CN114451566B - Blocky processing and cleaning treatment device for broccoli - Google Patents

Abstract

The invention discloses a broccoli block processing and cleaning treatment device, wherein the bottom end of a fixed supporting plate is connected with a limit sealing plate, the top end of the fixed supporting plate is provided with a transmission motor, the top end of a cross limiting plate is provided with a porous cleaning barrel, the bottom end of the inner side of the porous cleaning barrel is welded with a porous water inlet pipe, the bottom end of the fixed barrel is symmetrically clamped with a sealing electric push rod, the inner side of the porous cleaning barrel is equidistantly clamped with a plurality of rubber rods, a booster pump is used for spraying water into the inner side of the porous cleaning barrel through a conveying pipe and a centralized bucket, the transmission motor drives the limit sealing plate, the porous water inlet pipe and the porous cleaning barrel to rotate, so that the tubers rotate at a high speed in the porous cleaning barrel, impurities attached to the surfaces of the tubers are separated, and sewage can be discharged through a discharge plate during cleaning, and the sealing electric push rod drives a protection sealing plate to seal the fixed barrel, so that the tubers can be effectively soaked during cleaning, and the use of water is effectively reduced.

Description

Blocky processing and cleaning treatment device for broccoli

Technical Field

The invention relates to the technical field of broccoli processing, in particular to a broccoli block processing and cleaning treatment device.

Background

Broccoli is commonly called broccoli, is originally produced into Italy, is a common vegetable, is commonly called broccoli and biennial herbaceous plant, is a variety of cabbage, is She Zida, forms a hypertrophied flower ball at the top end of a main stem, is green or purple green, has small flower buds on the surface not densely together, and has small flower balls on the top end of side branches, and the blocky root stem part of the broccoli is generally cleaned and cut during broccoli processing at present, so that the broccoli is convenient to pickle.

However, when the broccoli tubers are washed, the tubers cannot be directly and effectively treated by washing, the tubers are easily damaged by high-pressure water during washing, a large amount of water is wasted during washing, and meanwhile, sewage cannot be rapidly separated from the tubers.

Disclosure of Invention

The invention provides a broccoli block processing and cleaning treatment device, which can effectively solve the problems that when broccoli tubers are cleaned in the prior art, the tubers cannot be directly and effectively treated by washing, the tubers are easily damaged by high-pressure water during cleaning, a large amount of water is wasted during cleaning, and meanwhile, sewage cannot be quickly separated from the tubers.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a blocky processing of broccoli and washing processing apparatus, includes the fixed support frame, fixed support frame one side is installed the multistep and is washed the subassembly, the multistep washes the subassembly and includes fixed bucket, fixed support board, spacing closing plate, driving motor, cross limiting plate, porous washing bucket, porous inlet tube, hole joint piece, fixed hole strip, absorption electro-magnet, push spring, connect the joint pole, arrange flitch, torsion spring, block electro-magnet, pressurization pipe, booster pump, conveyer pipe, concentrate the bucket, seal electric putter, protection closing plate, discharge pipe, rubber stick and supplementary electric putter;

the auxiliary electric push rod drives the transmission motor, the fixed support plate and the limiting sealing plate to ascend, the porous water inlet pipe is clamped to the position of the limiting sealing plate, and the pushing spring drives the connecting clamping rod to be embedded into the inner side of the inner hole clamping block, so that the limiting sealing plate is connected with the porous cleaning barrel and the porous water inlet pipe in a clamping manner;

the pressurized water pump inputs cleaning liquid at the inner side of the collecting hopper to the inner side of the pressurizing pipe through the conveying pipe, and the cleaning liquid is sprayed into the inner side of the porous cleaning barrel through the porous water inlet pipe;

the transmission motor drives the limit sealing plate, the porous water inlet pipe and the porous cleaning barrel to rotate along the cross limit plate, and the seal electric push rod drives the protection sealing plate to be embedded into the position of the cross limit plate.

Preferably, fixed support frame one end joint has fixed bucket, fixed bucket top joint has fixed backup pad, fixed backup pad bottom rotation is connected with spacing closing plate, fixed backup pad top middle part is installed through the motor cabinet and is transmitted the motor, transmission motor output shaft and spacing closing plate top joint are connected, fixed bucket side welding has cross limiting plate, porous washing bucket has been placed on cross limiting plate top, porous washing bucket inboard bottom welding has porous inlet tube, porous inlet tube side equidistance welding has a plurality of hole joint piece, fixed inner hole strip is corresponding to hole joint piece position department welding in spacing closing plate bottom, fixed inner hole strip inboard embedding is installed the absorption electro-magnet, fixed inner hole strip inboard welding has the pushing spring, pushing spring one end corresponds hole joint piece position department welding and is connected the clamping pole, porous washing bucket bottom symmetry rotation is connected with the discharge plate, two the welding has torsion spring between the discharge plate, porous washing bucket corresponds discharge plate position department joint has the electro-magnet, porous inlet tube inboard through connection has the pressurization pipe, pressurization pipe side joint has a plurality of hole joint rod, pressurization pipe end and water pump top end seal, the sealed end is connected with the sealed end of pump top, the sealed end of pump top is connected with the sealed end of pump.

Preferably, the connecting clamping rod is slidably mounted on the inner side of the fixed inner hole strip, the porous water inlet pipe is mounted on the side end of the limiting sealing plate in a clamping manner, the transmission motor, the adsorption electromagnet, the blocking electromagnet, the booster pump, the sealing electric push rod and the auxiliary electric push rod are electrically connected with the output end of the external controller, and the input end of the external controller is electrically connected with the output end of the external power supply.

Preferably, the protection closing plate is connected with cross limiting plate joint, concentrate the fill joint and install in fixed barrel one end, a plurality of slag hole has been seted up to row flitch bottom equidistance, supplementary electricity push rod joint is installed in fixed support frame one end.

Preferably, a slice screening assembly is mounted on one side of the fixed support frame, and comprises a linkage motor, a movable screw rod, a discharge box, an auxiliary spring, a blocking discharge plate, a sealing electromagnet, a discharging hopper, a separating barrel, a storage hopper, a cutting motor, a cutting knife rest, a limiting discharging plate, a blocking soft hopper, a vibrating spring, an adsorption clamping plate, a screening box and a vibrating motor;

the utility model discloses a vibrating screen device, including fixed support frame, motor cabinet, fixed support frame, cutting tool rest, auxiliary spring, fixed support frame one end is installed the linkage motor through the motor cabinet, linkage motor output shaft and removal screw one end joint are connected, it is connected with the discharge box to remove screw side end through the motor cabinet, the inboard symmetrical welding of discharge box has the auxiliary spring, auxiliary spring one end welded connection has the baffle to discharge the board, the inboard joint that corresponds baffle position department that stops of discharge box has sealed electro-magnet, fixed support frame bottom corresponds discharge box position department welded with the hopper down, fixed support frame one end joint has the separation bucket, separation bucket top welding has the storage bucket, the cutting tool rest is installed through the motor cabinet to the separation bucket bottom, cutting motor output shaft and cutting tool rest one end joint are connected, separation bucket side end is close to cutting tool rest position department welded with spacing blanking board, spacing blanking board bottom end welded has the baffle soft bucket, separation bucket inboard equidistance welded has the vibration spring, the welding of vibration spring top has the absorption joint board, absorption joint board top joint has the sieve box, absorption joint board bottom is connected with the motor cabinet through the motor cabinet.

Preferably, the discharge box slidable mounting is in fixed support frame one end, discharge box one end welding has the direction fixed column, block soft bucket bottom embedding and install in dividing the sieve box inboard, linkage motor, sealed electro-magnet, cutting motor and vibrating motor input and external controller output electric connection.

Preferably, the cutting knife rest corresponds spacing blanking plate position department welding has the release board, the inboard middle part of screening box corresponds cutting knife rest position department joint has the protection pad, the biggest rotation angle that blocks the discharge plate is the degree.

Preferably, a dehydration sterilization assembly is arranged on one side of the fixed support frame, and comprises an electric slide rail, an arc-shaped blocking box, a centralized pipe, an L-shaped blocking plate, a steam box, an exhaust pipe, a dispersing pipe, a sealing protection belt, a pressure stabilizing pipe, a one-way valve and a heating plate;

the electric sliding rail is symmetrically arranged at one end of the fixed supporting frame, the side end of the electric sliding rail is connected with an arc-shaped blocking box through a sliding rail seat, the bottom end of the arc-shaped blocking box penetrates through a centralized pipe, an L-shaped blocking plate is welded at the side end of the arc-shaped blocking box, the top end of the L-shaped blocking plate is clamped with a steam box, the steam box is characterized in that the heating plate is connected to the inner side of the steam box in a clamping mode, the top end of the heating plate is connected with the exhaust pipe in a penetrating mode, the side end of the exhaust pipe is connected with the dispersing pipe in a penetrating mode, the side end of the arc-shaped blocking box is welded with the sealing protection belt, the top of the side end of the arc-shaped blocking box is connected with the pressure stabilizing pipe in a penetrating mode, and one end of the pressure stabilizing pipe is embedded with the one-way valve.

Preferably, the L-shaped baffle plate is provided with a clamping connection groove at the position corresponding to the arc-shaped baffle box, the top end of the steam box is penetrated with a water adding pipe, and the input end of the electric sliding rail is electrically connected with the output end of the external controller.

Preferably, the dispersing pipe is installed at the side end of the arc-shaped blocking box in a penetrating mode, and the inner diameter of the sealing protection belt is equal to the outer diameter of the arc-shaped blocking box.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. the multi-step flushing assembly is arranged, the pushing spring drives the connecting clamping rod to be embedded into the inner hole clamping block, the limiting sealing plate is connected with the porous cleaning barrel and the porous water inlet pipe in a clamping manner, the pressurized water pump sprays water into the inner side of the porous cleaning barrel through the conveying pipe and the centralized bucket, the transmission motor drives the limiting sealing plate, the porous water inlet pipe and the porous cleaning barrel to rotate, the tubers rotate at a high speed in the porous cleaning barrel and are knocked through the rubber rod, impurities attached to the surfaces of the tubers are separated, sewage can be discharged through the discharging plate during cleaning, the sealing electric pushing rod drives the protective sealing plate to seal the fixed barrel, so that the tubers can be effectively soaked during cleaning, and can be rotated again for cleaning, so that the tubers can be cleaned rapidly and stably during cleaning, the tuber is further cleaned through repeated operation for many times, the use of water is effectively reduced, the tubers can be prevented from being directly washed on the surfaces to cause the tubers, and the sewage and the tubers can be rapidly separated, and the tubers can be effectively treated during cleaning.

2. Set up the section screening subassembly, it removes to drive movable screw rod and arc by the linkage motor, make to handle that tuber can be quick when collecting in a concentrated way, it is inboard to deposit fill and separator drum with the tuber heat extraction to open to block the discharge plate, it cuts tuber to drive the cutting knife rest by cutting motor, it shakes to adsorb the joint board and divide the screening box by vibrating motor and vibration spring again, make the screening that can be quick when cutting tuber, the stability of section has been guaranteed, thereby can select the section when sliced, the size of section has been guaranteed to have been prescribe a limit to when pickling, the size of cutting has been guaranteed.

3. Be provided with dehydration subassembly that disinfects, it blocks the box and moves to porous washing bucket position department to drive the arc by electronic slide rail, drive porous washing bucket high-speed rotation by driving motor again, water with tuber surface adhesion breaks away from, it is inboard to steam box water heating by the hot plate, hot steam is through blast pipe and dispersion tube discharge to the arc and block the box inboard, directly wash tuber surface through high pressure steam, thereby quick high temperature disinfection is carried out to the tuber, make need disinfect the tuber, avoid remaining a large amount of miscellaneous fungus on tuber surface to lead to the condition of rotting to appear when pickling, drive porous washing bucket rotation by driving motor again, thereby secondary dehydration, avoid tuber surface to remain a large amount of water influence subsequent processing.

In summary, through the cooperation of multistep washing subassembly and dehydration subassembly that disinfects for can effectually operate when needing to handle tuber surface, avoid tuber surface impurity to pile up the effect that influences follow-up cutting, and handle through the multistep, make tuber surface cleaner, through section screening subassembly and dehydration subassembly that disinfects mutually support, thereby avoid a large amount of sewage on tuber surface to lead to the condition that the section position appears a large amount of spoilage, guaranteed the stability of pickling.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic illustration of the construction of a multi-step flushing assembly of the present invention;

FIG. 3 is a schematic view of the installation structure of the rubber rod of the present invention;

FIG. 4 is a schematic view of the installation structure of the porous inlet pipe of the present invention;

FIG. 5 is a schematic view of the mounting structure of the torsion spring of the present invention;

FIG. 6 is a schematic view of the mounting structure of the connecting and clamping rod of the present invention;

FIG. 7 is a schematic view of the structure of the slice screening assembly of the present invention;

FIG. 8 is a schematic view of the mounting structure of the barrier discharge plate of the present invention;

FIG. 9 is a schematic view of the mounting structure of the sifting cassette of the present invention;

fig. 10 is a schematic view of an installation structure of the vibration motor of the present invention;

fig. 11 is a schematic view of the structure of the dehydration sterilization assembly of the present invention;

FIG. 12 is a schematic view of the installation structure of the heating plate of the present invention;

reference numerals in the drawings: 1. fixing the supporting frame;

2. a multi-step flushing assembly; 201. a fixed barrel; 202. a fixed support plate; 203. limit sealing plates; 204. a drive motor; 205. a cross limiting plate; 206. a porous cleaning barrel; 207. a porous inlet pipe; 208. an inner hole clamping block; 209. fixing the inner hole strip; 210. an adsorption electromagnet; 211. a pushing spring; 212. connecting a clamping connection rod; 213. a discharge plate; 214. a torsion spring; 215. blocking the electromagnet; 216. a pressurizing tube; 217. a booster water pump; 218. a delivery tube; 219. a centralizing bucket; 220. sealing the electric push rod; 221. a protective sealing plate; 222. a discharge pipe; 223. a rubber rod; 224. an auxiliary electric push rod;

3. a slice screening assembly; 301. a linkage motor; 302. moving the screw rod; 303. a discharge box; 304. an auxiliary spring; 305. a barrier drain plate; 306. sealing the electromagnet; 307. discharging a hopper; 308. a separation barrel; 309. a storage bucket; 310. a cutting motor; 311. a cutting blade holder; 312. limiting blanking plates; 313. blocking the soft bucket; 314. a vibration spring; 315. an adsorption clamping plate; 316. a screening box; 317. a vibration motor;

4. a dehydration sterilization assembly; 401. an electric slide rail; 402. an arc-shaped blocking box; 403. a concentration tube; 404. an L-shaped baffle plate; 405. a steam box; 406. an exhaust pipe; 407. a dispersion tube; 408. sealing the protective belt; 409. a voltage stabilizing tube; 410. a one-way valve; 411. and (5) heating the plate.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: as shown in fig. 1-12, the invention provides a processing device for processing and cleaning broccoli blocks, which comprises a fixed support frame 1, wherein a multi-step flushing assembly 2 is arranged on one side of the fixed support frame 1, and the multi-step flushing assembly 2 comprises a fixed barrel 201, a fixed support plate 202, a limit sealing plate 203, a transmission motor 204, a cross limit plate 205, a porous cleaning barrel 206, a porous water inlet pipe 207, an inner hole clamping block 208, a fixed inner hole strip 209, an adsorption electromagnet 210, a pushing spring 211, a connecting clamping rod 212, a discharging plate 213, a torsion spring 214, a blocking electromagnet 215, a pressurizing pipe 216, a pressurizing water pump 217, a conveying pipe 218, a collecting hopper 219, a sealing electric push rod 220, a protective sealing plate 221, a discharging pipe 222, a rubber rod 223 and an auxiliary electric push rod 224;

the auxiliary electric push rod 224 drives the transmission motor 204, the fixed support plate 202 and the limit sealing plate 203 to ascend, the porous water inlet pipe 207 is clamped to the position of the limit sealing plate 203, the push spring 211 drives the connecting clamping rod 212 to be embedded into the inner side of the inner hole clamping block 208, so that the limit sealing plate 203 is in clamping connection with the porous cleaning barrel 206 and the porous water inlet pipe 207;

the pressurized water pump 217 inputs the cleaning liquid inside the collecting bucket 219 to the inside of the pressurized pipe 216 through the delivery pipe 218, and the cleaning liquid is sprayed into the inside of the porous cleaning barrel 206 through the porous water inlet pipe 207;

the transmission motor 204 drives the limit sealing plate 203, the porous water inlet pipe 207 and the porous cleaning barrel 206 to rotate along the cross limit plate 205, and the seal electric push rod 220 drives the protection sealing plate 221 to be embedded into the position of the cross limit plate 205.

One end of the fixed supporting frame 1 is clamped with a fixed barrel 201, the top end of the fixed barrel 201 is clamped with a fixed supporting plate 202, the bottom end of the fixed supporting plate 202 is rotationally connected with a limit sealing plate 203, the middle part of the top end of the fixed supporting plate 202 is provided with a transmission motor 204 through a motor seat, an output shaft of the transmission motor 204 is clamped with the top end of the limit sealing plate 203, the side end of the fixed barrel 201 is welded with a cross limit plate 205, the top end of the cross limit plate 205 is provided with a porous cleaning barrel 206, the bottom end of the inner side of the porous cleaning barrel 206 is welded with a porous water inlet pipe 207, the porous water inlet pipe 207 is clamped and installed at the side end of the limit sealing plate 203, so that the fixed connection can be effectively realized during transmission, a plurality of inner hole clamping blocks 208 are equidistantly welded at the side end of the porous water inlet pipe 207, the position of the bottom end of the limit sealing plate 203 corresponding to the inner hole clamping blocks 208 is welded with a fixed inner hole strip 209, the inner side of the fixed inner hole strip 209 is embedded and installed with an adsorption electromagnet 210, a pushing spring 211 is welded on the inner side of the fixed inner hole strip 209, a connecting clamping rod 212 is welded on one end of the pushing spring 211 corresponding to the position of the inner hole clamping block 208, the connecting clamping rod 212 is slidably mounted on the inner side of the fixed inner hole strip 209, limiting and guiding are facilitated, a plurality of slag discharging holes are symmetrically and rotatably formed in the bottom end of the porous cleaning barrel 206, the slag discharging holes are formed in the bottom end of the slag discharging plate 213 at equal intervals, so that the slag can be rapidly discharged during slag discharging and water discharging, a torsion spring 214 is welded between the two slag discharging plates 213, a blocking electromagnet 215 is clamped on the position of the porous cleaning barrel 206 corresponding to the slag discharging plate 213, a pressurizing pipe 216 is connected on the inner side of the porous water inlet pipe 207 in a penetrating manner, the water inlet end of the pressurizing pipe 216 is connected with the water outlet end of the pressurizing water pump 217, the water inlet end of the pressurizing water pump 217 is connected with the water outlet end of the conveying pipe 218, a collecting hopper 219 is clamped on the top end of the conveying pipe 218, the collecting hopper 219 is clamped and mounted on one end of the fixed barrel 201, the stable water supply of being convenient for, fixed barrel 201 bottom symmetry joint has sealed electric putter 220, protection closing plate 221 is installed on two sealed electric putter 220 tops, protection closing plate 221 is connected with cross limiting plate 205 joint, make can be quick when needs are connected operate, the stability of connection has been guaranteed, fixed barrel 201 side is held and is run through has discharge pipe 222, the inboard equidistance joint of porous washing bucket 206 has a plurality of rubber stick 223, driving motor 204 top joint has supplementary electric putter 224, supplementary electric putter 224 joint is installed in fixed support frame 1 one end, make can be quick when going up and down adjust, driving motor 204, adsorption electromagnet 210, block electro-magnet 215, booster pump 217, sealed electric putter 220 and supplementary electric putter 224 input and external controller output electric connection, external controller input and external power source output electric connection.

A slice screening assembly 3 is installed on one side of the fixed support frame 1, and the slice screening assembly 3 comprises a linkage motor 301, a movable screw rod 302, a discharge box 303, an auxiliary spring 304, a blocking discharge plate 305, a sealing electromagnet 306, a blanking hopper 307, a separating barrel 308, a storage hopper 309, a cutting motor 310, a cutting knife rest 311, a limiting blanking plate 312, a blocking soft hopper 313, a vibration spring 314, an adsorption clamping plate 315, a screening box 316 and a vibration motor 317;

the linkage motor 301 is arranged at one end of the fixed support frame 1, the output shaft of the linkage motor 301 is connected with one end of the movable screw rod 302 in a clamping way, the side end of the movable screw rod 302 is connected with the discharge box 303 through the motor seat, the discharge box 303 is slidably arranged at one end of the fixed support frame 1, the stability of feeding and discharging is ensured, one end of the discharge box 303 is welded with a guide fixed column, so that the discharge box can be effectively limited and guided in moving, the inner side of the discharge box 303 is symmetrically welded with an auxiliary spring 304, one end of the auxiliary spring 304 is welded with a blocking discharge plate 305, the maximum rotation angle of the blocking discharge plate 305 is 90 degrees, the inner side of the discharge box 303 is clamped with a sealing electromagnet 306 corresponding to the blocking discharge plate 305 in discharging, the bottom end of the fixed support frame 1 is welded with a blanking hopper 307 corresponding to the position of the discharge box 303, one end of the fixed support frame 1 is clamped with a separating barrel 308, the top end of the separating barrel 308 is welded with a storage hopper 309, the bottom end of the separating barrel 308 is provided with a cutting motor 310 through a motor seat, an output shaft of the cutting motor 310 is connected with one end of a cutting knife rest 311 in a clamping way, a push-out plate is welded at the position of the cutting knife rest 311 corresponding to a limiting blanking plate 312, so that the separating barrel 308 can be effectively discharged during discharging, the position of the side end of the separating barrel 308 close to the cutting knife rest 311 is welded with a limiting blanking plate 312, the bottom end of the limiting blanking plate 312 is welded with a blocking soft hopper 313, the bottom end of the blocking soft hopper 313 is embedded and installed at the inner side of a screening box 316, stable discharging and screening are facilitated, a vibration spring 314 is welded at the inner side of the separating barrel 308 at equal intervals, an adsorption clamping plate 315 is welded at the top end of the adsorption clamping plate 315, a screening box 316 is clamped at the position of the middle part of the inner side of the screening box 316 corresponding to the cutting knife rest 311 in a clamping way, so that blocking protection can be effectively carried out during sealing linkage, the bottom end of the adsorption clamping plate 315 is connected with a vibrating motor 317 through a motor base, and the input ends of the linkage motor 301, the sealing electromagnet 306, the cutting motor 310 and the vibrating motor 317 are electrically connected with the output end of an external controller.

A dehydration sterilization component 4 is arranged on one side of the fixed support frame 1, and the dehydration sterilization component 4 comprises an electric slide rail 401, an arc-shaped blocking box 402, a centralized pipe 403, an L-shaped blocking plate 404, a steam box 405, an exhaust pipe 406, a dispersing pipe 407, a sealing protection belt 408, a pressure stabilizing pipe 409, a one-way valve 410 and a heating plate 411;

the electric slide rail 401 is symmetrically installed at one end of the fixed support frame 1, the side end of the electric slide rail 401 is connected with the arc-shaped blocking box 402 through the slide rail seat, the bottom end of the arc-shaped blocking box 402 penetrates through the centralized pipe 403, the side end of the arc-shaped blocking box 402 is welded with the L-shaped blocking plate 404, the clamping connecting groove is formed in the position of the L-shaped blocking plate 404 corresponding to the arc-shaped blocking box 402, the steam box 405 can be rapidly limited and blocked during connection, the heating plate 411 is clamped on the inner side of the steam box 405, the top end of the heating plate 411 is penetrated and connected with the exhaust pipe 406, the side end of the exhaust pipe 406 is penetrated and connected with the dispersing pipe 407, the dispersing pipe 407 is penetrated and installed at the side end of the arc-shaped blocking box 402, the disinfection stability is guaranteed, the side end of the arc-shaped blocking box 402 is welded with the sealing protection belt 408, the inner diameter of the sealing protection belt 408 is equal to the outer diameter of the arc-shaped blocking box 402, the top of the arc-shaped blocking box 402 is penetrated and connected with the pressure stabilizing pipe 409, the one-way valve 410 is embedded at one end of the pressure stabilizing pipe 409, the top of the steam box 405 is penetrated and connected with the water pipe 405, and the input end of the electric slide rail 401 is electrically connected with the output end of the external controller.

The working principle and the using flow of the invention are as follows: when the broccoli tubers are required to be cleaned, the auxiliary electric push rod 224 drives the transmission motor 204, the fixed support plate 202 and the limit sealing plate 203 to rise, the tubers are placed inside the porous cleaning barrel 206, the auxiliary electric push rod 224 drives the transmission motor 204, the fixed support plate 202 and the limit sealing plate 203 to press down, the porous water inlet pipe 207 is clamped at the position of the limit sealing plate 203, the inner hole clamping block 208 is attached to the fixed inner hole strip 209, the adsorption electromagnet 210 is closed, the push spring 211 drives the connecting clamping rod 212 to be embedded inside the inner hole clamping block 208, so that the limit sealing plate 203 is in clamping connection with the porous cleaning barrel 206 and the porous water inlet pipe 207, the auxiliary electric push rod 224 drives the transmission motor 204, the fixed support plate 202 and the limit sealing plate 203 to press down, and finally is embedded inside the fixed barrel 201, so that the pressurizing pipe 216 is embedded inside the porous water inlet pipe 207, the cleaning liquid on the inner side of the concentration bucket 219 is input into the inner side of the pressurizing pipe 216 through the conveying pipe 218 and finally is input into the inner side of the porous water inlet pipe 207, the cleaning liquid is sprayed into the inner side of the porous cleaning barrel 206 through the porous water inlet pipe 207, the transmission motor 204 drives the limit sealing plate 203, the porous water inlet pipe 207 and the porous cleaning barrel 206 to rotate along the cross limit plate 205, so that impurities in the cleaning barrel are quickly cleaned and separated, meanwhile, the rubber rod 223 impacts and rotates the tubers, the impurities attached to the surfaces of the tubers are separated, the impurities are further cleaned and separated under the impact of high-pressure water, sewage and impurities are discharged through the discharge plate 213, after preliminary cleaning is finished, the sewage is discharged through the discharge pipe 222, after preliminary sewage cleaning is finished, the sealing electric push rod 220 drives the protective sealing plate 221 to be embedded into the position of the cross limit plate 205, so that the bottom end of the porous cleaning barrel 206 is sealed, the pressurized pipe 216 is used for inputting high-pressure water again, water is added through the porous water inlet pipe 207, tubers are soaked in the inner side of the fixed barrel 201, the transmission motor 204 is used for driving the limit sealing plate 203, the porous cleaning barrel 206 and the porous water inlet pipe 207 to rotate again, when the tubers are soaked in water, the tubers are impacted again through the rubber rod 223, so that the tubers are further cleaned, and the cleaning effect is ensured through repeated operation for many times;

after washing is completed, the auxiliary electric push rod 224 drives the fixed support plate 202 and the porous washing barrel 206 to ascend and finally convey the fixed support plate and the porous washing barrel 206 to the position of the arc-shaped blocking box 402, the electric slide rail 401 drives the arc-shaped blocking box 402 to move to the position of the porous washing barrel 206, after the two arc-shaped blocking boxes 402 are clamped and fixed, the inside is sealed through the sealing protection belt 408, the transmission motor 204 drives the porous washing barrel 206 to rotate, water attached to the surface of tubers is separated, the heating plate 411 heats the water inside the steam box 405 while dewatering, heated hot steam enters the inner side of the dispersing pipe 407 through the exhaust pipe 406 and finally is discharged into the inner side of the arc-shaped blocking box 402, the tuber surface is directly washed through high-pressure steam, so that high-temperature disinfection is performed on tubers, meanwhile, the pressure stabilizing pipe 409 and the one-way valve 410 stabilize the internal air pressure, so that the disinfection stability is ensured, after disinfection is completed, the transmission motor 204 continues to drive the porous washing barrel 206 to rotate, so that after the treatment is completed, a large amount of water remained on the surface of tubers is prevented from affecting subsequent processing;

after disinfection is completed, the linkage motor 301 drives the movable screw rod 302 to rotate, the electric sliding rail 401 drives the arc-shaped blocking box 402 to open, the discharging box 303 is moved to the bottom end of the porous cleaning barrel 206, the blocking electromagnet 215 is closed, the discharging plate 213 is pushed to rotate under the action of gravity of tubers, the tubers fall to the inner side of the discharging box 303, after the discharging is completed, the torsion spring 214 drives the discharging plate 213 to rotate and reset, thereby facilitating the quick secondary cleaning of staff, the movable screw rod 302 drives the discharging box 303 to move to the position of the storage hopper 309 again, the sealing electromagnet 306 is closed, the tubers push the blocking discharging plate 305 to discharge the tubers to the inner side of the storage hopper 309 through the lower hopper 307, the cutting knife rest 311 is driven by the cutting motor 310 to rotate, the tubers fall to the inner side of the separating barrel 308, the cutting knife rest 311 cuts the tubers and finally conveys the tubers to the inner side of the screening box 316, the vibrating motor 315 drives the adsorption clamping plate 315 to vibrate, and the vibrating spring 314 drives the adsorption clamping plate 315 to vibrate, so that the screening box 316 is driven to vibrate, and the stability of the cut and cut the tubers can be screened quickly.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a blocky processing of broccoli and cleaning treatment device, includes fixed support frame (1), its characterized in that: the multi-step flushing device is characterized in that a multi-step flushing assembly (2) is arranged on one side of the fixed supporting frame (1), the multi-step flushing assembly (2) comprises a fixed barrel (201), a fixed supporting plate (202), a limiting sealing plate (203), a transmission motor (204), a cross limiting plate (205), a multi-hole cleaning barrel (206), a multi-hole water inlet pipe (207), an inner hole clamping block (208), a fixed inner hole strip (209), an adsorption electromagnet (210), a pushing spring (211), a connecting clamping rod (212), a discharging plate (213), a torsion spring (214), a blocking electromagnet (215), a pressurizing pipe (216), a pressurizing water pump (217), a conveying pipe (218), a collecting hopper (219), a sealing electric pushing rod (220), a protective sealing plate (221), a discharging pipe (222), a rubber rod (223) and an auxiliary electric pushing rod (224);

fixed support frame (1) one end joint has fixed bucket (201), fixed bucket (201) top joint has fixed backup pad (202), fixed backup pad (202) bottom rotation is connected with spacing closing plate (203), fixed backup pad (202) top middle part is installed through the motor cabinet and is transmitted motor (204), transmission motor (204) output shaft and spacing closing plate (203) top joint are connected, fixed bucket (201) side welding has cross limiting plate (205), porous washing bucket (206) have been placed on cross limiting plate (205) top, porous washing bucket (206) inboard bottom welding has porous inlet tube (207), porous inlet tube (207) side equidistance welding has a plurality of hole joint piece (208), fixed hole strip (209) are welded in hole (208) position department corresponding to hole joint piece (208) in spacing closing plate (203) bottom, adsorption electromagnet (210) are installed in the inboard embedding of fixed hole strip (209), push spring (211) are inboard welding, push spring (211) one end corresponds hole joint piece (208) position (212), porous connecting rod (213) are connected with torsion bar (213) between two hole row connecting plates (213), the multi-hole cleaning barrel (206) is clamped with a blocking electromagnet (215) corresponding to the position of the discharging plate (213), the inner side of the multi-hole water inlet pipe (207) is connected with a pressurizing pipe (216) in a penetrating manner, the water inlet end of the pressurizing pipe (216) is connected with the water outlet end of a pressurizing water pump (217), the water inlet end of the pressurizing water pump (217) is connected with the water outlet end of a conveying pipe (218), the top end of the conveying pipe (218) is clamped with a centralized hopper (219), the bottom end of the fixing barrel (201) is symmetrically clamped with sealing electric push rods (220), the top ends of the two sealing electric push rods (220) are provided with a protection sealing plate (221), the side end of the fixing barrel (201) is penetrated with a discharging pipe (222), a plurality of rubber rods (223) are clamped at the inner side of the multi-hole cleaning barrel (206) in an equidistant manner, and the top end of the driving motor (204) is clamped with an auxiliary electric push rod (224).

The connecting clamping rod (212) is slidably arranged on the inner side of the fixed inner hole strip (209), the porous water inlet pipe (207) is arranged at the side end of the limiting sealing plate (203) in a clamping manner, the input ends of the transmission motor (204), the adsorption electromagnet (210), the blocking electromagnet (215), the booster pump (217), the sealing electric push rod (220) and the auxiliary electric push rod (224) are electrically connected with the output end of the external controller, and the input end of the external controller is electrically connected with the output end of the external power supply;

the auxiliary electric push rod (224) drives the transmission motor (204), the fixed support plate (202) and the limit sealing plate (203) to ascend, tubers are placed inside the porous cleaning barrel (206), the auxiliary electric push rod (224) drives the transmission motor (204), the fixed support plate (202) and the limit sealing plate (203) to be pressed down, the porous water inlet pipe (207) is clamped to the position of the limit sealing plate (203), the pushing spring (211) drives the connecting clamping rod (212) to be embedded inside the inner hole clamping block (208), and the limit sealing plate (203) is clamped and connected with the porous cleaning barrel (206) and the porous water inlet pipe (207);

the pressurizing water pump (217) inputs the cleaning liquid at the inner side of the collecting hopper (219) to the inner side of the pressurizing pipe (216) through the conveying pipe (218), and the cleaning liquid is sprayed into the inner side of the porous cleaning barrel (206) through the porous water inlet pipe (207);

the transmission motor (204) drives the limit sealing plate (203), the porous water inlet pipe (207) and the porous cleaning barrel (206) to rotate along the cross limit plate (205), and the seal electric push rod (220) drives the protection sealing plate (221) to be embedded into the position of the cross limit plate (205).

2. The broccoli block processing and cleaning device according to claim 1, wherein the protective sealing plate (221) is connected with the cross limiting plate (205) in a clamping manner, the collecting hopper (219) is installed at one end of the fixed barrel (201) in a clamping manner, a plurality of slag discharging holes are formed in the bottom end of the discharging plate (213) in an equidistant manner, and the auxiliary electric push rod (224) is installed at one end of the fixed supporting frame (1) in a clamping manner.

3. The broccoli block processing and cleaning treatment device according to claim 1, wherein a slice screening assembly (3) is installed on one side of the fixed support frame (1), and the slice screening assembly (3) comprises a linkage motor (301), a moving screw rod (302), a discharge box (303), an auxiliary spring (304), a blocking discharge plate (305), a sealing electromagnet (306), a discharging hopper (307), a separating barrel (308), a storage hopper (309), a cutting motor (310), a cutting knife rest (311), a limiting discharging plate (312), a blocking soft hopper (313), a vibrating spring (314), an adsorption clamping plate (315), a screening box (316) and a vibrating motor (317);

the utility model discloses a vibrating separation device, including fixed support frame (1), motor cabinet, fixed support frame (1), separating drum (308) and separating drum (308) are installed to fixed support frame (1) one end is installed linkage motor (301) through the motor cabinet, linkage motor (301) output shaft and one end joint of moving screw (302) are connected, moving screw (302) side is connected with discharge box (303) through the motor cabinet, discharge box (303) inboard symmetry welding has auxiliary spring (304), auxiliary spring (304) one end welded connection has to block discharge plate (305), discharge box (303) inboard corresponds to block discharge plate (305) position department joint has sealed electro-magnet (306), fixed support frame (1) bottom corresponds discharge box (303) position department welded and has hopper (307), fixed support frame (1) one end joint has separating drum (308), separating drum (308) top welded and is deposited hopper (309), separating drum (308) bottom is installed through the motor cabinet (310), cutting motor (310) output shaft and cutting knife rest (311) one end joint are connected, separating drum (308) side end is close to cutting knife rest (311) position department joint, lower limit spring (312) position welding (312) is welded with spacing hopper (314), vibration absorbing spring (315) welding top (313), the top joint of absorption joint board (315) has branch sieve box (316), absorption joint board (315) bottom is connected with vibrating motor (317) through the motor cabinet.

4. A broccoli block processing and cleaning device according to claim 3, wherein the discharging box (303) is slidably mounted at one end of the fixed supporting frame (1), one end of the discharging box (303) is welded with a guiding fixing column, the bottom end of the blocking soft bucket (313) is embedded and mounted inside the screening box (316), and the input ends of the linkage motor (301), the sealing electromagnet (306), the cutting motor (310) and the vibrating motor (317) are electrically connected with the output end of the external controller.

5. A broccoli block processing and cleaning device according to claim 3, wherein the cutting knife rest (311) is welded with a push-out plate corresponding to the position of the limiting blanking plate (312), the middle part of the inner side of the screening box (316) is clamped with a protection pad corresponding to the position of the cutting knife rest (311), and the maximum rotation angle of the blocking and discharging plate (305) is 90 degrees.

6. The broccoli block processing and cleaning treatment device according to claim 1, wherein a dehydration sterilization component (4) is installed on one side of the fixed support frame (1), and the dehydration sterilization component (4) comprises an electric slide rail (401), an arc-shaped blocking box (402), a centralized pipe (403), an L-shaped blocking plate (404), a steam box (405), an exhaust pipe (406), a dispersion pipe (407), a sealing protection belt (408), a pressure stabilizing pipe (409), a one-way valve (410) and a heating plate (411);

the utility model discloses a fixed support frame, including fixed support frame (1), electric slide rail (401) are installed to one end symmetry, electric slide rail (401) side is connected with arc through the slide rail seat and blocks box (402), arc blocks box (402) bottom and runs through and have concentrate tube (403), arc blocks box (402) side welding has L type baffle (404), L type baffle (404) top joint has steam box (405), inboard joint of steam box (405) has hot plate (411), hot plate (411) top through-connection has blast pipe (406), blast pipe (406) side through-connection has dispersion tube (407), arc blocks box (402) side welding and has sealed protection area (408), arc blocks box (402) side top through-connection has stabilivolt (409), one end embedding of stabilivolt (409) installs check valve (410).

7. The broccoli block processing and cleaning device according to claim 6, wherein the L-shaped baffle plate (404) is provided with a clamping connection groove at a position corresponding to the arc-shaped baffle box (402), the top end of the steam box (405) is penetrated with a water feeding pipe, and the input end of the electric sliding rail (401) is electrically connected with the output end of the external controller.

8. The broccoli block processing and cleaning device according to claim 6, wherein the dispersion tube (407) is installed at the side end of the arc-shaped blocking box (402) in a penetrating manner, and the inner diameter of the sealing protection belt (408) is equal to the outer diameter of the arc-shaped blocking box (402).