CN114313779A

CN114313779A - Front end crushed aggregates area send device based on bio-feritlizer

Info

Publication number: CN114313779A
Application number: CN202111681555.3A
Authority: CN
Inventors: 史宏昌
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-29
Filing date: 2021-12-29
Publication date: 2022-04-12

Abstract

The invention provides a front-end crushed aggregate conveying device based on bio-fertilizer, which relates to the technical field of fertilizer production conveying devices and comprises the following components: the outer side of the transmission shaft wheel is provided with a bidirectional driving structure; the positioning sliding column is arranged on the inner side of the assembly main body, the transmission shaft wheel is in a reciprocating press-cutting structure, and the bottom end of the mounting support plate is provided with a transmission bearing structure; the positioning support is arranged on the inner side of the assembling main body, and a pushing press-cutting structure is arranged on one side of the positioning support; the mounting and loading shaft is rotatably arranged on the inner side of the assembling main body; reciprocating sliding from top to bottom through the drive support plate, adjusting the position of cutting apart the blade holder, carrying out the secondary to the bio-feritlizer that the segmentation pinch roller was cut apart and cutting apart, caking easily when having solved the bio-feritlizer transportation, be unfavorable for bio-feritlizer to carry out the operation of bagging-off, need the manual work to pulverize the bio-feritlizer of caking.

Description

Front end crushed aggregates area send device based on bio-feritlizer

Technical Field

The invention relates to the technical field of fertilizer production and conveying devices, in particular to a front-end crushed aggregate conveying device based on biological fertilizer.

Background

The biological fertilizer is also called microbial fertilizer, inoculant or bacterial fertilizer, and is a fertilizer product which takes the life activity of microbes as the core and makes crops obtain specific fertilizer effect.

However, after the production of the bio-fertilizer is completed, the produced bio-fertilizer needs to be bagged, so that the bio-fertilizer is conveniently and centrally transported and stored, and the bio-fertilizer is agglomerated due to the self viscosity in the preparation process, even the bio-fertilizer is adhered to the surface of a transportation belt, which affects the transmission of the fertilizer on the transportation belt, is not beneficial to the operation of bagging the bio-fertilizer, often needs to crush the agglomerated bio-fertilizer manually, and thus, not only is the efficiency low, but also more labor force is wasted.

Disclosure of Invention

In view of the above, the present invention provides a bio-fertilizer-based front end chip carrying device having a pushing press-cutting structure and a reciprocating press-cutting structure, which enables the device to perform a crushing operation while bio-fertilizer is being transported instead of a manual operation.

The invention provides a front-end crushed aggregate conveying device based on biological fertilizer, which specifically comprises: the carrying frame is transported to the position of the carrying frame,

a bearing support frame is arranged at one end of the transportation carrier frame, an assembly main body is arranged at the top of the bearing support frame, a conveying carrier tape is arranged on the inner sides of the transportation carrier frame and the assembly main body, and a conveying auxiliary structure is arranged on the outer side of the conveying carrier tape;

the transmission shaft wheel is rotatably arranged on the inner side of the assembly main body, and a bidirectional driving structure is arranged on the outer side of the transmission shaft wheel;

location traveller, location traveller sets up in the assembly main part inboard, and the reciprocal crush-cutting structure of transmission arbor wheel, reciprocal crush-cutting structure includes: the limiting support plate is arranged at the tail end of the positioning sliding column;

the mounting support plate is arranged on the inner side of the assembly main body, and a transmission bearing structure is arranged at the bottom end of the mounting support plate;

the positioning support is arranged on the inner side of the assembling main body, and a pushing press-cutting structure is arranged on one side of the positioning support;

the installation carries the axle, the installation carries the axle to rotate to set up in assembly main part inboard, and the installation carries the axle outside to be provided with reciprocal scraping from the structure and includes: the separation piece, the separation piece sets up in the assembly main part inboard.

Optionally, the fitting body comprises:

the assembling connecting shaft is rotatably arranged on the inner side of the assembling main body;

the transmission connecting belt is sleeved outside the two ends of the assembling connecting shaft, and the other end of the transmission connecting belt is sleeved outside the transmission shaft piece;

the driving connecting shaft is arranged at one end of the conveying carrier tape;

the transmission shaft piece is arranged at two ends of the driving connecting shaft.

Optionally, the transportation assistance structure comprises:

the transportation partition bulges are arranged on the outer sides of the two ends of the conveying carrier band;

the positioning scraping block is arranged on the inner side of the assembly main body and is attached to the conveying carrier tape;

and the bearing connection frame is arranged at one end of the assembly main body.

Optionally, the bidirectional driving structure comprises:

the first transmission belt is sleeved at one end of the positioning sliding column;

the second transmission belt is sleeved at the other end of the positioning sliding column;

the driving shaft disc is rotatably arranged on the inner side of the assembly main body;

and the assembling connecting block is arranged on one side of the driving shaft disc.

Optionally, the reciprocating press cutting structure comprises:

the driving support plate is sleeved outside the positioning sliding column;

the reset sliding column is arranged at the top of the limiting support plate;

the sliding load column is arranged at the bottom of the driving support plate;

the cutting tool apron is arranged at the tail end of the sliding load column;

the limiting sliding blocks are arranged on the vertical surfaces of the two sides of the cutting tool apron, and the section of the main body of the limiting sliding block is of a T-shaped structure;

the positioning sliding groove is arranged on the inner side of the assembly main body, and the section of the positioning sliding groove main body is of a T-shaped structure.

Optionally, the drive receiving structure comprises:

the driving shaft part is rotatably arranged on the inner side of the mounting support plate;

the first driving piece is arranged on one side of the driving shaft piece;

the second driving piece is arranged on the other side of the driving shaft piece;

the driving connecting protrusion is arranged at the tail end of the second driving piece.

Optionally, the push-cut structure comprises:

the assembly loading column is arranged on one side of the positioning support;

the guide sliding column is arranged on one side of the positioning support;

the stable supporting block is arranged on the inner side of the assembly main body;

the sliding carrier block is sleeved outside the guide sliding column;

the mounting support pieces are arranged at the bottoms of the two ends of the sliding carrying block;

the cutting pinch roller is arranged between the mounting supports through a device;

the buffer compression leg is arranged on the inner side of the sliding carrier block;

the positioning support plate is arranged at the tail end of the buffer compression column;

the cleaning pressing block is arranged at the bottom of the positioning support plate.

Optionally, the reciprocating scraping structure comprises:

the rotary scraping piece is sleeved outside the mounting shaft;

the driving rotating bulge is arranged on the outer side of the rotating scraper;

the rotary connecting column is rotatably arranged at the tail end of the driving rotary lug;

the mounting rotating shaft is rotatably arranged at the tail end of the rotating connecting column;

and the driving connecting pieces are arranged at two ends of the mounting rotating shaft.

Advantageous effects

According to the front-end particle conveying device based on the bio-fertilizer, compared with the traditional conveying device, the device can be more thoroughly separated from manual assistance, and the conveyed bio-fertilizer can be automatically treated.

In addition, can drive the transport carrier band through the drive spiale and continuously rotate the transport, and then cooperation transmission shaft spare and transmission spiale, the variable speed drives and drives the assembly spiale and rotate, thereby drive the transmission arbor wheel and rotate, and then make first transmission area and second drive belt carry out bidirectional transmission, thereby drive shaft spare and drive reel simultaneously and rotate, realize the pressure and cut, cut apart and scrape going on when separating, thereby improve bio-fertilizer's transportation bagging-off efficiency, the piece is scraped in the location can further press the transport carrier band of accomplishing to the transportation and scrape, thereby further scrape the glutinous bio-fertilizer on transport carrier band surface and separate.

In addition, can drive the second driving piece through drive shaft spare and carry out reciprocating rotation, thereby make the drive connect protruding reciprocal promotion to the slip carrier block, thereby make and cut apart the pinch roller and carry out reciprocating sliding and press-cutting to bio-fertilizer, thereby make the bio-fertilizer cutting of caking be the strip, the clearance briquetting is crowded when cutting apart the pinch roller and is scraped, thereby make the adhesion break away from to the bio-fertilizer who cuts apart the pinch roller surface, prevent that the bio-fertilizer adhesion from piling up the effect that influences follow-up press-cutting, drive shaft spare can drive first driving piece and carry out reciprocating rotation simultaneously, and then drive the reciprocal slip from top to bottom of drive carrier plate, thereby adjust the position of cutting apart the blade holder, and then carry out the secondary to the bio-fertilizer who cuts apart the pinch roller and cut apart, so that follow-up operation that breaks away from the bagging-off.

In addition, through the even reciprocating rotation of drive, make the even reciprocal promotion of drive rotate the pillar and remove, and then make the rotation pillar change the protruding reciprocal promotion of drive to the drive, thereby drive and rotate the scraper and can carry out reciprocating rotation, make to rotate scraper end can reciprocate and carry the carrier band laminating and break away from, and then make to rotate the scraper and can scrape away to the bio-fertilizer who glues to carry the carrier band surface, prevent to carry the carrier band surface and excessively pile up bio-fertilizer and influence subsequent transportation.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic diagram of the overall front view structure of a device according to an embodiment of the invention;

FIG. 2 shows a schematic view of the overall bottom structure of the device according to an embodiment of the invention;

FIG. 3 shows a schematic overall cross-sectional front view of a device according to an embodiment of the invention;

FIG. 4 shows a schematic bottom view of the apparatus in full section according to an embodiment of the present invention;

FIG. 5 shows a schematic view of a driveshaft wheel assembly according to an embodiment of the invention;

FIG. 6 shows a schematic view of a positioning strut assembly according to an embodiment of the present invention;

FIG. 7 shows a schematic view of a positioning pedestal mounting structure according to an embodiment of the present invention;

FIG. 8 shows a schematic view of an installation load shaft assembly according to an embodiment of the present invention;

fig. 9 shows an enlarged schematic structure at a according to an embodiment of the present invention.

List of reference numerals

1. Transporting the carrying frame;

2. carrying a support frame;

3. assembling the main body;

301. assembling a connecting shaft; 302. a transmission belt connection; 303. a drive spindle; 304. a drive shaft member;

4. conveying the carrier tape;

401. transporting the partition bulges; 402. positioning a scraping block; 403. carrying a connecting frame;

5. a drive shaft wheel;

501. a first drive belt; 502. a second belt; 503. a drive shaft disc; 504. assembling a connecting block;

6. positioning a sliding column;

601. a limiting support plate; 602. driving the carrier plate; 603. resetting the sliding column; 604. sliding the load post; 605. cutting the tool apron; 606. a limiting slide block; 607. positioning the chute;

7. mounting a carrier plate;

701. a drive shaft member; 702. a first driving member; 703. a second driving member; 704. the driving connecting boss;

8. positioning a support;

801. assembling a loading column; 802. a guide strut; 803. stabilizing the branch block; 804. sliding the carrier block; 805. installing a support piece; 806. dividing the pinch roller; 807. a buffer compression leg; 808. positioning a carrier plate; 809. cleaning the pressing block;

9. installing a loading shaft;

901. rotating the scraper; 902. driving the rotary lug; 903. rotating the connecting column; 904. installing a rotating shaft; 905. a drive link; 906. a barrier.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to fig. 9:

the invention provides a front-end crushed aggregate conveying device based on biological fertilizer, which comprises: the conveying device comprises a conveying carrier frame 1, wherein a bearing support frame 2 is arranged at one end of the conveying carrier frame 1, an assembly main body 3 is arranged at the top of the bearing support frame 2, conveying carrier belts 4 are arranged on the inner sides of the conveying carrier frame 1 and the assembly main body 3, and conveying auxiliary structures are arranged on the outer sides of the conveying carrier belts 4; the transmission shaft wheel 5 is rotationally arranged on the inner side of the assembly main body 3, and a bidirectional driving structure is arranged on the outer side of the transmission shaft wheel 5; location traveller 6, location traveller 6 sets up in assembly main part 3 inboardly, and the reciprocal crush-cutting structure of transmission shaft wheel 5, reciprocal crush-cutting structure includes: the limiting carrier plate 601 is arranged at the tail end of the positioning sliding column 6; the mounting support plate 7 is arranged on the inner side of the assembling main body 3, and the bottom end of the mounting support plate 7 is provided with a transmission bearing structure; the positioning support 8 is arranged on the inner side of the assembling main body 3, and a pushing press-cutting structure is arranged on one side of the positioning support 8; install year axle 9, install and carry axle 9 to rotate and set up in assembly main part 3 inboardly, install and carry the axle 9 outside and be provided with reciprocal scraping structure and include: a blocking member 906, the blocking member 906 is disposed inside the assembly body 3.

As shown in fig. 3, 6 and 7, the reciprocating press cutting structure includes:

a driving carrier 602, wherein the driving carrier 602 is sleeved outside the positioning slide column 6; the reset sliding column 603, the reset sliding column 603 is arranged on the top of the limiting carrier plate 601; a sliding carrier pillar 604, the sliding carrier pillar 604 being disposed at the bottom of the driving carrier 602; a dividing cutter seat 605, wherein the dividing cutter seat 605 is arranged at the tail end of the sliding load column 604; the limiting sliding blocks 606 are arranged on the vertical surfaces of the two sides of the cutting tool apron 605, and the cross section of the main body of the limiting sliding block 606 is of a T-shaped structure; the positioning sliding groove 607 is arranged on the inner side of the assembly main body 3, and the section of the main body of the positioning sliding groove 607 is in a T-shaped structure; the transmission receiving structure comprises: a driving shaft member 701, wherein the driving shaft member 701 is rotatably arranged inside the mounting support plate 7; a first driving member 702, the first driving member 702 being disposed on one side of the driving shaft member 701; a second driving member 703, the second driving member 703 being disposed on the other side of the driving shaft member 701; the driving connecting protrusion 704, the driving connecting protrusion 704 is disposed at the end of the second driving member 703; the pushing and pressing structure comprises: the assembly loading column 801 is arranged on one side of the positioning support 8; the guide sliding column 802, the guide sliding column 802 is arranged on one side of the positioning support 8; a stabilizing branch 803, the stabilizing branch 803 being provided inside the assembly body 3; the sliding carrier block 804 is sleeved outside the guide sliding column 802; the mounting support 805 is arranged at the bottoms of the two ends of the sliding carrier block 804; a split pinch roller 806, the split pinch roller 806 being mounted between the mounting supports 805 by a device; the buffer compression column 807 is arranged on the inner side of the sliding carrier block 804; a positioning carrier plate 808, wherein the positioning carrier plate 808 is arranged at the tail end of the buffer compression column 807; the cleaning pressing block 809, the cleaning pressing block 809 is arranged at the bottom of the positioning carrier plate 808; can drive second driving piece 703 through drive shaft 701 and carry out reciprocating rotation, thereby make the drive connect protruding 704 to slide carrier block 804 and carry out reciprocal promotion, thereby make cut apart pinch roller 806 and carry out reciprocal slip and press cut to bio-fertilizer, thereby make the bio-fertilizer cutting of caking be the strip, clearance briquetting 809 squeezes when cutting apart pinch roller 806 and rotate and scrapes, thereby make the adhesion break away from to the bio-fertilizer who cuts apart pinch roller 806 surface, prevent that the bio-fertilizer adhesion from piling up the effect that influences follow-up pressure cut, drive shaft 701 can drive first driving piece 702 and carry out reciprocating rotation simultaneously, and then drive carrier plate 602 reciprocal slip from top to bottom, thereby adjust the position of cutting apart blade holder 605, and then carry out the secondary to the bio-fertilizer who cuts apart pinch roller 806 and cut apart, so that follow-up operation that breaks away from the bagging-off.

As shown in fig. 3 and 8, the reciprocating scraping structure includes:

the rotary scraping piece 901 is sleeved outside the loading shaft 9; a driving rotating protrusion 902, wherein the driving rotating protrusion 902 is arranged outside the rotating scraper 901; a rotary connecting column 903, wherein the rotary connecting column 903 is rotatably arranged at the tail end of the driving rotary boss 902; the mounting rotating shaft 904, the mounting rotating shaft 904 is rotatably arranged at the tail end of the rotating connecting column 903; the driving connecting pieces 905 are arranged at two ends of the mounting rotating shaft 904; through the even reciprocating rotation of drive 905, make the even 905 of drive can reciprocate to promote and rotate the pillar 903 and remove, and then make and rotate the pillar 903 and change protruding 902 to the drive and reciprocate and promote, thereby drive and rotate the scraper 901 and can reciprocate and rotate, make and rotate the scraper 901 end and can reciprocate and carry the laminating of carrier band 4 and break away from, and then make and rotate the scraper 901 and can scrape the bio-fertilizer who glues to carrying 4 surfaces and leave, prevent to carry 4 surfaces of carrier band and excessively pile up bio-fertilizer and influence subsequent transportation.

As shown in fig. 1, 3, 5 and 8, the mounting body 3 includes:

the assembling connecting shaft 301, the assembling connecting shaft 301 is rotatably arranged at the inner side of the assembling main body 3; the transmission connecting belt 302 is sleeved outside two ends of the assembling connecting shaft 301, and the other end of the transmission connecting belt 302 is sleeved outside the transmission shaft member 304; the driving connecting shaft 303, the driving connecting shaft 303 is arranged at one end of the conveying carrier tape 4; the transmission shaft members 304 are arranged at two ends of the driving connecting shaft 303; the conveying auxiliary structure comprises: the transportation isolation bulges 401 are arranged at the outer sides of the two ends of the conveying carrier tape 4; the positioning scraping block 402 is arranged on the inner side of the assembly main body 3, and the positioning scraping block 402 is attached to the conveying carrier tape 4; a bearing connection frame 403, wherein the bearing connection frame 403 is arranged at one end of the assembly main body 3; the bidirectional driving structure includes: the first transmission belt 501, the first transmission belt 501 is sleeved at one end of the positioning sliding column 6; the second transmission belt 502 is sleeved at the other end of the positioning sliding column 6; a drive shaft disk 503, the drive shaft disk 503 is rotatably arranged inside the assembly body 3; the assembling block 504, the assembling block 504 is set up in the side of driving the shaft disc 503; can drive through drive spiale 303 and carry carrier band 4 and continuously rotate and carry, and then cooperation transmission shaft part 304 and transmission spiale 302, the variable speed drives and drives assembly spiale 301 and rotate, thereby drive transmission arbor wheel 5 and rotate, and then make first drive band 501 and second drive belt 502 carry out bidirectional transmission, thereby drive shaft part 701 and drive shaft dish 503 simultaneously and rotate, realize the pressure cut, cut apart and scrape going on when leaving, thereby improve bio-fertilizer's transportation bagging-off efficiency, piece 402 can further be scraped to the transport carrier band 4 of transportation completion in the location, thereby further scrape the sticky bio-fertilizer who carries 4 surfaces and leave.

In addition, according to another embodiment of the present invention, as shown in fig. 8, a shielding cover frame can be additionally installed inside the end of the main assembly body 3, so as to further improve the stability of the bio-fertilizer during transportation and bagging, and prevent the bio-fertilizer from scattering and generating unnecessary waste during bagging.

The specific use mode and function of the embodiment are as follows: in the invention, the device is arranged at a proper position, the conveying carrier belt 4 is driven to continuously rotate and convey by the driving connecting shaft 303, and then the driving shaft part 304 and the driving connecting belt 302 are matched, the assembly connecting shaft 301 is driven to rotate by variable speed driving, the driving shaft wheel 5 is driven to rotate, the first driving belt 501 and the second driving belt 502 are driven to bidirectionally, so as to simultaneously drive the driving shaft part 701 and the driving shaft disc 503 to rotate, the driving shaft part 701 drives the second driving part 703 to rotate in a reciprocating manner, so that the driving connecting protrusion 704 pushes the sliding carrier block 804 in a reciprocating manner, so that the cutting press wheel 806 performs reciprocating sliding and pressing cutting on the biological fertilizer, so as to cut the caked biological fertilizer into strips, the cleaning press block 809 performs extruding and scraping when the cutting press wheel 806 rotates, so as to separate the biological fertilizer adhered to the surface of the cutting press wheel 806, and the driving shaft part 701 drives the first driving part 702 to rotate in a reciprocating manner, and then drive support plate 602 up-and-down reciprocating sliding, thereby adjust the position of cutting apart blade holder 605, and then carry out the secondary to the bio-feritlizer that segmentation pinch roller 806 was cut apart, drive reel 503 makes drive even 905 reciprocating rotation, make drive even 905 reciprocating promotion rotate the pillar 903 and remove, and then make rotate the pillar 903 and change protruding 902 to the drive and reciprocate the promotion, thereby drive and rotate the scraper 901 and can carry out reciprocating rotation, make the terminal reciprocal and the laminating of carrying tape 4 of rotating scraper 901 and break away from, and then make and rotate scraper 901 and scrape off the bio-feritlizer that glues to carrying tape 4 surface, prevent to carry carrying tape 4 surface excessive pile up bio-feritlizer and influence subsequent transportation.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims

1. A device is sent in front end crushed aggregates area based on bio-feritlizer which characterized in that includes: the carrying frame is transported to the position of the carrying frame,

2. A biofertilizer-based front end chip conveyor as recited in claim 1 wherein: the assembly body includes:

3. A biofertilizer-based front end chip conveyor as recited in claim 1 wherein: the transportation assistance structure includes:

4. A biofertilizer-based front end chip conveyor as recited in claim 1 wherein: the bidirectional driving structure includes:

5. A biofertilizer-based front end chip conveyor as recited in claim 1 wherein: the reciprocating press cutting structure comprises: