CN112756040B

CN112756040B - Modified starch automatic feeding crushing mechanism

Info

Publication number: CN112756040B
Application number: CN202110102280.7A
Authority: CN
Inventors: 涂玉强
Original assignee: Jilin Province Jizhe Technology Consulting Co ltd
Current assignee: Jilin Province Jizhe Technology Consulting Co ltd
Priority date: 2021-01-26
Filing date: 2021-01-26
Publication date: 2022-09-23
Anticipated expiration: 2041-01-26
Also published as: CN112756040A

Abstract

The invention relates to a crushing mechanism, in particular to an automatic modified starch feeding and crushing mechanism. The invention provides an automatic modified starch feeding and crushing mechanism which has an automatic modified starch crushing function and is convenient for cleaning modified starch. An automatic modified starch feeding and crushing mechanism comprises a base frame and a transfer mechanism, wherein the base frame is provided with the transfer mechanism; the crushing mechanism is arranged on the base frame. According to the invention, the transfer mechanism and the crushing mechanism are mutually matched, so that the first transfer assembly and the second transfer assembly transfer the modified starch, and the modified starch is extruded by the first pressing block, so that the modified starch is crushed by secondary extrusion, and the effect of automatically crushing the modified starch is achieved.

Description

Modified starch automatic feeding crushing mechanism

Technical Field

The invention relates to a crushing mechanism, in particular to an automatic modified starch feeding and crushing mechanism.

Background

Modified starch is used for industry and agricultural direction more, and is comparatively difficult when people need crush modified starch, has moisture content and receives the wet influence of weather easily in the modified starch, and crushing process is troublesome, need constantly smash modified starch, encapsulates kibbling modified starch again, smashes modified starch's in-process at people, and the comparison consumes the manpower, and intensity of labour is great.

The patent application: CN201721596705.X, published as 20171126, discloses a modified starch pulverizing device comprising a base, a support, a heater, a drying bin, a third motor, a first discharge valve, a first pulverizing bin, a feeding hopper, a motor bin, a second motor, a second pulverizing bin, a perspective window, a second discharge valve, a control panel, a vibrating plate, a vibrating motor and other parts, wherein before use, the device is powered on, the feeding bin is fed with material from the feeding hopper, the first motor is turned on to drive a rotating rod to rotate so as to drive a pulverizing blade to rotate, starch is primarily pulverized and pushed into the first pulverizing bin, then the second motor is turned on, two sets of second motors drive a second rotating shaft to rotate so as to drive two sets of pulverizing wheels to grind together, starch is secondarily pulverized, the first discharge valve is turned on, starch enters the second pulverizing bin, the third motor is turned on, the third motor drives the first rotating shaft to rotate, thereby it is rotatory to drive rotatory mill, rotatory mill and fixed mill grind each other, smash starch more meticulously, the filtration pore that the starch that accords with the size passes through the filter plate discharges, when needing to dry, open the heater through control panel, the temperature has been transferred, smash the starch that the storehouse was discharged into the stoving storehouse to the second and dry, modified starch carries out the extruded in-process when nevertheless using this equipment, modified starch solidifies easily and makes equipment dirty, make after the modified starch crushing comparatively hard to equipment clearance.

To sum up, when carrying out the crushing to modified starch, modified starch solidifies the time the clearance inconvenient, causes the problem of the waste of starch, designs one kind and carries out the crushing function to modified starch automatically, conveniently clears up modified starch automatic feeding crushing mechanism of modified starch simultaneously.

Disclosure of Invention

In order to overcome the defects that the modified starch is inconvenient to clean and wastes starch when being solidified when being crushed, the invention has the technical problems that: the modified starch automatic feeding and crushing mechanism has the advantages that the modified starch is automatically crushed, and meanwhile, the modified starch is conveniently cleaned.

The technical implementation scheme of the invention is as follows: an automatic modified starch feeding and crushing mechanism comprises:

the conveying mechanism is arranged on the base frame;

the crushing mechanism is arranged on the base frame.

Optionally, the transfer mechanism comprises:

the servo motor is arranged on the base frame;

the end part of the servo motor is provided with a first fixed block;

the first fixing block is rotatably provided with a first rotating shaft;

the second rotating shafts are rotatably arranged on two sides of the upper middle part of the base frame;

the second rotating shaft is positioned on one side of the third rotating shaft;

the first transmission assembly is wound between the two second rotating shafts;

the second transmission assembly is wound between the two third rotating shafts;

the output shaft of the servo motor is provided with a gear lack;

a spur gear is arranged on the first rotating shaft, and the gear lack is meshed with the spur gear;

the rotating assembly is arranged between the second rotating shaft on the rear side and the first rotating shaft;

and a bevel gear set is arranged between the third rotating shaft on the right side and the first rotating shaft.

Optionally, the crushing mechanism comprises:

the fixing frame is arranged at the upper side part and the middle part of the base frame;

the air cylinders are arranged in the two fixing frames;

the telescopic rods of the two cylinders are connected with the first pressing block;

the bearing plate, side portion and middle part all are equipped with the bearing plate on the bed frame, and two bearing plates are located first conveying subassembly and second conveying subassembly below respectively.

Optionally, still including unloading mechanism, unloading mechanism is including:

the supporting blocks are arranged on two sides of the base frame;

the rotating shafts are rotatably provided with a fourth rotating shaft on the two supporting blocks;

the material containing box body is arranged on the base frame;

the lower part of the material containing box body is connected with the material guide square pipe;

the material baffle plate is arranged inside the material guide square tube in a sliding mode;

the two ends of the material baffle plate are provided with first connecting rods;

the prying bars are arranged on the two fourth rotating shafts, and the side parts of the two prying bars are in contact with the first connecting rod;

the two sides of the first pressing block on the first conveying assembly are provided with second pressing blocks, and the second pressing blocks are matched with the prying bar;

first elastic component, both sides all are equipped with first elastic component on the bed frame, and first elastic component lower extreme is connected with the bed frame, first elastic component upper end and pinch bar contact.

Optionally, still including scraping the material mechanism, scrape the material mechanism including:

the side part of the base frame is provided with a second fixed block;

the second connecting rod is arranged on the second fixing block in a sliding mode;

the middle part of the base frame is provided with a telescopic component;

a scraper is arranged between the telescopic component and the second connecting rod;

the bottom of the second connecting rod is provided with a top block;

the first lug is uniformly arranged on the side part of the gear-lacking wheel and matched with the jacking block.

Optionally, a shaking mechanism is further included, and the shaking mechanism includes:

the upper side parts of the base frames are symmetrically provided with second elastic components;

the material guide plates are arranged among the four second elastic assemblies;

and a second lug is arranged on the side part of the third rotating shaft on one side.

Optionally, still including flourishing material mechanism, flourishing material mechanism is including:

the material containing outer box is arranged at the upper side part of the base frame;

the sliding rods are arranged on two sides of the material containing outer box in a sliding manner;

the inner side of the outer material containing box is provided with the inner material containing box in a sliding manner, and the two sliding rods are fixedly connected with the inner material containing box;

the outer wall of the material containing inner box is connected with a handle.

Optionally, the bearing plate is made of solid iron, the bearing plate is cuboid, the bearing plate is located between the first conveying assembly and the second conveying assembly, and the bearing plate is matched with the first pressing block.

Compared with the prior art, the invention has the following advantages: 1. according to the invention, the transfer mechanism and the crushing mechanism are mutually matched, so that the first conveying assembly and the second conveying assembly convey the modified starch, and the modified starch is extruded through the first pressing block, so that the modified starch is crushed through secondary extrusion, and the effect of automatically crushing the modified starch is achieved.

2. According to the invention, through the matching of the transfer mechanism and the blanking mechanism, when the modified starch in the material containing box body slides onto the material guide square tube, the modified starch can be blanked intermittently through the matching of the material baffle plate, so that the labor intensity of people is reduced.

3. The modified starch scraper is provided with the material scraping mechanism, when the first transmission assembly conveys modified starch, the first transmission assembly is provided with the residual blocks of the modified starch, and the first transmission assembly is scraped completely by the scraper, so that labor is saved during later cleaning of people.

4. According to the invention, through the matching of the transfer mechanism and the shaking mechanism, when the second conveying assembly conveys the crushed modified starch to the material guide plate, the crushed modified starch is conveyed better through the continuous shaking of the material guide plate.

5. According to the invention, through the matching of the shaking mechanism and the material containing mechanism, when the modified starch on the material guide plate continuously rolls into the material containing inner box, the crushed modified starch can be more conveniently collected.

Drawings

Fig. 1 is a schematic perspective view of a first perspective structure according to the present invention.

Fig. 2 is a perspective view of a second perspective structure according to the present invention.

Fig. 3 is a schematic perspective view of a transfer mechanism of the present invention.

Fig. 4 is a perspective view of the crushing mechanism of the present invention.

Fig. 5 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 6 is a schematic perspective view of the scraping mechanism of the present invention.

Fig. 7 is a schematic perspective view of a shaking mechanism according to the present invention.

Fig. 8 is a schematic perspective view of the material holding mechanism of the present invention.

The meaning of the reference symbols in the figures: 1: a base frame, 2: transfer mechanism, 21: servo motor, 22: first fixing block, 23: first shaft, 24: second rotation shaft, 25: missing gear, 26: spur gear, 27: rotating assembly, 28: first transfer assembly, 29: third rotating shaft, 210: bevel gear set, 211: second transfer assembly, 3: crushing mechanism, 31: mount, 32: cylinder, 33: first compact, 34: bearing plate, 4: unloading mechanism, 41: support block, 42: fourth rotation shaft, 43: containing box body, 44: guide square pipe, 45: striker plate, 46: first connecting rod, 47: pry bar, 48: second press piece, 49: first elastic member, 5: scraping mechanism, 51: second fixed block, 52: scraper, 53: telescoping assembly, 54: second connecting rod, 55: top block, 56: first bump, 6: shaking mechanism, 61: second elastic member, 62: guide plate, 63: second bump, 7: material containing mechanism, 71: material containing outer box, 72: material containing inner box, 73: slide bar, 74: a handle.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

An automatic modified starch feeding and crushing mechanism is shown in figures 1 and 2 and comprises a base frame 1, a transfer mechanism 2 and a crushing mechanism 3, wherein the transfer mechanism 2 is arranged on the base frame 1, and the crushing mechanism 3 is arranged on the base frame 1.

When people need crush the modified starch, people place the modified starch on the transfer mechanism 2, at the moment, people manually open the transfer mechanism 2 to enable the transfer mechanism 2 to transfer the modified starch, when the transfer mechanism 2 transfers the modified starch to the crushing mechanism 3, people open the crushing mechanism 3 to enable the crushing mechanism 3 to move downwards so as to crush the modified starch, after the modified starch is crushed, fragments of the modified starch are transferred to the base frame 1 by the transfer mechanism 2, people collect the fragments, when people need crush the modified starch, people place the modified starch on the transfer mechanism 2 again, and if people do not need to crush the modified starch, people close the transfer mechanism 2 and the crushing mechanism 3.

Example 2

On the basis of embodiment 1, as shown in fig. 3, the transfer mechanism 2 includes a servo motor 21, a first fixed block 22, a first rotating shaft 23, a second rotating shaft 24, a missing gear 25, a spur gear 26, a rotating assembly 27, a first transmitting assembly 28, a third rotating shaft 29, a bevel gear set 210 and a second transmitting assembly 211, the servo motor 21 is disposed on the right side of the base frame 1, the first fixed block 22 is disposed at the rear end of the servo motor 21, the first rotating shaft 23 is rotatably disposed on the first fixed block 22, the second rotating shafts 24 are rotatably disposed on the front and rear sides of the middle portion of the base frame 1, the third rotating shafts 29 are disposed on the left and right sides of the upper front portion of the base frame 1, the first transmitting assembly 28 is wound between the two second rotating shafts 24, the second transmitting assembly 211 is wound between the two third rotating shafts 29, the missing gear 25 is disposed on the output shaft of the servo motor 21, the spur gear 26 is disposed on the first rotating shaft 23, the missing gear 25 is engaged with the spur gear 26, a rotating assembly 27 is arranged between the second rotating shaft 24 and the first rotating shaft 23 on the rear side, and a bevel gear set 210 is arranged between the third rotating shaft 29 and the first rotating shaft 23 on the right side.

When people need to crush modified starch, people place the modified starch on the first transmission component 28, at the moment, people open the servo motor 21, so that the output shaft of the servo motor 21 drives the gear lacking 25 to rotate, when the gear lacking 25 is meshed with the straight gear 26, the first rotating shaft 23 is rotated, the bevel gear set 210 is driven to rotate, the rotating component 27 is driven to rotate, when the bevel gear set 210 is rotated, the third rotating shaft 29 on the right side is rotated, the second transmission component 211 is driven to rotate, the third rotating shaft 29 on the left side is rotated, when the rotating component 27 is rotated, the second rotating shaft 24 on the rear side is rotated, the first transmission component 28 is driven to rotate, the second rotating shaft 24 on the front side is rotated, at the moment, the modified starch on the first transmission component 28 is transmitted, when the gear lacking 25 is not meshed with the straight gear 26, the straight gear 26 does not drive the first rotating shaft 23 to rotate any more, then the bevel gear set 210 and the rotating component 27 stop rotating, the second rotating shaft 24 at the rear side and the third rotating shaft 29 at the right side stop rotating, and further the first conveying component 28 and the second conveying component 211 do not rotate any more, so that the first conveying component 28 does not convey the modified starch any more, the modified starch is located on the crushing mechanism 3 and the first conveying component 28, one opens the crushing mechanism 3, so that the crushing mechanism 3 crushes the modified starch, when the crushing mechanism 3 crushes the modified starch, the missing gear 25 at this time is meshed with the spur gear 26 again, so that the first conveying component 28 drives the crushed modified starch to move forward continuously, and then the crushed modified starch is conveyed to the second conveying component 211, and then the crushed modified starch is crushed again by the crushing mechanism 3, when the modified starch is crushed again, the second conveying component 211 continues to drive the crushed modified starch to convey, thereby on the modified starch conveying bed frame 1 with the crushing, people collect the starch on the bed frame 1, when people still need crush modified starch, people place modified starch on first transfer assembly 28 again, when people need not crush modified starch, people close servo motor 21 and crushing mechanism 3 can.

Example 3

On the basis of embodiment 2, as shown in fig. 1, fig. 2, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, the crushing mechanism 3 includes a fixing frame 31, an air cylinder 32, a first pressing block 33 and a bearing plate 34, the fixing frame 31 is disposed on the front side and the middle portion of the base frame 1, the air cylinders 32 are disposed in the two fixing frames 31, the telescopic rods of the two air cylinders 32 are connected to the first pressing block 33, the bearing plates 34 are disposed on the front side and the middle portion of the base frame 1, and the two bearing plates 34 are respectively located below the first conveying assembly 28 and the second conveying assembly 211.

When the modified starch is transferred to the middle of the first transfer module 28, the modified starch is located on the first transfer module 28 and the middle pressure plate 34, the air cylinder 32 is turned on, so that the output shaft of the middle air cylinder 32 drives the first pressing block 33 to move downwards, so that the first pressing block 33 crushes the modified starch, after the modified starch is crushed, the first transfer module 28 transfers the crushed modified starch to the second transfer module 211, so that the crushed modified starch is transferred to the middle of the second transfer module 211, the modified starch is located on the second transfer module 211 and the front pressure plate 34, so that the telescopic rod of the front air cylinder 32 drives the first pressing block 33 to press downwards, so that the first pressing block 33 crushes the modified starch for the second time, and when the secondary crushing of the modified starch is completed, so that the second transfer module 211 transfers the crushed modified starch to the base frame 1, at this time, people collect the modified starch crushed on the base frame 1, and when people do not need to crush the modified starch, people close the air cylinder 32.

The blanking mechanism 4 comprises supporting blocks 41, fourth rotating shafts 42, material containing box bodies 43, material guiding square pipes 44, material blocking plates 45, first connecting rods 46, pry bars 47, second pressing blocks 48 and first elastic assemblies 49, the supporting blocks 41 are arranged on the left side and the right side of the base frame 1, the fourth rotating shafts 42 are arranged on the two supporting blocks 41 in a rotating mode, the material containing box bodies 43 are arranged on the rear side of the base frame 1, the material guiding square pipes 44 are connected to the lower portions of the front sides of the material containing box bodies 43, the material blocking plates 45 are arranged inside the material guiding square pipes 44 in a sliding mode, the first connecting rods 46 are arranged at the left end and the right end of each material blocking plate 45, the pry bars 47 are arranged on the two fourth rotating shafts 42, the rear sides of the two pry bars 47 are in contact with the first connecting rods 46, the second pressing blocks 48 are arranged on the left side and the right side of each first pressing block 33 on each first conveying assembly 28, the second pressing blocks 48 are matched with the pry bars 47, the first elastic assemblies 49 are arranged on the left side and the right side of the base frame 1, the lower end of the first elastic member 49 is connected to the base frame 1, and the upper end of the first elastic member 49 is in contact with the pry bar 47.

In order to facilitate the discharging, the modified starch is placed in the material box 43, since the material box 43 is inclined, the modified starch slides into the material guiding square tube 44, when the first pressing block 33 at the middle moves downwards, the second pressing block 48 moves downwards, and then the second pressing block 48 and the pry bar 47 are driven to move downwards, so that the first elastic component 49 is extruded, and further the pry bar 47 is driven to move downwards at the front side, so that the fourth rotating shaft 42 rotates, and the pry bar 47 moves upwards at the rear side, so that the pry bar 47 drives the first connecting rod 46 to move upwards, so that the material blocking plate 45 moves upwards, and the material blocking plate 45 does not block the material guiding square tube 44 any more, at this time, the modified starch in the material guiding square tube 44 slides to the first conveying component 28, the modified starch is crushed by the first pressing block 33, when the first pressing block 33 moves upwards, the second pressing block 48 is driven to move upwards, make second briquetting 48 and pinch bar 47 no longer contact, first elastic component 49 resets, and then with pinch bar 47 front side upward movement for pinch bar 47 rear side is to gliding, thereby makes head rod 46 drive striker plate 45 downstream, makes guide square pipe 44 no longer ejection of compact.

Still including scraping the material mechanism 5, scrape material mechanism 5 including second fixed block 51, scraper 52, flexible subassembly 53, second connecting rod 54, kicking block 55 and

first lug

56, 1 front side of bed frame is equipped with second fixed block 51, the gliding style is equipped with second connecting rod 54 on the second fixed

block

51, 1 middle part of bed frame is equipped with flexible subassembly 53, be equipped with scraper 52 between flexible subassembly 53 and the second connecting rod 54, second connecting rod 54 bottom is equipped with kicking block 55, lack gear 25 left side and evenly be equipped with first lug 56, first lug 56 and kicking block 55 cooperation.

For better crushing modified starch, when lacking gear 25 and rotate, make first lug 56 rotate, then make first lug 56 and kicking block 55 cooperation, make kicking block 55 slightly to the left side removal, thereby drive scraper 52 and remove left, make flexible subassembly 53 extruded, when first lug 56 and kicking block 55 no longer cooperate, make flexible subassembly 53 reset, thereby drive scraper 52 and remove to the right side, make second connecting rod 54 reset, remove about through scraper 52, make scraper 52 scrape remaining starch on with first transmission assembly 28, thereby conveniently crush new modified starch.

The base frame is characterized by further comprising a shaking mechanism 6, wherein the shaking mechanism 6 comprises second elastic assemblies 61, material guide plates 62 and second convex blocks 63, the second elastic assemblies 61 are symmetrically arranged on the left side of the base frame 1 in the front-back direction, the material guide plates 62 are arranged among the four second elastic assemblies 61, and the second convex blocks 63 are arranged on the front side of the left third rotating shaft 29.

After modified starch secondary crushing, drive third pivot 29 through second conveying component 211 and rotate, convey modified starch to the stock guide 62 on, because third pivot 29 rotates, make second lug 63 rotate, protruding portion and stock guide 62 cooperation when second lug 63, make stock guide 62 remove down, second elastic component 61 is extrudeed, when second lug 63 does not cooperate with stock guide 62, make second elastic component 61 reset, thereby drive stock guide 62 and reset, shake from top to bottom with stock guide 62, make the modified starch of crushing roll to bed frame 1 on, people collect the modified starch on the bed frame 1 this moment can.

The material containing mechanism 7 is further included, the material containing mechanism 7 comprises a material containing outer box 71, a material containing inner box 72, sliding rods 73 and a handle 74, the material containing outer box 71 is arranged on the left side of the base frame 1, the sliding rods 73 are arranged on the front side and the rear side of the material containing outer box 71 in a sliding mode, the material containing inner box 72 is arranged on the inner side of the material containing outer box 71 in a sliding mode, the two sliding rods 73 are fixedly connected with the material containing inner box 72, and the handle 74 is connected to the left wall of the material containing inner box 72.

In order to collect the modified starch of crushing better for people, after the modified starch crushing, the modified starch of crushing rolls to flourishing material inner box 72 in through stock guide 62, after flourishing material inner box 72 rotated to full, people manually pull handle 74 for flourishing material inner box 72 drives slide bar 73 and slides to the left, then make flourishing material inner box 72 slide in flourishing material outer box 71, people collect the modified starch in flourishing material inner box 72 this moment, thereby people will flourishing material inner box 72 again through slide bar 73 slip back flourishing material outer box 71 in.

The material of the pressure bearing plate 34 is made of solid iron, the pressure bearing plate 34 is cuboid, the pressure bearing plate 34 is located between the first conveying assembly 28 and the second conveying assembly 211, and the pressure bearing plate 34 is matched with the first pressing block 33.

The solid material of bearing plate 34, the bearing is high, and is difficult broken for first briquetting 33 is more stable when removing down and extrudeing modified starch, and reduces the equipment harm.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a modified starch automatic feeding crushing mechanism which characterized by: comprises the following steps:

the device comprises a base frame (1) and a transfer mechanism (2), wherein the base frame (1) is provided with the transfer mechanism (2);

the crushing mechanism (3), the base frame (1) is provided with the crushing mechanism (3);

the transfer mechanism (2) comprises:

the servo motor (21) is arranged on the base frame (1);

the end part of the servo motor (21) is provided with a first fixed block (22);

the first rotating shaft (23) is rotatably arranged on the first fixing block (22);

the second rotating shafts (24) are rotatably arranged on two sides of the upper middle part of the base frame (1);

the base frame (1) is provided with a third rotating shaft (29), the two sides of the base frame (1) are provided with the third rotating shaft (29), and the second rotating shaft (24) is positioned on one side of the third rotating shaft (29);

the first conveying assembly (28) is wound between the two second rotating shafts (24);

the second transmission assembly (211) is wound between the two third rotating shafts (29);

a gear lack (25) is arranged on an output shaft of the servo motor (21);

a spur gear (26), wherein the first rotating shaft (23) is provided with the spur gear (26), and the gear-lacking wheel (25) is meshed with the spur gear (26);

the rotating assembly (27) is arranged between the second rotating shaft (24) and the first rotating shaft (23) on the rear side;

a bevel gear set (210), wherein a bevel gear set (210) is arranged between the third rotating shaft (29) on the right side and the first rotating shaft (23);

the crushing mechanism (3) comprises:

the fixing frame (31), the upper side part and the middle part of the base frame (1) are provided with the fixing frame (31);

the air cylinders (32) are arranged in the two fixing frames (31);

the telescopic rods of the two cylinders (32) are connected with the first pressing block (33);

the device comprises a base frame (1), a first conveying assembly (28), a second conveying assembly (211), a bearing plate (34), a first pressure plate (34), a second pressure plate (34), a third pressure plate (34), a fourth pressure plate (34), a fifth pressure plate (211), a sixth pressure plate (34) and a sixth pressure plate (34), wherein the upper side portion and the middle portion of the base frame (1) are both provided with the bearing plates, and the two bearing plates (34) are respectively positioned below the first conveying assembly (28) and the second conveying assembly (211);

still including unloading mechanism (4), unloading mechanism (4) including:

the supporting blocks (41) are arranged on the two sides of the base frame (1);

the fourth rotating shaft (42) is rotatably arranged on the two supporting blocks (41);

the material containing box body (43) is arranged on the base frame (1);

the lower part of the material containing box body (43) is connected with a material guide square pipe (44);

the baffle plate (45) is arranged inside the guide square tube (44) in a sliding manner;

the two ends of the material baffle plate (45) are provided with first connecting rods (46);

prying bars (47) are arranged on the two fourth rotating shafts (42), and the side parts of the two prying bars (47) are in contact with the first connecting rod (46);

the two sides of the first pressing block (33) on the first conveying assembly (28) are provided with second pressing blocks (48), and the second pressing blocks (48) are matched with the pry bar (47);

first elastic component (49), both sides all are equipped with first elastic component (49) on bed frame (1), and first elastic component (49) lower extreme is connected with bed frame (1), and first elastic component (49) upper end and pinch bar (47) contact.

2. The destructured starch automatic loading and crushing apparatus as claimed in claim 1, wherein: still including scraping material mechanism (5), scrape material mechanism (5) including:

the second fixing block (51) is arranged on the side part of the base frame (1);

the second connecting rod (54) is arranged on the second fixing block (51) in a sliding mode;

the telescopic component (53), the middle part of the base frame (1) is provided with the telescopic component (53);

the scraper (52) is arranged between the telescopic component (53) and the second connecting rod (54);

the bottom of the second connecting rod (54) is provided with a top block (55);

the side part of the first lug (56) and the gear-lacking wheel (25) is uniformly provided with the first lug (56), and the first lug (56) is matched with the top block (55).

3. The automatic modified starch feeding and crushing mechanism as claimed in claim 2, wherein: still including shake mechanism (6), shake mechanism (6) including:

the upper side parts of the base frames (1) are symmetrically provided with second elastic components (61);

the material guide plates (62) are arranged among the four second elastic assemblies (61);

and a second lug (63) is arranged on the side part of the third rotating shaft (29) on one side of the second lug (63).

4. An automatic modified starch feeding and crushing mechanism as claimed in claim 3, wherein: still including containing material mechanism (7), containing material mechanism (7) including:

a material containing outer box (71), wherein the upper side part of the base frame (1) is provided with the material containing outer box (71);

the sliding rods (73) are arranged on two sides of the material containing outer box (71) in a sliding manner;

the inner side of the material containing outer box (71) is provided with the material containing inner box (72) in a sliding way, and the two sliding rods (73) are fixedly connected with the material containing inner box (72);

the outer wall of the handle (74) and the material containing inner box (72) is connected with the handle (74).

5. An automatic modified starch feeding and crushing mechanism as claimed in claim 4, wherein: the material of the pressure bearing plate (34) is made of solid iron, the pressure bearing plate (34) is cuboid, the pressure bearing plate (34) is located between the first conveying assembly (28) and the second conveying assembly (211), and the pressure bearing plate (34) is matched with the first pressing block (33).