CN119568661A

CN119568661A - But height-adjusting's material loading equipment for pudding processing

Info

Publication number: CN119568661A
Application number: CN202510068389.1A
Authority: CN
Inventors: 罗威; 赵亮宇; 张亮
Original assignee: Changsha Mingzhun Information Technology Co ltd
Current assignee: Changsha Mingzhun Information Technology Co ltd
Priority date: 2025-01-16
Filing date: 2025-01-16
Publication date: 2025-03-07
Anticipated expiration: 2045-01-16
Also published as: CN119568661B

Abstract

The present invention relates to the technical field of pudding processing feeding technology, and discloses a pudding processing feeding device with adjustable height, including a device box, a plurality of supporting bases are fixedly connected to the bottom of the device box, and a feeding cylinder is fixedly connected to the side wall of the device box. When the pudding processing feeding device of the present invention is used, the output end of the driving motor rotates to drive the output shaft to rotate, the output shaft rotates to drive the shaft at one end of the belt to rotate, the shaft rotates to drive the reciprocating thread groove to rotate, the reciprocating thread groove rotates to drive the vibrating telescopic rod on the moving block to move horizontally, the movement of the vibrating telescopic rod drives the baffle on the screening box to move, at this time, the pudding powder raw materials falling into the screening box pass through the sieve holes at the bottom of the screening box, the bottom of the screening box is inclined, such a setting is conducive to the agglomerated pudding powder raw materials sliding along the bottom of the screening box, and such a setting is conducive to quickly screening out the non-agglomerated pudding powder raw materials.

Description

But height-adjusting's material loading equipment for pudding processing

Technical Field

The invention relates to the technical field of feeding equipment for pudding processing, in particular to feeding equipment for pudding processing, which can be adjusted in height.

Background

With the improvement of living standard, people demand food, not only the quantity, but also the nutrition and safety of the food are higher and higher. Pudding is a gelatinous semi-solid dairy product, has fine and smooth taste, and comprises pudding powder, sucrose, starch and food additives as main raw materials, and various raw materials are required to be conveyed into a stirring device for mixing and stirring during processing.

The pudding processing needs to use conveyor to carry pudding powder, and most of pudding powder raw materials conveyor under the prior art only has the function of carrying, because pudding powder meets the caking easily to lead to mixing inadequately in the stirring process, can select out the pudding powder of caking in the in-process of carrying and be very important link.

Disclosure of Invention

The invention aims to provide a feeding device for pudding processing, which can be adjusted in height, so as to solve the problems in the background art.

In order to solve the technical problems, the invention is realized by the following technical scheme:

The invention relates to a feeding device for pudding processing, which comprises a device box body, wherein the bottom of the device box body is fixedly connected with a plurality of supporting bases, the side wall of the device box body is fixedly connected with a material conveying cylinder, one end of the material conveying cylinder, which is far away from the device box body, is fixedly connected with a material conveying telescopic hose, the bottom of the material conveying cylinder is fixedly connected with an electric telescopic rod, one end of the electric telescopic rod, which is far away from the material conveying cylinder, is fixedly connected with the bottom of the material conveying telescopic hose, the top of the device box body is provided with a material inlet, and the top of the device box body is provided with a material inlet plate, and the feeding device further comprises:

the screening mechanism comprises a driving motor fixedly connected to one side of the equipment box body, an output rotating shaft is fixedly connected to the output end of the driving motor, a belt I is connected to one end, close to the driving motor, of the output rotating shaft in a transmission manner, a rotating shaft I is connected to the inside of the equipment box body in a rotating manner, and the belt I is in transmission connection with the rotating shaft I;

Wherein, the one end lateral wall that the belt one was kept away from to the pivot is offered reciprocal thread groove, rotates on the reciprocal thread groove and is connected with the movable block, and the top fixedly connected with vibration telescopic link of movable block, the one end fixedly connected with screen material box that the movable block was kept away from to vibration telescopic link, the top fixedly connected with baffle one of screen material box, and the top of screen material box is opened there is the pan feeding mouth.

Further, the bottom of sieve magazine is provided with screening auxiliary mechanism, screening auxiliary mechanism includes a plurality of slide bar of fixed connection in sieve magazine bottom, a plurality of gag lever post of inside fixedly connected with of equipment box has seted up the spout on the gag lever post, and the slide bar slides in the spout on the gag lever post, and sliding connection has the spacing ring on the slide bar, and the cover is equipped with extrusion spring on the slide bar, and the top fixedly connected with extrusion rod of baffle one, the bottom fixedly connected with a plurality of dysmorphism stripper plate of pan feeding board.

Further, the lateral wall of equipment box is provided with feeding auxiliary mechanism, and feeding auxiliary mechanism includes a plurality of sliding tray of fixed connection at equipment box inner wall, and the pan feeding board slides in the sliding tray inside, and the inside of sliding tray is provided with a plurality of compression spring, equipment box.

Further, the inside of equipment box is provided with horizontal conveying mechanism, and horizontal conveying mechanism is including rotating the belt second that is connected in output pivot and is close to driving motor one end, and the inside rotation of equipment box is connected with the pivot second, and the one end that output pivot was kept away from to the belt second is connected with the transmission of pivot second, and the one end rotation that belt second was kept away from to the pivot second is connected with conveyer belt first, and the transmission is connected with a plurality of auxiliary rotating shaft on the conveyer belt first.

Further, the transverse conveying mechanism further comprises a first gear fixedly connected to one end, close to the driving motor, of the output rotating shaft, a rotating shaft is rotatably connected to the side wall of the equipment box body, a second gear is fixedly connected to one end, close to the first gear, of the rotating shaft, and the second gear is meshed with the first gear.

Further, the transverse conveying mechanism further comprises a conveying belt II which is connected to the rotating shaft in a transmission manner, an arc-shaped plate is fixedly connected to the inner wall of the equipment box body, two sides of the arc-shaped plate are respectively contacted with the conveying belt I and the conveying belt II, and a horizontal spiral conveying blade is fixedly connected to the outer wall of one end, far away from the driving motor, of the output rotating shaft.

Further, a grinding mechanism is arranged on the first rotating shaft, the grinding mechanism comprises a grinding conveyor belt which is rotatably connected to one end of the first rotating shaft far away from the reciprocating thread groove, a plurality of grinding rotating shafts are rotatably connected to the inner wall of the equipment box body, the grinding rotating shafts are rotatably connected with the grinding conveyor belt, the grinding conveyor belt is contacted with the second conveyor belt, and the grinding conveyor belt is contacted with the first conveyor belt.

Further, the bottom of equipment box is provided with high conveying mechanism, high conveying mechanism is including the belt three that the transmission is connected at the output pivot and is close to driving motor one end, the bottom rotation of equipment box is connected with the pivot three, the belt is three to keep away from the one end and the three transmission of pivot of output pivot and be connected, the one end fixedly connected with bevel gear one of belt three is kept away from to the pivot three, the inside rotation of defeated feed cylinder is connected with the pivot four, the bottom fixedly connected with bevel gear two of pivot four, the vertical spiral conveying blade of outer wall fixedly connected with of pivot four.

The invention has the following beneficial effects:

(1) When the feeding equipment for pudding processing is used, pudding powder is poured onto the feeding plate inside the box body of the equipment, the pudding powder enters the screening mechanism through the feeding hole, the pudding powder enters the inside of the box body of the screen through the feeding hole at the top of the box body of the screen, the driving motor is started at the moment, the output end of the driving motor rotates to drive the output rotating shaft to rotate, the output rotating shaft rotates to drive the rotating shaft at one end of the belt to rotate, the rotating shaft rotates to drive the reciprocating thread groove to rotate, the reciprocating thread groove rotates to drive the vibrating telescopic rod on the moving block to horizontally move, the vibrating telescopic rod moves to drive the baffle on the box to move, at the moment, the pudding powder raw material falling into the box body of the screen passes through the sieve holes at the bottom of the box body of the screen, the bottom of the box body of the screen is obliquely arranged, the pudding powder raw material which is favorable for caking slides along the bottom of the box of the screen, the screening auxiliary mechanism is favorable for rapidly screening the pudding powder raw material, the vibrating telescopic rod on the moving block is driven to horizontally move by the rotating shaft to drive the reciprocating thread groove to drive the vibrating telescopic rod on the moving block to vertically move, and the vibrating rod on the vibrating rod is driven to vertically move along the vibrating rod to squeeze the vibrating rod to drive the vibrating rod to vertically to move along the vibrating rod to press the vibrating rod to drive the vibrating rod to slide along the top of the screen box to press the top to conveniently.

(2) According to the invention, through the arrangement of the feeding auxiliary mechanism, when the extrusion rod moves and the special-shaped extrusion plate extrudes, the special-shaped extrusion plate can drive the feeding plate at the top of the special-shaped extrusion plate to extrude a plurality of pressure springs along the sliding groove, and the sliding groove extrudes and can vibrate, so that the feeding plate is favorable for carding the pudding powder raw materials on the feeding plate into the inside of the sieve material box through the feeding hole, the blocking of the pudding powder raw materials at the feeding hole is avoided, through the arrangement of the baffle II, the pudding powder raw materials on the feeding plate can enter the inside of the sieve material box when the feeding hole at the top of the sieve material box corresponds to the feeding hole, and the pudding powder raw materials on the feeding plate cannot enter the inside of the sieve material box when the baffle I corresponds to the feeding hole, and the pudding powder intermittent entering the inside of the sieve material box is controlled, so that the sieve material box is not timely screened and the blocking phenomenon caused by too much pudding powder raw materials is avoided.

(3) According to the invention, the transverse conveying mechanism is arranged, the output rotating shaft rotates to drive the rotating shaft II at one end of the belt II to rotate, the rotating shaft II rotates to drive the conveying belt I to rotate, the conveying belt I rotates to rapidly convey the pudding powder raw material falling on the conveying belt I into the arc-shaped plate, the rotating shaft II rotates to drive the rotating shaft at one end of the gear II to rotate, the conveying belt II rotates to rapidly convey the pudding powder raw material falling on the conveying belt II into the arc-shaped plate, and the output rotating shaft rotates to drive the horizontal spiral conveying blade to rotate to convey the pudding powder raw material into the conveying cylinder, so that the speed of conveying the pudding powder raw material is increased, and the conveying efficiency of the device is improved.

(4) According to the invention, the grinding mechanism is arranged, the first rotating shaft rotates to drive the grinding conveyor belt to rotate, at the moment, the caking pudding powder raw material which falls down from the bottom of the screening box falls on the grinding conveyor belt, the caking pudding powder raw material falls between the first conveying belt and the grinding conveyor belt and between the second conveying belt and the grinding conveyor belt respectively, and the caking pudding powder is ground through rotating and rolling between the first conveying belt and the grinding conveyor belt, so that the caking pudding powder raw material is crushed, and the quality of pudding processed products is improved.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

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

FIG. 3 is an enlarged view of FIG. 2A in accordance with the present invention;

FIG. 4 is a schematic diagram of a screening aid according to the present invention;

FIG. 5 is a schematic view of the transverse conveying mechanism of the present invention;

FIG. 6 is a schematic view of the feed assist mechanism of the present invention;

FIG. 7 is an enlarged view of B of FIG. 6 in accordance with the present invention;

FIG. 8 is a schematic view of the horizontal spiral conveying vane of the present invention;

fig. 9 is a schematic structural view of the height conveying mechanism of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

In the figure, 1, an equipment box body; 11, a supporting base, 12, a conveying cylinder, 13, a discharge hole, 14, a conveying telescopic hose, 15, an electric telescopic rod, 16, a feed hole, 17, a feeding plate, 2, a screening mechanism, 201, a driving motor, 202, an output rotating shaft, 203, a belt I, 204, a rotating shaft I, 205, a reciprocating thread groove, 206, a moving block, 207, a vibrating telescopic rod, 208, a screening box, 209, a baffle I, 210, a feed hole, 3, a screening auxiliary mechanism, 301, a sliding rod, 302, a limiting rod, 303, a limiting ring, 304, a pressing spring, 305, a pressing rod, 306, a special-shaped pressing plate, 4, a feeding auxiliary mechanism, 401, a sliding groove, 402, a pressure spring, 403, a baffle II, 5, a transverse conveying mechanism, 501, a belt II, 502, a rotating shaft II, 503, a conveying belt I, 504, an auxiliary rotating shaft, 505, a gear II, 507, a rotating shaft, 508, a conveying belt II, 509, a rotating shaft, 510, a horizontal spiral conveying blade, 6, a grinding mechanism, 601, a grinding belt, 602, a grinding belt 602, a special-shaped pressing plate, a4, a spiral bevel gear, a rotating shaft 706, a rotating shaft, a spiral bevel gear, a rotating shaft 706, a rotating shaft II, a rotating shaft 706, a rotating shaft 706.

Detailed Description

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

Referring to fig. 1-7, the invention discloses a feeding device for pudding processing with adjustable height, which comprises a device box body 1, wherein a plurality of supporting bases 11 are fixedly connected to the bottom of the device box body 1, a material conveying cylinder 12 is fixedly connected to the side wall of the device box body 1, a material outlet 13 is fixedly connected to one end of the material conveying cylinder 12 away from the device box body 1, a material conveying telescopic hose 14 is fixedly connected to the bottom of the material outlet 13, an electric telescopic rod 15 is fixedly connected to the top of the material conveying cylinder 12, one end of the electric telescopic rod 15 away from the material conveying cylinder 12 is fixedly connected with the bottom of the material conveying telescopic hose 14, a material inlet 16 is formed in the top of the device box body 1, a material inlet plate 17 is arranged at the top of the device box body 1, and the feeding device further comprises:

The screening mechanism 2 comprises a driving motor 201 fixedly connected to one side of the equipment box body 1, an output rotating shaft 202 is fixedly connected to the output end of the driving motor 201, a first belt 203 is connected to one end, close to the driving motor 201, of the output rotating shaft 202 in a transmission manner, a first rotating shaft 204 is connected to the inside of the equipment box body 1 in a rotation manner, and the first belt 203 is connected with the first rotating shaft 204 in a transmission manner;

Wherein, the one end lateral wall that the belt was kept away from to the pivot one 204 has offered reciprocal thread groove 205, it is connected with movable block 206 to rotate on the reciprocal thread groove 205, the top fixedly connected with vibration telescopic link 207 of movable block 206, the one end fixedly connected with sieve magazine 208 that the movable block 206 was kept away from to vibration telescopic link 207, the one end fixedly connected with baffle one 209 of top of sieve magazine 208, open at the top of sieve magazine 208 has pan feeding mouth 210, the effect of this part is when using this material loading equipment for pudding processing, firstly pour pudding powder into on the pan feeding plate 17 of the inside of equipment box 1, pudding powder raw materials gets into screening mechanism 2 through feed inlet 16, the pudding powder gets into inside of sieve magazine 208 through pan feeding mouth 210 at sieve magazine 208 top, start driving motor 201 this moment, driving motor 201's output end rotation drive output pivot 202 rotation, the one end 204 rotation of output pivot 202 drive belt one 203 one end this moment, the rotatory drive reciprocating thread groove 205 rotation drives the vibration telescopic link 207 horizontal migration on the movable block 206, the vibration telescopic link 207 on the sieve magazine 208 removes and drives a box 208 and falls on the inside of sieve magazine 208 through the feed inlet 16, the sieve mouth 210 is inclined and is favorable to the setting up at the sieve bottom of the sieve 15 of sieve box bottom of the sieve box that the sieve is inclined and is inclined, the sieve bottom is inclined and is favorable to the sieve 15.

The bottom of screen material box 208 is provided with screening assist mechanism 3, screening assist mechanism 3 includes a plurality of slide bar 301 of fixed connection in screen material box 208 bottom, a plurality of gag lever post 302 of inside fixedly connected with of equipment box 1, the spout has been seted up on the gag lever post 302, slide bar 301 slides in the spout on gag lever post 302, sliding connection has spacing ring 303 on the slide bar 301, the cover is equipped with extrusion spring 304 on the slide bar 301, the top fixedly connected with extrusion bar 305 of baffle one 209, the bottom fixedly connected with of pan feeding plate 17 a plurality of special-shaped stripper plate 306, the effect of this part is through setting up screening assist mechanism 3, when the rotatory drive reciprocating thread groove 205 of pivot one 204, reciprocating thread groove 205 is rotatory to drive the vibration telescopic rod 207 horizontal migration on the movable block 206, the vibration telescopic rod 207 is removed and is driven baffle one 209 on the screen material box 208 and is removed, the extrusion bar 305 removal at the top is driven with the extrusion of special-shaped stripper plate 306 production extrusion, a plurality of slide bar 301 on the extrusion bottom along the gag lever post 302 along the spout on the gag lever post 302, extrusion spring 304 takes place to shrink, the screen material box 208 has been produced in the setting up in this way, the screen material box 208 has been convenient for produce in the inside the screening process of shaking screen material box 2 of shaking the screen material box that is convenient for the setting up in the vibration box has been convenient for the inside the screening process of shaking material box 2.

The lateral wall of equipment box 1 is provided with feeding assist mechanism 4, feeding assist mechanism 4 includes a plurality of sliding tray 401 of fixed connection at equipment box 1 inner wall, pan feeding board 17 slides in sliding tray 401 inside, the inside of sliding tray 401 is provided with a plurality of compression spring 402, equipment box 1, this part's effect is through setting up feeding assist mechanism 4, when extrusion rod 305 removes and produces the extrusion with special-shaped stripper plate 306, special-shaped stripper plate 306 receives the extrusion and can drive the pan feeding board 17 at special-shaped stripper plate 306 top and extrude a plurality of compression spring 402 along sliding tray 401, sliding tray 401 receives the extrusion and can produce the vibration, be favorable to the pudding powder raw materials carding on pan feeding board 17 to get into inside of sieve box 208 through feed inlet 16 like this, avoid feed inlet 16 to take place pudding powder raw materials and block up, through setting up baffle two 403, the pan feeding powder raw materials on pan feeding board 17 can get into inside of sieve box 208 when the pan feeding inlet 210 corresponds with feed inlet 16, when baffle 209 on the pan feeding box 208 corresponds, the baffle 209 on the pan feeding box 208 is good for the time, the pudding powder raw materials on the pan feeding board 17 can not get into inside of sieve box 208, the inside of sieve box 208 is prevented from getting into the pudding powder raw materials and the sieve box 208 and the screen cloth raw materials is blocked up, the phenomenon is avoided in time to get into the inside the sieve box 208.

The distinguishing features of the embodiment 2 and the embodiment 1 are that, as shown in fig. 1-9, a transverse conveying mechanism 5 is disposed in the device case 1, the transverse conveying mechanism 5 includes a second belt 501 rotatably connected to one end of the output shaft 202 near the driving motor 201, a second shaft 502 is rotatably connected to the interior of the device case 1, one end of the second belt 501 far from the output shaft 202 is in transmission connection with the second shaft 502, one end of the second shaft 502 far from the second belt 501 is rotatably connected to a first conveying belt 503, and a plurality of auxiliary shafts 504 are in transmission connection with the first conveying belt 503.

The transverse conveying mechanism 5 further comprises a first gear 505 fixedly connected to one end, close to the driving motor 201, of the output rotating shaft 202, a rotating shaft 507 is rotatably connected to the side wall of the equipment box 1, a second gear 506 is fixedly connected to one end, close to the first gear 505, of the rotating shaft 507, and the second gear 506 is meshed with the first gear 505. The transverse conveying mechanism 5 further comprises a second conveying belt 508 which is connected to the rotating shaft 507 in a transmission manner, an arc-shaped plate 509 is fixedly connected to the inner wall of the equipment box 1, two sides of the arc-shaped plate 509 are respectively in contact with the first conveying belt 503 and the second conveying belt 508, a horizontal spiral conveying blade 510 is fixedly connected to the outer wall of one end, far away from the driving motor 201, of the output rotating shaft 202, the transverse conveying mechanism 5 is arranged, the output rotating shaft 202 rotates to drive a second rotating shaft 502 at one end of the second conveying belt 501 to rotate, the second rotating shaft 502 rotates to drive the first conveying belt 503, the first conveying belt 503 rotates to quickly convey the pudding powder raw material falling on the first conveying belt 503 to the inside of the arc-shaped plate 509, the first rotating shaft 505 rotates to drive the second conveying belt 508 to rotate, the pudding powder raw material falling on the second conveying belt 508 is quickly conveyed to the inside of the arc-shaped plate 509, and the output rotating shaft 202 rotates to drive the horizontal spiral conveying blade 510 to convey the pudding powder raw material to the inside of the conveying cylinder 12. The first rotating shaft 204 is provided with a grinding mechanism 6, the grinding mechanism 6 comprises a grinding conveyor belt 601 which is rotatably connected to one end of the first rotating shaft 204 far away from the reciprocating thread groove 205, a plurality of grinding rotating shafts 602 are rotatably connected to the inner wall of the equipment box 1, the grinding rotating shafts 602 are rotatably connected with the grinding conveyor belt 601, the grinding conveyor belt 601 is contacted with the second conveying belt 508, the grinding conveyor belt 601 is contacted with the first conveying belt 503, the grinding mechanism 6 is arranged, the first rotating shaft 204 rotates to drive the grinding conveyor belt 601 to rotate, at the moment, the caking pudding powder raw materials which slide down through the bottom of the screening box 208 fall on the grinding conveyor belt 601, the caking pudding powder raw materials fall between the first conveying belt 503 and the second conveying belt 601 and between the second conveying belt 508 and the grinding conveyor belt 601 respectively, and the caking pudding powder raw materials are ground by rotating and rolling between the first conveying belt 503 and the grinding conveyor belt 601, so that the caking pudding powder raw materials are favorably crushed, and the pudding powder raw materials are favorably processed, and the pudding powder are favorably processed. The bottom of the equipment box body 1 is provided with a height conveying mechanism 7, the height conveying mechanism 7 comprises a belt III 701 which is connected to one end of an output rotating shaft 202 close to a driving motor 201 in a transmission manner, the bottom of the equipment box body 1 is rotationally connected with a rotating shaft III 702, one end of the belt III 701, which is far away from the output rotating shaft 202, is in transmission connection with the rotating shaft III 702, one end of the rotating shaft III 702, which is far away from the belt III 701, is fixedly connected with a bevel gear I703, the inside of the conveying cylinder 12 is rotationally connected with a rotating shaft IV 705, the bottom of the rotating shaft IV 705 is fixedly connected with a bevel gear II 704, the outer wall of the rotating shaft IV 705 is fixedly connected with a vertical spiral conveying blade 706, the function of the component is that the bevel gear I703 rotationally drives the bevel gear IV 705 at one end of the bevel gear III 702 to rotate, the rotating shaft IV 705 rotationally drives a vertical spiral conveying blade 706 to rotationally drive pudding powder in the conveying cylinder 12 to be conveyed upwards.

One specific application of this embodiment is:

When the feeding equipment for pudding processing is used, pudding powder is poured onto a feeding plate 17 in the equipment box body 1, pudding powder raw materials enter a screening mechanism 2 through a feeding port 16, pudding powder enters the inside of a screening mechanism 208 through a feeding port 210 at the top of the screening mechanism 208, a driving motor 201 is started at this time, an output end of the driving motor 201 rotates to drive an output rotating shaft 202 to rotate, the output rotating shaft 202 rotates to drive a rotating shaft I204 at one end of a belt I203 to rotate, the rotating shaft I204 rotates to drive a reciprocating thread groove 205 to rotate, the reciprocating thread groove 205 rotates to drive a vibrating telescopic rod 207 on a moving block 206 to horizontally move, the vibrating telescopic rod 207 moves to drive a baffle I209 on the screening mechanism 208 to move, the pudding powder raw materials falling into the screening mechanism 208 at this time pass through sieve holes at the bottom of the screening mechanism 208, the bottom of the screening mechanism 208 is obliquely arranged, so that the pudding powder raw materials which are favorable for caking slide along the bottom of the screening mechanism 208, and the pudding powder raw materials which are favorable for fast screening and non-caking are arranged; by arranging the screening auxiliary mechanism 3, when the first rotating shaft 204 rotates to drive the reciprocating thread groove 205 to rotate, the reciprocating thread groove 205 rotates to drive the vibration telescopic rod 207 on the moving block 206 to horizontally move, the vibration telescopic rod 207 moves to drive the first baffle plate 209 on the screen material box 208 to move, the first baffle plate 209 drives the extrusion rod 305 at the top to move, the extrusion rod 305 moves and the special-shaped extrusion plate 306 generates extrusion to drive a plurality of sliding rods 301 at the extrusion bottom of the screen material box 208 to downwards move along the sliding grooves on the limiting rods 302, at the moment, the extrusion springs 304 shrink, thus being beneficial to the vibration of the screen material box 208 in the reciprocating movement process, facilitating the rapid screening of pudding powder inside the screen material box 208, improving the screening efficiency of the screening mechanism 2, when the extrusion rod 305 moves to extrude the special-shaped extrusion plate 306, the special-shaped extrusion plate 306 is extruded to drive the feeding plate 17 at the top of the special-shaped extrusion plate 306 to extrude a plurality of pressure springs 402 along the sliding groove 401, and the sliding groove 401 is extruded to vibrate, so that the feeding plate 17 is favorable for carding the pudding powder raw materials into the inside of the sieve material box 208 through the feeding hole 16, the feeding hole 16 is prevented from being blocked, the second baffle 403 is arranged, when the feeding hole 210 at the top of the sieve material box 208 corresponds to the feeding hole 16, the pudding powder raw materials on the feeding plate 17 can enter the inside of the sieve material box 208, and when the first baffle 209 on the sieve material box 208 corresponds to the feeding hole 16, the pudding powder raw materials on the feeding plate 17 cannot enter the inside of the sieve material box 208, and the pudding powder batch enters the inside of the sieve material box 208 by controlling the pudding powder batch, so that the phenomenon that the sieve box 208 is not screened and blocked due to excessive pudding powder raw materials entering the sieve material is avoided;

Through setting up horizontal conveying mechanism 5, output shaft 202 rotation drives the rotation of the second pivot 502 of belt two 501 one end, the rotation of second pivot 502 drives conveyer belt one 503 rotation, conveyer belt one 503 rotation will fall on conveyer belt one 503 the pudding powder raw materials to the arc 509 inside, the rotation of same reason gear one 505 rotates the rotation of the first shaft 507 of drive gear two 506 one end, the rotation of rotation shaft 507 drives conveyer belt two 508 rotation, conveyer belt two 508 rotation will fall on conveyer belt two 508 pudding powder raw materials to the arc 509 inside, output shaft 202 rotation drives horizontal spiral conveying blade 510 rotation will pudding powder raw materials to the conveying cylinder 12 inside, be favorable to accelerating the speed of conveying pudding powder raw materials like this, improve the conveying efficiency of the device; by providing the grinding mechanism 6, the first rotating shaft 204 rotates to drive the grinding conveyor belt 601 to rotate, at the moment, the caking pudding powder raw material which falls down through the bottom of the screen box 208 falls on the grinding conveyor belt 601, the caking pudding powder raw material respectively falls between the first conveying belt 503 and the grinding conveyor belt 601 and between the second conveying belt 508 and the grinding conveyor belt 601, and the caking pudding powder is ground through rotating and rolling between the first conveying belt 503 and the grinding conveyor belt 601, so that the caking pudding powder raw material is favorably crushed, and the quality of pudding processed products is favorably improved, and by providing the height conveying mechanism 7, the rotation of the output rotating shaft 202 drives the first bevel gear 703 at one end of the third rotating shaft 702, the rotation of the first bevel gear 703 drives the fourth bevel gear 705 at one end of the second bevel gear 704, the rotation of the fourth bevel gear 705 drives the rotation of the vertical spiral conveying blade 706, and the rotation of the vertical spiral conveying blade 706 drives the pudding powder in the conveying cylinder 12 to be conveyed upwards.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims

1. The utility model provides a but height-adjusting's material loading equipment for pudding processing, includes equipment box (1), the bottom fixedly connected with of equipment box (1) supports base (11), the lateral wall fixedly connected with of equipment box (1) is defeated feed cylinder (12), the one end fixedly connected with discharge gate (13) of equipment box (1) are kept away from to defeated feed cylinder (12), the bottom fixedly connected with of discharge gate (13) is defeated material flexible hose (14), the top fixedly connected with electric telescopic handle (15) of defeated feed cylinder (12), the one end and the bottom fixedly connected of defeated material flexible hose (14) of electric telescopic handle (15) are kept away from to the top of defeated feed cylinder (12), feed inlet (16) have been seted up at the top of equipment box (1), the top of equipment box (1) is provided with pan feeding board (17), its characterized in that still includes:

The screening mechanism (2) comprises a driving motor (201) fixedly connected to one side of the equipment box body (1), an output rotating shaft (202) is fixedly connected to the output end of the driving motor (201), a first belt (203) is connected to one end, close to the driving motor (201), of the output rotating shaft (202) in a transmission manner, a first rotating shaft (204) is connected to the inside of the equipment box body (1) in a rotating manner, and the first belt (203) is connected with the first rotating shaft (204) in a transmission manner;

Wherein, reciprocal thread groove (205) have been seted up to one end lateral wall that belt one (203) was kept away from to pivot one (204), it is connected with movable block (206) to rotate on reciprocal thread groove (205), the top fixedly connected with vibration telescopic link (207) of movable block (206), one end fixedly connected with screen material box (208) that movable block (206) was kept away from to vibration telescopic link (207), the top fixedly connected with baffle one (209) of screen material box (208), open at the top of screen material box (208) has pan feeding mouth (210).

2. The feeding equipment for pudding processing of claim 1, wherein the bottom of the screening box (208) is provided with a screening auxiliary mechanism (3), the screening auxiliary mechanism (3) comprises a plurality of sliding rods (301) fixedly connected to the bottom of the screening box (208), a plurality of limiting rods (302) are fixedly connected to the inside of the equipment box (1), sliding grooves are formed in the limiting rods (302), the sliding rods (301) slide in the sliding grooves in the limiting rods (302), limiting rings (303) are connected to the sliding rods (301) in a sliding mode, extrusion springs (304) are sleeved on the sliding rods (301), extrusion rods (305) are fixedly connected to the top of the first baffle plate (209), and a plurality of special-shaped extrusion plates (306) are fixedly connected to the bottom of the feeding plate (17).

3. The feeding equipment for pudding processing according to claim 2, wherein a feeding auxiliary mechanism (4) is arranged on the side wall of the equipment box body (1), the feeding auxiliary mechanism (4) comprises a plurality of sliding grooves (401) fixedly connected to the inner wall of the equipment box body (1), the feeding plate (17) slides in the sliding grooves (401), a plurality of pressure springs (402) are arranged in the sliding grooves (401), and the equipment box body (1).

4. The feeding device for pudding processing according to claim 3, wherein the transverse conveying mechanism (5) is arranged in the device box body (1), the transverse conveying mechanism (5) comprises a second belt (501) which is rotatably connected to one end of the output rotating shaft (202) close to the driving motor (201), the second rotating shaft (502) is rotatably connected to the inner part of the device box body (1), one end of the second belt (501) far away from the output rotating shaft (202) is in transmission connection with the second rotating shaft (502), one end of the second rotating shaft (502) far away from the second belt (501) is rotatably connected with a first conveying belt (503), and a plurality of auxiliary rotating shafts (504) are in transmission connection with the first conveying belt (503).

5. The feeding device for pudding processing according to claim 4, wherein the transverse conveying mechanism (5) further comprises a first gear (505) fixedly connected to one end of the output rotating shaft (202) close to the driving motor (201), a rotating shaft (507) is rotatably connected to the side wall of the device box (1), a second gear (506) is fixedly connected to one end of the rotating shaft (507) close to the first gear (505), and the second gear (506) is meshed with the first gear (505).

6. The feeding device for pudding processing with adjustable height according to claim 5, wherein the transverse conveying mechanism (5) further comprises a second conveying belt (508) which is connected to the rotating shaft (507) in a transmission mode, an arc-shaped plate (509) is fixedly connected to the inner wall of the device box body (1), two sides of the arc-shaped plate (509) are respectively contacted with the first conveying belt (503) and the second conveying belt (508), and a horizontal spiral conveying blade (510) is fixedly connected to the outer wall of one end, far away from the driving motor (201), of the output rotating shaft (202).

7. The feeding device for pudding processing with adjustable height according to claim 6, wherein the first rotating shaft (204) is provided with a grinding mechanism (6), the grinding mechanism (6) comprises a grinding conveyor belt (601) rotatably connected to one end of the first rotating shaft (204) far away from the reciprocating thread groove (205), a plurality of grinding rotating shafts (602) are rotatably connected to the inner wall of the device box (1), the grinding rotating shafts (602) are rotatably connected with the grinding conveyor belt (601), the grinding conveyor belt (601) is in contact with the second conveying belt (508), and the grinding conveyor belt (601) is in contact with the first conveying belt (503).

8. The feeding equipment for pudding processing of claim 7, wherein the bottom of the equipment box body (1) is provided with a height conveying mechanism (7), the height conveying mechanism (7) comprises a belt III (701) which is in transmission connection with one end of an output rotating shaft (202) close to a driving motor (201), the bottom of the equipment box body (1) is rotationally connected with a rotating shaft III (702), one end of the belt III (701) far away from the output rotating shaft (202) is in transmission connection with the rotating shaft III (702), one end of the rotating shaft III (702) far away from the belt III (701) is fixedly connected with a bevel gear I (703), the inside of the feeding barrel (12) is rotationally connected with a rotating shaft IV (705), the bottom of the rotating shaft IV (705) is fixedly connected with a bevel gear II (704), and the outer wall of the rotating shaft IV (705) is fixedly connected with a vertical spiral conveying blade (706).