CN107323741A - It is a kind of efficiently to control the drier blanking machine of blanking velocity - Google Patents

Abstract

The drier blanking machine of blanking velocity can be efficiently controlled the present invention relates to a kind of, including frame, screening blanking device, shaking device and strut device, frame is U-shape structure, screening blanking device upper end is connected with strut device, shaking device is located on the left of screening blanking device, shaking device left end is arranged on frame left surface, and strut device is connected with frame top.The present invention can solve the problems such as the existing artificial inefficiency that blanking presence is carried out to drier, labor intensity are big, discharge quantity, blanking velocity of artificial control drier are difficult to control to, the drier blanking function of automatic control velocity is realized, discharge quantity, the blanking velocity for have the advantages that operating efficiency is high, labor intensity is small, automatically controlling drier are controllable.

Description

It is a kind of efficiently to control the drier blanking machine of blanking velocity

Technical field

The present invention relates to drier processing technique field, under more particularly to a kind of drier that can efficiently control blanking velocity Material machine.

Background technology

Drier often occurs in our daily lifes, no matter in food or in electrical equipment packaging bag often There are various types of drier, conventional drier includes quick lime, silica gel, molecular sieve, macromolecule drier etc..Existing drier Encapsulation before be required for carrying out blanking, the mode of blanking is mainly using manually being controlled, under the existing artificial progress to drier Expect the problems such as the inefficiency existed, labor intensity are big, discharge quantity, blanking velocity of artificial control drier are difficult to control to.

The content of the invention

In order to solve the above problems, the drier blanking machine of blanking velocity can be efficiently controlled the invention provides a kind of, this Invention can solve the existing artificial inefficiency that blanking presence is carried out to drier, labor intensity is big, manually control drying Discharge quantity, the blanking velocity of agent such as are difficult to control at the problem, the drier blanking function of automatic control velocity are realized, with work Efficiency high, labor intensity are small, automatically control the discharge quantity of drier, the advantages of blanking velocity is controllable.

To achieve these goals, the present invention uses following technical scheme：It is a kind of efficiently to control the drying of blanking velocity Agent blanking machine, including frame, screening blanking device, shaking device and strut device, frame is U-shape structure, screens blanking device Upper end is connected with strut device, and shaking device is located on the left of screening blanking device, and shaking device left end is arranged on the left of frame On face, strut device is connected with frame top.

Described screening blanking device includes blanking connecting rod, fixed connecting plate, No. two fixed connecting plates, a blankings Bucket, sieve plate, blanking motor, blanking motor base, blanking motor bearing pin and blanking switch plate, blanking connecting rod are cuboid knot Structure, blanking connecting rod upper end is connected by bearing pin with strut device, and blanking connecting rod middle and upper part has been evenly arranged under five rows The curved cuboid protruding block in end, a fixed connecting plate right side is arranged on blanking connecting rod left bottom, a fixation Connecting plate left end is arranged on hopper upper right, and No. two fixed connecting plate one end are arranged on upper end on the left of hopper, No. two The fixed connecting plate other end is arranged on blanking connecting rod left end, and a fixed connecting plate and No. two fixed connecting plates play fixation Effect, hopper is middle part funnel type structure with groove, and the groove in the middle part of hopper is provided with sieve plate, and the sieve aperture of sieve plate can be with According to the different sizes of the type set of drier, blanking motor base is installed on the right side of hopper lower end, blanking motor is arranged on On blanking motor base, blanking motor is connected by shaft coupling with blanking motor bearing pin one end, the blanking motor bearing pin other end It is arranged on by bearing in hopper left bottom, blanking motor bearing pin at the top of blanking switch plate with being connected, during specific works, When hopper is arrived in the drier vibrations of shaking device, sieve plate can make the drier of modest size fall on the bottom of hopper, then Blanking motor is opened, blanking motor can drive blanking motor bearing pin to rotate, so that under driving and being connected with blanking motor bearing pin Expect switchboard folding, the action of blanking is completed, when the drier in hopper reaches constant weight so that blanking connecting rod band Dynamic pressure lever apparatus right-hand member is moved downward.

Described strut device includes main depression bar, depression bar fixed connecting plate, suspension rod, balancing weight, gag lever post and limited block, main Depression bar right-hand member leading flank is connected with blanking connecting rod by bearing pin, and depression bar fixed connecting plate is connected positioned at connecting rod with main depression bar The left side of point, depression bar fixed connecting plate is rectangular parallelepiped structure, and depression bar fixed connecting plate upper end is connected with frame, and depression bar, which is fixed, to be connected Fishplate bar lower end is connected by bearing pin with main depression bar right-hand member trailing flank, and depression bar fixed connecting plate plays the work of compression column with fixed device With suspension rod is located at main depression bar left end, and suspension rod is cylindrical structure of the lower end with ladder type block rubber, and suspension rod upper end passes through bearing pin and master Depression bar is connected, and balancing weight is located on the left of suspension rod, and balancing weight is arranged on above main depression bar, and the weight of balancing weight can be according to reality Need to be increased and decreased, balancing weight plays a part of being provided with gag lever post on counterweight balance, main depression bar left surface, and gag lever post is L-type Structure, limited block is triangular structure, and limited block left side is arranged on frame side top, and gag lever post is relative with limited block position Should, during specific works, when the drier in screening blanking device reaches constant weight, blanking connecting rod drives main depression bar right-hand member Move downward, the ladder type block rubber positioned at the downrod lower end of main depression bar left end can be transported upwards in the presence of depression bar fixed connecting plate Dynamic, when the weight of blanking device continues to increase, when gag lever post is moved to limited block position, main depression bar left end will be transported no longer upwards It is dynamic.

Described shaking device include vibration motor bearing, vibration motor, vibrations limit body, eccentric wheel, vibrations connecting rod, The first drive link, the second drive link of vibrations, vibrations buffer spring and vibrations feed bin are shaken, vibration motor bearing is triangle knot Frame side Middle face is arranged on the left of structure, vibration motor bearing, vibration motor is arranged on vibration motor bearing by motor cabinet, The output shaft of vibration motor is arranged on eccentric wheel center, and change vibrations can be realized by adjusting the rotating speed of vibration motor The function of speed, vibrations connecting rod one end by bearing pin be arranged on eccentric wheel outer end, vibrations the connecting rod other end by bearing pin with Shake the first drive link to be connected, the first drive link of vibrations is the cylindrical structure that right-hand member has trapezoidal block rubber, shakes connecting rod Middle part each one vibrations limit body of arrangement symmetrical above and below, vibrations limit body is L-type structure, and vibrations limit body left end is arranged on frame Sideways, the vibrations limit body and the first drive link of vibrations positioned at the first drive link both sides of vibrations are to be slidably matched, and open vibrations electricity Machine, vibration motor band movable eccentric wheel is rotated, and one end installed in the vibrations connecting rod of eccentric wheel outer end can justify with eccentric crop rotation Zhou Yundong, the vibrations connecting rod other end is by driving the first drive link of vibrations to move in the presence of bearing pin, in vibrations limit body Under restriction effect so that the first drive link of vibrations can only make traverse motion, shake the trapezoidal rubber of the first drive link right-hand member Block is located on the left of the ladder type block rubber of downrod lower end, and the second drive link of vibrations is the cylindrical structure that left end has trapezoidal block rubber, The trapezoidal block rubber for shaking the second drive link left end is located on the right side of the ladder type block rubber of downrod lower end, the first drive link of vibrations and shake Dynamic second drive link is located on same axis, shakes trapezoidal block rubber, the second drive link left end of vibrations of the first drive link right-hand member Trapezoidal block rubber with the ladder type rubber of downrod lower end is block-shaped is engaged, vibrations buffer spring is sleeved on the second drive link of vibrations On, the second drive link right-hand member of vibrations is connected with vibrations feed bin, and it is left that vibrations buffer spring left end is arranged on the second drive link of vibrations On the trapezoidal block rubber at end, vibrations buffer spring right-hand member is connected with vibrations feed bin, during specific works, first turns on vibrations electricity Machine, vibration motor band movable eccentric wheel is rotated, and one end installed in the vibrations connecting rod of eccentric wheel outer end can justify with eccentric crop rotation Zhou Yundong, the vibrations connecting rod other end is by driving the first drive link of vibrations to move in the presence of bearing pin, in vibrations limit body Under restriction effect so that the first drive link of vibrations can only make traverse motion, so that the ladder of the first drive link right-hand member of vibrations Shape block rubber can make transverse movement to the ladder type block rubber of downrod lower end, and the ladder type block rubber of downrod lower end is driven to vibrations second The trapezoidal block rubber of bar left end produces transverse movement, and the second drive link is by shaking under buffer spring cushioning effect to vibrations feed bin Soft vibrations, when the drier in screening blanking device reaches constant weight, blanking connecting rod drives main depression bar right-hand member to push Motion, the ladder type block rubber positioned at the downrod lower end of main depression bar left end can be moved upwards in the presence of depression bar fixed connecting plate, So that spacing increases between the trapezoidal block rubber of the first drive link right-hand member of vibrations and the ladder type block rubber of downrod lower end, so as to reduce The trapezoidal block rubber of the first drive link right-hand member of vibrations is to the shaking force of the ladder type block rubber of downrod lower end, and the second drive link is to shake The shaking force of dynamic feed bin reduces therewith, realizes and changes shaking force automatically by screening the weight of drier in blanking device Degree.

Described vibrations feed bin includes vibrations contiguous block, feed bin room, bin blanking plate, the trundle of blanking plate first, blanking It is driven on the left of the trundle of plate second, blanking guide groove, blanking plate control spanner and spanner fixed plate, vibrations contiguous block with vibrations second Bar right-hand member is connected, and is connected on the right side of vibrations contiguous block with blanking guide groove, and vibrations can be passed to blanking guide groove by vibrations contiguous block, Blanking guide groove is the triangular structure that middle part carries guide groove, and blanking guide groove is located above hopper, blanking guide groove left surface upper end Feed bin room is installed, feed bin room is hollow concave shape structure, the vibrations of blanking guide groove cause the drier of feed bin room down along Guide groove in the middle part of blanking guide groove is slid into hopper downwards, and feed bin room lower right-hand side is provided with by the trundle of blanking plate first Bin blanking plate, bin blanking plate left end be located at feed bin room on the left of, bin blanking plate right-hand member by the trundle of blanking plate second with Lower end is connected on the left of blanking plate control spanner, and blanking plate controls spanner to be that upper end leads on the right side of L-type structure, blanking plate control spanner Cross spherical hinge with spanner fixed plate bottom to be connected, it is curved to be buckled in blanking connecting rod lower end in the middle part of blanking plate control spanner On cuboid protruding block, according to the curved cuboid protruding block in the lower end for being buckled in blanking connecting rod diverse location, make blanking Moved up and down below plate control spanner left end, so that the size being open on the left of bin blanking plate, realizes control discharge quantity Function, spanner fixed plate is rectangular parallelepiped structure, and spanner fixed plate is located at main depression bar front, spanner dead plate upper end face and frame Top is connected, during specific works, and it is convex to be buckled in the curved cuboid in blanking connecting rod lower end in the middle part of blanking plate control spanner On bittiness, according to the curved cuboid protruding block in the lower end for being buckled in blanking connecting rod diverse location, pull blanking plate control Move up and down, so as to adjust the size of opening on the left of bin blanking plate, be driven when shaking the second drive link below hand left end During shaking force, vibrations contiguous block can pass to vibrations blanking guide groove, and the vibrations of blanking guide groove make it that the drier of feed bin room is past Under along in the middle part of blanking guide groove guide groove downwards slide into hopper, realize the function of blanking.

During work, the first step：Drier is loaded onto into feed bin room first, vibration motor, vibration motor band movable eccentric wheel is opened Rotate, one end installed in the vibrations connecting rod of eccentric wheel outer end can be circled with eccentric wheel, vibrations connecting rod is another End drives the first drive link of vibrations to move in the presence of passing through bearing pin, under the restriction effect of vibrations limit body so that vibrations the One drive link can only make traverse motion, so that the trapezoidal block rubber of the first drive link right-hand member of vibrations can be to downrod lower end Ladder type block rubber makees transverse movement, and the ladder type block rubber of downrod lower end makees horizontal to the trapezoidal block rubber for shaking the second drive link left end To motion, then the second drive link makes blanking plate control by shaking under buffer spring cushioning effect to the vibrations soft vibrations of feed bin It is buckled in the middle part of spanner processed on the curved cuboid protruding block in blanking connecting rod lower end, it is different according to blanking connecting rod is buckled in The curved cuboid protruding block in the lower end of position so that moved up and down below blanking plate control spanner left end, so as to adjust The size of opening on the left of the blanking plate of material-saving storehouse, when shaking the second drive link transmission shock power, vibrations contiguous block can pass vibrations Blanking guide groove is passed, the vibrations of blanking guide groove make it that the drier in feed bin room is down downward along the guide groove in the middle part of blanking guide groove Slide into hopper, when the drier in screening blanking device reaches constant weight, blanking connecting rod drives main depression bar right Downward motion is held, the ladder type block rubber positioned at the downrod lower end of main depression bar left end can be upward in the presence of depression bar fixed connecting plate Motion so that spacing increases between the trapezoidal block rubber of the first drive link right-hand member of vibrations and the ladder type block rubber of downrod lower end, from And shaking force of the trapezoidal block rubber to the ladder type block rubber of downrod lower end of the first drive link right-hand member of vibrations is reduced, the second transmission Bar reduces therewith to the shaking force for shaking feed bin, the speed of blanking is reduced, while being buckled in the blanking plate in blanking connecting rod Control spanner can also be moved upwards, so as to control motion upwards on the left of bin blanking plate so that feed bin room opening reduces, further Reduce the speed of blanking, it is possible to achieve change blanking velocity automatically by screening the weight change of drier in blanking device Function；Second step：When hopper is arrived in the drier vibrations of shaking device, sieve plate can fall on down the drier of modest size The bottom of hopper, is then turned on blanking motor, blanking motor can drive blanking motor bearing pin to rotate, so as to drive and blanking motor pin The blanking switch plate folding that axle is connected, completes the action of blanking, it is achieved thereby that the drier blanking work(of automatic control velocity Energy.

The beneficial effects of the present invention are：

First, invention can solve the existing artificial inefficiency that blanking presence is carried out to drier, work The problem such as intensity is big, discharge quantity, blanking velocity of artificial control drier are difficult to control to, realizes the drying of automatic control velocity Agent blanking function, it is controllable etc. excellent with discharge quantity, the blanking velocity that operating efficiency is high, labor intensity is small, automatically control drier Point；

2nd, the present invention is provided with screening blanking device, shaking device and strut device, the drying in screening blanking device When agent reaches constant weight, blanking connecting rod drives main depression bar right-hand member downward motion, positioned at the downrod lower end of main depression bar left end Ladder type block rubber can be moved upwards in the presence of depression bar fixed connecting plate so that the trapezoidal rubber of the first drive link right-hand member of vibrations Spacing increases between block and the ladder type block rubber of downrod lower end, so as to reduce the trapezoidal block rubber of the first drive link right-hand member of vibrations To the shaking force of the ladder type block rubber of downrod lower end, the second drive link reduces therewith to the shaking force for shaking feed bin, reduces down The speed of material, while the blanking plate control spanner being buckled in blanking connecting rod can also be moved upwards, so as to control bin blanking Motion upwards on the left of plate so that feed bin room opening reduces, and further reduces the speed of blanking, it is possible to achieve by screening blanking The weight change of drier in device and the function of changing blanking velocity automatically；

3rd, it is provided with sieve plate on present invention screening blanking device, the sieve aperture of sieve plate can be according to the type set of drier Different sizes, add the scope of application of the present invention；

4th, balancing weight is provided with strut device of the present invention, can be completed by changing the weight of balancing weight to screening The control of drier gross weight in blanking device.

Brief description of the drawings

The present invention is further described with reference to the accompanying drawings and examples.

Fig. 1 is the structural representation of the present invention；

Fig. 2 is Fig. 1 A to partial enlarged drawing；

Fig. 3 is the structural representation of present invention vibrations feed bin.

Embodiment

In order that the technical means, the inventive features, the objects and the advantages of the present invention are easy to understand, tie below Conjunction is specifically illustrating, and the present invention is expanded on further.It should be noted that in the case where not conflicting, embodiment in the application and Feature in embodiment can be combined with each other.

As shown in Figure 1 to Figure 3, it is a kind of efficiently to control under the drier blanking machine of blanking velocity, including frame 1, screening Expect device 3, shaking device 4 and strut device 5, frame 1 is U-shape structure, and the screening upper end of blanking device 3 is connected with strut device 5 Connect, shaking device 4 is located at the left side of screening blanking device 3, the left end of shaking device 4 is arranged on the left surface of frame 1, strut device 5 It is connected with the top of frame 1.

Described screening blanking device 3 includes blanking connecting rod 31, fixed connecting plate 32, No. two fixed connecting plates 33rd, hopper 34, sieve plate 35, blanking motor 36, blanking motor base 37, blanking motor bearing pin 38 and blanking switch plate 39, under Material connecting rod 31 is rectangular parallelepiped structure, and the upper end of blanking connecting rod 31 is connected by bearing pin with strut device 5, and blanking connecting rod 31 middle and upper parts are evenly arranged the curved cuboid protruding block in five row lower ends, and a right side of fixed connecting plate 32 is arranged on down Expect the left bottom of connecting rod 31, a left end of fixed connecting plate 32 is arranged on the upper right of hopper 34, and No. two are fixedly connected The one end of plate 33 is arranged on the left side upper end of hopper 34, and No. two other ends of fixed connecting plate 33 are arranged on the left end of blanking connecting rod 31 On, a fixed connecting plate 32 and No. two fixed connecting plates 33 play fixation, and hopper 34 is middle part funnel with groove Type structure, the groove at the middle part of hopper 34 is provided with sieve plate 35, and the sieve aperture of sieve plate 35 can be according to the type set of drier not Blanking motor base 37 is installed, blanking motor 36 is arranged on blanking motor base 37 on the right side of same size, the lower end of hopper 34, Blanking motor 36 is connected by shaft coupling with the one end of blanking motor bearing pin 38, and the other end of blanking motor bearing pin 38 is pacified by bearing In the left bottom of hopper 34, blanking motor bearing pin 38 is connected with the top of blanking switch plate 39, during specific works, works as shake When hopper 34 is arrived in the drier vibrations of dynamic device 4, sieve plate can make the drier of modest size fall on the bottom of hopper 34, then Blanking motor 36 is opened, blanking motor 36 can drive blanking motor bearing pin 38 to rotate, so as to drive and the phase of blanking motor bearing pin 38 The folding of blanking switch plate 39 of connection, completes the action of blanking, when the drier in hopper 34 reaches constant weight so that Blanking connecting rod 31 drives the right-hand member of strut device 5 to move downward.

Described strut device 5 includes main depression bar 51, depression bar fixed connecting plate 52, suspension rod 53, balancing weight 54, gag lever post 55 With limited block 56, the main right-hand member leading flank of depression bar 51 is connected with blanking connecting rod 31 by bearing pin, depression bar fixed connecting plate 52 In connecting rod 31 and the left side of the main tie point of depression bar 51, depression bar fixed connecting plate 52 is rectangular parallelepiped structure, depression bar fixed connecting plate 52 upper ends are connected with frame 1, and the lower end of depression bar fixed connecting plate 52 is connected by bearing pin with the main right-hand member trailing flank of depression bar 51, pressure Bar fixed connecting plate 52 plays a part of compression column with fixed device 5, and suspension rod 53 is located at the main left end of depression bar 51, and suspension rod 53 is lower end band ladder The cylindrical structure of type block rubber, the upper end of suspension rod 53 is connected by bearing pin with main depression bar 51, and it is left that balancing weight 54 is located at suspension rod 53 Side, balancing weight 54 is arranged on the main top of depression bar 51, and the weight of balancing weight 54 can be increased and decreased according to actual needs, balancing weight 54 Play a part of that gag lever post 55 is installed on counterweight balance, the main left surface of depression bar 51, gag lever post 55 is L-type structure, limited block 56 For triangular structure, the left side of limited block 56 is arranged on the side of frame 1 top, and gag lever post 55 is corresponding with the position of limited block 56, During specific works, when the drier in screening blanking device 3 reaches constant weight, blanking connecting rod 31 drives main depression bar 51 right End is moved downward, and the ladder type block rubber positioned at the lower end of suspension rod 53 of the main left end of depression bar 51 is in the presence of depression bar fixed connecting plate 52 It can move upwards, when the weight of blanking device 3 continues to increase, when gag lever post 55 is moved to 56 position of limited block, main depression bar 51 is left End no longer will be moved upwards.

Described shaking device 4 includes vibration motor bearing 41, vibration motor 42, vibrations limit body 43, eccentric wheel 44, shake Dynamic connecting rod 45, the first drive link 46 of vibrations, the second drive link 47 of vibrations, vibrations buffer spring 48 and vibrations feed bin 49, vibrations Motor support base 41 is triangular structure, and the left side of vibration motor bearing 41 is arranged on the side of frame 1 middle part, and vibration motor 42 passes through electricity Support is arranged on vibration motor bearing 41, and the output shaft of vibration motor 42 is arranged on the center of eccentric wheel 44, by adjusting The rotating speed of section vibration motor 42 can realize the function of changing velocity of vibration, and vibrations one end of connecting rod 45 is arranged on inclined by bearing pin The outer end of heart wheel 44, the vibrations other end of connecting rod 45 is connected by bearing pin with the first drive link 46 of vibrations, shakes the first drive link 46 be the cylindrical structure that right-hand member has trapezoidal block rubber, the middle part of vibrations connecting rod 45 each one vibrations limit body of arrangement symmetrical above and below 43, vibrations limit body 43 is L-type structure, and vibrations limit body 43 left end is arranged on the side of frame 1, positioned at the first drive link 46 of vibrations The vibrations limit body 43 of both sides, to be slidably matched, opens vibration motor 42 with the first drive link 46 of vibrations, and vibration motor 42 drives Eccentric wheel 44 is rotated, and one end installed in the vibrations connecting rod 45 of the outer end of eccentric wheel 44 can be circled with eccentric wheel 44, The vibrations other end of connecting rod 45 is by driving the first drive link 46 of vibrations to move in the presence of bearing pin, in the limit of vibrations limit body 43 Make under using so that the first drive link 46 of vibrations can only make traverse motion, shake the trapezoidal rubber of the right-hand member of the first drive link 46 Blob of viscose is located on the left of the ladder type block rubber of the lower end of suspension rod 53, and the second drive link 47 of vibrations is the cylinder that left end has trapezoidal block rubber Structure, the trapezoidal block rubber of the vibrations left end of the second drive link 47 is located on the right side of the ladder type block rubber of the lower end of suspension rod 53, vibrations first Drive link 46 is located on same axis with the second drive link 47 of vibrations, shakes trapezoidal block rubber, the shake of the right-hand member of the first drive link 46 The trapezoidal block rubber of the dynamic left end of second drive link 47 with the ladder type rubber of the lower end of suspension rod 53 is block-shaped is engaged, vibrations buffer spring 48 are sleeved on the second drive link 47 of vibrations, and the vibrations right-hand member of the second drive link 47 is connected with vibrations feed bin 49, shakes buffering elastic The left end of spring 48 is arranged on the trapezoidal block rubber of the vibrations left end of the second drive link 47, the vibrations right-hand member of buffer spring 48 and vibrations feed bin 49 are connected, during specific works, first turn on vibration motor 42, vibration motor 42 is rotated with movable eccentric wheel 44, installed in bias Taking turns one end of the vibrations connecting rod 45 of 44 outer ends can circle with eccentric wheel 44, and the vibrations other end of connecting rod 45 passes through pin The first drive link 46 of vibrations is driven to move in the presence of axle, under the restriction effect of vibrations limit body 43 so that vibrations first are passed Lever 46 can only make traverse motion, so that the trapezoidal block rubber of the vibrations right-hand member of the first drive link 46 can be to the lower end of suspension rod 53 Ladder type block rubber make transverse movement, the ladder type block rubber of the lower end of suspension rod 53 is to shaking the trapezoidal rubber of the left end of the second drive link 47 Block produce transverse movement, the second drive link 47 by shake under the cushioning effect of buffer spring 48 to vibrations the soft vibrations of feed bin 49, When the drier in screening blanking device 3 reaches constant weight, blanking connecting rod 31 drives the main right-hand member downward motion of depression bar 51, Ladder type block rubber positioned at the lower end of suspension rod 53 of the main left end of depression bar 51 can be moved upwards in the presence of depression bar fixed connecting plate 52, So that spacing increases between the trapezoidal block rubber of the vibrations right-hand member of the first drive link 46 and the ladder type block rubber of the lower end of suspension rod 53, so that Shaking force of the trapezoidal block rubber to the ladder type block rubber of the lower end of suspension rod 53 of the vibrations right-hand member of the first drive link 46 is reduced, second passes The shaking forces of 47 pairs of lever vibrations feed bins 49 reduce therewith, realize by screen the weight of drier in blanking device 3 and from It is dynamic to change vibrations dynamics.

Described vibrations feed bin 49 includes vibrations contiguous block 491, feed bin room 492, bin blanking plate 493, blanking plate first Trundle 494, the second trundle of blanking plate 495, blanking guide groove 496, blanking plate control spanner 497 and spanner fixed plate 498, shake The dynamic left side of contiguous block 491 is connected with the vibrations right-hand member of the second drive link 47, the right side of vibrations contiguous block 491 and the phase of blanking guide groove 496 Connection, vibrations contiguous block 491 can pass to vibrations blanking guide groove 496, and blanking guide groove 496 is the triangle that middle part carries guide groove Structure, blanking guide groove 496 is located at the top of hopper 34, and the left surface upper end of blanking guide groove 496 is provided with feed bin room 492, feed bin room 492 be hollow concave shape structure, and the vibrations of blanking guide groove 496 cause the drier of feed bin room 492 down along blanking guide groove 496 The guide groove at middle part is slid into hopper 34 downwards, and the lower right-hand side of feed bin room 492 is provided with by the first trundle of blanking plate 494 Bin blanking plate 493, the left end of bin blanking plate 493 is located at the left side of feed bin room 492, and the right-hand member of bin blanking plate 493 passes through blanking plate Second trundle 495 is connected with blanking plate control spanner 497 left side lower end, and blanking plate control spanner 497 is L-type structure, under The flitch control right side upper end of spanner 497 is connected by spherical hinge with the bottom of spanner fixed plate 498, blanking plate control spanner 497 Middle part is buckled on the curved cuboid protruding block in the lower end of blanking connecting rod 31, according to being buckled in the different positions of blanking connecting rod 31 The curved cuboid protruding block in the lower end put, makes blanking plate control to move up and down below the left end of spanner 497, so that feed bin The size of the left side of blanking plate 493 opening, realizes the function of control discharge quantity, and spanner fixed plate 498 is rectangular parallelepiped structure, and spanner Fixed plate 498 is located at the main front of depression bar 51, and the upper surface of spanner fixed plate 498 is connected with the top of frame 1, during specific works, under Flitch control spanner 497 middle part is buckled on the curved cuboid protruding block in the lower end of blanking connecting rod 31, according to being buckled in down Expect the curved cuboid protruding block in the lower end of the diverse location of connecting rod 31, blanking plate is controlled above and below below the left end of spanner 497 It is mobile, so as to adjust the size of the left side of bin blanking plate 493 opening, when shaking 47 transmission shock power of the second drive link, Vibrations contiguous block 491 can pass to vibrations blanking guide groove 496, and the vibrations of blanking guide groove 496 cause the drier of feed bin room 492 Down slid along the guide groove at the middle part of blanking guide groove 496 into hopper 34 downwards, realize the function of blanking.

During work, the first step：Drier is loaded onto into feed bin room 492 first, vibration motor 42 is opened, vibration motor 42 drives Eccentric wheel 44 is rotated, and one end installed in the vibrations connecting rod 45 of the outer end of eccentric wheel 44 can be circled with eccentric wheel 44, The vibrations other end of connecting rod 45 is by driving the first drive link 46 of vibrations to move in the presence of bearing pin, in the limit of vibrations limit body 43 Make under using so that the first drive link 46 of vibrations can only make traverse motion, so that the vibrations right-hand member of the first drive link 46 Trapezoidal block rubber can make transverse movement to the ladder type block rubber of the lower end of suspension rod 53, and the ladder type block rubber of the lower end of suspension rod 53 is to vibrations the The trapezoidal block rubber of the left end of two drive link 47 makees transverse movement, and the second drive link 47 is by shaking under the cushioning effect of buffer spring 48 To the vibrations soft vibrations of feed bin 49, blanking plate is then set to control the middle part of spanner 497 to be buckled in the lower end of blanking connecting rod 31 curved Cuboid protruding block on, according to the curved cuboid protruding block in the lower end for being buckled in the diverse location of blanking connecting rod 31, make Obtain and moved up and down below the blanking plate control left end of spanner 497, so as to adjust the size of the left side of bin blanking plate 493 opening, When shaking 47 transmission shock power of the second drive link, vibrations can be passed to blanking guide groove 496 by vibrations contiguous block 491, and blanking is led The vibrations of groove 496 cause the drier in feed bin room 492 down to be slid downwards to blanking along the guide groove at the middle part of blanking guide groove 496 In bucket 34, when the drier in screening blanking device 3 reaches constant weight, blanking connecting rod 31 is driven under the main right-hand member of depression bar 51 Pressure motion, the ladder type block rubber positioned at the lower end of suspension rod 53 of the main left end of depression bar 51 can be in the presence of depression bar fixed connecting plate 52 Upper motion so that spacing increases between the trapezoidal block rubber of the vibrations right-hand member of the first drive link 46 and the ladder type block rubber of the lower end of suspension rod 53 Greatly, so as to reduce vibrations of the trapezoidal block rubber of the vibrations right-hand member of the first drive link 46 to the ladder type block rubber of the lower end of suspension rod 53 Power, the shaking force of the second 47 pairs of drive link vibrations feed bin 49 reduces therewith, reduces the speed of blanking, while being buckled in blanking company Blanking plate control spanner 497 on extension bar 31 can also be moved upwards, so as to control the motion upwards of the left side of bin blanking plate 493, be made Obtain the opening of feed bin room 492 to reduce, further reduce the speed of blanking, it is possible to achieve by screening drier in blanking device 3 Weight change and change the function of blanking velocity automatically；Second step：When hopper 34 is arrived in the drier vibrations of shaking device 4 When, sieve plate can make the drier of modest size fall on the bottom of hopper 34, be then turned on blanking motor 36, and blanking motor 36 can band Dynamic blanking motor bearing pin 38 rotates, so that the folding of blanking switch plate 39 being connected with blanking motor bearing pin 38 is driven, under completion The action of material, it is achieved thereby that the drier blanking function of automatic control velocity, is solved under the existing artificial progress to drier Expect the problems such as the inefficiency existed, labor intensity are big, discharge quantity, blanking velocity of artificial control drier are difficult to control to, Purpose is reached.

The basic principles, principal features and advantages of the present invention have been shown and described above.The technical staff of the industry should Understand, the present invention is not limited to the above embodiments, the simply explanation present invention of the description in above-described embodiment and specification Principle, without departing from the spirit and scope of the present invention, various changes and modifications of the present invention are possible, and these change and changed Enter all fall within the protetion scope of the claimed invention.The claimed scope of the invention is by appended claims and its equivalent Define.

Claims (4)

1. a kind of can efficiently control the drier blanking machine of blanking velocity, including frame (1), screening blanking device (3), vibrations dress Put (4) and strut device (5), it is characterised in that：Frame (1) is U-shape structure, screening blanking device (3) upper end and strut device (5) it is connected, shaking device (4) is located on the left of screening blanking device (3), shaking device (4) left end is arranged on the left of frame (1) On face, strut device (5) at the top of frame (1) with being connected；Wherein：

Described screening blanking device (3) includes blanking connecting rod (31), fixed connecting plate (32), No. two fixed connecting plates (33), hopper (34), sieve plate (35), blanking motor (36), blanking motor base (37), blanking motor bearing pin (38) and blanking Switchboard (39), blanking connecting rod (31) is rectangular parallelepiped structure, and blanking connecting rod (31) upper end passes through bearing pin and strut device (5) It is connected, and blanking connecting rod (31) middle and upper part is evenly arranged the curved cuboid protruding block in five row lower ends, a fixation Connecting plate (32) right side is arranged on blanking connecting rod (31) left bottom, and fixed connecting plate (32) left end is arranged on blanking Struggle against on (34) upper right, No. two fixed connecting plate (33) one end are arranged on upper end on the left of hopper (34), and No. two are fixedly connected Plate (33) other end is arranged on blanking connecting rod (31) left end, and hopper (34) is middle part funnel type structure with groove, under Groove in the middle part of hopper (34) is provided with the right side of sieve plate (35), hopper (34) lower end and is provided with blanking motor base (37), under Expect that motor (36) is arranged on blanking motor base (37), blanking motor (36) passes through shaft coupling and blanking motor bearing pin (38) one End is connected, and blanking motor bearing pin (38) other end is arranged in hopper (34) left bottom by bearing, blanking motor pin Axle (38) at the top of blanking switch plate (39) with being connected；

Described strut device (5) includes main depression bar (51), depression bar fixed connecting plate (52), suspension rod (53), balancing weight (54), limit Position bar (55) and limited block (56), main depression bar (51) right-hand member leading flank are connected with blanking connecting rod (31) by bearing pin, depression bar Fixed connecting plate (52) is located at connecting rod (31) and the left side of main depression bar (51) tie point, and depression bar fixed connecting plate (52) is rectangular Body structure, depression bar fixed connecting plate (52) upper end is connected with frame (1), depression bar fixed connecting plate (52) lower end by bearing pin with Main depression bar (51) right-hand member trailing flank is connected, and suspension rod (53) is located at main depression bar (51) left end, and suspension rod (53) is lower end band ladder type rubber The cylindrical structure of blob of viscose, suspension rod (53) upper end is connected by bearing pin with main depression bar (51), and balancing weight (54) is located at suspension rod (53) left side, balancing weight (54) is arranged on above main depression bar (51), and gag lever post (55) is provided with main depression bar (51) left surface, is limited Position bar (55) is L-type structure, and limited block (56) is triangular structure, and limited block (56) left side is arranged on frame (1) side Side, gag lever post (55) is corresponding with limited block (56) position.

2. a kind of the drier blanking machine of blanking velocity can be efficiently controlled according to claim 1, it is characterised in that：It is described Shaking device (4) include vibration motor bearing (41), vibration motor (42), vibrations limit body (43), eccentric wheel (44), vibrations Connecting rod (45), the first drive link of vibrations (46), the second drive link of vibrations (47), vibrations buffer spring (48) and vibrations feed bin (49), vibration motor bearing (41) is that frame (1) side middle part is arranged on the left of triangular structure, vibration motor bearing (41), Vibration motor (42) is arranged on vibration motor bearing (41) by motor cabinet, and the output shaft of vibration motor (42) is arranged on bias Take turns on (44) center, vibrations connecting rod (45) one end is arranged on eccentric wheel (44) outer end by bearing pin, shake connecting rod (45) other end is connected by bearing pin with the first drive link of vibrations (46), and the first drive link of vibrations (46) is that right-hand member has trapezoidal rubber Each one vibrations limit body (43) of arrangement symmetrical above and below, shakes spacing in the middle part of the cylindrical structure of blob of viscose, vibrations connecting rod (45) Body (43) is L-type structure, and vibrations limit body (43) left end is arranged on frame (1) side, positioned at the first drive link (46) two of vibrations The vibrations limit body (43) of side to be slidably matched, shakes the trapezoidal of the first drive link (46) right-hand member with the first drive link of vibrations (46) Block rubber is located on the left of the ladder type block rubber of suspension rod (53) lower end, and the second drive link of vibrations (47) is that left end has trapezoidal block rubber Cylindrical structure, the trapezoidal block rubber of vibrations the second drive link (47) left end is located at the ladder type block rubber right side of suspension rod (53) lower end Side, the first drive link of vibrations (46) is located on same axis with the second drive link of vibrations (47), and the first drive link of vibrations (46) is right The ladder type block rubber shape of the trapezoidal block rubber at end, the trapezoidal block rubber for shaking the second drive link (47) left end and suspension rod (53) lower end Shape is engaged, and vibrations buffer spring (48) is sleeved in vibrations the second drive link (47), vibrations the second drive link (47) right-hand member with Vibrations feed bin (49) is connected, and vibrations buffer spring (48) left end is arranged on the trapezoidal rubber of vibrations the second drive link (47) left end On block, vibrations buffer spring (48) right-hand member is connected with vibrations feed bin (49).

3. a kind of the drier blanking machine of blanking velocity can be efficiently controlled according to claim 2, it is characterised in that：It is described Vibrations feed bin (49) include vibrations contiguous block (491), feed bin room (492), bin blanking plate (493), blanking plate first and be driven Sell (494), the trundle of blanking plate second (495), blanking guide groove (496), blanking plate control spanner (497) and spanner fixed plate (498), be connected on the left of vibrations contiguous block (491) with vibrations the second drive link (47) right-hand member, on the right side of vibrations contiguous block (491) and Blanking guide groove (496) is connected, and blanking guide groove (496) is the triangular structure that middle part carries guide groove, and blanking guide groove (496) is located at Above hopper (34), blanking guide groove (496) left surface upper end is provided with feed bin room (492), and feed bin room (492) are hollow recessed Type structure, feed bin room (492) lower right-hand side is provided with bin blanking plate (493), feed bin by the trundle of blanking plate first (494) Blanking plate (493) left end is located on the left of feed bin room (492), and bin blanking plate (493) right-hand member passes through the trundle of blanking plate second (495) it is connected with lower end on the left of blanking plate control spanner (497), blanking plate control spanner (497) is L-type structure, blanking plate Upper end is connected by spherical hinge with spanner fixed plate (498) bottom on the right side of control spanner (497), and spanner fixed plate (498) is Rectangular parallelepiped structure, and spanner fixed plate (498) is located at main depression bar (51) front, spanner fixed plate (498) upper surface and frame (1) Top is connected.

4. a kind of the drier blanking machine of blanking velocity can be efficiently controlled according to claim 3, it is characterised in that：It is described Blanking plate control spanner (497) in the middle part of be buckled on the curved cuboid protruding block in blanking connecting rod (31) lower end.