CN112337615A

CN112337615A - Hot air device for drying bentonite additive

Info

Publication number: CN112337615A
Application number: CN202011302205.7A
Authority: CN
Inventors: 王为奎; 刘素祯; 谢龙根; 张柄江
Original assignee: Jiangsu Bolian New Material Technology Co ltd
Current assignee: Jurong Kangtai Bentonite Co ltd
Priority date: 2020-11-19
Filing date: 2020-11-19
Publication date: 2021-02-09
Anticipated expiration: 2040-11-19
Also published as: CN112337615B

Abstract

The invention discloses a hot air device for drying a bentonite additive, which comprises a crushed aggregate bin, wherein the crushed aggregate bin is provided with a crushed aggregate cavity, the bottom of the crushed aggregate cavity is provided with a metal screen, the hot air device for drying the bentonite additive also comprises crushed aggregate components sliding in the crushed aggregate bin, the crushed aggregate components are used for adding the bentonite additive into the crushed aggregate cavity, the device also comprises vibrating blanking components assembled at the front side and the rear side of the crushed aggregate bin, the vibrating blanking components respectively comprise installation base plates fixedly connected at the left end and the right end of the crushed aggregate bin, a vibrating girder column is fixedly connected between the crushed aggregate bins, a vibrating motor is assembled on the vibrating girder column, the device also comprises a drying component assembled at the lower end of the crushed aggregate bin, the drying component comprises a drying bin, and a hot air drying component is assembled in the drying bin. The device is designed to realize integration of crushing, sieving and drying, and is convenient to design and operate, and material processing can be quickly and effectively realized.

Description

Hot air device for drying bentonite additive

Technical Field

The invention relates to the field of bentonite additive processing devices, in particular to a hot air device for drying a bentonite additive.

Background

The bentonite is a kind of clay rock, also called montmorillonite clay rock, and the normal bentonite contains a small amount of illite, kaolinite, halloysite, chlorite, zeolite, quartz, feldspar, calcite, etc.; generally white and light yellow, and light grey, light green, pink, brownish red, brick red, gray black and the like due to the change of iron content; wax, earthy or greasy luster; bentonite is somewhat loose as earth, and somewhat dense and hard. The main chemical components are silicon dioxide, aluminum oxide and water, and also contain elements such as iron, magnesium, calcium, sodium, potassium and the like.

Bentonite has an extremely wide range of applications in industry, such as use as an adsorbent.

In the prior art, various additives are often required to be added into bentonite in the process of processing and producing bentonite products so as to improve the performance of the products.

In the course of working, the additive adopts compounding mode and bentonite to mix according to certain proportion, need carry out appropriate breakage to the additive before mixing, material after the breakage need sieve, the material after sieving needs to dry, however, the device that prior art disclosed is mostly the process independent mode, lead to the material that needs continuous to process if the material after the breakage transports the equipment that sieves and sieves, the material after sieving transports drying equipment and dries, and is very loaded down with trivial details, and work efficiency is low.

Disclosure of Invention

The invention aims to solve the technical problem of providing a hot air device for drying bentonite additives.

The invention solves the technical problems through the following technical scheme:

a hot air device for drying a bentonite additive comprises a crushing bin, wherein the crushing bin is provided with a crushing cavity, and the bottom of the crushing cavity is provided with a metal screen;

the hot air device for drying the bentonite additive also comprises a crushed material assembly sliding in the crushed material bin; the crushed material assembly is used for adding crushed materials into the bentonite additive in the crushed material cavity;

the hot air device for drying the bentonite additive also comprises vibration blanking assemblies which are assembled at the front side and the rear side of the crushed aggregate bin;

the vibration blanking assemblies respectively comprise mounting base plates fixedly connected to the left end and the right end of the crushing bin, a vibration girder column is fixedly connected between the crushing bins, and a vibration motor is assembled on the vibration girder column;

the hot air device for drying the bentonite additive also comprises a drying component assembled at the lower end of the crushed material bin;

the drying component comprises a drying bin, and a hot air drying part is assembled in the drying bin;

the hot air drying part comprises a snakelike drying pipe, and a plurality of air exhaust through holes are formed in the snakelike drying pipe;

and the air inlet end of the serpentine drying pipe is provided with an air heater.

Preferably, the crushing assembly comprises a plurality of U-shaped sliding rods with downward openings, and the U-shaped sliding rods are assembled into a whole through a plurality of mounting plates;

the bottom of the U-shaped sliding rod is fixedly connected with a plurality of crushed material components which are arranged at intervals in the front-back direction, each crushed material component comprises a long screw rod assembled on the U-shaped sliding rod, and a plurality of crushed material components which are arranged at intervals in the up-down direction are assembled on the long screw rods;

the crushing pieces comprise arc-shaped rods, and a plurality of crushing cones are fixedly connected to the side walls of the arc-shaped rods;

the material crushing assembly further comprises a driving part for driving the U-shaped sliding rods, and crushed materials of the material crushing assembly are carried by the U-shaped sliding rods through the driving part.

Preferably, a plurality of upright posts are fixedly connected between the bottom of the crushing bin and the top of the drying bin;

the stand welding is between garrulous feed bin and dry storehouse.

Preferably, the exhaust through holes are horizontally arranged on the serpentine drying pipe.

Preferably, the U-shaped sliding rod comprises a horizontal end, sliding ends which are vertically arranged downwards are arranged at the front end and the rear end of the horizontal end, sliding grooves which are matched with the sliding ends are formed in the front side and the rear side of the top of the crushing bin, and the sliding ends slide in the sliding grooves;

the long screw is in threaded connection with the horizontal end.

Preferably, the long screw is in threaded connection with a plurality of spacing adjusting nuts;

the upper end parts of the arc-shaped rods are respectively provided with a sliding part which is horizontally arranged, and the sliding parts are connected with the long screw rod in a sliding manner;

the plurality of interval adjusting nuts are respectively extruded at the top and the bottom of the sliding part.

Preferably, the arc surface of the arc rod is arranged towards the left.

Preferably, a plurality of the crushed aggregates are distributed on the arc surface of the arc rod in an arc shape; the driving part comprises a lead screw which is in threaded connection with the front ends of the U-shaped sliding rods;

the lead screw is in threaded connection with the sliding end of the arc-shaped rod;

the left end of the lead screw is rotatably connected to the left side groove wall of the sliding groove;

the right end of lead screw runs through the spout, the right end of lead screw is equipped with lead screw motor.

Preferably, the rear sides of the U-shaped sliding rods are connected with guide rods in a sliding manner;

the guide rod penetrates through the sliding ends of the U-shaped sliding rods;

the left end and the right end of the guide rod are respectively and fixedly connected to the left groove wall and the right groove wall of the sliding groove.

Preferably, the front end and the rear end of the tops of the U-shaped sliding rods are respectively provided with a mounting plate;

the mounting plate is assembled and connected on the U-shaped sliding rods through mounting bolts. .

Compared with the prior art, the invention has the following advantages:

the invention discloses a hot air device for drying a bentonite additive, which is characterized in that a crushed aggregate bin is designed, the crushed aggregate bin is provided with a crushed aggregate cavity, the bottom of the crushed aggregate cavity is provided with a metal screen, the hot air device for drying the bentonite additive also comprises a crushed aggregate component sliding in the crushed aggregate bin, the bentonite additive used for adding crushed aggregates into the crushed aggregate cavity, the hot air device for drying the bentonite additive also comprises vibration blanking components assembled at the front side and the rear side of the crushed aggregate bin, the vibration blanking components respectively comprise installation base plates fixedly connected at the left end and the right end of the crushed aggregate bin, a vibration girder column is fixedly connected between the crushed aggregate bins, a vibration motor is assembled on the vibration girder column, the hot air device for drying the bentonite additive also comprises a drying component assembled at the lower end of the crushed aggregate bin, the drying component comprises a drying bin, and a hot air drying component is assembled in the drying bin, the integration of crushing, sieving and drying is realized through the design of the parts of the device.

The device is designed to realize integration of crushing, sieving and drying, and is convenient to design and operate, and material processing can be quickly and effectively realized.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic illustration of a spitwad assembly in an embodiment of the present disclosure;

FIG. 3 is a schematic illustration of a piece of material according to an embodiment of the invention;

FIG. 4 is a schematic diagram of the dispersion structure of FIG. 1 according to an embodiment of the present invention;

FIG. 5 is a schematic plan view of a hot air drying unit according to an embodiment of the present invention;

fig. 6 is an enlarged view of a piece of material in an embodiment of the invention.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

As shown in fig. 1 to 5, the hot air device for drying the bentonite additive comprises a crushing bin 1, wherein the crushing bin 1 is provided with a crushing cavity, and the bottom of the crushing cavity is provided with a metal screen 12.

The hot air device for drying the bentonite additive also comprises a crushed material component sliding in the crushed material bin 1; the crushed aggregates assembly is used for adding crushed aggregates into the bentonite additive in the crushed aggregates cavity, and the bentonite additive is crushed through the crushed aggregates assembly.

In order to realize the quick blanking of the crushed materials, the hot air device for drying the bentonite additive further comprises vibrating blanking assemblies 5 assembled at the front side and the rear side of the crushed material bin 1. And vibrating and blanking through the vibrating and blanking assembly 5.

The specific structure of the vibration blanking assembly 5 is as follows:

vibration unloading subassembly 5 all includes the installation bedplate 53 of fixed connection at garrulous feed bin 1 left and right both ends, fixedly connected with vibration girder column 51 between garrulous feed bin 1, be equipped with vibrating motor 52 on the vibration girder column 51.

After the material is crushed, the vibration motors 52 on the two sides are opened, the vibration motors 52 give vibration energy to the vibration beam column 51, and then the whole crushing bin 1 vibrates, and in the vibration process, the material is fed and discharged from the metal screen 12.

The hot air device for drying the bentonite additive also comprises a drying component which is assembled at the lower end of the crushed aggregate bin 1; the specific assembly mode is as follows: a plurality of upright posts 6 are fixedly connected between the bottom of the crushing bin 1 and the top of the drying bin; the upright post 6 is welded between the crushing bin 1 and the drying bin.

The drying component comprises a drying bin 7, and a hot air drying part 8 is assembled in the drying bin 7;

the hot air drying component 8 comprises a serpentine drying pipe 82, and a plurality of air exhaust through holes 821 are formed in the serpentine drying pipe 82 (the air exhaust through holes 821 are horizontally arranged on the serpentine drying pipe 82).

The air inlet end of the serpentine drying pipe 82 is provided with an air heater 81, and specifically, the air outlet end of the air heater 81 is communicated with the air inlet end of the serpentine drying pipe 82 through a transfer pipeline 811.

The material after vibration blanking enters the drying bin 7, at this time, the hot air blower 81 is turned on, the hot air blower 81 pumps hot air into the drying bin 7, and hot air is discharged from the air exhaust through hole 821.

In the actual work process, enclose the fender (not drawn in the figure) at the fixed connection cloth between the bottom in crushed aggregates storehouse 1 and dry storehouse 7, enclose the stand 6 and keep off in the fender is enclosed to the cloth, and then in hot air drying, reduce the dust and arrange in the workshop.

In order to realize the crushing of materials, the hot air device for drying the bentonite additive also comprises a crushed material assembly sliding in the crushed material bin 1; the automatic stirring and crushing of the crushed aggregates component is realized. The specific structure of the crushed aggregates component is as follows:

crushed aggregates subassembly includes U-shaped slide bar 31 that a plurality of opening set up down (specifically, U-shaped slide bar 31 includes the horizontal end, both ends have the perpendicular slip end that sets up down around the horizontal end, both sides seted up with slip end complex spout 11 around the 1 top in crushed aggregates storehouse, the slip end slides in spout 11).

A plurality of U-shaped sliding rods 31 are assembled into a whole through a plurality of mounting plates 32; the concrete mode is as follows: the front end and the rear end of the tops of the U-shaped sliding rods 31 are respectively provided with a mounting plate 32; the mounting plate 32 is assembled and connected on a plurality of the U-shaped sliding rods 31 through mounting bolts.

The bottom of the U-shaped slide bar 31 is fixedly connected with a plurality of crushed aggregates parts 33 which are arranged at intervals in the front and back.

The crushed material parts 33 comprise long screws 331 assembled on the U-shaped sliding rods 31 in a specific mode: a long screw 331 is threaded on the horizontal end of the U-shaped slide bar 31.

A plurality of crushing pieces 332 arranged at intervals up and down are assembled on the long screw 331; the material crushing pieces 332 each include an arc-shaped rod 3321, and a plurality of material crushing cones 3322 are fixedly connected to a side wall of the arc-shaped rod 3321 (specifically, an arc surface of the arc-shaped rod 3321 is arranged towards the left, and a plurality of material crushing cones 3322 are distributed on the arc surface of the arc-shaped rod 3321 in an arc shape), and the detailed view is as shown in fig. 6.

The material crushing assembly further comprises a driving part 4 for driving the plurality of U-shaped sliding rods 31, and the plurality of U-shaped sliding rods 31 are used for carrying crushed materials 332 to crush the materials through the driving part 4.

In the actual work process, according to the volume of adding the interior material of crushed aggregates storehouse 1, adjust the altitude interval of upper and lower position crushed aggregates piece 332, adopt following mode:

the long screw rod 331 is in threaded connection with a plurality of spacing adjusting nuts 3311; the upper ends of the arc-shaped rods 3321 are provided with horizontally arranged sliding parts which are connected with the long screw 331 in a sliding manner; the plurality of interval adjusting nuts 3311 are respectively extruded at the top and bottom of the sliding part.

The distance adjusting nut 3311 is loosened, the arc-shaped rod 3321 slides on the long screw 331, and after the distance is adjusted, the distance adjusting nut 3311 is screwed and extruded on the sliding portion of the arc-shaped rod 3321, thereby realizing positioning.

The whole crushed aggregates subassembly of above-mentioned drive component 4 drive and move about, and at the removal in-process, arc pole 3321 carries crushed aggregates awl 3322 and moves about, and this in-process carries out the stirring, and the material that will deblock is broken in the stirring process, forms the fritter material.

The specific structure of the drive member 4 is as follows: comprises a lead screw 42 which is in threaded connection with the front ends of a plurality of U-shaped slide bars 31; the screw rod 42 is in threaded connection with the sliding end of the arc-shaped rod 3321; according to the existing mode, the left end of the screw rod 42 is rotatably connected to the left side groove wall of the chute 11; the right end of the lead screw 42 penetrates the chute 11, and the right end of the lead screw 42 is provided with a lead screw motor 41. The lead screw motor 41 is turned on (the lead screw motor 41 is preferably a forward and reverse rotating motor), the lead screw motor 41 drives the lead screw 42 to rotate, and then the whole crushed aggregate assembly moves left and right to turn over and crush.

In order to increase the stability of the driving movement, the rear sides of the plurality of U-shaped sliding rods 31 are connected with guide rods 43 in a sliding manner; the guide rod 43 penetrates through the sliding ends of the U-shaped sliding rods 31; the left and right ends of the guide rod 43 are fixedly connected to the left and right walls of the chute 11, respectively.

Adopt above-mentioned device part design not only can be quick effectual realization in bentonite additive course of working, with bentonite additive stirring and breakage, the material of being convenient for after the breakage simultaneously sieves, the material of being convenient for after sieving is dried, consequently, the design of above-mentioned device part realizes breakage, sieves, dry integration, and above-mentioned device part design convenient operation, can effectively realize material processing fast.

In actual operation, in order to facilitate feeding, a feeding trough plate is fixedly connected to the left end of the crushing bin 1, the feeding trough plate comprises vertical plate parts 21 arranged at intervals in the front and back, and a sliding plate part 22 arranged obliquely downwards is arranged between the vertical plate parts 21; a support rod 23 is fixedly connected between the front and rear sides of the bottom of the sliding plate portion 22. The material slides down the slide plate portion 22.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The hot air device for drying the bentonite additive is characterized by comprising a crushing bin, wherein the crushing bin is provided with a crushing cavity, and the bottom of the crushing cavity is provided with a metal screen;

2. The hot air device for drying bentonite additive as claimed in claim 1, wherein the crushed aggregates assembly comprises a plurality of U-shaped sliding bars with openings facing downwards, and a plurality of the U-shaped sliding bars are assembled into a whole through a plurality of mounting plates;

3. The bentonite additive drying hot air device according to claim 2, wherein a plurality of columns are fixedly connected between the bottom of the crushing bin and the top of the drying bin;

the stand welding is between garrulous feed bin and dry storehouse.

4. The hot air device for drying bentonite additive according to claim 3, wherein the air exhaust through hole is horizontally arranged on the serpentine drying pipe.

5. The hot air device for drying the bentonite additive according to claim 4, wherein the U-shaped sliding rod comprises a horizontal end, the front end and the rear end of the horizontal end are provided with sliding ends which are vertically arranged downwards, the front side and the rear side of the top of the crushing bin are provided with sliding grooves matched with the sliding ends, and the sliding ends slide in the sliding grooves;

the long screw is in threaded connection with the horizontal end.

6. The hot air device for drying the bentonite additive according to claim 5, wherein a plurality of spacing adjusting nuts are connected to the long screw in a threaded manner;

7. The hot air device for drying bentonite additive according to claim 6, wherein the arc-shaped rod is arranged towards the left.

8. The hot air device for drying bentonite additive as claimed in claim 7, wherein a plurality of the crushed aggregates are distributed in a conical arc shape on the arc surface of the arc rod; the driving part comprises a lead screw which is in threaded connection with the front ends of the U-shaped sliding rods;

9. The hot air device for drying the bentonite additive according to claim 8, wherein a guide bar is slidably connected to the rear side of the plurality of U-shaped sliding bars;

the guide rod penetrates through the sliding ends of the U-shaped sliding rods;

10. The hot air device for drying the bentonite additive according to claim 9, wherein mounting plates are respectively mounted at the front end and the rear end of the top of the U-shaped sliding rods;

the mounting plate is assembled and connected on the U-shaped sliding rods through mounting bolts.