CN214283240U - Sponge layer separating mechanism for passion fruit processing - Google Patents
Sponge layer separating mechanism for passion fruit processing Download PDFInfo
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- CN214283240U CN214283240U CN202021445053.1U CN202021445053U CN214283240U CN 214283240 U CN214283240 U CN 214283240U CN 202021445053 U CN202021445053 U CN 202021445053U CN 214283240 U CN214283240 U CN 214283240U
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Abstract
The utility model discloses a sponge layer separating mechanism for passion fruit processing, including eccentric scraper, the apparatus further comprises a rotating shaft, separation motor and push-and-pull mechanism, eccentric scraper fixed connection is in pivot one end, the pivot other end is connected to the motor shaft that is connected to the separation motor on the sliding plate and behind the extension bearing frame through the bearing frame rotation, separation motor fixed connection is on the sliding plate, the sliding plate both sides are connected to on two guide bars through linear bearing, two guide bar both ends fixed connection are on a supporting bench, the sliding plate bottom is connected to push-and-pull motor through the screw thread pair, push-and-pull motor fixed connection is on a supporting bench, still including installing the wind channel on a supporting bench, the exhaust fan is connected to wind channel one end, the other end sets up the filter screen, arrange in the wind channel after eccentric scraper and the horizontal activity of pivot pass wind channel and eccentric scraper withdrawal. The utility model discloses a can realize breaking away from passion fruit peel on automatic sponge layer after the cutter stirs, labour saving and time saving, it is efficient.
Description
Technical Field
The utility model belongs to the technical field of the classifying and sorting equipment of passion fruit, a sponge layer separating mechanism for passion fruit processing is related to.
Background
At present, the existing passion fruit processing machinery mainly extracts juice, only separates peel and juice, but cannot realize peel multilayer separation, and if the peel is to be utilized, manual reprocessing must be carried out on the peel, so that great waste is caused, the labor cost is high, in fact, the three parts of the peel all have practical values, and the passion fruit grading juice peeling and separating processing equipment scrapes and separates by manpower in the separation sponge layer process, so that the efficiency is low, and time and labor are wasted.
Disclosure of Invention
The to-be-solved technical problem of the utility model is: provides a sponge layer separating mechanism for passion fruit processing, which aims to solve the problems in the prior art.
The utility model discloses the technical scheme who takes does: the utility model provides a sponge layer separating mechanism for passion fruit processing, including eccentric scraper, the apparatus further comprises a rotating shaft, separation motor and push-and-pull mechanism, eccentric scraper fixed connection is in pivot one end, the pivot other end passes through the bearing frame and rotates the motor shaft that is connected to the separation motor on being connected to the sliding plate and stretch out behind the bearing frame, separation motor fixed connection is on the sliding plate, the sliding plate both sides are connected to on two guide bars through linear bearing, two guide bar both ends fixed connection is on a supporting bench, the sliding plate bottom is connected to the push-and-pull motor through lead screw pair, push-and-pull motor fixed connection is on a supporting bench, still including installing the wind channel on a supporting bench, the exhaust fan is connected to wind channel one end, the other end sets up the filter screen, eccentric scraper and pivot horizontal activity pass the wind channel and arrange in the wind channel behind the eccentric scraper withdrawal.
The linear cutting mechanism for processing the passion fruit further comprises a grab bucket mechanism, the grab bucket mechanism is fixedly connected to a main shaft power mechanism, and an eccentric scraper can extend into the passion fruit clamped by the grab bucket mechanism.
Preferably, the spindle power mechanism comprises a spindle, a sheave indexing mechanism, a worm and gear mechanism and a spindle driving motor, two ends of the spindle are respectively rotatably connected to the supporting table through two bearing seats, the rear end of the spindle extends out and then is connected to the worm and gear mechanism through the sheave indexing mechanism, the worm and gear mechanism is connected with the spindle driving motor, and the spindle driving motor is fixedly connected to the supporting table.
Preferably, the grab bucket mechanism comprises a telescopic hydraulic cylinder and a semi-circular supporting block, the semi-circular supporting block is fixedly connected to a cylinder seat of the telescopic hydraulic cylinder through a supporting pipe, the cylinder seat of the telescopic hydraulic cylinder is fixedly connected to a main shaft power mechanism, the end part of a cylinder rod of the telescopic hydraulic cylinder is hinged to the middle lower parts of two symmetrical clamping jaws I and the end part of a clamping jaw II positioned between the two clamping jaws I through a connecting rod, the supporting pipe is sleeved outside the cylinder rod, the end part of the clamping jaw I and the middle lower parts of the clamping jaw II are hinged to the end part of the supporting pipe, the clamping jaw II and the semi-circular supporting block are positioned on the opposite side, after the cylinder rod retracts, the two clamping jaws I and the clamping jaw II can lock a half of passion fruit on the semi-circular supporting block, and the notch of the semi-circular supporting block faces upwards when the grab bucket mechanism is positioned at the inner side; a strip-shaped hole is formed at the position where the clamping jaw II is hinged with the supporting tube.
Preferably, above-mentioned eccentric scraper is including scraping the knife shaft, scraper flange board and arc sawtooth blade, scrapes the eccentric fixed connection of knife shaft on scraper flange board, and arc sawtooth blade adopts four, and circumference interval fixed connection is evenly on scraping the knife shaft, and two arc sawtooth blade of symmetry are U type structure.
The utility model has the advantages that: compared with the prior art, the utility model discloses an effect as follows:
(1) the utility model adopts the cutter to realize the automatic separation of the sponge layer from the passion fruit peel after stirring, time and labor are saved, the efficiency is high, when the juice of the passion fruit is separated, the separation mechanism is rotated to the sponge layer, the opening direction of the passion fruit is just right opposite to the eccentric scraper, the eccentric scraper pushes the sliding plate forward under the action of the push-pull motor, so that the separation motor and the rotating shaft move forward, the eccentric scraper is pushed into the passion fruit, the separation motor rotates all over, the sponge layer is removed, the separation motor is stopped, the eccentric scraper is retracted into the air duct, the exhaust fan is started to be matched with the separation motor rotating at a slow speed, the flocculent sponge layer on the eccentric scraper is removed and collected, the telescopic mechanism is simple, the orientation precision is high, the eccentric scraper has larger scraping force of the contact point, the sponge layer is conveniently and fully scraped, the rotary scraper is the eccentric scraper, and can generate larger impact force on the sponge layer, when the passion fruit does not work, the eccentric scraper is positioned in the air channel, after the working procedure is started, the guide rod and the screw rod and nut pair work to enable the eccentric scraper to extend into the passion fruit, the eccentric scraper rotates and then stops, because the sponge layer is flocculent, after scraping, the sponge layer can be attached to the eccentric scraper, then the scraper returns to the air channel and rotates again, meanwhile, the exhaust fan operates, the scraped flocculent is thrown out and separated, the main shaft rotates 90 degrees, and then the next working procedure is carried out;
(2) the adoption of the grab bucket mechanism is convenient for automatically clamping and fixing the passion fruit and is beneficial for inserting the biased cutter into a half passion fruit;
(3) the two main shaft power mechanisms are symmetrically arranged, the rotating directions of the two main shafts are opposite, the power sources of the main shafts are provided by a stepping motor, and the transmission structure is a worm gear and a grooved wheel indexing mechanism with a self-locking function, so that the main shafts can be ensured to rotate stably and are self-locked after rotating 90 degrees every time, and the main shafts are prevented from rotating due to external force (such as cutting force);
(4) the grab bucket mechanism drives the free ends of the three clamping jaws to move inwards through retraction of the telescopic hydraulic cylinder, so that the free ends of the three clamping jaws are matched with the semi-circular supporting blocks to clamp and fix the single ends of the passion fruit to be cut, the clamping stability is high, the semi-circular supporting blocks play a primary supporting role, the three clamping jaws play a further fixing role, the telescopic hydraulic cylinder plays a certain elastic buffering role, and the passion fruit is prevented from being damaged by being clamped due to overlarge stress;
(5) the scraper is simple in structure, convenient to connect, stable and reliable in connection, and the eccentric U-shaped structure blade can be conveniently and fully contacted with a sponge layer in the passion fruit after penetrating into the passion fruit.
Drawings
FIG. 1 is a schematic perspective view of a multi-stage separation device for passion fruit juice and pericarp;
FIG. 2 is a front view of a multi-stage separation device for passion fruit juice and pericarp;
FIG. 3 is a schematic left view of a multi-stage separation device for passion fruit juice and pericarp;
FIG. 4 is a schematic rear view of a multi-stage separation device for passion fruit juice and pericarp;
FIG. 5 is a schematic top view of a multi-stage separation device for juice and peel of passion fruit;
FIG. 6 is a schematic sectional view taken along line A-A in FIG. 2;
FIG. 7 is a schematic perspective view of a pipeline connected to the grab mechanism;
FIG. 8 is a schematic perspective view of the grab mechanism;
FIG. 9 is a schematic structural view of a clamping portion of the grapple mechanism;
FIG. 10 is a broken-away side view of the grapple mechanism;
FIG. 11 is a schematic cross-sectional view of B-B of FIG. 10;
FIG. 12 is a perspective view of the linear cutting mechanism;
FIG. 13 is a schematic perspective view of the juice separating mechanism;
FIG. 14 is a perspective view of a sponge layer separating mechanism;
FIG. 15 is a perspective view of an eccentric scraper;
FIG. 16 is a perspective view of the eject mechanism;
FIG. 17 is a side view of the eject mechanism
FIG. 18 is a perspective view of the roller pushing mechanism;
FIG. 19 is a schematic perspective view of a peel separating mechanism;
fig. 20 is a schematic view of the pipeline connection structure of four telescopic hydraulic cylinders on one main shaft.
Detailed Description
The invention will be further described with reference to specific embodiments.
Example 1: as shown in fig. 1-20, a sponge layer separating mechanism 6 for a multi-stage separating device of passion fruit juice and pericarp comprises an eccentric scraper 33, a rotating shaft 34, a separating motor 35 and a push-pull mechanism 36, wherein the eccentric scraper 33 comprises a scraper shaft 72, a scraper connecting flange plate 73 and arc-shaped sawtooth blades 74, the scraper shaft 72 is eccentrically and fixedly connected to the scraper connecting flange plate 73, the arc-shaped sawtooth blades 74 are four and circumferentially and uniformly and fixedly connected to the scraper shaft 72 at intervals, the two symmetrical arc-shaped sawtooth blades 74 are in a U-shaped structure, so that the sponge layer in the passion fruit can be fully contacted after penetrating into the passion fruit, the scraper connecting flange plate 73 is fixedly connected to a flange arranged at one end of the rotating shaft 34, the other end of the rotating shaft 34 is rotatably connected to a sliding plate 37 through a bearing seat and is connected to a motor shaft of the separating motor 35 after extending out of the bearing seat, the separating motor 35 is fixedly connected to the sliding plate 37, the two sides of the sliding plate 37 are connected to the two guide rods 38 through linear bearings, two ends of the two guide rods 38 are fixedly connected to the supporting table 10 through supporting fixing seats 75, the bottom of the sliding plate 37 is connected to the push-pull motor 40 through a screw-nut pair 39, the push-pull motor 40 is fixedly connected to the supporting table 10, the air duct 41 is mounted on the supporting table 10, the air duct 41 is arranged perpendicular to the extension direction of the eccentric scraper 33, one end of the air duct 41 is connected with an exhaust fan 42 (including a fan motor), the exhaust fan 42 exhausts air in the air duct, the other end of the air duct 41 is provided with a detachable filter screen capable of filtering and collecting flocculent sponge layers, the eccentric scraper 33 and the rotating shaft 34 transversely and movably penetrate through the air duct 41, the flocculent sponge layers are placed in the air duct 41 after the eccentric scraper 33 retracts, and the flocculent sponge layers can be separated from the eccentric scraper under the blowing of rotation and wind power of the eccentric scraper retracting the air duct, principle of sponge layer separating mechanism: when the juice of the passion fruit is separated, the juice is transferred to a sponge layer separating mechanism, the opening direction of the passion fruit is just right opposite to an eccentric scraper, the eccentric scraper pushes a sliding plate 37 forwards under the action of a push-pull motor, so that a separating motor and a rotating shaft move forwards, the eccentric scraper is pushed into the passion fruit, the separating motor is rotated all over the body, so that the sponge layer is removed, the separating motor is stopped, the eccentric scraper is retracted into an air duct, an exhaust fan is started to be matched with the slowly-rotating separating motor, the flocculent sponge layer on the eccentric scraper is removed and collected, a detachable filter screen can be used for recovering the sponge layer, the air duct and the filter screen are cleaned, the telescopic mechanism is simple, the orientation precision is high, the eccentric scraper 33 has larger scraping force of a contact point, the sponge layer can be conveniently and sufficiently scraped, the rotating scraper is an eccentric scraper, large impact force can be generated on the sponge layer, and the passion fruit does not work, eccentric scraper is located the wind channel, and after the process began, guide arm and the vice work of lead screw nut make eccentric scraper stretch into the passion fruit, and eccentric scraper is rotatory, then stops, because the sponge layer is the flocculus, scrapes the back, and the sponge layer can be attached to on eccentric scraper, and later the scraper gets back to the wind channel, rotates once more, and the exhaust fan function simultaneously, and the flocculus of scraping is thrown away and is separated, and the main shaft is rotatory 90 degrees, gets into next process.
The linear cutting mechanism for processing the passion fruit further comprises a grab bucket mechanism 3, the grab bucket mechanism 3 is fixedly connected to a main shaft power mechanism 2, and an eccentric scraper 33 can extend into the passion fruit clamped by the grab bucket mechanism 3.
Preferably, the spindle power mechanism 2 includes a spindle 17, a sheave indexing mechanism 18, a worm gear mechanism 19 and a spindle driving motor 20, two ends of the spindle 17 are respectively connected to the support table 10 through two bearing seats 21, and the rear end of the spindle extends out and then is connected to the worm gear mechanism 19 through the sheave indexing mechanism 18, the worm gear mechanism 19 is connected to the spindle driving motor 20, the spindle driving motor 20 is fixedly connected to the support table 10, the spindle indexing (90 ° indexing once) is realized by using the sheave indexing mechanism, the sheave indexing mechanism 18 includes an indexing sheave 87, a round pin 88 and a dial plate 89, the round pin 88 is fixedly connected to the dial plate 89, the round pin 88 can be inserted into the indexing groove of the indexing sheave 87 during the rotation of the dial plate 89, locking arcs are arranged at corresponding positions of the indexing sheave 87 and the dial plate 89, the indexing sheave 87 is fixedly connected to the rear end of the spindle 17, the dial plate 89 is fixedly connected to the worm shaft 90 of the worm gear mechanism 19, two ends of a worm shaft 90 are connected to the bottom of the support platform 10 through bearing seats, a turbine 91 meshed with the worm shaft 90 is fixedly connected to a turbine shaft 92, two ends of the turbine shaft 92 are connected to the bottom of the support platform 10 through the bearing seats, one end of the turbine shaft extends out and then is connected to the spindle driving motor 20, a drive plate 89 is provided with two symmetrical wall plates, a round pin 88 is fixedly connected between the two wall plates, an indexing grooved wheel 87 is embedded between the two wall plates, the indexing grooved wheels 87 are limited, the problem that indexing meshing cannot be realized due to axial movement of the indexing grooved wheels is avoided, two main shaft power mechanisms are adopted, symmetrically arranged, the rotation directions of the two main shafts are opposite, the power source of the main shafts is provided by a stepping motor, the transmission structure is a worm gear with a self-locking function and a sheave indexing mechanism, the main shaft can be ensured to rotate stably, and the main shaft is self-locked after rotating 90 degrees every time, so that the main shaft is prevented from rotating due to external force (such as cutting force).
Preferably, the grab bucket mechanism 3 comprises a telescopic hydraulic cylinder 22 and a semi-circular supporting block 23, a circular ring 84 is arranged at the end part of the semi-circular supporting block 23, the circular ring 84 is fixedly connected at the outer end of a supporting pipe 24, the inner end of the supporting pipe 24 is fixedly connected on a cylinder base of the telescopic hydraulic cylinder 22, the cylinder base of the telescopic hydraulic cylinder 22 is fixedly connected in a cylinder fixing base 82, the cylinder fixing base 82 is of a barrel-shaped structure and is arranged in the cylinder fixing base 82, the bottom end of the cylinder fixing base 82 is fixedly connected on one side of a mounting block 83 on the main shaft power mechanism 2 through a flange, the end part of a cylinder rod of the telescopic hydraulic cylinder 22 is connected with a cross-shaped hinge base 81, the cross-shaped hinge base 81 is hinged with the middle lower part of two symmetrical clamping jaws one 25 and the end part of a clamping jaw two 26 positioned between the two clamping jaws one 25 through a connecting rod 80, the supporting pipe 24 is sleeved outside the cylinder rod, the end part of the clamping jaw one 25 and the middle lower part of the clamping jaw two 26 are hinged on the circular ring 84 fixedly connected with the end part of the supporting pipe 24, the second clamping jaw 26 and the semi-arc supporting block 23 are located on the opposite side, after the cylinder rod retracts, the two clamping jaws 25 and the second clamping jaw 26 can lock a half of passion fruit on the semi-arc supporting block 23, and when the grab bucket mechanism 3 is located at the inner side level, the notch of the semi-arc supporting block 23 faces upwards; a strip-shaped hole 27 is formed at the position of the second clamping jaw 26 hinged with the support tube 24, and the grabbing principle is as follows: the free ends of the three clamping jaws are driven to move inwards through retraction of the telescopic hydraulic cylinders, so that the free ends of the three clamping jaws are matched with the semi-circular support blocks to clamp and fix single ends of passion fruits to be cut, the clamping stability is high, the semi-circular support blocks play a primary supporting role, the three clamping jaws play a further fixing role, the telescopic hydraulic cylinders play a certain elastic buffering role to avoid damage of the passion fruits due to overlarge stress, the telescopic hydraulic cylinders 22 are double-acting hydraulic cylinders and are connected to a three-position four-way hydraulic valve 85 through inlet and outlet hydraulic pipelines, the three-position four-way hydraulic valve 85 is fixedly connected to the main shaft 17 through a cross-shaped mounting plate 86, the three-position four-way hydraulic valve 85 is respectively connected to a hydraulic pump and an oil tank through two hydraulic pump pipelines, the two hydraulic pipelines of each telescopic hydraulic cylinder penetrate through a groove or a step on the main shaft 17 and are bent to be respectively collected to a header pipe I and a header pipe II in front of the main shaft 17, and the header pipes I and the header pipe II are both concentric with the main shaft 17, the main pipe I and the main pipe II are connected to a liquid inlet pipeline and an oil tank pipeline through a liquid-electricity integrated sliding ring (one inlet and one outlet type liquid-electricity rotary joint), the liquid inlet pipeline is connected to a hydraulic pump, the hydraulic pump is connected to an oil tank through a pipeline, the stator shells of the two liquid-electricity integrated sliding rings are fixedly connected to a fixing seat, the hydraulic pipeline of the telescopic hydraulic cylinder is bent and then keeps coaxial with a main shaft and adopts the liquid-electricity integrated sliding ring to realize rotary connection, the influence on the pipeline rotating process is avoided, the three-position four-way hydraulic valve is fixedly connected to the main shaft, and the pipeline damage or the pipeline joint damage caused by the overlarge inertia and connected with the hydraulic pipeline damage or the pipeline joint damage is avoided.
Example 2: as shown in fig. 1-20, a multi-stage passion fruit juice and peel separating device comprises a feeding mechanism 1, two main shaft power mechanisms 2, two grab bucket mechanisms 3, two linear cutting mechanisms 4, a fruit juice separating mechanism 5, a sponge layer separating mechanism 6, an ejecting mechanism 7, a pushing roller mechanism 8 and a peel separating mechanism 9, wherein the feeding mechanism 1 is arranged above the rear side of a supporting platform 10, the two main shaft power mechanisms 2 are symmetrically arranged at the left side and the right side of the supporting platform 10, four grab bucket mechanisms 3 which are uniformly distributed in the circumferential direction are radially arranged on each main shaft power mechanism 2, an opening 11 is arranged on the supporting platform 10 corresponding to each grab bucket mechanism 3, the linear cutting mechanism 4 is arranged at the rear side of the supporting platform 10 and can extend into a gap between the two grab bucket mechanisms 3 which are horizontally symmetrical at the inner sides of the two main shaft power mechanisms 2, and a discharge port of the feeding mechanism 1 is opposite to the two grab bucket mechanisms 3 which are horizontally symmetrical at the inner sides of the two main shaft power mechanisms 2, fruit juice separating mechanism 5 adopts two, the symmetry is installed in opening 11 below and can just be to the grab bucket mechanism 3 of downside, sponge layer separating mechanism 6 adopts two, the symmetry is installed in brace table 10 both sides and is located spindle power unit 2 outside and can just be to the grab bucket mechanism 3 in two outsides, pop-up mechanism 7 is installed in grab bucket mechanism 3 rear and can just be to the grab bucket mechanism 3 of upside, push cylinder mechanism 8 and install in grab bucket mechanism 3 the place ahead and can push the passion fruit that pushes peel separating mechanism 9, peel separating mechanism 9 is installed in the discharge gate below that pushes cylinder mechanism 8.
Preferably, the feeding mechanism 1 comprises a hopper 12, a conveyor belt 13 and a slide way 14, the hopper 12 is installed on the rear side of the upper surface of the supporting platform 10 through a hopper frame 15, the hopper frame 15 comprises a supporting platform 93 and two symmetrical placing platforms 94, four supporting legs of the supporting platform 93 are fixedly connected to the placing platforms 94, the placing platforms 94 are of a vertically bent zigzag structure, the lower ends of the two placing platforms 94 are fixedly connected to the supporting platform 10 after being butted, the hopper frame facilitates the arrangement of other components (a linear cutting mechanism) and the inclined installation of the conveyor belt and the smoothly-laid conveyor belt 13 on the hopper frame 15, a plurality of baffle plates 16 with uniform intervals are arranged on the outer side surface of the conveyor belt 13 in the moving direction, one passion fruit can be placed in a gap between every two adjacent baffle plates 16, the feeding end is opposite to a discharge port of the hopper 12, the discharging end is opposite to a feeding port of the slide way 14, the slide way 14 is fixedly connected to the hopper frame 15, the discharge gate of slide 14 is just to the centre gripping department of two inboard grab bucket mechanisms 3, and it is cavity bar-shaped structure to slide 14, installs photoelectric sensor 96 on the lateral wall, and slide 14 includes vertical section pipe and the slope section pipe of fixed connection to vertical section socle end, sends into the slide through conveyer belt with one of the passion fruit that drops in the hopper, sends into the rotatory 90 degrees back of back outside straight line cutting and then sends into next passion fruit, and the overall principle is: firstly, the passion fruit is placed in the hopper, the passion fruit tends to roll downwards due to the fact that the conveying belt is placed in an inclined mode and can be blocked by the baffle, the conveying belt is provided with the small convex separating baffle, and only one passion fruit can be accommodated between every two separating baffles, so that when the conveying belt drives the passion fruit, the passion fruit falling into the slide rail at each time can be controlled to be one, photoelectric sensing exists on the slide rail, when shielding is caused in the process of sliding down the passion fruit, sliding down of the passion fruit can be sensed, and therefore the next process (action and completion action of the linear cutting process in set time) is controlled.
Preferably, the spindle power mechanism 2 includes a spindle 17, a sheave indexing mechanism 18, a worm gear mechanism 19 and a spindle driving motor 20, two ends of the spindle 17 are respectively connected to the support table 10 through two bearing seats 21, and the rear end of the spindle extends out and then is connected to the worm gear mechanism 19 through the sheave indexing mechanism 18, the worm gear mechanism 19 is connected to the spindle driving motor 20, the spindle driving motor 20 is fixedly connected to the support table 10, the spindle indexing (90 ° indexing once) is realized by using the sheave indexing mechanism, the sheave indexing mechanism 18 includes an indexing sheave 87, a round pin 88 and a dial plate 89, the round pin 88 is fixedly connected to the dial plate 89, the round pin 88 can be inserted into the indexing groove of the indexing sheave 87 during the rotation of the dial plate 89, locking arcs are arranged at corresponding positions of the indexing sheave 87 and the dial plate 89, the indexing sheave 87 is fixedly connected to the rear end of the spindle 17, the dial plate 89 is fixedly connected to the worm shaft 90 of the worm gear mechanism 19, two ends of a worm shaft 90 are connected to the bottom of the support platform 10 through bearing seats, a turbine 91 meshed with the worm shaft 90 is fixedly connected to a turbine shaft 92, two ends of the turbine shaft 92 are connected to the bottom of the support platform 10 through the bearing seats, one end of the turbine shaft extends out and then is connected to the spindle driving motor 20, a drive plate 89 is provided with two symmetrical wall plates, a round pin 88 is fixedly connected between the two wall plates, an indexing grooved wheel 87 is embedded between the two wall plates, the indexing grooved wheels 87 are limited, the problem that indexing meshing cannot be realized due to axial movement of the indexing grooved wheels is avoided, two main shaft power mechanisms are adopted, symmetrically arranged, the rotation directions of the two main shafts are opposite, the power source of the main shafts is provided by a stepping motor, the transmission structure is a worm gear with a self-locking function and a sheave indexing mechanism, the main shaft can be ensured to rotate stably, and the main shaft is self-locked after rotating 90 degrees every time, so that the main shaft is prevented from rotating due to external force (such as cutting force).
Preferably, the grab bucket mechanism 3 comprises a telescopic hydraulic cylinder 22 and a semi-circular supporting block 23, a circular ring 84 is arranged at the end part of the semi-circular supporting block 23, the circular ring 84 is fixedly connected at the outer end of a supporting pipe 24, the inner end of the supporting pipe 24 is fixedly connected on a cylinder base of the telescopic hydraulic cylinder 22, the cylinder base of the telescopic hydraulic cylinder 22 is fixedly connected in a cylinder fixing base 82, the cylinder fixing base 82 is of a barrel-shaped structure and is arranged in the cylinder fixing base 82, the bottom end of the cylinder fixing base 82 is fixedly connected on one side of a mounting block 83 on the main shaft power mechanism 2 through a flange, the end part of a cylinder rod of the telescopic hydraulic cylinder 22 is connected with a cross-shaped hinge base 81, the cross-shaped hinge base 81 is hinged with the middle lower part of two symmetrical clamping jaws one 25 and the end part of a clamping jaw two 26 positioned between the two clamping jaws one 25 through a connecting rod 80, the supporting pipe 24 is sleeved outside the cylinder rod, the end part of the clamping jaw one 25 and the middle lower part of the clamping jaw two 26 are hinged on the circular ring 84 fixedly connected with the end part of the supporting pipe 24, the second clamping jaw 26 and the semi-arc supporting block 23 are located on the opposite side, after the cylinder rod retracts, the two clamping jaws 25 and the second clamping jaw 26 can lock a half of passion fruit on the semi-arc supporting block 23, and when the grab bucket mechanism 3 is located at the inner side level, the notch of the semi-arc supporting block 23 faces upwards; a strip-shaped hole 27 is formed at the position of the second clamping jaw 26 hinged with the support tube 24, and the grabbing principle is as follows: the free ends of the three clamping jaws are driven to move inwards through retraction of the telescopic hydraulic cylinders, so that the free ends of the three clamping jaws are matched with the semi-circular support blocks to clamp and fix single ends of passion fruits to be cut, the clamping stability is high, the semi-circular support blocks play a primary supporting role, the three clamping jaws play a further fixing role, the telescopic hydraulic cylinders play a certain elastic buffering role to avoid damage of the passion fruits due to overlarge stress, the telescopic hydraulic cylinders 22 are double-acting hydraulic cylinders and are connected to a three-position four-way hydraulic valve 85 through inlet and outlet hydraulic pipelines, the three-position four-way hydraulic valve 85 is fixedly connected to the main shaft 17 through a cross-shaped mounting plate 86, the three-position four-way hydraulic valve 85 is respectively connected to a hydraulic pump and an oil tank through two hydraulic pump pipelines, the two hydraulic pipelines of each telescopic hydraulic cylinder penetrate through a groove or a step on the main shaft 17 and are bent to be respectively collected to a header pipe I and a header pipe II in front of the main shaft 17, and the header pipes I and the header pipe II are both concentric with the main shaft 17, the main pipe I and the main pipe II are connected to a liquid inlet pipeline and an oil tank pipeline through a liquid-electricity integrated sliding ring (one inlet and one outlet type liquid-electricity rotary joint), the liquid inlet pipeline is connected to a hydraulic pump, the hydraulic pump is connected to an oil tank through a pipeline, the stator shells of the two liquid-electricity integrated sliding rings are fixedly connected to a fixing seat, the hydraulic pipeline of the telescopic hydraulic cylinder is bent and then keeps coaxial with a main shaft and adopts the liquid-electricity integrated sliding ring to realize rotary connection, the influence on the pipeline rotating process is avoided, the three-position four-way hydraulic valve is fixedly connected to the main shaft, and the pipeline damage or the pipeline joint damage caused by the overlarge inertia and connected with the hydraulic pipeline damage or the pipeline joint damage is avoided.
Preferably, the linear cutting mechanism 4 comprises a cutting knife 28, a slider guide rail assembly 29 and a servo electric cylinder 30, the tail end of the cutting knife 28 is fixedly connected to the upper end face of a slider of the slider guide rail assembly 29, the base of the slider guide rail assembly 29 is fixedly connected to the support table 10, the rear end face of the slider is fixedly connected with a push-pull shaft 31, the rear end of the push-pull shaft 31 extends out of the base and is connected to a cylinder rod of the servo electric cylinder 30 through a coupler, the casing of the servo electric cylinder 30 is fixedly connected to the support table 10, the cutting knife 28 comprises a blade 77 and a blade holder 78, the front end of the blade 77 is a blade edge and is set to be an inclined blade edge structure, so as to be beneficial to cutting passion fruits, the rear end of the blade 77 is fixedly connected to the front end of the blade holder 78, the upper end of the blade 77 is provided with a reinforcing cross bar 79, the blade holder 78 is an L-shaped structure, the bottom plate of the blade is fixedly connected to the vertical plate 77, a reinforcing rib plate is arranged at the notch, and the servo electric cylinder which moves linearly, the blade is driven to cut the passion fruit in half and half, then the main shaft rotates by 90 degrees, the passion fruit is opened downwards at the moment, the next procedure is carried out, the linear cutting mechanism is simple in structure, the passion fruit is fixed to cut by matching with the double-grab bucket mechanism, the cutting is stable and reliable, and the cut is uniform.
Preferably, above-mentioned fruit juice separating mechanism 5 includes air cock 32 and collection workbin 33, collection workbin 33 fixed connection is at opening 11 downside, air cock 32 stretches out collection workbin 33 through the tube seal and is connected to highly compressed air pump, air cock 32 is just to the clamping part of grab bucket mechanism 3, collection workbin 33 bottom is provided with row material pipe 76, collection workbin 33 bottom plate inclines towards row material pipe department, the fruit juice of being convenient for is collected, the rotatory 90 back opening directions of passion fruit after the cutting are down, just to the air cock, passion fruit juice is under the effect of gravity and atmospheric pressure impact, fruit juice and peel separation, the case that gathers is fallen and is collected to the fruit juice. Then the main shaft rotates 90 degrees, and enters the next procedure, the air nozzles 32 of the two fruit juice separating mechanisms 5 are connected to one pipeline in parallel through branch pipelines, so that one air pump drives the two air nozzles to inject air, the arrangement of the air pump is reduced, and the cost is lower.
Preferably, the sponge layer separating mechanism 6 comprises an eccentric scraper 33, a rotating shaft 34, a separating motor 35 and a push-pull mechanism 36, the eccentric scraper 33 comprises a scraper shaft 72, a scraper connecting flange plate 73 and arc saw-tooth blades 74, the scraper shaft 72 is eccentrically and fixedly connected to the scraper connecting flange plate 73, the arc saw-tooth blades 74 are four, the scraper shaft 72 is circumferentially and uniformly and fixedly connected to the scraper shaft 72 at intervals, the two symmetrical arc saw-tooth blades 74 are in a U-shaped structure, so that the sponge layer in the passion fruit can be fully contacted after penetrating into the passion fruit, the scraper connecting flange plate 73 is fixedly connected to a flange arranged at one end of the rotating shaft 34, the other end of the rotating shaft 34 is rotatably connected to the sliding plate 37 through a bearing seat and is connected to a motor shaft of the separating motor 35 after extending out of the bearing seat, the separating motor 35 is fixedly connected to the sliding plate 37, two sides of the sliding plate 37 are connected to the two guide rods 38 through linear bearings, two guide arms 38 both ends are all through supporting fixing base 75 fixed connection on a supporting bench 10, sliding plate 37 bottom is connected to push-pull motor 40 through screw nut pair 39, push-pull motor 40 fixed connection is on a supporting bench 10, still including installing the wind channel 41 on a supporting bench 10, the flexible direction of wind channel 41 perpendicular to eccentric scraper 33 is arranged, exhaust fan 42 (including the fan motor) is connected to wind channel 41 one end, exhaust fan 42 airs exhaust in to the wind channel, the wind channel 41 other end sets up the detachable filter screen, can filter the collection with the cotton-shaped sponge layer, arrange in wind channel 41 after eccentric scraper 33 and the horizontal activity of pivot 34 pass wind channel 41 and eccentric scraper 33 withdrawal, the eccentric scraper in withdrawal wind channel is under the blowing of rotation action and wind-force, can break away from eccentric scraper with the cotton-shaped sponge layer, the principle of sponge layer separating mechanism: when the juice of the passion fruit is separated, the juice is transferred to a sponge layer separating mechanism, the opening direction of the passion fruit is just right opposite to an eccentric scraper, the eccentric scraper pushes a sliding plate 37 forwards under the action of a push-pull motor, so that a separating motor and a rotating shaft move forwards, the eccentric scraper is pushed into the passion fruit, the separating motor is rotated all over the body, so that the sponge layer is removed, the separating motor is stopped, the eccentric scraper is retracted into an air duct, an exhaust fan is started to be matched with the slowly-rotating separating motor, the flocculent sponge layer on the eccentric scraper is removed and collected, a detachable filter screen can be used for recovering the sponge layer, the air duct and the filter screen are cleaned, the telescopic mechanism is simple, the orientation precision is high, the eccentric scraper 33 has larger scraping force of a contact point, the sponge layer can be conveniently and sufficiently scraped, the rotating scraper is an eccentric scraper, large impact force can be generated on the sponge layer, and the passion fruit does not work, eccentric scraper is located the wind channel, and after the process began, guide arm and the vice work of lead screw nut make eccentric scraper stretch into the passion fruit, and eccentric scraper is rotatory, then stops, because the sponge layer is the flocculus, scrapes the back, and the sponge layer can be attached to on eccentric scraper, and later the scraper gets back to the wind channel, rotates once more, and the exhaust fan function simultaneously, and the flocculus of scraping is thrown away and is separated, and the main shaft is rotatory 90 degrees, gets into next process.
Preferably, the pop-up mechanism 7 includes a top rod 42, two connecting plates 43, a compression spring 44, guide rods 45, a rack 46, a gear 47 and a power storage motor 48, two guide rods 45 are fixedly connected to two sides between the two connecting plates 43, and the middle part is fixedly connected with the rack 46 (two ends of the rack are fixedly connected to the two connecting plates through screws), the tooth-shaped part of the rack 46 is upward, the top rod 42 is fixedly connected to one front side of the two connecting plates 43, the two guide rods 45 are connected to a U-shaped supporting seat 50 through linear bearings 49, two ends of the compression spring 44 are arranged between the rear end surface of the front connecting plate 43 and the front end surface of the supporting seat 50 (two compression springs can be sleeved on the two guide rods, or one compression spring is sleeved outside the rack and two ends are fixedly connected to the connecting plates and the supporting seat), the gear 47 engaged with the rack 46 is fixedly connected to a motor shaft of the power storage motor 48, the power storage motor 48 is fixedly connected to a power storage motor frame 51, the power storage motor frame 51 comprises a vertical plate and a vertical sliding plate which is vertically and fixedly connected with the vertical plate, the vertical plate is used for installing a horizontal power storage motor, the vertical sliding plate is fixedly connected to a sliding block of a vertical sliding block guide rail pair 52, the rear side of the vertical sliding plate is connected to a lifting motor 53 through a vertical screw nut pair 54, a nut of the vertical screw nut pair 54 is fixedly connected to a nut seat arranged on the rear side of the vertical sliding plate, a guide rail bar of the vertical sliding block guide rail pair 52 and two ends of a screw of the vertical screw nut pair 54 are connected to a rear side plate of a supporting seat 50 through a bearing seat, the lifting motor 53 is installed on the rear side plate of the supporting seat 50, the rear side plate of the supporting seat 50 is fixedly connected to a supporting platform 10, a mandril 42 is over against a gap of a clamping part of a grappling mechanism 3, the clamping part of the grappling mechanism is loosened, and passionfruits exit from a semicircular arc, the supporting seat is arranged between the first clamping jaw and the second clamping jaw, the ejector rod is opposite to a gap between the first clamping jaw and the second clamping jaw, the lifting motor is controlled to rotate, a lead screw of a lead screw nut pair is driven to rotate, a force storage motor frame arranged on a slide block guide rail pair is driven to move upwards, a gear and a rack fixedly connected with the force storage motor are separated, passion fruit peels can be ejected and pushed into a slide groove plate under the action of a force storage compression spring, an integrated guide rod and a rack are adopted, the structural stability is high, the guide performance is good, the push-pull is stable, the impact is small, a rubber ring 67 is fixedly connected at the position, close to the connecting plate, of the rear end of the guide rod 45 and can play a buffering role on two punched guide rods to prevent the connecting plate from impacting on the supporting seat 50, the supporting seat comprises a front side plate 68 and a rear side plate 69, the lower ends, close to the front side plate 68 and the rear side plate 69, are fixedly connected through two connecting columns 70, a notch through which the rack passes is arranged in the middle of the upper end of the front side plate 68, the middle part of the rear side plate 69 is provided with a square hole through which a rack passes, the front side plate 68 and the rear side plate 69 are both connected to the guide rod 45 through linear bearings, the rear side plate 69 is fixedly connected to the adapter plate 71 in a vertically bent Z shape, the vertical wall plate of the adapter plate 71 is provided with a strip-shaped hole through which the connecting plate on the rear side passes, the horizontal section of the upper end of the adapter plate 71 is fixedly connected to the hopper frame 15, the hopper frame 15 is fixedly connected to the supporting platform 10, the supporting seat is simple in structure, and the supporting is stable and reliable.
Preferably, the push roller mechanism 8 comprises a push bar plate 55, a screw rod 56 and a push motor 57, the push bar plate 55 is placed on a chute plate 58, the middle part of the push bar plate is spirally connected with the screw rod 56, the chute plate 58 is fixedly connected with the top of the air duct, one end of the screw rod 56 is fixedly connected to a motor shaft of the push motor 57, the push motor 57 is fixedly connected to the support table 10 through a motor base 59, the discharge end on the right side of the chute plate 58 is a closed V-shaped converging structure, so that passion fruits are converged above the stirring barrel 60 in a centralized manner, the feeding of the peel separation mechanism 9 is realized, the passion fruits are popped into the chute plate by the pop-up mechanism, the push motor is pushed by a screw rod to push the push bar plate to push the passion fruits into the stirring barrel, the bottom plate of the chute plate 58 is set to be an inclined angle and inclined towards the direction of the stirring barrel, balls are arranged at two ends of the bottom side of the push bar plate 55, the contact area of the push bar plate and the chute plate is reduced, and the friction force is reduced, the performance requirement of the push-in motor is reduced, and the push-in is rapid and stable.
Preferably, the peel separating mechanism 9 includes a stirring barrel 60, a rotating disk 61 and a stirring motor 62, the inner side of the barrel wall of the stirring barrel 60 is provided with arc scraping strips which are arranged in a staggered manner, the rotating disk 61 is fixedly connected to the inner end of a rotating shaft 63, the rotating shaft 63 is connected with the bottom of the stirring barrel 60 in a sealing and rotating manner, the motor shaft which extends out of the stirring barrel 60 and is connected to the stirring motor 62 is fixedly connected to the top end of a supporting rack 65, the supporting rack 65 includes a top ring, four evenly distributed supporting legs which are fixedly connected to the bottom side of the top ring and a ring fixing plate (used for placing the stirring motor) which is welded or fixedly connected to the top end of the supporting legs, the stirring motor 62 is fixedly connected to the ring fixing plate 66 on the supporting rack 65, the passion fruits are pushed into the stirring barrel, the blade of the arc scraping strips arranged on the inner side of the stirring barrel can remove the reddish brown parts of the cuticles of the passion fruits in the rotating process of the passion fruits, the passion fruit cuticle of the white part is reserved, the separation of the reddish brown part and the white part is realized, the roller is taken out of the white part, the water injection of the reddish brown part can be obtained through filtration, a plurality of pushing strips 96 protruding the upper end face of the rotating disk 61 are arranged at the bottom of the rotating disk 61, the power for mixing and stirring the materials in a rotating mode can be increased, a gate valve 64 is arranged on the side face of the stirring barrel 60 close to the bottom, the cuticle and the slurry of the white part can be discharged, a water injection pipe is arranged at the top of the stirring barrel, and the water injection pipe is connected to a water injection pump and facilitates water injection.
The multi-stage separation device for the passion fruit juice and the passion fruit peel has the following advantages:
(1) the feeding mechanism carries out feeding, the grab bucket mechanism can realize fixation and release of the ejection mechanism in the processes of cutting, fruit juice separation and sponge layer removal of the passion fruit, the pushing roller mechanism is adopted to realize transitional transfer of the passion fruit, the removal of brown part of fruit peel is realized in the fruit peel separation mechanism, the processing is automatic, time and labor are saved, one main shaft, four grab buckets and two main shafts are adopted for symmetrical assembly, the design structure is compact, the space utilization rate is high, the working procedures are natural, the connection is smooth, the fruit juice separation and peeling efficient processing of the passion fruit can be realized, the efficient utilization of the fruit peel is realized, the four passion fruits can be processed simultaneously, the efficiency is high, the clamping force of a hydraulic system of the grab bucket is stable, and the grab bucket is more reliable than a motor;
(2) the feeding mechanism sends the passion fruit dropped in the hopper into the slideway one by one through the conveying belt, and sends the passion fruit into the slideway after sending the passion fruit into the slideway and then sending the passion fruit into the slideway after linearly cutting and rotating the passion fruit by 90 degrees at the back and outer side, so that the processing of multiple processes can be conveniently carried out on the single passion fruit, the structure of the feeding mechanism is simple and compact, and the feeding is stable and accurate;
(3) the two main shaft power mechanisms are symmetrically arranged, the rotating directions of the two main shafts are opposite, the power sources of the main shafts are provided by a stepping motor, and the transmission structure is a worm gear and a grooved wheel indexing mechanism with a self-locking function, so that the main shafts can be ensured to rotate stably and are self-locked after rotating 90 degrees every time, and the main shafts are prevented from rotating due to external force (such as cutting force);
(4) the grab bucket mechanism drives the free ends of the three clamping jaws to move inwards through retraction of the telescopic hydraulic cylinder, so that the free ends of the three clamping jaws are matched with the semi-circular supporting blocks to clamp and fix the single ends of the passion fruit to be cut, the clamping stability is high, the semi-circular supporting blocks play a primary supporting role, the three clamping jaws play a further fixing role, the telescopic hydraulic cylinder plays a certain elastic buffering role, and the passion fruit is prevented from being damaged by being clamped due to overlarge stress;
(5) the linear cutting mechanism completes linear motion by a servo electric cylinder which moves linearly, drives a blade to cut the passion fruit in half and half, then a main shaft rotates by 90 degrees, the passion fruit is opened downwards at the moment, and the next procedure is carried out;
(6) the juice separating mechanism has the advantages that the juice and the peel of the passion fruit juice are separated under the action of gravity and air pressure impact after the cut passion fruit rotates for 90 degrees, the opening direction faces downwards and is opposite to the air tap, the juice falls down and is collected into the material collecting box, the separating mechanism is simple in structure, air flow blows, and separation is thorough;
(7) when the juice of the passion fruit is separated, the juice is transferred to a sponge layer separating mechanism, the opening direction of the passion fruit is just right opposite to an eccentric scraper, the eccentric scraper is pushed forward under the action of a push-pull motor, so that a separating motor and a rotating shaft are moved forward, the eccentric scraper is pushed into the passion fruit, the separating motor is rotated all over the body, so that the sponge layer is removed, the separating motor is stopped, the eccentric scraper is retracted into an air duct, an exhaust fan is started to be matched with the slowly-rotating separating motor, the flocculent sponge layer on the eccentric scraper is removed and collected, a detachable filter screen can be used for recovering the sponge layer, the air duct and the filter screen are cleaned, the telescopic mechanism is simple, the orientation precision is high, the eccentric scraper has larger scraping force of a contact point, the sponge layer can be conveniently and fully scraped, the rotating scraper is the eccentric scraper, large impact force can be generated on the sponge layer, and the passion fruit does not work, the eccentric scraper is positioned in the air duct, after the process is started, the guide rod and the lead screw nut pair work to enable the eccentric scraper to extend into the passion fruit, the eccentric scraper rotates and stops, after the scraping, the sponge layer is flocculent and can be attached to the eccentric scraper, the scraper returns to the air duct and rotates again, meanwhile, the exhaust fan operates, the scraped flocculent is thrown out and separated, the main shaft rotates 90 degrees and enters the next process;
(8) the ejector rod is over against a gap of the clamping part of the grab bucket mechanism, the clamping part of the grab bucket mechanism is loosened, the passion fruit exits from the semi-arc supporting block and is arranged between the first clamping jaw and the second clamping jaw, the ejector rod is over against the gap between the first clamping jaw and the second clamping jaw, the lifting motor is controlled to rotate, a lead screw of the lead screw and screw pair is driven to rotate, so that a force storage motor frame arranged on a slide block guide rail pair is driven to move upwards, a gear fixedly connected with the force storage motor is separated from a rack, the passion fruit peel can be ejected and pushed onto a slide groove plate under the action of a force storage compression spring, and a guide rod and the rack which are integrally structured are adopted, so that the passion fruit peel pushing and pulling mechanism is high in structural stability, good in guiding performance, stable in pushing and pulling and small in impact;
(9) after the passion fruit is popped into the chute plate by the popping mechanism, the push motor harness cord rod pushes the push plate to push the passion fruit into the stirring barrel, the bottom plate of the chute plate is set to be an inclined angle and inclined towards the direction of the stirring barrel, two ends of the bottom side of the push plate are provided with balls, the contact area between the push plate and the chute plate is reduced, the friction force is reduced, the performance requirement of the push motor is reduced, and the push is fast and stable;
(10) the passion fruit is pushed into the stirring barrel, the red-brown part of the passion fruit cuticle in the rotating process of the passion fruit peel can be removed by the blade of the arc scraping strip arranged on the inner side of the stirring barrel, the passion fruit cuticle of the white part is reserved, the red-brown part and the white part are separated, the white part is taken out of the roller, and the red-brown part can be obtained by water injection and filtration.
The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention, therefore, the protection scope of the present invention should be subject to the protection scope of the claims.
Claims (5)
1. The utility model provides a sponge layer separating mechanism for passion fruit processing which characterized in that: comprises an eccentric scraper (33), a rotating shaft (34), a separating motor (35) and a push-pull mechanism (36), wherein the eccentric scraper (33) is fixedly connected at one end of the rotating shaft (34), the other end of the rotating shaft (34) is rotatably connected to a sliding plate (37) through a bearing seat and is connected to a motor shaft of the separating motor (35) after extending out of the bearing seat, the separating motor (35) is fixedly connected to the sliding plate (37), two sides of the sliding plate (37) are connected to two guide rods (38) through linear bearings, two ends of the two guide rods (38) are fixedly connected to a supporting platform (10), the bottom of the sliding plate (37) is connected to a push-pull motor (40) through a screw nut pair (39), the push-pull motor (40) is fixedly connected to the supporting platform (10), the air duct (41) arranged on the supporting platform (10) is further included, one end of the air duct (41) is connected with an exhaust fan (42), and the other end is provided with a filter screen, the eccentric scraper (33) and the rotating shaft (34) transversely and movably penetrate through the air duct (41), and the eccentric scraper (33) is retracted and then placed in the air duct (41).
2. The sponge layer separating mechanism for passion fruit processing according to claim 1, wherein: the novel fruit picking machine is characterized by further comprising a grab bucket mechanism (3), wherein the grab bucket mechanism (3) is fixedly connected with the main shaft power mechanism (2), and the eccentric scraper (33) can extend into the passion fruit clamped by the grab bucket mechanism (3).
3. The sponge layer separating mechanism for passion fruit processing as claimed in claim 2, wherein: the spindle power mechanism (2) comprises a spindle (17), a sheave indexing mechanism (18), a worm and gear mechanism (19) and a spindle driving motor (20), two ends of the spindle (17) are respectively connected to the supporting table (10) through two bearing seats (21) in a rotating mode, the rear end of the spindle extends out and then is connected to the worm and gear mechanism (19) through the sheave indexing mechanism (18), the worm and gear mechanism (19) is connected with the spindle driving motor (20), and the spindle driving motor (20) is fixedly connected to the supporting table (10).
4. The sponge layer separating mechanism for passion fruit processing as claimed in claim 2, wherein: the grab bucket mechanism (3) comprises a telescopic hydraulic cylinder (22) and a semi-circular supporting block (23), the semi-circular supporting block (23) is fixedly connected to a cylinder seat of the telescopic hydraulic cylinder (22) through a supporting pipe (24), the cylinder seat of the telescopic hydraulic cylinder (22) is fixedly connected to a main shaft power mechanism (2), the end part of a cylinder rod of the telescopic hydraulic cylinder (22) is hinged with the middle lower parts of two symmetrical clamping jaws I (25) and the end part of a clamping jaw II (26) positioned between the two clamping jaws I (25) through a connecting rod (80), the supporting pipe (24) is sleeved outside the cylinder rod, the end part of the clamping jaw I (25) and the middle lower part of the clamping jaw II (26) are hinged with the end part of the supporting pipe (24), the clamping jaw II (26) and the semi-circular supporting block (23) are positioned on the opposite side, and the two clamping jaw I (25) and the clamping jaw II (26) can lock half passion the semi-circular supporting block (23) after the cylinder rod retracts, when the grab bucket mechanism (3) is positioned at the inner side level, the notch of the semi-circular supporting block (23) faces upwards, and a strip-shaped hole (27) is arranged at the position where the clamping jaw II (26) is hinged with the supporting pipe (24).
5. The sponge layer separating mechanism for passion fruit processing according to claim 1, wherein: the eccentric scraper (33) comprises a scraper shaft (72), a scraper connecting flange plate (73) and four arc-shaped sawtooth blades (74), the scraper shaft (72) is eccentrically and fixedly connected to the scraper connecting flange plate (73), the arc-shaped sawtooth blades (74) are uniformly and fixedly connected to the scraper shaft (72) at circumferential intervals, and the two symmetrical arc-shaped sawtooth blades (74) are of a U-shaped structure.
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CN202021445053.1U CN214283240U (en) | 2020-07-21 | 2020-07-21 | Sponge layer separating mechanism for passion fruit processing |
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