CN112515182A

CN112515182A - Juicing production system of shaddock

Info

Publication number: CN112515182A
Application number: CN202011307928.6A
Authority: CN
Inventors: 杨伯垲; 林雅君; 魏有洪; 郑哲强; 丁浩荣
Original assignee: Zhangzhou Sanjiang Industrial Design Co ltd
Current assignee: Zhangzhou Sanjiang Industrial Design Co ltd; Minnan Normal University
Priority date: 2020-11-20
Filing date: 2020-11-20
Publication date: 2021-03-19

Abstract

The invention discloses a grapefruit juicing production system, which comprises a crushing device and a juicing device, wherein the crushing device comprises a tank body, the upper part and the lower part of the tank body are respectively provided with a grapefruit feeding hole and a crushed material discharging hole, the middle of the tank body is provided with a crushing cutter shaft driven by a crushing motor to rotate, the peripheral surface of the crushing cutter shaft outwards extends to form a plurality of crushing cutters, and the lower end of the crushing cutter shaft outwards extends to form a scraper plate; the juicing device comprises a shell, wherein the upper part of the shell is provided with a crushed material feeding hole, and the crushed material feeding hole is connected with the crushed material discharging hole through a conveying pipeline; the peeled pomelo enters the tank body from a pomelo feeding hole in the upper part of the tank body and is crushed by the crushing cutter, and the crushed material is scraped into the crushed material discharging hole by the scraping plate and then enters the juicing device through the conveying pipeline for juicing. Furthermore, the invention also comprises a grapefruit peeling production line for peeling the grapefruit. The invention can form flow process and has high juicing efficiency.

Description

Juicing production system of shaddock

Technical Field

The invention relates to the technical field of grapefruit processing equipment manufacturing, in particular to a grapefruit juicing production system.

Background

The pomelo is a tree of Citrus of Rutaceae, and is planted mainly in the south of Yangtze river and southeast Asia. The fruit is in the shape of a sphere, an oblate, a pear or a wide cone, and the transverse diameter is usually more than 10 cm. The pulp is rich in nutrition, contains high vitamin C, and has effects of resolving food stagnation, relieving alcoholism, etc.

In the deep processing of the pomelo, the pomelo is often required to be juiced, and the pomelo can be processed into a pomelo beverage after being juiced or added into other food raw materials to be processed into other foods. The existing juicing mode is completed by manual peeling with the help of simple juicing equipment, the juicing efficiency is low, and the juicing of the grapefruit is incomplete, so that waste is caused.

Disclosure of Invention

The invention aims to provide a grapefruit juicing production system, which can realize flow operation and has high juicing efficiency.

In order to achieve the purpose, the technical scheme of the invention is as follows: a grapefruit juicing production system comprises a crushing device and a juicing device, wherein the crushing device comprises a tank body, a grapefruit feeding hole is formed in the upper portion of the tank body, a crushed material discharging hole is formed in one side of the lower portion of the tank body, a crushing cutter shaft is arranged in the middle of the tank body, the crushing cutter shaft is driven to rotate by a crushing motor arranged outside the tank body, a plurality of crushing cutters extend outwards from the outer peripheral surface of the crushing cutter shaft, and at least one scraper plate extends outwards from the lower end of the crushing cutter shaft; the juicing device comprises a shell, wherein a crushed material feeding hole is formed in the upper part of the shell and is positioned below a crushed material discharging hole, and the crushed material feeding hole is connected with the crushed material discharging hole through a conveying pipeline;

the peeled pomelo enters the tank body from a pomelo feeding hole in the upper part of the tank body and is crushed by the crushing cutter, and the crushed material is scraped into the crushed material discharging hole by the scraping plate and then enters the juicing device through the conveying pipeline for juicing.

The crushing cutter shaft is vertically arranged, a plurality of crushing cutters are arranged along the peripheral surface of the crushing cutter shaft in a staggered mode, and each crushing cutter is arranged obliquely upwards; the peeled pomelo is cut and crushed to form an upward throwing action, so that the part of the pomelo which is not cut and crushed can be cut and crushed by other crushing cutters; the scraper blade is perpendicular to the crushing cutter shaft so as to scrape crushed materials into the crushed material discharge hole.

Preferably, the juicing device is a spiral juicer, the shell is provided with an extrusion cutter shaft, the extrusion cutter shaft is horizontally arranged, the extrusion cutter shaft is driven to rotate by a juicing motor, the peripheral surface of the extrusion cutter shaft is provided with a spiral extrusion cutter, the distance between adjacent cutting edges formed by the spiral extrusion cutter viewed along the axial section of the extrusion cutter shaft is gradually narrowed, the part with the wide distance between the adjacent cutting edges is close to the crushed material feeding hole, and the lower part of the shell is provided with a liquid outlet and a slag outlet. The spiral juicer can effectively improve the juicing efficiency, the juicing is more thorough, and the flow process is more convenient to form.

The improved material crushing device is characterized in that the side wall of one side of the crushed material feeding hole is connected with an air pipe, the air pipe is connected with a vacuum pump, a plurality of communicating air holes are formed in the side wall, and the plurality of communicating air holes are communicated with the crushed material feeding hole and the inner cavity of the air pipe. The material after the breakage can be prevented from producing the jam in the conveying pipeline by intermittently starting the vacuum pump, and the material after the breakage can be accelerated to enter the juicing device.

The juicing production system further comprises a grapefruit peeling production line, wherein the grapefruit peeling production line comprises a rack, a conveying line driven by a first motor is arranged on the rack, a plurality of circulating and intermittently moving seats are arranged on the conveying line, a supporting rod perpendicular to the moving direction of the moving seats is arranged on each moving seat in a penetrating mode, the supporting rods can rotate relative to the moving seats, a plurality of contact pins capable of being inserted into grapefruit are fixedly arranged on the outer end portions of the supporting rods, a stepped through hole is formed in the middle of each supporting rod, a push rod is arranged in the stepped through hole in the middle of each supporting rod in a penetrating mode, one end of each push rod is connected with a push block, a pressure spring is sleeved in the middle of each push rod, one end of each pressure spring abuts against the corresponding push rod, the other end of each push;

a vertically arranged screw rod is pivoted on one side of the middle part of the rack, a nut is matched on the screw rod, the screw rod is driven by a second motor, the nut moves along the axial direction of the screw rod when the screw rod rotates, a driving gear is fixedly connected on the screw rod in a sleeved mode, and after one of the moving seats drives one supporting rod to move close to the screw rod and stop, a driven gear on the supporting rod is meshed with the driving gear;

one end of a cutter bar is hinged with the nut through a pin shaft, a peeling cutter head is arranged on the cutter bar, a torsional spring is sleeved on the pin shaft, one end of the torsional spring is pressed on the nut, and the other end of the torsional spring is pressed on the cutter bar;

when the grapefruits are fixed on the bottom parts of the contact pins and supported on the push block, the grapefruits move along with the support rods to be close to the screw rods and stop, the screw rods rotate, the grapefruits rotate along with the support rods, the torsional springs drive the peeling tool bits on the cutter bars to contact the peel of the grapefruits for peeling, and the nuts continue to move to drive the cutter bars to move for the grapefruits to move and give;

a cutting mechanism is arranged at the position close to the discharge end of the conveying line, the cutting mechanism comprises a door-shaped support, the top of the door-shaped support is fixedly connected with a cutting cylinder, a blade capable of moving up and down is arranged on the door-shaped support, and the upper end of the blade is connected with a piston rod of the cutting cylinder;

the two sides of the door-shaped support are fixedly connected with a left air cylinder and a right air cylinder respectively, a piston rod of the left air cylinder is connected with a left clamping block on the inner side of the door-shaped support, a piston rod of the right air cylinder is connected with a right clamping block on the inner side of the door-shaped support, a material pushing air cylinder is arranged on the rack, after a supporting rod drives a grapefruit to reach a discharge end of a conveying line and stop, the material pushing air cylinder drives a push rod to move through a driving piece, and after the push rod drives the grapefruit to move and set a position on a contact pin through the push block, the left air cylinder and the right air cylinder can drive the left clamping block and;

the machine frame is provided with two guide rails, the door-shaped support is erected on the two guide rails, a guide pipe is arranged below the door-shaped support, one end of the guide pipe is connected with the grapefruit feed inlet, the machine frame is also provided with a driving mechanism, the driving mechanism can drive the door-shaped support to move back and forth along the guide rails, when the driving mechanism drives the door-shaped support to move away from the conveying line, the left clamping block and the right clamping block clamp the grapefruit so that the grapefruit is separated from the contact pin, and then the cutting cylinder drives the blade to cut the peel at the bottom of the grapefruit; the left air cylinder and the right air cylinder respectively drive the left clamping block and the right clamping block to loosen the completely peeled pomelo, and the completely peeled pomelo enters the pomelo feeding hole from the guide pipe. Can improve the peeling efficiency of shaddock through this kind of shaddock peeling production line, promote the production efficiency of the production system that squeezes juice, its effect of shelling simultaneously is also more thorough, also can promote the quality of the back shaddock juice that squeezes juice.

Preferably, the conveying line comprises two chains which are arranged in parallel, the two chains intermittently move simultaneously through a driving chain wheel and a driven chain wheel, and two sides of each moving seat are fixedly connected with the two chains respectively; or the conveying line comprises two parallel synchronous belts, the two synchronous belts intermittently move simultaneously through a driving synchronous belt pulley and a driven synchronous belt pulley, and two sides of each moving seat are fixedly connected with the two synchronous belts respectively.

The conveying line is further improved, a pushing piece is arranged at a position close to each supporting rod, the pushing piece pushes the cutter bar to move so that the peeling cutter head does not contact with the grapefruit, the screw rod rotates, the nut moves upwards to drive the cutter bar to be separated from the pushing piece, and the torsion spring drives the cutter bar to lean against the grapefruit so that the peeling cutter head contacts with the grapefruit peel to peel; on the one hand like this is bigger to the control range of skinning tool bit at lower level, and more convenient control, on the other hand has certain impact force when skinning tool bit contact shaddock crust under the effect of torsional spring for skinning tool bit can insert the certain degree of depth of shaddock crust.

The pushing piece is generally L-shaped, the upper end of the pushing piece inclines to one side of the supporting rod, the lower portion of the pushing piece is fixedly connected to a moving plate, two sides of the moving plate are fixedly connected with the two chains or the two synchronous belts respectively, and each moving plate is located between the two adjacent moving seats. Therefore, on one hand, the pushing piece is convenient to fix, and on the other hand, the impact force when the peeling tool bit contacts the grapefruit peel can be well controlled through the inclination degree of the upper end of the pushing piece.

The screw is vertically pivoted on the vertical support, two vertical guide grooves are formed in the vertical support, guide convex parts are arranged on two sides of the nut, each guide convex part is matched with one vertical guide groove, a second motor is arranged on the upper portion of the vertical support, and the second motor drives the screw to rotate through a driving shaft;

an upper mounting convex part and a lower mounting convex part are arranged on one side of the nut, one end of the cutter bar is positioned between the two mounting convex parts, one end of the pin shaft penetrating through the cutter bar is fixedly connected to the two mounting convex parts, a limiting part is connected between the two mounting convex parts, and the limiting part limits the cutter bar to lean against the vertical support;

the vertical support is provided with an upper infrared proximity switch and a lower infrared proximity switch, the upper infrared proximity switch and the lower infrared proximity switch are electrically connected with a controller, and the controller controls the rotation of the second motor to control the upper movement position and the lower movement position of the nut.

Therefore, the upper infrared proximity switch and the lower infrared proximity switch are matched with the controller and the second motor to work, so that the stroke of the nut can be well controlled; the torsional spring drives the cutter bar to lean against the limiting part, so that the static position of the cutter bar can be well controlled.

The peeling tool bit comprises a fixed block, the fixed block is fixedly connected with the cutter bar, an upper scraper and a lower scraper are fixedly connected onto the fixed block, the cutting edge of the upper scraper is parallel to or inclined with the axial direction of the supporting rod, and the cutting edge of the lower scraper is perpendicular to the axial line of the supporting rod. The cutting edge of scraper down can insert in the skin of shaddock along the skin of radially cutting the shaddock like this, and the cutting edge of going up the scraper can be shaved the skin of shaddock, goes up the scraper and can peel the shaddock more fast with lower scraper mutually supporting, effectively improves the efficiency of peeling of shaddock.

The improved structure is characterized in that a left soft pad is fixedly arranged on one side, close to the grapefruit, of the left clamping block, and a right soft pad is fixedly arranged on one side, close to the grapefruit, of the right clamping block; so as to increase the clamping friction and better protect the peeled pomelo.

The driving mechanism comprises a left push-pull air cylinder and a right push-pull air cylinder, one end of the left push-pull air cylinder is hinged to the rack, the other end of the left push-pull air cylinder is hinged to the door-shaped support, one end of the right push-pull air cylinder is hinged to the rack, and the other end of the right push-pull air cylinder is hinged to the door-shaped support.

The pushing cylinder is a double-stroke cylinder, the pushing cylinder drives the push rod to move through the driving piece during a first stroke, the push rod drives the grapefruit to move at a set position on the contact pin through the push block, the pushing cylinder drives the push rod to move through the driving piece during a second stroke, and the push rod drives the grapefruit to be separated from the contact pin through the push block; therefore, the grapefruit can be better separated from the inserting needle.

Still be equipped with the deflector below the door font support, link up a collecting vessel below the deflector, the skin after the blade cuts gets into the collecting vessel along the deflector. So as to be beneficial to the collection and treatment of the subsequent working procedures.

According to the invention, the peeled pomelo is crushed by the crushing device before juicing. The crushing device comprises a tank body, wherein a grapefruit feeding hole is formed in the upper portion of the tank body, a crushed material discharging hole is formed in one side of the lower portion of the tank body, a crushing cutter shaft is arranged in the middle of the tank body, the crushing cutter shaft is driven to rotate by a crushing motor arranged outside the tank body, a plurality of crushing cutters extend outwards from the outer peripheral surface of the crushing cutter shaft, and at least one scraper plate extends outwards from the lower end of the crushing cutter shaft; the crushing cutter shaft is driven by the crushing motor to rotate at a high speed, peeled pomelos enter the tank body from a pomelo feeding hole in the upper portion of the tank body and then are cut and crushed by the crushing cutters, the pomelos are crushed to facilitate juicing in a subsequent process, and crushed materials are scraped into the crushed material discharging hole by the scraper blade and then enter the juicing device through the conveying pipeline to be juiced. The scraper can better convey broken materials, so that the materials are prevented from being accumulated and blocked. Therefore, the production system can form flow process and has high juicing efficiency.

On the other hand, because the peeled pomelo is firstly crushed and then juiced, the juicing is relatively thorough, the raw materials can be fully utilized, and the production cost is reduced.

Drawings

FIG. 1 is a top plan view of a first embodiment of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a top view of a grapefruit peeling line in accordance with a first embodiment of the present invention;

FIG. 4 is a cross-sectional view B-B of FIG. 3;

FIG. 5 is an enlarged view at D of FIG. 4;

FIG. 6 is an enlarged cross-sectional view of C-C of FIG. 3;

FIG. 7 is a partial view from E of FIG. 4;

FIG. 8 is a perspective view of the first embodiment of the present invention showing the connection of the tool bar to the nut and the skinning bit;

FIG. 9 is an enlarged view at F of FIG. 8;

FIG. 10 is a schematic illustration of the gantry of FIG. 4 moving away from the conveyor line to a rearward position;

FIG. 11 is a top view of a grapefruit peeling line in accordance with a second embodiment of the present invention;

fig. 12 is a sectional view taken along line G-G of fig. 11.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

First embodiment, as shown in fig. 1 to 10, a grapefruit juice extracting system includes a grapefruit peeling line 100, a crushing device 200, and a juice extracting device 300.

Production line 100 is peeld to shaddock includes frame 1, is equipped with on frame 1 by first motor 21 driven transfer chain 2, and first motor 21 is step motor or servo motor, and first motor 21 is by a controller control work, is equipped with the removal seat 3 of a plurality of circulations and intermittent movement on the transfer chain 2, transfer chain 2 includes two parallel arrangement's chain 22, and two chains 22 are through

drive sprocket

23 and 24 simultaneous intermittent movement of driven sprocket, and every chain 22 is connected on a drive sprocket 23 and a driven sprocket 24, and two drive sprocket 23 link firmly on same root driving shaft, and two driven sprockets 24 link firmly on same root driven shaft, and every both sides of removing seat 3 form with two chains 22 respectively and link firmly.

Each moving seat 3 is provided with a supporting rod 4 which is vertical to the moving direction of the moving seat 3 in a penetrating way, the supporting rod 4 is pivoted on the moving seat 3 through two bearings so that the supporting rod 4 can rotate relative to the moving seat 3, the outer end part of the supporting rod 4 is fixedly provided with four inserting pins 41 which can be inserted into the shaddock 10, the four inserting pins 41 are parallel to the axial direction of the supporting rod 4, the middle of the supporting rod 4 is provided with a step-shaped through hole 4a, a push rod 5 is arranged in the step-shaped through hole 4a in the middle of the supporting rod 4 in a penetrating way, one end of the push rod 5 is connected with a push block 51, the middle of the push rod 5 is sleeved with a pressure spring 52, one end of the pressure spring 52 is abutted against the push rod 5, the other end of the push block 51 is abutted against the supporting rod 4 so that the push block is abutted against the outer end part of the supporting rod 4, the, the driven gear 42 and the support rod 4 can also be connected through a metal key.

A vertically arranged screw 6 is pivoted on one side of the middle of the rack 1, a nut 7 is matched on the screw 6, the screw 6 is driven by a second motor 61, the nut 7 moves up and down along the axial direction of the screw 6 when the screw 6 rotates, specifically, a vertical support 11 is arranged on one side of the middle of the rack 1, the screw 6 is vertically pivoted on the vertical support 11, two vertical guide grooves 111 are arranged on the vertical support 11, guide convex parts 71 are arranged on two sides of the nut 7, each guide convex part 71 is matched with one vertical guide groove 111, the second motor 61 is arranged on the upper part of the vertical support 11, the second motor 61 drives the screw 6 to rotate through a driving shaft, the driving shaft of the second motor 61 is connected with a speed reducer 62, and the speed reducer 62 is connected with the screw 6; the lower part of the screw rod 6 is fixedly connected with a driving gear 63 in a sleeved mode, the lower end of the screw rod 6 is locked and connected with two second fastening nuts 64, the driving gear 63 is fixedly connected to the screw rod 6 in a pressed mode through the two second fastening nuts 64, the driving gear 63 and the screw rod 6 can be connected through a metal key, and when one of the moving seats 3 drives one supporting rod 4 to move close to the screw rod 6 and stop, the driven gear 42 on the supporting rod 4 is meshed with the driving gear 63; the driven gear 42 and the driving gear 63 are cylindrical gears.

As further shown in fig. 8, one end of a knife bar 8 is hinged to the nut 7 through a pin 81, an upper mounting protrusion 72 and a lower mounting protrusion 72 are disposed on one side of the nut 7, one end of the knife bar 8 is located between the two mounting protrusions 72, one end of the pin 81, which penetrates through the knife bar 8, is fixedly connected to the two mounting protrusions 72, a peeling knife head 83 is mounted on the knife bar 8, a torsion spring 82 is sleeved on the pin 81, one end of the torsion spring 82 presses on the nut 7, the other end of the torsion spring presses on the knife bar 8, a limiting portion 73 is further connected between the two mounting protrusions 72, and the limiting portion 73 limits the knife bar 8 to lean against the vertical support 11, so.

An upper infrared proximity switch 12 and a lower infrared proximity switch 13 are arranged on the vertical support 11, the upper infrared proximity switch 12 and the lower infrared proximity switch 13 are electrically connected with a controller, and the controller controls the second motor 61 to work so as to control the upper movement position and the lower movement position of the nut 7. The vertical bracket 11 can also be provided with an in-place infrared proximity switch 112, and the in-place infrared proximity switch 112 is electrically connected with the controller to control the first motor 21 to work so as to better control the precision of the movable base 3 reaching the peeling station.

When the grapefruit 10 is fixed on the four contact pins 41, the bottoms of the grapefruit 10 are supported on the push block 51, after the grapefruit 10 moves along with the support rod 4 to be close to the screw rod 6 and stop, the screw rod 6 rotates, the grapefruit 10 rotates along with the support rod 4, the torsion spring 82 drives the peeling tool bit 83 on the cutter bar 8 to contact the peel of the grapefruit 10 for peeling, and after peeling is finished, the nut 7 continuously moves upwards to drive the cutter bar 8 to move and give way to the grapefruit 10;

still be equipped with one on the frame 1 and push away material cylinder 14, drive 2 discharge ends of transfer chain and stop the back at bracing piece 4 drive shaddock 10, push away material cylinder 14 and drive through a driving piece 15 push rod 5 removes, push rod 5 passes through ejector pad 51 drive shaddock 10 shifts. The driving piece 15 is fixedly connected with a piston rod of the pushing cylinder 14, the rack 1 can also be provided with a plurality of limiting guide blocks 151, and the plurality of limiting guide blocks 151 limit the rotation of the driving piece 15.

The pushing piece 25 is arranged at a position, close to each supporting rod 4, of the conveying line 2, the pushing piece 25 pushes the cutter bar 8 to move so that the peeling cutter head 83 does not contact with the grapefruit 10, the screw rod 6 rotates, the nut 7 moves upwards to drive the cutter bar 8 to be separated from the pushing piece 25, and the torsion spring 82 drives the cutter bar 8 to lean against the grapefruit 10 so that the peeling cutter head 83 contacts with the peel of the grapefruit 10 to peel.

The pushing member 25 is substantially L-shaped, the upper end of the pushing member 25 inclines to one side of the support rod 4, the lower part of the pushing member 25 is fixedly connected to a moving plate 26, two sides of the moving plate 26 are fixedly connected with the two chains 22 respectively, and each moving plate 26 is located between two adjacent moving seats 3.

The peeling head 83 comprises a fixing block 831, the fixing block 831 is fixedly connected with the cutter bar 8 through a bolt, an upper scraper 832 and a lower scraper 833 are fixedly connected to the fixing block 831, a cutting edge 8321 of the upper scraper 832 is parallel to the axial direction of the supporting rod 4 and can also be inclined, and a cutting edge 8331 of the lower scraper 833 is perpendicular to the axial line of the supporting rod 4. Thus, the blade 8331 of the lower blade 833 can be directly inserted into the peel of the grapefruit 10 to cut the peel of the grapefruit 10 in the radial direction, the blade 8321 of the upper blade 832 can scrape the peel of the grapefruit 10, and the upper blade 832 and the lower blade 833 can cooperate with each other to peel the grapefruit 10 relatively quickly.

A cutting mechanism 9 is arranged at the position close to the discharge end of the conveying line 2, the cutting mechanism 9 comprises a door-shaped support 91, the top of the door-shaped support 91 is fixedly connected with a cutting cylinder 92, a blade 93 capable of moving up and down is arranged on the door-shaped support 91, and the upper end of the blade 93 is connected with a piston rod of the cutting cylinder 92;

the two sides of the door-shaped support 91 are fixedly connected with a left air cylinder 94 and a right air cylinder 95 respectively, a piston rod of the left air cylinder 94 is connected with a left clamping block 96 located on the inner side of the door-shaped support 91, a piston rod of the right air cylinder 95 is connected with a right clamping block 97 located on the inner side of the door-shaped support 91, and after the push rod 5 drives the grapefruit 10 to move on the contact pin 41 through the push block 51 for setting positions, the left air cylinder 94 and the right air cylinder 95 can drive the left clamping block 96 and the right clamping block 97 to clamp the grapefruit 10 respectively;

be equipped with two guide rails 16 on frame 1, door font support 91 erects on two guide rails 16, still is equipped with actuating mechanism 17 in frame 1, and actuating mechanism 17 can drive door font support 91 along guide rail 16 round trip movement, and actuating mechanism 17 drives door font support 91 toward keeping away from during the removal of transfer chain 2, left clamp splice 96 and right clamp splice 97 carry shaddock 10 and make shaddock 10 break away from contact pin 41, then cut cylinder 92 and drive blade 93 and cut the skin of shaddock 10 bottom.

A left soft pad 961 is fixedly arranged on one side of the left clamping block 96 close to the grapefruit 10, and a right soft pad 971 is fixedly arranged on one side of the right clamping block 97 close to the grapefruit 10; the driving mechanism 17 comprises a left push-pull air cylinder 171 and a right push-pull air cylinder 172, one end of the left push-pull air cylinder 171 is hinged on the frame 1, the other end of the left push-pull air cylinder is hinged on the door-shaped support 91, one end of the right push-pull air cylinder 172 is hinged on the frame 1, and the other end of the right push-pull air cylinder is hinged on the door-shaped support 91.

It is two stroke cylinders to push away material cylinder 14, pushes away material cylinder 14 and drives through driving piece 15 when first stroke push rod 5 removes, push rod 5 passes through ejector pad 51 drive shaddock 10 is in move the settlement position on the contact pin 41, push away material cylinder 14 and drive through driving piece 15 when the second stroke push rod 5 removes, push rod 5 passes through ejector pad 51 drive shaddock 10 breaks away from contact pin 41.

A guide pipe 18 and a guide plate 19 are arranged below the door-shaped support 91, a collecting barrel 20 is connected below the guide plate 19, the skin cut by the blade 93 enters the collecting barrel 20 along the guide plate 19, then the left air cylinder 94 and the right air cylinder 95 respectively drive the left clamping block 96 and the right clamping block 97 to loosen the completely peeled pomelo 10, and the peeled pomelo 10 enters the crushing device 200 from the guide pipe 18 to be crushed.

The crushing device 200 comprises a tank body 1a, wherein a grapefruit feeding hole 2a is formed in the upper portion of the tank body 1a, a crushed material discharging hole 3a is formed in one side of the lower portion of the tank body 1a, a crushing cutter shaft 4a is installed in the middle of the tank body 1a, the crushing cutter shaft 4a is driven to rotate by a crushing motor 5a installed outside the tank body 1a, a plurality of crushing cutters 41a extend outwards from the outer peripheral surface of the crushing cutter shaft 4a, and two scraping plates 42a extend outwards from the lower end of the crushing cutter shaft 4 a; the tank body 1a is formed by fixedly connecting a barrel body 11a and a tank cover 12a, a grapefruit feeding port 2a is arranged on the tank cover 12a, a crushing motor 5a is arranged on the tank cover 12a, a closable vent pipe 121a is further arranged on the tank cover 12a, internal and external pressures of the tank body 1a are balanced conveniently through the vent pipe 121a, clean water can be input through the vent pipe 121a to clean the interior of the tank body 1a, and some required materials can be added into the tank body 1a through the vent pipe 121 a; the crushed material outlet 3a is arranged at the lower part of the barrel-shaped body 11a, and the bottom of the barrel-shaped body 11a is also provided with a plurality of supporting legs 111 a. One end of the guide pipe 18 is connected with the grapefruit feed inlet 2a, and the peeled grapefruit 10 enters the tank body 1a from the grapefruit feed inlet 2a along the guide pipe 18.

The crushing cutter shaft 4a is vertically arranged, the crushing cutters 41a are staggered along the outer peripheral surface of the crushing cutter shaft 4a, and each crushing cutter 41a is obliquely and upwards arranged, so that an upward throwing action is formed when the peeled pomelo 10 is cut and crushed, and the parts, which are not cut and crushed, of the pomelo 10 can be cut and crushed by other crushing cutters 41 a; the scraper 42a is arranged perpendicular to the crushing cutter shaft 4a so as to scrape crushed materials into the crushed material discharge port 3 a.

The juicing device 300 is a spiral juicer, the juicing device 300 comprises a shell 1b, a crushed material feeding hole 2b is formed in the upper part of the shell 1b, the crushed material feeding hole 2b is positioned below a crushed material discharging hole 3a, and the crushed material feeding hole 2b is connected with the crushed material discharging hole 3a through a conveying pipeline 6 a;

an extrusion knife shaft 3b is mounted on a shell 1b, the extrusion knife shaft 3b is horizontally arranged, the extrusion knife shaft 3b is driven by a juicing motor 4b to rotate, a spiral extrusion knife 31b is arranged on the peripheral surface of the extrusion knife shaft 3b, the distance between adjacent blades formed by the spiral extrusion knife 31b is gradually narrowed from width when viewed along the axial section of the extrusion knife shaft 3b, the part with the wide distance between the adjacent blades is close to a crushed material feeding port 2b, a liquid outlet 5b and a slag outlet 6b are arranged at the lower part of the shell 1b, a liquid bearing barrel 51b is arranged below the liquid outlet 5b, and a slag bearing barrel 61b is arranged below the slag outlet 6 b.

The side wall of one side of the broken material feeding hole 2b is connected with an air pipe 7b, the air pipe 7b is connected with a vacuum pump 400, a plurality of communicating air holes 21b are formed in the side wall, and the communicating air holes 21b are communicated with inner cavities of the broken material feeding hole 2b and the air pipe 7 b.

The peeled pomelo 10 enters the tank body 1a from the pomelo feeding hole 2a at the upper part of the tank body 1a and is crushed by the crushing knife 41a, and the crushed material is scraped into the crushed material discharging hole 3a by the scraping plate 42a and then enters the juice extracting device 300 through the conveying pipeline 6a for juice extraction. The intermittent activation of the vacuum pump 400 prevents the crushed material from being blocked in the transfer pipe 6a and also accelerates the crushed material to enter the juice extractor 300.

The working process of the embodiment is as follows:

as shown in fig. 2 and 4, the grapefruit 10 is fixed on the four pins 41 at the outer end of the support rod 4 at the feeding position at the front end of the conveyor line 2, so that the bottom of the grapefruit 10 is supported on the push block 51, then the conveyor line 2 drives the moving seat to intermittently move, after the grapefruit 10 moves to approach the screw 6 and stops along with the support rod 4, the driven gear 42 on the support rod 4 is meshed with the driving gear 63, the push member 25 firstly pushes the cutter bar 8 to move so that the peeling cutter head 83 does not contact with the grapefruit 10, then the second motor 61 is started, the screw 6 rotates, the driving gear 63 rotates, the grapefruit 10 rotates counterclockwise along with the support rod 4, after the nut 7 moves upwards to drive the cutter bar 8 to separate from the push member 25, the torsion spring 82 drives the cutter bar 8 to approach the grapefruit 10 so that the cutter bar 83 contacts with the peel of the grapefruit 10, and the blade 83, the blade 8321 of the upper scraper 832 can scrape the peel of the grapefruit 10, the cutter bar 8 moves upwards along with the nut 7, and the upper scraper 832 and the lower scraper 833 cooperate with each other to peel the grapefruit 10 relatively quickly. After peeling is finished, the cutter bar 8 moves upwards to the grapefruit 10 along with the nut 7 to give way, and the nut 7 stops moving to the upper position;

then, the conveying line 2 drives the moving seat 3 to intermittently move for one position, the second motor 61 rotates reversely, the screw 6 rotates reversely, the nut 7 drives the cutter bar 8 to reset downwards, then the conveying line 2 drives the moving seat 3 to intermittently move for one position, and the other pomelo 10 reaching the peeling station carries out the peeling operation, so that the production line type peeling operation is formed;

after the grapefruit 10 which is peeled at the peeling station reaches the discharge end of the conveyor line 2 along with the support rod 4 and stops, the material pushing cylinder 14 starts a first stroke to drive the push rod 5 to move through the driving piece 15, the push rod 5 drives the grapefruit 10 to move on the inserting needle 41 through the push block 51 to a set position, and then the left cylinder 94 and the right cylinder 95 act to respectively drive the left clamping block 96 and the right clamping block 97 to clamp the grapefruit 10; then, the driving mechanism 17 drives the door-shaped support 91 to move away from the conveying line 2, meanwhile, the material pushing cylinder 14 starts a second stroke to drive the push rod 5 to move through the driving piece 15, the push rod 5 drives the grapefruit 10 to assist the grapefruit 10 to be separated from the inserting needle 41 through the push block 51, then the left clamping block 96 and the right clamping block 97 clamp the grapefruit 10 to enable the grapefruit 10 to be separated from the inserting needle 41, and then the cutting cylinder 92 drives the blade 93 to cut the peel at the bottom of the grapefruit 10 to completely peel the grapefruit 10, as shown in fig. 10;

then, the peel falling from the bottom of the grapefruit 10 is cut by the blade 93 and enters the collecting barrel 20 along the guide plate 19, then the left air cylinder 94 and the right air cylinder 95 respectively drive the left clamping block 96 and the right clamping block 97 to loosen the completely peeled grapefruit 10, and the grapefruit 10 falls into the guide pipe 18, so that the peeling operation of the grapefruit 10 is completed. Then the cutting cylinder 92 drives the blade 93 to reset, and the driving mechanism 17 drives the door-shaped support 91 to move and reset close to the conveying line 2;

the peeled pomelo 10 enters the can body 1a from the pomelo feeding hole 2a along the guide pipe 18. The crushing cutter shaft 4a is driven by a crushing motor 5a arranged outside the tank body 1a to rotate at a high speed, a plurality of crushing cutters 41a on the outer peripheral surface of the crushing cutter shaft 4a cut and crush peeled pomelos 10, crushed materials and a small amount of pomelo juice generated in the crushing process fall to the inner bottom of the tank body, two scraping plates 42a extend outwards from the lower end of the crushing cutter shaft 4a to scrape the crushed materials and the small amount of pomelo juice into a crushed material discharge port 3a, then these broken back material and a small amount of shaddock juice remove rethread broken material feed inlet 2b along transfer line 6a and get into in the casing 1b of juicer 300, extrusion arbor 3b is rotatory under the drive of motor 4b that squeezes juice, and the spiral extrusion sword 31b on the extrusion arbor 3b outer peripheral face squeezes broken material and squeezes juice, and the juice that squeezes out falls into through liquid outlet 5b and holds in the liquid bucket 51b, and the shaddock sediment that forms after the extrusion was squeezed juice falls into through slag notch 6b and holds sediment bucket 61 b.

During the juicing process, the vacuum pump 400 may be intermittently activated to prevent the crushed material from being clogged in the transfer pipe 6a and to accelerate the crushed material to enter the juicing device 300.

The second embodiment, fig. 11 and fig. 12 show that a grapefruit squeezing production system is different from the first embodiment in that: the grapefruit peeling production lines 100 are different, the conveying line 2 is not provided with pushing pieces at positions close to each supporting rod 4, the lower infrared proximity switch 13 moves upwards on the vertical support 11, and the nut moves downwards and upwards, so that the peeling tool bit 83 on the cutter bar 8 can contact the peel of the grapefruit 10 when the nut is in the moving lower position.

The conveying line 2 drives the moving seat 3 to intermittently shift, so that when the grapefruit 10 arrives at a peeling station, the peel of the grapefruit 10 contacts the peeling tool bit 83 to drive the cutter bar 8 to rotate anticlockwise, the torsion spring 82 drives the cutter bar 8 to lean against the grapefruit 10, and the peeling tool bit 83 can always contact the peel of the grapefruit 10 to peel in the peeling process.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a production system that squeezes juice of shaddock which characterized in that: the juicer comprises a crushing device and a juicing device, wherein the crushing device comprises a tank body, a grapefruit feeding hole is formed in the upper part of the tank body, a crushed material discharging hole is formed in one side of the lower part of the tank body, a crushing cutter shaft is arranged in the middle of the tank body, the crushing cutter shaft is driven to rotate by a crushing motor arranged outside the tank body, a plurality of crushing cutters extend outwards from the outer peripheral surface of the crushing cutter shaft, and at least one scraper plate extends outwards from the lower end of the crushing cutter shaft; the juicing device comprises a shell, wherein a crushed material feeding hole is formed in the upper part of the shell and is positioned below a crushed material discharging hole, and the crushed material feeding hole is connected with the crushed material discharging hole through a conveying pipeline;

2. The grapefruit juicing production system according to claim 1, characterized in that: the crushing cutter shaft is vertically arranged, the crushing cutters are arranged along the outer peripheral surface of the crushing cutter shaft in a staggered mode, each crushing cutter is arranged obliquely upwards, and the scraper is perpendicular to the crushing cutter shaft.

3. The grapefruit juicing production system according to claim 1, characterized in that: the juicing device is a spiral juicer, an extrusion cutter shaft is arranged on a shell, the extrusion cutter shaft is horizontally arranged, the extrusion cutter shaft is driven to rotate by a juicing motor, a spiral extrusion cutter is arranged on the outer peripheral surface of the extrusion cutter shaft, the distance between adjacent cutting edges formed by the spiral extrusion cutter viewed along the axial section of the extrusion cutter shaft is gradually narrowed, the part with the wide distance between the adjacent cutting edges is close to the crushed material feeding hole, and a liquid outlet and a slag outlet are arranged at the lower part of the shell.

4. The grapefruit juicing production system according to claim 1, characterized in that: the side wall of one side of the broken material feeding hole is connected with an air pipe, the air pipe is connected with a vacuum pump, a plurality of communicating air holes are formed in the side wall, and the communicating air holes are communicated with the broken material feeding hole and the inner cavity of the air pipe.

5. The grapefruit juicing production system according to any one of claims 1 to 4, characterized in that: the shaddock peeling machine further comprises a shaddock peeling production line, the peeling production line comprises a rack, a conveying line driven by a first motor is mounted on the rack, a plurality of circulating and intermittently moving seats are arranged on the conveying line, a supporting rod perpendicular to the moving direction of each moving seat penetrates through each moving seat, the supporting rods can rotate relative to the moving seats, a plurality of contact pins capable of being inserted into the shaddock are fixedly arranged on the outer end portions of the supporting rods, a stepped through hole is formed in the middle of each supporting rod, a push rod penetrates through the stepped through hole in the middle of each supporting rod, one end of each push rod is connected with a push block, a pressure spring is sleeved in the middle of each push rod, one end of each pressure spring abuts against the corresponding push rod, the other end of each pressure;

the machine frame is provided with two guide rails, the door-shaped support is erected on the two guide rails, a guide pipe is arranged below the door-shaped support, one end of the guide pipe is connected with the grapefruit feed inlet, the machine frame is also provided with a driving mechanism, the driving mechanism can drive the door-shaped support to move back and forth along the guide rails, when the driving mechanism drives the door-shaped support to move away from the conveying line, the left clamping block and the right clamping block clamp the grapefruit so that the grapefruit is separated from the contact pin, and then the cutting cylinder drives the blade to cut the peel at the bottom of the grapefruit; the left air cylinder and the right air cylinder respectively drive the left clamping block and the right clamping block to loosen the completely peeled pomelo, and the completely peeled pomelo enters the pomelo feeding hole from the guide pipe.

6. The grapefruit juicing production system according to claim 5, characterized in that: the conveying line comprises two chains which are arranged in parallel, the two chains intermittently move simultaneously through a driving chain wheel and a driven chain wheel, and two sides of each moving seat are fixedly connected with the two chains respectively; or the conveying line comprises two parallel synchronous belts, the two synchronous belts intermittently move simultaneously through a driving synchronous belt pulley and a driven synchronous belt pulley, and two sides of each moving seat are fixedly connected with the two synchronous belts respectively.

7. The grapefruit juicing production system of claim 6, wherein: the conveying line is provided with a pushing piece at a position close to each supporting rod, the pushing piece pushes the cutter bar to move so that the peeling cutter head does not contact with the grapefruit, the screw rod rotates, the nut moves upwards to drive the cutter bar to be separated from the pushing piece, and the torsion spring drives the cutter bar to lean against the grapefruit so that the peeling cutter head contacts with the grapefruit peel to peel;

the pushing piece is generally L-shaped, the upper end of the pushing piece inclines to one side of the supporting rod, the lower portion of the pushing piece is fixedly connected to a moving plate, two sides of the moving plate are fixedly connected with the two chains or the two synchronous belts respectively, and each moving plate is located between the two adjacent moving seats.

8. The grapefruit juicing production system according to claim 5, characterized in that: a vertical support is arranged on one side of the middle of the rack, the screw rod is vertically pivoted on the vertical support, two vertical guide grooves are formed in the vertical support, guide convex parts are arranged on two sides of the nut, each guide convex part is matched with one vertical guide groove, a second motor is arranged on the upper portion of the vertical support, and the second motor drives the screw rod to rotate through a driving shaft;

9. The grapefruit juicing production system according to claim 5, characterized in that: the peeling tool bit comprises a fixed block, the fixed block is fixedly connected with the cutter bar, an upper scraper and a lower scraper are fixedly connected onto the fixed block, the cutting edge of the upper scraper is parallel to or inclined with the axial direction of the supporting rod, and the cutting edge of the lower scraper is perpendicular to the axis of the supporting rod.

10. The grapefruit juicing production system according to claim 5, characterized in that: a left soft pad is fixedly arranged on one side, close to the grapefruit, of the left clamping block, and a right soft pad is fixedly arranged on one side, close to the grapefruit, of the right clamping block; the driving mechanism comprises a left push-pull air cylinder and a right push-pull air cylinder, one end of the left push-pull air cylinder is hinged to the rack, the other end of the left push-pull air cylinder is hinged to the door-shaped bracket, one end of the right push-pull air cylinder is hinged to the rack, and the other end of the right push-pull air cylinder is hinged to the door-shaped bracket;

the pushing cylinder is a double-stroke cylinder, the pushing cylinder drives the push rod to move through the driving piece during a first stroke, the push rod drives the grapefruit to move at a set position on the contact pin through the push block, the pushing cylinder drives the push rod to move through the driving piece during a second stroke, and the push rod drives the grapefruit to be separated from the contact pin through the push block;

still be equipped with the deflector below the door font support, link up a collecting vessel below the deflector, the skin after the blade cuts gets into the collecting vessel along the deflector.