CN115070852B - Fruit vegetables agricultural product processing is with high-efficient treatment facility - Google Patents

Abstract

The invention provides high-efficiency processing equipment for processing fruit and vegetable agricultural products, which comprises an automatic transmission mechanism, wherein a plurality of groups of bearing mechanisms are sequentially arranged on the automatic transmission mechanism along the transmission direction of the automatic transmission mechanism, the bearing mechanisms are driven by the automatic transmission mechanism to be transmitted to a feeding station, an adjusting station and a processing station, the bearing mechanisms are matched with the processing mechanism on the processing station to slice radishes, all the sliced radishes are separated at the same distance under the action of the processing mechanism, a cutter assembly is used for completing the dosing assembly of quantitative pickling materials for the radishes after slicing, and a positioning assembly is arranged on the bearing assembly and used for carrying out perforation positioning on the radishes after slicing.

Description

Fruit vegetables agricultural product processing is with high-efficient treatment facility

Technical Field

The invention relates to the technical field of food processing, in particular to efficient processing equipment for processing fruit, vegetable and agricultural products.

Background

The pickled radish is a flavor dish, the recipe of the pickled radish is that the pickling time and the selection of materials are well known, in addition, the pickling skill is very important, the pickled radish is not bitter after the radish is required to be subjected to frost, the pickled radish is not marinated in the heart, the radish is cut into slices by a knife during pickling, the slices are put into a pickling cylinder after being cut, the pickled radish is pickled by salt, the pickled radish is matched with a pickling material for sealing, and the pickled radish can be eaten in a jar after half a month.

Chinese utility model No. cn202022673188.X discloses a slicing device for pickling radishes. The slicing device for pickling the radishes comprises a box body; the fixing block is fixedly arranged at the top of the box body, a first mounting groove is formed in the bottom of the fixing block, a first through hole is formed in the inner wall of the top of the box body, and a bearing is fixedly embedded in the inner wall of the first through hole; the feeding hopper is arranged at the top of the fixed block; the conveying belt is arranged above the feeding hopper; the fixed plate is fixedly arranged on one side of the fixed block.

However, in the prior art, the inventor finds that the conventional fruits and vegetables are pickled, the radish slices are required to be sliced, the thickness of the manual slices is generally uneven, the slicing speed is relatively low, and the sliced radish slices are stacked in an pickling device after being cut, so that the problems of uneven pickling of the radish slices, salty places, light places and poor taste are solved.

Disclosure of Invention

The invention aims at overcoming the defects of the prior art, by arranging a plurality of groups of bearing components to transmit the bearing components to a feeding station under the drive of an automatic transmission mechanism, the radish in the bearing mechanism is adjusted to one side of the bearing mechanism to be attached by the bearing mechanism matched with an adjusting station, then the bearing mechanism is matched with a horizontal transmission unit of a processing mechanism under the drive of the automatic transmission mechanism, so that the cutter components are matched with a pressing part of a second guide rail to carry out slicing operation on the radish in the bearing mechanism, the slicing is usually carried out manually, time and labor are wasted, the working efficiency is low, the manual vegetable is manually held to slice back and forth, the danger is high, meanwhile, the efficiency is low, time and labor are saved by the device, the working efficiency is improved, meanwhile, the hand of a worker is not contacted with a blade, the safety is high, after the radish slices are sliced, the cutter components are lifted upwards to one half of a time through the second guide rail, the positioning component penetrates into the radish under the drive of a third guide rail, and then the cutter components are matched with a movable part of the first guide rail through the horizontal part of the second guide rail to pull the radish apart the same distance, on the one hand, and on the other hand, the radish is directly held by the needle of the radish in the bearing mechanism; on the other hand, two radishes are prevented from being adhered together due to moisture, the radishes are prevented from being piled up together, and the adhered place cannot achieve better pickling effect.

In order to achieve the above purpose, the present invention provides the following technical solutions: the efficient processing equipment for processing the fruit and vegetable agricultural products comprises an automatic transmission mechanism, wherein the automatic transmission mechanism is sequentially provided with a plurality of groups of bearing mechanisms along the transmission direction of the automatic transmission mechanism, and the bearing mechanisms are driven by the automatic transmission mechanism to be transmitted to a feeding station, an adjusting station and a processing station;

The carrying mechanism is matched with a processing mechanism on a processing station to slice the radish, and all the sliced radish slices are separated at the same distance under the action of the processing mechanism, so that each section of radish slices stands in the carrying mechanism at intervals and is salted;

The processing mechanism comprises a horizontal conveying unit, a cutter assembly which slides up and down along the vertical direction and is elastically installed on the horizontal conveying unit, and a batching assembly which is installed on the horizontal conveying unit and is matched with the cutter assembly to finish quantitative pickling material conveying of the sliced radish;

The cutter assembly includes:

The cutter unit comprises a plurality of groups of cutters which are arranged at equal intervals along the length direction of the cutter rest, a guide shaft a which slides on the cutter rest is arranged outside the cutter at one end of the cutter unit, square frames are arranged in the middle of each cutter, every two adjacent square frames are respectively hinged and connected through a cross rod, each two adjacent groups of cutters are unfolded for a certain distance in the transmission process of the guide shaft a by the cross rods, and a storage area of a single radish is formed between the two groups of cutters;

The limiting plate is arranged on the horizontal conveying unit, and the cutter unit penetrates through the limiting plate in a matched and sliding manner;

The first guide rail is fixedly arranged on the outer side of the automatic transmission mechanism and is matched with the guide shaft a to drive the cutter unit to horizontally move through the first elastic unit, and the first guide rail comprises a pressing part for guiding the cutter unit to downwards drive the slice and a movable part for horizontally pulling away the same distance after upwards lifting by one half of the turnips sliced by the cutter unit.

Preferably, the horizontal conveying unit comprises a sliding guide rail, and the mounting frame is horizontally arranged in the sliding guide rail in a sliding manner under the drive of the first driving mechanism and is synchronously driven with the automatic conveying mechanism.

Preferably, the cutter assembly is driven by a second guide rail arranged above the cutter assembly to smoothly move up and down, and the second guide rail is provided with a pressing part, a first reset part, a horizontal part and a second reset part along the transmission direction of the automatic transmission mechanism.

Preferably, the dosing assembly comprises:

the batching box is arranged on the mounting frame;

The communication unit is a multi-section hose, the main flow end of the hose is communicated with the batching box, and the shunt end of the hose is communicated with the liquid flowing channel on the cutter;

The control unit comprises a control valve arranged on the hose, a driving wheel for driving the valve to open, and two groups of driving racks which are arranged on the second reset part and are respectively used for driving the driving wheel to rotate positively and negatively.

Preferably, the bearing mechanism comprises a bearing assembly for carrying out material receiving work on radishes with the two ends of the radishes being removed, and a positioning assembly which is arranged on the bearing assembly and used for carrying out perforation positioning on the radishes after cutting.

Preferably, the bearing assembly comprises:

The bearing box is of an integrated structure, and the lower end of the bearing box is of a cross structure;

The bottom plate is provided with a groove matched with the cross structure at the lower end of the bearing box and is arranged on the automatic transmission mechanism through a second telescopic unit, and the bottom plate is provided with a guide shaft b;

The adjusting station is provided with a corrugated track, a guide shaft b on the corrugated track driving bottom plate fluctuates up and down, and the guide shaft b is used for attaching the radishes to one end of the bearing box.

Preferably, the positioning assembly includes:

the sliding part comprises a supporting plate, a straight needle, a sliding shaft and a connecting spring, wherein the supporting plate is integrally arranged with the bearing box, the straight needle horizontally penetrates through the bearing box and slides on the bearing box, the sliding shaft is fixedly connected with one end of the straight needle and slides on the supporting plate, the connecting spring is respectively fixedly connected with the supporting plate and the sliding shaft, and the sliding shaft horizontally slides under the drive of a third guide rail; ;

The clamping piece is arranged on the other side of the bearing box relative to the sliding piece, two groups of clamping pieces are arranged up and down symmetrically, the clamping piece comprises a pressing block which is arranged on the supporting plate through a third elastic unit, the pressing block is matched with a groove formed in the straight needle, and the two groups of clamping pieces are used for limiting the stroke of the sliding piece penetrating through the bearing box.

Preferably, the feeding station is provided with a leather scraping component for scraping the leather of the radish and a blanking component for cutting the two ends of the scraped radish to collect the scraped radish by the leather scraping component.

Preferably, the skin scraping assembly comprises:

the sliding frame is arranged in a sliding groove formed in the bottom plate through a fourth elastic unit;

The clamping blocks are provided with two groups, and each clamping block comprises a rotating part rotationally connected with the sliding frame and an elastic part connected with the rotating part through a second elastic unit.

The scraping knife is horizontally and slidably arranged on the two groups of sliding frames through the connecting frame;

the receiving bin is arranged at the lower ends of the two groups of holding blocks and is used for collecting the turnip skin scraped by the skin scraping knife;

the driving racks are provided with two groups and are respectively arranged on the two groups of sliding frames;

The blanking assembly comprises a blanking channel arranged on the bottom plate through a second bracket, two groups of cutting knives connected to the blanking channel through supporting shafts in a rotating mode, and a transmission gear which is coaxially rotated with the cutting knives and meshed with the driving rack.

Preferably, the scraping assembly is synchronously driven with the bearing mechanism through a linkage assembly, and the linkage assembly comprises a connecting rod arranged on the sliding frame, a spring rod in sliding connection with the connecting rod and a reset track which is arranged on the bottom plate through a third bracket and is in abutting arrangement with the bottom of the spring rod;

The invention has the beneficial effects that:

(1) According to the radish slicing device, feeding operation when the bearing assembly is conveyed to the feeding station under the driving of the automatic conveying mechanism is set, radish in the bearing mechanism is adjusted to be attached to one side of the bearing mechanism through the matching and adjusting station of the bearing mechanism, then the bearing mechanism is matched with the horizontal transmission unit of the processing mechanism under the driving of the automatic conveying mechanism, so that the cutter assembly is matched with the pressing part of the second guide rail to slice the radish in the bearing mechanism, manual slicing is usually adopted, time and labor are wasted, the working efficiency is low, the vegetables are manually held by hands to be sliced back and forth, the danger is high, meanwhile, the efficiency is low, the device is time-saving and labor-saving, the working efficiency is improved, meanwhile, hands of workers are not contacted with the cutter, the safety is high, after the radish is sliced, the cutter assembly is lifted to be half of one time upwards through the second guide rail, the positioning assembly is driven by the third guide rail, and then the cutter assembly is matched with the movable part of the first guide rail through the horizontal part of the second guide rail, so that the radish slices are pulled apart by the same distance, and each radish slice can stand in the bearing mechanism fixedly; on the other hand, the two radishes are prevented from being adhered together due to moisture, the radishes are prevented from being piled together, and the adhered place cannot achieve better pickling effect, so that the pickling effect of the pickling material can be fully improved through the structure;

(2) According to the invention, the control valve is used for conveying the curing material by arranging the matching and communicating unit, the control unit is used for realizing the work of controlling the valve, the distribution end of the matching box is communicated with the flow channel corresponding to the cutter, when the cutter assembly moves to the second reset part and the forward transmission rack is meshed with the transmission wheel, the control valve is opened, the curing material is injected into the bearing box of the matching box at the moment, compared with the traditional curing material injection method, the curing material is injected into the bearing box through the flow channel on the cutter, so that the curing material is more uniformly contacted with the radish slices, air bubbles are not easy to generate, each radish slice can be fully contacted with the curing material, the cured radish slice is more crisp, the taste is better, and when the curing material in the bearing box reaches a water line, the control unit is closed by meshing the reverse transmission rack and the transmission wheel;

(3) According to the invention, the sliding piece is matched with the clamping piece, the cut radish slices are lifted on the cutter assembly by utilizing the driving of the third guide rail to perform straight needle insertion work, the straight needles horizontally penetrate through the supporting plate and slide on the bearing box, the straight needles are contacted with the third guide rail through the sliding shaft of the fixedly connected connecting spring under the transmission of the automatic transmission mechanism, so that the straight needles are inserted into the center position of the radish along the horizontal direction of the bearing box until the straight needles integrally penetrate through the radish to the other side of the bearing box, the pressing blocks on the supporting plate are matched and clamped with grooves started on the straight needles to limit the stroke of the sliding piece, the positioning assembly can enable the radish slices to uniformly stand in the die, manual stirring is not needed in the sealing container, uniform pickling can be performed, and the effect and the taste of full pickling are greatly improved.

In conclusion, the invention has the advantages of high pickling efficiency and the like, and is particularly suitable for the technical field of food processing.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a processing mechanism according to the present invention;

FIG. 3 is a schematic view of a first guide rail structure according to the present invention;

FIG. 4 is a schematic diagram of a horizontal transfer unit according to the present invention;

FIG. 5 is a schematic view of a second guide rail structure according to the present invention;

FIG. 6 is a schematic diagram of the dispensing assembly of the present invention;

FIG. 7 is a schematic view of a positioning assembly according to the present invention;

FIG. 8 is a schematic view of a clamping member according to the present invention;

FIG. 9 is a schematic view of a carrier assembly according to the present invention;

FIG. 10 is a schematic view of a scraping assembly according to the present invention;

FIG. 11 is a schematic view of a linkage assembly of the present invention;

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Example 1

As shown in fig. 1,2 and 3, the efficient processing equipment for processing fruit and vegetable agricultural products comprises an automatic transmission mechanism 1, wherein a plurality of groups of bearing mechanisms 2 are sequentially arranged on the automatic transmission mechanism 1 along the transmission direction of the automatic transmission mechanism 1, and the bearing mechanisms 2 are driven by the automatic transmission mechanism 1 to be transmitted to a feeding station I, an adjusting station II and a processing station III;

The carrying mechanism 2 is matched with the processing mechanism 3 on the processing station III to slice the radish, and all the sliced radish slices are separated at the same distance under the action of the processing mechanism 3, so that each section of radish slices stands in the carrying mechanism 2 at intervals and is salted;

The processing mechanism 3 comprises a horizontal conveying unit 4, a cutter assembly 31 which slides up and down along the vertical direction and is elastically installed on the horizontal conveying unit 4, and a batching assembly 32 which is installed on the horizontal conveying unit 4 and is matched with the cutter assembly 31 to finish quantitative pickling material conveying of the radish after slicing;

The cutter assembly 31 includes:

The cutter unit 311 comprises a plurality of groups of cutters 3111 which are arranged at equal intervals along the length direction of the cutter rest, a guide shaft a3112 which slides on the cutter rest is arranged on the cutter 3111 at one end, a square frame 3113 is arranged in the middle of the cutter 3111, each two adjacent square frames 3113 are respectively hinged with a cross connecting rod 3115 through a cross rod 3114, and the cross connecting rods 3115 spread each two adjacent groups of cutters 3111 for a certain distance in the transmission process of the guide shaft a3112, and a storage area of a single radish is formed between the two groups of cutters 3111;

The limiting plate 312 is installed on the horizontal conveying unit 4, and the cutter unit 311 penetrates through the limiting plate 312 in a matching manner;

the first guiding rail 313 is fixedly arranged at the outer side of the automatic transmission mechanism 1 and is matched with the guiding shaft a3112 to drive the cutter 3111 unit 311 to horizontally move through the first elastic unit 3131, and the first guiding rail 313 comprises a pressing part 3132 for guiding the cutter unit 311 to downwardly drive the slices and a movable part 3133 for guiding the turnips sliced by the cutter unit 311 to upwardly lift by half and horizontally pull away by the same distance.

In this embodiment, through setting up the loading assembly 2 and transmitting the loading assembly 2 to the feeding work when feeding the station I under the drive of the automatic transmission mechanism 1, finish adjusting the radish in the loading mechanism 2 to the work that laminates on one side of the loading mechanism 2 through the loading mechanism 2 and cooperating with the adjustment station II, then the loading mechanism 2 cooperates with the horizontal transmission unit 4 of the processing mechanism 3 under the drive of the automatic transmission mechanism 1, make the cutter assembly 31 cooperate with the pushing part 331 of the second guide rail 33 to slice the radish in the loading mechanism 2, the slice usually adopts the manual work, the work efficiency is low, the manual hand-held vegetables are sliced back and forth, the danger is higher, meanwhile, the efficiency is not high, by the present device, save time and labor, improve the work efficiency, meanwhile, the hand of staff can not contact with the blade, the security is high, after the radish is sliced, the cutter assembly 31 is lifted up to half through the second guide rail 33, the positioning assembly 22 makes the straight needle 2212 penetrate into the radish under the drive of the third guide rail 222, then cooperate with the movable part 31313 of the first guide rail 33 through the horizontal part 333 of the second guide rail 33 to realize that the same distance of the radish 31 can stand in the radish 2 by the needle 2 on one hand, on the one hand, the goal of fixing the radish 2 is realized; on the other hand, two radishes are prevented from being adhered together due to moisture, the radishes are prevented from being piled up together, and the adhered place cannot achieve better pickling effect.

It should be noted that, slicing the radish by the cutter assembly 31 makes the thickness of the sliced radish more uniform, and then the cross connecting rod 3115 between the square frames 3113 on the cutter assembly 31 makes the cutter assembly adjust the spacing of the sliced radish, and the plurality of groups of carrying mechanisms 2 are uniformly spaced to prevent on the automatic transmission mechanism 1, and the batching assembly 32 is communicated with the flow channel on the cutter assembly 31, so that the operations of slicing, positioning, separating, curing and feeding the radish by the carrying mechanisms 2 are realized, and the automation on one station is achieved.

It should be noted that, through setting up limiting plate 312 for the radish in the mechanism 2 plays limiting effect when lifting up cutter assembly 31, because of the radish contains humidity, lift up after cutter assembly 31 section, the radish piece can be stained with and attach on the blade, can effectually be spacing in the mechanism 2 through the limiting plate 312 of mechanism 2 upper end that bears this moment. The structure is simple, and manual operation is not needed.

Further, as shown in fig. 4, the horizontal transfer unit 4 includes a slide rail 41, and a mounting frame 42 is horizontally slidably disposed in the slide rail 41 under the drive of a first driving mechanism 43 and is driven in synchronization with the automatic transfer mechanism 1.

In the present embodiment, the sliding guide rail 41 is provided in cooperation with the first driving mechanism 43, so that the transmission speed of the mounting frame 42 in the horizontal conveying unit 4 is consistent with that of the automatic conveying mechanism 1.

In detail, when the travel distance of the first driving mechanism 43 matches the conveying speed of the automatic conveying mechanism 1, the translation is equivalent to the stationary state.

Further, as shown in fig. 5, the cutter assembly 31 is driven by a second guide rail 33 disposed above the cutter assembly 31 to move smoothly up and down, and the second guide rail 33 is provided with a pressing portion 331, a first reset portion 332, a horizontal portion 333, and a second reset portion 334 along the conveying direction of the automatic conveying mechanism 1.

In this embodiment, by providing the second guide rail 33, the cutter assembly 31 cuts the radish downward, moves horizontally a distance after lifting upward to insert the straight needle 2212, and finally, the separation between the radish slices is achieved by the second reset portion 334.

In detail, when the cutter assembly 31 cooperates with the pressing portion 331 of the second guide rail 33 to drive the cutter assembly 31 to slice the radish in the carrying mechanism 2, and the cutter assembly 31 cooperates with the horizontal portion 333 to move along the horizontal direction and finally moves to the second reset portion 334, and when the whole mechanism completes the operation, the first driving mechanism 43 drives the cutter assembly 31 to return to the initial position to continue to slice the radish in the next carrying mechanism 2.

Further, as shown in fig. 6, the dosing assembly 32 includes:

A dosing bin 321, the dosing bin 321 being mounted on the mounting frame 42;

the communication unit 322 is a multi-section hose, the main flow end of the hose is communicated with the dosing tank 321, and the split flow end of the hose is communicated with the corresponding fluid channel on the cutter 3111;

The control unit 323, the control unit 323 includes a control valve 3231 installed on the hose, a driving wheel 3232 for driving the control valve 3231 to open, and two sets of driving racks 3233 installed on the second reset portion 324 and respectively used for driving the driving wheel 3232 to rotate in a forward and reverse direction.

In this embodiment, the control unit 323 is used to control the opening and closing of the feeding of the marinade by the valve 3231 by providing a dosing tank 321 in cooperation with a communication unit 322.

In detail, the split end of the dosing tank 321 is connected to the flow channel corresponding to the cutter 3111, when the cutter assembly 31 moves to the second reset portion 324 and the forward driving rack 3233 is meshed with the driving wheel 3232, the control valve 3231 is opened, and the dosing tank 321 injects the curing material into the carrying case 211.

Further, as shown in fig. 7, the carrying mechanism 2 includes a carrying assembly 21 for carrying out a receiving operation on the turnip with its two ends removed, and a positioning assembly 22 mounted on the carrying assembly 21 and for positioning the perforation of the turnip slices after the slicing is completed.

In the embodiment, the positioning assembly 22 is matched with the bearing mechanism 2 to punch the radish slices in the bearing mechanism 2.

Further, as shown in fig. 9, the carrying assembly 21 includes:

The bearing box 211 is of an integrated structure, and the lower end of the bearing box 211 is provided with a cross structure 2111;

A bottom plate 212, a groove 2112 adapted to the cross structure 2111 at the lower end of the carrying box 211 is provided on the bottom plate 212, and is provided on the automatic transmission mechanism 1 through a second telescopic unit 213, and a guide shaft b214 is provided on the bottom plate 212;

The adjusting station II is provided with a corrugated rail 215, the corrugated rail 215 drives a guide shaft b214 on the bottom plate 212 to vertically wave, and the guide shaft b214 is used for attaching the radishes to one end of the bearing box 211.

In this embodiment, the groove 2112 adapted to the cross structure 2111 on the bottom plate 212 is matched with the cross structure 2111 at the lower end of the carrying box 211, so as to realize the disassembly work of the carrying box 211, and the carrying box 211 needs to be manually moved to a cool place for curing, and the carrying box 211 also needs to be cut and cured on a processing line.

In detail, the corrugated rail 215 is matched with the guide shaft b214 on the bottom plate 212 to vertically wave so that the radish is attached to one end of the carrying box 211, and when the radish is sliced by the cutter assembly 31, the uniformity of the radish slices is maintained, so that the radish cutting effect is good.

It should be noted that, when all the processes are completed, the carrying case 211 is covered with a sealing cover and then sealed and removed manually.

Further, as shown in fig. 7 and 8, the positioning assembly 22 includes:

A sliding member 221, wherein the sliding member 221 includes a support plate 2211 integrally provided with the bearing box 211, a straight needle 2212 horizontally penetrating and sliding on the bearing box 211, a sliding shaft 2213 fixedly connected with one end of the straight needle 2212 and sliding on the support plate 2211, and a connecting spring 2214 fixedly connected with the support plate 2211 and the sliding shaft 2213 respectively, and the sliding shaft 2213 horizontally slides under the drive of a third guide rail 222;

The clamping pieces 223 are arranged on the other side of the bearing box 211 relative to the sliding pieces 221 and are vertically symmetrically arranged in two groups, the clamping pieces 223 comprise pressing blocks 2232 which are arranged on the supporting plate 2211 through third elastic units 2231, the pressing blocks 2232 are matched with grooves 2233 formed in the straight needles 2212, and the two groups of clamping pieces 223 are used for limiting the travel of the sliding pieces 221 penetrating through the bearing box 211.

In this embodiment, by providing the slider 221 and matching the clamping member 223, the cut radish slices are lifted up by the cutter assembly 31 by the driving of the third guide rail 222 to perform the insertion of the straight needle 2212, and when the straight needle 2212 passes through the radish, the straight needle 2212 is fixed in the carrying case 211 by the clamping member 223.

In detail, the straight needle 2212 horizontally penetrates through the supporting plate 2211 to slide on the carrying case 211, and is contacted with the third guiding rail 222 by the sliding shaft 2213 of the connecting spring 2214 fixedly connected with the supporting plate 2211, so that the straight needle 2212 is inserted into the center of the radish along the horizontal direction of the carrying case 211 until the straight needle passes through the radish to the other side of the carrying case 211, and the pressing block on the supporting plate 2211 is matched and clamped with the groove 2233 started on the straight needle 2212 to limit the travel of the sliding piece 221.

It should be noted that the positioning assembly 22 can enable the radish slices to uniformly stand in the mold, manual stirring is not needed in the sealed container, and the radish slices can be uniformly pickled, so that the effect and the taste of full pickling are greatly improved.

Further, as shown in fig. 10, the feeding station i is provided with a scraping component 5 for scraping the radish and a blanking component 6 for cutting the two ends of the scraped radish to collect by matching with the scraping component 5.

In the embodiment, by arranging the skin scraping assembly 5 and matching with the blanking assembly 6, each skin scraped radish can accurately fall into the bearing assembly 21.

Example two

In this embodiment, the same or corresponding parts as those in the above embodiment are given the same reference numerals as those in the above embodiment, and only the points of distinction from the above embodiment will be described below for the sake of brevity. This embodiment differs from the above embodiment in that:

further, as shown in fig. 10, the shaving assembly 5 includes:

A sliding frame 51, wherein the sliding frame 51 is arranged in a sliding groove 512 formed on the bottom plate 212 through a fourth elastic unit 511;

The clamping blocks 52, the clamping blocks 52 are provided with two groups, and each clamping block 52 comprises a rotating part 521 rotatably connected with the sliding frame 51 and an elastic part 522 connected with the rotating part 521 through an elastic unit.

The scraping knife 53 is horizontally and slidably arranged on the two groups of sliding frames 51 through a connecting frame;

The receiving bin 54 is arranged at the lower ends of the two groups of clamping blocks 52 and is used for collecting turnip peels cut by the peeling knife 53;

the driving racks 55, the driving racks 55 are provided with two groups, and are respectively installed on the two groups of sliding frames 51;

The blanking assembly 6 includes a blanking passage 61 installed on the bottom plate 212 through a second bracket, two sets of cutting blades 62 rotatably connected to the blanking passage 61 through a supporting shaft 611, and a transmission gear 63 coaxially rotated with the cutting blades 62 and engaged with the driving rack 55.

In this embodiment, the sliding frame 51 is matched with the clamping block 52 to realize the clamping and limiting work of the radish, the peeling knife 53 is utilized to peel the radish, and the peeled radish skin is collected by the collecting bin 54 at the lower end of the clamping block 52.

In detail, the rotating part 521 and the elastic part 522 are connected through an elastic unit, the elastic part 522 is manually pulled to a compressed state to put the radish in, the elastic part 522 is loosened to clamp the radish, the whole radish is peeled by the peeling knife, the peeling assembly 5 is driven to move towards the transmission direction of the automatic transmission mechanism 1 through the linkage assembly 7, the driving rack 55 is further driven to be meshed with the transmission gear 63 coaxially driven by the cutting knife 62, the peeled two ends of the radish are subjected to head removing operation, and finally the semi-finished radish falls into the bearing box 211 through the blanking channel 61.

Further, as shown in fig. 11, the scraping assembly 5 is synchronously driven with the bearing mechanism 2 through a linkage assembly 7, and the linkage assembly 7 includes a connecting rod 71 mounted on the sliding frame 51, a spring rod 72 slidably connected with the connecting rod 71, and a reset track 74 mounted on the bottom plate through a third bracket 73 and abutting against the bottom of the spring rod 72.

In the present embodiment, by providing the link assembly 7, the link 71 on the carriage 51 is in contact with the spring rod 72, so that the carriage 51 moves in the transmission direction of the automatic transmission mechanism 1, the spring rod 72 moves downward to disengage from the link when passing through the return rail 74, and the carriage 51 returns to the original state by the elastic force of the fourth elastic unit 511.

The working steps are as follows:

Firstly, the elastic part 522 is manually pulled to a compressed state to put the radish into the press, the elastic part 522 is loosened to clamp the radish, the radish clamping limiting work is realized through the clamping block 52 matched with the sliding frame 51, the peeling knife 53 is utilized to carry out the peeling work on the radish, the peeled radish skin is collected through the receiving bin 54 at the lower end of the clamping block 52, the peeled and headed regular radish falls into the bearing mechanism 2, the adjustment of the radish in the bearing mechanism 2 to the work attached on one side of the bearing mechanism 2 is completed through the matching of the adjusting station II under the driving of the automatic conveying mechanism 1, then the bearing mechanism 2 is matched with the horizontal transmission unit 4 of the processing mechanism 3 under the driving of the automatic conveying mechanism 1, the cutter assembly 31 is matched with the pressing part 331 of the second guiding rail 33 to carry out the slicing work on the radish in the bearing mechanism 2, the cutter assembly 31 is lifted to the half of the time through the second guiding rail 33, the straight needle 2212 penetrates into the radish under the driving of the third guiding rail 222, then the movable part 3133 matched with the first guiding rail 313 through the horizontal part 333 of the second guiding rail 33 to carry out the adjustment on the radish to the bearing mechanism 2, the sealing cover 31 is pulled back to the bearing mechanism 2, and the working procedure can be finished after the radish is lifted up through the sealing cover 2, the sealing cover 2 is correspondingly arranged, and the working procedure can be finished.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (8)

1. The efficient processing equipment for processing the fruit and vegetable agricultural products is characterized by comprising an automatic transmission mechanism, wherein the automatic transmission mechanism is sequentially provided with a plurality of groups of bearing mechanisms along the transmission direction of the automatic transmission mechanism, and the bearing mechanisms are driven by the automatic transmission mechanism to be transmitted to a feeding station, an adjusting station and a processing station;

The carrying mechanism is matched with a processing mechanism on a processing station to slice the radish, and all the sliced radish slices are separated at the same distance under the action of the processing mechanism, so that each section of radish slices stands in the carrying mechanism at intervals and is salted;

The processing mechanism comprises a horizontal conveying unit, a cutter assembly which slides up and down along the vertical direction and is elastically installed on the horizontal conveying unit, and a batching assembly which is installed on the horizontal conveying unit and is matched with the cutter assembly to finish quantitative pickling material conveying of the sliced radish;

The cutter assembly includes:

The cutter unit comprises a plurality of groups of cutters which are arranged at equal intervals along the length direction of the cutter rest, a guide shaft a which slides on the cutter rest is arranged outside the cutter at one end of the cutter unit, square frames are arranged in the middle of each cutter, each two adjacent square frames are respectively hinged and connected through a cross rod, each two adjacent groups of cutters are unfolded for a certain distance by the cross rod in the transmission process of the guide shaft a, and a storage area of a single radish is formed between the two groups of cutters;

The limiting plate is arranged on the horizontal conveying unit, and the cutter unit penetrates through the limiting plate in a matched and sliding manner;

The first guide rail is fixedly arranged at the outer side of the automatic transmission mechanism and is matched with the guide shaft a to drive the cutter unit to horizontally move through the first elastic unit, and the first guide rail comprises an extrusion part for guiding the cutter unit to downwards drive the slices and a movable part for guiding the turnips sliced by the cutter unit to upwards lift by half and horizontally pull away by the same distance;

The bearing mechanism comprises a bearing assembly for carrying out material receiving work on radishes with the two ends of the radishes being removed, and a positioning assembly which is arranged on the bearing assembly and is used for carrying out perforation positioning on the radishes after cutting;

The positioning assembly includes:

The sliding part comprises a supporting plate, a straight needle, a sliding shaft and a connecting spring, wherein the supporting plate is integrally arranged with the bearing box, the straight needle horizontally penetrates through the bearing box and slides on the bearing box, the sliding shaft is fixedly connected with one end of the straight needle and slides on the supporting plate, the connecting spring is respectively fixedly connected with the supporting plate and the sliding shaft, and the sliding shaft horizontally slides under the drive of a third guide rail;

The clamping piece is arranged on the other side of the bearing box relative to the sliding piece, two groups of clamping pieces are arranged up and down symmetrically, the clamping piece comprises a pressing block which is arranged on the supporting plate through a third elastic unit, the pressing block is matched with a groove formed in the straight needle, and the two groups of clamping pieces are used for limiting the stroke of the sliding piece penetrating through the bearing box.

2. The efficient processing equipment for fruit and vegetable agricultural product processing according to claim 1, wherein the horizontal conveying unit comprises a sliding guide rail, and the mounting frame is horizontally arranged in the sliding guide rail in a sliding manner under the driving of the first driving mechanism and is synchronously driven with the automatic conveying mechanism.

3. The efficient processing apparatus for fruit and vegetable agricultural product processing according to claim 2, wherein the cutter assembly is driven by a second guide rail provided above the cutter assembly to move smoothly up and down, and the second guide rail is provided with a pressing portion, a first reset portion, a horizontal portion and a second reset portion along a conveying direction of the automatic conveying mechanism.

4. A fruit and vegetable agricultural product processing high efficiency processing apparatus according to claim 3, wherein the batching assembly comprises:

the batching box is arranged on the mounting frame;

The communication unit is a multi-section hose, the main flow end of the hose is communicated with the batching box, and the shunt end of the hose is communicated with the liquid flowing channel on the cutter;

the control unit comprises a control valve arranged on the hose, a driving wheel for driving the control valve to open, and two groups of driving racks which are arranged on the second reset part and are respectively used for driving the driving wheel to rotate positively and negatively.

5. An efficient processing apparatus for fruit and vegetable agricultural product processing as defined in claim 4, wherein said carrying assembly comprises:

The bearing box is of an integrated structure, and the lower end of the bearing box is of a cross structure;

The bottom plate is provided with a groove matched with the cross structure at the lower end of the bearing box and is arranged on the automatic transmission mechanism through a second telescopic unit, and the bottom plate is provided with a guide shaft b;

The adjusting station is provided with a corrugated track, a guide shaft b on the corrugated track driving bottom plate fluctuates up and down, and the guide shaft b is used for attaching the radishes to one end of the bearing box.

6. The efficient processing equipment for processing fruit and vegetable agricultural products according to claim 1, wherein the feeding station is provided with a leather scraping component for scraping the leather of the radish and a blanking component matched with the leather scraping component for cutting the two ends of the scraped radish and collecting the cut ends.

7. The efficient processing apparatus for fruit and vegetable agricultural product processing of claim 6, wherein the peeling assembly comprises:

the sliding frame is arranged in a sliding groove formed in the bottom plate through a fourth elastic unit;

The clamping blocks are provided with two groups, and each clamping block comprises a rotating part rotationally connected with the sliding frame and an elastic part connected with the rotating part through an elastic unit;

The scraping knife is horizontally and slidably arranged on the two groups of sliding frames through the connecting frame;

The receiving bin is arranged at the lower ends of the two groups of clamping blocks and is used for collecting the turnip skin scraped by the skin scraping knife;

the driving racks are provided with two groups and are respectively arranged on the two groups of sliding frames;

The blanking assembly comprises a blanking channel arranged on the bottom plate through a second bracket, two groups of cutting knives connected to the blanking channel through supporting shafts in a rotating mode, and a transmission gear which is coaxially rotated with the cutting knives and meshed with the driving rack.

8. The efficient processing equipment for fruit and vegetable agricultural product processing according to claim 7, wherein the scraping assembly is synchronously driven with the bearing mechanism through a linkage assembly, and the linkage assembly comprises a connecting rod arranged on the sliding frame, a spring rod connected with the connecting rod in a sliding manner, and a reset track arranged on the bottom plate through a third bracket in a manner of abutting against the bottom of the spring rod.