CN218962867U - Synthetic mica waste material filters wheel mill - Google Patents

Abstract

The utility model relates to the technical field of synthetic mica production equipment, in particular to a synthetic mica waste material filtering wheel mill, which comprises: the top of the box body is provided with a feed inlet; the two sides of the screen plate are provided with baffle plates, the screen plate is obliquely arranged in the box body below the feed inlet and vibrates under the drive of the vibration component, and a blanking channel is arranged between the lower end of the screen plate and the side wall of the box body; the hopper is arranged below the sieve plate, and the bottom of the hopper is provided with a door plate which can be opened and closed; the rotating shaft is transversely arranged in the box body and driven by the driving assembly to rotate in a reciprocating manner, and the rotating shaft is connected with the upper end of the inverted U-shaped mounting frame; the connecting axle both ends on the rolling wheel are connected with the both sides of mounting bracket through two trimming modules respectively, and the axis of rotation sets up with the arc bottom plate of box bottom concentric, and the outside circumference surface and the internal surface roll connection of arc bottom plate of rolling wheel. The utility model has the advantages of reducing the waste material transferring time, having higher screening speed and improving the waste material treatment efficiency.

Description

Synthetic mica waste material filters wheel mill

Technical Field

The utility model relates to the technical field of synthetic mica production equipment, in particular to a synthetic mica waste filtering wheel mill.

Background

The synthetic mica is prepared by using chemical raw materials through high-temperature melting, cooling and crystallization, and has the characteristics of good electrical insulation, extremely low vacuum air release at high temperature, acid and alkali resistance, transparency, separation, elasticity and the like. Waste is generated in the production and processing process, such as dust collected in a dust remover in the processing process, mica particles remained on a screen when mica sheets are screened, or triangular plates, dead plates, slag head materials and the like. Because some of these wastes have larger particle sizes, they need to be sufficiently crushed by an edge mill to be usable.

At present, because the particle size difference in the waste is larger, the waste is treated in such a way that the small-particle recycled materials which do not need to be rolled in the waste are firstly screened out, and the large-particle recycled materials are crushed by an edge runner and then are mixed with the small-particle recycled materials. The existing equipment cannot combine the two procedures together, is complex in material transferring operation, has no automatic screening function, consumes labor, has low screening speed on small particle recycled materials, and reduces the treatment efficiency on mica waste.

Disclosure of Invention

In view of the above, the utility model provides a synthetic mica waste filtering wheel mill, which has the advantages of reduced waste transfer time, higher screening speed and improved waste treatment efficiency.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

a synthetic mica waste filter wheel mill comprising:

the top of the box body is provided with a feed inlet;

the two sides of the screen plate are provided with baffle plates, the screen plate is obliquely arranged in the box body below the feed inlet and vibrates under the drive of the vibration component, a blanking channel arranged between the lower end of the screen plate and the side wall of the box body is communicated with the lower part in the box body, and a plurality of screen holes are formed in the screen plate;

the hopper is arranged below the sieve plate, and the bottom of the hopper is provided with a door plate which can be opened and closed through a connecting component;

the rotating shaft is transversely arranged in the box body and driven by the driving assembly to rotate in a reciprocating manner, and the rotating shaft is connected with the upper end of the inverted U-shaped mounting frame; and

the rolling wheel, connecting axle both ends on it respectively through two trimming module with the both sides of mounting bracket are connected, the axis of rotation with the arc bottom plate of box bottom sets up with one heart, just the outside circumference surface of rolling wheel with the internal surface roll connection of arc bottom plate, the discharge gate department on the arc bottom plate is provided with the sealing door that can open and shut.

According to a further improvement of the utility model, the connecting member comprises a hydraulic cylinder arranged below the hopper, the bottom of the cylinder body of the hydraulic cylinder is connected with the inner wall on one side of the box body, and the end part of a piston rod of the hydraulic cylinder is connected with the lower surface of the door plate through a first connecting rod.

A further improvement of the present utility model is that the vibration assembly comprises:

the second connecting rods are respectively arranged at two sides of the sieve plate, the first end of each second connecting rod is hinged with the corresponding side face of the hopper, and the second end of each second connecting rod is hinged with the sieve plate;

the double-shaft motor is arranged above the hopper, and two power output ends of the double-shaft motor are respectively connected with the two driving plates; and

the two swing rods are respectively arranged on two sides of the screen plate, the first end of each swing rod is connected with a corresponding deflector rod rotating shaft eccentrically arranged on the driving plate, and the second end of each swing rod is connected with a corresponding mounting shaft end rotating shaft arranged on the screen plate.

A further improvement of the present utility model is that the drive assembly includes:

the rack is slidably arranged outside the box body through a guide rail and is meshed with a first gear arranged at the end part of the rotating shaft penetrating through the box body; and

the second gear is fan-shaped and is driven by the first motor to rotate;

when the second gear is meshed with the first gear, the second gear is in a separated state from the rack, and when the second gear is meshed with the rack, the second gear is in a separated state from the first gear.

A further improvement of the present utility model is that the trimming assembly comprises:

the first sliding block is connected with the end part of the connecting shaft in a rotating way, and is in sliding connection and adaptation with a first sliding groove arranged in the length direction of the connecting plate at one side of the mounting frame;

the guide column is vertically arranged above the inner part of the first sliding groove and sleeved on the sleeve on the upper surface of the first sliding block; and

the spring is sleeved on the sleeve, the first end of the spring is connected with the top of the first sliding groove, and the second end of the spring is connected with the first sliding block.

The utility model further improves that the first motor is a permanent magnet synchronous motor.

The utility model further improves that the feeding hole is in a funnel shape gradually converging from top to bottom.

A further improvement of the utility model is that the angle between the screen plate and the horizontal plane is 8 ° -30 °.

The utility model is further improved in that the discharge hole is arranged at the lowest part of the arc-shaped bottom plate.

By adopting the technical scheme, the utility model has the following technical progress:

the utility model provides a synthetic mica waste filtering wheel mill, which is characterized in that a vibrating assembly drives a sieve plate to screen small-particle recycled materials, large-particle recycled materials enter below a box body through a blanking channel, a driving assembly drives a rotating shaft and a mounting frame to rotate, a rolling wheel on the mounting frame rolls on an arc-shaped bottom plate to roll the large-particle recycled materials, and the small-particle recycled materials fall down and are mixed with the rolled recycled materials after rolling is finished. Compared with the prior art, through automatic screening, improve screening efficiency, and reduce the transportation between the waste material, improved synthetic mica's waste material treatment efficiency.

The technical progress is mainly realized by the following detailed technical improvements:

waste material gets into from the feed inlet and falls on the sieve, drives two driver plates through biax motor and rotates, and two swinging arms drive the sieve under the drive of driving lever and produce the polarization effect, because the sieve slope sets up, the large granule recycle on the sieve can smash through the roller on the arc bottom plate that the blanking passageway reached the bottom half in the vibration process, and the sieve can realize automatic vibration screening, has improved screening efficiency, has reduced artificial intensity of labour.

The small particle recycle after screening can fall on the hopper, drives the axis of rotation to reciprocate when drive assembly to drive the rolling wheel through the mounting bracket and roll on the arc bottom plate and smash big particle recycle, then open the door plant through connecting elements, small particle recycle falls down and smashes good recycle and mix, combines two processes of screening and rolling together, has reduced the time of transporting the material.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort to a person skilled in the art.

FIG. 1 is a schematic view of the overall structure of an edge runner machine according to the present utility model;

FIG. 2 is a schematic view of a partial enlarged structure at A in FIG. 1 according to the present utility model;

FIG. 3 is a schematic view of a vibration assembly according to the present utility model;

FIGS. 4 and 5 are schematic views illustrating two different states of the driving assembly according to the present utility model;

reference numerals illustrate:

the device comprises a box body, a feeding port, a 12-blanking channel, a 13-arc-shaped bottom plate, a 14-sealing door, a 20-sieve plate, a 21-baffle plate, a 30-vibration assembly, a 31-second connecting rod, a 32-double-shaft motor, a 33-driving plate, a 34-driving rod, a 35-swinging rod, a 36-installation shaft, a 40-hopper, a 41-hydraulic cylinder, a 42-first connecting rod, a 43-door plate, a 51-rotation shaft, a 52-installation frame, a 53-connection plate, a 531-first sliding chute, a 54-rolling wheel, a 541-connection shaft, a 60-driving assembly, a 61-rack, a 62-first gear, a 63-second gear, a 64-first motor, a 65-guide rail, a 651-second sliding chute, a 66-second sliding block, a 71-first sliding block, a 72-spring, a 73-sleeve and a 74-guide column.

Detailed Description

Technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it should be apparent that in the following description, specific details are set forth such as the specific system structure, technology, etc. for the purpose of illustration rather than limitation, in order to provide a thorough understanding of the embodiments of the present utility model. It will be apparent, however, to one skilled in the art that the present utility model may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present utility model with unnecessary detail.

The utility model provides a synthetic mica waste filtering wheel mill, which is known from the specification of figures 1-5, and comprises: the top of the box body 10 is provided with a feed inlet 11; the two sides of the screen plate 20 are provided with baffle plates 21, the screen plate 20 is obliquely arranged in the box body 10 below the feed inlet 11 and vibrates under the drive of the vibration component 30, a blanking channel 12 arranged between the lower end of the screen plate 20 and the side wall of the box body 10 is communicated with the lower part inside the box body 10, and a plurality of screen holes are formed in the screen plate 20; the hopper 40 is arranged below the sieve plate, the bottom of the hopper 40 is provided with an openable door plate 43 through a connecting member, when the door plate 43 is closed, small particle recycled materials screened by the sieve plate 20 can be contained, and when the door plate 43 is opened under the action of the connecting member, the small particle recycled materials can fall to the bottom of the box body 10; the rotating shaft 51 is transversely arranged in the box body 10 and driven by the driving assembly 60 to rotate reciprocally, and the rotating shaft 51 is connected with the upper end of the inverted U-shaped mounting frame 52; the connecting axle 541 both ends on the roller 54 are connected with the both sides of mounting bracket 52 through two fine setting subassembly respectively, and axis of rotation 51 and the arc bottom plate 13 of box 10 bottom set up with one heart, and the outside circumference surface of roller 54 is connected with the internal surface roll of arc bottom plate 13, and the discharge gate department on the arc bottom plate 13 is provided with sealing door 14 that can open and shut.

Through with screening and rolling the design of integral type, reduced the transfer time of waste material, improved waste material treatment efficiency. Waste materials recovered from various places enter the feeding hole 11 and fall on the sieve plate 20, the sieve plate 20 is driven to vibrate through the vibration assembly 30, so that small particle recycled materials fall inside the hopper 40, and large particle recycled materials gradually advance to the lower end of the sieve plate 20 due to a certain inclination angle of the sieve plate 20 in the vibration process and reach the arc-shaped bottom plate 13 at the bottom of the box body 10 through the blanking channel 12.

The baffle plates 21 are arranged on two sides of the screen plate 20, so that waste materials are prevented from falling to the bottom of the box body 10 in gaps on two sides in the vibration process of the screen plate 20, and the baffle plates 21 can be also arranged on the high end of the screen plate 20. The screen deck 20 can realize automatic vibration screening, thereby improving screening efficiency and reducing manual labor intensity.

The center of the arc-shaped bottom plate 13 is concentric with the rotating shaft 51, and when the rotating shaft 51 is driven by the driving assembly 60 to rotate reciprocally, the rolling wheel 54 is driven by the mounting frame 52 to roll on the arc-shaped bottom plate 13, so that the waste is repeatedly rolled and crushed. After rolling, the door plate 43 is opened by the connecting member, the small particle recycled matters fall down to be mixed with crushed waste, then the sealing door 14 is opened, the material is discharged from the discharge hole, and the sealing door 14 is matched with the arc-shaped bottom plate 13.

As an example, as shown in fig. 3 of the drawings, the connecting member includes a hydraulic cylinder 41 disposed below the hopper 40, the bottom of the cylinder body of which is connected to the inner wall of one side of the case 10, and the end of the piston rod of the hydraulic cylinder 41 is connected to the lower surface of the door panel 43 through a first link 42.

The first link 42 has a first end hinged to the lower surface of the door panel 43 and a second end hinged to the piston rod end of the hydraulic cylinder 41. One side of the door plate 43 is hinged with the bottom of the hopper 40, and when the piston rod of the hydraulic cylinder 41 is contracted, the other side of the door plate 43 can be driven to incline downwards by the first connecting rod 42, so that the small particle materials fall to the bottom of the box body 10.

As an example, as can be seen from fig. 3 of the specification, the vibration assembly 30 includes: the plurality of second connecting rods 31 are respectively arranged at two sides of the sieve plate 20, the first end of each second connecting rod 31 is hinged with the corresponding side surface of the hopper 40, and the second end of each second connecting rod 31 is hinged with the sieve plate 20; the double-shaft motor 32 is arranged above the hopper 40, and two power output ends of the double-shaft motor are respectively connected with the two driving plates 33; the two driving plates 33 are respectively arranged at the shaft ends of the two power output shafts of the double-shaft motor 32; the two swinging rods 35 are respectively arranged at two sides of the sieve plate 20, a first end of each swinging rod 35 is connected with a rotating shaft of a deflector rod 34 eccentrically arranged on the corresponding driving plate 33, and a second end of each swinging rod 35 is connected with a rotating shaft at the end part of a mounting shaft 36 arranged on the corresponding sieve plate 20.

When the two power output ends of the double-shaft motor 32 drive the two driving plates 33 to rotate, the two swinging rods 35 drive the sieve plate 20 to generate polarization effect due to the eccentric arrangement of the driving rods 34, so that the small particle recycled materials fall into the hopper 40.

As an example, as can be seen from fig. 4 to fig. 5 of the specification, the driving assembly 60 includes: the rack 61 is slidably provided outside the casing 10 through a guide rail 65, and is engaged with a first gear 62 provided through an end of the rotation shaft 51 of the casing 10; the second gear 63 is fan-shaped and is driven to rotate by the first motor 64; when the second gear 63 is engaged with the first gear 62, the second gear 63 is in a separated state from the rack 61, and when the second gear 63 is engaged with the rack 61, the second gear 63 is in a separated state from the first gear 62.

The guide rail 65 plays a role in guiding the reciprocating movement of the rack 61, when the first motor 64 drives the second gear 63 to rotate, the second gear 63 is meshed with the first gear 62, the rotating shaft 51 is driven to rotate towards the first direction, and at the moment, the second gear 63 is not meshed with the rack 61; when the second gear 63 is meshed with the rack 61, the rack 61 drives the first gear 62 to rotate towards the second direction, so that the first gear 62 drives the rotating shaft 51 to rotate reciprocally. Specifically, the rotation angle of the rotation shaft 51 is between 60 to 120 °. The second slider 66 provided on the rack 61 is slidably connected and adapted to the second slide slot 651 on the rail 65.

As an example, as can be seen from fig. 2 of the specification, the trimming assembly includes: the first sliding block 71 is connected with the end part of the connecting shaft 541 in a rotating shaft manner, and is in sliding connection and adaptation with a first sliding groove 531 arranged in the length direction of the connecting plate 53 at one side of the mounting frame 52; the guide post 74 is vertically arranged above the inner part of the first chute 531 and sleeved on the sleeve 73 on the upper surface of the first slider 71; the spring 72 is sleeved on the sleeve 73, and a first end of the spring 72 is connected with the top of the first chute 531, and a second end of the spring 72 is connected with the first slider 71.

When the grinding wheel 54 grinds the waste, a certain deformation amount is formed in the grinding gap between the grinding wheel 54 and the arc bottom surface through the spring 72 and the first sliding block 71 in the fine adjustment assembly according to the distribution of the waste amount. When the rolling gap is changed, the first slider 71 slides in the first sliding groove 531 and deforms the spring 72, and the guide post 74 and the sleeve 73 are slidably connected, so that the spring 72 is prevented from being bent. Damage to the grinding wheel 54 can be reduced, and the grinding wheel 54 is always attached to the arc-shaped bottom surface.

In this embodiment, the first motor 64 is a permanent magnet synchronous motor, and has the advantages of high efficiency, small volume, high power factor, and the like.

In this embodiment, as can be seen from fig. 1 of the specification, the feeding port 11 is funnel-shaped and gradually converges from top to bottom, so as to facilitate manual feeding.

In this embodiment, the included angle between the screen plate 20 and the horizontal plane is 8 ° -30 °, so that the large particle recycled material on the screen plate 20 has a guiding effect of advancing to the lower end, and the waste material just falling on the screen plate 20 directly falls to the bottom of the box 10 due to the overlarge inclination angle.

In this embodiment, as can be seen from fig. 1 of the specification, the discharge port is disposed at the lowest position of the arc-shaped bottom plate 13.

It should be noted that in this patent application, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus, does not include, without limitation, additional elements that are defined by the term "include" an.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model, and are intended to be included in the scope of the present utility model.

Claims (9)

1. A synthetic mica waste filter wheel mill, comprising:

the top of the box body is provided with a feed inlet;

the two sides of the screen plate are provided with baffle plates, the screen plate is obliquely arranged in the box body below the feed inlet and vibrates under the drive of the vibration component, a blanking channel arranged between the lower end of the screen plate and the side wall of the box body is communicated with the lower part in the box body, and a plurality of screen holes are formed in the screen plate;

the hopper is arranged below the sieve plate, and the bottom of the hopper is provided with a door plate which can be opened and closed through a connecting component;

the rotating shaft is transversely arranged in the box body and driven by the driving assembly to rotate in a reciprocating manner, and the rotating shaft is connected with the upper end of the inverted U-shaped mounting frame; and

the rolling wheel, connecting axle both ends on it respectively through two trimming module with the both sides of mounting bracket are connected, the axis of rotation with the arc bottom plate of box bottom sets up with one heart, just the outside circumference surface of rolling wheel with the internal surface roll connection of arc bottom plate, the discharge gate department on the arc bottom plate is provided with the sealing door that can open and shut.

2. The synthetic mica waste material filtering wheel mill of claim 1, wherein the connecting member comprises a hydraulic cylinder disposed below the hopper, a bottom of the cylinder is connected to an inner wall of one side of the box, and a piston rod end of the hydraulic cylinder is connected to a lower surface of the door panel through a first link.

3. The synthetic mica waste filter wheel mill of claim 1 wherein the vibration assembly comprises:

the second connecting rods are respectively arranged at two sides of the sieve plate, the first end of each second connecting rod is hinged with the corresponding side face of the hopper, and the second end of each second connecting rod is hinged with the sieve plate;

the double-shaft motor is arranged above the hopper, and two power output ends of the double-shaft motor are respectively connected with the two driving plates; and

the two swing rods are respectively arranged on two sides of the screen plate, the first end of each swing rod is connected with a corresponding deflector rod rotating shaft eccentrically arranged on the driving plate, and the second end of each swing rod is connected with a corresponding mounting shaft end rotating shaft arranged on the screen plate.

4. A synthetic mica waste filter wheel mill as in claim 3 wherein said drive assembly comprises:

the rack is slidably arranged outside the box body through a guide rail and is meshed with a first gear arranged at the end part of the rotating shaft penetrating through the box body; and

the second gear is fan-shaped and is driven by the first motor to rotate;

when the second gear is meshed with the first gear, the second gear is in a separated state from the rack, and when the second gear is meshed with the rack, the second gear is in a separated state from the first gear.

5. The synthetic mica waste filter wheel mill of claim 4 wherein the fine adjustment assembly comprises:

the first sliding block is connected with the end part of the connecting shaft in a rotating way, and is in sliding connection and adaptation with a first sliding groove arranged in the length direction of the connecting plate at one side of the mounting frame;

the guide column is vertically arranged above the inner part of the first sliding groove and sleeved on the sleeve on the upper surface of the first sliding block; and

the spring is sleeved on the sleeve, the first end of the spring is connected with the top of the first sliding groove, and the second end of the spring is connected with the first sliding block.

6. The synthetic mica waste filter wheel mill of claim 5 wherein the first motor is a permanent magnet synchronous motor.

7. A synthetic mica waste filter wheel mill as in claim 3 wherein said inlet is funnel-shaped converging from top to bottom.

8. A synthetic mica waste filter wheel mill as in claim 7 wherein the screen plate is at an angle of 8 ° -30 ° to the horizontal.

9. A synthetic mica waste filter wheel mill according to any one of claims 1-8 wherein said outlet is provided at the lowest point of said arcuate floor.

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