CN111644372B - Fruit grading treatment equipment - Google Patents
Fruit grading treatment equipment Download PDFInfo
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- CN111644372B CN111644372B CN202010539126.1A CN202010539126A CN111644372B CN 111644372 B CN111644372 B CN 111644372B CN 202010539126 A CN202010539126 A CN 202010539126A CN 111644372 B CN111644372 B CN 111644372B
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- box
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07B—SEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
- B07B1/00—Sieving, screening, sifting, or sorting solid materials using networks, gratings, grids, or the like
- B07B1/28—Moving screens not otherwise provided for, e.g. swinging, reciprocating, rocking, tilting or wobbling screens
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- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23N—MACHINES OR APPARATUS FOR TREATING HARVESTED FRUIT, VEGETABLES OR FLOWER BULBS IN BULK, NOT OTHERWISE PROVIDED FOR; PEELING VEGETABLES OR FRUIT IN BULK; APPARATUS FOR PREPARING ANIMAL FEEDING- STUFFS
- A23N12/00—Machines for cleaning, blanching, drying or roasting fruits or vegetables, e.g. coffee, cocoa, nuts
- A23N12/02—Machines for cleaning, blanching, drying or roasting fruits or vegetables, e.g. coffee, cocoa, nuts for washing or blanching
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07B—SEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
- B07B1/00—Sieving, screening, sifting, or sorting solid materials using networks, gratings, grids, or the like
- B07B1/42—Drive mechanisms, regulating or controlling devices, or balancing devices, specially adapted for screens
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07B—SEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
- B07B1/00—Sieving, screening, sifting, or sorting solid materials using networks, gratings, grids, or the like
- B07B1/46—Constructional details of screens in general; Cleaning or heating of screens
Abstract
The invention relates to grading equipment, in particular to fruit grading treatment equipment which comprises a feeding box mechanism, a screening mechanism, a dust removal mechanism and a cleaning mechanism, wherein the equipment can intermittently feed materials, can screen, can improve screening efficiency and screening rate, can clean fruits, and is connected with the screening mechanism, the feeding box mechanism is connected with the dust removal mechanism, and the feeding box mechanism is connected with the cleaning mechanism.
Description
Technical Field
The invention relates to a grading device, in particular to a fruit grading treatment device.
Background
In the processing of fruit, need select the processing to fruit, can sell higher price usually to full big fruit, the processing of squeezing juice can be done to little fruit, and traditional hierarchical equipment screening efficiency is low, and the rate of sieving is low, so designed this kind of fruit hierarchical processing equipment.
Disclosure of Invention
The invention mainly solves the technical problem of providing fruit grading treatment equipment, wherein the equipment can intermittently feed materials, can sieve the materials, can improve the sieving efficiency and the sieving rate, and can clean fruits.
In order to solve the technical problem, the invention relates to a grading device, and particularly relates to a fruit grading treatment device which comprises a feeding box mechanism, a screening mechanism, a dust removal mechanism and a cleaning mechanism.
The feeding box mechanism is connected with the screening mechanism, the feeding box mechanism is connected with the dust removal mechanism, and the feeding box mechanism is connected with the cleaning mechanism.
As a further optimization of the technical scheme, the feeding box mechanism of the fruit grading treatment equipment comprises a base, a support leg, a boss, a limiting head, a feeding box body, an inlet port, a seat with a protrusion, a sliding door, a step rod, a spring, a matching hole, a door plate sliding rail, a box body support leg and an outlet, wherein the base is connected with the support leg, the boss and the limiting head are arranged on the support leg, the inlet port is arranged on the feeding box body, the seat with the protrusion is connected with the sliding door, the sliding door is connected with the step rod, the spring is sleeved on the step rod, the spring is abutted against the sliding door and the door plate sliding rail, the door plate sliding rail is connected with the sliding door, the matching hole is arranged on the door plate sliding rail, the step rod is connected with the matching hole in a sliding manner, the door plate sliding rail is connected with the feeding box body, the.
As a further optimization of the technical scheme, the screening mechanism of the fruit grading treatment equipment comprises a base, a bearing seat, a large material outlet, a small material outlet, a screen box, a screen plate, a hinged support, a hydraulic cylinder, a piston rod with a hinged joint, a hinged arm A, a stepped slide block, a pushing arm, a waist groove, a stepped groove, a movable seat with a stepped block, a servo motor, a stepped support leg, a unthreaded hole, a spring A, a semicircular bulge, a pulley seat, a stepped sliding groove I, a baffle plate, a coupler, a lead screw, a threaded hole and a blind plate, wherein the base is connected with the base, the base is connected with the bearing seat, the large material outlet is connected with the screen box, the screen plate is connected with the screen box, the screen box is connected with the hinged support, the hinged support is hinged with the hydraulic cylinder, the hydraulic cylinder is connected with the hinged piston rod with the hinged joint, and the hinged arm is, the articulated arm is articulated with the sieve box, the articulated arm is articulated with the articulated arm A, the articulated arm A is articulated with the stepped sliding block, the stepped sliding block is slidably connected with the stepped groove, the stepped groove is arranged on the sieve box, the push arm is provided with a waist groove, the push arm is connected with the stepped block moving seat, the stepped block moving seat is slidably connected with the stepped sliding groove I, the stepped sliding groove I is arranged on the base, the stepped supporting leg is connected with the sieve box, the stepped supporting leg is slidably connected with the unthreaded hole, the unthreaded hole is arranged on the base, the spring A is sleeved on the stepped supporting leg, the spring A is propped against the base and the stepped supporting leg, the semicircular bulge is arranged on the stepped block moving seat, the pulley is contacted with the stepped block moving seat, the pulley is connected with the pulley seat in a bearing way, the pulley seat is connected with the sieve box, the baffle plate is connected with the stepped sliding block, the baffle plate is slidably connected with the sieve box, the, the lead screw is in threaded connection with a threaded hole, the threaded hole is formed in the movable seat with the stepped block, the blind plate is connected with the screen box, and the waist groove is in sliding connection with the protruding seat.
As a further optimization of the technical scheme, the dust removal mechanism of the fruit grading treatment equipment comprises a wind wheel motor, a friction wheel, an air box, an air inlet, a sliding chute A, an air outlet, a filter plate, a passive friction wheel, a linkage friction wheel, a bearing seat A, a pushing hydraulic cylinder, a connecting shaft, a cam, a matching block A, a negative pressure wind wheel with a shaft, a connecting port, a limiting sliding rod, a reset spring, a unthreaded hole A, a connecting plate and a vertical waist groove, wherein the wind wheel motor is connected with the friction wheel, the friction wheel is connected with the negative pressure wind wheel with the shaft, the negative pressure wind wheel with the shaft is connected with the air box through a bearing, the air inlet is arranged on the air box, the sliding chute A is arranged on the air box, the air outlet is arranged on the air box, the filter plate is connected with the sliding chute A in a sliding manner, the passive friction wheel is connected with the connecting shaft, cooperation piece A links to each other with the filter, the base links to each other with wind wheel motor, the base links to each other with the promotion pneumatic cylinder, the promotion pneumatic cylinder links to each other with bearing frame A, bearing frame A is connected for the bearing with the connected mode of linkage friction pulley, the connector sets up in bellows, the filter links to each other with spacing slide bar, spacing slide bar and unthreaded hole A sliding connection, unthreaded hole A sets up on bellows, reset spring overlaps on spacing slide bar, reset spring supports at the filter, on the bellows, spacing slide bar links to each other with the connecting plate, erect the waist groove setting on bellows, cooperation piece A with erect waist groove sliding connection.
As a further optimization of the technical scheme, the cleaning mechanism of the fruit grading treatment equipment comprises a stirring motor, a bearing seat B, a turntable with a shaft, a supporting pulley, an arc-shaped bulge and a cleaning box, the trompil, case import A, take bellied axle stirring wheel, the dysmorphism hole, the dysmorphism axle, agitator motor links to each other with the tape spool carousel, the tape spool carousel is connected for the bearing with bearing frame B's connected mode, bearing frame B links to each other with the base, the tape spool carousel links to each other with supporting pulley, supporting pulley contacts with the washing case, the trompil sets up on wasing the case, trompil and landing leg sliding connection, it contacts with the boss to wash the case, take bellied axle stirring wheel and dysmorphism hole sliding connection, the dysmorphism hole sets up epaxially, the dysmorphism axle is connected for the bearing with the connected mode who washs the case, take bellied axle stirring wheel to link to each other with the tape spool.
As a further optimization of the technical scheme, the linkage friction wheel of the fruit grading treatment equipment provided by the invention can be contacted with the friction wheel and the driven friction wheel simultaneously when moving upwards.
The fruit grading treatment equipment has the beneficial effects that:
according to the fruit grading treatment equipment, intermittent blanking can be performed, the equipment can perform screening, the screening efficiency and the screening rate can be improved, and the equipment can clean fruits.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic structural diagram of a fruit grading treatment device of the invention.
Fig. 2 is a schematic structural diagram of a fruit grading treatment device of the present invention.
Fig. 3 is a schematic structural diagram three of a fruit grading treatment device of the present invention.
Fig. 4 is a first structural schematic diagram of a feeding box mechanism 1 of the fruit grading treatment equipment.
Fig. 5 is a schematic structural diagram of a feeding box mechanism 1 of the fruit grading treatment equipment.
Fig. 6 is a first structural schematic diagram of a screening mechanism 2 of a fruit grading treatment device of the invention.
Fig. 7 is a schematic structural diagram of a screening mechanism 2 of a fruit grading treatment device of the invention.
Fig. 8 is a third schematic structural view of the screening mechanism 2 of the fruit grading treatment equipment of the invention.
Fig. 9 is a fourth schematic structural diagram of the screening mechanism 2 of the fruit grading treatment equipment.
Fig. 10 is a first structural schematic diagram of a dust removing mechanism 3 of the fruit grading treatment equipment.
Fig. 11 is a schematic structural diagram of a dust removing mechanism 3 of the fruit grading treatment device of the invention.
Fig. 12 is a third schematic structural diagram of a dust removing mechanism 3 of the fruit grading treatment device of the invention.
Fig. 13 is a fourth schematic structural diagram of the dust removing mechanism 3 of the fruit grading treatment device of the invention.
Fig. 14 is a first structural schematic diagram of a cleaning mechanism 4 of the fruit grading treatment equipment.
Fig. 15 is a schematic structural diagram of a cleaning mechanism 4 of a fruit grading treatment device according to the second embodiment of the present invention.
Fig. 16 is a third schematic structural diagram of a cleaning mechanism 4 of the fruit grading treatment equipment.
In the figure: a feed box mechanism 1; a base 1-1; 1-2 of supporting legs; 1-3 of a boss; 1-4 of a limiting head; 1-5 parts of a feeding box body; inlet ports 1-6; 1-7 with a convex base; 1-8 of a sliding door; 1-9 of stair rods; 1-10 parts of spring; 1-11 of a matching hole; door panel slide rails 1-12; 1-13 of box body supporting legs; outlets 1-14; a screening mechanism 2; a base 2-1; 2-2 of a bearing seat; 2-3 of a large material outlet; 2-4 of small material outlet; 2-5 parts of a sieve box; 2-6 parts of a screen plate; hinged supports 2-7; 2-8 parts of a hydraulic cylinder; a piston rod 2-9 with a hinged joint; articulated arms 2-10; articulated arm A2-11; 2-12 parts of a stepped sliding block; 2-13 of a push arm; 2-14 parts of a waist groove; 2-15 parts of a stepped groove; a moving seat with a step block 2-16; 2-17 of servo motor; 2-18 of ladder legs; 2-19 of a light hole; spring A2-20; 2-21 parts of semicircular bulge; 2-22 of pulleys; 2-23 pulley blocks; a step chute I2-24; 2-25 parts of a material baffle plate; 2-26 of a coupler; 2-27 parts of a lead screw; 2-28 of a threaded hole; 2-29 parts of blind plates; a dust removal mechanism 3; 3-1 of a wind wheel motor; 3-2 of a friction wheel; 3-3 of an air box; 3-4 of an air inlet; a chute A3-5; 3-6 of air outlet; 3-7 parts of a filter plate; 3-8 parts of a driven friction wheel; 3-9 parts of a linkage friction wheel; bearing seat A3-10; pushing a hydraulic cylinder 3-11; connecting shafts 3-12; 3-13 parts of a cam; a matching block A3-14; 3-15 parts of negative pressure wind wheel with shaft; connecting ports 3 to 16; limiting slide bars 3-17; 3-18 of a return spring; light hole A3-19; 3-20 parts of a connecting plate; 3-21 parts of vertical waist groove; a cleaning mechanism 4; 4-1 of a stirring motor; bearing seat B4-2; 4-3 of a turntable with a shaft; 4-4 of a supporting pulley; 4-5 of arc-shaped bulges; 4-6 of a cleaning box; opening 4-7; tank inlet A4-8; 4-9 of a stirring wheel with a convex shaft; 4-10 of special-shaped holes; a profiled shaft 4-11.
Detailed Description
The first embodiment is as follows:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, the invention relates to a classification device, and more specifically, to a fruit classification processing device, which includes a feeding box mechanism 1, a sieving mechanism 2, a dust removing mechanism 3, and a cleaning mechanism 4, the device is capable of intermittently feeding, the device is capable of sieving, the device is capable of enhancing sieving efficiency and sieving rate, and the device is capable of cleaning fruits.
The feeding box mechanism 1 is connected with the screening mechanism 2, the feeding box mechanism 1 is connected with the dust removal mechanism 3, and the feeding box mechanism 1 is connected with the cleaning mechanism 4.
The second embodiment is as follows:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, where the feed box mechanism 1 includes a base 1-1, a leg 1-2, a boss 1-3, a stopper 1-4, a feed box body 1-5, an inlet 1-6, a boss-equipped seat 1-7, a sliding door 1-8, a step rod 1-9, a spring 1-10, a fitting hole 1-11, a door panel slide rail 1-12, a box body leg 1-13, and an outlet 1-14, the base 1-1 is connected to the leg 1-2, the boss 1-3 and the stopper 1-4 are provided on the leg 1-2, the feeding box body 1-5 is provided with an inlet 1-6, a seat with a bulge 1-7 is connected with a sliding door 1-8, the sliding door 1-8 is connected with a step rod 1-9, a spring 1-10 is sleeved on the step rod 1-9, the spring 1-10 is abutted against the sliding door 1-8 and a door plate sliding rail 1-12, the door plate sliding rail 1-12 is connected with the sliding door 1-8 in a sliding way, a matching hole 1-11 is arranged on the door plate sliding rail 1-12, the step rod 1-9 is connected with a matching hole 1-11 in a sliding way, the door plate sliding rail 1-12 is connected with the feeding box body 1-5, the feeding box body 1-5 is connected with a box body supporting leg 1-13, and the box body supporting leg 1-13 is connected with a base 1-1.
The third concrete implementation mode:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and the embodiment is further described, and the embodiment includes a sieving mechanism 2 including a base 2-1, a bearing seat 2-2, a large material outlet 2-3, a small material outlet 2-4, a sieve box 2-5, a sieve plate 2-6, a hinged support 2-7, a hydraulic cylinder 2-8, a piston rod with a hinged joint 2-9, a hinged arm 2-10, a hinged arm A2-11, a stepped slider 2-12, a push arm 2-13, a waist groove 2-14, a stepped groove 2-15, a moving seat with stepped blocks 2-16, a servo motor 2-17, a stepped support leg 2-18, 2-19 parts of unthreaded hole, 78-20 parts of spring A2, 2-21 parts of semicircular bulge, 2-22 parts of pulley seat, 2-23 parts of step sliding groove I2-24 parts of baffle plate, 2-25 parts of coupler, 2-26 parts of lead screw, 2-27 parts of threaded hole and 2-28 parts of blind plate, wherein base 2-1 is connected with base 1-1, base 2-1 is connected with bearing seat 2-2, large material outlet 2-3 is connected with sieve box 2-5, small material outlet 2-4 is connected with sieve box 2-5, sieve plate 2-6 is connected with sieve box 2-5, sieve box 2-5 is connected with hinged support 2-7, hinged support 2-7 is hinged with hydraulic cylinder 2-8, hydraulic cylinder 2-8 is connected with hinged piston rod 2-9 with head, a piston rod 2-9 with a hinged joint is hinged with a hinged arm 2-10, the hinged arm 2-10 is hinged with a screen box 2-5, the hinged arm 2-10 is hinged with a hinged arm A2-11, the hinged arm A2-11 is hinged with a step slide block 2-12, the step slide block 2-12 is connected with a step groove 2-15 in a sliding way, the step groove 2-15 is arranged on the screen box 2-5, a waist groove 2-14 is arranged on a push arm 2-13, the push arm 2-13 is connected with a step block moving seat 2-16, the step block moving seat 2-16 is connected with a step sliding groove I2-24 in a sliding way, the step sliding groove I2-24 is arranged on a base 2-1, a step supporting leg 2-18 is connected with the screen box 2-5, the step supporting leg 2-18 is connected with a unthreaded hole 2-19 in a sliding way, the unthreaded hole 2-19 is arranged on the base 2-1, the spring A2-20 is sleeved on the ladder supporting leg 2-18, the spring A2-20 is abutted on the base 2-1 and the ladder supporting leg 2-18, the semicircular bulge 2-21 is arranged on the moving seat 2-16 with the ladder block, the pulley 2-22 is contacted with the moving seat 2-16 with the ladder block, the pulley 2-22 is connected with the pulley seat 2-23 in a bearing way, the pulley seat 2-23 is connected with the screen box 2-5, the baffle plate 2-25 is connected with the ladder sliding block 2-12, the baffle plate 2-25 is connected with the screen box 2-5 in a sliding way, the servo motor 2-17 is connected with the base 2-1, the servo motor 2-17 is connected with the screw rod 2-27 through the coupler 2-26, the screw rod 2-27 is in threaded connection with the threaded hole 2-28, the threaded holes 2-28 are arranged on the stepped block moving seat 2-16, the blind plates 2-29 are connected with the screen box 2-5, the waist grooves 2-14 are connected with the convex seats 1-7 in a sliding way, fruits to be screened are placed in the inlet holes 1-6, the equipment can be used for storing the fruits when not in operation, the servo motors 2-17 are operated to drive the couplers 2-26 to rotate in a forward and reverse reciprocating and alternating way, when the couplers 2-26 rotate clockwise when seen from the servo motors 2-17 to the couplers 2-26, the screw rod 2-27 can drive the stepped block moving seat 2-16 to move towards the direction close to the servo motors 2-17 through the matching of the threaded holes 2-28, the stepped block moving seat 2-16 can drive the pushing arms 2-13 to move, and the pushing arms 2-13 can pull the convex seats 1-7 through the waist grooves 2-14, the sliding door 1-8 is driven to move by the convex seat 1-7, the spring 1-10 is compressed by the sliding door 1-8, the outlet 1-14 is not limited when the sliding door 1-8 moves, so that the fruit in the fruit can leak from the outlet 1-14 and fall on the screen plate 2-6, the semi-circular convex 2-21 on the stepped block moving seat 2-16 can jack up the pulley 2-22 and then the pulley 2-22 can descend, so that the pulley 2-22 can reciprocate up and down, the pulley 2-22 can drive the screen box 2-5 to reciprocate up and down by the pulley seat 2-23, when the servo motor 2-17 runs reversely, the stepped block moving seat 2-16 can move reversely, the sliding door 1-8 can be driven to reset by the spring 1-10, stopping discharging fruits, in the process of moving the movable seat 2-16 with the stepped block, the pulleys 2-22 can also move up and down in a reciprocating manner, so that in the process of alternately operating the servo motors 2-17 in the forward and reverse directions, the screen boxes 2-5 can continuously vibrate up and down, the fruits are discharged intermittently, the fruits can be fully screened on the screen plates 2-6, the large fruits stay above the screen plates 2-6, then are discharged from the large material outlets 2-3, the small fruits fall below the screen plates 2-6, then roll on the blind plates 2-29 and are discharged from the small material outlets 2-4, hydraulic oil is injected into the hydraulic cylinders 2-8, under the driving of the hydraulic oil, the piston rods 2-9 with the hinged heads move towards the hydraulic cylinders 2-8, the piston rods 2-9 with the hinged heads drive the hinged arms 2-10 to drive the hinged arms A2-11 to move, the articulated arm A2-11 can pull the step slider 2-12, the step slider 2-12 can drive the striker plate 2-25 to move, then hydraulic oil is reversely injected into the hydraulic cylinder 2-8, the striker plate 2-25 can reset, the striker plate 2-25 can block fruits to a certain extent in reciprocating motion, so that the retention time of the fruits on the screen plate 2-6 can be prolonged, and the screening efficiency and the screening rate of single screening can be improved.
The fourth concrete implementation mode:
the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present embodiment further describes the present embodiment, where the dust removing mechanism 3 includes a wind wheel motor 3-1, a friction wheel 3-2, an air box 3-3, an air inlet 3-4, a chute A3-5, an air outlet 3-6, a filter plate 3-7, a passive friction wheel 3-8, a linkage friction wheel 3-9, a bearing seat A3-10, a pushing hydraulic cylinder 3-11, a connecting shaft 3-12, a cam 3-13, a fitting block A3-14, a shaft-containing negative pressure wind wheel 3-15, a connecting port 3-16, a limit slide bar 3-17, and a return spring 3-18, A unthreaded hole A3-19, a connecting plate 3-20 and a vertical waist groove 3-21, a wind wheel motor 3-1 is connected with a friction wheel 3-2, the friction wheel 3-2 is connected with a negative pressure wind wheel 3-15 with a shaft, the negative pressure wind wheel 3-15 with the shaft is connected with a wind box 3-3 by a bearing, an air inlet 3-4 is arranged on the wind box 3-3, a chute A3-5 is arranged on the wind box 3-3, an air outlet 3-6 is arranged on the wind box 3-3, a filter plate 3-7 is connected with the chute A3-5 in a sliding way, a driven friction wheel 3-8 is connected with a connecting shaft 3-12, the connecting shaft 3-12 is connected with a cam 3-13, the connecting shaft 3-12 is connected with the wind box 3-3 by a bearing, the cam 3-13 is contacted with a matching block A3-14, the matching block A3-14 is connected with the filter plate 3-7, the base 1-1 is connected with the wind wheel motor 3-1, the base 1-1 is connected with the pushing hydraulic cylinder 3-11, the pushing hydraulic cylinder 3-11 is connected with the bearing seat A3-10, the bearing seat A3-10 is connected with the linkage friction wheel 3-9 by a bearing, the connecting port 3-16 is arranged in the air box 3-3, the filter plate 3-7 is connected with the limit slide bar 3-17, the limit slide bar 3-17 is connected with the unthreaded hole A3-19 in a sliding way, the unthreaded hole A3-19 is arranged on the air box 3-3, the reset spring 3-18 is sleeved on the limit slide bar 3-17, the reset spring 3-18 is abutted against the filter plate 3-7 and the air box 3-3, the limit slide bar 3-17 is connected with the connecting plate 3-20, the vertical waist groove 3-21 is arranged on the air box 3-3, and the matching block A3-14 is connected with the vertical waist groove 3-21 in a sliding way.
The fifth concrete implementation mode:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and the embodiment further describes the embodiment, where the cleaning mechanism 4 includes a stirring motor 4-1, a bearing seat B4-2, a shaft-carrying turntable 4-3, a supporting pulley 4-4, an arc-shaped protrusion 4-5, a cleaning tank 4-6, an opening 4-7, a tank inlet a4-8, a shaft-carrying stirring wheel 4-9, a shaped hole 4-10, and a shaped shaft 4-11, the stirring motor 4-1 is connected with the shaft-carrying turntable 4-3, the shaft-carrying turntable 4-3 is connected with the bearing seat B4-2 by a bearing, the bearing seat B4-2 is connected with the base 1-1, a rotating disc 4-3 with a shaft is connected with a supporting pulley 4-4, the supporting pulley 4-4 is contacted with a cleaning box 4-6, an opening 4-7 is arranged on the cleaning box 4-6, the opening 4-7 is connected with a supporting leg 1-2 in a sliding way, the cleaning box 4-6 is contacted with a boss 1-3, a stirring wheel 4-9 with a convex shaft is connected with a special-shaped hole 4-10 in a sliding way, the special-shaped hole 4-10 is arranged on a special-shaped shaft 4-11, the special-shaped shaft 4-11 is connected with the cleaning box 4-6 in a bearing way, the stirring wheel 4-9 with the convex shaft is connected with the rotating disc 4-3 with the shaft, an arc-shaped bulge 4-5 is connected with the cleaning box 4-6, large fruits can fall into a box inlet A4-8 after being discharged from a large material outlet 2-3, water is added into the cleaning box 4-, thus, the fruit can be prevented from being damaged when falling, the stirring motor 4-1 can drive the shaft-carrying rotary disc 4-3 to rotate, the shaft-carrying rotary disc 4-3 can drive the supporting pulley 4-4 to do circular motion, the supporting pulley 4-4 can lift the cleaning box 4-6 through the arc-shaped bulge 4-5 and then reset under the action of gravity, in the process, the stirring wheel 4-9 with the bulge shaft can stir water flow and the fruit when rotating along with the shaft-carrying rotary disc 4-3, so that the cleaning effect is good, the wind wheel motor 3-1 can drive the shaft-carrying negative pressure wind wheel 3-15 to rotate through the friction wheel 3-2 to form negative pressure, under the drive of the negative pressure, outside air is sucked from the air inlet 3-4 and blown to the connecting port 3-16 and then is discharged after being filtered by the filter plate 3-7, when the filter plate is blocked by a method of 3-7, the hydraulic cylinder 3-11 is pushed to drive the bearing seat A3-10 to move upwards, the bearing seat A3-10 can drive the linkage friction wheel 3-9 to simultaneously contact with the friction wheel 3-2 and the driven friction wheel 3-8, so that the friction wheel 3-2 can drive the driven friction wheel 3-8 to rotate through the linkage friction wheel 3-9, the driven friction wheel 3-8 can drive the cam 3-13 to rotate, the cam 3-13 can drive the matching block A3-14 to move downwards, the matching block A3-14 can drive the filter plate 3-7 to move downwards, then the filter plate is reset under the resilience action of the reset spring 3-18, and dust on the filter plate 3-7 is vibrated in the reciprocating motion.
The sixth specific implementation mode:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, in which the linked friction wheels 3-9 move upward and contact with the friction wheels 3-2 and the driven friction wheels 3-8 at the same time.
The working principle of the device is as follows: the equipment can carry out intermittent blanking, the equipment can carry out screening, fruits needing to be screened are placed in the inlet openings 1-6, the equipment can be used for storing the fruits when not running, the servo motors 2-17 are operated to drive the couplers 2-26 to rotate in a forward and reverse reciprocating alternating manner, when the couplers 2-26 rotate clockwise when viewed from the servo motors 2-17 to the couplers 2-26, the screw rods 2-27 can drive the stepped block moving seats 2-16 to move towards the direction close to the servo motors 2-17 through the matching of the threaded holes 2-28, the stepped block moving seats 2-16 can drive the pushing arms 2-13 to move, the pushing arms 2-13 can pull the boss bases 1-7 through the waist grooves 2-14, and the boss bases 1-7 can drive the sliding doors 1-8 to move, the springs 1-10 are compressed by the movement of the sliding doors 1-8, the outlets 1-14 lose the limit when the sliding doors 1-8 move, so that the fruits in the fruits leak from the outlets 1-14 and fall on the screen plate 2-6, the semicircular bulges 2-21 on the moving seat 2-16 with the stepped block jack up the pulleys 2-22, then the pulleys 2-22 descend, so that the pulleys 2-22 reciprocate up and down, the pulleys 2-22 drive the screen box 2-5 to reciprocate up and down through the pulley seats 2-23, when the servo motor 2-17 runs reversely, the moving seat 2-16 with the stepped block moves reversely, the springs 1-10 drive the sliding doors 1-8 to reset to stop the fruits, and during the movement of the moving seat 2-16 with the stepped block, the pulleys 2-22 can also do up-and-down reciprocating motion, so that in the process that the servo motors 2-17 alternately operate in the forward and reverse directions, the sieve boxes 2-5 can continuously vibrate up and down, and the fruit discharging is carried out intermittently, so that the fruits can be fully sieved on the sieve plate 2-6, the large fruits stay above the sieve plate 2-6 and then are discharged from the large material outlet 2-3, and the small fruits fall below the sieve plate 2-6 and then roll on the blind plate 2-29 and are discharged from the small material outlet 2-4; the device can increase the screening efficiency and the screening rate, hydraulic oil is injected into the hydraulic cylinders 2 to 8, under the drive of oil pressure, the piston rod 2-9 with the hinged joint moves towards the retraction hydraulic cylinder 2-8, the piston rod 2-9 with the hinged joint drives the hinged arm 2-10 and then the hinged arm A2-11 to move, the hinged arm A2-11 pulls the step slide block 2-12, the step slide block 2-12 drives the striker plate 2-25 to move, then, hydraulic oil is reversely injected into the hydraulic cylinder 2-8, the striker plate 2-25 can reset, the striker plate 2-25 can block fruits to a certain extent in the reciprocating motion, therefore, the retention time of the fruits on the screen plates 2-6 can be prolonged, and the screening efficiency and the screening rate of single screening are improved; the equipment can clean fruits, large fruits can fall into the box inlet A4-8 after being discharged from the big material outlet 2-3, water is added into the cleaning box 4-6 in advance, so that the fruits can be prevented from being damaged when falling, the operation of the stirring motor 4-1 can drive the belt shaft turntable 4-3 to rotate, the belt shaft turntable 4-3 can drive the supporting pulley 4-4 to do circular motion, the supporting pulley 4-4 can lift the cleaning box 4-6 through the arc-shaped bulge 4-5 and then reset under the action of gravity, in the process, the stirring wheel 4-9 with the bulge shaft can stir water flow and fruits when rotating along with the belt shaft turntable 4-3, so that the cleaning effect is improved, the operation wind wheel motor 3-1 can drive the belt shaft negative pressure wind wheel 3-15 to rotate through the friction wheel 3-2 to form negative pressure, under the drive of negative pressure, outside air is sucked from the air inlet 3-4 and blown to the connecting port 3-16, then is filtered by the filter plate 3-7 and then is discharged, when the filter plate 3-7 is blocked, the hydraulic cylinder 3-11 is pushed to drive the bearing seat A3-10 to move upwards, the bearing seat A3-10 can drive the linkage friction wheel 3-9 to simultaneously contact with the friction wheel 3-2 and the driven friction wheel 3-8, so that the friction wheel 3-2 can drive the driven friction wheel 3-8 to rotate through the linkage friction wheel 3-9, the driven friction wheel 3-8 can drive the cam 3-13 to rotate, the cam 3-13 can drive the matching block A3-14 to move downwards, the matching block A3-14 can drive the filter plate 3-7 to move downwards, and then is reset under the resilience action of the reset spring 3-18, in the reciprocating motion, the dust on the filter plates 3-7 is shaken off.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.
Claims (2)
1. The utility model provides a fruit grading plant, includes feed box mechanism (1), screening mechanism (2), dust removal mechanism (3), wiper mechanism (4), its characterized in that: the feeding box mechanism (1) comprises a base (1-1), supporting legs (1-2), bosses (1-3), limiting heads (1-4), a feeding box body (1-5), an inlet (1-6), bases with bulges (1-7), a sliding door (1-8), a step rod (1-9), a spring (1-10), a matching hole (1-11), a door plate sliding rail (1-12), box body supporting legs (1-13) and an outlet (1-14), wherein the base (1-1) is connected with the supporting legs (1-2), the bosses (1-3) and the limiting heads (1-4) are arranged on the supporting legs (1-2), the inlet (1-6) is arranged on the feeding box body (1-5), and the bases with bulges (1-7) are connected with the sliding door (1-8), the sliding door (1-8) is connected with a step rod (1-9), the spring (1-10) is sleeved on the step rod (1-9), the spring (1-10) abuts against the sliding door (1-8) and a door plate sliding rail (1-12), the door plate sliding rail (1-12) is connected with the sliding door (1-8) in a sliding manner, a matching hole (1-11) is formed in the door plate sliding rail (1-12), the step rod (1-9) is connected with the matching hole (1-11) in a sliding manner, the door plate sliding rail (1-12) is connected with a feeding box body (1-5), the feeding box body (1-5) is connected with a box body supporting leg (1-13), and the box body supporting leg (1-13) is connected with a base (1-1);
the screening mechanism (2) comprises a base (2-1), a bearing seat (2-2), a large material outlet (2-3), a small material outlet (2-4), a screening box (2-5), a screening plate (2-6), a hinged support (2-7), a hydraulic cylinder (2-8), a piston rod (2-9) with a hinged joint, a hinged arm (2-10), a hinged arm A (2-11), a stepped sliding block (2-12), a pushing arm (2-13), a waist groove (2-14), a stepped groove (2-15), a movable seat (2-16) with a stepped block, a servo motor (2-17), a stepped supporting leg (2-18), a unthreaded hole (2-19), a spring A (2-20), a semicircular bulge (2-21), a pulley (2-22), Pulley seats (2-23), step chutes I (2-24), striker plates (2-25), couplers (2-26), screw rods (2-27), threaded holes (2-28) and blind plates (2-29), wherein a base (2-1) is connected with a base (1-1), the base (2-1) is connected with a bearing seat (2-2), a large material outlet (2-3) is connected with a sieve box (2-5), a small material outlet (2-4) is connected with the sieve box (2-5), a sieve plate (2-6) is connected with the sieve box (2-5), the sieve box (2-5) is connected with a hinged support (2-7), the hinged support (2-7) is hinged with a hydraulic cylinder (2-8), and the hydraulic cylinder (2-8) is connected with a piston rod (2-9) with a head, a piston rod (2-9) with a hinged joint is hinged with a hinged arm (2-10), the hinged arm (2-10) is hinged with a screen box (2-5), the hinged arm (2-10) is hinged with a hinged arm A (2-11), the hinged arm A (2-11) is hinged with a step slide block (2-12), the step slide block (2-12) is connected with a step groove (2-15) in a sliding way, the step groove (2-15) is arranged on the screen box (2-5), a waist groove (2-14) is arranged on a pushing arm (2-13), the pushing arm (2-13) is connected with a moving seat (2-16) with a step block, the moving seat (2-16) with the step block is connected with a step slide groove I (2-24) in a sliding way, the step slide groove I (2-24) is arranged on a base (2-1), the ladder landing leg (2-18) is connected with the screen box (2-5), the ladder landing leg (2-18) is connected with the unthreaded hole (2-19) in a sliding manner, the unthreaded hole (2-19) is arranged on the base (2-1), the spring A (2-20) is sleeved on the ladder landing leg (2-18), the spring A (2-20) is abutted against the base (2-1) and the ladder landing leg (2-18), the semicircular bulge (2-21) is arranged on the moving seat (2-16) with the ladder block, the pulley (2-22) is contacted with the moving seat (2-16) with the ladder block, the pulley (2-22) is connected with the pulley seat (2-23) in a bearing manner, the pulley seat (2-23) is connected with the screen box (2-5), the material baffle plate (2-25) is connected with the ladder sliding block (2-12), the material baffle plate (2-25) is connected with the screen box (2-5) in a sliding manner, the servo motor (2-17) is connected with the base (2-1), the servo motor (2-17) is connected with the screw rod (2-27) through the coupler (2-26), the screw rod (2-27) is in threaded connection with the threaded hole (2-28), the threaded hole (2-28) is arranged on the moving seat (2-16) with the step block, the blind plate (2-29) is connected with the screen box (2-5), and the waist groove (2-14) is connected with the protruding seat (1-7) in a sliding manner;
the dust removal mechanism (3) comprises a wind wheel motor (3-1), a friction wheel (3-2), a wind box (3-3), an air inlet (3-4), a sliding chute A (3-5), an air outlet (3-6), a filter plate (3-7), a driven friction wheel (3-8), a linkage friction wheel (3-9), a bearing seat A (3-10), a pushing hydraulic cylinder (3-11), a connecting shaft (3-12), a cam (3-13), a matching block A (3-14), a negative pressure wind wheel (3-15) with a shaft, a connecting port (3-16), a limiting sliding rod (3-17), a reset spring (3-18), a unthreaded hole A (3-19), a connecting plate (3-20) and a vertical waist groove (3-21), wherein the wind wheel motor (3-1) is connected with the friction wheel (3-2), the friction wheel (3-2) is connected with the negative pressure wind wheel (3-15) with the shaft, the negative pressure wind wheel (3-15) with the shaft is connected with the air box (3-3) by a bearing, the air inlet (3-4) is arranged on the air box (3-3), the chute A (3-5) is arranged on the air box (3-3), the air outlet (3-6) is arranged on the air box (3-3), the filter plate (3-7) is connected with the chute A (3-5) in a sliding way, the passive friction wheel (3-8) is connected with the connecting shaft (3-12), the connecting shaft (3-12) is connected with the cam (3-13), the connecting shaft (3-12) is connected with the air box (3-3) by a bearing, the cam (3-13) is contacted with the matching block A (3-14), the matching block A (3-14) is connected with the filter plate (3-7), the base (1-1) is connected with the wind wheel motor (3-1), the base (1-1) is connected with the pushing hydraulic cylinder (3-11), the pushing hydraulic cylinder (3-11) is connected with the bearing seat A (3-10), the bearing seat A (3-10) is connected with the linkage friction wheel (3-9) in a bearing way, the connecting port (3-16) is arranged in the air box (3-3), the filter plate (3-7) is connected with the limit slide rod (3-17), the limit slide rod (3-17) is connected with the unthreaded hole A (3-19) in a sliding way, the unthreaded hole A (3-19) is arranged on the air box (3-3), the reset spring (3-18) is sleeved on the limit slide rod (3-17), the reset springs (3-18) are abutted against the filter plates (3-7) and the air boxes (3-3), the limiting slide rods (3-17) are connected with the connecting plates (3-20), the vertical waist grooves (3-21) are arranged on the air boxes (3-3), and the matching blocks A (3-14) are in sliding connection with the vertical waist grooves (3-21);
the cleaning mechanism (4) comprises a stirring motor (4-1), a bearing seat B (4-2), a rotating disc with a shaft (4-3), a supporting pulley (4-4), an arc-shaped bulge (4-5), a cleaning box (4-6), a hole (4-7), a box inlet A (4-8), a stirring wheel with a bulge shaft (4-9), a special-shaped hole (4-10) and a special-shaped shaft (4-11), wherein the stirring motor (4-1) is connected with the rotating disc with a shaft (4-3), the rotating disc with a shaft (4-3) is connected with the bearing seat B (4-2) in a bearing way, the bearing seat B (4-2) is connected with a base (1-1), the rotating disc with a shaft (4-3) is connected with the supporting pulley (4-4), the supporting pulley (4-4) is contacted with the cleaning box (4-6), the opening (4-7) is arranged on the cleaning box (4-6), the opening (4-7) is in sliding connection with the supporting leg (1-2), the cleaning box (4-6) is in contact with the boss (1-3), the stirring wheel (4-9) with the convex shaft is in sliding connection with the special-shaped hole (4-10), the special-shaped hole (4-10) is arranged on the special-shaped shaft (4-11), the special-shaped shaft (4-11) is connected with the cleaning box (4-6) in a bearing mode, the stirring wheel (4-9) with the convex shaft is connected with the rotating disc (4-3) with the shaft, and the arc-shaped protrusion (4-5) is connected with the cleaning box (4-6);
the feeding box mechanism (1) is connected with the screening mechanism (2), the feeding box mechanism (1) is connected with the dust removal mechanism (3), and the feeding box mechanism (1) is connected with the cleaning mechanism (4).
2. A fruit staging apparatus according to claim 1 wherein: the linkage friction wheel (3-9) moves upwards and is simultaneously contacted with the friction wheel (3-2) and the driven friction wheel (3-8).
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Effective date of registration: 20210513 Address after: 362000 Nankengtou No. 14, Nankeng Village, Taozhou Township, Anxi County, Quanzhou City, Fujian Province Applicant after: Zhang Xiaofeng Address before: 150050 No.5, beiketoudao street, Daowai District, Harbin City, Heilongjiang Province Applicant before: Taiqing ginseng antler line in Harbin Sanke traditional Chinese medicine market |
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