CN216711609U - Sodium modification treatment device for bentonite - Google Patents

Sodium modification treatment device for bentonite Download PDF

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Publication number
CN216711609U
CN216711609U CN202122981571.6U CN202122981571U CN216711609U CN 216711609 U CN216711609 U CN 216711609U CN 202122981571 U CN202122981571 U CN 202122981571U CN 216711609 U CN216711609 U CN 216711609U
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China
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stirring
extrusion
bentonite
sodium
extrusion reaction
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CN202122981571.6U
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孙傲
陈昌林
洪艳萍
白城
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Acre Coking and Refractory Engineering Consulting Corp MCC
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Acre Coking and Refractory Engineering Consulting Corp MCC
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Abstract

The utility model relates to a bentonite sodium modification treatment device, which comprises a vehicle body, and a stirring component, a sodium modification liquid conveying component and an extrusion reaction component which are arranged on the vehicle body; the stirring assembly comprises a stirring driving device and a stirring drum; the sodium treatment liquid conveying assembly consists of a sodium treatment liquid barrel, a conveying pump and a liquid feeding pipeline; the extrusion reaction assembly consists of a primary extrusion reaction device and a secondary extrusion reaction device; the device has simple and compact structure, good bentonite sodification effect and high yield; automatic continuous production can be realized, the labor intensity of workers is reduced, and the economic cost of production is reduced; and the mobile platform is convenient to move, can adapt to different workplaces, occupies a small area and is not limited by site space.

Description

Sodium modification treatment device for bentonite
Technical Field
The utility model relates to the technical field of bentonite deep processing, in particular to a bentonite sodium modification treatment device.
Background
The bentonite belongs to layered aluminosilicate clay mineral, can be interlaminar expanded, has large cation exchange capacity, and has montmorillonite as main component. Montmorillonite, also known as microcrystalline kaolin, is a silicate mineral consisting of a 2: 1 type crystal structure consisting of two silicon-oxygen tetrahedra sandwiching a layer of aluminous octahedra. Bentonite is classified into various types such as sodium-based, calcium-based, magnesium-based, aluminum-based and the like according to the cationic species among montmorillonite layers. The natural bentonite is generally calcium bentonite due to Ca2+Has a charge density greater than Na+The binding energy between the calcium bentonite and the montmorillonite is larger, so that the interlayer exchange capacity of the calcium bentonite is smaller than that of the sodium bentonite. In general, the swelling property, water absorption property, viscosity and other properties of the sodium bentonite are better than those of the calcium bentonite. Therefore, the purified natural calcium bentonite is generally subjected to sodium modification treatment to convert the natural calcium bentonite into sodium bentonite.
At present, the sodium treatment process of calcium bentonite can be divided into two main types: dry and wet processes. The quality of the product obtained by the dry sodium treatment process is poorer than that of the product obtained by the wet sodium treatment process, and the product is difficult to reach the standard of a first-grade product. The common bentonite wet sodium treatment method mainly comprises the following steps: a yard sodium modification method, a wheel rolling sodium modification method, a double-screw mixed extrusion sodium modification method, a double-roller extrusion sodium modification method and the like. The above methods have the advantages, but still have the defects of incomplete and incomplete sodium modification of products, poor modification effect, low equipment utilization rate, small treatment capacity, limitation of site space of sodium modification equipment, inconvenience in moving or disassembling and the like.
Disclosure of Invention
The utility model provides a bentonite sodification modification treatment device which is simple and compact in structure, good in bentonite sodification effect and high in yield; automatic continuous production can be realized, the labor intensity of workers is reduced, and the economic cost of production is reduced; and the mobile platform is convenient to move, can adapt to different workplaces, occupies a small area and is not limited by site space.
In order to achieve the purpose, the utility model adopts the following technical scheme:
a bentonite sodium modification treatment device comprises a vehicle body, and a stirring component, a sodium modification liquid conveying component and an extrusion reaction component which are arranged on the vehicle body; the stirring assembly comprises a stirring driving device and a stirring drum, wherein a stirring paddle is arranged in the stirring drum and is driven by the stirring driving device; the sodium treatment liquid conveying assembly consists of a sodium treatment liquid barrel, a conveying pump and a liquid feeding pipeline; a feed port is formed in one end of the top of the mixing drum, a discharge port is formed in the other end of the bottom of the mixing drum, a plurality of liquid inlets are formed in the top of the mixing drum between the feed port and the discharge port, and a mixing paddle is arranged in the mixing drum between the feed port and the discharge port; a feed port of the mixing drum is connected with a feed port of the upper feed hopper; the sodium treatment liquid barrel is arranged on the vehicle body, the liquid inlet end of the delivery pump is connected with the sodium treatment liquid barrel, and the liquid outlet end of the delivery pump is connected with a plurality of liquid inlets through liquid feeding pipelines; the extrusion reaction assembly consists of a primary extrusion reaction device and a secondary extrusion reaction device, a discharge port of the mixing drum is connected with a feed port of the primary extrusion reaction device through a first discharge hopper, a discharge port of the primary extrusion reaction device is connected with a feed port of the secondary extrusion reaction device through a discharge pipeline, and a stirring roller is arranged in the discharge pipeline; a discharge hopper II is arranged at the discharge opening of the secondary extrusion reaction device.
The number of the stirring paddles is 2, and each stirring paddle consists of a stirring shaft and a plurality of stirring teeth arranged on the corresponding stirring shaft; the stirring shaft is arranged along the longitudinal length of the stirring cylinder; a plurality of stirring teeth on the stirring shaft are spirally arranged along the stirring shaft, and the spiral directions of the stirring teeth on the 2 stirring shafts are opposite.
The stirring driving device consists of a first driving device and a first gearbox, the first driving device is fixedly connected with the vehicle body through a first support, and an output shaft of the first driving device is connected with the stirring shaft through the first gearbox.
The mixing drum is horizontally arranged, and the bottom of the mixing drum is fixedly connected with the vehicle body through a second support.
Automatic flow control and metering devices are respectively arranged at the feed opening of the feed hopper and at the liquid inlets of the mixing drum.
The primary extrusion reaction device and the secondary extrusion reaction device are both double-roller extrusion reaction devices; the primary extrusion reaction device consists of a first extrusion container and 2 first extrusion rollers arranged in the first extrusion container, and the 2 first extrusion rollers are driven by the corresponding driving devices to rotate relatively; the secondary extrusion reaction device consists of a second extrusion container and 2 second extrusion rollers arranged in the second extrusion container, and the 2 second extrusion rollers are driven by the corresponding driving devices to rotate relatively.
The clearance of the 2 first extrusion rollers is 3-5 mm, and the clearance of the 2 second extrusion rollers is 1-3 mm; and roller spacing adjusting devices are arranged in the primary extrusion reaction device and the secondary extrusion reaction device.
The material stirring roller is driven by a material stirring roller driving device; the material stirring roller driving device consists of a driving device II and a gearbox II, the driving device II is fixedly connected with the vehicle body through a support III, and an output shaft of the driving device II is connected with a rotating shaft of the material stirring roller through the gearbox II.
Wheels are respectively arranged on two sides of the bottom of the vehicle body.
Compared with the prior art, the utility model has the beneficial effects that:
1) the bentonite sodium modification treatment process comprises three steps of primary sodium modification, secondary sodium modification and final sodium modification, and the bentonite sodium modification effect is complete and thorough and has better viscosity;
2) the automatic adjustment of the solid-liquid ratio is realized by arranging the automatic flow control and metering device, and the product quality is stable;
3) the automatic operation of the whole production process can be realized, and the labor intensity of workers is reduced;
4) the device has large processing capacity, convenient operation and flexible production adjustment;
5) the device occupies small area, and the equipment is not limited by the space of a field;
6) the device has simple and compact structure and convenient movement or disassembly.
Drawings
Fig. 1 is a schematic structural diagram of a bentonite sodification modification treatment device.
In the figure: 1. the device comprises a feed hopper 2, a mixing drum 3, a mixing shaft 4, a mixing gear 5, a gearbox I6, a driving device I7, a sodium liquid barrel 8, a delivery pump 9, a liquid feeding pipeline 10, an automatic flow control and metering device 11, a feeding hopper I12, a primary extrusion reaction device 13, an extrusion roller I14, a feeding pipeline 15, a material stirring roller 16, a rotating shaft 17, a gearbox II 18, a driving device II 19, a secondary extrusion reaction device 20, an extrusion roller II 21, a feeding hopper II 22, a support I23, a support II 24, a vehicle body 25, wheels 26 and a support III
Detailed Description
The following further describes embodiments of the present invention with reference to the accompanying drawings:
as shown in fig. 1, the bentonite sodification modification treatment device comprises a vehicle body 24, and a stirring component, a sodification liquid conveying component and an extrusion reaction component which are arranged on the vehicle body 24; the stirring assembly comprises a stirring driving device and a stirring drum 2, wherein a stirring paddle is arranged in the stirring drum 2 and is driven by the stirring driving device; the sodium treatment liquid conveying assembly consists of a sodium treatment liquid barrel 7, a conveying pump 8 and a liquid feeding pipeline 9; a feed port is formed in one end of the top of the mixing drum 2, a discharge port is formed in the other end of the bottom of the mixing drum 2, a plurality of liquid inlets are formed in the top of the mixing drum 2 between the feed port and the discharge port, and a mixing paddle is arranged in the mixing drum 2 between the feed port and the discharge port; a feed inlet of the mixing drum 2 is connected with a feed outlet of the upper feed hopper 1; the sodium treatment liquid barrel 7 is arranged on the vehicle body 24, the liquid inlet end of the delivery pump 8 is connected with the sodium treatment liquid barrel 7, and the liquid outlet end of the delivery pump 8 is connected with a plurality of liquid inlets through a liquid feeding pipeline 9; the extrusion reaction assembly consists of a primary extrusion reaction device 12 and a secondary extrusion reaction device 19, a discharge hole of the mixing drum 2 is connected with a feed inlet of the primary extrusion reaction device 12 through a discharge hopper I11, a discharge hole of the primary extrusion reaction device 12 is connected with a feed inlet of the secondary extrusion reaction device 19 through a discharge pipeline 14, and a material stirring roller 15 is arranged in the discharge pipeline 14; a second discharge hopper 21 is arranged at the discharge opening of the secondary extrusion reaction device 19.
The number of the stirring paddles is 2, and each stirring paddle consists of a stirring shaft 3 and a plurality of stirring teeth 4 arranged on the corresponding stirring shaft 3; the stirring shaft 3 is arranged along the longitudinal length of the stirring cylinder 2; a plurality of stirring teeth 4 on the stirring shaft 3 are spirally arranged along the stirring shaft 3, and the spiral directions of the stirring teeth 4 on the 2 stirring shafts 3 are opposite.
The stirring driving device consists of a driving device I6 and a gearbox I5, the driving device I6 is fixedly connected with the vehicle body 24 through a support I22, and an output shaft of the driving device I6 is connected with the stirring shaft 3 through the gearbox I5.
The mixing drum 2 is horizontally arranged, and the bottom of the mixing drum 2 is fixedly connected with the vehicle body 24 through a second support 23.
And automatic flow control and metering devices 10 are respectively arranged at the feed opening of the feed hopper 1 and the liquid inlets of the mixing drum 2.
The primary extrusion reaction device 12 and the secondary extrusion reaction device 19 are both double-roller extrusion reaction devices; the primary extrusion reaction device 12 consists of a first extrusion container and 2 first extrusion rollers 13 arranged in the first extrusion container, and the 2 first extrusion rollers 13 are driven by corresponding driving devices to rotate relatively; the secondary extrusion reaction device 19 is composed of a second extrusion container and 2 second extrusion rollers 20 arranged in the second extrusion container, and the 2 second extrusion rollers 20 are driven by the corresponding driving devices to rotate relatively.
The gap between the 2 first extrusion rollers 13 is 3-5 mm, and the gap between the 2 second extrusion rollers 20 is 1-3 mm; the primary extrusion reaction device 12 and the secondary extrusion reaction device 19 are both internally provided with roller spacing adjusting devices.
The material stirring roller 15 is driven by a material stirring roller driving device; the material stirring roller driving device consists of a second driving device 18 and a second gearbox 17, the second driving device 18 is fixedly connected with the vehicle body 24 through a third support 26, and an output shaft of the second driving device 18 is connected with the rotating shaft 16 of the material stirring roller 15 through the second gearbox 17.
Wheels 25 are respectively arranged on two sides of the bottom of the vehicle body 24.
The working process of the bentonite sodium modification treatment device is as follows:
1) the calcium bentonite enters the mixing drum 2 after passing through the feed hopper 1 and being metered by the automatic flow control and metering device 10, and the sodium liquid stored in the sodium liquid barrel 7 is pumped out by the delivery pump 8, conveyed by the liquid feeding pipeline 9 and then enters the mixing drum 2 after being metered by the automatic flow control and metering device 10; the sodium treatment solution contains Na+Solution of Na including2CO3、NaF、Na2SO4One or more of;
2) the first driving device 6 drives the stirring shaft 3 to rotate through the first gearbox 5, the bentonite and the sodium treatment solution in the stirring cylinder 2 are fully mixed and stirred through the stirring teeth 4 on the stirring shaft 3, and then the mixture is addedQuick Ca2+And Na+The exchange process of (2); heat is generated in the stirring process, the reaction temperature is increased, and the primary sodium treatment of the bentonite is realized;
3) conveying the preliminarily sodium-modified bentonite to a discharge port of the stirring cylinder 2, and feeding the bentonite into a primary extrusion reaction device 12 through a feeding hopper I11;
4) in the primary extrusion reaction device 12, 2 extrusion rollers 13 rotate oppositely to extrude and shear the falling bentonite, so that relative motion is generated between montmorillonite crystal layers and particles in the bentonite to separate, and Ca is generated2+And Na+The contact area is increased, and simultaneously, the montmorillonite crystals generate partial broken bonds, so that the secondary sodium treatment of the bentonite is realized;
5) the bentonite after the secondary sodium treatment falls into a discharging pipeline 14 through a discharging opening of the primary extrusion reaction device 12;
6) the second driving device 18 drives the rotating shaft 16 to rotate through the second gearbox 17, drives the material stirring roller 15 to rotate at a high speed, the bentonite extruded and bonded together is scattered through the rotation of the material stirring roller 15, and the dispersed bentonite falls into the secondary extrusion reaction device 19;
7) in a secondary extrusion reaction device 19, 2 extrusion rollers 20 rotate oppositely, so that the falling bentonite is buried for secondary extrusion and shearing, and the final sodium treatment of the bentonite is finished; the bentonite after sodium modification is delivered through a second discharge hopper 21.
In the bentonite sodium modification treatment device, the feed hopper 1 is arranged above and connected with the feed inlet of the mixing drum 2, the mixing shaft 3 is arranged in the mixing drum 2 along the direction from the feed inlet to the discharge outlet, the mixing shaft 3 is arranged in a full-length mode, and one end of the mixing shaft 3 is in transmission connection with the driving device I6 through the gearbox I5.
The number of the stirring shafts 3 is 2, a plurality of stirring teeth 4 are axially arranged on each stirring shaft 3, the stirring teeth 4 are spirally arranged on the stirring shafts 3, and the spiral directions of the stirring teeth 4 on the 2 stirring shafts 3 are opposite; the mixing drum 2 and 2 mixing shafts 3 are all horizontally arranged.
A first discharging hopper 11 is arranged below a discharging port of the stirring cylinder 2, the first discharging hopper 11 is connected with a feeding port at the top of a primary extrusion reaction device 12, and a pair of first extrusion rollers 13 is arranged inside the primary extrusion reaction device 12. The 2 first extrusion rollers 13 are driven to rotate oppositely through corresponding driving devices, gaps among the 2 first extrusion rollers are 3-5 mm, and the gaps can be adjusted through corresponding roller spacing adjusting devices.
The bottom of the primary extrusion reaction device 12 is provided with a feed opening connected with the upper end of a feed pipeline 14, a material stirring roller 15 is arranged in the feed pipeline 14, and the material stirring roller 15 is connected with a second gearbox 17 and a second driving device 18 through a rotating shaft 16.
The secondary extrusion reaction device 19 is arranged on the vehicle body 24, a feed inlet of the secondary extrusion reaction device 19 is connected with the lower end of the blanking pipeline 14, and a pair of second extrusion rollers 20 is arranged inside the secondary extrusion reaction device 19. The two squeezing rollers 20 are driven to rotate oppositely through corresponding driving devices, the gap between the two squeezing rollers is 1-3 mm, and the distance can be adjusted through corresponding roller distance adjusting devices.
The discharge hole at the bottom of the secondary extrusion reaction device 19 is connected with a second discharge hopper 21.
The first driving device 6 is fixed on the vehicle body through a first bracket 22, the mixing drum 2 is fixed on the vehicle body through a second bracket 23, and the second driving device 18 is fixed on the vehicle body through a third bracket 26. Wheels 25 are respectively arranged on two sides of the bottom body 24, and a sodium solution barrel 7 and a delivery pump 8 are also arranged on the vehicle body 24.
The top of the sodium liquid barrel 7 is provided with a delivery pump 8, sodium liquid is pumped out through the delivery pump 8 and then is sent into the mixing drum 2 through a liquid feeding pipeline 9, the liquid feeding pipeline 9 is respectively connected with a plurality of liquid inlets at the top of the mixing drum 2 through branch pipelines, and the discharge outlets at the bottom of each liquid inlet and the feed hopper 1 are respectively provided with an automatic flow control and metering device 10. The automatic flow control and metering device 10 for the discharging of the calcium bentonite adopts a conventional solid automatic flow control and metering device, such as a solid flow meter and a control valve in interlocking fit with the solid flow meter, and the automatic flow control and metering device 10 for the discharging of the sodium liquid adopts a conventional liquid automatic flow control and metering device, such as a liquid flow meter and a control valve in interlocking fit with the liquid flow meter.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (9)

1. A bentonite sodium modification treatment device is characterized by comprising a vehicle body, and a stirring component, a sodium modification liquid conveying component and an extrusion reaction component which are arranged on the vehicle body; the stirring assembly comprises a stirring driving device and a stirring drum, wherein a stirring paddle is arranged in the stirring drum and is driven by the stirring driving device; the sodium treatment liquid conveying assembly consists of a sodium treatment liquid barrel, a conveying pump and a liquid feeding pipeline; a feed port is formed in one end of the top of the mixing drum, a discharge port is formed in the other end of the bottom of the mixing drum, a plurality of liquid inlets are formed in the top of the mixing drum between the feed port and the discharge port, and a mixing paddle is arranged in the mixing drum between the feed port and the discharge port; a feed port of the mixing drum is connected with a feed port of the upper feed hopper; the sodium treatment liquid barrel is arranged on the vehicle body, the liquid inlet end of the delivery pump is connected with the sodium treatment liquid barrel, and the liquid outlet end of the delivery pump is connected with a plurality of liquid inlets through liquid feeding pipelines; the extrusion reaction assembly consists of a primary extrusion reaction device and a secondary extrusion reaction device, a discharge port of the mixing drum is connected with a feed port of the primary extrusion reaction device through a first discharge hopper, a discharge port of the primary extrusion reaction device is connected with a feed port of the secondary extrusion reaction device through a discharge pipeline, and a stirring roller is arranged in the discharge pipeline; a discharge hopper II is arranged at the discharge opening of the secondary extrusion reaction device.
2. The bentonite sodification modification treatment device according to claim 1, wherein the number of the stirring paddles is 2, and each stirring paddle is composed of a stirring shaft and a plurality of stirring teeth arranged on the corresponding stirring shaft; the stirring shaft is arranged along the longitudinal length of the stirring cylinder; a plurality of stirring teeth on the stirring shaft are spirally arranged along the stirring shaft, and the spiral directions of the stirring teeth on the 2 stirring shafts are opposite.
3. The device for sodium modification treatment of bentonite according to claim 1, wherein the stirring driving device is composed of a first driving device and a first gearbox, the first driving device is fixedly connected with the vehicle body through a first bracket, and an output shaft of the first driving device is connected with the stirring shaft through a first gearbox.
4. The bentonite sodification reforming device as claimed in claim 1, wherein the mixing drum is horizontally arranged, and the bottom of the mixing drum is fixedly connected with the vehicle body through a second bracket.
5. The apparatus of claim 1, wherein an automatic flow control and metering device is provided at the feed inlet of the feed hopper and at each inlet of the mixing drum.
6. The bentonite sodification reforming processing device according to claim 1, wherein the primary extrusion reaction device and the secondary extrusion reaction device are both roller extrusion reaction devices; the primary extrusion reaction device consists of a first extrusion container and 2 first extrusion rollers arranged in the first extrusion container, and the 2 first extrusion rollers are driven by the corresponding driving devices to rotate relatively; the secondary extrusion reaction device consists of a second extrusion container and 2 second extrusion rollers arranged in the second extrusion container, and the 2 second extrusion rollers are driven by the corresponding driving devices to rotate relatively.
7. The bentonite sodification modification treatment device according to claim 6, wherein the clearance of 2 first extrusion rollers is 3-5 mm, and the clearance of 2 second extrusion rollers is 1-3 mm; and roller spacing adjusting devices are arranged in the primary extrusion reaction device and the secondary extrusion reaction device.
8. The bentonite sodification reforming processing device according to claim 1, wherein the material poking roller is driven by a material poking roller driving device; the material stirring roller driving device consists of a driving device II and a gearbox II, the driving device II is fixedly connected with the vehicle body through a support III, and an output shaft of the driving device II is connected with a rotating shaft of the material stirring roller through the gearbox II.
9. The device for sodium modification treatment of bentonite according to claim 1, wherein wheels are respectively arranged on two sides of the bottom of the vehicle body.
CN202122981571.6U 2021-11-30 2021-11-30 Sodium modification treatment device for bentonite Active CN216711609U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122981571.6U CN216711609U (en) 2021-11-30 2021-11-30 Sodium modification treatment device for bentonite

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Application Number Priority Date Filing Date Title
CN202122981571.6U CN216711609U (en) 2021-11-30 2021-11-30 Sodium modification treatment device for bentonite

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Publication Number Publication Date
CN216711609U true CN216711609U (en) 2022-06-10

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CN202122981571.6U Active CN216711609U (en) 2021-11-30 2021-11-30 Sodium modification treatment device for bentonite

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114132942A (en) * 2021-11-30 2022-03-04 中冶焦耐(大连)工程技术有限公司 Sodium modification treatment device and process for bentonite

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114132942A (en) * 2021-11-30 2022-03-04 中冶焦耐(大连)工程技术有限公司 Sodium modification treatment device and process for bentonite
CN114132942B (en) * 2021-11-30 2024-01-16 中冶焦耐(大连)工程技术有限公司 Bentonite sodium modification treatment device and technology

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