Disclosure of Invention
Technical problem to be solved
The invention aims to overcome the defects in the prior art and provides high-end automatic juicer equipment.
(II) technical scheme
In order to achieve the purpose, the invention provides the following technical scheme:
a high-end automatic juicer device comprises a lower supporting seat, wherein an upper supporting seat is mounted on the lower supporting seat through a supporting plate, a switching cavity is formed in the supporting plate, a switching frame is rotatably mounted in the switching cavity, and a driving motor for driving the switching frame to rotate is arranged on the lower supporting seat; a placing groove with an outward through hole and communicated up and down is arranged at the non-rotation center of the switching frame, and a through hole for communicating the outer side with the placing groove is arranged on the side surface of the supporting plate;
a cup feeding groove, a first feeding groove and a second feeding groove which are communicated with the placing groove and are communicated are arranged in the upper supporting seat along the vertical direction; an installation groove communicated with the placing groove is formed in the upper supporting seat above the adapter rack; a plurality of cups for receiving fruit juice are placed in the cup placing groove; a fruit cutting device and a fruit crushing device are arranged in the first feeding groove, a stirring device is arranged in the mounting groove, and an ice block crushing device is arranged in the second feeding groove;
and a cup output device is arranged below the through port on the lower supporting seat.
According to the technical scheme, when the juicer device works, a plurality of cups are placed in the cup entering groove along the vertical direction, when juicing is needed, the driving motor drives the switching frame to rotate, the switching frame drives the cups in the placing groove below the cup entering groove to rotate to the position below the first feeding groove, an operator puts fruits into the cups from the first feeding groove through the fruit cutting device and the fruit crushing device, then the driving motor drives the switching frame to rotate again to enable the cups containing the crushed fruits to rotate to the position below the mounting groove, and meanwhile, the switching frame also rotates a second cup in the placing groove below the cup entering groove to the position below the first feeding groove; the stirring device in the mounting groove works to fully stir the crushed fruits in the cup, and meanwhile, a second cup can be fed through the first feeding groove; after the stirring is finished, the driving motor drives the switching frame to rotate again, the stirred cup filled with fruits is switched to the position below the second feeding groove, ice blocks or water can be selectively added according to actual needs, large ice blocks can be crushed by the ice block crushing device when the ice blocks are added, the taste of fruit juice is improved, after the operation is finished, the cup output device outputs the cup filled with the fruit juice, meanwhile, the switching frame drives the second cup to enter the position below the mounting groove for stirring, and drives the third cup to enter the position below the first feeding groove for feeding; therefore, multi-step operation can be simultaneously realized after the switching frame rotates, and the working efficiency is greatly improved.
In a further technical scheme, fruit cutting device is including being used for installing support in the first feed chute, install the cutting motor along vertical direction on the installing support, install the cutting piece on the output shaft of cutting motor.
In a further technical scheme, the fruit crushing device comprises a rotary table, a connecting rod and a push rod, a rotary shaft cavity communicated with the rotary shaft cavity is arranged in the upper supporting seat along the vertical direction at the position of the rotary center of the switching frame, and a rotary cavity communicated with the rotary shaft cavity is arranged at the upper end of the rotary shaft cavity in the upper supporting seat; the switching frame is provided with a first rotating shaft extending into the rotating shaft cavity, and the rotating disc is installed at the upper end of the first rotating shaft and is positioned in the rotating cavity; a first sliding groove used for communicating the rotary cavity with the first feeding cavity is arranged in the upper supporting seat along the horizontal direction, and the push rod is connected in the first sliding groove in a sliding manner; the fruit cutting device is characterized in that a shaft pin is arranged at the eccentric position of the rotary table in the vertical direction, one end of the connecting rod is hinged to the shaft pin, the other end of the connecting rod is close to one end of the rotary cavity, a crushing plate is arranged at one end of the push rod in the first feeding groove and located above the fruit cutting device, and crushing teeth are arranged on the crushing plate.
Through above-mentioned technical scheme, this fruit crushing device during operation, switching frame drive first pivot and rotate, and first pivot drives the carousel that is located the gyration intracavity and rotates, and the carousel drives the push rod through the connecting rod when the pivoted and is in reciprocating motion about in the first spout, and then drives the fruit crushing that crushing board side-to-side movement will be located first feed chute.
In a further technical scheme, agitating unit includes and sets up downwards along vertical direction the first cylinder of mounting groove tank bottom, the agitator is installed along vertical direction to the free end of first cylinder, the agitator includes rotating electrical machines and churn, rotating electrical machines installs along vertical direction the free end of first cylinder, the churn is installed on rotating electrical machines's the output shaft.
Through above-mentioned technical scheme, agitating unit during operation, first cylinder drive rotating electrical machines downstream and then drive the churn downstream and stretch into in the cup, rotating electrical machines drives the churn and rotates after that and realize the stirring.
In a further technical scheme, the ice block crushing device comprises a first bevel gear, a second bevel gear, a worm wheel and a crushing frame, wherein a bevel gear cavity communicated with the rotating shaft cavity is arranged below the rotating cavity in the upper supporting seat, the first bevel gear is arranged on the first rotating shaft and is positioned in the bevel gear cavity, the worm is rotatably connected in the upper supporting seat, one end of the worm extends into the bevel gear cavity, the other end of the worm extends into the second feeding groove, and the second bevel gear is arranged at one end of the worm, which extends into the bevel gear cavity, and is meshed with the first bevel gear; a second rotating shaft is rotatably connected above the worm in the second feeding groove along the direction vertical to the worm, and the worm wheel is installed on the second rotating shaft and meshed with the worm; the crushing frame is connected in the second feeding groove in a sliding mode along the vertical direction, and an avoiding groove for avoiding the worm and the second rotating shaft is formed in the crushing frame along the vertical direction; impellers for driving the crushing frame to move up and down are arranged on the side surface of the second rotating shaft and close to the two ends of the second rotating shaft, and sliding blades meshed with the impellers are arranged on the crushing frame; and the bottom of the crushing frame is provided with a stirrer.
When the ice block crushing device works according to the technical scheme, the switching frame drives the first rotating shaft to rotate, the first rotating shaft drives the first bevel gear to rotate, the first bevel gear drives the second bevel gear to rotate so as to drive the worm to rotate, the worm drives the second rotating shaft to rotate through the worm wheel when rotating, and the second rotating shaft drives the crushing frame to reciprocate up and down through the meshing of the impeller and the sliding piece, so that large ice blocks are crushed under the action of the impeller and the sliding piece and enter the cup; meanwhile, the stirrer positioned at the lower end of the crushing frame is used for further stirring the cup added with the ice blocks to improve the taste of the juice.
In a further technical scheme, the cup output device comprises a second cylinder and a sliding plate, a second sliding chute which inclines downwards is arranged at the through joint on the lower supporting seat, the sliding plate is hinged to the upper end of the second sliding chute and used for placing a cup, and the second cylinder is arranged in the lower supporting seat and located below the sliding plate and used for controlling the sliding plate to be placed horizontally or obliquely.
Through above-mentioned technical scheme, when the cup that contains fruit juice was exported to needs, thereby the second cylinder contracts the slide downward sloping and makes the cup that contains fruit juice export.
In a further technical scheme, a baffle plate used for controlling the opening and closing of the through interface is hinged to the through interface on the upper supporting seat.
In a further technical scheme, the upper end of the second feeding groove is provided with a buffer spring connected with the crushing frame.
(III) advantageous effects
Compared with the prior art, the technical scheme of the invention has the following advantages: when the juicer equipment works, a plurality of cups are placed in the cup entering groove along the vertical direction, when juicing is needed, the driving motor drives the switching frame to rotate, the switching frame drives the cups in the placing groove below the cup entering groove to rotate to the position below the first feeding groove, an operator puts fruits into the cups from the first feeding groove through the fruit cutting device and the fruit crushing device, then the driving motor drives the switching frame to rotate again to transfer the cups containing the crushed fruits to the position below the mounting groove, and meanwhile, the switching frame also transfers a second cup in the placing groove below the cup entering groove to the position below the first feeding groove; the stirring device in the mounting groove works to fully stir the crushed fruits in the cup, and meanwhile, a second cup can be fed through the first feeding groove; after the stirring is finished, the driving motor drives the switching frame to rotate again, the stirred cup filled with fruits is switched to the position below the second feeding groove, ice blocks or water can be selectively added according to actual needs, the ice blocks can be crushed by the ice block crushing device when the ice blocks are added, the mouth of the fruit juice is increased, after the operation is finished, the cup output device outputs the cup filled with the fruit juice, meanwhile, the switching frame drives the second cup to enter the position below the mounting groove for stirring, and the third cup is driven to enter the position below the first feeding groove for feeding; therefore, multi-step operation can be simultaneously realized after the switching frame rotates, and the working efficiency is greatly improved.
Detailed Description
Referring to fig. 1 to 6, a high-end automatic juicer device includes a lower supporting base 1, an upper supporting base 3 is mounted on the lower supporting base 1 through a supporting plate 2, a switching cavity 201 is arranged in the supporting plate 2, a switching frame 4 is rotatably mounted in the switching cavity 201, and a driving motor 5 for driving the switching frame 4 to rotate is arranged on the lower supporting base 1; a placing groove 401 with an outward through hole and communicated up and down is arranged on the switching frame 4 at the non-rotation center, and a through hole 202 for communicating the outer side with the placing groove 401 is arranged on the side surface of the supporting plate 2; a baffle 6 for controlling the opening and closing of the through interface 202 is hinged on the upper supporting seat 3 at the through interface 202.
A cup feeding groove 301, a first feeding groove 302 and a second feeding groove 303 which are communicated with the placing groove 401 and are communicated are arranged in the upper supporting seat 3 along the vertical direction; an installation groove 304 communicated with the placing groove 401 is arranged above the adapter rack 4 in the upper supporting seat 3; wherein the cup feeding groove 301, the first feeding groove 302, the mounting groove 304 and the second feeding groove 303 are uniformly arranged in the upper supporting seat 3 at intervals along the counterclockwise direction; a plurality of cups 7 for receiving fruit juice are placed in the cup entering groove 301; a fruit cutting device and a fruit crushing device are arranged in the first feeding groove 302, a stirring device is arranged in the mounting groove 304, and an ice block crushing device is arranged in the second feeding groove 303; a cup output device is arranged below the through port 202 on the lower bearing seat 1.
Fruit cutting device is including being used for installing support 8 in the first feed chute 302, install cutting motor 9 along vertical direction on the installing support 8, install cutting piece 10 on cutting motor 9's the output shaft.
The fruit crushing device comprises a rotary table 11, a connecting rod 12 and a push rod 13, a rotary shaft cavity 305 communicated with the switching cavity 201 is arranged in the upper bearing seat 3 at the rotating center of the switching frame 4 along the vertical direction, and a rotary cavity 306 communicated with the rotary shaft cavity 305 is arranged at the upper end of the rotary shaft cavity 305 in the upper bearing seat 3; a first rotating shaft 14 extending into the rotating shaft cavity 305 is arranged on the adapter 4, and the rotating disc 11 is mounted at the upper end of the first rotating shaft 14 and is positioned in the rotating cavity 306; a first chute 307 for communicating the rotary cavity 306 with the first feeding cavity 302 is arranged in the upper bearing seat 3 along the horizontal direction, and the push rod 13 is connected in the first chute 307 in a sliding manner; the rotary table 11 is provided with a shaft pin 15 at an eccentric position thereof along a vertical direction, one end of the connecting rod 12 is hinged to the shaft pin 15, the other end of the connecting rod is connected with one end of the push rod 13 close to the rotary cavity 306, the push rod 13 is provided with a crushing plate 16 at one end in the first feeding groove 302, the crushing plate 16 is positioned above the fruit cutting device, and the crushing plate 16 is provided with crushing teeth 17.
The stirring device comprises a first air cylinder 18 which is downwards arranged at the bottom of the mounting groove 304 along the vertical direction, a stirrer 19 is installed at the free end of the first air cylinder 18 along the vertical direction, the stirrer comprises a rotating motor 1901 and a stirring cylinder 1902, the rotating motor 1901 is installed at the free end of the first air cylinder 18 along the vertical direction, and the stirring cylinder 1902 is installed on an output shaft of the rotating motor 1901.
The ice block crushing device comprises a first bevel gear 20, a second bevel gear 21, a worm 22, a worm wheel 23 and a crushing frame 24, wherein a bevel gear cavity 308 communicated with the rotating shaft cavity 305 is arranged below the rotating cavity 306 in the upper bearing seat 3, the first bevel gear 20 is installed on the first rotating shaft 14 and is positioned in the bevel gear cavity 308, the worm 22 is rotatably connected in the upper bearing seat 3, one end of the worm extends into the bevel gear cavity 308, the other end of the worm extends into the second feeding groove 303, and the second bevel gear 21 is installed at one end of the worm 22 extending into the bevel gear cavity 308 and is meshed with the first bevel gear 20; a second rotating shaft 25 is rotatably connected above the worm 22 in the second feeding chute 303 along a direction perpendicular to the worm 22, and the worm wheel 23 is mounted on the second rotating shaft 25 and meshed with the worm 22; the crushing frame 24 is connected in the second feeding groove 303 in a sliding manner along the vertical direction, and an avoiding groove 2401 for avoiding the worm 22 and the second rotating shaft 25 is arranged on the crushing frame 24 along the vertical direction; impellers 26 for driving the crushing frame 24 to move up and down are arranged on the side surface of the second rotating shaft 25 and close to the two ends of the second rotating shaft, and a sliding sheet 27 meshed with the impellers 26 is arranged on the crushing frame 24; the bottom of the crushing frame 24 is provided with a stirrer 19. The upper end of the second feeding chute 303 is provided with a buffer spring 30 connected with the crushing frame 24.
The cup output device comprises a second cylinder 28 and a sliding plate 29, a second chute 101 which inclines downwards is arranged on the lower bearing seat 1 at the through port 202, the sliding plate 29 is hinged to the upper end of the second chute 101 and used for placing a cup 7, and the second cylinder 28 is arranged in the lower bearing seat 1 and located below the sliding plate 29 and used for controlling the sliding plate 29 to be placed horizontally or obliquely.
This juice extractor equipment is at the during operation, place a plurality of cups 7 along vertical direction go into in cup groove 301, driving motor 5 drives switching frame 4 and rotates when needs are extracted juice, switching frame 4 drives and is located the below of going into the cup groove 301 below in standing groove 401 to first feed chute 302, operating personnel puts into fruit from first feed chute 302, cutting motor 9 drive cutting piece 10 fast revolution cuts up fruit, switching frame 4 drives first pivot 14 and rotates simultaneously, first pivot 14 drives the carousel 11 that is located gyration chamber 306 and rotates, carousel 11 drives push rod 13 through connecting rod 12 when the rotation is in reciprocating motion about in first spout 307, and then drives crushing board 16 side-to-side movement and will be located the fruit crushing entering cup 7 of cutting piece 10 top. Then the driving motor 5 drives the switching frame 4 to rotate again to transfer the cup 7 containing the broken fruit to the lower part of the mounting groove 304, and meanwhile, the switching frame 4 also transfers a second cup in the placing groove 401 below the cup entering groove 301 to the lower part of the first feeding groove 302; first cylinder 18 drive rotating electrical machines 1901 downstream in mounting groove 304 and then drive churn 1902 downstream and stretch into in the cup 7, rotating electrical machines 1901 drives churn 1902 and rotates and carry out abundant stirring to broken fruit in the cup 7 after that, also can feed in raw material to the second cup through first feed chute 302 simultaneously. After the stirring, the driving motor 5 drives the adapter rack 4 to rotate again, the stirred cup 7 containing fruits is rotated to the lower part of the second feeding groove 303, ice blocks or water can be selectively added according to actual requirements, when ice cubes are added, the adapter rack 4 drives the first rotating shaft 14 to rotate, the first rotating shaft 14 drives the first bevel gear 20 to rotate, the first bevel gear 20 drives the second bevel gear 21 to rotate so as to drive the worm 22 to rotate, when the worm 22 rotates, the worm wheel 23 drives the second rotating shaft 25 to rotate, the second rotating shaft 25 drives the crushing rack 24 to reciprocate up and down through the meshing of the impeller 26 and the sliding sheet 27, so that the large ice is broken up by the impeller 26 and the sliding vane 27, enters the cup, meanwhile, the stirrer 19 positioned at the lower end of the crushing frame 24 is used for further stirring the cup added with the ice blocks to increase the taste of the fruit juice, and after the operation is finished, the second air cylinder 28 contracts the sliding plate 29 to be downwards inclined so as to enable the cup 7 filled with the fruit juice to be output; meanwhile, the switching frame drives a second cup to enter the lower part of the mounting groove 304 for stirring, and drives a third cup to enter the lower part of the first feeding groove 302 for feeding; therefore, multi-step operation can be realized simultaneously after the switching frame 4 rotates, and the working efficiency is greatly improved.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.