CN112374183A

CN112374183A - Intelligent feeding equipment for production workshop

Info

Publication number: CN112374183A
Application number: CN202011218979.1A
Authority: CN
Inventors: 吴禹凡; 高洪庆
Original assignee: Taicang Lianke Industrial Design Co ltd
Current assignee: LINYI ZHUXIN MACHINERY Co.,Ltd.
Priority date: 2020-11-04
Filing date: 2020-11-04
Publication date: 2021-02-19
Anticipated expiration: 2040-11-04
Also published as: CN112374183B

Abstract

The invention relates to the technical field of mechanical equipment, in particular to intelligent feeding equipment for a production workshop, which can effectively simplify a raw material feeding mode, shorten feeding time, save physical strength of workers and improve working efficiency by carrying out automatic cyclic feeding treatment on production raw materials; including mounting bracket and fixed station, the fixed station is installed on the right side of mounting bracket, and the top of fixed station is provided with first ring rail, and the first ring rail goes up the uniform slip and is provided with the first slider of multiunit, and the top of first ring rail is provided with first solid fixed ring, and the bottom of first solid fixed ring is installed on the first slider of multiunit.

Description

Intelligent feeding equipment for production workshop

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to intelligent feeding equipment for a production workshop.

Background

As is known, in fields such as food processing, medicine, chemical industry, its raw materials for production are graininess or powdered usually, workshop appliance is when carrying out normal production, need add in the equipment with graininess or powdered raw materials, thereby accomplish the material loading work, the current material loading formula is the raw materials of regulation weight are weighed to the workman usually, then pour the raw materials into in the equipment, artifical material loading formula is comparatively loaded down with trivial details, the raw materials is weighed work and is spent longer, workman's physical demands is great, work efficiency is lower, the precision of the raw materials is weighed to the manual work simultaneously is lower, the material loading volume of raw materials at every turn can't keep unanimously, product quality uniformity is relatively poor.

Disclosure of Invention

In order to solve the technical problems, the invention provides the intelligent feeding equipment for the production workshop, which can effectively simplify the feeding mode of raw materials, shorten the feeding time, save the physical strength of workers, improve the working efficiency, automatically weigh the raw materials, effectively improve the weighing precision, save the physical strength of manual weighing, conveniently keep the feeding amount of the raw materials consistent every time, improve the processing quality of products and improve the practicability and reliability by carrying out automatic cyclic feeding treatment on the production raw materials.

The invention relates to intelligent feeding equipment for a production workshop, which comprises a mounting rack and a fixed platform, wherein the fixed platform is arranged on the right side of the mounting rack, a first annular guide rail is arranged at the top of the fixed platform, a plurality of groups of first slide blocks are uniformly and slidably arranged on the first annular guide rail, a first fixing ring is arranged above the first annular guide rail, the bottom of the first fixing ring is arranged on the plurality of groups of first slide blocks, a rotating platform is arranged at the top of the first fixing ring, a power disc is arranged in the middle of the bottom end of the rotating platform, six groups of power grooves are uniformly communicated and arranged on the side wall of the power disc, a first motor and a speed reducer are arranged on the inner side of the first annular guide rail, the first motor and the speed reducer are both arranged on the fixed platform and are mutually connected in a transmission manner, first rotating shafts are both arranged on the front side and the rear side of the speed reducer, first bevel, the bottoms of two groups of first fixing frames are respectively arranged on a fixing table, the outer ends of two groups of first rotating shafts are respectively rotatably arranged on two groups of first fixing frames, the upper sides of the two groups of first fixing frames are respectively rotatably provided with a second rotating shaft, the bottoms of the two groups of second rotating shafts are respectively provided with a second bevel gear, the two groups of second bevel gears are respectively meshed with the two groups of first bevel gears, the tops of the two groups of second rotating shafts are respectively provided with a rotating column, the two groups of rotating columns are respectively provided with a pushing plate, the positions of the two groups of pushing plates are corresponding to the positions of six groups of power slots on a power disc, the positions of the two groups of pushing columns are corresponding to the positions of the six groups of power slots, the side wall of the rotating table is uniformly communicated with six groups of fixing slots, the positions of the six groups of fixing slots are respectively corresponding to the positions of the six groups of, the lower side of each group of material guiding bins is set to be conical, two groups of linear guide rails are vertically arranged on the rear side wall of each group of material guiding bins, the rear side of each group of linear guide rails is provided with a second sliding block in a sliding manner, the rear side of each group of second sliding blocks is arranged on the rear side of the inner wall of each group of fixed slots at the corresponding position, the left lower side and the right lower side of the outer wall of each group of material guiding bins are provided with second fixed frames, each group of second fixed frames is provided with a tension meter, each group of tension meters is provided with a spring, the top of each group of springs is provided with a third fixed frame, the outer side of each group of third fixed frames is arranged at the top of a rotating table, the top of each group of material guiding bins is communicated with a feeding hopper, the bottom of each group of material guiding bins is communicated with a first material discharging pipe, each group of first material discharging, the top of the negative pressure suction device is mounted at the top of the mounting frame, the lower side of the storage bin is conical, the bottom of the storage bin is communicated with a second discharge pipe, the bottom of the second discharge pipe corresponds to the top of a feed hopper on the left material guide bin, a second electromagnetic valve is arranged on the second discharge pipe, a central control box is arranged on the left front side wall of the mounting frame, and the central control box is electrically connected with the first motor, each group of tension meters, each group of first electromagnetic valves and the second electromagnetic valves; the negative pressure suction device sucks granular or powdery raw materials in an external skip car into the storage bin for storage, the central control box controls the second electromagnetic valve to be opened, the raw materials stored in the storage bin flow into the left side guide bin through the second discharge pipe and the left side feed hopper, the raw materials are gradually increased in the left side guide bin, the weight of the left side guide bin is gradually increased, the left side guide bin pulls the two groups of springs to move downwards through the two groups of second fixing frames and the two groups of tension meters on the left side guide bin, the two groups of springs generate elastic deformation, the two groups of tension meters respectively detect the tension values of the two groups of springs in real time and transmit the detected values to the central control box, the central control box monitors the introduction amount of the raw materials in the left side guide bin in real time according to the two groups of detected values, meanwhile, the moving left side guide bin drives the two groups of linear guide rails on the left side guide bin to respectively slide on the two groups of second slide blocks, and when, the central control box controls to close the second electromagnetic valve, the second discharge pipe stops discharging, the central control box controls to open the first motor, the first motor drives two groups of first rotating shafts and two groups of first bevel gears to rotate through the reducer, the two groups of first bevel gears are respectively engaged with the two groups of second bevel gears, the two groups of first bevel gears respectively drive the two groups of second rotating shafts to rotate through the two groups of second bevel gears, the two groups of first fixing frames respectively support the two groups of second rotating shafts, the two groups of second rotating shafts respectively drive the two groups of pushing plates to rotate through the two groups of rotating columns, the rotating directions of the two groups of pushing plates are the same, the two groups of pushing plates respectively drive the two groups of pushing columns to rotate in an annular eccentric mode, the two groups of pushing columns respectively enter the two groups of power grooves at the corresponding positions simultaneously, and the two groups of pushing columns entering the two groups of power grooves push the power disc through the, thereby the power disc rotates, the power disc drives the rotating platform to rotate, the rotating platform drives a plurality of groups of first slide blocks to slide on a first annular guide rail through a first fixing ring, simultaneously the rotating platform in a rotating state drives the material guide bins to rotate through two groups of linear guide rails and two groups of second slide blocks on each group of material guide bins, thereby six groups of material guide bins synchronously rotate, the material guide bin with the charging completed on the left side rotates, the next group of material guide bin rotates to the bottom of a second discharging pipe and corresponds to the position of the second discharging pipe, at the moment, two groups of pushing columns eccentrically rotate to the outer sides of two groups of power grooves at corresponding positions and are separated from two groups of power grooves, the power received by the power disc disappears, the power disc stops rotating, the central control box controls to open a second electromagnetic valve, the raw materials in the material storage bin are added into the material guide bin below the second discharging pipe through the second discharging pipe again, the first motor continuously rotates, when the two groups of pushing columns rotate to the initial positions again and respectively enter the next group of power grooves at corresponding positions, the raw materials in the left material guide bin are added to a specified amount, the central control box controls the second electromagnetic valve to be closed, the two groups of pushing columns drive the power disc and the rotating table to rotate through the two groups of power grooves, the left material guide bin rotates along with the rotating table, so that intermittent circulating material adding treatment is carried out on the six groups of material guide bins, when the material guide bin filled with the raw materials moves to the right side of the rotating table, the two groups of pushing columns are separated from the two groups of power grooves on the power disc, the power disc stops rotating, the right material guide bin stops moving, the central control box controls the first electromagnetic valve at the bottom of the right material guide bin to be opened, the raw materials in the right material guide bin are discharged into external processing equipment through the first discharge pipe on the right material guide bin, and after the discharge of the raw materials in the material guide bin is finished, the central, two sets of promotion posts turn around again in the power dish and drive the power dish and rotate, next a set of guide storehouse that is equipped with the raw materials removes to the right side of rotating the platform and repeats and carries out the material loading to external processing equipment, thereby carry out the automatic cycle material loading processing to external processing equipment, after the raw materials discharge in every group guide storehouse is accomplished, the spring on every group guide storehouse resumes to initial condition, through carrying out the automatic cycle material loading processing with the raw materials for production, can effectively simplify raw materials material loading formula, shorten the material loading time, save workman's physical power, improve work efficiency, the automatic title of raw materials simultaneously, effectively improve the precision of title, save the manual power of title, conveniently make the material loading volume of raw materials at every turn keep unanimous, improve product processingquality, conveniently make product quality keep unanimous, improve practicality and reliability.

The invention relates to intelligent feeding equipment for a production workshop, wherein a negative pressure suction device comprises a separation barrel, a suction pipe, a sieve plate, an air guide bin and a second motor, the bottom of the separation barrel is arranged at the top of a storage bin and communicated with the interior of the storage bin, the top of the separation barrel penetrates through the upper side of the mounting frame and extends to the upper side of the mounting frame, the right output end of the suction pipe penetrates through the mounting frame and is arranged at the left side of the separation barrel, the left input end of the suction pipe extends into raw materials in an external skip car, the sieve plate is arranged on the inner wall of the separation barrel and is higher than the right output end of the suction pipe, a plurality of groups of air holes are uniformly communicated on the upper side of the outer wall of the separation barrel and are all positioned above the mounting frame, the air guide bin is sleeved on the outer side of the upper part of the separation barrel, the bottom of the air guide bin is arranged at the top of the, the top of the air guide bin is inserted and rotated to be provided with a rotating sleeve, a third rotating shaft is rotatably sleeved in the rotating sleeve, the top of the third rotating shaft extends to the upper part of the rotating sleeve, the bottom of the third rotating shaft penetrates through the bottom of the rotating sleeve and is rotatably installed at the top of the separation barrel, a fourth bevel gear and a fifth bevel gear are respectively arranged on the upper side of the outer wall of the rotating sleeve and the top of the third rotating shaft, the directions of the fourth bevel gear and the fifth bevel gear are opposite, the left side of the fourth bevel gear and the left side of the fifth bevel gear are respectively meshed with the bottom and the top of the third bevel gear, a plurality of groups of blades are uniformly and obliquely arranged on the outer wall of the rotating sleeve in the air guide bin and the outer wall of the third rotating shaft, the oblique directions of the plurality of groups of blades on the rotating sleeve are opposite to the oblique directions of the plurality of blades on the third rotating, the left side of the bottom of the inner wall of the storage bin is provided with a pressure gauge, the top of the pressure gauge is obliquely provided with a pressure plate, the oblique direction of the pressure plate is the same as that of the left side wall of the bottom of the storage bin, and the second motor and the pressure gauge are both electrically connected with the central control box; the raw materials in the storage bin are pressed by a pressure plate, the pressure gauge detects the pressure of the raw materials in the storage bin on the pressure gauge in real time, so that the storage quantity of the raw materials in the storage bin is detected and signals are transmitted into a central control box, when the storage quantity of the raw materials in the storage bin is reduced to a specified value, the central control box controls a closing device, the central control box controls a second motor to be opened, the second motor drives a fourth bevel gear and a fifth bevel gear to rotate through a third bevel gear, the fourth bevel gear and the fifth bevel gear rotate in opposite directions, the fourth bevel gear and the fifth bevel gear drive a plurality of groups of fan blades to rotate through a rotating sleeve and a third rotating shaft respectively, the air on the lower side inside the air guide bin is pushed upwards by the plurality of groups of fan blades in a rotating state and is discharged to the outside through an air collecting hopper and an exhaust pipe, negative pressure is formed on the lower side inside the air guide bin, and the air guide bin enables the suction, inhale the raw materials of material pipe in with external skip and inhale to the separator vat in, the air in the separator vat passes the sieve and gets into inside the separator vat and get into the air guide storehouse through the multiunit gas pocket in, the sieve intercepts the raw materials in the separator vat, the raw materials falls into in the storage silo naturally, thereby supply raw materials in the storage silo, inhale the material device through setting up the negative pressure, can conveniently supply raw materials in the storage silo, save manual work and the time of adding the raw materials in to the storage silo, the simplified operation mode, the degree of automation is improved, and the practicability and the reliability are improved.

The invention relates to intelligent feeding equipment for a production workshop, which further comprises a first straight gear, a second straight gear, a fourth rotating shaft, a third straight gear, a fourth straight gear, a fifth rotating shaft and a spiral material pushing plate, wherein the first straight gear is arranged on the lower side of the third rotating shaft, the second straight gear is positioned on the right side of the first straight gear and is meshed with the first straight gear, the top of the fourth rotating shaft is arranged at the bottom of the second straight gear, the top of the fourth rotating shaft penetrates through the top of a separation barrel and is rotatably arranged on a sieve plate, the fourth rotating shaft is rotatably connected with the separation barrel, the third straight gear is arranged on the lower side of the fourth rotating shaft, the fourth straight gear is positioned on the left side of the third straight gear and is meshed with the third straight gear, the fourth straight gear is positioned above the middle part of the sieve plate, the top of the fifth rotating shaft is arranged at the bottom of the fourth straight gear, the bottom of the fifth rotating shaft penetrates through the sieve plate and, the fifth rotating shaft is rotatably connected with the sieve plate, the spiral pushing plate is positioned at the lower side of the sieve plate, the spiral pushing plate is arranged on the outer wall of the fifth rotating shaft, the top and the side wall of the spiral pushing plate are respectively in contact with the bottom of the sieve plate and the inner wall of the separation barrel and slide relatively, the tooth number of the first straight gear and the tooth number of the third straight gear are both less than that of the second straight gear, and the tooth number of the fourth straight gear is more than that of the third straight gear; when the third pivot rotated, the third pivot was through first straight-toothed gear, the second straight-toothed gear, the fourth pivot, third straight-toothed gear and fourth straight-toothed gear drive fifth pivot and spiral scraping wings rotated, and spiral scraping wings can carry out the promotion downwards to the raw materials in the separator vat to conveniently make in the raw materials gets into the storage silo in the separator vat, spiral scraping wings can strike off the raw materials that adsorbs on sieve bottom and separator vat inner wall simultaneously, thereby prevent that the raw materials from causing the jam to the sieve, improve practicality and reliability.

The intelligent feeding equipment for the production workshop further comprises an inner gear ring, a fifth straight gear, a sixth rotating shaft and a third motor, wherein the inner gear ring is arranged on the lower side of the inner wall of the first fixing ring, the fifth straight gear is positioned on the inner side of the inner gear ring, the left side of the fifth straight gear is meshed with the left side of the inner wall of the inner gear ring, the sixth rotating shaft is arranged at the bottom of the fifth straight gear, the output end of the upper side of the third motor is connected with the bottom of the sixth rotating shaft, the bottom of the third motor is arranged on a fixing table, and the third motor is electrically connected with a central control box; when first solid fixed ring rotates, first solid fixed ring drives the interior ring gear and rotates, interior ring gear and fifth straight-tooth gear meshing, interior ring gear drives the rotation of fifth straight-tooth gear, the fifth straight-tooth gear drives the rotation of third motor through the sixth pivot, well accuse case can detect the state of third motor, when the operation of third motor, the revolving stage is in the rotating-state, first solenoid valve and the second solenoid valve on the six groups of guide storehouses are in the closed condition, when the third motor is in the state of stewing, the revolving stage is in the state of stewing, through setting up interior ring gear, fifth straight-tooth gear, sixth pivot and third motor, can conveniently carry out real-time supervision to the state of revolving stage, from conveniently controlling six groups of first solenoid valve and second solenoid valve, practicality and reliability are improved.

The intelligent feeding equipment for the production workshop further comprises a second annular guide rail, a second fixing ring and a sheath, wherein the second annular guide rail is arranged on the lower side of the outer wall of the first fixing ring, a plurality of groups of third sliding blocks are uniformly arranged on the outer side of the second annular guide rail in a sliding manner, the second fixing ring is positioned on the outer side of the second annular guide rail, the outer walls of the plurality of groups of third sliding blocks are uniformly arranged on the inner wall of the second fixing ring, the sheath is buckled on the outer side of the upper part of the second fixing ring, and the upper side of the inner wall of the sheath is fixed on; when first solid fixed ring rotates, first solid fixed ring drives second annular guide rail and slides on multiunit third slider, first solid fixed ring drives the sheath simultaneously and rotates, through setting up second annular guide rail, multiunit third slider, solid fixed ring of second and sheath, can conveniently carry out the secondary support to the revolving stage, improve first solid fixed ring's fastness, thereby improve the stability of revolving stage, can keep apart the protection processing to the equipment between revolving stage and the fixed station simultaneously, prevent that external impurity and object from getting into in the equipment and causing the destruction to it, practicality and security are improved.

The intelligent feeding equipment for the production workshop further comprises a fourth fixing frame and a rubber damping block, wherein the fourth fixing frame is arranged on the right side of the second fixing ring, the rubber damping block is arranged at the top of the fourth fixing frame, and the top of the rubber damping block is in contact with the bottom of the rotating table; when the rotating table rotates, the bottom of the rotating table rubs on the rubber damping block and generates relative sliding, damping processing can be conveniently carried out on the rotating table by arranging the fourth fixing frame and the rubber damping block, the rotating table is prevented from rotating randomly due to inertia force, the accuracy of the moving positions of the six groups of material guide bins is improved, and the practicability is improved.

The intelligent feeding equipment for the production workshop further comprises a support frame, wherein the upper side of the support frame is fixed on the left side of the exhaust pipe, and the lower side of the support frame is installed on the left side of the second motor; through setting up the support frame, can conveniently support the blast pipe, prevent when equipment operation, the blast pipe shakes at will, improves the practicality.

According to the intelligent feeding device for the production workshop, the top and the bottom of each group of linear guide rails are provided with the limiting plates; when the linear guide moves, the linear guide can drive two sets of limiting plates on the linear guide to be respectively contacted with the top and the bottom of the second slider, and the limiting plates are arranged, so that the up-and-down moving position of the linear guide can be conveniently limited, the linear guide and the second slider are prevented from generating thrust, and meanwhile, the moving position of the material guide bin can be limited, and the practicability and the reliability are improved.

Compared with the prior art, the invention has the beneficial effects that: the negative pressure suction device sucks granular or powdery raw materials in an external skip car into the storage bin for storage, the central control box controls the second electromagnetic valve to be opened, the raw materials stored in the storage bin flow into the left side guide bin through the second discharge pipe and the left side feed hopper, the raw materials are gradually increased in the left side guide bin, the weight of the left side guide bin is gradually increased, the left side guide bin pulls the two groups of springs to move downwards through the two groups of second fixing frames and the two groups of tension meters on the left side guide bin, the two groups of springs generate elastic deformation, the two groups of tension meters respectively detect the tension values of the two groups of springs in real time and transmit the detected values to the central control box, the central control box monitors the introduction amount of the raw materials in the left side guide bin in real time according to the two groups of detected values, meanwhile, the moving left side guide bin drives the two groups of linear guide rails on the left side guide bin to respectively slide on the two groups of second slide blocks, and when, the central control box controls to close the second electromagnetic valve, the second discharge pipe stops discharging, the central control box controls to open the first motor, the first motor drives two groups of first rotating shafts and two groups of first bevel gears to rotate through the reducer, the two groups of first bevel gears are respectively engaged with the two groups of second bevel gears, the two groups of first bevel gears respectively drive the two groups of second rotating shafts to rotate through the two groups of second bevel gears, the two groups of first fixing frames respectively support the two groups of second rotating shafts, the two groups of second rotating shafts respectively drive the two groups of pushing plates to rotate through the two groups of rotating columns, the rotating directions of the two groups of pushing plates are the same, the two groups of pushing plates respectively drive the two groups of pushing columns to rotate in an annular eccentric mode, the two groups of pushing columns respectively enter the two groups of power grooves at the corresponding positions simultaneously, and the two groups of pushing columns entering the two groups of power grooves push the power disc through the, thereby the power disc rotates, the power disc drives the rotating platform to rotate, the rotating platform drives a plurality of groups of first slide blocks to slide on a first annular guide rail through a first fixing ring, simultaneously the rotating platform in a rotating state drives the material guide bins to rotate through two groups of linear guide rails and two groups of second slide blocks on each group of material guide bins, thereby six groups of material guide bins synchronously rotate, the material guide bin with the charging completed on the left side rotates, the next group of material guide bin rotates to the bottom of a second discharging pipe and corresponds to the position of the second discharging pipe, at the moment, two groups of pushing columns eccentrically rotate to the outer sides of two groups of power grooves at corresponding positions and are separated from two groups of power grooves, the power received by the power disc disappears, the power disc stops rotating, the central control box controls to open a second electromagnetic valve, the raw materials in the material storage bin are added into the material guide bin below the second discharging pipe through the second discharging pipe again, the first motor continuously rotates, when the two groups of pushing columns rotate to the initial positions again and respectively enter the next group of power grooves at corresponding positions, the raw materials in the left material guide bin are added to a specified amount, the central control box controls the second electromagnetic valve to be closed, the two groups of pushing columns drive the power disc and the rotating table to rotate through the two groups of power grooves, the left material guide bin rotates along with the rotating table, so that intermittent circulating material adding treatment is carried out on the six groups of material guide bins, when the material guide bin filled with the raw materials moves to the right side of the rotating table, the two groups of pushing columns are separated from the two groups of power grooves on the power disc, the power disc stops rotating, the right material guide bin stops moving, the central control box controls the first electromagnetic valve at the bottom of the right material guide bin to be opened, the raw materials in the right material guide bin are discharged into external processing equipment through the first discharge pipe on the right material guide bin, and after the discharge of the raw materials in the material guide bin is finished, the central, two sets of promotion posts turn around again in the power dish and drive the power dish and rotate, next a set of guide storehouse that is equipped with the raw materials removes to the right side of rotating the platform and repeats and carries out the material loading to external processing equipment, thereby carry out the automatic cycle material loading processing to external processing equipment, after the raw materials discharge in every group guide storehouse is accomplished, the spring on every group guide storehouse resumes to initial condition, through carrying out the automatic cycle material loading processing with the raw materials for production, can effectively simplify raw materials material loading formula, shorten the material loading time, save workman's physical power, improve work efficiency, the automatic title of raw materials simultaneously, effectively improve the precision of title, save the manual power of title, conveniently make the material loading volume of raw materials at every turn keep unanimous, improve product processingquality, conveniently make product quality keep unanimous, improve practicality and reliability.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top right perspective view of the mount of FIG. 1;

FIG. 3 is a schematic view of the second retainer ring of FIG. 1 in a top right perspective;

FIG. 4 is a schematic view of the second retainer ring of FIG. 1 from the right side;

FIG. 5 is an enlarged schematic view of the first motor of FIG. 3;

FIG. 6 is an enlarged view of the gas conducting chamber of FIG. 3;

FIG. 7 is an enlarged view of the second spur gear of FIG. 6;

FIG. 8 is an enlarged schematic view of the platen of FIG. 3;

FIG. 9 is an enlarged view of the first motor of FIG. 4;

fig. 10 is an enlarged structure view of the material guiding cabin in fig. 2;

FIG. 11 is a schematic bottom view of the power disc of FIG. 9;

in the drawings, the reference numbers: 1. a mounting frame; 2. a fixed table; 3. a first endless guide rail; 4. a first slider; 5. a first retaining ring; 6. a rotating table; 7. a power disc; 8. a first motor; 9. a speed reducer; 10. a first rotating shaft; 11. a first bevel gear; 12. a first fixing frame; 13. a second rotating shaft; 14. a second bevel gear; 15. rotating the column; 16. a push plate; 17. pushing the column; 18. fixing grooves; 19. a material guiding bin; 20. a linear guide rail; 21. a second slider; 22. a second fixing frame; 23. a tension meter; 24. a spring; 25. a third fixing frame; 26. a feed hopper; 27. a first discharging pipe; 28. a first solenoid valve; 29. a storage bin; 30. a second discharge pipe; 31. a second solenoid valve; 32. a separation barrel; 33. a material suction pipe; 34. a sieve plate; 35. air holes; 36. a gas guiding bin; 37. a second motor; 38. a third bevel gear; 39. rotating the sleeve; 40. a third rotating shaft; 41. a fourth bevel gear; 42. a fifth bevel gear; 43. a fan blade; 44. a gas collecting hopper; 45. an exhaust pipe; 46. a pressure gauge; 47. pressing a plate; 48. a first straight gear; 49. a second spur gear; 50. a fourth rotating shaft; 51. a third spur gear; 52. a fourth spur gear; 53. a fifth rotating shaft; 54. a spiral pusher plate; 55. an inner gear ring; 56. a fifth spur gear; 57. a sixth rotating shaft; 58. a third motor; 59. a second annular guide rail; 60. a third slider; 61. a second retaining ring; 62. a sheath; 63. a fourth fixing frame; 64. a rubber damping block; 65. a support frame; 66. a limiting plate; 67. and a central control box.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

As shown in fig. 1 to 11, in the intelligent feeding device for a production workshop of the present invention, when in operation, a negative pressure suction device sucks granular or powdery raw materials in an external skip car into a storage bin 29 for storage, a central control box 67 controls a second electromagnetic valve 31 to open, the raw materials stored in the storage bin 29 flow into a left side feed bin 19 through a second discharge pipe 30 and a left side feed bin 26, the raw materials are gradually increased in the left side feed bin 19, the weight of the left side feed bin 19 is gradually increased, the left side feed bin 19 pulls two sets of springs 24 to move downwards through two sets of second fixing frames 22 and two sets of tension meters 23 on the left side feed bin, the two sets of springs 24 generate elastic deformation, the two sets of tension meters 23 respectively detect tension values of the two sets of springs 24 in real time and transmit the detected values to the central control box 67, the central control box 67 monitors the raw material introduction amount in the left side feed bin 19 in real time according to the two sets of detected values, meanwhile, the moving left side bin 19 drives two groups of linear guide rails 20 on the moving left side bin 19 to respectively slide on two groups of second slide blocks 21, when the central control box 67 detects that the weight of the raw materials in the left side bin 19 reaches a specified value, the central control box 67 controls to close the second electromagnetic valve 31, the second discharge pipe 30 stops discharging, the central control box 67 controls to open the first motor 8, the first motor 8 drives two groups of first rotating shafts 10 and two groups of first bevel gears 11 to rotate through a speed reducer 9, the two groups of first bevel gears 11 are respectively engaged with two groups of second bevel gears 14, the two groups of first bevel gears 11 respectively drive two groups of second rotating shafts 13 to rotate through two groups of second bevel gears 14, the two groups of first fixing frames 12 respectively support the two groups of second rotating shafts 13, the two groups of second rotating shafts 13 respectively drive two groups of pushing plates 16 to rotate through two groups of rotating columns 15, the rotating directions of, two groups of pushing plates 16 respectively drive two groups of pushing columns 17 to perform annular eccentric rotation, the two groups of pushing columns 17 respectively enter two groups of power grooves at corresponding positions simultaneously, because the two groups of pushing columns 17 perform synchronous annular eccentric rotation, the two groups of pushing columns 17 entering the two groups of power grooves push the power disc 7 through the side walls of the two groups of power grooves, so that the power disc 7 rotates, the power disc 7 drives the rotating platform 6 to rotate, the rotating platform 6 drives a plurality of groups of first sliding blocks 4 to slide on the first annular guide rail 3 through the first fixing ring 5, meanwhile, the rotating platform 6 in a rotating state drives the material guiding bins 19 to rotate through two groups of linear guide rails 20 and two groups of second sliding blocks 21 on each material guiding bin 19, so that six groups of material guiding bins 19 synchronously rotate, the material guiding bin 19 with the left-side loaded material is rotated, the next group of material guiding bins 19 rotates to the bottom of the second material discharging pipe 30 and corresponds to the position of the second material discharging pipe 30, at this time, the two groups of pushing columns 17 eccentrically rotate to the outer sides of the two groups of power slots at the corresponding positions and are separated from the two groups of power slots, the power received by the power disc 7 disappears, the power disc 7 stops rotating, the central control box 67 controls to open the second electromagnetic valve 31, the raw materials in the storage bin 29 are added into the guide bin 19 below the second discharge pipe 30 through the second discharge pipe 30 again, the first motor 8 continuously rotates, when the two groups of pushing columns 17 rotate to the initial position again and respectively enter the power slots at the next group of corresponding positions, the raw materials in the guide bin 19 at the left side are added to a specified amount, the central control box 67 controls to close the second electromagnetic valve 31, the two groups of pushing columns 17 drive the power disc 7 and the rotating table 6 to rotate through the two groups of power slots, the guide bin 19 at the left side rotates along with the rotating table 6, so as to perform intermittent circulating feeding treatment on the six groups of guide bins 19, when the guide bin 19 filled with the raw materials moves to the right side of the, the two groups of pushing columns 17 are separated from the two groups of power grooves in the power disc 7, the power disc 7 stops rotating, the right guide bin 19 stops moving, the central control box 67 controls the first electromagnetic valve 28 at the bottom of the right guide bin 19 to be opened, raw materials in the right guide bin 19 are discharged into external processing equipment through the first discharge pipe 27 on the right guide bin, after the raw materials in the guide bin 19 are discharged, the central control box 67 controls the first electromagnetic valve 28 to be closed, the two groups of pushing columns 17 rotate back into the power disc 7 and drive the power disc 7 to rotate, the next group of guide bin 19 filled with the raw materials moves to the right side of the rotating table 6 and repeats feeding on the external processing equipment, so that automatic circulation feeding processing is performed on the external processing equipment, and after the raw materials in each group of guide bins 19 are discharged, the springs 24 on each group of guide bins 19 are restored to the initial state.

The main functions realized by the invention are as follows: by carrying out automatic circular feeding treatment on production raw materials, the feeding mode of the raw materials can be effectively simplified, the feeding time is shortened, the physical strength of workers is saved, the working efficiency is improved, meanwhile, the raw materials are automatically weighed, the weighing precision is effectively improved, the physical strength of manual weighing is saved, the feeding amount of the raw materials at each time is kept consistent, the processing quality of products is improved, and the quality of the products is kept consistent; the negative pressure suction device works in a way that raw materials in the storage bin 29 are pressed by a pressure plate 47 to a pressure gauge 46, the pressure gauge 46 detects the pressure of the raw materials in the storage bin 29 to the pressure gauge 46 in real time, so that the storage amount of the raw materials in the storage bin 29 is detected and signals are transmitted to a central control box 67, when the storage amount of the raw materials in the storage bin 29 is reduced to a specified value, the central control box 67 controls to close the device, the central control box 67 controls to open a second motor 37, the second motor 37 drives a fourth bevel gear 41 and a fifth bevel gear 42 to rotate through a third bevel gear 38, because the directions of the fourth bevel gear 41 and the fifth bevel gear 42 are opposite, the fourth bevel gear 41 and the fifth bevel gear 42 rotate in opposite directions, the fourth bevel gear 41 and the fifth bevel gear 42 drive a plurality of fan blades 43 to rotate through a rotating sleeve 39 and a third rotating shaft 40 respectively, the plurality of fan blades 43 in a rotating state push air on the lower side inside the air guide bin 36 upwards and discharge the air through, the negative pressure is formed at the lower side inside the air guide bin 36, the air guide bin 36 enables the suction pipe 33 to generate strong suction force through the plurality of groups of air holes 35 and the separation barrel 32, the suction pipe 33 sucks raw materials in an external skip car into the separation barrel 32, air in the separation barrel 32 passes through the sieve plate 34 to enter the separation barrel 32 and enters the air guide bin 36 through the plurality of groups of air holes 35, the sieve plate 34 intercepts the raw materials in the separation barrel 32, the raw materials naturally fall into the storage bin 29, so that the raw materials in the storage bin 29 are supplemented, the negative pressure suction device is arranged, the raw materials in the storage bin 29 can be conveniently supplemented, the physical strength and the time for manually adding the raw materials into the storage bin 29 are saved, the operation mode is simplified, and the automation degree is improved; when the third rotating shaft 40 rotates, the third rotating shaft 40 drives the fifth rotating shaft 53 and the spiral pushing plate 54 to rotate through the first straight gear 48, the second straight gear 49, the fourth rotating shaft 50, the third straight gear 51 and the fourth straight gear 52, the spiral pushing plate 54 can push the raw materials in the separation barrel 32 downwards, so that the raw materials in the separation barrel 32 can conveniently enter the storage bin 29, and meanwhile, the spiral pushing plate 54 can scrape the raw materials adsorbed on the bottom of the sieve plate 34 and the inner wall of the separation barrel 32, so that the sieve plate 34 is prevented from being blocked by the raw materials; when the first fixing ring 5 rotates, the first fixing ring 5 drives the inner toothed ring 55 to rotate, the inner toothed ring 55 is meshed with the fifth spur gear 56, the inner toothed ring 55 drives the fifth spur gear 56 to rotate, the fifth spur gear 56 drives the third motor 58 to rotate through the sixth rotating shaft 57, the central control box 67 can detect the state of the third motor 58, when the third motor 58 operates, the rotating table 6 is in a rotating state, the first electromagnetic valves 28 and the second electromagnetic valves 31 on the six groups of material guiding bins 19 are in a closed state, when the third motor 58 is in a standing state, the rotating table 6 is in a standing state, and by arranging the inner toothed ring 55, the fifth spur gear 56, the sixth rotating shaft 57 and the third motor 58, the state of the rotating table 6 can be conveniently monitored in real time, so that the six groups of the first electromagnetic valves 28 and the second electromagnetic valves 31 can be conveniently controlled; when the first fixing ring 5 rotates, the first fixing ring 5 drives the second annular guide rail 59 to slide on the multiple groups of third sliding blocks 60, meanwhile, the first fixing ring 5 drives the sheath 62 to rotate, and the second annular guide rail 59, the multiple groups of third sliding blocks 60, the second fixing ring 61 and the sheath 62 are arranged, so that the rotating table 6 can be conveniently supported for the second time, the firmness of the first fixing ring 5 is improved, the stability of the rotating table 6 is improved, meanwhile, the equipment between the rotating table 6 and the fixed table 2 can be isolated and protected, and external impurities and objects are prevented from entering the equipment and damaging the equipment; when the rotating table 6 rotates, the bottom of the rotating table 6 rubs on the rubber damping block 64 and generates relative sliding, and the fourth fixing frame and the rubber damping block 64 are arranged, so that damping treatment can be conveniently performed on the rotating table 6, the rotating table 6 is prevented from rotating randomly due to inertia force, and the accuracy of the moving positions of the six groups of material guide bins 19 is improved; the support frame 65 is arranged, so that the exhaust pipe 45 can be conveniently supported, and the exhaust pipe 45 is prevented from randomly vibrating when the equipment runs; when the linear guide 20 moves, the linear guide 20 can drive the two sets of limiting plates 66 on the linear guide 20 to respectively contact with the top and the bottom of the second slider 21, and the limiting plates 66 are arranged, so that the up-down movement position of the linear guide 20 can be conveniently limited, the linear guide 20 and the second slider 21 are prevented from generating thrust, meanwhile, the moving position of the material guide bin 19 can be limited, and the practicability and the reliability are improved.

According to the intelligent feeding equipment for the production workshop, the installation mode, the connection mode or the setting mode are common mechanical modes, and the intelligent feeding equipment can be implemented as long as the beneficial effects are achieved; the tension meter 23, the first solenoid valve 28, the second solenoid valve 31, the pressure gauge 46 and the center console box 67 are commercially available.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims

1. The intelligent feeding equipment for the production workshop is characterized by comprising a mounting rack (1) and a fixed table (2), wherein the fixed table (2) is mounted on the right side of the mounting rack (1), a first annular guide rail (3) is arranged at the top of the fixed table (2), a plurality of groups of first sliding blocks (4) are uniformly arranged on the first annular guide rail (3) in a sliding manner, a first fixing ring (5) is arranged above the first annular guide rail (3), the bottom of the first fixing ring (5) is mounted on the plurality of groups of first sliding blocks (4), a rotating table (6) is arranged at the top of the first fixing ring (5), a power disc (7) is arranged in the middle of the bottom end of the rotating table (6), six groups of power grooves are uniformly communicated on the side wall of the power disc (7), a first motor (8) and a speed reducer (9) are arranged on the inner side of the first annular guide rail (3), the first motor (8) and the speed reducer (9) are both mounted on the fixed table (2), the front side and the rear side of the speed reducer (9) are respectively provided with a first rotating shaft (10), two groups of first rotating shafts (10) are respectively provided with a first bevel gear (11), the outer sides of the two groups of first bevel gears (11) are respectively provided with a first fixing frame (12), the bottoms of the two groups of first fixing frames (12) are respectively arranged on the fixed table (2), the outer ends of the two groups of first rotating shafts (10) are respectively rotatably arranged on the two groups of first fixing frames (12), the upper sides of the two groups of first fixing frames (12) are respectively rotatably provided with a second rotating shaft (13), the bottoms of the two groups of second rotating shafts (13) are respectively provided with a second bevel gear (14), the two groups of second bevel gears (14) are respectively meshed with the two groups of first bevel gears (11), the tops of the two groups of second rotating shafts (13) are respectively provided with rotating columns (15), the two groups of rotating columns (15) are respectively provided with a pushing, the two groups of push plates (16) are respectively and rotatably provided with push columns (17), the positions of the two groups of push columns (17) correspond to the positions of six groups of power grooves on the power disc (7), the side wall of the rotating table (6) is uniformly communicated with six groups of fixing grooves (18), the positions of the six groups of fixing grooves (18) respectively correspond to the positions of the six groups of power grooves, guide bins (19) are respectively arranged in the six groups of fixing grooves (18), the six groups of guide bins (19) are uniformly distributed on the rotating table (6) in an annular shape, the lower side of each group of guide bins (19) is conical, the rear side wall of each group of guide bins (19) is vertically provided with two groups of linear guide rails (20), the rear side of each group of linear guide rails (20) is respectively and slidably provided with second sliding blocks (21), the rear side of each group of second sliding blocks (21) is respectively arranged on the rear side of the inner wall of the corresponding fixing grooves (18), the left lower side and the right lower side of the outer wall, each group of second fixing frames (22) is provided with a tension meter (23), each group of tension meters (23) is provided with a spring (24), the top of each group of springs (24) is provided with a third fixing frame (25), the outer side of each group of third fixing frames (25) is arranged at the top of the rotary table (6), the top of each group of guide bins (19) is communicated with a feed hopper (26), the bottom of each group of guide bins (19) is communicated with a first discharge pipe (27), each group of first discharge pipes (27) is provided with a first electromagnetic valve (28), the left side wall of the mounting frame (1) is provided with a storage bin (29), the top of the storage bin (29) is communicated with a negative pressure suction device, the top of the negative pressure suction device is arranged at the top of the mounting frame (1), the lower side of the storage bin (29) is conical, the bottom of the storage bin (29) is communicated with a second discharge pipe (30), the bottom position of the second discharging pipe (30) corresponds to the top position of a feeding hopper (26) on the left side material guiding bin (19), a second electromagnetic valve (31) is arranged on the second discharging pipe (30), a central control box (67) is arranged on the left front side wall of the mounting frame (1), and the central control box (67) is electrically connected with the first motor (8), each group of tension meters (23), each group of first electromagnetic valves (28) and the second electromagnetic valve (31).

2. The intelligent feeding equipment for the production workshop as claimed in claim 1, wherein the negative pressure suction device comprises a separation barrel (32), a suction pipe (33), a sieve plate (34), an air guide bin (36) and a second motor (37), the bottom of the separation barrel (32) is installed at the top of the storage bin (29) and communicated with the inside of the storage bin (29), the top of the separation barrel (32) penetrates through the upper side of the mounting frame (1) and extends out to the upper side of the mounting frame (1), the right output end of the suction pipe (33) penetrates through the mounting frame (1) and is installed at the left side of the separation barrel (32), the left input end of the suction pipe (33) extends into raw materials in an external skip car, the sieve plate (34) is installed on the inner wall of the separation barrel (32), the sieve plate (34) is higher than the right output end of the suction pipe (33), a plurality of groups of air holes (35) are uniformly communicated with the upper side of the outer wall of the separation barrel (, the air holes (35) are all located above the mounting frame (1), the air guide bin (36) is sleeved on the outer side of the upper portion of the separation barrel (32), the bottom of the air guide bin (36) is installed at the top of the mounting frame (1), the second motor (37) is installed on the left side of the top of the air guide bin (36), a third bevel gear (38) is arranged at the right output end of the second motor (37), a rotating sleeve (39) is arranged on the top of the air guide bin (36) in a penetrating and rotating mode, a third rotating shaft (40) is rotatably installed inside the rotating sleeve (39) in a sleeved mode, the top of the third rotating shaft (40) extends out to the upper portion of the rotating sleeve (39), the bottom of the third rotating shaft (40) penetrates through the bottom of the rotating sleeve (39) and is rotatably installed on the top of the separation barrel (32), a fourth bevel gear (41) and a fifth bevel gear (42) are respectively arranged on the upper side of, the directions of a fourth bevel gear (41) and a fifth bevel gear (42) are opposite, the left side of the fourth bevel gear (41) and the left side of the fifth bevel gear (42) are respectively meshed with the bottom and the top of the third bevel gear (38), a plurality of groups of fan blades (43) are uniformly arranged on the outer wall of a rotating sleeve (39) in an air guide bin (36) and the outer wall of a third rotating shaft (40) in an inclined manner, the inclined directions of the plurality of groups of fan blades (43) on the rotating sleeve (39) are opposite to the inclined direction of the plurality of groups of fan blades (43) on the third rotating shaft (40), an air collecting hopper (44) is communicated with the right side of the top of the air guide bin (36), an exhaust pipe (45) is communicated with the top of the air collecting hopper (44), a pressure gauge (46) is arranged on the left side of the bottom of the inner wall of a storage bin (29), a pressure plate (47) is arranged on the top of the pressure gauge (, the second motor (37) and the pressure gauge (46) are electrically connected with the central control box (67).

3. The intelligent charging equipment for the production workshop as claimed in claim 2, further comprising a first spur gear (48), a second spur gear (49), a fourth rotating shaft (50), a third spur gear (51), a fourth spur gear (52), a fifth rotating shaft (53) and a spiral pushing plate (54), wherein the first spur gear (48) is installed at the lower side of the third rotating shaft (40), the second spur gear (49) is located at the right side of the first spur gear (48) and is engaged with the first spur gear (48), the top of the fourth rotating shaft (50) is installed at the bottom of the second spur gear (49), the top of the fourth rotating shaft (50) passes through the top of the separation barrel (32) and is rotatably installed on the sieve plate (34), the fourth rotating shaft (50) is rotatably connected with the separation barrel (32), the third spur gear (51) is installed at the lower side of the fourth rotating shaft (50), the fourth spur gear (52) is located at the left side of the third spur gear (51) and is engaged with the third spur gear (51), the fourth straight gear (52) is located above the middle of the sieve plate (34), the top of the fifth rotating shaft (53) is installed at the bottom of the fourth straight gear (52), the bottom of the fifth rotating shaft (53) penetrates through the sieve plate (34) and extends into the inner lower side of the separating barrel (32), the fifth rotating shaft (53) is rotatably connected with the sieve plate (34), the spiral pushing plate (54) is located at the lower side of the sieve plate (34), the spiral pushing plate (54) is installed on the outer wall of the fifth rotating shaft (53), the top and the side wall of the spiral pushing plate (54) are respectively in contact with the bottom of the sieve plate (34) and the inner wall of the separating barrel (32) and slide relatively, the number of teeth of the first straight gear (48) and the number of teeth of the third straight gear (51) are both less than the number of teeth of the second straight gear (49), and the number of teeth of the fourth straight gear (52) is more than the number of teeth of the.

4. The intelligent feeding device for the production workshop, as recited in claim 3, further comprising an inner toothed ring (55), a fifth spur gear (56), a sixth rotating shaft (57) and a third motor (58), wherein the inner toothed ring (55) is installed on the lower side of the inner wall of the first fixing ring (5), the fifth spur gear (56) is located on the inner side of the inner toothed ring (55), the left side of the fifth spur gear (56) is meshed with the left side of the inner wall of the inner toothed ring (55), the sixth rotating shaft (57) is installed at the bottom of the fifth spur gear (56), the upper output end of the third motor (58) is connected with the bottom of the sixth rotating shaft (57), the bottom of the third motor (58) is installed on the fixing table (2), and the third motor (58) is electrically connected with the central control box (67).

5. The intelligent feeding device for the production workshop as claimed in claim 4, further comprising a second annular guide rail (59), a second fixing ring (61) and a sheath (62), wherein the second annular guide rail (59) is installed on the lower side of the outer wall of the first fixing ring (5), multiple groups of third sliding blocks (60) are uniformly arranged on the outer side of the second annular guide rail (59) in a sliding manner, the second fixing ring (61) is located on the outer side of the second annular guide rail (59), the outer walls of the multiple groups of third sliding blocks (60) are uniformly installed on the inner wall of the second fixing ring (61), the sheath (62) is buckled on the outer side of the upper portion of the second fixing ring (61), and the upper side of the inner wall of the sheath (62) is fixed on the first fixing ring (5).

6. The intelligent feeding device for the production workshop as claimed in claim 5, further comprising a fourth fixing frame and a rubber damping block (64), wherein the fourth fixing frame is installed at the right side of the second fixing ring (61), the rubber damping block (64) is installed at the top of the fourth fixing frame, and the top of the rubber damping block (64) is in contact with the bottom of the rotating table (6).

7. The intelligent feeding device for the production workshop as claimed in claim 6, further comprising a support frame (65), wherein the upper side of the support frame (65) is fixed on the left side of the exhaust pipe (45), and the lower side of the support frame (65) is installed on the left side of the second motor (37).

8. The intelligent feeding equipment for the production workshop as claimed in claim 7, wherein the top and the bottom of each group of linear guide rails (20) are provided with limiting plates (66).