CN113207972A

CN113207972A - Walnut milk processing equipment based on integrated process flow and use method

Info

Publication number: CN113207972A
Application number: CN202110574828.8A
Authority: CN
Inventors: 向朝婉
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-07-24
Filing date: 2018-07-24
Publication date: 2021-08-06
Also published as: CN108925641B; CN108925641A

Abstract

The invention discloses walnut milk processing equipment based on an integrated process flow and a using method thereof, and relates to the technical field of walnut kernel processing equipment. This equipment is used in walnut milk processing based on integral type process flow, including the organism, the bottom fixedly connected with fixing base of organism both sides face, the left end intercommunication of organism top surface has the feeder hopper, the central department welding separation board of organism both sides inner wall, the central department of separation board top surface is inlayed and is had firm pipe, the central department intercommunication of organism bottom surface has the play thick liquid pipe. This equipment is used in walnut milk processing based on integral type process flow uses through the cooperation of feeding device, shake device, refining plant, belt cleaning device and dross removal mechanism, can fuse into a processing equipment to a plurality of process equipment, like this can be to a great extent reduce the consumption of electric energy, reduced process equipment's cost of manufacture, simultaneously, further improved the work efficiency and the practicality of walnut milk processing equipment.

Description

Walnut milk processing equipment based on integrated process flow and use method

The invention relates to a divisional application of walnut milk processing equipment based on an integrated process flow, wherein the application date is 2018, 07, 24 and the application number is CN 201810815225.0.

Technical Field

The invention relates to the technical field of walnut kernel processing equipment, in particular to walnut milk processing equipment based on an integrated process flow and a using method thereof.

Background

The walnut kernels contain rich nutrients, and each hundred grams of the walnut kernels contain 15-20 grams of protein, more fat and 10 grams of carbohydrate; and contains various trace elements and mineral substances such as calcium, phosphorus, iron and the like which are necessary for human bodies, and various vitamins such as carotene, riboflavin and the like. Is beneficial to human body. Is one of nut foods which are deeply favored by common people.

At present, walnut kernels can be made into various healthy tonic products beneficial to human bodies, walnut milk is one of the tonic products, the prior process for making the walnut milk comprises pulp grinding, pulp residue removal and the like, most of the current walnut milk processing equipment is single-type processing equipment, if the process before the whole walnut milk is deeply processed is required to be completed, the walnut kernels need to be processed by a plurality of processing equipment according to the sequence, so that the cost of the processing equipment can be increased for a factory for producing the walnut milk, meanwhile, after the processing of one processing equipment is completed, raw materials need to be transferred into another processing equipment again, and manual operation is required for transferring the raw materials, so that the labor intensity of workers is increased undoubtedly, and the working efficiency of the walnut milk processing is further influenced.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides walnut milk processing equipment based on an integrated process flow, and solves the problems of simple walnut milk processing equipment, high cost and low working efficiency.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an equipment is used in walnut milk processing based on integral type process flow, includes the organism, the bottom fixedly connected with fixing base of organism both sides face, the left end intercommunication of organism top surface has the feeder hopper, the center department welding baffler of organism both sides inner wall, the center department of baffler top surface is inlayed and is had firm pipe, the center department intercommunication of organism bottom surface has a thick liquid pipe, the bottom fixed mounting who goes out the thick liquid pipe has first valve, the center department of organism top surface and the inner chamber at organism top all are provided with the feeding device, the outside of feeding device and the top of organism both sides face all are provided with the shake device, the center department of baffler bottom surface is provided with the milling device, the center department of the both ends of baffler bottom surface and organism right flank all is provided with belt cleaning device, the bottom of organism both sides inner wall is provided with dross removal mechanism.

Preferably, the feeding device comprises a support frame, a speed reduction motor, a first stabilizing bearing, a drive rod, a feeding rod, a first twisted blade, a double-grooved wheel and a transmission belt, wherein the support frame is fixedly mounted at the center of the top surface of the machine body, the speed reduction motor is fixedly mounted inside the top end of the support frame, the first stabilizing bearing is embedded below the speed reduction motor and in the center of the top surface of the machine body, the drive rod is inserted into an inner cavity of the first stabilizing bearing, the surface of the center of the drive rod is welded with the feeding rod, the surface of the bottom end of the drive rod is sleeved with the first twisted blade, the top end of the drive rod is fixedly connected with the tail end of an output shaft of the bottom of the speed reduction motor through a coupler, the surface of the top end of the drive rod is sleeved with the double-grooved wheel, and the upper grooved wheel and the lower grooved wheel of the double-grooved wheel are sleeved with the two transmission belts.

Preferably, the shaking device comprises a first through hole, a first positioning rod, a shaking bin, a second through hole, a second positioning rod, a power assisting plate, a first positioning plate, a positioning bearing, a power assisting rod, a shaking block and a single grooved wheel, wherein the two first through holes are formed in the tops of two side faces of the stabilizing pipe, the two first positioning rods are inserted into the inner cavity of the first through hole, the shaking bin is inserted into the inner cavity of the stabilizing pipe, the opposite ends of the two first positioning rods are fixedly connected with the two side faces of the bottom end of the shaking bin respectively, the two second through holes are formed in the tops of two side faces of the machine body, the two second positioning rods are inserted into the inner cavities of the second through holes, the opposite ends of the two second positioning rods are fixedly connected with the two side faces of the top end of the shaking bin respectively, the opposite ends of the two second positioning rods are fixedly connected with the two power assisting plates, and the two first positioning rods are fixedly mounted on the tops of the two side faces of the machine body above and below the two power assisting plates The board, two the right-hand member of first locating plate top surface all inlays and has two location bearing, two location bearing's inner chamber all pegs graft and has the helping hand pole, the equal fixed mounting in surface of helping hand pole center department has the shake piece, the single sheave has all been cup jointed on the surface on helping hand pole top.

Preferably, the pulping device treasure house is provided with an upper grinding disc, a material storage tank, a material conveying hole, a third through hole, a first supporting rod, a first fixed bearing, a lower grinding disc and a transmission rod, an upper grinding disc is fixedly arranged at the center of the bottom surface of the baffle plate, a storage tank is arranged at the center of the top surface of the upper grinding disc, two material conveying holes are arranged at two ends of the bottom surface of the material storage tank, a third through hole is arranged at the center of the bottom surface of the material storage tank, two first supporting rods are welded at the centers of the inner walls at the two sides of the machine body below the two ends of the blocking plate, the opposite ends of the two first supporting rods are fixedly connected with first fixed bearings, a lower grinding disc is sleeved on the inner wall of the first fixed bearing, a transmission rod is fixedly connected at the center of the top surface of the lower grinding disc, the top end of the transmission rod penetrates through the inner cavity of the third through hole and is fixedly connected with the bottom end of the driving rod.

Preferably, the cleaning device comprises a water suction pump, a water suction pipe, a second valve, a branch pipe, a fixing frame, a third positioning rod, an adjusting bearing, an adjusting rod, a fixing pipe, a spray nozzle and a water spray pipe, wherein the water suction pump is fixedly arranged below a first positioning plate on the right side and positioned on the right side face of the machine body, a water suction port on the right side of the water suction pump is communicated with the water suction pipe, one end of the water suction pipe, which is far away from the water suction pump, is fixedly provided with the second valve, a water outlet at the bottom of the water suction pump is communicated with the branch pipe, two fixing frames are fixedly arranged at the bottoms of two side faces of the barrier plate, two third positioning rods are fixedly connected with the inner side faces of the opposite ends of the fixing frames, two adjusting bearings are fixedly connected with the opposite ends of the third positioning rods, an adjusting rod is fixedly mounted on the inner wall of each adjusting bearing, and a fixing pipe is fixedly connected with the front end of the adjusting rod, the equal fixed mounting in inside of fixed pipe has the shower nozzle, the water inlet intercommunication on shower nozzle top has the spray pipe, the lateral pipe is kept away from the one end of suction pump and is run through the both sides face of organism and the top of mount respectively and communicate with the top of spray pipe.

Preferably, the deslagging device comprises a conveying hopper, a deslagging pipe, a feed inlet, a second stabilizing bearing, a second support rod, a third stabilizing bearing, a deslagging rod, a second auger blade, a hinge, a sealing cover, a handle, a driven gear, a fixed plate, a driving bearing, a rotating rod, a driving gear and a filter screen, wherein the conveying hopper is fixedly connected to the inner walls of the two opposite ends of the first support rod below the two ends of the machine body, the deslagging pipe is fixedly connected to the bottom of the conveying hopper, the left end of the deslagging pipe is fixedly connected with the left inner part of the machine body, the right end of the deslagging pipe penetrates through the right side surface of the machine body and extends out of the machine body, the feed inlet is arranged at the center of the top surface of the deslagging pipe, the second stabilizing bearing is embedded at the left end of the deslagging pipe and located on the left side surface of the machine body, and the two second support rods are fixedly connected to the upper and lower inner walls, the opposite ends of the two second support rods are fixedly connected with a third stabilizing bearing, the inner cavities of the second stabilizing bearing and the third stabilizing bearing are respectively spliced with a slag removing rod, the surface of the slag removing pipe is fixedly provided with a second auger blade, the right end of the top surface of the slag removing pipe is hinged with a hinge, the inner cavity of the right end of the slag removing pipe is spliced with a sealing cover, one end of the hinge, far away from the slag removing pipe, is hinged with the top surface of the sealing cover, the right side surface of the sealing cover is fixedly provided with a handle, the left end of the slag removing rod is fixedly provided with a driven gear, the bottom of the driven gear, which is positioned above the left side surface of the machine body, is fixedly connected with a fixed plate, the top surface of the fixed pipe is embedded with a driving bearing, the inner cavity of the driving bearing is spliced with a rotating rod, the top end of the rotating rod is fixedly connected with the bottom end of a left boosting rod, and the bottom of the rotating rod is fixedly provided with a driving gear, and a filter screen is embedded in the bottom surface of the slag removing pipe.

Preferably, the double grooved wheels and the two single grooved wheels are in transmission connection through transmission belts, the shaking blocks are oval in shape, the connection positions of the power rods of the shaking blocks are not located at the central point of the top surface of the shaking blocks, the connection positions of the left shaking blocks, the right shaking blocks and the power rods are in opposite directions, the branch pipes are hard pipes, the water spray pipes are hoses, and the water spray pipes are in a bent state.

Preferably, the surface of the boosting rod is fixedly connected with the inner wall of the positioning bearing, the top end of the lower grinding disc is in a trapezoid round table shape, and the inner wall of the first fixing bearing is fixedly connected with the surface of the lower grinding disc.

Preferably, be connected for the transmission between drive gear and the driven gear, the surface of slagging-off pole respectively with the inner wall fixed connection of second firm bearing and third firm bearing, the bottom of defeated hopper communicates with the inner chamber of feed inlet.

(III) advantageous effects

The invention provides walnut milk processing equipment based on an integrated process flow. The method has the following beneficial effects:

(1) this equipment is used in walnut milk processing based on integral type process flow, through gear motor among the feeding device, the actuating lever, the cooperation of defeated material pole and first flood dragon blade is used, gear motor's start-up can drive actuating lever and defeated material pole and rotate simultaneously, the rotation of defeated material pole can drive first flood dragon blade and rotate, cooperation through defeated material pole and first flood dragon blade is used, just can conveniently give the walnut kernel of shaking storehouse inside and carry the milling machine inside, thereby can accelerate milling machine's work efficiency.

(2) This equipment is used in walnut milk processing based on integral type process flow, through the middle grooved wheel in the shake device, the helping hand pole, the cooperation of trembleing piece and first locating plate is used, gear motor's start-up also can drive belt and single grooved wheel and rotate, single grooved wheel rotates and to drive the helping hand pole and rotate, the helping hand pole rotates and just can shake the piece and rotate, shake the piece and rotate and just rock about the first locating plate of drive that can the continuation, it just can drive the shake storehouse and rock about going on through rocking about first locating plate, rock the speed that just can conveniently accelerate the walnut-meat transport about shaking the storehouse, and then can improve the defeated material work efficiency of feeding device.

(3) This equipment is used in walnut cream processing based on integral type process flow, through the cooperation of runner stone in the grinding device, the stock chest, the discharge opening, transfer line and lower mill are used, gear motor's start-up can also drive actuating lever and transfer line and rotate simultaneously, the rotation of transfer line just can drive down the mill and rotate, the inside walnut-meat that feeding device carried down is equipped with to the stock chest, then the inside walnut-meat of feed delivery groove gives through the discharge opening again and transmits to in the space between runner stone and the runner stone down, at last through the rotation of lower mill, just can accomplish the defibrination to the walnut-meat.

(4) This equipment is used in walnut milk processing based on integral type process flow, through the suction pump among the belt cleaning device, the drinking-water pipe, the cooperation of second valve and bleeder is used, open the second valve, restart the inside that the drinking-water pump just can drive the drinking-water pipe and give external water source and transmit the bleeder, the bleeder gives the inside of transmitting the spray pipe to the water source again, because it is the hose to spout the book pipe, the water pressure that produces when carrying according to the water source again, just can make the spray pipe continuation produce deformation, just so just can make the shower nozzle carry out the up-and-down motion, thereby reach the water spray angle of adjusting the shower nozzle, through the regulation shower nozzle angle of continuation, just can accelerate the inside abluent speed of organism, the practicality of walnut milk processing equipment has further been improved.

(5) The walnut milk processing equipment based on the integrated process flow comprises a material conveying hopper, a slag removing pipe, a slag removing rod, a second auger piece, a driven gear, a driving gear and a rotating rod which are matched with each other in a slag removing device, wherein the material conveying hopper can conveniently convey walnut juice and pulp slag after grinding to the inside of the slag removing pipe at the same time, the filter screen can convey the walnut juice to the bottommost part of the inner cavity of a machine body through the arranged filter screen, the speed reducing motor can drive a double grooved wheel and a single grooved wheel to rotate simultaneously by starting the speed reducing motor, the power assisting rod and the rotating rod can be driven to rotate simultaneously by the rotation of the single grooved wheel, the driving gear and the driven gear can be conveniently driven to rotate simultaneously by the rotation of the rotating rod, the slag removing rod and the second auger blade can be driven to rotate simultaneously by the rotation of the driven gear, a sealing cover in the slag removing device is opened, so that the pulp slag in the second auger blade can be conveniently conveyed to the outside of the slag removing pipe, thus achieving the effect of conveniently removing the pulp residue in the walnut pulp.

(6) This equipment is used in walnut milk processing based on integral type process flow uses through the cooperation of feeding device, shake device, milling device, belt cleaning device and dross removal mechanism, can fuse into a processing equipment to a plurality of process equipment, like this can be to a great extent reduce the consumption of electric energy, reduced process equipment's cost of manufacture, also reduced the intensity of labour that the staff carried the material, simultaneously, further improved the work efficiency and the practicality of walnut milk processing equipment.

Drawings

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

FIG. 2 is a front view of the structure of the present invention;

FIG. 3 is a rear view of the structure of the present invention;

FIG. 4 is an enlarged view of the structure of the integrated process flow-based walnut milk processing equipment in FIG. 1;

FIG. 5 is an enlarged view of the structure of FIG. 1 at B in accordance with the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 1 at C according to the present invention;

FIG. 7 is a front sectional view of the structure of the slag removing device of the present invention;

FIG. 8 is a rear view showing a partial structure of the cleaning apparatus of the present invention.

In the figure: 1 machine body, 2 fixed seats, 3 feed hoppers, 4 baffle plates, 5 stabilizing pipes, 6 slurry outlet pipes, 7 first valves, 8 material conveying devices, 81 support frames, 82 speed reducing motors, 83 first stabilizing bearings, 84 driving rods, 85 material conveying rods, 86 first auger blades, 87 double grooved pulleys, 88 transmission belts, 9 shaking devices, 91 first through holes, 92 first positioning rods, 93 shaking bins, 94 second through holes, 95 second positioning rods, 96 boosting plates, 97 first positioning plates, 98 positioning bearings, 99 boosting rods, 911 shaking blocks, 912 single grooved pulleys, 10 pulping devices, 1001 upper grinding disc, 1002 material storage tank, discharge holes, 1004 third through holes, 1003 first supporting rods, 1006 first fixed bearings, 1007 lower grinding disc, 1008 transmission rods, 11 cleaning devices, 1101 water suction pumps, 1103 water suction pipes, 1103 second valves, 1104 branch pipes, 1105 fixed frames, 1106 third positioning rods, 1107 adjusting bearings, 1005 adjusting rods, 1107 adjusting rods, and the like, 1109 fixed pipe, 1111 spray head, 1112 spray pipe, 12 deslagging device, 1201 conveying hopper, 1202 deslagging pipe, 1203 feed inlet, 1204 second stabilizing bearing, 1205 second supporting rod, 1206 third stabilizing bearing, 1207 deslagging rod, 1208 second auger blade, 1209 hinge, 1211 sealing cover, 1212 handle, 1213 driven gear, 1214 fixed plate, 1215 driving bearing, 1216 rotating rod, 1217 driving gear, 1218 filter screen.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1-8, the present invention provides a technical solution: a walnut milk processing device based on an integrated process flow comprises a machine body 1, wherein fixed seats 2 are fixedly connected to the bottoms of two side surfaces of the machine body 1, the left end of the top surface of the machine body 1 is communicated with a feed hopper 3, the feed hopper 3 can conveniently feed required raw materials into a shaking bin 93 in an inner cavity of the machine body 1, and simultaneously, a proper amount of water source is added to facilitate the work of a milk grinding device 10, baffle plates 4 are welded at the centers of inner walls of two sides of the machine body 1, a stabilizing pipe 5 is embedded at the center of the top surface of each baffle plate 4, a milk outlet pipe 6 is communicated with the center of the bottom surface of the machine body 1, a first valve 7 is fixedly installed at the bottom end of the milk outlet pipe 6, a milk outlet pipe 6 and the first valve 7 are arranged to open, walnut milk grinding juice can be conveniently conveyed into a collecting vessel through the milk outlet pipe 6, and cleaned sewage can be conveniently discharged out of the machine body 1 through the milk outlet pipe 6, the center department of organism 1 top surface and the inner chamber at organism 1 top all are provided with feeding device 8, and the outside of feeding device 8 and the top of organism 1 both sides face all are provided with shake device 9, and the center department of baffler 4 bottom surface is provided with milling device 10, and the center department of the both ends of baffler 4 bottom surface and organism 1 right flank all is provided with belt cleaning device 11, and the bottom of organism 1 both sides inner wall is provided with dross removal mechanism 12.

The feeding device 8 comprises a support frame 81, a speed reducing motor 82, a first stabilizing bearing 83, a driving rod 84, a feeding rod 85, a first auger blade 86, a double grooved wheel 87 and a transmission belt 88, wherein the support frame 81 is fixedly installed at the center of the top surface of the machine body 1, the speed reducing motor 82 is fixedly installed inside the top end of the support frame 81, the speed reducing motor 82 in the feeding device 8 is started, the driving rod 84 and the feeding rod 85 can be driven to rotate simultaneously by starting the speed reducing motor 82, the first auger blade 86 can be driven to rotate by rotation of the feeding rod 85, walnut kernels in the shaking bin 93 can be conveniently conveyed into the pulping device 10 by matching the feeding rod 85 and the first auger blade 86, the first stabilizing bearing 83 is embedded at the center of the top surface of the machine body 1 below the speed reducing motor 82, the driving rod 84 is inserted in the inner cavity of the first stabilizing bearing 83, the feeding rod 85 is welded on the surface of the center of the driving rod 84, the surface of the bottom end of the driving rod 84 is sleeved with a first auger piece 86, the top end of the driving rod 84 is fixedly connected with the tail end of an output shaft at the bottom of the speed reducing motor 82 through a coupler, the surface of the top end of the driving rod 84 is sleeved with a double grooved pulley 87, the double grooved pulley 87 is in transmission connection with two single grooved pulleys 912 through a transmission belt 88, and the upper grooved pulley and the lower grooved pulley of the double grooved pulley 87 are sleeved with two transmission belts 88.

The shaking device 9 comprises a first through hole 91, a first positioning rod 92, a shaking bin 93, a second through hole 94, a second positioning rod 95, a power assisting plate 96, a first positioning plate 97, a positioning bearing 98, a power assisting rod 99, a shaking block 911 and a single grooved wheel 912, wherein two first through holes 91 are formed in the tops of two side surfaces of the stabilizing tube 5, two first positioning rods 92 are inserted into the inner cavities of the two first through holes 91, the shaking bin 93 is inserted into the inner cavity of the stabilizing tube 5, the opposite ends of the two first positioning rods 92 are fixedly connected with the two side surfaces of the bottom end of the shaking bin 93 respectively, two second through holes 94 are formed in the tops of two side surfaces of the machine body 1, two second positioning rods 95 are inserted into the two second through holes 94, the opposite ends of the two second positioning rods 95 are fixedly connected with the two side surfaces of the top end of the shaking bin 93 respectively, and the opposite ends of the two second positioning rods 95 are fixedly connected with the two power assisting plates 96, two first positioning plates 97 are fixedly arranged on the tops of two side surfaces of the machine body 1 above and below the two boosting plates 96, two positioning bearings 98 are inlaid at the right ends of the top surfaces of the two first positioning plates 97, boosting rods 99 are inserted into inner cavities of the two positioning bearings 98, the surfaces of the boosting rods 99 are fixedly connected with the inner walls of the positioning bearings 98, shaking blocks 911 are fixedly arranged on the surfaces of the centers of the boosting rods 99, the shaking blocks 911 are oval, the joint of the shaking block boosting rods 89 is not located at the central point of the top surface of the shaking block 911, the joints of the left shaking block 911, the right shaking block 911 and the boosting rod 99 are in opposite directions, a single grooved pulley 912 is sleeved on the surface of the top end of the boosting rod 99, the single grooved pulley 912 is started again through the speed reducing motor 82, the speed reducing motor 82 can drive the double grooved pulleys 87 and the transmission belt 88 to simultaneously rotate, the transmission belt 88 can drive the single grooved pulley 912 and the boosting rods 99 to simultaneously rotate, helping hand pole 99 rotates and just can tremble piece 911 and rotate, trembles piece 911 and rotates and just can the first locating plate 97 of drive of continuation left and right sides rock, rocks about through first locating plate 97 and just can drive and tremble storehouse 93 and rock about, rocks about through trembleing storehouse 93 and just can conveniently accelerate the speed that the walnut-meat was carried.

The pulping device 10 treasury comprises an upper grinding disc 1001, a material storage tank 1002, material conveying holes 1003, a third through hole 1004, a first support rod 1005, a first fixed bearing 1006, a lower grinding disc 1007 and a transmission rod 1008, wherein the upper grinding disc 1001 is fixedly installed at the center of the bottom surface of a baffle plate 4, the material storage tank 1002 is arranged at the center of the top surface of the upper grinding disc 1001, two material conveying holes 1003 are formed at two ends of the bottom surface of the material storage tank 1002, the third through hole 1004 is formed at the center of the bottom surface of the material storage tank 1002, two first support rods 1005 are welded at the centers of the inner walls of two sides of a machine body 1 below two ends of the baffle plate 4, the opposite ends of the two first support rods 1005 are fixedly connected with the first fixed bearing 1006, the inner wall of the first fixed bearing 1006 is fixedly connected with the surface of the lower grinding disc 1007, the lower grinding disc 1007 is sleeved on the inner wall of the first fixed bearing 1006, the top end of the lower grinding disc 1007 is in a trapezoidal round table shape, the center of the top surface of the lower grinding disc 1007 is fixedly connected with the transmission rod 1008, the gear motor 82 is started again, the gear motor 82 can drive the driving rod 84 and the driving rod 1008 to rotate simultaneously, the driving rod 1008 can drive the lower grinding disc 1007 to rotate through rotation, the walnut kernels conveyed by the material conveying device 8 are arranged inside the material storage tank 1002, then the walnut kernels inside the material conveying tank 1002 are conveyed to a gap between the lower grinding disc 1007 and the upper grinding disc 1001 through the discharge hole 1003, finally grinding of the walnut kernels can be completed through rotation of the lower grinding disc 1007, and the top end of the driving rod 1008 penetrates through an inner cavity of the third through hole 1004 and is fixedly connected with the bottom end of the driving rod 74.

The cleaning device 11 comprises a water suction pump 1101, a water suction pipe 1102, a second valve 1103, a branch pipe 1104, a fixing frame 1105, a third positioning rod 1106, an adjusting bearing 1107, an adjusting rod 1108, a fixing pipe 1109, a nozzle 1111 and a water spray pipe 1112, wherein the water suction pump 1101 is fixedly arranged below a first positioning plate 87 on the right side and positioned on the right side surface of the machine body 1, finally, by starting the water suction pump 1101, the water suction pump 1101 can drive the water suction pipe 1102 to transmit external water to the inside of the branch pipe 1104, the branch pipe 1104 transmits the water to the inside of the water spray pipe 1112, since the water spray pipe 1112 is a hose, the water spray pipe 1112 can be continuously deformed according to water pressure generated during water source transmission, so that the nozzle 1111 can move up and down, thereby adjusting the water spray angle of the nozzle 1111, and by continuously adjusting the angle of the nozzle 1111, the speed of cleaning inside the machine body 1 can be accelerated, the water pumping port on the right side of the water pumping pump 1101 is communicated with a water pumping pipe 1102, one end, far away from the water pumping pipe 1101, of the water pumping pipe 1102 is fixedly provided with a second valve 1103, the water outlet at the bottom of the water pumping pump 1101 is communicated with a branch pipe 1104, the bottoms of two lateral surfaces of the barrier plate 4 are fixedly provided with two fixing frames 1105, the inner lateral surfaces of the opposite ends of the two fixing frames 1105 are fixedly connected with two third positioning rods 1106, the opposite ends of the two third positioning rods 1106 are fixedly connected with adjusting bearings 1107, the inner walls of the adjusting bearings 1107 are fixedly provided with adjusting rods 1108, the front ends of the adjusting rods 1108 are fixedly connected with a fixed pipe 1109, the inside of the fixed pipe 1109 is fixedly provided with a spray head 1111, the water inlet at the top end of the spray head 1111 is communicated with a water spraying pipe 1112, the branch pipe 1104 is a hard pipe, the water spraying pipe 1112 is a hose, the water spray pipe 1112 is bent, and one end of the branch pipe 1104 away from the suction pump 1101 penetrates both side surfaces of the machine body 1 and the top of the fixing frame 1105 and communicates with the top end of the water spray pipe 1112.

The deslagging device 12 comprises a material conveying hopper 1201, a deslagging pipe 1202, a material inlet 1203, a second stabilizing bearing 1204, a second support rod 1205, a third stabilizing bearing 1206, a deslagging rod 1207, second auger blades 1208, hinges 1209, a sealing cover 1211, a handle 1212, a driven gear 1213, a fixing plate 1214, a driving bearing 1215, a rotating rod 1216, a driving gear 1217 and a filter screen 1218, wherein the inner walls of two opposite ends of the two first support rods 1005 are fixedly connected with the material conveying hopper 1201, the bottom end of the material conveying hopper 1201 is communicated with the inner cavity of the material inlet 1203, the bottom of the material conveying hopper 1201 is fixedly connected with the deslagging pipe 1202, the left end of the deslagging pipe 1202 is fixedly connected with the inner part of the left side of the machine body 1, the right end of the deslagging pipe 1202 penetrates through the right side of the machine body 1 and extends out of the machine body 1, the center of the top surface of the deslagging pipe 1202 is provided with the material inlet, the left end of the deslagging pipe 1202 is embedded with the second stabilizing bearing 1204 on the left side of the machine body 1, two second support rods 1205 are fixedly connected to the upper and lower inner walls of the right end of the slag removing pipe 1202, the opposite ends of the two second support rods 1205 are fixedly connected with a third stable bearing 1206, the inner cavities of the second stable bearing 1204 and the third stable bearing 1206 are respectively inserted with a slag removing rod 1207, the surface of the slag removing rod 1207 is respectively fixedly connected with the inner walls of the second stable bearing 1204 and the third stable bearing 1026, the surface of the slag removing pipe 1207 is fixedly provided with a second auger blade 1208, the right end of the top surface of the slag removing pipe 1202 is hinged with a hinge 1209, the inner cavity of the right end of the slag removing pipe 1202 is inserted with a sealing cover 1211, one end of the hinge 1209 far away from the slag removing pipe 1202 is hinged with the top surface of the sealing cover 1211, the right side surface of the sealing cover 1211 is fixedly provided with a handle 1212, the left end of the slag removing rod 1207 is fixedly provided with a driven gear 1213, the bottom of the driven gear 1213 above and on the left side surface of the machine body 1 is fixedly connected with a fixing plate 1214, and the top surface of the fixing pipe 1214 is embedded with a driving bearing 1215, a rotating rod 1216 is inserted into the inner cavity of the driving bearing 1215, the top end of the rotating rod 1216 is fixedly connected with the bottom end of a left boosting rod 89, a driving gear 1217 is fixedly installed at the bottom end of the rotating rod 1216, the speed reducing motor 82 is started again to drive the deslagging device 12 to operate, then the speed reducing motor 82 is started, the speed reducing motor 82 can drive the boosting rod 99 and the rotating rod 1216 to rotate simultaneously, the rotating rod 1216 can conveniently drive the driving gear 1217 and the driven gear 1213 to rotate simultaneously, the rotation of the driven gear 1213 can drive the deslagging rod 1207 and the second auger blade 1208 to rotate simultaneously, a sealing cover 1211 in the deslagging device 12 is opened, so that the pulp slag in the deslagging pipe 1202 can be conveniently transmitted to the outside of the deslagging pipe 1202 through the rotation of the second auger blade 1208, the driving gear 1217 is in transmission connection with the driven gear 1213, a filter screen 1218 is embedded in the bottom surface of the deslagging pipe 1202, and passes through the arranged filter screen 1218, the filter 1218 may deliver the walnut juice to the bottom of the inner cavity of the housing 1.

When the walnut milk processing equipment based on the integrated process flow is used, the needed raw materials can be conveniently conveyed into the shaking bin 93 in the inner cavity of the machine body 1 through the arranged feeding hopper 3, meanwhile, a proper amount of water source is added, the pulping device 10 can conveniently work, then the speed reducing motor 82 in the conveying device 8 is started, the driving rod 84 and the material conveying rod 85 can be driven to rotate simultaneously by starting the speed reducing motor 82, the first auger blade 86 can be driven to rotate by rotating the material conveying rod 85, the walnut kernels in the shaking bin 93 can be conveniently conveyed into the pulping device 10 by matching the material conveying rod 85 and the first auger blade 86, then the speed reducing motor 82 can drive the double grooved wheels 87 and the transmission belt 88 to rotate simultaneously by starting the speed reducing motor 82 again, the single grooved wheel 912 and the boosting rod 99 can be driven to rotate simultaneously by rotating the transmission belt 88, the power-assisted rod 99 rotates to rotate the shaking block 911, the shaking block 911 rotates to continuously drive the first positioning plate 97 to shake left and right, the shaking bin 93 can be driven to shake left and right by the left and right shaking of the first positioning plate 97, the walnut kernel conveying speed can be conveniently accelerated by the left and right shaking of the shaking bin 93, the speed-reducing motor 82 is restarted, the speed-reducing motor 82 can drive the driving rod 84 and the driving rod 1008 to rotate simultaneously, the driving rod 1008 rotates to drive the lower grinding disc 1007, the walnut kernels conveyed by the material conveying device 8 are arranged in the storage tank 1002, then the walnut kernels in the material conveying tank 1002 are conveyed to a gap between the lower grinding disc 1007 and the upper grinding disc 1001 through the discharge hole 1003, finally, grinding can be completed by the rotation of the lower grinding disc 1007, and at the moment, the speed-reducing motor 82 is restarted to drive the walnut kernel deslagging device 12 to operate, through the arranged filter screen 1218, the filter screen 1218 can transmit the walnut juice to the bottommost part of the inner cavity of the machine body 1, then the speed reducing motor 82 is started, the speed reducing motor 82 can drive the boosting rod 99 and the rotating rod 1216 to rotate simultaneously, the rotating rod 1216 can conveniently drive the driving gear 1217 and the driven gear 1213 to rotate simultaneously, the driven gear 1213 can drive the slag removing rod 1207 and the second auger blade 1208 to rotate simultaneously, the sealing cover 1211 in the slag removing device 12 is opened, thus the pulp residue in the slag removing pipe 1202 can be conveniently transmitted to the outside of the slag removing pipe 1202 through the rotation of the second auger blade 1208, finally, through starting the water suction pump 1101, the water suction pump 1102 can be driven to transmit the external water source to the inside of the branch pipe 1104, the branch pipe 1104 transmits the water source to the inside of the water spray pipe 1112, because the book spray pipe 1112 is a hose, according to the water pressure generated during the water source transmission, just can make spray pipe 1112 persistence produce deformation, just so can make shower nozzle 1111 carry out the up-and-down motion, thereby reach the water spray angle of adjusting shower nozzle 1111, through the regulation shower nozzle 1111 angle of persistence, just can accelerate the inside abluent speed of organism 1, through the play thick liquid pipe 6 and the first valve 7 that set up, open first valve 7, can conveniently give the walnut thick liquid juice after the mill thick liquid and transmit the collection dish through a play thick liquid pipe 6, and can also conveniently give the outside of discharging organism 1 through a play thick liquid pipe 6 to the sewage after the washing.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides an equipment is used in walnut milk processing based on integral type process flow, includes organism (1), its characterized in that: the bottom of the two side faces of the machine body (1) is fixedly connected with a fixed seat (2), the left end of the top face of the machine body (1) is communicated with a feed hopper (3), the center of the inner walls of the two sides of the machine body (1) is welded with a separation plate (4), the center of the top face of the separation plate (4) is embedded with a stabilizing pipe (5), the center of the bottom face of the machine body (1) is communicated with a pulp outlet pipe (6), the bottom end of the pulp outlet pipe (6) is fixedly provided with a first valve (7), the center of the top face of the machine body (1) and the inner cavity of the top of the machine body (1) are both provided with a material conveying device (8), the outer part of the material conveying device (8) and the top of the two side faces of the machine body (1) are both provided with shaking devices (9), the center of the bottom face of the separation plate (4) is provided with a pulp grinding device (10), the two ends of the bottom face of the separation plate (4) and the center of the right side face of the machine body (1) are both provided with cleaning devices (11), the bottom of the inner walls of the two sides of the machine body (1) is provided with a deslagging device (12); the shaking device (9) comprises a first through hole (91), a first positioning rod (92), a shaking bin (93), a second through hole (94), a second positioning rod (95), a power assisting plate (96), a first positioning plate (97), a positioning bearing (98), a power assisting rod (99), a shaking block (911) and a single grooved pulley (912), wherein two first through holes (91) are formed in the tops of two side surfaces of the stabilizing pipe (5), two first positioning rods (92) are inserted into the inner cavities of the two first through holes (91), the shaking bin (93) is inserted into the inner cavity of the stabilizing pipe (5), one ends of the two first positioning rods (92) which are opposite to each other are fixedly connected with the two side surfaces of the bottom end of the shaking bin (93), two second through holes (94) are formed in the tops of the two side surfaces of the machine body (1), and two second positioning rods (95) are embedded into the two second through holes (94), the opposite ends of the two second positioning rods (95) are fixedly connected with two side faces of the top end of the shaking bin (93) respectively, two power assisting plates (96) are fixedly connected with the opposite ends of the two second positioning rods (95), two first positioning plates (97) are fixedly mounted at the tops of two side faces of the machine body (1) above and below the two power assisting plates (96), two positioning bearings (98) are embedded at the right ends of the top faces of the two first positioning plates (97), power assisting rods (99) are inserted into inner cavities of the two positioning bearings (98), shaking blocks (911) are fixedly mounted on the surfaces of the centers of the power assisting rods (99), and single grooved wheels (912) are sleeved on the surfaces of the top ends of the power assisting rods (99);

the pulping device (10) comprises an upper grinding disc (1001), a material storage tank (1002), material conveying holes (1003), a third through hole (1004), first supporting rods (1005), a first fixed bearing (1006), a lower grinding disc (1007) and a transmission rod (1008), wherein the upper grinding disc (1001) is fixedly installed at the center of the bottom surface of the barrier plate (4), the material storage tank (1002) is arranged at the center of the top surface of the upper grinding disc (1001), the two material conveying holes (1003) are formed at the two ends of the bottom surface of the material storage tank (1002), the third through hole (1004) is formed at the center of the bottom surface of the material storage tank (1002), the two first supporting rods (1005) are welded below the two ends of the barrier plate (4) and positioned at the centers of the inner walls at the two sides of the machine body (1), the first fixed bearing (1006) is fixedly connected at the opposite ends of the two first supporting rods (1005), and the lower grinding disc (1007) is sleeved on the inner wall of, a transmission rod (1008) is fixedly connected to the center of the top surface of the lower grinding disc (1007), and the top end of the transmission rod (1008) penetrates through the inner cavity of the third through hole (1004) and is fixedly connected with the bottom end of the driving rod (84);

the cleaning device (11) comprises a water suction pump (1101), a water suction pipe (1102), a second valve (1103), a branch pipe (1104), a fixing frame (1105), a third positioning rod (1106), an adjusting bearing (1107), an adjusting rod (1108), a fixing pipe (1109), a spray head (1111) and a water spray pipe (1112), wherein the water suction pump (1101) is fixedly arranged below a first positioning plate (97) on the right side and positioned on the right side face of a machine body (1), the water suction port on the right side of the water suction pump (1101) is communicated with the water suction pipe (1102), the second valve (1103) is fixedly arranged at one end, away from the water suction pump (1101), of the water suction pipe (1102), the branch pipe (1104) is communicated with the water outlet on the bottom of the water suction pump (1101), two fixing frames (1105) are fixedly arranged at the bottoms of two side faces of a blocking plate (4), and the two third positioning rods (1106) are fixedly connected with the inner side faces of one end, opposite to the fixing frames (1105), the opposite ends of the two third positioning rods (1106) are fixedly connected with adjusting bearings (1107), adjusting rods (1108) are fixedly mounted on the inner walls of the adjusting bearings (1107), the front ends of the adjusting rods (1108) are fixedly connected with fixed pipes (1109), sprayers (1111) are fixedly mounted in the fixed pipes (1109), water inlets at the top ends of the sprayers (1111) are communicated with water spray pipes (1112), and one ends, far away from the water suction pump (1101), of the branch pipes (1104) penetrate through the two side faces of the machine body (1) and the top of the fixed frame (1105) respectively and are communicated with the top ends of the water spray pipes (1112);

the deslagging device (12) comprises a conveying hopper (1201), a deslagging pipe (1202), a feeding hole (1203), a second stabilizing bearing (1204), a second supporting rod (1205), a third stabilizing bearing (1206), a deslagging rod (1207), second auger blades (1208), hinges (1209), a sealing cover (1211), a handle (1212), a driven gear (1213), a fixing plate (1214), a driving bearing (1215), a rotating rod (1216), a driving gear (1217) and a filter screen (1218), wherein the conveying hopper (1201) is fixedly connected to the inner walls of the two sides of the machine body (1) and below the opposite ends of the two first supporting rods (1005), the deslagging pipe (1202) is fixedly connected to the bottom of the conveying hopper (1201), the left end of the deslagging pipe (1202) is fixedly connected to the inside of the left side of the machine body (1), and the right end of the deslagging pipe (1202) penetrates through the right side of the machine body (1) and extends out of the machine body (1), the slag removing device is characterized in that a feed inlet (1203) is formed in the center of the top face of the slag removing pipe (1202), a second stable bearing (1204) is inlaid in the left end of the slag removing pipe (1202) and is located on the left side face of the machine body (1), two second support rods (1205) are fixedly connected to the upper inner wall and the lower inner wall of the right end of the slag removing pipe (1202), a third stable bearing (1206) is fixedly connected to one opposite end of each of the two second support rods (1205), slag removing rods (1207) are inserted into inner cavities of the second stable bearing (1204) and the third stable bearing (1206), second auger blades (1208) are fixedly mounted on the surfaces of the slag removing rods (1207), a hinge (1209) is hinged to the right end of the top face of the slag removing pipe (1202), a sealing cover (1211) is inserted into the inner cavity of the right end of the slag removing pipe (1202), and one end, far away from the slag removing pipe (1202), of the hinge (1209) is hinged to the top face of the sealing cover (1211), a handle (1212) is fixedly mounted on the right side surface of the sealing cover (1211), a driven gear (1213) is fixedly mounted at the left end of the slag removing rod (1207), a fixing plate (1214) is fixedly connected to the bottom of the left side surface of the machine body (1) and above the driven gear (1213), a driving bearing (1215) is embedded in the top surface of the fixing plate (1214), a rotating rod (1216) is inserted into an inner cavity of the driving bearing (1215), the top end of the rotating rod (1216) is fixedly connected with the bottom end of a left boosting rod (99), a driving gear (1217) is fixedly mounted at the bottom end of the rotating rod (1216), and a filter screen (1218) is mounted on the bottom surface of the slag removing pipe (1202);

the material conveying device (8) comprises a support frame (81), a speed reducing motor (82), a first stabilizing bearing (83), a driving rod (84), a material conveying rod (85), a first twisted dragon blade (86), a double grooved wheel (87) and a transmission belt (88), wherein the support frame (81) is fixedly installed at the center of the top surface of the machine body (1), the speed reducing motor (82) is fixedly installed inside the top end of the support frame (81), the first stabilizing bearing (83) is embedded at the center of the top surface of the machine body (1) below the speed reducing motor (82), the driving rod (84) is inserted into an inner cavity of the first stabilizing bearing (83), the material conveying rod (85) is welded on the surface of the center of the driving rod (84), the first twisted dragon blade (86) is sleeved on the surface of the bottom end of the driving rod (84), and the tail end of an output shaft at the bottom of the speed reducing motor (82) is fixedly connected through a coupler, the surface of the top end of the driving rod (84) is sleeved with a double grooved wheel (87), and an upper grooved wheel and a lower grooved wheel of the double grooved wheel (87) are sleeved with two transmission belts (88);

all be connected through drive belt (88) transmission between double sheave (87) and two single sheave (912), shake the shape of piece (911) and be oval-shaped, and shake the piece and do not shake the central point of piece (911) top surface with helping hand pole (99) junction, control two and shake the piece (911) and the junction of helping hand pole (99) and be opposite direction, lateral (1104) are the hard tube, spray pipe (1112) are the hose, and spray pipe (1112) are curved state.

2. The integrated process flow-based walnut milk processing equipment according to claim 1, wherein the equipment comprises: the surface of the power-assisted rod (99) is fixedly connected with the inner wall of the positioning bearing (98), the top end of the lower grinding disc (1007) is in a trapezoid round table shape, and the inner wall of the first fixing bearing (1006) is fixedly connected with the surface of the lower grinding disc (1007).

3. The integrated process flow-based walnut milk processing equipment according to claim 1, wherein the equipment comprises: the driving gear (1217) is connected with the driven gear (1213) for the transmission, the surface of slagging-off pole (1207) respectively with the inner wall fixed connection of second firm bearing (1204) and third firm bearing (1206), the bottom of defeated hopper (1201) communicates with the inner chamber of feed inlet (1203).

4. The integrated process flow based walnut milk processing equipment and the use method thereof according to any one of claims 1 to 3, wherein the integrated process flow based walnut milk processing equipment is characterized in that: when the device is used, the needed raw materials can be conveniently conveyed to the interior of a shaking bin (93) in the inner cavity of a machine body (1) through the arranged feeding hopper (3), meanwhile, a proper amount of water source is added, the pulping device (10) can conveniently work, then a speed reducing motor (82) in the conveying device (8) is started, the driving rod (84) and the material conveying rod (85) can be driven to simultaneously rotate by starting the speed reducing motor (82), the first auger blade (86) can be driven to rotate by rotating the material conveying rod (85) and the first auger blade (86), the walnut kernels in the shaking bin (93) can be conveniently conveyed to the interior of the pulping device (10), then the walnut kernels can be conveniently conveyed to the interior of the pulping device (10) by starting the speed reducing motor (82), the double grooved wheels (87) and the transmission belt (88) can be driven to simultaneously rotate by the speed reducing motor (82), the transmission belt (88) can drive the single grooved wheel (912) and the boosting rod (99) to simultaneously rotate, the power-assisted rod (99) rotates to rotate the shaking block (911), the shaking block (911) rotates to continuously drive the first positioning plate (97) to shake left and right, the shaking bin (93) can be driven to shake left and right through the left and right shaking of the first positioning plate (97), the walnut kernel conveying speed can be conveniently accelerated through the left and right shaking of the shaking bin (93), the speed reducing motor (82) is started again, the speed reducing motor (82) can drive the driving rod (84) and the driving rod (1008) to rotate simultaneously, the driving rod (1008) can drive the lower grinding disc (1007) to rotate through the rotation of the driving rod (1008), the feeding device (8) is arranged inside the storage tank (1002) to convey the walnut kernels from the storage tank (1002), then the walnut kernels inside the feeding tank (1002) are conveyed to a gap between the lower grinding disc (1007) and the upper grinding disc (1001) through the discharge hole (1003), and finally the lower grinding disc (1007) rotates, then the walnut kernel is grinded into thick liquid, at this time, the reducing motor (82) is started again to drive the deslagging device (12) to operate, the filter screen (1218) is arranged, the filter screen (1218) can transmit the walnut juice to the bottommost part of the inner cavity of the machine body (1), then the reducing motor (82) is started, the reducing motor (82) can drive the boosting rod (99) and the rotating rod (1216) to rotate simultaneously, the rotating rod (1216) can conveniently drive the driving gear (1217) and the driven gear (1213) to rotate simultaneously, the driven gear (1213) can drive the deslagging rod (1207) and the second auger blade (1208) to rotate simultaneously, a sealing cover (1211) in the deslagging device (12) is opened, so that the pulp residue in the deslagging pipe (1202) can be conveniently transmitted to the outside of the deslagging pipe (1202) through the rotation of the second auger blade (1208), and finally, the water suction pump (1101) is started, the suction pump (1101) can drive the suction pipe (1102) to transmit the external water supply to the interior of the branch pipe (1104), the branch pipe (1104) transmits the water supply to the interior of the spray pipe (1112), because the spray pipe (1112) is a hose, the spray pipe (1112) can be continuously deformed according to the water pressure generated when the water source is conveyed, so that the spray head (1111) can move up and down, thereby achieving the purpose of adjusting the water spraying angle of the spray head (1111), accelerating the speed of cleaning the interior of the machine body (1) by continuously adjusting the angle of the spray head (1111), the first valve (7) is opened through the arranged pulp outlet pipe (6) and the first valve (7), can conveniently transmit the walnut juice after being ground into pulp into a collecting vessel through a pulp outlet pipe (6), but also can conveniently discharge the sewage after cleaning out of the machine body (1) through the pulp outlet pipe (6).