CN112173568A

CN112173568A - Automatic material taking device

Info

Publication number: CN112173568A
Application number: CN201910590339.4A
Authority: CN
Inventors: 陈健; 范胜利; 郭辉
Original assignee: Beijing Chuangzhen Environmental Technology Co ltd
Current assignee: Beijing Chuangzhen Environmental Technology Co ltd
Priority date: 2019-07-02
Filing date: 2019-07-02
Publication date: 2021-01-05

Abstract

The invention relates to the technical field of material taking devices, in particular to an automatic material taking device which comprises two supporting girders, wherein the two supporting girders are provided with a translation mechanism for driving a material taking mechanism to move along the length direction of the material taking mechanism and a lifting mechanism for driving the material taking mechanism to move along the vertical direction, the material taking mechanism comprises a material taking frame, the middle part of the material taking frame is provided with a material box with an open top, the bottom of the material box is provided with a material discharging mechanism, two sides of the material taking frame are respectively and rotatably provided with a plurality of chain wheels, the outer parts of the chain wheels positioned on the same side of the material taking frame are commonly connected with a transmission chain, one of the chain wheels is connected with a driving motor through a driving shaft coaxially connected with the chain wheel, the transmission chain is wound on. The invention can conveniently and continuously take materials and improve the production efficiency.

Description

Automatic material taking device

Technical Field

The invention relates to the technical field of material taking devices, in particular to an automatic material taking device.

Background

Fermentation refers to the process by which a person produces the microbial cells themselves, or direct or secondary metabolites, by virtue of the life activities of the microorganism under aerobic or anaerobic conditions. Fermentation is sometimes also referred to as fermentation filtration, the definition of which varies depending on the application. Generally, fermentation refers to a process of decomposing organic substances by organisms.

In the process of carrying out fermentation product production, need get material fermentation raw materials, mixture, fermentation product etc. and among the prior art, lack dedicated extracting device, it is inconvenient to get the material, and efficiency is also lower, is difficult to realize getting the material fast to be unfavorable for the transportation between the material, restrict whole production efficiency.

Disclosure of Invention

The invention aims to solve the problem that the material is inconvenient to take in the prior art, and provides an automatic material taking device.

In order to achieve the purpose, the invention adopts the following technical scheme:

the design provides an automatic extracting device, includes two support girders, two be equipped with the translation mechanism that drive extracting mechanism removed along its length direction and the elevating system who removes along vertical direction on the support girder, extracting mechanism includes the work or material rest, the mid-mounting of work or material rest has the open workbin in top, the workbin bottom is equipped with discharge mechanism, the both sides of work or material rest are all rotated and are installed a plurality of sprockets, are located the outside of the sprocket of work or material rest homonymy is connected with driving chain jointly, one of them the sprocket is connected with driving motor through coaxial coupling's drive shaft with it, driving chain encircles the outside at the workbin, two be connected with a plurality of grab buckets that are parallel to each other between the driving chain.

Preferably, translation mechanism includes the guide rail that sets up along supporting girder length direction, slidable mounting has the walking frame on the guide rail, the both sides of walking frame are all rotated and are installed the guide rail wheel, the guide rail wheel slides along the guide rail surface, one of them the guide rail wheel is with the output shaft coaxial coupling of first motor, first motor fixed mounting is on the walking frame, be equipped with the elevating system that the drive frame of fetching material removed along vertical direction on the walking frame.

Preferably, the lifting mechanism comprises guide sleeves perpendicular to four corners of the walking frame, the cross sections of the guide sleeves are U-shaped, sliders are installed inside the guide sleeves in a sliding mode, the sliders are fixedly connected with one corners of the lifting frame, the lower ends of the guide sleeves are rotatably connected with one ends of hydraulic telescopic cylinders, the other ends of the hydraulic telescopic cylinders are rotatably connected with the sliders, and the material taking frame is fixed to the bottom of the lifting frame.

Preferably, the two side edges of the support girders far away from each other are vertically connected with guard rails, the first motor passes through a power line and a power module, and a protective crawler belt is covered outside the power line.

Preferably, the inner chamber of grab bucket is the triangular prism shape, the equipartition has a plurality of broken teeth of second on the outer wall of grab bucket, the tip of the broken tooth of second extends away from the open end edge of grab bucket, the equipartition has a plurality of broken teeth of first on the inner wall of grab bucket, the tip of broken tooth of first extends away from the open end edge of grab bucket.

Preferably, the outer fringe equidistance of driving chain is connected with a plurality of connecting plates, be equipped with the mounting hole on the connecting plate, the tip outer wall of grab bucket passes through the bolt and is connected with the mounting hole.

Preferably, the both sides of supporting the girder all are equipped with running gear, running gear includes the crossbeam, the both ends of crossbeam are connected with two tip verticality that support the girder respectively, the pivot is installed in the tip rotation of crossbeam, the coaxial walking wheel that is equipped with in the pivot, the walking wheel rolls along the track that perpendicular to supported girder length direction, the tip of pivot and the output shaft coaxial coupling of second motor, second motor fixed mounting is on the crossbeam.

Preferably, discharge mechanism is including establishing the discharge gate that is round platform form in the bottom of workbin, the bottom of discharge gate is equipped with the gate valve.

Preferably, the middle part of the feed box is rotatably provided with a vertically arranged stirring shaft through a rotating support, the upper end of the stirring shaft is connected with a driving mechanism for driving the stirring shaft to rotate around a self center shaft, and the stirring shaft is vertically connected with a plurality of fan-shaped stirring blades.

Preferably, the driving mechanism comprises a third motor, the third motor is mounted on the outer wall of the material box through a support, an output shaft of the third motor is coaxially connected with a driving wheel, the upper end of the stirring shaft is coaxially connected with a driving wheel, and a driving belt is connected between the driving wheel and the driving wheel.

The automatic material taking device provided by the invention has the beneficial effects that:

1. the support girder is used as the main frame, and the translation mechanism for driving the material taking mechanism to move horizontally and the lifting mechanism for lifting vertically are arranged on the support girder, so that the position of the material taking mechanism can be conveniently adjusted;

2. the material to be taken is stored through a material box arranged on the material taking frame, the material is taken through a grab bucket arranged on a transmission chain, the grab bucket continuously rotates around the material box along with the transmission chain, the grab bucket grabs the material when passing through the lower part of the material box, then the grab bucket overturns along with the transmission chain when passing through the upper part of the material box, the material in the grab bucket falls into the material box to finish the material taking at one time, and the material taking can be continuously achieved along with the circulation work of a plurality of grab buckets on the annular transmission chain;

3. along with the continuous rotation of a plurality of grab buckets, can break the hunch knot between the material, broken bold material can get the material more high-efficiently simultaneously.

Drawings

Fig. 1 is a front view of an automatic material extracting apparatus according to the present invention;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

fig. 3 is a top view of an automatic material extracting apparatus according to the present invention;

fig. 4 is an isometric view of an automatic material extracting apparatus according to the present invention;

FIG. 5 is a schematic view of the structure at B in FIG. 4;

fig. 6 is a schematic structural diagram of a bin of an automatic material taking device according to the present invention.

In the figure: the device comprises a lifting mechanism 1, a material taking mechanism 2, a traveling mechanism 3, a supporting girder 4, a protective crawler 5, a protective guard 6, a material box 7, a hydraulic telescopic cylinder 8, a guide sleeve 9, a lifting frame 10, a guide rail 11, a guide rail wheel 12, a traveling frame 13, a material taking frame 14, a first motor 15, a grab bucket 16, a rotating shaft 17, a cross beam 18, a second motor 19, a sliding block 20, a traveling wheel 21, a first crushing tooth 22, a second crushing tooth 23, a connecting plate 24, a chain wheel 25, a driving shaft 26, a third motor 27, a driving wheel 28, a driving belt 29, a rotating support 30, a stirring blade 31, a discharge port 32, a gate valve 33, a stirring shaft 34, a driving wheel 35 and a driving.

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.

Referring to fig. 1-6, an automatic material taking device comprises two supporting girders 4, wherein the two supporting girders 4 are provided with a translation mechanism for driving a material taking mechanism 2 to move along the length direction of the translation mechanism and a lifting mechanism for moving along the vertical direction, the translation mechanism comprises a guide rail 11 arranged along the length direction of the supporting girders 4, a traveling frame 13 is slidably mounted on the guide rail 11, two sides of the traveling frame 13 are rotatably provided with guide rail wheels 12, the guide rail wheels 12 slide along the surface of the guide rail 11, one of the guide rail wheels 1 is coaxially connected with an output shaft of a first motor 15, the first motor 15 is fixedly mounted on the traveling frame 13, and the traveling frame 13 is provided with the lifting mechanism for driving a material taking frame 14 to move along the vertical direction. Under the action of the first motor 15, the guide wheel 1 rolls on the surface of the guide rail 11, so that the walking frame 13 is driven to move in the horizontal direction, and the horizontal position of the material taking mechanism 2 is adjusted.

The lifting mechanism comprises guide sleeves 9 perpendicular to four corners of the walking frame 13, the cross sections of the guide sleeves 9 are U-shaped, sliding blocks 20 are installed inside the guide sleeves 9 in a sliding mode, the sliding blocks 20 are all fixedly connected with one corner of the lifting frame 10, the lower end of each guide sleeve 9 is rotatably connected with one end of a hydraulic telescopic cylinder 8, the other end of each hydraulic telescopic cylinder 8 is rotatably connected with the corresponding sliding block 20, and the material taking frame 14 is fixed at the bottom of the lifting frame 10. Under the drive of the hydraulic telescopic cylinder 8, the sliding block 20 moves up and down along the inside of the guide sleeve 9, so that the upper position and the lower position of the material taking mechanism 2 are adjusted, and the material taking position can be conveniently adjusted through the combined action of the translation mechanism and the lifting mechanism.

The material taking mechanism 2 comprises a material taking frame 14, a material box 7 with an open top is mounted in the middle of the material taking frame 14, a material discharging mechanism is arranged at the bottom of the material box 7, a plurality of chain wheels 25 are rotatably mounted on two sides of the material taking frame 14, the outside of the chain wheels 25 on the same side of the material taking frame 14 is connected with transmission chains 36 together, one chain wheel 25 is connected with a driving motor through a driving shaft 26 coaxially connected with the chain wheel 25, the transmission chains 36 surround the outside of the material box 7, and a plurality of parallel grab buckets 16 are connected between the two transmission chains 36. The support girder 4 is used as a main frame, and the translation mechanism for driving the material taking mechanism 2 to move horizontally and the lifting mechanism for lifting vertically are arranged on the support girder 4, so that the position of the material taking mechanism 2 can be conveniently adjusted; the material to be taken is stored through the material box 7 arranged on the material taking frame 14, the material is taken through the grab bucket 16 arranged on the transmission chain 36, the transmission chain 36 is driven to rotate continuously by the chain wheel 25 on the driving shaft 25 under the driving of the driving motor, the grab bucket 16 rotates around the material box 7 along with the transmission chain 36 continuously, the grab bucket 16 grabs the material when passing through the lower part of the material box 7, then the grab bucket 16 overturns along with the transmission chain 36 when passing through the upper part of the material box 7, the material in the grab bucket 16 falls into the material box 7 to finish the material taking at one time, and the material taking can be continuously achieved along with the circulation work of the grab buckets 16 on the annular transmission chain 36; along with a plurality of grab buckets 16 constantly rotate, can break the arch knot between the material, broken bold material can get the material more high-efficiently simultaneously.

The guard rail 6 is vertically connected to one side edge of each of the two support girders 4, which is far away from each other, the first motor 15 is provided with a protection crawler 5 through a power line and a power module, and the outside of the power line is covered with the protection crawler.

The outer edge of the transmission chain 36 is connected with a plurality of connecting plates 24 at equal intervals, mounting holes are formed in the connecting plates 24, and the outer wall of the end part of the grab bucket 16 is connected with the mounting holes through bolts. The inner chamber of grab bucket 16 is the triangular prism shape, and the equipartition has a plurality of broken teeth 23 of second on the outer wall of grab bucket 16, and the tip of the broken tooth 23 of second extends away from the open end edge of grab bucket 16, and the equipartition has a plurality of broken teeth 22 on the inner wall of grab bucket 16, and the tip of broken tooth 22 extends away from the open end edge of grab bucket 16. The material to be taken is conveniently crushed through first broken tooth 22 and second broken tooth 23, can get the material more fast, prevents the material caking.

The two sides of the supporting girders 4 are provided with the traveling mechanisms 3, each traveling mechanism 3 comprises a cross beam 18, the two ends of each cross beam 18 are respectively and vertically connected with the end parts of the two supporting girders 4, the end part of each cross beam 18 is rotatably provided with a rotating shaft 17, traveling wheels 21 are coaxially arranged on the rotating shafts 17, the traveling wheels 21 roll along a track vertical to the length direction of the supporting girders 4, the end parts of the rotating shafts 17 are coaxially connected with an output shaft of a second motor 19, and the second motor 19 is fixedly arranged on the cross beams 18. Under the drive of the second motor 19, the travelling wheels 21 roll along a track perpendicular to the length direction of the support girder 4, so that the horizontal longitudinal position of the material taking mechanism 2 is adjusted.

The discharging mechanism comprises a circular truncated cone-shaped discharging port 32 arranged at the bottom of the feed box 7, and a gate valve 33 is arranged at the bottom of the discharging port 32. The middle part of the feed box 7 is rotatably provided with a vertically arranged stirring shaft 34 through a rotating bracket 30, the upper end of the stirring shaft 34 is connected with a driving mechanism for driving the stirring shaft to rotate around the central axis of the stirring shaft 34, and the stirring shaft 34 is vertically connected with a plurality of fan-shaped stirring blades 31. Under actuating mechanism's effect, the (mixing) shaft drives stirring vane 31 rotatory, prevents that the material from condensing the card material, can carry out the blowing from discharge gate 32 through opening gate valve 33.

The driving mechanism comprises a third motor 27, the third motor 27 is arranged on the outer wall of the material box 7 through a support, an output shaft of the third motor 27 is coaxially connected with a driving wheel 28, the upper end of the stirring shaft 34 is coaxially connected with a driving wheel 35, and a driving belt 29 is connected between the driving wheel 35 and the driving wheel 28. The third motor 27 drives the stirring shaft 34 to rotate through the transmission of the driving wheel 28 and the transmission 25.

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

Claims

1. An automatic material taking device comprises two supporting girders (4), and is characterized in that the two supporting girders (4) are provided with a translation mechanism for driving a material taking mechanism (2) to move along the length direction of the material taking mechanism and a lifting mechanism for driving the material taking mechanism to move along the vertical direction, the material taking mechanism (2) comprises a material taking frame (14), a material box (7) with an open top is arranged in the middle of the material taking frame (14), a discharging mechanism is arranged at the bottom of the material box (7), a plurality of chain wheels (25) are rotatably arranged on both sides of the material taking frame (14), a transmission chain (36) is connected with the outer parts of the chain wheels (25) positioned on the same side of the material taking frame (14) together, one of the chain wheels (25) is connected with a driving motor through a driving shaft (26) coaxially connected with the chain wheel, the transmission chains (36) encircle the outside of the material box (7), and a plurality of parallel grab buckets (16) are connected between the two transmission chains (36).

2. The automatic material taking device according to claim 1, wherein the translation mechanism comprises a guide rail (11) arranged along the length direction of the support girder (4), a traveling frame (13) is slidably mounted on the guide rail (11), guide rail wheels (12) are rotatably mounted on both sides of the traveling frame (13), the guide rail wheels (12) slide along the surface of the guide rail (11), one of the guide rail wheels (12) is coaxially connected with an output shaft of a first motor (15), the first motor (15) is fixedly mounted on the traveling frame (13), and a lifting mechanism for driving the material taking frame (14) to move in the vertical direction is arranged on the traveling frame (13).

3. The automatic material taking device according to claim 2, wherein the lifting mechanism comprises guide sleeves (9) which are perpendicular to four corners of a walking frame (13), the cross section of each guide sleeve (9) is U-shaped, sliders (20) are slidably mounted inside each guide sleeve (9), the sliders (20) are fixedly connected with one corner of the lifting frame (10), the lower end of each guide sleeve (9) is rotatably connected with one end of a hydraulic telescopic cylinder (8), the other end of each hydraulic telescopic cylinder (8) is rotatably connected with the slider (20), and the material taking frame (14) is fixed at the bottom of the lifting frame (10).

4. The automatic material taking device according to claim 2, wherein a protective guard (6) is vertically connected to one side edge of each of the two support crossbeams (4) which are far away from each other, the first motor (15) is connected with a power supply module through a power line, and a protective crawler (5) is covered on the outer portion of the power line.

5. The automatic material taking device according to claim 1, wherein the inner cavity of the grab bucket (16) is in a triangular prism shape, a plurality of second crushing teeth (23) are uniformly distributed on the outer wall of the grab bucket (16), the end parts of the second crushing teeth (23) extend out from the edge of the open end of the grab bucket (16), a plurality of first crushing teeth (22) are uniformly distributed on the inner wall of the grab bucket (16), and the end parts of the first crushing teeth (22) extend out from the edge of the open end of the grab bucket (16).

6. The automatic material taking device according to claim 1, wherein a plurality of connecting plates (24) are connected to the outer edge of the transmission chain (36) at equal intervals, mounting holes are formed in the connecting plates (24), and the outer wall of the end part of the grab bucket (16) is connected with the mounting holes through bolts.

7. The automatic reclaiming device according to claim 1, wherein traveling mechanisms (3) are arranged on both sides of the supporting beams (4), each traveling mechanism (3) comprises a cross beam (18), both ends of each cross beam (18) are respectively and vertically connected with the ends of the two supporting beams (4), a rotating shaft (17) is rotatably arranged at the end of each cross beam (18), traveling wheels (21) are coaxially arranged on the rotating shaft (17), the traveling wheels (21) roll along a track vertical to the length direction of the supporting beams (4), the end of each rotating shaft (17) is coaxially connected with an output shaft of a second motor (19), and the second motors (19) are fixedly arranged on the cross beams (18).

8. The automatic material taking device according to claim 1, wherein the material taking mechanism comprises a circular truncated cone-shaped material outlet (32) arranged at the bottom of the material box (7), and a gate valve (33) is arranged at the bottom of the material outlet (32).

9. The automatic material taking device according to claim 1, wherein a vertically arranged stirring shaft (34) is rotatably installed in the middle of the material box (7) through a rotating support (30), the upper end of the stirring shaft (34) is connected with a driving mechanism for driving the stirring shaft to rotate around a central axis of the stirring shaft (34), and a plurality of fan-shaped stirring blades (31) are vertically connected to the stirring shaft (34).

10. The automatic material taking device according to claim 9, wherein the driving mechanism comprises a third motor (27), the third motor (27) is mounted on the outer wall of the material box (7) through a bracket, an output shaft of the third motor (27) is coaxially connected with a driving wheel (28), the upper end of the stirring shaft (34) is coaxially connected with a driving wheel (35), and a driving belt (29) is connected between the driving wheel (35) and the driving wheel (28).