CN105564916A - Windmill type rotary material turnover method for uniformly turning over materials and rotary material turnover system - Google Patents

Abstract

The invention discloses a windmill type rotary material turnover method for uniformly turning over materials and a rotary material turnover system. The method is characterized in that materials are received by blades; the blades are connected by a cam and a rotating shaft; and meanwhile, a resistance is applied to the cam by a lever and a gravity hammer, so that the blades can be turned over only after receiving a certain amount of materials, further the effect of uniformly turning over the materials is realized, and the feeding amount of a vibration type feeding mechanism becomes uniform. The rotary material turnover system comprises a rotating shaft positioned between a vibrating disk and an elevator; a plurality of uniformly-distributed blades are connected onto the rotating shaft; one end of the rotating shaft is connected with the cam; the lever is in contacted connection with the upper part of the cam; the middle of the lever is connected with the gravity hammer; one end of the lever is connected with the rotating shaft. According to the windmill type rotary material turnover method and the rotary material turnover system disclosed by the invention, the feeding of the vibration type feeding mechanism becomes uniform, the consistency and the qualification rate of processed subsequent products can be improved, the service life is prolonged, and the occurrence rate of the phenomena such as material blockage and spill-over is reduced; and in addition, the windmill type rotary material turnover method and the rotary material turnover system have the advantages of high adjusting precision and high working efficiency.

Description

The uniform windmill type of stirring rotates stirring method and rotates stirring system

Technical field

the windmill type that the present invention relates to a kind of vibrating feeder structure rotates stirring method and rotates the uniform windmill type of stirring system, particularly a kind of stirring of vibrating feeder structure and rotates stirring method and rotate stirring system.

Background technology

existing vibrating feeder structure, is generally made up of the controller of vibrating disk, gig and vibrating disk; The controller of vibrating disk controls the oscillation frequency of vibrating disk, and material moves and falls from the discharge end of vibrating disk under the vibration of vibrating disk, falls into gig; Then by gig by material lifting to requiring position, thus complete charging.

but the situation that feeding coal during existing vibrating feeder structure charging is uneven, when the material above vibrating disk is too much, can hinders vibration, cause feeding coal to decline; Vice versa.In order to solve the problem, now general by the also artificial frequent oscillation frequency regulating the controller of vibrating disk to control vibrating disk of the material quantity on operator's manual monitoring vibrating disk, thus make feed even; But such method also exists the problem that degree of regulation is lower and work efficiency is lower.Therefore, how to make vibrating feeder structure feed evenly and improve degree of regulation and work efficiency becomes problem demanding prompt solution.

Summary of the invention

the object of the invention is to, provide the uniform windmill type of a kind of stirring rotate stirring method and rotate stirring system.The present invention not only makes oscillating feeder structure feed even, also has the advantage that degree of regulation is high and work efficiency is high.

technical scheme of the present invention: the uniform windmill type of stirring rotates stirring method, the method is the material that the discharge end accepting vibrating disk by blade falls, blade is connected with rotating shaft again by cam, hinder the resistance of cam rotation by lever and gravity drop hammer to one, cam simultaneously, blade could be rotated by power cam after a certain amount of material of undertaking, the material rotated on rear blade is poured gig into, thus is realized the uniform effect of stirring, makes vibrating feeder structure feeding coal even.

the uniform windmill type of aforesaid stirring rotates in stirring method, described flank of cam is also provided with sensor, counted by the number of revolutions of sensor to cam, send count signal to control unit again, control signal is sent to the controller of vibrating disk after control unit process, regulated the oscillation frequency of vibrating disk by the controller of vibrating disk, thus realize automatically controlling, the gyrofrequency of blade stirring is stablized, makes stirring even further.

rotate the rotation stirring system constructed by stirring method according to the uniform windmill type of aforesaid stirring, comprise the rotating shaft between vibrating disk and gig, rotating shaft is connected with some well-distributed blades; One end of rotating shaft is connected with cam, and the overlying contact of cam is connected with lever; The middle part of lever is connected with gravity drop hammer, and one end of lever is connected with S. A..

in aforesaid rotation stirring system, the side of described cam is provided with sensor, and the mouth of sensor is connected with control unit, and the mouth of control unit is connected with the controller of vibrating disk.

in aforesaid rotation stirring system, described lever is provided with some gravity adjustment holes, and lever is connected with gravity drop hammer by gravity adjustment hole.

in aforesaid rotation stirring system, described cam is equilateral polygon cam.

in aforesaid rotation stirring system, described cam is square cam, and blade is provided with 4.

compared with prior art, the present invention devises the uniform windmill type of a kind of stirring and rotates stirring method and rotate stirring system, the material that the discharge end accepting vibrating disk by blade falls, then be connected blade by cam with rotating shaft, make blade, rotating shaft and cam three interlock; Simultaneously by the resistance that lever and gravity drop hammer hinder cam to rotate to one, cam, thus apply a resistance to the rotation of blade, make blade after a certain amount of material of undertaking, under the effect of material gravity, overcome resistance, could rotate by power cam; Gig poured into by the material rotated on rear blade, and the inventory of each stirring is equal, thus realizes the uniform effect of stirring, makes vibrating feeder structure feeding coal even; Also avoid the artificial frequent oscillation frequency regulating vibrating disk, improve work efficiency.Simultaneously, the present invention is also provided with sensor, counted by the number of revolutions of sensor to cam, send count signal to control unit again, control signal is sent to the controller of vibrating disk after control unit process, thus automatically regulate the oscillation frequency of vibrating disk, the gyrofrequency of blade stirring is stablized, make stirring more even, and can also adjustment progress and work efficiency be improved.In addition, the present invention is provided with some gravity adjustment holes on lever, connects gravity drop hammer by gravity adjustment hole, by regulating weight and the connection location of gravity drop hammer on lever of gravity drop hammer, the resistance hindering cam to rotate can be regulated, when controlling the upset of each blade, pour into the inventory of gig; And cam is square cam, the quantity of blade is 4, and can complete another sheet blade while upset is toppled at a slice blade and turn to the position of accepting material, when can also prevent from overturning, the situation of interfering appears in adjacent two panels blade, guarantees normal upset.Not only the inventory of stirring is equal at every turn in the present invention, and the frequency stabilization of stirring, achieves the uniform effect of stirring, the feeding coal of vibrating feeder structure can be made even; Thus material cladding thickness when making gig promote is even, is conducive to follow-up processing technology, improve conformability and the qualification rate of product; The load of each position of gig can also be made even, the incidence of the phenomenon such as clogged up with material, spill-over can be reduced to 3%, extend the service life at mass transport position in gig and Fabricating machinery, and reduce the maintenance times of gig, make the cycle stretch-out 2.5 times of maintaining, increase work efficiency further.Therefore, the present invention not only makes oscillating feeder structure feed even, the conformability after Product processing and qualification rate is needed after can improving, extend the service life at mass transport position in gig and Fabricating machinery, reduce the incidence of the phenomenon such as clogged up with material, spill-over, also there is the advantage that degree of regulation is high and work efficiency is high.

Accompanying drawing explanation

fig. 1 is structural representation of the present invention;

fig. 2 is the fundamental diagram of the present invention when using;

fig. 3 is birds-eye view of the present invention;

fig. 4 is the circuit diagram of control unit of the present invention.

being labeled as in accompanying drawing: 1-vibrating disk, 2-gig, 3-rotating shaft, 4-blade, 5-cam, 6-lever, 7-gravity drop hammer, 8-S. A., 9-sensor, 10-control unit, 11-gravity adjustment hole.

Detailed description of the invention

below in conjunction with embodiment, the present invention is further illustrated, but not as the foundation limited the present invention.

embodiment.The uniform windmill type of stirring rotates stirring method, as shown in Figure 1, 2, 3, the method is the material that the discharge end accepting vibrating disk 1 by blade 4 falls, blade 4 is connected with rotating shaft 3 again by cam 5, hinder the resistance of cam 5 rotation to 5 one, cam by lever 6 and gravity drop hammer 7 simultaneously, could rotate and carry out stirring by power cam 5 after making blade 4 accept a certain amount of material, thus realizing the uniform effect of stirring, making vibrating feeder structure feeding coal even.

described cam 5 side is also provided with sensor 9, counted by the number of revolutions of sensor 9 pairs of cams 5, send count signal to control unit 10 again, control signal is sent to the controller of vibrating disk 1 after control unit 10 processes, the oscillation frequency of vibrating disk 1 is regulated by the controller of vibrating disk 1, thus realize automatically controlling, the gyrofrequency of blade 4 stirring is stablized, makes stirring even further.

rotate the rotation stirring system constructed by stirring method according to the uniform windmill type of aforesaid stirring, form as shown in Figure 1, 2, 3, comprise the rotating shaft 3 between vibrating disk 1 and gig 2, rotating shaft 3 is connected with some well-distributed blades 4; One end of rotating shaft 3 is connected with cam 5, and the overlying contact of cam 5 is connected with lever 6; The middle part of lever 6 is connected with gravity drop hammer 7, and one end of lever 6 is connected with S. A. 8.

the side of described cam 5 is provided with sensor 9, and the mouth of sensor 9 is connected with control unit 10, and the mouth of control unit 10 is connected with the controller of vibrating disk 1.Described lever 6 is provided with some gravity adjustment holes 11, and lever 6 is connected with gravity drop hammer 7 by gravity adjustment hole 11.Described cam 5 is equilateral polygon cam.Described cam 5 is square cam, and blade 4 is provided with 4.

principle of work: as shown in Figure 1, 2, 3, gravity drop hammer 7 is rotated down to 6 one, lever power around S. A. 8 conter clockwise, hinders cam 5 to rotate; Blade 4 accepts the material fallen from the discharge end of vibrating disk 1, and under the Action of Gravity Field of material, material produces the propulsive effort of power cam 5 rotation to blade 4 and cam 5; When this propulsive effort is greater than resistance, namely the material on blade 4 reach a certain amount of after, cam 5, blade 4 and rotating shaft 3 to be pressed in Fig. 2 direction shown in arrow and are rotated, and the material on blade 4 turns over and falls into gig 2, next blade 4 turn to the position of accepting material, completes a stirring circulation.

when cam 5 rotates, the relative position between cam 5 and sensor 9 changes, and sensor 9 records once inside out and sends control unit 10 to.As shown in Figure 4, the R in figure represents resistance to control unit 10 structure, and R ' expression rheostat, C represents electric capacity, and IC represents general-purpose operation amplifier, and Vcc represents power supply, and S represents switch, and P represents square wave circuit for generating.Exported the square wave of a fixed width by square wave circuit for generating P, driving switch S closes; When switch S closes, electric capacity C charges, and the electricity in electric capacity C increases, and during simulation blade 4 stirring, material is poured into the action of gig 2; Rheostat R ' continues to discharge to electric capacity C, the situation of discharging after simulation gig 1 improving material; After to the voltage compare of electric capacity and the integral operation of op amp IC, export a magnitude of voltage as control signal, after control signal being sent to the controller of vibrating disk 1, control the oscillation frequency of vibrating disk 1.

Claims (7)

1. the uniform windmill type of stirring rotates stirring method, it is characterized in that: the method is the material that the discharge end accepting vibrating disk by blade falls, blade is connected with rotating shaft again by cam, hinder the resistance of cam rotation by lever and gravity drop hammer to one, cam simultaneously, blade could be rotated by power cam after a certain amount of material of undertaking, the material rotated on rear blade is poured gig into, thus is realized the uniform effect of stirring, makes vibrating feeder structure feeding coal even.

2. the uniform windmill type of stirring according to claim 1 rotates stirring method, it is characterized in that: described flank of cam is also provided with sensor, counted by the number of revolutions of sensor to cam, send count signal to control unit again, control signal is sent to the controller of vibrating disk after control unit process, regulated the oscillation frequency of vibrating disk by the controller of vibrating disk, thus realize automatically controlling, the gyrofrequency of blade stirring is stablized, makes stirring even further.

3. rotate the rotation stirring system constructed by stirring method according to the uniform windmill type of the stirring described in claim 1 or 2, it is characterized in that: comprise the rotating shaft (3) be positioned between vibrating disk (1) and gig (2), rotating shaft (3) is connected with some well-distributed blades (4); One end of rotating shaft (3) is connected with cam (5), and the overlying contact of cam (5) is connected with lever (6); The middle part of lever (6) is connected with gravity drop hammer (7), and one end of lever (6) is connected with S. A. (8).

4. rotation stirring system according to claim 3, it is characterized in that: the side of described cam (5) is provided with sensor (9), the mouth of sensor (9) is connected with control unit (10), and the mouth of control unit (10) is connected with the controller of vibrating disk (1).

5. rotation stirring system according to claim 3, is characterized in that: described lever (6) is provided with some gravity adjustment holes (11), and lever (6) is connected with gravity drop hammer (7) by gravity adjustment hole (11).

6. the rotation stirring system according to claim 3,4 or 5, is characterized in that: described cam (5) is equilateral polygon cam.

7. rotation stirring system according to claim 6, is characterized in that: described cam (5) is square cam, and blade (4) is provided with 4.