CN109604031A - Power ultrasound promotes soil restoring device vibration screening device - Google Patents

Abstract

The present invention relates to screening plants, are in particular that power ultrasound promotes soil restoring device vibration screening device.Including breaking up mechanism I, breaking up mechanism II, screening mechanism, multidirectional damping, pedestal and drying mechanism, soil block in soil first can be crushed to sandy soil by breaking up plate by the present invention, the interval for carrying native plate, which moves up and down, can make in soil intermittent delivery to sieving plate, sieving plate again sieves the soil, the foreign material sieves such as stone are branched away, soil is dried finally by Drying and heating tube, its contained humidity is reduced, the rotation of Drying is beneficial to soil and uniformly and adequately dry.

Description

Power ultrasound promotes soil restoring device vibration screening device

Technical field

The present invention relates to screening plants, are in particular that power ultrasound promotes soil restoring device vibration screening It sets.

Background technique

Soil remediation refers to the method transfer using physics, chemistry and biology, absorbs, the pollution in degradation and conversion soil Object makes its concentration be reduced to acceptable level, or converts poisonous and hazardous pollutant to harmless substance.Wherein utilize difference Power ultrasound can handle pollutant different in soil, this is a kind of advanced oxidation technology, can effectively be degraded and mineralising Organic pollutant difficult to degrade.Such as polycyclic aromatic hydrocarbon, it is important environment and food contaminant and is distributed widely in environment, Strong influence can be caused to human health by food chain in the soil, it is any to have organic matter processing, it discards, burning or use Place be likely to generate polycyclic aromatic hydrocarbon.And mechanical effect, fuel factor and chemistry caused by the cavitation phenomenon for passing through ultrasonic wave Polycyclic aromatic hydrocarbon in soil can be then desorbed in solution by effect, and can occur further to degrade.But containing in soil Water can be such that the scattering probability of ultrasonic wave increases, and reduce effective acoustic density of ultrasonic wave, be unfavorable for ultrasonic degradation solution In organic pollutant, in addition the impurity such as stone in soil be also unfavorable for ultrasonic wave be adsorbed on it is organic on soil particle Pollutant.Soil restoring device is promoted just to be particularly important with vibration screening device so designing a power ultrasound.

Summary of the invention

The object of the present invention is to provide power ultrasounds to promote soil restoring device vibration screening device, can reduce soil In water content and the impurity such as stone in soil can be removed, be conducive to ultrasound promote soil repair.

The purpose of the present invention is achieved through the following technical solutions:

Power ultrasound promotes soil restoring device vibration screening device, including breaks up mechanism I, breaks up mechanism II, screening Mechanism, multidirectional damping, pedestal and drying mechanism, it is described break up mechanism II and be connected to break up in mechanism I, screening mechanism is fixed It is connected on multidirectional damping, breaks up the upper end that mechanism I is fixedly connected on multidirectional damping, multidirectional damping is fixed to be connected It connects and is fixedly connected with drying mechanism on the upper end of pedestal, pedestal.

The mechanism I that breaks up includes the first shell, soil entrance, the first funnel, soil outlet, upper cover, opening, first band Seat bearing, second housing, the second funnel, carries native plate, mounting plate, the first traveller and the first spring at bracket, the first upper shell Front side is provided with soil entrance and is fixedly connected with the first funnel, is provided with soil at left and right sides of the first shell lower end and goes out Mouthful, upper cover is fixedly connected on the upper end of the first shell, and the upper end of upper cover is provided with opening and is fixedly connected with the first rolling bearing units, The front and rear sides of first shell lower end are fixedly connected to bracket, and second housing is fixedly connected on the lower end of the first shell, and second Funnel is fixedly connected on the lower end of second housing, carries the inner end that native plate is slidably connected at the first shell, and the lower end for carrying native plate is fixed It is connected with mounting plate, the lower end of mounting plate is fixedly connected with the first traveller, and the first traveller is slidably connected at the lower end of the first shell And it is cased with the first spring thereon, the lower end in contact of the lower end of the first spring and the first shell.

The mechanism II that breaks up includes first motor, first pulley, the second belt wheel, axis, first connecting rod, second connecting rod, hinge Joint chair breaks up plate and breaks up slot, is fixedly connected with first pulley on the output shaft of first motor, first pulley by transmission belt with The connection of second belt wheel transmission, the second belt wheel are fixedly connected on the front end of axis, and the rear end thereof of axis is connected with one end of first connecting rod, The other end of first connecting rod and one end of second connecting rod are articulated and connected, and the other end and hinged seat of second connecting rod are articulated and connected, hinge Joint chair, which is fixedly connected on, to be broken up on plate, is broken up to be provided on plate and multiple is broken up slot；The first motor is fixedly connected on outside first The front end of shell, the middle-end of axis are rotatably connected in the first rolling bearing units, break up the inner end that plate is slidably connected at the first shell.

The screening mechanism includes screening frame, wedge groove, sieving plate, screening hole, vibration excitor, gear door, the first in command, wedge shape The front and rear sides of sliding block and third funnel, screening frame left end are provided with wedge groove, sieve and are fixedly connected on the downside of frame inner end Sieving plate is provided with multiple screening holes on sieving plate, and the rear and front end for sieving frame is fixedly connected to vibration excitor, keeps off the front and back of door Both ends are fixedly connected to wedge block, and two wedge blocks are slidably connected at respectively in two wedge grooves, and the upper end for keeping off door is solid Surely it is connected with the first in command, third funnel is fixedly connected on the lower end of screening frame；The right end of the sieving plate is located at the second funnel Underface.

The multidirectional damping includes the first damping, the second damping and the second attachment beam, the first damping machine Structure includes the second traveller, the first link block, first crossbeam, second cross beam, second spring, third spring, third traveller, the second company Block, the 4th spring and the 5th spring are connect, the middle-end of the second traveller is fixedly connected with the first link block, the upper and lower ends of the second traveller The left end of first crossbeam and the left end of second cross beam are slidably connected respectively, and second spring and third bullet are cased on the second traveller Spring, second spring between the first link block and first crossbeam, third spring between the first link block and second cross beam, The middle-end of third traveller is fixedly connected with the second link block, and the upper and lower ends of third traveller slidably connect first crossbeam respectively The right end of right end and second cross beam, is cased with the 4th spring and the 5th spring on third traveller, the 4th spring be located at first crossbeam and Between second link block, for the 5th spring between second cross beam and the second link block, first damping is provided with two A, second damping includes third crossbeam, the 4th traveller, the first attachment beam and the 6th spring, the left end of third crossbeam It is fixedly connected with the 4th traveller, the left end of the 4th traveller slidably connects the first attachment beam, and the middle-end of the 4th traveller is cased with the 6th Spring, there are two the second damping settings, and one of third crossbeam is fixedly connected on two first crossbeams and two The left end of second cross beam, another third crossbeam are fixedly connected on the right end of two first crossbeams and two second cross beams, and second There are two attachment beam settings, and the rear and front end of one of them the first attachment beam is fixedly connected on the left end of two the second attachment beams, The rear and front end of another the first attachment beam is fixedly connected on the right end of two the second attachment beams；The screening frame rear and front end The left and right sides is fixedly connected with the first link block and the second link block respectively, and two brackets are respectively fixedly connected at two second The upper end of attachment beam.

The pedestal includes Base body, the second motor, third belt wheel, the second rolling bearing units and third rolling bearing units, base The upper end of seat main body is fixedly connected with the second motor, and third belt wheel, Base body are fixedly connected on the output shaft of the second motor Left and right ends have been respectively fixedly connected with the second rolling bearing units and third rolling bearing units；The front and rear sides of the Base body upper end are equal It is fixedly connected with the second attachment beam.

The drying mechanism include Drying, internal frame, heating tube, the 4th belt wheel, baffle ring, back cover, main shaft, door platform, Door, second handle and permanent magnet, the inner end of Drying are fixedly connected with internal frame, heating tube, Drying are fixedly connected in internal frame On be fixedly connected with the 4th belt wheel, the left and right ends of Drying have been respectively fixedly connected with baffle ring and back cover, and the right end of back cover is fixed It is connected with main shaft, is fixedly connected on the right side of Drying lower end with platform, it is connected to Drying with door with platform, door platform It is inside inserted with door, the rear end of door is fixedly connected with second handle, and the front end of door platform is fixedly connected with permanent magnet；The Drying Left and right ends be rotatably connected in the second rolling bearing units and third rolling bearing units respectively, third belt wheel and the 4th belt wheel pass through biography Dynamic V belt translation connection, the right side of third funnel lower end is located in baffle ring.

Power ultrasound of the present invention promotes having the beneficial effect that for soil restoring device vibration screening device

Soil block in soil first can be crushed to sandy soil by breaking up plate by the present invention, and the interval of the native plate of load moves up and down can So that sieving plate again sieves the soil in soil intermittent delivery to sieving plate, the foreign material sieves such as stone are branched away, finally Soil is dried by Drying and heating tube, reduces its contained humidity, the rotation of Drying is beneficial to soil and carries out Even and sufficient drying.

Detailed description of the invention

The present invention will be further described in detail with specific implementation method with reference to the accompanying drawing.

Fig. 1 is the overall structure diagram one that power ultrasound of the present invention promotes soil restoring device vibration screening device；

Fig. 2 is overall structure diagram two of the invention；

Fig. 3 is whole schematic cross-sectional view of the invention；

Fig. 4 is of the invention to break up I structural schematic diagram of mechanism；

Fig. 5 is of the invention to break up I schematic diagram of internal structure of mechanism；

Fig. 6 is of the invention to break up II structural schematic diagram of mechanism；

Fig. 7 is screening mechanism structural schematic diagram of the invention；

Fig. 8 is screening mechanism partial structural diagram of the invention；

Fig. 9 is multidirectional damping structural schematic diagram of the invention；

Figure 10 is the first damping structural schematic diagram of the invention；

Figure 11 is the second damping structural schematic diagram of the invention；

Figure 12 is base construction schematic diagram of the invention；

Figure 13 is drying mechanism structural schematic diagram one of the invention；

Figure 14 is drying mechanism structural schematic diagram two of the invention.

In figure: breaking up mechanism I 1；First shell 1-1；Soil entrance 1-2；First funnel 1-3；Soil exports 1-4；Upper cover 1-5；Be open 1-6；First rolling bearing units 1-7；Bracket 1-8；Second housing 1-9；Second funnel 1-10；Carry native plate 1-11；Installation Plate 1-12；First traveller 1-13；First spring 1-14；Break up mechanism II 2；First motor 2-1；First pulley 2-2；Second belt wheel 2-3；Axis 2-4；First connecting rod 2-5；Second connecting rod 2-6；Hinged seat 2-7；Break up plate 2-8；Break up slot 2-9；Screening mechanism 3；Sieve Divide frame 3-1；Wedge groove 3-2；Sieving plate 3-3；Sieve hole 3-4；Vibration excitor 3-5；Keep off door 3-6；First in command 3-7；Wedge block 3-8；Third funnel 3-9；Multidirectional damping 4；First damping 4-1；Second traveller 4-1-1；First link block 4-1-2； First crossbeam 4-1-3；Second cross beam 4-1-4；Second spring 4-1-5；Third spring 4-1-6；Third traveller 4-1-7；Second connects Meet block 4-1-8；4th spring 4-1-9；5th spring 4-1-10；Second damping 4-2；Third crossbeam 4-2-1；4th traveller 4-2-2；First attachment beam 4-2-3；6th spring 4-2-4；Second attachment beam 4-3；Pedestal 5；Base body 5-1；Second motor 5-2；Third belt wheel 5-3；Second rolling bearing units 5-4；Third rolling bearing units 5-5；Drying mechanism 6；Drying 6-1；Internal frame 6-2； Heating tube 6-3；4th belt wheel 6-4；Baffle ring 6-5；Back cover 6-6；Main shaft 6-7；Door platform 6-8；Door 6-9；Second handle 6-10； Permanent magnet 6-11.

Specific embodiment

The present invention is described in further detail below in conjunction with the accompanying drawings.

Specific embodiment 1:

As represented in figures 1 through 14, power ultrasound promotes soil restoring device vibration screening device, including breaks up mechanism I 1, hits Broken mechanism II 2, screening mechanism 3, multidirectional damping 4, pedestal 5 and drying mechanism 6, it is described break up mechanism II 2 and be connected to break up In mechanism I 1, screening mechanism 3 is fixedly connected on multidirectional damping 4, is broken up mechanism I 1 and is fixedly connected on multidirectional damping 4 Upper end, multidirectional damping 4 is fixedly connected on the upper end of pedestal 5, drying mechanism 6 is fixedly connected on pedestal 5.

Specific embodiment 2:

As represented in figures 1 through 14, the mechanism I 1 that breaks up includes the first shell 1-1, soil entrance 1-2, the first funnel 1-3, soil Earth exports 1-4, upper cover 1-5, opening 1-6, the first rolling bearing units 1-7, bracket 1-8, second housing 1-9, the second funnel 1-10, carries Native plate 1-11, mounting plate 1-12, the first traveller 1-13 and the first spring 1-14 are provided with soil on front side of the first upper end shell 1-1 Earth entrance 1-2 and it is fixedly connected with the first funnel 1-3, soil outlet 1- is provided at left and right sides of the first lower end shell 1-1 4, upper cover 1-5 are fixedly connected on the upper end of the first shell 1-1, and the upper end of upper cover 1-5 is provided with opening 1-6 and is fixedly connected with the One rolling bearing units 1-7, the front and rear sides of the first lower end shell 1-1 are fixedly connected to bracket 1-8, and second housing 1-9 is fixed to be connected It connects in the lower end of the first shell 1-1, the second funnel 1-10 is fixedly connected on the lower end of second housing 1-9, carries soil plate 1-11 sliding It is connected to the inner end of the first shell 1-1, the lower end for carrying native plate 1-11 is fixedly connected with mounting plate 1-12, the lower end of mounting plate 1-12 It is fixedly connected with the first traveller 1-13, the first traveller 1-13 is slidably connected at the lower end of the first shell 1-1 and is cased with first thereon Spring 1-14, the lower end in contact of the lower end of the first spring 1-14 and the first shell 1-1.It is to be repaired being toppled over by the first funnel 1-3 When multiple soil, it is to be ensured that break up the upper end that plate 2-8 is located at the first funnel 1-3, this is in order to ensure soil can smoothly topple over On carrying native plate 1-11, the position such as Fig. 3 for carrying native plate 1-11 can be seen that it and be located in soil outlet 1-4, and pass through the first bullet If spring 1-14 not will lead to the native plate 1-11 of load have soil on the native plate 1-11 of load at this time always situated in the upper end of soil outlet 1-4 Decline carries soil plate 1-11 and has sealed soil outlet 1-4, and soil will not be detached from by soil outlet 1-4 and carry native plate 1-11 at this time.

Specific embodiment 3:

As represented in figures 1 through 14, it is described break up mechanism II 2 include first motor 2-1, first pulley 2-2, the second belt wheel 2-3, Axis 2-4, it first connecting rod 2-5, second connecting rod 2-6, hinged seat 2-7, breaks up plate 2-8 and breaks up slot 2-9, first motor 2-1's is defeated First pulley 2-2 is fixedly connected on shaft, first pulley 2-2 is sequentially connected by transmission belt and the second belt wheel 2-3, the second band Wheel 2-3 is fixedly connected on the front end of axis 2-4, and the rear end thereof of axis 2-4 is connected with one end of first connecting rod 2-5, first connecting rod 2-5 The other end and one end of second connecting rod 2-6 be articulated and connected, the other end of second connecting rod 2-6 and hinged seat 2-7 are articulated and connected, hinge Joint chair 2-7, which is fixedly connected on, to be broken up on plate 2-8, is broken up to be provided on plate 2-8 and multiple is broken up slot 2-9；The first motor 2-1 is solid Surely it is connected to the front end of the first shell 1-1, the middle-end of axis 2-4 is rotatably connected in the first rolling bearing units 1-7, and it is sliding to break up plate 2-8 The dynamic inner end for being connected to the first shell 1-1.The present invention can also cooperate intermittent feeding device to use, break up plate 2-8 can on move down It is dynamic, it can set and break up plate 2-8 when being moved to extreme higher position, feed device starts feeding, breaks up plate 2-8 and begins to decline and is followed by When nearly first funnel 1-3, feed device stops feeding, it is certainly primary be added soil to the first funnel 1-3 height can also, break up Slot 2-9 is conducive to soil block and is crashed to pieces.

Specific embodiment 4:

As represented in figures 1 through 14, the screening mechanism 3 includes screening frame 3-1, wedge groove 3-2, sieving plate 3-3, screening hole 3- 4, vibration excitor 3-5, gear door 3-6, first in command 3-7, wedge block 3-8 and third funnel 3-9, sieve the front and back of the left end frame 3-1 Two sides are provided with wedge groove 3-2, sieve and are fixedly connected with sieving plate 3-3 on the downside of the inner end frame 3-1, are arranged on sieving plate 3-3 There are multiple screening hole 3-4, the rear and front end of screening frame 3-1 is fixedly connected to vibration excitor 3-5, and the rear and front end for keeping off door 3-6 is equal It is fixedly connected with wedge block 3-8, two wedge block 3-8 are slidably connected at respectively in two wedge groove 3-2, gear door 3-6's Upper end is fixedly connected with first in command 3-7, and third funnel 3-9 is fixedly connected on the lower end of screening frame 3-1；The sieving plate 3-3 Right end be located at the underface of the second funnel 1-10.The effect for keeping off door 3-6 is to prevent the case where not sieving sufficiently, such as sieve There are a large amount of soil on scoreboard 3-3, in these soil a part also to be in time for the left end that screening is then shaken to sieving plate 3-3, And keep off door 3-6 and can block the soil that these are not sized and continue to sieve, when screening sufficiently after, the right end of gear door 3-6 is also deposited In impurity such as a large amount of stones, gear door 3-6 can be made to move up by pulling up first in command 3-7 at this time, the impurity such as stone It can be slid from the left end of sieving plate 3-3, vessel can be set in the position of landing, in order to receive these impurity convenient for transfer impurity Or it recycles.

Specific embodiment 5:

As represented in figures 1 through 14, the multidirectional damping 4 includes the first damping 4-1, the second damping 4-2 and the Two attachment beam 4-3, the first damping 4-1 include the second traveller 4-1-1, the first link block 4-1-2, first crossbeam 4-1-3, the Two crossbeam 4-1-4, second spring 4-1-5, third spring 4-1-6, third traveller 4-1-7, the second link block 4-1-8, the 4th bullet Spring 4-1-9 and the 5th spring 4-1-10, the middle-end of the second traveller 4-1-1 are fixedly connected with the first link block 4-1-2, the second traveller The upper and lower ends of 4-1-1 slidably connect the left end of first crossbeam 4-1-3 and the left end of second cross beam 4-1-4 respectively, and second is sliding Be cased with second spring 4-1-5 and third spring 4-1-6 on column 4-1-1, second spring 4-1-5 be located at the first link block 4-1-2 and Between first crossbeam 4-1-3, for third spring 4-1-6 between the first link block 4-1-2 and second cross beam 4-1-4, third is sliding The middle-end of column 4-1-7 is fixedly connected with the second link block 4-1-8, and the upper and lower ends of third traveller 4-1-7 slidably connect respectively The right end of first crossbeam 4-1-3 and the right end of second cross beam 4-1-4 are cased with the 4th spring 4-1-9 and on third traveller 4-1-7 Five spring 4-1-10, the 4th spring 4-1-9 are located between first crossbeam 4-1-3 and the second link block 4-1-8, the 5th spring 4-1- 10 between second cross beam 4-1-4 and the second link block 4-1-8, and there are two the first damping 4-1 settings, and described the Two damping 4-2 include third crossbeam 4-2-1, the 4th traveller 4-2-2, the first attachment beam 4-2-3 and the 6th spring 4-2-4, The left end of third crossbeam 4-2-1 is fixedly connected with the 4th traveller 4-2-2, and the left end of the 4th traveller 4-2-2 slidably connects first Attachment beam 4-2-3, the middle-end of the 4th traveller 4-2-2 are cased with the 6th spring 4-2-4, and the second damping 4-2 is provided with two A, one of third crossbeam 4-2-1 is fixedly connected on the left end of two first crossbeam 4-1-3 and two second cross beam 4-1-4, Another third crossbeam 4-2-1 is fixedly connected on the right end of two first crossbeam 4-1-3 and two second cross beam 4-1-4, and second There are two attachment beam 4-3 settings, the rear and front end of one of them the first attachment beam 4-2-3 is fixedly connected on two the second attachment beams The rear and front end of the left end of 4-3, another first attachment beam 4-2-3 is fixedly connected on the right end of two the second attachment beam 4-3；Institute The left and right sides for stating the screening rear and front end frame 3-1 is fixedly connected with the first link block 4-1-2 and the second link block 4-1- respectively 8, two bracket 1-8 are respectively fixedly connected in the upper end of two the second attachment beam 4-3.Such as Fig. 7 it can be seen that sieving plate 3-3 is to incline Tiltedly it is arranged, this is conducive to the impurity such as stone and is moved to the left, and convenient for being detached from sieving plate 3-3, but soil is also due to this inclination Setting is moved to the left, and continues soil outside screening except through blocking soil, since multidirectional damping 4 can make to sieve Plate 3-3 moves up and down, and when sieving plate 3-3 is upward and moves right, soil thereon can then be got rid of to sieving plate 3-3 Right end, these soil are beaten on sieving plate 3-3, then screening effect is more preferable.

Specific embodiment 6:

As represented in figures 1 through 14, the pedestal 5 includes Base body 5-1, the second motor 5-2, third belt wheel 5-3, the second band Seat bearing 5-4 and third rolling bearing units 5-5, the upper end of Base body 5-1 is fixedly connected with the second motor 5-2, the second motor 5-2 Output shaft on be fixedly connected with third belt wheel 5-3, the left and right ends Base body 5-1 have been respectively fixedly connected with the second rolling bearing units 5-4 and third rolling bearing units 5-5；The front and rear sides of the upper end the Base body 5-1 are fixedly connected to the second attachment beam 4-3. The main function of pedestal 5 is to keep other components mounted thereto, and the second rolling bearing units 5-4 and third rolling bearing units 5-5 are convenient for Drying 6-1 is rotated.

Specific embodiment 7:

As represented in figures 1 through 14, the drying mechanism 6 includes Drying 6-1, internal frame 6-2, heating tube 6-3, the 4th belt wheel 6- 4, baffle ring 6-5, back cover 6-6, main shaft 6-7, door platform 6-8, door 6-9, second handle 6-10 and permanent magnet 6-11, Drying 6- 1 inner end is fixedly connected with internal frame 6-2, and heating tube 6-3 is fixedly connected in internal frame 6-2, and is fixedly connected on Drying 6-1 Four belt wheel 6-4, the left and right ends of Drying 6-1 have been respectively fixedly connected with baffle ring 6-5 and back cover 6-6, and the right end of back cover 6-6 is fixed It is connected with main shaft 6-7, is fixedly connected on the right side of the lower end Drying 6-1 with platform 6-8, Drying 6-1 and door platform 6-8 It is connected to, and door is fixedly connected with second handle 6-10 with a 6-9, the rear end of door 6-9 is inserted in platform 6-8, and door is with platform 6-8's Front end is fixedly connected with permanent magnet 6-11；The left and right ends of the Drying 6-1 are rotatably connected on the second rolling bearing units 5-4 respectively In third rolling bearing units 5-5, third belt wheel 5-3 and the 4th belt wheel 6-4 are sequentially connected by transmission belt, under third funnel 3-9 The right side at end is located in baffle ring 6-5.In using the present invention, first to permanent magnet 6-11 be powered, when its magnetic force a 6-9 is sucked, Door 6-9 will not allow soil to be detached from from the right end of Drying 6-1, and baffle ring 6-5 will not then make soil de- from the left end of Drying 6-1 From needing to give heating tube 6-3 preheating before using the present invention, make to have in Drying 6-1 sufficient heat in time to Drying Soil in 6-1 is dried.

Power ultrasound of the invention promotes soil restoring device vibration screening device, its working principle is that:

Preliminary treatment through the invention is needed in soil to be repaired before reparation, is first crushed to the soil block in soil Sandy soil, then the soil is sieved, i.e. the foreign material sieves such as stone branch away, and finally dry to soil, and it is aqueous to reduce its institute Point.Concrete operations are first to be poured on soil to be repaired on the native plate 1-11 of load by the first funnel 1-3, start first motor 2-1, The output shaft of first motor 2-1 drives first pulley 2-2 around own axis, and first pulley 2-2 passes through transmission belt drive the Two belt wheel 2-3 are around own axis, and for the second belt wheel 2-3 band moving axis 2-4 around own axis, axis 2-4 drives first connecting rod 2-5 is rotated by center of rotation of axis 2-4, and first connecting rod 2-5 drives second connecting rod 2-6 to swing, and second connecting rod 2-6 makes to break up plate 2- 8 move up and down, and break up plate 2-8 and move down until when contacting soil, soil is driven to move down, and soil and the native plate 1-11 of load are same Step decline movement, when carrying soil plate 1-11 and moving down, it will not continue to block soil outlet 1-4, be carried on native plate 1-11 at this time In soil, the soil positioned at lower end can be exported 1-4 by two soil and be detached from the native plate 1-11 of load, these soil pass through the second funnel 1-10 falls in the right side of the upper end sieving plate 3-3, that is, breaks up mechanism I 1 and break up mechanism II 2 in addition to being breached the soil block in soil The function of intermittent delivery soil is also acted as while at sandy soil, when this makes to sieve soil there is no while a large amount of soil not yet There can be soil block, it is ensured that screening quality；When there is soil on sieving plate 3-3, start two vibration excitor 3-5, extremely by Fig. 9 Figure 11 can be seen that the first damping 4-1 and provide the freedom degree of sieving plate 3-3 up and down direction, and provide the damping of the direction, Second damping 4-2 provides the freedom degree of sieving plate 3-3 left and right directions, and provides the damping of the direction, the result is that sieving plate 3-3 can vibrate up and down, and the vibration of sieving plate 3-3 cannot be by sieving the impurity vibration of hole 3-4 to the left by stone etc. thereon End, sandy soil etc. then can fall to third funnel 3-9 by sieving hole 3-4；Soil finally can drop down onto drying by third funnel 3-9 In cylinder 6-1, heating tube 6-3 can dry soil, start the second motor 5-2, the second motor 5-2 at this time and drive third belt wheel 5-3 drives the 4th belt wheel 6-4 around own axis around own axis, third belt wheel 5-3 by transmission belt, and then dries For cylinder 6-1 around own axis, Drying 6-1 drives soil overturning to roll, and it is equal that the rotation of Drying 6-1 is beneficial to soil progress Even and sufficient drying.

Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art The variations, modifications, additions or substitutions that those of ordinary skill is made within the essential scope of the present invention also belong to guarantor of the invention Protect range.

Claims (7)

1. power ultrasound promote soil restoring device vibration screening device, including break up mechanism I (1), break up mechanism II (2), Screening mechanism (3), multidirectional damping (4), pedestal (5) and drying mechanism (6), it is characterised in that: described to break up mechanism II (2) It is connected to and breaks up in mechanism I (1), screening mechanism (3) is fixedly connected on multidirectional damping (4), and it is fixed to break up mechanism I (1) It is connected to the upper end of multidirectional damping (4), multidirectional damping (4) is fixedly connected on the upper end of pedestal (5), on pedestal (5) It is fixedly connected with drying mechanism (6).

2. power ultrasound according to claim 1 promotes soil restoring device vibration screening device, it is characterised in that: institute State break up mechanism I (1) include the first shell (1-1), soil entrance (1-2), the first funnel (1-3), soil outlet (1-4), on It covers (1-5), opening (1-6), the first rolling bearing units (1-7), bracket (1-8), second housing (1-9), the second funnel (1-10), carry Native plate (1-11), mounting plate (1-12), the first traveller (1-13) and the first spring (1-14), before the upper end the first shell (1-1) Side is provided with soil entrance (1-2) and is fixedly connected with the first funnel (1-3), and the left and right sides of the lower end the first shell (1-1) is equal It is provided with soil outlet (1-4), upper cover (1-5) is fixedly connected on the upper end of the first shell (1-1), and the upper end of upper cover (1-5) is set It is equipped with opening (1-6) and is fixedly connected with the first rolling bearing units (1-7), the front and rear sides of the lower end the first shell (1-1) are fixed It is connected with bracket (1-8), second housing (1-9) is fixedly connected on the lower end of the first shell (1-1), and the second funnel (1-10) is fixed It is connected to the lower end of second housing (1-9), carries the inner end that native plate (1-11) is slidably connected at the first shell (1-1), carries native plate (1- 11) lower end is fixedly connected with mounting plate (1-12), and the lower end of mounting plate (1-12) is fixedly connected with the first traveller (1-13), the One traveller (1-13) is slidably connected at the lower end of the first shell (1-1) and is cased with thereon the first spring (1-14), the first spring (1- 14) the lower end in contact of lower end and the first shell (1-1).

3. power ultrasound according to claim 2 promotes soil restoring device vibration screening device, it is characterised in that: institute Stating and breaking up mechanism II (2) includes first motor (2-1), first pulley (2-2), the second belt wheel (2-3), axis (2-4), first connecting rod (2-5), second connecting rod (2-6), break up plate (2-8) and break up slot (2-9) hinged seat (2-7), the output of first motor (2-1) It being fixedly connected on axis first pulley (2-2), first pulley (2-2) is sequentially connected by transmission belt and the second belt wheel (2-3), the Two belt wheels (2-3) are fixedly connected on the front end of axis (2-4), and the rear end thereof of axis (2-4) is connected with the one of first connecting rod (2-5) The one end at end, the other end of first connecting rod (2-5) and second connecting rod (2-6) is articulated and connected, the other end of second connecting rod (2-6) with Hinged seat (2-7) articulated connection, hinged seat (2-7), which is fixedly connected on, to be broken up on plate (2-8), break up be provided on plate (2-8) it is more It is a to break up slot (2-9)；The first motor (2-1) is fixedly connected on the front end of the first shell (1-1), and the middle-end of axis (2-4) turns It is dynamic to be connected in the first rolling bearing units (1-7), break up the inner end that plate (2-8) is slidably connected at the first shell (1-1).

4. power ultrasound according to claim 3 promotes soil restoring device vibration screening device, it is characterised in that: institute State screening mechanism (3) include screening frame (3-1), wedge groove (3-2), sieving plate (3-3), screening hole (3-4), vibration excitor (3-5), Door (3-6), the first in command (3-7), wedge block (3-8) and third funnel (3-9) are kept off, the front and back two of the left end frame (3-1) is sieved Side is provided with wedge groove (3-2), is sieved and is fixedly connected with sieving plate (3-3) on the downside of the inner end frame (3-1), sieving plate (3-3) On be provided with multiple screening holes (3-4), the rear and front end of screening frame (3-1) is fixedly connected to vibration excitor (3-5), keeps off door (3- 6) rear and front end is fixedly connected to wedge block (3-8), and two wedge blocks (3-8) are slidably connected at two wedge shapes respectively In slot (3-2), the upper end of gear door (3-6) is fixedly connected with the first in command (3-7), and third funnel (3-9) is fixedly connected on screening The lower end of frame (3-1)；The right end of the sieving plate (3-3) is located at the underface of the second funnel (1-10).

5. power ultrasound according to claim 4 promotes soil restoring device vibration screening device, it is characterised in that: institute It states multidirectional damping (4) and includes the first damping (4-1), the second damping (4-2) and the second attachment beam (4-3), the One damping (4-1) includes the second traveller (4-1-1), the first link block (4-1-2), first crossbeam (4-1-3), second cross beam (4-1-4), second spring (4-1-5), third spring (4-1-6), third traveller (4-1-7), the second link block (4-1-8), Four springs (4-1-9) and the 5th spring (4-1-10), the middle-end of the second traveller (4-1-1) are fixedly connected with the first link block (4- 1-2), the upper and lower ends of the second traveller (4-1-1) slidably connect left end and the second cross beam of first crossbeam (4-1-3) respectively The left end of (4-1-4) is cased with second spring (4-1-5) and third spring (4-1-6), second spring on the second traveller (4-1-1) (4-1-5) between the first link block (4-1-2) and first crossbeam (4-1-3), third spring (4-1-6) is located at the first connection Between block (4-1-2) and second cross beam (4-1-4), the middle-end of third traveller (4-1-7) is fixedly connected with the second link block (4-1- 8), the upper and lower ends of third traveller (4-1-7) slidably connect the right end and second cross beam (4- of first crossbeam (4-1-3) respectively Right end 1-4) is cased with the 4th spring (4-1-9) and the 5th spring (4-1-10), the 4th spring (4- on third traveller (4-1-7) 1-9) between first crossbeam (4-1-3) and the second link block (4-1-8), the 5th spring (4-1-10) is located at second cross beam Between (4-1-4) and the second link block (4-1-8), there are two the first damping (4-1) settings, the second damping machine Structure (4-2) includes third crossbeam (4-2-1), the 4th traveller (4-2-2), the first attachment beam (4-2-3) and the 6th spring (4-2- 4), the left end of third crossbeam (4-2-1) is fixedly connected with the 4th traveller (4-2-2), and the left end of the 4th traveller (4-2-2), which is slided, to be connected It is connected to the first attachment beam (4-2-3), the middle-end of the 4th traveller (4-2-2) is cased with the 6th spring (4-2-4), the second damping machine There are two structure (4-2) settings, and one of third crossbeam (4-2-1) is fixedly connected on two first crossbeams (4-1-3) and two The left end of second cross beam (4-1-4), another third crossbeam (4-2-1) are fixedly connected on two first crossbeams (4-1-3) and two The right end of a second cross beam (4-1-4), there are two the second attachment beam (4-3) settings, one of them the first attachment beam (4-2-3) Rear and front end is fixedly connected on the left end of two the second attachment beams (4-3), the rear and front end of another the first attachment beam (4-2-3) It is fixedly connected on the right end of two the second attachment beams (4-3)；The left and right sides of described screening rear and front end frame (3-1) is solid respectively Surely it is connected with the first link block (4-1-2) and the second link block (4-1-8), two brackets (1-8) are respectively fixedly connected at two The upper end of second attachment beam (4-3).

6. power ultrasound according to claim 5 promotes soil restoring device vibration screening device, it is characterised in that: institute Stating pedestal (5) includes Base body (5-1), the second motor (5-2), third belt wheel (5-3), the second rolling bearing units (5-4) and Three rolling bearing units (5-5), the upper end of Base body (5-1) are fixedly connected with the second motor (5-2), the second motor (5-2) it is defeated It is fixedly connected on shaft third belt wheel (5-3), the left and right ends Base body (5-1) have been respectively fixedly connected with the second rolling bearing units (5-4) and third rolling bearing units (5-5)；The front and rear sides of Base body (5-1) upper end are fixedly connected to the second connection Beam (4-3).

7. power ultrasound according to claim 6 promotes soil restoring device vibration screening device, it is characterised in that: institute Stating drying mechanism (6) includes Drying (6-1), internal frame (6-2), heating tube (6-3), the 4th belt wheel (6-4), baffle ring (6-5), envelope Bottom (6-6), main shaft (6-7), door platform (6-8), door (6-9), second handle (6-10) and permanent magnet (6-11), Drying The inner end of (6-1) is fixedly connected with internal frame (6-2), is fixedly connected with heating tube (6-3) in internal frame (6-2), on Drying (6-1) It is fixedly connected with the 4th belt wheel (6-4), the left and right ends of Drying (6-1) have been respectively fixedly connected with baffle ring (6-5) and back cover (6- 6), the right end of back cover (6-6) is fixedly connected with main shaft (6-7), is fixedly connected on the right side of the lower end Drying (6-1) with platform (6-8), with door with platform (6-8), it is connected to Drying (6-1), is inserted with door (6-9) in door platform (6-8), after door (6-9) End is fixedly connected with second handle (6-10), and door is fixedly connected with permanent magnet (6-11) with the front end of platform (6-8)；The drying The left and right ends of cylinder (6-1) are rotatably connected on respectively in the second rolling bearing units (5-4) and third rolling bearing units (5-5), third band It takes turns (5-3) and the 4th belt wheel (6-4) to be sequentially connected by transmission belt, the right side of the lower end third funnel (3-9) is located at baffle ring (6-5) It is interior.