CN114950952A - Building regeneration aggregate vibration winnowing equipment - Google Patents

Abstract

The invention relates to the technical field of building aggregate winnowing equipment, in particular to building recycled aggregate vibration winnowing equipment which comprises a rack and a screening device, wherein the rack is provided with a plurality of screening devices; the screening device comprises a first mounting frame, a first screen plate, a second screen plate and a linear driving assembly; the first mounting frame is fixedly arranged on the rack; the first sieve plate and the second sieve plate are slidably mounted on the first mounting frame; the linear driving assembly comprises a screw and a first handle, two thread sections with opposite thread directions are arranged on the screw, the screw is rotatably arranged on the first mounting frame, the screw is in threaded connection with the first sieve plate and the second sieve plate, and the first handle is fixedly sleeved at the end part of the screw. This application has realized manual control through frame and sieving mechanism and has adjusted the sieve mesh size, screens the function of different volume building aggregate, has further improved the screening efficiency of building regeneration aggregate, has satisfied the needs of different use scenes, and is portable and effective, has greatly improved the suitability of vibration winnowing equipment.

Description

Building regeneration aggregate vibration winnowing equipment

Technical Field

The invention relates to the technical field of building aggregate winnowing equipment, in particular to building recycled aggregate vibration winnowing equipment.

Background

The recycled aggregate is a building raw material which is obtained by sorting, crushing and screening building garbage and can be directly applied; because the shape of the construction waste is irregular, the construction waste is easy to be clamped on the sieve plate to block the sieve plate.

Therefore, chinese patent No. cn202123026086.x discloses a vibration winnowing equipment for building regeneration aggregate, it passes through the motor, the drive shaft that the cooperation drive of belt and belt pulley corresponds rotates, and make the push pedal in the drive shaft extrude the propelling movement to the sieve, make the sieve up-and-down motion, carry out spacingly with the help of the telescopic link to the sieve simultaneously, and the sieve is in-process from top to bottom, can screen the material, simultaneously with the help of the fan with the help of the tiny particle in the material through the guiding tube carry to the receipts material board that corresponds in, and can drive push pedal and fly leaf backward through starting electric putter, the fly leaf also shifts out the jar body with the sieve when backward moving, thereby be convenient for the user to carry out clean maintenance to the sieve, avoid long-time use the sieve to take place to block up, avoid influencing the screening effect.

However, the preparation of the building recycled aggregate generally needs three processes of feeding, crushing and screening, and is used in different use scenes, such as: municipal administration, road and gardens need the building aggregate of different specifications, and for this reason, operating personnel often need use the sieving mechanism of different models, perhaps change the sieve of corresponding specification, and is very loaded down with trivial details.

Disclosure of Invention

Aiming at the problems, the utility model provides a building regeneration aggregate vibration winnowing equipment has realized screening different volume building aggregate through frame and sieving mechanism, has solved the problem that operating personnel need change the sieve or change sieving mechanism when the building aggregate of screening different specifications.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

a vibration winnowing device for building recycled aggregate comprises a frame and a screening device; the screening device comprises a first mounting frame, a first screen plate, a second screen plate and a linear driving assembly; the first mounting frame is fixedly arranged on the rack; the first sieve plate and the second sieve plate are slidably mounted on the first mounting frame; the linear driving assembly comprises a screw and a first handle, two thread sections with opposite thread directions are arranged on the screw, the screw is rotatably arranged on the first mounting frame, the screw is in threaded connection with the first sieve plate and the second sieve plate, and the first handle is fixedly sleeved at the end part of the screw.

Preferably, the screening device further comprises a fixing component, wherein the fixing component comprises a clamp, a first elastic piece, a connecting strip, a second handle and a second elastic piece; the clamping nails are arranged in a plurality and are respectively installed on the first sieve plate and the second sieve plate in a sliding mode; the first elastic pieces are arranged on the first sieve plate and the second sieve plate respectively, two ends of each first elastic piece arranged on the first sieve plate are fixedly connected with the first sieve plate and the clamp respectively, and two ends of each first elastic piece arranged on the second sieve plate are fixedly connected with the second sieve plate and the clamp respectively; the connecting strip is slidably arranged on the first sieve plate, and a plurality of convex blocks are fixedly arranged on the connecting strip; the second handle is fixedly arranged on the connecting strip; the both ends of second elastic component respectively with connecting strip and first sieve fixed connection.

Preferably, the vibration device comprises a second mounting frame, a first rotating shaft, a balance wheel and a first rotating driving assembly; the second mounting frame is fixedly arranged on the first mounting frame; the first rotating shaft is rotatably arranged on the second mounting frame; the balance wheel is fixedly sleeved on the first rotating shaft; the first rotary driving assembly is fixedly installed on the second installation frame, and the driving end of the first rotary driving assembly is in transmission connection with the first rotating shaft.

Preferably, the vibration means includes a first rotary driver, a first bevel gear, a second rotary shaft, a second bevel gear, a first rotary gear and a second rotary gear; the first rotary driver is fixedly arranged on the second mounting rack; the first bevel gear is fixedly sleeved at the driving end of the first rotary driver; the second rotating shaft is rotatably arranged on the second mounting frame; the second bevel gear and the first rotating gear are fixedly sleeved on the second rotating shaft and are in transmission connection with the first bevel gear; the second rotating gear is fixedly sleeved on the first rotating shaft and is in transmission connection with the first rotating gear, and the transmission ratio of the second rotating gear to the first rotating gear is smaller than 1.

Preferably, the vibration device further comprises an elastic support assembly, and the elastic support assembly comprises a support block, a third elastic piece and a limit block; the supporting blocks are arranged in a plurality, the supporting blocks are slidably mounted on the second mounting frame, the second rotating shaft is rotatably mounted on the supporting blocks, and the first sieve plate and the second sieve plate are rotatably sleeved on the second rotating shaft; two ends of the third elastic part are respectively and fixedly connected with the supporting block and the second mounting frame; the limiting block is fixedly arranged on the second mounting frame.

Preferably, the swing device comprises a third mounting frame, a third rotating shaft and a second rotating drive assembly; the third mounting rack is fixedly arranged on the rack; the third rotating shaft is rotatably arranged on a third mounting frame, and the first mounting frame is fixedly sleeved on the third rotating shaft; the second rotary driving component is fixedly arranged on the rack, and the driving end of the second rotary driving component is in transmission connection with the third rotating shaft.

Preferably, the second rotary drive assembly includes a second rotary drive, a worm, and a worm gear; the second rotary driver is fixedly arranged on the frame; the worm is rotatably arranged on the frame; the worm wheel is fixedly sleeved on the third rotating shaft and is in transmission connection with the worm.

Preferably, the swing device further comprises a plurality of positioning assemblies, the positioning assemblies are respectively positioned on two sides of the rack, and each positioning assembly comprises an installation block, a pressure sensor, a fourth elastic piece and a matching block; the mounting block is fixedly mounted on the rack; the pressure sensor is fixedly arranged on the mounting block; two ends of the fourth elastic piece are respectively fixedly connected with the pressure sensor and the matching block; the matching block is slidably mounted on the mounting block.

Preferably, the device also comprises a material moving device, wherein the material moving device comprises a fourth mounting frame, a feeding frame, a guide chute, a conveyor and a blanking chute; the fourth mounting rack is fixedly arranged on the rack; the feeding frame is fixedly arranged on the fourth mounting frame and is positioned right above the screening device; the guide chute is fixedly arranged on the frame and is positioned right below the screening device; the transmission machine is fixedly arranged at the bottom of the rack; the charging chutes are two, and the two charging chutes are fixedly installed on two sides of the rack respectively.

Preferably, move material device still includes the baffle, and the baffle is equipped with a plurality ofly, and a plurality of baffles equidistance fixed mounting is on the conveyer.

Compared with the prior art, the beneficial effect of this application is:

1. this application has realized manual control through frame and sieving mechanism and has adjusted the sieve mesh size, screens the function of different volume building aggregate, has further improved the screening efficiency of building regeneration aggregate, has satisfied the needs of different use scenes, and is portable and effective, has greatly improved the suitability of vibration winnowing equipment.

2. This application has realized through second mounting bracket, first rotation axis, balance and first rotary driving subassembly that the first rotation axis of drive is rotatory, and first rotation axis drives the balance rotation to centrifugal force through the rotatory production of balance drives the function that first mounting bracket carries out the vibration, makes the material dispersion, is more convenient for filter the material, has also avoided some irregular material cards of shape in screen hole department simultaneously, reaches the purpose that improves material screening efficiency.

3. The third rotating shaft is driven to rotate in a reciprocating mode through the third mounting frame, the third rotating shaft and the second rotating driving assembly, the third rotating shaft drives the first mounting frame, the first sieve plate and the second sieve plate to rotate in a reciprocating mode, materials roll on the sieve screen continuously, qualified materials pass through sieve holes, the materials are collected at the bottom of the sieve screen by an operator, the materials with the inconsistent specifications slide off from the two ends of the first sieve plate and the two ends of the second sieve plate, and therefore the materials are classified; through making the material roll on first sieve and second sieve repeatedly and improve the number of times that the material passes through the sieve mesh, reach the effect that improves the rate of accuracy of screening.

Drawings

FIG. 1 is a perspective view of the present application;

FIG. 2 is a schematic perspective view of a screening apparatus and vibratory apparatus of the present application;

FIG. 3 is a schematic perspective view of a screening apparatus of the present application;

FIG. 4 is a schematic perspective exploded view of the screening apparatus of the present application;

FIG. 5 is an enlarged partial schematic view of FIG. 4 of the present application at A;

FIG. 6 is a perspective view of the vibration apparatus of the present application;

FIG. 7 is a perspective view of the flexible support device of the present application;

FIG. 8 is a perspective view of a swing apparatus of the present application;

FIG. 9 is a front view of the swing apparatus of the present application;

figure 10 is a schematic perspective view of the screening apparatus of the present application during oscillation;

FIG. 11 is an exploded perspective view of a positioning assembly of the present application;

FIG. 12 is a schematic perspective view of the present application;

FIG. 13 is a perspective view of the conveyor of the present application;

the reference numbers in the figures are:

1-a frame;

2-a screening device; 2 a-a first mounting frame; 2 b-a first screen deck; 2 c-a second screen deck; 2 d-linear drive assembly; 2d 1-screw; 2d 2-first grip; 2 e-a stationary component; 2e 1-staple; 2e2 — a first elastic member; 2e 3-connecting strip; 2e 4-second grip; 2e 5-a second elastic member;

3-a vibration device; 3 a-a second mounting frame; 3 b-a first axis of rotation; 3 c-balance wheel; 3 d-a first rotary drive assembly; 3d1 — first rotary drive; 3d2 — first bevel gear; 3d3 — second axis of rotation; 3d4 — second bevel gear; 3d5 — first rotating gear; 3d6 — second rotating gear; 3 e-an elastic support member; 3e 1-support blocks; 3e 2-a third elastic member; 3e 3-stop block;

4-a swing device; 4 a-a third mount; 4 b-a third axis of rotation; 4 c-a second rotary drive assembly; 4c1 — second rotary drive; 4c 2-worm; 4c 3-worm gear; 4 d-a positioning assembly; 4d 1-mounting block; 4d 2-pressure sensor; 4d3 — fourth elastic member; 4d 4-mating block;

5-a material moving device; 5 a-a fourth mount; 5 b-a feeding frame; 5 c-a material guide groove; 5 d-a conveyor; 5 e-a charging chute; 5 f-baffle. Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1-13:

a building recycled aggregate vibration winnowing device comprises a frame 1 and a screening device 2; the screening device 2 comprises a first mounting frame 2a, a first screening plate 2b, a second screening plate 2c and a linear driving assembly 2 d; the first mounting frame 2a is fixedly mounted on the frame 1; the first sieve plate 2b and the second sieve plate 2c are slidably mounted on the first mounting frame 2 a; the linear driving assembly 2d comprises a screw rod 2d1 and a first handle 2d2, two thread sections with opposite thread directions are arranged on the screw rod 2d1, the screw rod 2d1 is rotatably mounted on the first mounting frame 2a, the screw rod 2d1 is in threaded connection with the first sieve plate 2b and the second sieve plate 2c, and the first handle 2d2 is fixedly sleeved at the end of the screw rod 2d 1.

This application has realized the function of screening different volume building aggregate through frame 1 and sieving mechanism 2, has further improved the screening efficiency of building regeneration aggregate, has satisfied the needs of different use scenes. When an operator needs to screen the recycled building aggregates with different specifications, the first handle 2d2 is rotated, the first handle 2d2 drives the screw 2d1 to rotate, and the screw 2d1 drives the first sieve plate 2b and the second sieve plate 2c which are in threaded connection with the screw to slide in opposite directions, so that sieve holes of the first sieve plate and the second sieve plate are matched, sieve holes with larger hole diameters are formed, and aggregates with larger sizes are screened; when aggregates with smaller volume need to be screened, the first handle 2d2 is rotated to drive the screw 2d1 to rotate, and the first sieve plate 2b and the second sieve plate 2c are driven to move, so that sieve holes of the first sieve plate 2b and the second sieve plate 2c are staggered, and sieve holes with smaller apertures are formed; an operator waits for the crushed aggregate to be placed on the first sieve plate 2b and the second sieve plate 2c, and the aggregate with the required aperture is obtained through screening of the first sieve plate 2b and the second sieve plate 2 c; the method is portable and effective in adjusting the screening specification, and greatly improves the applicability of the vibration winnowing equipment.

As shown in fig. 1-5:

the screening device 2 further comprises a fixing component 2e, wherein the fixing component 2e comprises a clamp 2e1, a first elastic piece 2e2, a connecting strip 2e3, a second handle 2e4 and a second elastic piece 2e 5; a plurality of the clips 2e1 are provided, and the plurality of clips 2e1 are respectively slidably mounted on the first screen plate 2b and the second screen plate 2 c; the number of the first elastic pieces 2e2 is multiple, the multiple first elastic pieces 2e2 are respectively installed on the first sieve plate 2b and the second sieve plate 2c, two ends of the first elastic piece 2e2 installed on the first sieve plate 2b are respectively and fixedly connected with the first sieve plate 2b and the clamp staple 2e1, and two ends of the first elastic piece 2e2 installed on the second sieve plate 2c are respectively and fixedly connected with the second sieve plate 2c and the clamp staple 2e 1; the connecting bar 2e3 is slidably mounted on the first screen deck 2b, and a plurality of bumps are fixedly arranged on the connecting bar 2e 3; the second handle 2e4 is fixedly arranged on the connecting strip 2e 3; both ends of the second elastic member 2e5 are fixedly connected with the connecting bar 2e3 and the first screen deck 2b, respectively.

This application has realized the function of fixed first sieve 2b and second sieve 2c position through bail 2e1, first elastic component 2e2, connecting strip 2e3, second handle 2e4 and second elastic component 2e5, has avoided the relative position of first sieve 2b and second sieve 2c to change in the screening process, leads to the condition that the material of different specifications mixes. When the operator needs to change the screening radius, the operator pulls the second grip 2e4 first, the second grip 2e4 drives the connecting bar 2e3 to slide, the convex block on the connecting bar 2e3 slides out of the first screen plate 2b, the staples 2e1 on the first screen plate 2b and the second screen plate 2c return to the original positions under the elastic force of the first elastic member 2e2, at this time, the operator can rotate the first grip 2d2 to drive the first screen plate 2b and the second screen plate 2c to slide, when the adjustment is about to be completed, the operator releases the second grip 2e4, when the adjustment is completed, the connecting bar 2e3 is driven by the elastic force of the second elastic member 2e5 to approach the first screen plate 2b, then the convex block on the connecting bar 2e3 presses the 2e1 installed on the first screen plate 2b, the staple 2e1 installed on the first screen plate 2b presses the second screen plate 2c 1 under the pressing effect, thereby the bail 2e1 roll-off on the drive second sieve 2c, the relative position through the connection of bail 2e1 messenger first sieve 2b and second sieve 2c is fixed to prevent at screening in-process maloperation, lead to the screening aperture to change, the material of different specifications mixes.

As shown in fig. 1 and 2:

the device also comprises a vibrating device 3, wherein the vibrating device 3 comprises a second mounting frame 3a, a first rotating shaft 3b, a balance 3c and a first rotating driving component 3 d; the second mounting frame 3a is fixedly arranged on the first mounting frame 2 a; the first rotating shaft 3b is rotatably mounted on the second mounting frame 3 a; the balance wheel 3c is fixedly sleeved on the first rotating shaft 3 b; the first rotary driving component 3d is fixedly installed on the second installation frame 3a, and a driving end of the first rotary driving component 3d is in transmission connection with the first rotating shaft 3 b.

The function of driving the first mounting frame 2a to vibrate is achieved through the second mounting frame 3a, the first rotating shaft 3b, the balance wheel 3c and the first rotating driving assembly 3d, so that material accumulation is avoided, and normal screening cannot be achieved; simultaneously, also further prevent that the material card from appearing in screen hole department, influencing the condition of screening. The first rotary driving component 3d is electrically connected with the controller; when carrying out the screening, operating personnel sends the signal through the controller and gives first rotation driving assembly 3d, and first rotation driving assembly 3d receives the first rotation axis 3b of drive rotation behind the signal, and first rotation axis 3b drives balance 3c rotatory, and the centrifugal force that produces through balance 3c rotation drives first mounting bracket 2a and vibrates to make the material dispersion, be more convenient for filter the material, also avoided some irregularly shaped material cards in sieve hole department simultaneously.

As shown in fig. 1 and 6:

the vibration device 3 includes a first rotary driver 3d1, a first bevel gear 3d2, a second rotary shaft 3d3, a second bevel gear 3d4, a first rotary gear 3d5, and a second rotary gear 3d 6; the first rotary driver 3d1 is fixedly mounted on the second mounting frame 3 a; the first bevel gear 3d2 is fixedly sleeved at the driving end of the first rotary driver 3d 1; the second rotation shaft 3d3 is rotatably mounted on the second mount 3 a; the second bevel gear 3d4 and the first rotating gear 3d5 are fixedly sleeved on the second rotating shaft 3d3, and the second bevel gear 3d4 is in transmission connection with the first bevel gear 3d 2; the second rotating gear 3d6 is fixedly sleeved on the first rotating shaft 3b, the second rotating gear 3d6 is in transmission connection with the first rotating gear 3d5, and the transmission ratio of the second rotating gear 3d6 to the first rotating gear 3d5 is less than 1.

The present application realizes a function of driving the first rotation shaft 3b to rotate at a high speed by the first rotation driver 3d1, the first bevel gear 3d2, the second rotation shaft 3d3, the second bevel gear 3d4, the first rotation gear 3d5, and the second rotation gear 3d 6. The first rotary driver 3d1 is preferably a servo motor, and the servo motor is electrically connected with the controller; when screening is carried out, an operator sends a signal to the first rotary driver 3d1 through the controller, the first rotary driver 3d1 receives the signal and then drives the first bevel gear 3d2 to rotate, the first bevel gear 3d2 drives the second bevel gear 3d4 in transmission connection with the first bevel gear to rotate, the second bevel gear 3d4 drives the second rotating shaft 3d3 and the first rotating gear 3d5 to rotate, the first rotating gear 3d5 drives the second rotating gear 3d6 in transmission connection with the first rotating gear 3d5 to rotate, and the second rotating gear 3d6 drives the first rotating shaft 3b and the balance wheel 3c to rotate at a high speed, so that the first mounting frame 2a vibrates; the speed increasing structure formed by the first rotating gear 3d5 and the second rotating gear 3d6 increases the rotation speed of the balance 3c, further increases the vibration frequency, and further improves the screening efficiency.

As shown in fig. 1, 2, 6 and 7:

the vibration device 3 further comprises an elastic support component 3e, and the elastic support component 3e comprises a support block 3e1, a third elastic piece 3e2 and a limit block 3e 3; a plurality of supporting blocks 3e1 are provided, the supporting blocks 3e1 are slidably mounted on the second mounting frame 3a, the second rotating shaft 3d3 is rotatably mounted on the supporting blocks 3e1, and the first sieve plate 2b and the second sieve plate 2c are rotatably sleeved on the second rotating shaft 3d 3; two ends of the third elastic member 3e2 are respectively and fixedly connected with the supporting block 3e1 and the second mounting bracket 3 a; the stopper 3e3 is fixedly provided at the second mounting bracket 3 a.

This application has realized improving the function of frame 1 stability when improving first sieve 2b and second sieve 2c vibration frequency through supporting shoe 3e1, third elastic component 3e2 and stopper 3e3, avoids other parts of installation frequently to vibrate on the frame 1 and leads to its life-span to reduce. When an operator drives the balance wheel 3c to rotate through the first rotary driving component 3d, the balance wheel 3c rotates at a high speed to generate centrifugal force, so that the first sieve plate 2b and the second sieve plate 2c are driven to vibrate rapidly, meanwhile, the supporting block 3e1 is also driven to shake, the supporting block 3e1 moves up and down under the limiting of the limiting block 3e3, the supporting block 3e1 moves to continuously pull the third elastic piece 3e2, and the shaking of the rack 1 is reduced through the buffering of the self elasticity of the third elastic piece 3e2, so that the high-frequency shaking of the rack 1 is avoided, the connection stability among other parts is kept, and the service life of the rack is prolonged.

As shown in fig. 1, 8 and 9:

the swing device 4 is further included, and the swing device 4 comprises a third mounting frame 4a, a third rotating shaft 4b and a second rotating driving component 4 c; the third mounting rack 4a is fixedly arranged on the rack 1; the third rotating shaft 4b is rotatably mounted on the third mounting frame 4a, and the first mounting frame 2a is fixedly sleeved on the third rotating shaft 4 b; the second rotary driving component 4c is fixedly arranged on the frame 1, and the driving end of the second rotary driving component 4c is in transmission connection with the third rotating shaft 4 b.

This application has realized the reciprocal swing of the first mounting bracket of drive 2a through third mounting bracket 4a, third rotation axis 4b and second rotation driving subassembly 4c, improves the function of the correct screening rate of material, has avoided the material that meets the requirements to slide the condition on first sieve 2b and second sieve 2c just from not passing through the sieve mesh, has further improved the screening quality. When an operator screens, the operator sends a signal to the first rotary driving component 3d and the second rotary driving component 4c through the controller, the first rotary driving component 3d drives the first rotary shaft 3b to rotate, the first rotary shaft 3b drives the balance wheel 3c to rotate, so that the first sieve plate 2b and the second sieve plate 2c vibrate rapidly, meanwhile, the second rotary driving component 4c receives the signal and drives the third rotary shaft 4b to rotate in a reciprocating manner, the third rotary shaft 4b drives the first mounting frame 2a, the first sieve plate 2b and the second sieve plate 2c to rotate in a reciprocating manner, so that the materials roll on the sieve continuously, qualified materials pass through sieve holes, the operator collects the materials at the bottom of the sieve, and the materials with inconsistent specifications slide down from two ends of the first sieve plate 2b and the second sieve plate 2c, so that the materials are classified; improve the number of times that the material passed through the sieve mesh through making the material roll repeatedly on first sieve 2b and second sieve 2c to improve the exactness of screening.

As shown in fig. 8 and 9:

the second rotary drive assembly 4c includes a second rotary drive 4c1, a worm 4c2, and a worm gear 4c 3; the second rotary driver 4c1 is fixedly mounted on the frame 1; the worm 4c2 is rotatably arranged on the frame 1; the worm wheel 4c3 is fixedly sleeved on the third rotating shaft 4b, and the worm wheel 4c3 is in transmission connection with the worm 4c 2.

The present application realizes the function of driving the third rotation shaft 4b to rotate stably by the second rotation driver 4c1, the worm 4c2, and the worm wheel 4c 3. The second rotary driver 4c1 is preferably a servo motor, and the servo motor is electrically connected with the controller; an operator sends a signal to the first rotary driver 3d1 and the second rotary driver 4c1 through the controller, the first rotary driver 3d1 receives the signal and then drives the first bevel gear 3d2 to rotate, the first bevel gear 3d2 drives the second bevel gear 3d4 in transmission connection with the first bevel gear to rotate, the second bevel gear 3d4 drives the second rotating shaft 3d3 and the first rotating gear 3d5 to rotate, the first rotating gear 3d5 drives the second rotating gear 3d6 in transmission connection with the first rotating gear 3d5 to rotate, and the second rotating gear 3d6 drives the first rotating shaft 3b and the balance 3c to rotate at a high speed, so that the first mounting frame 2a vibrates; meanwhile, the second rotary driver 4c1 drives the worm 4c2 to rotate after receiving the signal, the worm 4c2 drives the worm wheel 4c3 in transmission connection with the worm to rotate, the worm wheel 4c3 drives the third rotating shaft 4b to rotate in a reciprocating manner, and the third rotating shaft 4b drives the third mounting frame 4a to rotate, so that the materials fully roll on the third mounting frame 4a and the third rotating shaft 4b, and the screening efficiency is improved.

As shown in fig. 1 and 11:

the swinging device 4 further comprises a plurality of positioning assemblies 4d, the plurality of positioning assemblies 4d are respectively positioned at two sides of the machine frame 1, and the positioning assemblies 4d comprise mounting blocks 4d1, pressure sensors 4d2, fourth elastic pieces 4d3 and matching blocks 4d 4; the mounting block 4d1 is fixedly mounted on the frame 1; the pressure sensor 4d2 is fixedly arranged on the mounting block 4d 1; two ends of the fourth elastic piece 4d3 are respectively fixedly connected with the pressure sensor 4d2 and the matching block 4d 4; the mating block 4d4 is slidably mounted on the mounting block 4d 1.

This application has realized the function of the first mounting bracket 2a swing position of accurate location through installation piece 4d1, pressure sensor 4d2, fourth elastic component 4d3 and cooperation piece 4d4, when avoiding first mounting bracket 2a transition rotation, has cushioned the impact between frame 1 and first mounting bracket 2a, further improves the stability of device operation. The pressure sensor 4d2 is electrically connected with the controller; when an operator selects a screen, the operator sends a signal to the first rotary driving assembly 3d and the second rotary driving assembly 4c through the controller, the first rotary driving assembly 3d drives the first rotary shaft 3b to rotate, the first rotary shaft 3b drives the balance wheel 3c to rotate, so that the first screen plate 2b and the second screen plate 2c vibrate rapidly, meanwhile, the second rotary driving assembly 4c receives the signal and drives the third rotary shaft 4b to rotate in a reciprocating manner, the third rotary shaft 4b drives the first mounting frame 2a, the first screen plate 2b and the second screen plate 2c to rotate in a reciprocating manner, the second rotary driver 4c1 drives the first mounting frame 2a to rotate leftwards until the first mounting frame 2a contacts with the left matching block 4d4, then the matching block 4d4 is pressed, the matching block 4d4 compresses the fourth elastic piece 4d3, the fourth elastic piece 4d3 is compressed and then shortens, so as to absorb impact, the pressure sensor 4d2 feeds back a signal to the controller after sensing the pressure, the controller receives signal back reverse drive to make first mounting bracket 2a rotate right, location through locating component 4d, the reciprocating swing's of first mounting bracket 2a stability has further been improved, make operating personnel can accurate controller frequency of oscillation, make the material constantly roll on the screen cloth, qualified material passes through from the sieve mesh, operating personnel collects it in the bottom of screen cloth, the material that the specification does not conform to is from the both ends landing of first sieve 2b and second sieve 2c, it is categorised with the material.

As shown in fig. 1, 12 and 13:

the material conveying device comprises a fourth mounting frame 5a, a feeding frame 5b, a material guide groove 5c, a conveyor 5d and a material charging groove 5 e; the fourth mounting frame 5a is fixedly arranged on the frame 1; the feeding frame 5b is fixedly arranged on the fourth mounting frame 5a, and the feeding frame 5b is positioned right above the screening device 2; the material guide chute 5c is fixedly arranged on the frame 1, and the material guide chute 5c is positioned right below the screening device 2; the conveyor 5d is fixedly arranged at the bottom of the frame 1; the two charging chutes 5e are arranged, and the two charging chutes 5e are respectively and fixedly installed on two sides of the rack 1.

This application has realized making things convenient for operating personnel to carry out the function of material loading and unloading through fourth mounting bracket 5a, material loading frame 5b, baffle box 5c, conveyer 5d and charging chute 5e, has improved the maneuverability of equipment for the material can be accurately carried, thereby has further improved screening efficiency. During the operating personnel material loading, drop into the material from material loading frame 5b department, the material is screened through first mounting bracket 2a and first sieve 2b department, the material that qualifies passes through the sieve mesh, the direction through baffle box 5c is on falling to conveyer 5d in the same direction, carry to the assigned position through conveyer 5d, the material constantly rolls on the screen cloth, the material that the specification is non-conform rolls from the both sides of unqualified material from first mounting bracket 2a and first sieve 2b and falls to the charging chute 5e in, collect through charging chute 5e, so that subsequent processing.

As shown in fig. 1 and 13:

move material device 5 and still include baffle 5f, baffle 5f is equipped with a plurality ofly, and a plurality of baffles 5f equidistance fixed mounting are on conveyer 5 d.

This application has realized the function of qualified material categorised collection through baffle 5f, has further improved the rigor of material classification, avoids the material of different specifications to mix. After an operator throws materials from the feeding frame 5b, the operator sends signals to the first rotary driving component 3d and the second rotary driving component 4c through the controller, and under the driving of the first rotary driving component 3d and the second rotary driving component 4c, the materials are filtered through the first mounting frame 2a and the first sieve plate 2b, so that unqualified materials slide into the two blanking grooves 5e from the two sides of the first mounting frame 2a and the first sieve plate 2b and are collected for subsequent processing, the qualified materials pass through sieve holes, fall onto the conveyor 5d under the guidance of the guide groove 5c and are conveyed to a designated position through the conveyor 5 d; when operating personnel screened the material of another specification, through the isolation of baffle 5f, can prevent effectively that the material of different specifications from mixing, further improved the screening quality.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The vibration winnowing equipment for the building recycled aggregate is characterized by comprising a rack (1) and a screening device (2);

the screening device (2) comprises a first mounting frame (2 a), a first screening plate (2 b), a second screening plate (2 c) and a linear driving assembly (2 d);

the first mounting rack (2 a) is fixedly arranged on the rack (1);

the first sieve plate (2 b) and the second sieve plate (2 c) are slidably mounted on the first mounting frame (2 a);

linear drive assembly (2 d) includes screw rod (2 d 1) and first handle (2 d 2), is provided with two screw thread sections that screw thread direction is opposite on screw rod (2 d 1), and rotatable the installing on first mounting bracket (2 a) of screw rod (2 d 1), screw rod (2 d 1) and first sieve (2 b) and second sieve (2 c) threaded connection, and first handle (2 d 2) is fixed to be cup jointed at the tip of screw rod (2 d 1).

2. The vibratory air separation equipment for construction recycled aggregate as claimed in claim 1, wherein the screening means (2) further comprises a fixing member (2 e), the fixing member (2 e) comprising a staple (2 e 1), a first elastic member (2 e 2), a connecting bar (2 e 3), a second grip (2 e 4) and a second elastic member (2 e 5);

a plurality of clamp nails (2 e 1) are arranged, and the plurality of clamp nails (2 e 1) are respectively installed on the first sieve plate (2 b) and the second sieve plate (2 c) in a sliding way;

the first elastic pieces (2 e 2) are provided in plurality, the first elastic pieces (2 e 2) are respectively arranged on the first sieve plate (2 b) and the second sieve plate (2 c), two ends of the first elastic piece (2 e 2) arranged on the first sieve plate (2 b) are respectively and fixedly connected with the first sieve plate (2 b) and the clamp (2 e 1), and two ends of the first elastic piece (2 e 2) arranged on the second sieve plate (2 c) are respectively and fixedly connected with the second sieve plate (2 c) and the clamp (2 e 1);

the connecting bar (2 e 3) is slidably mounted on the first sieve plate (2 b), and a plurality of convex blocks are fixedly arranged on the connecting bar (2 e 3);

the second handle (2 e 4) is fixedly arranged on the connecting strip (2 e 3);

two ends of the second elastic piece (2 e 5) are respectively and fixedly connected with the connecting bar (2 e 3) and the first sieve plate (2 b).

3. The vibratory air separation equipment for construction recycled aggregate according to claim 1, further comprising a vibration device (3), wherein the vibration device (3) comprises a second mounting frame (3 a), a first rotating shaft (3 b), a balance wheel (3 c) and a first rotary driving component (3 d);

the second mounting rack (3 a) is fixedly arranged on the first mounting rack (2 a);

the first rotating shaft (3 b) is rotatably mounted on the second mounting frame (3 a);

the balance wheel (3 c) is fixedly sleeved on the first rotating shaft (3 b);

the first rotary driving component (3 d) is fixedly arranged on the second mounting frame (3 a), and the driving end of the first rotary driving component (3 d) is in transmission connection with the first rotary shaft (3 b).

4. The vibratory winnowing apparatus of construction recycled aggregate according to claim 3, characterized in that the vibrating device (3) comprises a first rotary driver (3 d 1), a first bevel gear (3 d 2), a second rotary shaft (3 d 3), a second bevel gear (3 d 4), a first rotary gear (3 d 5) and a second rotary gear (3 d 6);

the first rotary driver (3 d 1) is fixedly arranged on the second mounting frame (3 a);

the first bevel gear (3 d 2) is fixedly sleeved at the driving end of the first rotary driver (3 d 1);

the second rotating shaft (3 d 3) is rotatably mounted on the second mounting frame (3 a);

the second bevel gear (3 d 4) and the first rotating gear (3 d 5) are fixedly sleeved on the second rotating shaft (3 d 3), and the second bevel gear (3 d 4) is in transmission connection with the first bevel gear (3 d 2);

the second rotating gear (3 d 6) is fixedly sleeved on the first rotating shaft (3 b), the second rotating gear (3 d 6) is in transmission connection with the first rotating gear (3 d 5), and the transmission ratio of the second rotating gear (3 d 6) to the first rotating gear (3 d 5) is smaller than 1.

5. The vibratory air separation equipment of construction recycled aggregate according to claim 4, wherein the vibration device (3) further comprises an elastic support member (3 e), the elastic support member (3 e) comprises a support block (3 e 1), a third elastic member (3 e 2) and a stopper (3 e 3);

a plurality of supporting blocks (3 e 1) are arranged, the supporting blocks (3 e 1) are slidably mounted on the second mounting frame (3 a), the second rotating shaft (3 d 3) is rotatably mounted on the supporting blocks (3 e 1), and the first sieve plate (2 b) and the second sieve plate (2 c) are rotatably sleeved on the second rotating shaft (3 d 3);

two ends of the third elastic piece (3 e 2) are respectively and fixedly connected with the supporting block (3 e 1) and the second mounting rack (3 a);

the limiting block (3 e 3) is fixedly arranged on the second mounting rack (3 a).

6. The vibratory air separation equipment for construction recycled aggregate according to claim 1, further comprising a swinging device (4), wherein the swinging device (4) comprises a third mounting frame (4 a), a third rotating shaft (4 b) and a second rotating drive component (4 c);

the third mounting rack (4 a) is fixedly arranged on the rack (1);

the third rotating shaft (4 b) is rotatably arranged on a third mounting frame (4 a), and the first mounting frame (2 a) is fixedly sleeved on the third rotating shaft (4 b);

the second rotary driving component (4 c) is fixedly arranged on the rack (1), and the driving end of the second rotary driving component (4 c) is in transmission connection with the third rotating shaft (4 b).

7. The vibratory winnowing apparatus of construction recycled aggregate according to claim 6, characterized in that the second rotary drive assembly (4 c) comprises a second rotary drive (4 c 1), a worm (4 c 2), and a worm gear (4 c 3);

the second rotary driver (4 c 1) is fixedly arranged on the frame (1);

the worm (4 c 2) is rotatably arranged on the frame (1);

the worm wheel (4 c 3) is fixedly sleeved on the third rotating shaft (4 b), and the worm wheel (4 c 3) is in transmission connection with the worm (4 c 2).

8. The vibration air separation equipment for construction regeneration aggregate according to claim 6, wherein the swinging device (4) further comprises a plurality of positioning assemblies (4 d), the plurality of positioning assemblies (4 d) are respectively positioned at two sides of the machine frame (1), the positioning assemblies (4 d), and the positioning assemblies (4 d) comprise a mounting block (4 d 1), a pressure sensor (4 d 2), a fourth elastic member (4 d 3) and a matching block (4 d 4);

the mounting block (4 d 1) is fixedly mounted on the frame (1);

the pressure sensor (4 d 2) is fixedly arranged on the mounting block (4 d 1);

two ends of the fourth elastic piece (4 d 3) are respectively fixedly connected with the pressure sensor (4 d 2) and the matching block (4 d 4);

the matching block (4 d 4) is slidably mounted on the mounting block (4 d 1).

9. The vibration air separation equipment for the recycled aggregate of the building as claimed in claim 1 or 3, further comprising a material moving device (5), wherein the material moving device (5) comprises a fourth mounting frame (5 a), a feeding frame (5 b), a material guide groove (5 c), a conveyor (5 d) and a material falling groove (5 e);

the fourth mounting rack (5 a) is fixedly arranged on the rack (1);

the feeding frame (5 b) is fixedly arranged on the fourth mounting frame (5 a), and the feeding frame (5 b) is positioned right above the screening device (2);

the guide chute (5 c) is fixedly arranged on the rack (1), and the guide chute (5 c) is positioned right below the screening device (2);

the conveyor (5 d) is fixedly arranged at the bottom of the rack (1);

two charging chutes (5 e) are arranged, and the two charging chutes (5 e) are respectively and fixedly installed on two sides of the rack (1).

10. The vibration air separation equipment for construction regeneration aggregates according to claim 9, characterized in that the material moving device (5) further comprises a plurality of baffles (5 f), and the plurality of baffles (5 f) are fixedly arranged on the conveyor (5 d) at equal intervals.

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