compression piece are arranged on the connecting support, a turbine worm structure is arranged on the connecting support, and the third motor is in transmission connection with the transmission gear corresponding to the upper compression piece through the turbine worm structure.

As the further improvement of above-mentioned technical scheme, reinforced subassembly still includes support frame, weighing sensor, steering wheel, weighing sensor establish respectively on the support frame, the steering wheel links to each other with the loading hopper transmission, weighing sensor links to each other with the steering wheel electrical property.

As a further improvement of the technical scheme, a first micro-control speed reducing switch and a second micro-control speed reducing switch are arranged on the supporting frame, the first micro-control speed reducing switch and the second micro-control speed reducing switch are respectively and electrically connected with the first motor, a protective cover is sleeved on the driving support, a first protruding part corresponding to the advancing direction of the supporting frame is arranged on one side of the protective cover, a second protruding part corresponding to the retreating direction of the supporting frame is arranged on the other side of the protective cover, the first protruding part is located on the moving path of the first micro-control speed reducing switch, and the second protruding part is located on the moving path of the second micro-control speed reducing switch.

As a further improvement of the technical scheme, the driving assembly further comprises a third micro-control speed reducing switch and a fourth micro-control speed reducing switch, the third micro-control speed reducing switch and the fourth micro-control speed reducing switch are respectively and electrically connected with the second motor, a third protruding portion corresponding to the third micro-control speed reducing switch is arranged on the lower compression member, a fourth protruding portion corresponding to the fourth micro-control speed reducing switch is arranged on the lower compression member, the third micro-control speed reducing switch is located on the ascending moving path of the third protruding portion, and the fourth micro-control speed reducing switch is located on the descending moving path of the fourth protruding portion.

As a further improvement of the technical scheme, the driving assembly further comprises a fifth micro-control speed reducing switch and a sixth micro-control speed reducing switch, the fifth micro-control speed reducing switch and the sixth micro-control speed reducing switch are respectively and electrically connected with the third motor, a fifth protruding portion corresponding to the fifth micro-control speed reducing switch is arranged on the upper compression member, a sixth protruding portion corresponding to the sixth micro-control speed reducing switch is arranged on the upper compression member, the fifth micro-control speed reducing switch is located on the ascending moving path of the fifth protruding portion, and the sixth micro-control speed reducing switch is located on the descending moving path of the sixth protruding portion.

The invention has the beneficial effects that: according to the invention, the extraction cavity is arranged in the extraction cylinder, purified water is led into the extraction cavity through the water guide pipe in the lower compression part, the upper compression part and the lower compression part are utilized to respectively move to squeeze coffee powder in the extraction cavity to perform extraction, and then the extracted coffee liquid is discharged through the water guide pipe in the upper compression part, and meanwhile, the feeding hopper and the upper compression part are arranged on the connecting part, so that the feeding hopper and the upper compression part can transversely move, the feeding work and the extraction work can be sequentially performed, and residues after the extraction is finished can be discharged through the movement of the upper compression part, so that freshly ground coffee can be simply and conveniently manufactured.

Drawings

The invention will be further described with reference to the drawings and embodiments.

FIG. 1 is an internal construction diagram of the present invention in a standby state;

FIG. 2 is an internal structural view of the present invention in the charging or discharging of slag;

FIG. 3 is a schematic diagram of the structure of the feed assembly, extraction assembly, and drive assembly;

FIG. 4 is a schematic structural view of a connector;

FIG. 5 is a partial schematic structural view of the housing;

fig. 6 is a schematic structural view of the shield.

Detailed Description

An automatic extractor of a coffee machine as shown in figures 1-6,

comprises a shell 1, a charging component, an extraction component, a driving component and a connecting component;

the extraction assembly comprises an extraction cylinder 21, an upper compression part 22 and a lower compression part 23 which are arranged in the shell 1, wherein an extraction cavity vertically penetrating through the extraction cylinder 21 is arranged on the extraction cylinder 21, a heating device is sleeved on the extraction cylinder 21, the heating device plays a role in heating during extraction operation, the upper compression part 22 is positioned above the extraction cylinder 21, the upper compression part 22 has a vertically moving stroke, the extraction cavity is positioned on a path of the upper compression part 22, the lower compression part 23 is positioned below the extraction cylinder 21, the lower compression part 23 has a vertically moving stroke, the extraction cavity is positioned on a path of the lower compression part 23, water guide pipes are respectively arranged on the upper compression part 22 and the lower compression part 23, one end of each water guide pipe is communicated with the extraction cavity, and the other end of each water guide pipe extends out of the shell 1;

the charging assembly comprises a charging hopper 31, wherein the charging hopper 31 has a rotating stroke;

the connecting component comprises a connecting piece 41 which is transversely and slidingly connected in the shell 1, the feeding component and the upper compression piece 22 are respectively arranged in the connecting piece 41, the feeding component and the upper compression piece 22 are respectively provided with a transversely moving stroke, the upper side of the extraction cavity is positioned on the moving path of the feeding component and the upper compression piece 22, the shell 1 is provided with a feeding opening 11, and the feeding opening 11 is positioned above the moving path of the feeding hopper 31;

the driving assembly comprises a first motor 51, a second motor 52, a third motor 53 and a steering engine 54, wherein the first motor 51 is in transmission connection with the connecting piece 41, the second motor 52 is in transmission connection with the lower compression piece 23, the third motor 53 is in transmission connection with the upper compression piece 22, and the steering engine 54 is in transmission connection with the hopper 31.

In this embodiment, after pure water is introduced into the extraction chamber through the water guide pipe in the lower compression member 23, the upper compression member 22 and the lower compression member 23 are utilized to respectively move to squeeze coffee powder in the extraction chamber for extraction, and then the extracted coffee liquid is discharged through the water guide pipe in the upper compression member 22, and meanwhile, the extracted waste water is discharged from the water guide pipe in the lower compression member 23, and meanwhile, the charging hopper 31 and the upper compression member 22 are arranged on the connecting member 41, so that the charging hopper 31 and the upper compression member 22 can transversely move, the charging work and the extraction work can be sequentially carried out, and residues after the extraction is discharged through the movement of the upper compression member 22, so that freshly ground coffee can be simply and conveniently manufactured.

Further preferably, the connecting assembly further comprises a driving bracket 42, the first motor 51 is arranged on the driving bracket 42, a transmission gear set 43 is arranged on the driving bracket 42, the transmission gear set 43 is in transmission connection with the first motor 51, the transmission gear set 43 comprises first driving gears 431 arranged on two sides of the top of the driving bracket 42, racks 411 corresponding to the first driving gears 431 are arranged on the inner wall of the connecting piece 41, and the first driving gears 431 are meshed with the corresponding racks. The first motor 51 drives the first driving gear 431 of the driving gear set 43 to rotate, and thus the connecting member 41 is laterally moved by the relative movement of the first driving gear 431 and the rack 411.

Further preferably, the outer wall of the connecting member 41 is provided with a first clamping portion 412 corresponding to the rack 411, the inner wall of the housing 1 is provided with a transverse sliding groove 12, the first clamping portion 412 is slidably connected in the sliding groove 12, and two ends of the sliding groove 12 are respectively provided with a second clamping portion 121. The sliding of the connecting member 41 is restricted by the first and second latching portions 412 and 121, so that the connecting member 41 is prevented from being noisy or damaged due to impact on the housing during sliding.

Further preferably, the upper compressing member 22 and the lower compressing member 23 are respectively threaded columns, the upper compressing member 22 and the lower compressing member 23 are respectively sleeved with transmission gears, the upper compressing member 22 and the lower compressing member 23 are respectively connected with corresponding transmission gears in a threaded manner, the transmission gear 221 of the corresponding upper compressing member is connected with the third motor 53 in a transmission manner, and the transmission gear 231 of the corresponding lower compressing member is connected with the second motor 52 in a transmission manner. The transmission gear set 43 further comprises a second driving gear, the second motor 52 is arranged on the driving bracket 42, and the second motor 52, the second driving gear and the transmission gear 231 corresponding to the lower compression member are sequentially connected in a transmission manner. The connecting assembly further comprises a connecting bracket, the third motor 53 and the transmission gear 221 corresponding to the upper compression piece are arranged on the connecting bracket, the connecting bracket is provided with a worm gear structure 44, and the third motor 53 is in transmission connection with the transmission gear 221 corresponding to the upper compression piece through the worm gear structure 44. The second motor 52 drives the second driving gear in the driving gear set 43 to rotate, and then drives the driving gear 231 corresponding to the lower compression piece to rotate through the second driving gear, the driving gear 231 corresponding to the lower compression piece and the lower compression piece 23 relatively rotate, so that the lower compression piece 23 moves up and down, the third motor 53 drives the driving gear 221 corresponding to the upper compression piece to rotate through the worm gear structure 44, the driving gear 221 corresponding to the upper compression piece and the upper compression piece 22 relatively rotate, the upper compression piece 22 moves up and down, the lower compression piece 23 and the upper compression piece 22 have larger extrusion force when coffee powder is extruded, and meanwhile, the bearing capacity of the lower compression piece 23 and the upper compression piece 22 can be effectively improved through a structure of threaded connection between the lower compression piece 23 and the corresponding driving gear, and the service life of the extraction assembly is further improved.

Further preferably, the feeding assembly further comprises a supporting frame 32 and a weighing sensor, the steering engine 54 and the weighing sensor are respectively arranged on the supporting frame 32, the steering engine 54 is in transmission connection with the feeding hopper 31, the weighing sensor is electrically connected with the steering engine 54, when the weight of coffee powder in the feeding hopper 31 reaches a preset value of the weighing sensor, the bearing sensor controls the steering engine 54 to move, the steering engine 54 drives the feeding hopper 31 to rotate, so that the coffee powder in the feeding hopper is poured into the extraction cavity, and quantitative feeding is completed.

Further preferably, the support 32 is provided with a first micro-control speed reducing switch 321 and a second micro-control speed reducing switch 322, the first micro-control speed reducing switch 321 and the second micro-control speed reducing switch 322 are respectively and electrically connected with the first motor 51, the driving support 42 is sleeved with a protective cover 45, one side of the protective cover 45 is provided with a first protruding part 451 corresponding to the advancing direction of the support 32, the other side of the protective cover 45 is provided with a second protruding part 452 corresponding to the retreating direction of the support 32, the first protruding part 451 is located on the moving path of the first micro-control speed reducing switch 321, and the second protruding part 452 is located on the moving path of the second micro-control speed reducing switch 322. In the forward movement process of the support frame 32, when the first micro-control speed reducing switch 321 is in contact with the first protruding part 451, the first micro-control speed reducing switch 321 is triggered, so that the first motor 51 is further decelerated, the movement of the support frame 32 and the charging hopper 31 is further controlled to be decelerated, and collision damage is prevented; in the backward movement process of the support frame 32, when the second micro-control speed reducing switch 322 contacts with the second protruding portion 452, the second micro-control speed reducing switch 322 is triggered, so that the first motor 51 is further decelerated, and the movement of the support frame 32 and the hopper 31 is further controlled to be decelerated, so that collision damage is prevented.

Further preferably, the driving assembly further includes a third micro-control speed reducing switch 54 and a fourth micro-control speed reducing switch 55, the third micro-control speed reducing switch 54 and the fourth micro-control speed reducing switch 55 are respectively electrically connected with the second motor 52, a third protruding portion corresponding to the third micro-control speed reducing switch 54 is arranged on the lower compression member 23, a fourth protruding portion corresponding to the fourth micro-control speed reducing switch 55 is arranged on the lower compression member 23, the third micro-control speed reducing switch 54 is located on the ascending moving path of the third protruding portion, and the fourth micro-control speed reducing switch 55 is located on the descending moving path of the fourth protruding portion. In the upward movement process of the lower compression member 23, when the third micro-control speed reducing switch 54 contacts with the third protruding part, the third micro-control speed reducing switch 54 is triggered, so that the second motor 52 is further decelerated, the movement of the lower compression member 23 is further controlled to be decelerated, and collision damage is prevented; in the downward movement process of the lower compression member 23, when the fourth micro-control speed reducing switch 55 contacts with the fourth protruding portion, the fourth micro-control speed reducing switch 55 is triggered, so that the second motor 52 is further reduced in speed, and the movement of the lower compression member 23 is further controlled to be reduced in speed, so that collision damage is prevented.

Further preferably, the driving assembly further includes a fifth micro-control speed reducing switch 56 and a sixth micro-control speed reducing switch 57, the fifth micro-control speed reducing switch 56 and the sixth micro-control speed reducing switch 57 are respectively electrically connected with the third motor 53, a fifth protruding portion corresponding to the fifth micro-control speed reducing switch 56 is arranged on the upper compression member 22, a sixth protruding portion corresponding to the sixth micro-control speed reducing switch 57 is arranged on the upper compression member 22, the fifth micro-control speed reducing switch 56 is located on the ascending moving path of the fifth protruding portion, and the sixth micro-control speed reducing switch 57 is located on the descending moving path of the sixth protruding portion. In the upward movement process of the upper compression member 22, when the fifth micro-control speed reducing switch 56 contacts with the fifth protruding part, the third micro-control speed reducing switch 54 is triggered, so that the third motor 53 is further decelerated, the movement of the upper compression member 22 is further controlled to be decelerated, and collision damage is prevented; in the downward movement process of the upper compression member 22, when the sixth micro-control speed reducing switch 57 contacts with the sixth protruding portion, the sixth micro-control speed reducing switch 57 is triggered, so that the third motor 53 is further reduced in speed, and further the movement of the upper compression member 22 is controlled to be reduced in speed, so that collision damage is prevented.

Of course, the present invention is not limited to the above-described embodiments, and those skilled in the art can make equivalent modifications or substitutions without departing from the spirit of the present invention, and these equivalent modifications or substitutions are included in the scope of the present invention as defined in the claims.

Claims (7)

1. An automatic extractor of coffee machine, characterized in that:

comprises a shell, a charging component, an extraction component, a driving component and a connecting component;

the extraction assembly comprises an extraction cylinder, an upper compression part and a lower compression part which are arranged in a shell, wherein an extraction cavity vertically penetrating the extraction cylinder is arranged on the extraction cylinder, the upper compression part is positioned above the extraction cylinder, the upper compression part has a vertically moving stroke, the extraction cavity is positioned on a moving path of the upper compression part, the lower compression part is positioned below the extraction cylinder, the lower compression part has a vertically moving stroke, the extraction cavity is positioned on a moving path of the lower compression part, water guide pipes are respectively arranged on the upper compression part and the lower compression part, one end of each water guide pipe is communicated with the extraction cavity, and the other end of each water guide pipe extends out of the shell;

the charging assembly comprises a charging hopper, wherein the charging hopper has a rotating stroke;

the connecting component comprises a connecting piece which is transversely and slidably connected in the shell, the feeding component and the upper compression piece are respectively arranged in the connecting piece, the feeding component and the upper compression piece are respectively provided with a transversely moving stroke, the upper part of the extraction cavity is arranged on a path of movement of the feeding component and the upper compression piece, the shell is provided with a feeding port, and the feeding port is positioned above a path of movement of the feeding hopper;

the driving assembly comprises a first motor, a second motor, a third motor and a steering engine, wherein the first motor is in transmission connection with the connecting piece, the second motor is in transmission connection with the lower compression piece, the third motor is in transmission connection with the upper compression piece, and the steering engine is in transmission connection with the charging hopper;

the connecting assembly further comprises a driving support, the first motor is arranged on the driving support, a transmission gear set is arranged on the driving support and is in transmission connection with the first motor, the transmission gear set comprises first driving gears arranged on two sides of the top of the driving support, racks corresponding to the first driving gears are arranged on the inner wall of the connecting piece, and the first driving gears are meshed with the corresponding racks;

the outer wall of the connecting piece is provided with a first clamping part corresponding to the rack, the inner wall of the shell is provided with a transverse sliding groove, the first clamping part is slidably connected in the sliding groove, and two ends of the sliding groove are respectively provided with a second clamping part;

the upper compression piece and the lower compression piece are respectively threaded columns, transmission gears are respectively sleeved on the upper compression piece and the lower compression piece, the upper compression piece and the lower compression piece are respectively connected with the corresponding transmission gears in a threaded mode, the transmission gears corresponding to the upper compression piece are connected with a third motor in a transmission mode, and the transmission gears corresponding to the lower compression piece are connected with a second motor in a transmission mode.

2. The automatic extractor of claim 1, wherein: the transmission gear set further comprises a second driving gear, the second motor is arranged on the driving support, and the second motor, the second driving gear and the transmission gear corresponding to the lower compression piece are sequentially connected in a transmission mode.

3. The automatic extractor of claim 1, wherein: the connecting assembly further comprises a connecting support, the third motor and the transmission gear corresponding to the upper compression piece are arranged on the connecting support, a turbine worm structure is arranged on the connecting support, and the third motor is in transmission connection with the transmission gear corresponding to the upper compression piece through the turbine worm structure.

4. An automatic extractor for a coffee machine according to any one of claims 1 to 3, characterized in that: the feeding assembly further comprises a supporting frame and a weighing sensor, the steering engine and the weighing sensor are respectively arranged on the supporting frame, the steering engine is connected with the feeding hopper in a transmission mode, and the weighing sensor is electrically connected with the steering engine.

5. The automatic extractor of claim 4, wherein: be equipped with first micro-control speed reduction switch and the micro-control speed reduction switch of second on the support frame, first micro-control speed reduction switch, the micro-control speed reduction switch of second link to each other with first motor electricity respectively, the cover is equipped with the protection casing on the drive support, one side on the protection casing is equipped with the first protruding portion that corresponds support frame advancing direction, the opposite side on the protection casing is equipped with the second protruding portion that corresponds support frame retreating direction, first protruding portion is located first micro-control speed reduction switch's travel path, the second protruding portion is located second micro-control speed reduction switch's travel path.

6. An automatic extractor for a coffee machine according to any one of claims 1 to 3, characterized in that: the driving assembly further comprises a third micro-control speed reducing switch and a fourth micro-control speed reducing switch, the third micro-control speed reducing switch and the fourth micro-control speed reducing switch are respectively and electrically connected with the second motor, a third protruding portion corresponding to the third micro-control speed reducing switch is arranged on the lower compression member, a fourth protruding portion corresponding to the fourth micro-control speed reducing switch is arranged on the lower compression member, the third micro-control speed reducing switch is located on the ascending moving path of the third protruding portion, and the fourth micro-control speed reducing switch is located on the descending moving path of the fourth protruding portion.

7. An automatic extractor for a coffee machine according to any one of claims 1 to 3, characterized in that: the driving assembly further comprises a fifth micro-control speed reducing switch and a sixth micro-control speed reducing switch, the fifth micro-control speed reducing switch and the sixth micro-control speed reducing switch are respectively and electrically connected with the third motor, a fifth protruding portion corresponding to the fifth micro-control speed reducing switch is arranged on the upper compression part, a sixth protruding portion corresponding to the sixth micro-control speed reducing switch is arranged on the upper compression part, the fifth micro-control speed reducing switch is located on the ascending moving path of the fifth protruding portion, and the sixth micro-control speed reducing switch is located on the descending moving path of the sixth protruding portion.