CN113785992B - Self-adaptive pulp scraping device - Google Patents

Self-adaptive pulp scraping device Download PDF

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Publication number
CN113785992B
CN113785992B CN202110969222.4A CN202110969222A CN113785992B CN 113785992 B CN113785992 B CN 113785992B CN 202110969222 A CN202110969222 A CN 202110969222A CN 113785992 B CN113785992 B CN 113785992B
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scraper
fixed scraper
right fixed
sliding seat
left fixed
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CN113785992A (en
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桂慧
刘正成
刘新
徐嘉豪
刘小翠
孙亮波
章德平
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Wuhan Polytechnic University
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Wuhan Polytechnic University
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    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23NMACHINES 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
    • A23N7/00Peeling vegetables or fruit
    • A23N7/02Peeling potatoes, apples or similarly shaped vegetables or fruit
    • A23N7/023Peeling potatoes, apples or similarly shaped vegetables or fruit one by one

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  • Life Sciences & Earth Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Polymers & Plastics (AREA)
  • Apparatuses For Bulk Treatment Of Fruits And Vegetables And Apparatuses For Preparing Feeds (AREA)

Abstract

The invention provides a self-adaptive pulp scraping device which comprises a left fixed scraper (504), a right fixed scraper (507), a connecting seat (502) and a driving mechanism thereof, wherein the left fixed scraper (504) is fixedly connected with a left sliding seat (503), a peel channel is formed between the cutting edge part of the left fixed scraper (504) and the left sliding seat (503), the right fixed scraper (507) is fixedly connected with a right sliding seat (510), and a peel channel is formed between the cutting edge part of the right fixed scraper (507) and the right sliding seat (510); the connecting seat (502) drives the left sliding seat (503) and the right sliding seat (510) to synchronously and linearly move under the action of the driving mechanism. When the pulp scraping operation is carried out by utilizing the pulp scraping device, the peel is positioned in the peel channel, the power is provided by the connecting seat to enable the left fixed scraper and the right fixed scraper to synchronously act, the pulp scraping operation can be completed at one time, and the manual operation interference and the manual operation cooperation are not needed, so that the processing efficiency and the safety degree of the pulp scraping operation are improved.

Description

Self-adaptive pulp scraping device
Technical Field
The invention relates to the field of pulp scraping structure design, in particular to a self-adaptive pulp scraping device applied to automatic passion fruit processing equipment.
Background
Passion fruit, also called egg fruit, has thick and hard peel, can be used as feed and for extracting pectin, has succulent pulp, contains protein, fat, sugar, various vitamins and amino acids, and can be processed into fruit juice, jam, jelly and buccal tablets, and enjoys the reputation of juice king mainly because the fruit juice is processed for eating.
For the processing of the passion fruit, if manual operation is adopted for peeling, juice taking, pulp scraping and other operations, not only the labor intensity is high and the processing efficiency is low, but also operation safety accidents are easily caused because the peel of the passion fruit is thick and hard. Although the conventional common passion fruit processing equipment can complete the operations of peeling, juice extraction, pulp scraping and the like, the operations of peeling, juice extraction, pulp scraping and the like are mostly independently completed in steps and need to be intervened and matched by manual operation, so that the overall processing cost is improved, and the overall processing efficiency is reduced; particularly, in the pulp scraping operation, the residual pulp in the fruit peel is more, so that the waste of the pulp is increased, and the total effective utilization rate of the passion fruit is lower.
Disclosure of Invention
The technical problem to be solved by the invention is as follows: to the problem that prior art exists, provide a pulp device is scraped to self-adaptation, improve the machining efficiency and the degree of safety of scraping the pulp operation.
The technical problem to be solved by the invention is realized by adopting the following technical scheme: a self-adaptive pulp scraping device comprises a left fixed scraper, a right fixed scraper, a connecting seat and a driving mechanism thereof, wherein the left fixed scraper is fixedly connected with a left sliding seat, a peel channel is formed between a cutting edge part of the left fixed scraper and the left sliding seat, the right fixed scraper is fixedly connected with a right sliding seat, and a peel channel is formed between the cutting edge part of the right fixed scraper and the right sliding seat; the connecting seat drives the left sliding seat and the right sliding seat to do synchronous linear motion under the action of the driving mechanism of the connecting seat.
Preferably, the connecting seat form sliding fit structure with left slide, right slide respectively, set up the second extension spring between left slide and right slide.
Preferably, the left fixed scraper and the right fixed scraper respectively form a movable connection structure with the front movable scraper, the left fixed scraper, the front movable scraper and the right fixed scraper jointly form a U-shaped structure, and the edge parts of the left fixed scraper, the front movable scraper and the right fixed scraper all point to the outer side of the U-shaped structure; in the process of increasing the distance between the left fixed scraper and the right fixed scraper, the front movable scraper extends outwards relative to the left fixed scraper and the right fixed scraper respectively; and in the process of reducing the distance between the left fixed scraper and the right fixed scraper, the front movable scraper retracts inwards relative to the left fixed scraper and the right fixed scraper respectively.
Preferably, the left fixed scraper and the right fixed scraper are respectively provided with a front guide sliding chute, and the front guide sliding chute on the left fixed scraper and the front guide sliding chute on the right fixed scraper form a splayed structure together; the front movable scraper is connected with the left fixed scraper and the right fixed scraper through the guide sliding shafts respectively, and the guide sliding shafts respectively slide in the range limited by the corresponding front guide sliding chutes.
Preferably, the scraper device further comprises a rear movable scraper, the left fixed scraper and the right fixed scraper respectively form a movable connection structure with the rear movable scraper, the left fixed scraper, the front movable scraper, the right fixed scraper and the rear movable scraper jointly form an annular structure, and the cutting edge parts of the left fixed scraper, the front movable scraper, the right fixed scraper and the rear movable scraper point to the outer side of the annular structure; in the process of increasing the distance between the left fixed scraper and the right fixed scraper, the front movable scraper and the rear movable scraper respectively extend outwards relative to the left fixed scraper and the right fixed scraper; and in the process of reducing the distance between the left fixed scraper and the right fixed scraper, the front movable scraper and the rear movable scraper respectively move inwards relative to the left fixed scraper and the right fixed scraper.
Preferably, the left fixed scraper and the right fixed scraper are respectively provided with a rear guide chute, and the rear guide chute on the left fixed scraper and the rear guide chute on the right fixed scraper jointly form a splayed structure; the rear movable scraper is connected with the left fixed scraper and the right fixed scraper through the guide sliding shafts respectively, and the guide sliding shafts slide in the range limited by the corresponding rear guide sliding grooves respectively.
Preferably, the cutting edge portion on the left fixed scraper, or the cutting edge portion on the front movable scraper, or the cutting edge portion on the right fixed scraper, or the cutting edge portion on the rear movable scraper forms a circular arc-shaped structure.
Preferably, a left guide pulley is arranged on the left sliding seat, a movable connecting structure which rotates relatively is formed between the left guide pulley and the left sliding seat, and a peel channel is formed between the left guide pulley and a cutting edge part on the left fixed scraper; or the right sliding seat is provided with a right guide pulley, a movable connecting structure capable of rotating relatively is formed between the right guide pulley and the right sliding seat, and a peel channel is formed between the right guide pulley and the edge part on the right fixed scraper.
Preferably, the driving mechanism of the connecting seat comprises an electric push rod, the electric push rod is supported by a fixing support, and the action output end of the electric push rod is fixedly connected with the connecting seat.
Preferably, the fixed support is provided with a telescopic support, the telescopic support adjusts the telescopic action through an elastic knob, and the telescopic action output end of the telescopic support is fixedly connected with the electric push rod.
Compared with the prior art, the invention has the beneficial effects that: when scraping pulp operation, the peel is arranged in the peel passageway, drives left slide, right slide and makes synchronous rectilinear motion under its actuating mechanism's effect through the connecting seat, can make left fixed scraper, right fixed scraper move for the peel to can utilize the synchronous action of left fixed scraper, right fixed scraper to come the disposable completion and scrape pulp operation, do not need manual operation's intervention and cooperation, consequently, greatly improved the machining efficiency and the degree of safety of scraping pulp operation.
Drawings
Fig. 1 is a general assembly drawing of an automatic passion fruit processing device.
Fig. 2 is a three-dimensional structural view of the machining center in fig. 1.
Fig. 3 is a partially enlarged view of a portion a in fig. 2.
Fig. 4 is an isometric view of the outfeed mechanism of fig. 1.
Fig. 5 is a front view of the discharge mechanism shown in fig. 4.
Fig. 6 is a partially enlarged view of fig. 5 at B.
Fig. 7 is an isometric view of the ring cam of fig. 5.
Fig. 8 is a front view of the outfeed mechanism shown in fig. 4 (ring cam not shown).
Fig. 9 is a sectional view (partially enlarged) at C in fig. 8.
FIG. 10 is an isometric view of the ring cam drive mechanism (lower ratchet not shown).
FIG. 11 is an isometric view of the ring cam drive mechanism (upper ratchet not shown).
Fig. 12 is a schematic view of the motion of the ring cam driving mechanism.
Fig. 13 is an isometric view of the alignment device.
Fig. 14 is a front view of the centering device (not centering).
Fig. 15 is a front view of the setting device (at the time of setting).
Figure 16 is an isometric view (front) of the incision tapping device.
Figure 17 is an isometric view of the incision juicer (back).
Fig. 18 is a front view (front) of the incision juicer.
FIG. 19 is a front view (back side) of the incision juicer.
FIG. 20 is a top view of the incision juicer.
Fig. 21 is an isometric view of a fleshing device of the present invention (with a telescoping support).
Fig. 22 is an isometric view of a fleshing device of the present invention (without the telescoping support).
Fig. 23 is an isometric view of a scraper configuration in a device for scraping pulp according to the invention.
Fig. 24 is a front view of a scraper configuration in a device for scraping pulp according to the invention.
Fig. 25 is an isometric view of a collection device.
The labels in the figure are: 1-conveyor belt, 2-feeding and discharging device, 3-aligning device, 4-incision juice extracting device, 5-pulp scraping device, 6-collecting device, 7-protective cover, 8-bracket, 201-funnel, 202-discharging pipe, 203-shell, 204-circular cam, 204 a-boss part, 204 b-groove part, 205-skip bucket, 206-push rod, 207-hinged frame, 208-hinged baffle, 209-rotating shaft, 210-roller, 211-limit bracket, 212-base, 213-upper ratchet wheel, 214-upper pawl, 215-upper cylinder, 216-lower pawl, 217-lower cylinder, 218-assembly seat, 219-driving connecting rod, 220-lower ratchet wheel, 221-first tension spring, 301-clamping jaw, 302-finger cylinder, 302 a-clamping rod, 303-aligning wheel, 304-pressure spring, 401-fixed cutter seat, 402-sliding cutter frame, 403-peeling cutter, 404-crank, 405-406, 406-connecting rod frame, 406-pin shaft-groove, 407-sliding seat, 418-sliding seat, 410-left-extruding connecting rod, 410-guide seat, 410-extruding motor, 410-guide seat, 410-extruding motor, 410-pulley, 410-guide seat, 410-guide groove, 416-pulley, 410-guide pulley, 410-bar, 410-guide seat, 506-a front movable scraper, 507-a right fixed scraper, 508-a right guide pulley, 509-a second tension spring, 510-a right sliding seat, 511-a fixed bracket, 512-a telescopic bracket, 513-a rear movable scraper, 514-a guide sliding shaft, 515-a guide sliding groove, 515 a-a front guide sliding groove, 515 b-a rear guide sliding groove, 516-a tightening knob, 601-a pulp collecting box, 602-a peel collecting box, 603-a sieve tray, 604-a pulp separating box, 605-a peel separating box, 606-a juice collecting box and 607-a limiting rod.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The automatic passion fruit processing equipment shown in fig. 1, 2 and 3 mainly comprises a conveyor belt 1, a feeding and discharging device 2, a straightening device 3, a notch juice extracting device 4, a pulp scraping device 5 and a collecting device 6, wherein the conveyor belt 1 continuously conveys passion fruits to the feeding and discharging device 2, the feeding and discharging device 2 sequentially outputs the passion fruits to the straightening device 3 one by one, the notch juice extracting device 4 comprises a notch mechanism and a juice extracting mechanism, and after the straightening device 3 clamps the passion fruits on the straightening device 3, the clamped passion fruits are peeled through the notch mechanism to form notches, and then juice extracting operation is carried out on the peeled and notched parts of the passion fruits through the juice extracting mechanism. And (4) scraping pulp in the inner cavity of the passion fruit by the pulp scraping device 5 after juice extracting operation. As shown in fig. 25, the collecting device 6 comprises a peel separating box 605 and a flesh separating box 604, and sieve trays 603 are respectively arranged in the hollow cavities of the flesh separating box 604 and the peel separating box 605; the outlet ends of the sieve trays 603 on the pulp separation box 604 are respectively provided with a pulp collection box 601 and a juice collection box 606, and the outlet ends of the sieve trays 603 on the peel separation box 605 are respectively provided with a peel collection box 602 and a juice collection box 606.
During the processing of the passion fruit, the peel and the juice generated in the operation of the incision juice extraction device 4 fall through the peel separation box 605, wherein the peel is screened out through the sieve tray 603 on the peel separation box 605 and then falls into the peel collection box 602 for collection, and the juice enters the juice collection box 606 for collection. The pulp and juice produced by the operation of the pulp scraping device 5 fall through the pulp separating box 604, the pulp is screened out through the screening tray 603 on the pulp separating box 604 and then falls into the pulp collecting box 601 for collection, and the juice enters the juice collecting box 606 for collection. Typically, the pulp separation bin 604 and the pulp collection bin 601 may be connected by a stop lever 607 to ensure maximum collection of pulp. In addition, the feeding and discharging device 2, the aligning device 3, the incision juice extracting device 4, the pulp scraping device 5 and the collecting device 6 are preferably arranged on a frame inside the protective cover 7, so as to avoid the pollution of the working environment during the processing of the passion fruit. Specifically, the method comprises the following steps:
as shown in fig. 4, 5, and 6, the feeding and discharging device 2 includes a funnel 201 and a discharging mechanism, an inlet end of the funnel 201 is located below an outlet end of the conveyor belt 1, an outlet end of the funnel 201 is communicated with the discharging mechanism, and passion fruits are sequentially output one by one to the aligning device 3 through the discharging mechanism. The discharging mechanism comprises a discharging pipe 202, a tipping bucket 205 and a driving mechanism thereof, and the driving mechanism of the tipping bucket 205 comprises a push rod 206, a hinged baffle plate 208, an annular cam 204 and a driving mechanism thereof. The discharging pipe 202 is communicated with a tipping bucket 205, the tipping bucket 205 is covered by an outer shell 203, the tipping bucket 205 and the outer shell 203 form a movable connecting structure which rotates relatively through a rotating shaft 209, and the outer shell 203 is fixedly connected with the discharging pipe 202. As shown in fig. 8 and 9, a limit bracket 211 is formed on the housing 203, a through hole is formed on the limit bracket 211, and a clearance fit structure is formed between the push rod 206 and the through hole to ensure that the push rod 206 can freely move up and down relative to the limit bracket 211; one end of the push rod 206 is a free end, a movable connecting structure can be formed between the other end of the push rod 206 and one end of the hinged baffle plate 208 through the hinged bracket 207, and the other end of the hinged baffle plate 208 and the tipping bucket 205 form a movable connecting structure.
The end of the ring cam 204 is formed with boss portions 204a and groove portions 204b alternately arranged in this order, and as shown in fig. 7, the driving mechanism of the ring cam 204 includes an upper ratchet wheel 213, an upper pawl 214, and a lower ratchet wheel 220 and a lower pawl 216, and the upper pawl 214 is driven by an upper cylinder 215. A movable connecting structure which rotates relatively is formed between the lower pawl 216 and the driving connecting rod 219, a first tension spring 221 is arranged between the driving connecting rod 219 and the lower pawl 216, the driving connecting rod 219 is driven by a lower air cylinder 217, wherein the upper air cylinder 215 and the lower air cylinder 217 are both arranged on the base 212; the annular cam 204, the upper ratchet wheel 213 and the lower ratchet wheel 220 are overlapped through the assembling seat 218 to form a synchronous rotating structure, when the lower pawl 216 drives the lower ratchet wheel 220 to rotate for a certain angle, the lower ratchet wheel is reset through the first tension spring 221, and the upper ratchet wheel 213 is braked through the upper pawl 214, as shown in fig. 10, 11 and 12, so that the annular cam 204 rotates for a certain angle. When the ring cam 204 is rotated relative to the dump bucket 205 by the drive mechanism, the push rod 206 is driven to linearly move up and down relative to the ring cam 204 by the boss portion 204a and the groove portion 204b at the end portion of the ring cam 204, and the dump bucket 205 is driven to turn over relative to the spout 202 by the vertical linear movement of the push rod 206 via the hinge fence 208. In order to reduce the friction loss between the push rod 206 and the ring cam 204, a roller 210 may be disposed at the free end of the push rod 206, and the roller 210 and the push rod 206 form a movable connection structure for relative rotation, as shown in fig. 6.
When the feeding and discharging device 2 works, the tipping bucket 205 turns relative to the discharging pipe 202 under the action of the driving mechanism, and the passion fruit received from the discharging pipe 202 is sequentially output to the aligning device 3 one by one. Specifically, the passion fruit is firstly output to the funnel 201 by the conveyor belt 1 and then enters the discharge pipe 202 for temporary storage. When the passion fruit is required to come out of the discharging pipe 202, the annular cam 204 rotates under the action of the driving mechanism and pushes up the push rod 206 through the boss part 204a on the annular cam, the tipping bucket 205 is turned over and loosened, the passion fruit in the tipping bucket 205 can fall down, and meanwhile, the hinged blocking piece 208 rises and blocks the previous passion fruit from falling down. Then, as the ring cam 204 continues to rotate, when the push rod 206 passes through the groove portion 204b of the ring cam 204, the push rod 206 will fall down by its own weight, the hinge blocking piece 208 will also fall down, the dump bin 205 will be turned over and closed, and the previously blocked passion fruit will fall to and be blocked by the dump bin 205.
The feeding and discharging device 2 outputs passion fruit to the straightening device 3 one by one in sequence, as shown in fig. 13, 14 and 15, the straightening device 3 comprises a finger cylinder 302, the finger cylinder 302 is fixedly connected with the annular cam 204, 2 clamping rods 302a on the finger cylinder 302 are respectively and fixedly connected with independent clamping jaws 301, a sliding groove for mounting a straightening wheel 303 is formed on the clamping jaws 301, the sliding groove preferably adopts an arc groove structure, and the straightening wheel 303 slides relative to the clamping jaws 301 through the sliding groove; 2 straightening wheels 303 are arranged on the same clamping jaw 301, and a pressure spring 304 is arranged between each straightening wheel 303 and the clamping jaw 301. When the straightening device 3 is not performing the straightening operation, each straightening wheel 303 stays at the center position of the gripping jaw 301 by the corresponding compression spring 304, as shown in fig. 14. When the straightening device 3 performs straightening operation on the received passion fruit, the two opposite clamping jaws 301 clamp towards the center, the pressure of the outer skin of the passion fruit also enables the straightening wheels 303 to move towards two sides along the sliding grooves on the clamping jaws 301, and meanwhile, the straightening wheels 303 enable the passion fruit to rotate in a small range until the passion fruit is straightened, as shown in fig. 15.
After the centering device 3 performs centering operation on the received passion fruit, the passion fruit is clamped and fixed by the clamping jaw 301 and is in a centering state, and then the cut juice extracting device 4 performs peeling, cutting and juice extracting operation on the passion fruit clamped and centered by the centering device 3. As shown in fig. 16-20, the incision juicing device 4 comprises an incision mechanism and a juicing mechanism, the incision mechanism comprises a fixed knife holder 401, a sliding knife holder 402 and a driving mechanism thereof, the fixed knife holder 401 is assembled on a mounting seat 419, as shown in fig. 3, the driving mechanism of the sliding knife holder 402 comprises a peeling crank 404 and a peeling connecting rod 412, and opposite ends of the peeling connecting rod 412 form movable connection structures with the peeling crank 404 and the sliding knife holder 402 respectively. A sliding fit structure is formed between the sliding tool rest 402 and the fixed tool apron 401, and a peeling tool 403 is arranged on the sliding tool rest 402; the sliding tool holder 402 slides linearly back and forth relative to the fixed tool holder 401 under the action of the driving mechanism.
The juice extracting mechanism on the incision juice extracting device 4 comprises a fixed sliding seat 410, an extruding plate 409 and a driving mechanism thereof, the fixed sliding seat 410 and the shell 203 form a fixed connection structure, the driving mechanism of the extruding plate 409 comprises a movable sliding seat 407, a connecting rod frame 406 and a driving mechanism thereof, and the driving mechanism of the connecting rod frame 406 comprises a juice extracting crank 411 and a juice extracting connecting rod 414. The fixed sliding seat 410 is a hollow cavity structure, two extrusion plates 409 are arranged, and the two extrusion plates 409 are arranged on two opposite sides of the hollow cavity of the fixed sliding seat 410 in a relatively parallel manner, as shown in fig. 16 and 18.
Two opposite ends of the connecting rod frame 406 are respectively provided with a strip-shaped groove 406a, two movable sliding seats 407 are arranged, each movable sliding seat 407 forms a sliding fit structure with the connecting rod frame 406 through the strip-shaped groove 406a, a movable connecting structure is formed between each movable sliding seat 407 and an adjacent extrusion plate 409 through an upper connecting rod 408 and a lower connecting rod 413, and the upper connecting rod 408 and the lower connecting rod 413 respectively form a movable connecting structure which rotates relatively with the fixed sliding seat 410 through a pin 416. The two opposite ends of the juice-extracting connecting rod 414 respectively form a movable connecting structure with the juice-extracting crank 411 and the connecting rod frame 406. The juice extracting crank 411 drives the connecting rod frame 406 to do up-and-down linear motion relative to the fixed sliding seat 410 through the juice extracting connecting rod 414, the movable sliding seat 407 slides relative to the connecting rod frame 406 within the limited range of the strip-shaped groove 406a, and two squeezing plates 409 are driven to approach or move away from each other through the upper connecting rod 408 and the lower connecting rod 413 so as to form squeezing action. The juice taking crank 411 and the peeling crank 404 are driven by a belt 405, the belt 405 is covered by a shell seat 417, and the shell seat 417 is assembled on an installation seat 419 to protect the driving safety of the belt 405, facilitate the installation of the juice taking crank 411 and the peeling crank 404 and ensure that the whole assembly structure is more compact; the peeling crank 404 is driven by a motor 418, as shown in fig. 17, 19 and 20.
When the incision juice extracting device 4 works, the motor 418 drives the peeling crank 404 to rotate, and the peeling crank 404 drives the juice extracting crank 411 to rotate through the belt 405. Wherein, the juice extracting crank 411 drives the extruding plate 409 to move upward relative to the fixed sliding seat 410 so as to avoid the interference between the sliding tool holder 402 and the extruding plate 409. Then, the sliding tool holder 402 is driven to advance by the peeling crank 404 until the peeling tool 403 cuts off a part of the peel of the passion fruit which is clamped and straightened by the straightening device 3. The cut peel enters a peel separation box 605, after being filtered by a sieve tray 603 in a hollow cavity of the peel separation box 605, the juice enters a juice collecting box 606, and the peel enters a peel collecting box 602. When the peeling crank 404 drives the peeling cutter 403 to retreat, the two squeezing plates 409 move towards each other under the action of the driving mechanism to form squeezing action, that is, the juice extracting crank 411 drives the connecting rod frame 406 to move downwards relative to the fixed sliding seat 410 through the juice extracting connecting rod 414, and the movable sliding seat 407 slides outwards relative to the connecting rod frame 406 within the limited range of the strip-shaped groove 406a, so that the two squeezing plates 409 can be driven to approach each other through the upper connecting rod 408 and the lower connecting rod 413 to form squeezing action. In the process that the squeezing plates 409 continuously descend, the bottom of the squeezing plates 409 are gradually inserted into the passion fruit from the position, with the peel cut off, of the passion fruit, meanwhile, the two squeezing plates 409 move oppositely to form squeezing action, juice can be squeezed out through the squeezing plates 409, and the squeezed juice enters the juice collecting box 606 to be collected.
In order to ensure the reliability and stability of the squeezing action of the two squeezing plates 409, the connecting rod frame 406 and the guide wheel 415 can form a movable connection structure, the fixed sliding seat 410 is provided with a guide groove 410b, and a limiting groove 410a for accommodating the squeezing plates 409 is formed in the hollow cavity of the fixed sliding seat 410, as shown in fig. 17; and, when the link frame 406 linearly moves up and down with respect to the fixed slider 410, the guide wheel 415 linearly moves within a range defined by the guide groove 410 b. In addition, 2 peeling cutters 403 on the sliding cutter holder 402 can be arranged, and 2 peeling cutters 403 are arranged in parallel relatively, as shown in fig. 19, so that the sliding cutter holder 402 can cut off the peel at the upper end and the lower end of the clamped and aligned passion fruit simultaneously by using 2 peeling cutters 403 through one action stroke, which is beneficial to improving the juice extracting efficiency of the incision juice extracting device 4.
After the juice extracting operation is performed on the tightly clamped and aligned passion fruit by the incision juice extracting device 4, a large amount of pulp remains in the passion fruit. To avoid waste, a pulp scraping device 5 can be additionally arranged. As shown in fig. 21 and 22, the pulp scraping device 5 mainly includes a left fixed scraper 504, a right fixed scraper 507, a connecting seat 502 and a driving mechanism thereof, the driving mechanism of the connecting seat 502 includes an electric push rod 501, the electric push rod 501 is supported by a fixed support 511, and an action output end of the electric push rod 501 is fixedly connected with the connecting seat 502. The left fixed scraper 504 and the left sliding seat 503 are fixedly connected, a peel channel is formed between the edge part of the left fixed scraper 504 and the left sliding seat 503, the right fixed scraper 507 and the right sliding seat 510 are fixedly connected, and a peel channel is formed between the edge part of the right fixed scraper 507 and the right sliding seat 510. When the pulp scraping device 5 works, the connecting seat 502 drives the left slide carriage 503 and the right slide carriage 510 to make a synchronous linear motion under the action of the driving mechanism. Specifically, the method comprises the following steps:
after the ring cam 204 rotates a certain angle, the finger cylinder 302 fixedly connected with the ring cam is driven to rotate the same angle, so that the passion fruit clamped and aligned on the aligning device 3 and processed by the incision juice taking device 4 rotates to the working position of the pulp scraping device 5. The electric push rod 501 drives the connecting base 502 to move linearly downward, and the connecting base 502 drives the left slide carriage 503 and the right slide carriage 510 to move linearly downward synchronously. In the process that the left sliding seat 503 and the right sliding seat 510 synchronously move linearly downwards, the peel on the passion fruit is located in the peel channel, and the left fixed scraper 504 and the right fixed scraper 507 move downwards, so that the passion fruit on the straightening device 3 can be subjected to pulp scraping operation. The pulp and juice fall through the pulp separating box 604, and the pulp is screened out through the sieve tray 603 on the pulp separating box 604 and falls into the pulp collecting box 601, while the juice enters the juice collecting box 606.
In order to ensure the smooth operation of the pulp scraping device 5 and improve the pulp scraping efficiency, a left guide pulley 505 may be disposed on the left sliding seat 503, a movable connection structure that rotates relatively is formed between the left guide pulley 505 and the left sliding seat 503, and a peel channel is formed between the left guide pulley 505 and the cutting edge portion of the left fixed scraper 504; similarly, a right guide pulley 508 may be disposed on the right sliding seat 510, a movable connection structure for relative rotation is formed between the right guide pulley 508 and the right sliding seat 510, and a peel channel is formed between the right guide pulley 508 and the cutting edge portion of the right fixed scraper 507. Therefore, during the operation of the pulp scraping device 5, the peel of the passion fruit is positioned in the peel channel, and the left guide pulley 505 and the right guide pulley 508 can respectively form rolling friction through contact with the outer peel of the passion fruit.
In order to further improve the efficiency of the pulp scraping operation of the pulp scraping device 5 and reduce the residual pulp waste, the connecting seat 502 may be respectively formed with the left slide carriage 503 and the right slide carriage 510 as a sliding fit structure, and a second tension spring 509 is disposed between the left slide carriage 503 and the right slide carriage 510, as shown in fig. 22. The left fixed scraper 504 and the right fixed scraper 507 respectively form a movable connection structure with the front movable scraper 506, the left fixed scraper 504, the front movable scraper 506 and the right fixed scraper 507 jointly form a U-shaped structure, and the cutting edge parts of the left fixed scraper 504, the front movable scraper 506 and the right fixed scraper 507 all point to the outer side of the U-shaped structure; during the process of increasing the distance between the left fixed blade 504 and the right fixed blade 507, the front movable blade 506 extends outwards relative to the left fixed blade 504 and the right fixed blade 507 respectively; during the process of reducing the distance between the left fixed blade 504 and the right fixed blade 507, the front movable blade 506 moves inwardly relative to the left fixed blade 504 and the right fixed blade 507, respectively.
Further, the left fixed scraper 504, the right fixed scraper 507 and the rear movable scraper 513 may form a movable connection structure, the left fixed scraper 504, the front movable scraper 506, the right fixed scraper 507 and the rear movable scraper 513 form a ring structure together, and the cutting edges of the left fixed scraper 504, the front movable scraper 506, the right fixed scraper 507 and the rear movable scraper 513 all point to the outside of the ring structure. In the process of increasing the distance between the left fixed blade 504 and the right fixed blade 507, the front movable blade 506 and the rear movable blade 513 respectively extend outwards relative to the left fixed blade 504 and the right fixed blade 507; during the process of reducing the distance between the left fixed blade 504 and the right fixed blade 507, the front movable blade 506 and the rear movable blade 513 retract inward relative to the left fixed blade 504 and the right fixed blade 507, respectively. Further, the edge portion of the left fixed blade 504, the edge portion of the front movable blade 506, the edge portion of the right fixed blade 507, and the edge portion of the rear movable blade 513 are formed in an arc shape as shown in fig. 23 and 24.
In order to ensure the flexibility of the movement of the front movable scraper 506 and the rear movable scraper 513, usually, guide sliding grooves 515 are respectively formed on the left fixed scraper 504 and the right fixed scraper 507, the front movable scraper 506 and the rear movable scraper 513 are respectively connected with the left fixed scraper 504 and the right fixed scraper 507 through guide sliding shafts 514, and the guide sliding shafts 514 respectively slide within the range defined by the corresponding guide sliding grooves 515. Specifically, a front guide sliding groove 515a is respectively formed in the left fixed scraper 504 and the right fixed scraper 507, and the front guide sliding groove 515a on the left fixed scraper 504 and the front guide sliding groove 515a on the right fixed scraper 507 form a splayed structure together; the front movable scraper 506 is respectively connected with the left fixed scraper 504 and the right fixed scraper 507 through a sliding guide shaft 514, and the sliding guide shafts 514 respectively slide in the range defined by the corresponding front guide sliding chutes 515 a. Similarly, a rear sliding guide slot 515b is respectively arranged on the left fixed scraper 504 and the right fixed scraper 507, and the rear sliding guide slot 515b on the left fixed scraper 504 and the rear sliding guide slot 515b on the right fixed scraper 507 form a splayed structure together; the rear movable scraper 513 is connected to the left fixed scraper 504 and the right fixed scraper 507 through a sliding guide shaft 514, and the sliding guide shaft 514 slides in the range defined by the corresponding rear sliding guide slot 515 b.
With the above structure design, when the pulp scraping device 5 does not work, the left sliding seat 503 and the right sliding seat 510 approach each other under the action of the second tension spring 509, and at this time, the front movable scraper 506 and the rear movable scraper 513 keep a tightened state relative to the left fixed scraper 504 and the right fixed scraper 507, respectively. When the pulp scraping device 5 works, the electric push rod 501 drives the left fixed scraper 504, the front movable scraper 506, the right fixed scraper 507 and the rear movable scraper 513 to descend synchronously, the left guide pulley 505 and the right guide pulley 508 are respectively attached to the outer skin of the passion fruit, and the left fixed scraper 504, the front movable scraper 506, the right fixed scraper 507 and the rear movable scraper 513 continuously go deep into the inner cavity of the passion fruit and are spread inside the passion fruit, so that the left fixed scraper 504, the front movable scraper 506, the right fixed scraper 507 and the rear movable scraper 513 can scrape pulp along the inner skin of the passion fruit. As shown in fig. 21, a telescopic bracket 512 may be provided on the fixed bracket 511, the telescopic bracket 512 adjusts the telescopic action thereof by a tightening/loosening knob 516, and the telescopic action output end of the telescopic bracket 512 is fixedly connected to the electric push rod 501. Therefore, by adjusting the telescopic bracket 512 by the tightening and loosening knob 516, the left fixed scraper 504, the front movable scraper 506, the right fixed scraper 507 and the rear movable scraper 513 can be adjusted and ensured to be inserted into the cavity of the passion fruit from proper positions.
It should be noted that the automatic passion fruit processing device is not only suitable for processing passion fruits, but also suitable for processing other fruits similar to the passion fruits. In order to ensure that the aligning device 3 can safely receive the passion fruit and ensure that the incision juice extracting device 4 can safely and reliably peel and extract juice from the passion fruit which is tightly aligned by the aligning device 3, a bracket 8 can be fixedly arranged in the inner cavity of the peel separating box 605, and when the passion fruit comes out from the discharging pipeline and passes through the hollow cavity of the fixed sliding seat 410, the passion fruit can be supported by the bracket 8, as shown in fig. 3 and 25.
The present invention should be considered as limited only by the preferred embodiments and not by the specific details, but rather as limited only by the accompanying drawings, and as used herein, is intended to cover all modifications, equivalents and improvements falling within the spirit and scope of the invention.

Claims (8)

1. The utility model provides a pulp device is scraped to self-adaptation which characterized in that: the fruit peel scraper mechanism comprises a left fixed scraper (504), a right fixed scraper (507), a connecting seat (502) and a driving mechanism thereof, wherein the left fixed scraper (504) is fixedly connected with a left sliding seat (503), a fruit peel channel is formed between the cutting edge part of the left fixed scraper (504) and the left sliding seat (503), the right fixed scraper (507) is fixedly connected with a right sliding seat (510), and a fruit peel channel is formed between the cutting edge part of the right fixed scraper (507) and the right sliding seat (510); the left fixed scraper (504) and the right fixed scraper (507) respectively form a movable connection structure with the front movable scraper (506), the left fixed scraper (504), the front movable scraper (506) and the right fixed scraper (507) jointly form a U-shaped structure, and the cutting edge parts of the left fixed scraper (504), the front movable scraper (506) and the right fixed scraper (507) point to the outer side of the U-shaped structure; in the process of increasing the distance between the left fixed scraper (504) and the right fixed scraper (507), the front movable scraper (506) extends outwards relative to the left fixed scraper (504) and the right fixed scraper (507); in the process of reducing the distance between the left fixed scraper (504) and the right fixed scraper (507), the front movable scraper (506) retracts inwards relative to the left fixed scraper (504) and the right fixed scraper (507); the connecting seat (502) forms a sliding fit structure with the left sliding seat (503) and the right sliding seat (510) respectively, and a second tension spring (509) is arranged between the left sliding seat (503) and the right sliding seat (510); the connecting seat (502) drives the left sliding seat (503) and the right sliding seat (510) to synchronously and linearly move under the action of the driving mechanism.
2. The adaptive fleshing device of claim 1, wherein: the left fixed scraper (504) and the right fixed scraper (507) are respectively provided with a front guide sliding groove (515 a), and the front guide sliding groove (515 a) on the left fixed scraper (504) and the front guide sliding groove (515 a) on the right fixed scraper (507) jointly form a splayed structure; the front movable scraper (506) is respectively connected with the left fixed scraper (504) and the right fixed scraper (507) through a guide sliding shaft (514), and the guide sliding shaft (514) respectively slides in the range limited by the corresponding guide sliding chute (515 a).
3. The adaptive fleshing device of claim 1, wherein: the scraper structure comprises a left fixed scraper (504), a right fixed scraper (507), a rear movable scraper (513), a movable connecting structure, a ring structure and cutting edges, wherein the left fixed scraper (504), the front movable scraper (506), the right fixed scraper (507) and the rear movable scraper (513) jointly form the movable connecting structure, the cutting edges of the left fixed scraper (504), the front movable scraper (506), the right fixed scraper (507) and the rear movable scraper (513) point to the outer side of the ring structure; in the process of increasing the distance between the left fixed scraper (504) and the right fixed scraper (507), the front movable scraper (506) and the rear movable scraper (513) respectively extend outwards relative to the left fixed scraper (504) and the right fixed scraper (507); and in the process of reducing the distance between the left fixed scraper (504) and the right fixed scraper (507), the front movable scraper (506) and the rear movable scraper (513) respectively move inwards relative to the left fixed scraper (504) and the right fixed scraper (507).
4. The adaptive fleshing device of claim 3, wherein: the left fixed scraper (504) and the right fixed scraper (507) are respectively provided with a rear guide sliding groove (515 b), and the rear guide sliding groove (515 b) on the left fixed scraper (504) and the rear guide sliding groove (515 b) on the right fixed scraper (507) jointly form a splayed structure; the rear movable scraper (513) is connected with the left fixed scraper (504) and the right fixed scraper (507) through the sliding guide shafts (514), and the sliding guide shafts (514) slide in the range limited by the corresponding rear sliding guide grooves (515 b).
5. The adaptive fleshing device of claim 3, wherein: the edge part on the left fixed scraper (504), the edge part on the front movable scraper (506), the edge part on the right fixed scraper (507) or the edge part on the rear movable scraper (513) form an arc-shaped structure.
6. The adaptive fleshing device of any one of claims 1 to 5, wherein: a left guide pulley (505) is arranged on the left sliding seat (503), a movable connecting structure which rotates relatively is formed between the left guide pulley (505) and the left sliding seat (503), and a peel channel is formed between the left guide pulley (505) and a cutting edge part on the left fixed scraper (504); or, the right sliding seat (510) is provided with a right guide pulley (508), a movable connecting structure capable of rotating relatively is formed between the right guide pulley (508) and the right sliding seat (510), and a peel channel is formed between the right guide pulley (508) and a cutting edge part on the right fixed scraper (507).
7. The adaptive fleshing device of any one of claims 1 to 5, wherein: the driving mechanism of the connecting seat (502) comprises an electric push rod (501), the electric push rod (501) is supported by a fixing support (511), and the action output end of the electric push rod (501) is fixedly connected with the connecting seat (502).
8. The adaptive fleshing device of claim 7, wherein: the telescopic electric push rod is characterized in that a telescopic support (512) is arranged on the fixed support (511), the telescopic action of the telescopic support (512) is adjusted through an elastic knob (516), and the telescopic action output end of the telescopic support (512) is fixedly connected with the electric push rod (501).
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Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2740095Y (en) * 2004-09-30 2005-11-16 汪恩光 Vegetable and fruit peeler with double knives
CN105614903A (en) * 2016-03-17 2016-06-01 武汉轻工大学 Husking machine for shiny-leaved yellowhorn
CN209020304U (en) * 2018-10-19 2019-06-25 江西亿彩涂料有限公司 A kind of powder of lacquer putty for use on homogenizer
CN110141101A (en) * 2019-04-18 2019-08-20 东莞市图什日用品有限公司 Adjustable melon and fruit peeler
JP2020031620A (en) * 2018-08-27 2020-03-05 株式会社平野製作所 Pineapple cutting device and method
CN110904910A (en) * 2019-12-03 2020-03-24 张凤杰 Equipment for cleaning thin ice on road surface
CN111227264A (en) * 2020-03-13 2020-06-05 武汉轻工大学 Passion fruit processingequipment
CN113115964A (en) * 2021-04-26 2021-07-16 广德英璐机械加工有限公司 Lime shell processing equipment

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2740095Y (en) * 2004-09-30 2005-11-16 汪恩光 Vegetable and fruit peeler with double knives
CN105614903A (en) * 2016-03-17 2016-06-01 武汉轻工大学 Husking machine for shiny-leaved yellowhorn
JP2020031620A (en) * 2018-08-27 2020-03-05 株式会社平野製作所 Pineapple cutting device and method
CN209020304U (en) * 2018-10-19 2019-06-25 江西亿彩涂料有限公司 A kind of powder of lacquer putty for use on homogenizer
CN110141101A (en) * 2019-04-18 2019-08-20 东莞市图什日用品有限公司 Adjustable melon and fruit peeler
CN110904910A (en) * 2019-12-03 2020-03-24 张凤杰 Equipment for cleaning thin ice on road surface
CN111227264A (en) * 2020-03-13 2020-06-05 武汉轻工大学 Passion fruit processingequipment
CN113115964A (en) * 2021-04-26 2021-07-16 广德英璐机械加工有限公司 Lime shell processing equipment

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