CN211470072U

CN211470072U - Stirring material receiving machine

Info

Publication number: CN211470072U
Application number: CN201922450516.7U
Authority: CN
Inventors: 刘军
Original assignee: Dongguan Haibao Machinery Technology Co ltd
Current assignee: Dongguan Haibao Machinery Technology Co ltd
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-09-11
Anticipated expiration: 2029-12-30

Abstract

The utility model relates to the technical field of material mixing and receiving equipment, in particular to a stirring and receiving machine, which comprises a stirring device, a charging barrel, a hot air blower, a first bracket, an auger conveyor, a material collecting box and a second bracket; the stirring device comprises an auger main shaft, an auger pipe, an auger driving device and a plurality of auger blades; the charging barrel is provided with a charging barrel feeding hole and a charging barrel discharging hole; the auger pipe is provided with an auger feed port and a plurality of auger discharge ports; the outer wall of the packing auger pipe is provided with a plurality of first material scattering plates; the auger main shaft is connected with a flow deflector. The stirring material receiving machine of this application adopts and shed the compounding mode and has replaced traditional stirring compounding mode, and the stirring material receiving machine of this application can be with material misce bene to reach the requirement of production. The stirring material collecting machine of this application can accomplish the receipts work of material automatically, raises the efficiency. And the hot-blast machine carries out drying process to the inside material of feed cylinder, lets the inside material of feed cylinder reach the dryness fraction requirement of production, satisfies the demand of production.

Description

Stirring material receiving machine

Technical Field

The utility model belongs to the technical field of the material mixing receives the material equipment technique and specifically relates to indicate a material machine is received in stirring.

Background

In the process of recycling the regenerated broken materials, the stirring and receiving machine is used for stirring and mixing the granular materials in the charging barrel. Traditional stirring receipts material machine all adopts the mode of stirring to stir the mixture to the graininess material in the feed cylinder, and the stirring mode that traditional stirring receipts material machine adopted can not be with the complete misce bene of the graininess material in the feed cylinder, can not reach the requirement of production. Traditional stirring material receiving machine does not set up material collecting device, can not accomplish the receipts work of material with automaticly. Traditional stirring material receiving machine does not have the stoving function, can not satisfy the demand of production.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a material machine is received in stirring, this material machine is received in stirring adopts and shed the compounding mode and has replaced traditional stirring compounding mode, and this material machine is received in stirring can be with material misce bene to reach the requirement of production. This stirring material collecting machine can accomplish the receipts material work of material voluntarily, raises the efficiency. And the hot-blast machine carries out drying process to the inside material of feed cylinder, lets the inside material of feed cylinder reach the dryness fraction requirement of production, satisfies the demand of production.

In order to solve the technical problem, the utility model discloses a following technical scheme:

a stirring material receiving machine comprises a stirring device, a charging barrel, a hot air blower, a first support, a packing auger conveyor, a material collecting box and a second support; the stirring device comprises an auger main shaft, an auger pipe, an auger driving device and a plurality of auger blades; the charging barrel is arranged on the first support and provided with a charging barrel feeding port and a charging barrel discharging port, external materials enter the charging barrel through the charging barrel feeding port, the materials in the charging barrel are conveyed to the auger conveyor through the charging barrel discharging port, and the auger conveyor is used for conveying the materials in the charging barrel to the material collecting box; the material collecting box is arranged on the second bracket and is provided with a material collecting box discharge port;

the packing auger driving device is used for driving the packing auger main shaft to rotate;

the auger pipe is provided with an auger feed inlet and a plurality of auger discharge outlets, and the auger feed inlet and the plurality of auger discharge outlets are communicated with the inside of the auger pipe; the auger feed port is positioned at the bottom of the charging barrel, and the auger discharge ports are positioned at one end of the auger pipe far away from the auger feed port;

the outer wall of the auger pipe is provided with a plurality of first bulk material plates, the plurality of first bulk material plates are arranged in one-to-one correspondence with the plurality of auger discharge ports, and the first bulk material plates are positioned below the auger discharge ports; one end of the auger main shaft, which is close to the auger feed inlet, is connected with a flow deflector, and the flow deflector is used for guiding the material in the material barrel into the auger feed inlet;

the air heater is installed in the feed cylinder and is used for carrying hot-blastly to the inside of feed cylinder, and the vent has been seted up to the feed cylinder, and the inside hot-blastly is discharged the external world via the vent of feed cylinder.

Further, the charging barrel is connected with a bulk material assembly, and the bulk material assembly is positioned inside the charging barrel; the bulk cargo subassembly includes connecting rod and toper bulk cargo piece, and the one end of connecting rod is connected in the feed cylinder, and the other end of connecting rod is connected in toper bulk cargo piece, and external material gets into the inside of feed cylinder and collides the toper surface of toper bulk cargo piece via the feed cylinder feed inlet and scatters and fall into in the feed cylinder.

Furthermore, the feed cylinder is connected with a plurality of second bulk cargo plates, and the plurality of second bulk cargo plates are located in the feed cylinder and below the first bulk cargo plates.

Further, the one end that the auger pipe is close to auger drive arrangement is provided with the striker plate, and the striker plate is located the inside of auger pipe, and the striker plate is used for keeping off the material that the auger blade carried and falls to the auger discharge gate.

Furthermore, a dust cover is arranged at one end of the packing auger main shaft close to the packing auger driving device.

Furthermore, the auger main shaft comprises a first main shaft part and a second main shaft part connected to the first main shaft part, the shaft diameter of the first main shaft part is smaller than that of the second main shaft part, the first main shaft part is positioned at the auger feeding port, and the second main shaft part is in driving connection with the auger driving device.

Further, the flow deflector comprises a first connecting part, a second connecting part and a third connecting part; one end of the first connecting part is connected with the auger main shaft, the other end of the first connecting part is connected with one end of the second connecting part, and the other end of the second connecting part is connected with the third connecting part; the first connecting part and the second connecting part are arranged in a crossed mode, and the second connecting part and the third connecting part are arranged in a crossed mode.

Further, the auger pipe comprises an auger pipe main body and an auger pipe end cover, the auger pipe end cover is detachably arranged at one end of the auger pipe main body, which is far away from the auger feed inlet, and the auger driving device is arranged at the auger pipe end cover and is in driving connection with the auger main shaft.

The utility model has the advantages that: in actual operation, external material gets into the inside of feed cylinder and drops to the bottom of feed cylinder through the feed inlet of feed cylinder. The auger driving device drives the auger main shaft to rotate, the rotating auger main shaft drives the flow deflector and the plurality of auger blades to rotate, the rotating flow deflector guides materials inside the material cylinder into the auger feed inlet, the auger blades are convenient for conveying the materials, the plurality of rotating auger blades convey the materials inside the material cylinder into the auger pipe through the auger feed inlet, then the plurality of rotating auger blades convey the materials inside the auger pipe to the plurality of auger discharge outlets, the materials inside the auger pipe are scattered outside the auger pipe through the plurality of auger discharge outlets, the scattered materials can fall downwards under the action of gravity, the materials can collide with the first material scattering plate in the downward falling process, and the materials can scatter towards different directions and finally fall to the bottom of the material cylinder. Meanwhile, the hot air blower conveys hot air to the interior of the material barrel, and the hot air dries the materials in the material barrel. When the stirring material receiving machine stops working or the temperature in the material barrel reaches a set value, an operator can open the vent to enable hot air in the material barrel to be discharged outside through the vent, and the material in the material barrel is prevented from being damaged due to overhigh temperature in the material barrel.

After the materials in the charging barrel are circulated for a plurality of times through the material scattering and mixing steps, the materials in the charging barrel can be uniformly mixed, so that the production requirement is met. The materials in the charging barrel are uniformly mixed and then conveyed to the auger conveyor through the discharging port of the charging barrel, and the auger conveyor conveys the materials to the material collecting box. The material is further stirred and mixed by the auger conveyor in the process of conveying the material, so that the material is more uniformly mixed. The materials in the material collecting box are conveyed to the inside of the material packaging bag through the material collecting box discharging hole, so that the packaging process of the materials is completed.

The stirring material receiving machine of this application adopts and shed the compounding mode and has replaced traditional stirring compounding mode, and the stirring material receiving machine of this application can be with material misce bene to reach the requirement of production. The stirring material collecting machine of this application can accomplish the receipts work of material automatically, raises the efficiency. And the hot-blast machine carries out drying process to the inside material of feed cylinder, lets the inside material of feed cylinder reach the dryness fraction requirement of production, satisfies the demand of production.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the flow deflector of the present invention.

Description of reference numerals:

the stirring device comprises a stirring device 1, an auger spindle 11, a flow deflector 111, a first connecting portion 1111, a second connecting portion 1112, a third connecting portion 1113, a dust cover 112, a first spindle portion 113, a second spindle portion 114, an auger pipe 12, an auger feed inlet 121, an auger discharge port 122, a first bulk material plate 123, a material baffle 124, an auger pipe main body 125, an auger pipe end cover 126, an auger driving device 13, an auger blade 14, a charging barrel 2, a charging barrel feed inlet 21, a charging barrel discharge port 22, a vent 23, a bulk material component 24, a connecting rod 241, a conical bulk material plate 242, a second bulk material plate 25, a hot air blower 3, a first support 4, an auger conveyor 5, a material collecting box 6, a material collecting box discharge port 61 and a second support 7.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1, the utility model provides a stirring material receiving machine, which comprises a stirring device 1, a charging barrel 2, a hot air blower 3, a first bracket 4, an auger conveyor 5, a material collecting box 6 and a second bracket 7; the stirring device 1 comprises an auger main shaft 11, an auger pipe 12, an auger driving device 13 and a plurality of auger blades 14; the charging barrel 2 is arranged on the first support 4, the charging barrel 2 is provided with a charging barrel feeding hole 21 and a charging barrel discharging hole 22, external materials enter the charging barrel 2 through the charging barrel feeding hole 21, the materials in the charging barrel 2 are conveyed to the auger conveyor 5 through the charging barrel discharging hole 22, and the auger conveyor 5 is used for conveying the materials in the charging barrel 2 to the material collecting box 6; the material collecting box 6 is arranged on the second bracket 7, and the material collecting box 6 is provided with a material collecting box discharge port 61;

the packing auger driving device comprises a packing auger main shaft 11, a packing auger pipe 12, a packing auger main shaft 12, packing auger blades 14 and a packing auger driving device 13, wherein the packing auger main shaft 11 is arranged in the charging barrel 2;

the auger pipe 12 is provided with an auger feed inlet 121 and a plurality of auger discharge outlets 122, and the auger feed inlet 121 and the auger discharge outlets 122 are communicated with the inside of the auger pipe 12; the packing auger feed inlet 121 is positioned at the bottom of the charging barrel 2, and the packing auger discharge outlets 122 are positioned at one end of the packing auger pipe 12 far away from the packing auger feed inlet 121;

the outer wall of the auger pipe 12 is provided with a plurality of first material scattering plates 123, the plurality of first material scattering plates 123 are arranged in one-to-one correspondence with the auger discharge holes 122, and the first material scattering plates 123 are positioned below the auger discharge holes 122; one end of the auger main shaft 11 close to the auger feed port 121 is connected with a flow deflector 111, and the flow deflector 111 is used for guiding the material in the material barrel 2 into the auger feed port 121;

the air heater 3 is installed in the feed cylinder 2 and is used for carrying hot-blast to the inside of feed cylinder 2, and vent 23 has been seted up to feed cylinder 2, and the inside hot-blast via vent 23 of feed cylinder 2 discharges the external world.

In actual operation, external material enters the interior of the barrel 2 through the barrel feed opening 21 and falls to the bottom of the barrel 2. The auger driving device 13 drives the auger main shaft 11 to rotate, the rotating auger main shaft 11 drives the flow deflector 111 and the auger blades 14 to rotate, the rotating flow deflector 111 guides the materials in the material barrel 2 into the auger feed inlet 121, the auger blades 14 are convenient to convey the materials, the auger blades 14 convey the materials in the material barrel 2 into the auger pipe 12 through the auger feed inlet 121, then the auger blades 14 convey the materials in the auger pipe 12 to the auger discharge outlets 122, the materials in the auger pipe 12 are thrown to the outside of the auger pipe 12 through the auger discharge outlets 122, the thrown materials fall downwards under the action of gravity, the materials collide with the first material scattering plate 123 in the downward falling process, and the materials are scattered towards different directions and finally fall to the bottom of the material barrel 2. Meanwhile, the hot air blower 3 delivers hot air to the inside of the charging barrel 2, and the hot air dries the materials in the charging barrel 2. When the stirring material receiving machine stops working or the temperature in the material barrel 2 reaches a set value, an operator can open the vent 23 to discharge hot air in the material barrel 2 to the outside through the vent 23, so that the material in the material barrel 2 is prevented from being damaged due to overhigh temperature in the material barrel 2.

After the materials in the charging barrel 2 are circulated for a plurality of times through the material throwing and mixing steps, the materials in the charging barrel 2 can be uniformly mixed, and therefore the production requirement is met. The materials in the charging barrel 2 are uniformly mixed and then are conveyed to the auger conveyor 5 through the charging barrel discharge port 22, and the auger conveyor 5 conveys the materials to the material collection box 6. In the process of conveying the materials by the auger conveyor 5, the materials are further stirred and mixed by the auger conveyor 5, so that the materials are mixed more uniformly. The material inside the material collecting box 6 is conveyed to the material packaging bag through the material collecting box discharging port 61, so that the packaging process of the material is completed.

The stirring material receiving machine of this application adopts and shed the compounding mode and has replaced traditional stirring compounding mode, and the stirring material receiving machine of this application can be with material misce bene to reach the requirement of production. The stirring material collecting machine of this application can accomplish the receipts work of material automatically, raises the efficiency. And the air heater 3 carries out drying process to the inside material of feed cylinder 2, lets the inside material of feed cylinder 2 reach the dryness fraction requirement of production, satisfies the demand of production.

As shown in fig. 1, in the present embodiment, a bulk material assembly 24 is connected to the barrel 2, and the bulk material assembly 24 is located inside the barrel 2; the bulk material assembly 24 includes a connecting rod 241 and a tapered bulk material block 242, one end of the connecting rod 241 is connected to the barrel 2, the other end of the connecting rod 241 is connected to the tapered bulk material block 242, and external materials enter the inside of the barrel 2 through the barrel feed opening 21 and collide against the tapered outer surface of the tapered bulk material block 242 to be dispersed and fall into the barrel 2.

When the external material enters the inside of the material cylinder 2 through the material cylinder feed port 21, the external material collides with the tapered material scattering block 242, and the external material is scattered in different directions and finally falls to the bottom of the material cylinder 2, thereby achieving the effect of mixing the materials.

As shown in fig. 1, in the present embodiment, a plurality of second material dispersing plates 25 are connected to the cartridge 2, and the second material dispersing plates 25 are located inside the cartridge 2 and below the first material dispersing plate 123.

In actual work, the materials in the packing auger pipe 12 are scattered to the outside of the packing auger pipe 12 through the packing auger discharge holes 122, the scattered materials fall downwards under the action of gravity, the materials collide with the first material scattering plates 123 and the second material scattering plates 25 in the falling process, and the materials are scattered towards different directions and finally fall to the bottom of the charging barrel 2. This application has increased polylith second bulk cargo 25 for the inside material of feed cylinder 2 further misce bene, thereby reaches the requirement of production.

As shown in fig. 1, in this embodiment, a material baffle 124 is disposed at one end of the auger pipe 12 close to the auger driving device 13, the material baffle 124 is located inside the auger pipe 12, and the material baffle 124 is used for stopping the material conveyed by the auger blade 14 from falling to the auger discharge port 122.

In practical operation, the material baffle 124 is used for stopping the material conveyed by the auger blade 14 from falling to the auger discharge port 122, so that the material conveyed by the auger blade 14 can be smoothly scattered and mixed from the auger discharge port 122 to the outside of the auger pipe 12.

As shown in fig. 1, in this embodiment, a dust cover 112 is disposed at one end of the auger main shaft 11 close to the auger driving device 13. In actual work, the dust cover 112 can prevent materials conveyed by the auger blade 14 from entering the auger driving device 13, and ensure that the auger driving device 13 can work stably.

As shown in fig. 1, in the present embodiment, the auger spindle 11 includes a first spindle portion 113 and a second spindle portion 114 connected to the first spindle portion 113, an axial diameter of the first spindle portion 113 is smaller than an axial diameter of the second spindle portion 114, the first spindle portion 113 is located at the auger feeding port 121, and the second spindle portion 114 is in driving connection with the auger driving device 13.

In practical use, the smaller the shaft diameter of the auger main shaft 11 is, the larger the space for the auger blade 14 to accommodate the materials is, and the more the materials are conveyed by the auger blade 14. Since the space in which the auger blade 14 mounted on the first main shaft body 113 can accommodate the material becomes larger than the space in which the auger blade 14 mounted on the second main shaft body 114 can accommodate the material, the material conveying efficiency of the auger blade 14 located at the auger feed port 121 can be improved, thereby improving the material conveying efficiency of the auger main shaft 11.

As shown in fig. 1 and 2, in the present embodiment, the guide vane 111 includes a first connection portion 1111, a second connection portion 1112, and a third connection portion 1113; one end of the first connection portion 1111 is connected to the auger spindle 11, the other end of the first connection portion 1111 is connected to one end of the second connection portion 1112, and the other end of the second connection portion 1112 is connected to the third connection portion 1113; the first connection portion 1111 and the second connection portion 1112 are provided to intersect each other, and the second connection portion 1112 and the third connection portion 1113 are provided to intersect each other.

The structure design of the flow deflector 111 is reasonable, the rotating flow deflector 111 can guide the materials in the material barrel 2 into the auger feed inlet 121, and the auger blades 14 can convey the materials conveniently.

As shown in fig. 1, in this embodiment, the packing auger pipe 12 includes a packing auger pipe main body 125 and a packing auger pipe end cover 126, the packing auger pipe end cover 126 is detachably installed at one end of the packing auger pipe main body 125 far away from the packing auger feeding port 121, and the packing auger driving device 13 is installed at the packing auger pipe end cover 126 and is in driving connection with the packing auger main shaft 11.

In practical use, the packing auger pipe end cover 126 is detachably arranged on the packing auger pipe main body 125, so that the packing auger pipe 12, the packing auger main shaft 11 and the packing auger driving device 13 can be conveniently detached and installed.

All the technical features in the embodiment can be freely combined according to actual needs.

The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.

Claims

1. The utility model provides a material machine is received in stirring which characterized in that: comprises a stirring device, a charging barrel, a hot air blower, a first bracket, a packing auger conveyor, a material collecting box and a second bracket; the stirring device comprises an auger main shaft, an auger pipe, an auger driving device and a plurality of auger blades; the charging barrel is arranged on the first support and provided with a charging barrel feeding port and a charging barrel discharging port, external materials enter the charging barrel through the charging barrel feeding port, the materials in the charging barrel are conveyed to the auger conveyor through the charging barrel discharging port, and the auger conveyor is used for conveying the materials in the charging barrel to the material collecting box; the material collecting box is arranged on the second bracket and is provided with a material collecting box discharge port;

2. The stirring material receiving machine as claimed in claim 1, wherein: the feed cylinder is connected with a bulk material assembly, and the bulk material assembly is positioned inside the feed cylinder; the bulk cargo subassembly includes connecting rod and toper bulk cargo piece, and the one end of connecting rod is connected in the feed cylinder, and the other end of connecting rod is connected in toper bulk cargo piece, and external material gets into the inside of feed cylinder and collides the toper surface of toper bulk cargo piece via the feed cylinder feed inlet and scatters and fall into in the feed cylinder.

3. The stirring material receiving machine as claimed in claim 1, wherein: the feed cylinder is connected with polylith second bulk cargo board, and polylith second bulk cargo board is located the inside of feed cylinder and is located the below of first bulk cargo board.

4. The stirring material receiving machine as claimed in claim 1, wherein: one end of the auger pipe close to the auger driving device is provided with a material baffle which is positioned inside the auger pipe and used for stopping the material conveyed by the auger blades from falling to the discharge port of the auger.

5. The stirring material receiving machine as claimed in claim 1, wherein: and a dust cover is arranged at one end of the packing auger main shaft close to the packing auger driving device.

6. The stirring material receiving machine as claimed in claim 1, wherein: the auger main shaft comprises a first main shaft part and a second main shaft part connected to the first main shaft part, the shaft diameter of the first main shaft part is smaller than that of the second main shaft part, the first main shaft part is positioned at the auger feed inlet, and the second main shaft part is in driving connection with the auger driving device.

7. The stirring material receiving machine as claimed in claim 1, wherein: the flow deflector comprises a first connecting part, a second connecting part and a third connecting part; one end of the first connecting part is connected with the auger main shaft, the other end of the first connecting part is connected with one end of the second connecting part, and the other end of the second connecting part is connected with the third connecting part; the first connecting part and the second connecting part are arranged in a crossed mode, and the second connecting part and the third connecting part are arranged in a crossed mode.

8. The stirring material receiving machine as claimed in claim 1, wherein: the auger pipe comprises an auger pipe main body and an auger pipe end cover, the auger pipe end cover is detachably arranged at one end of the auger pipe main body far away from the auger feed inlet, and the auger driving device is arranged at the auger pipe end cover and is in driving connection with the auger main shaft.