CN205653177U - Heating device for be arranged in separating cristobalite from bentonite - Google Patents

Abstract

The utility model discloses a heating device for separating cristobalite from bentonite, which comprises a shell, an upper heating module, a lower heating module, a heating pipe and a temperature probe; the heating upper module and the heating lower module are sequentially arranged in the shell from top to bottom, and refractory materials are filled between the heating upper module and the shell and between the heating lower module and the shell; the heating upper module is provided with a plurality of hole grooves; a first groove is formed in the side wall of the heating upper module, and the temperature probe is installed in the first groove; and a second groove is formed in the upper surface of the heating lower module, and the heating pipe is laid in the second groove. The utility model discloses heating device has characteristics such as the thermal efficiency is high, the heating is even, convenient operation, but wide application carries out research experiments such as sample dissolution or then separation in physics and chemistry laboratory.

Description

A kind of heater for christobalite is separated from bentonite

Technical field

This utility model relates to bentonite production technical field, particularly relate to a kind of for by christobalite from swelling The heater separated in soil.

Background technology

Bentonite is a kind of important nonmetallic minerals, is widely used in multiple field.China's bentonite storage Amount is occupied the forefront in the world.Bentonite main component is montmorillonite, and with the illite of montmorillonite association, height The mineral such as ridge stone, zeolite, quartz.Bentonite character is mainly determined by its contained montmorillonite, therefore, covers De-stone content is the most important index evaluating bentonite quality.In bentonite, christobalite content is to affect swelling The quality of soil and range of application, after general bentonite needs to isolate christobalite therein, just can meet more How high application requirement, therefore carry out thermal release to the christobalite in bentonite, it is simply that one is worth research Practical technique, heater is then one of key equipment of isolation technics.

Summary of the invention

The purpose of this utility model is for existing heater, in terms of the firing equipment such as electric hot plate, electric furnace Deficiency, it is provided that a kind of heater for christobalite is separated from bentonite.

For achieving the above object, this utility model takes techniques below scheme: one is used for christobalite from swollen The heater separated in profit soil, including shell, heating upper module, heating lower module, heating Pipe, temperature probe；Described heating upper module, heating lower module are sequentially arranged in shell from top to bottom, Described heating upper module, heating lower module and shell between be filled with refractory material；Described heating top Some hole slots are had in module；Having the first groove on the sidewall of described heating upper module, described temperature is visited Head is arranged in described first groove；The upper surface of described heating lower module has the second groove, described in add Heat pipe is laid in described second groove.

Further, described refractory material is glass fibre.

Further, described heating upper module and heating lower module are aluminum or aluminum alloy material.

Further, described temperature probe is temperature sensor.

The beneficial effects of the utility model are:

Or 1, the heating module up and down that this utility model is mainly made up of aluminum aluminium alloy, constituent material is the easiest , device heating-up temperature is uniform, and the shuttle dress of separation takes conveniently, and heating safely and fast, is effectively ensured Heating separating effect.

Or 2, the heating module up and down that this utility model uses uses aluminum aluminium alloy to make, when heating Heat conduction is fast, meets the requirement that work efficiency is high.

Accompanying drawing explanation

Fig. 1 is schematic perspective view of the present utility model；

Fig. 2 is the top view of heating upper module of the present utility model；

Fig. 3 is the top view of heating lower module of the present utility model；

In figure: shell 1；Heating upper module 2；Heating lower module 3；Add heat pipe 4；Temperature probe 5； Hole slot 6.

Detailed description of the invention

Below in conjunction with the accompanying drawings this utility model is described in detail.

As Figure 1-3, this utility model is widely portable to laboratory and carries out in bentonite christobalite when separating Required heat treated, it includes shell 1, heating upper module 2, heating lower module 3, adds heat pipe 4, temperature probe 5, refractory material；Described heating upper module 2, heating lower module 3 depend on from top to bottom Secondary it is arranged in shell 1, described heating upper module 2, is filled with between heating lower module 3 and shell 1 Refractory material, described refractory material such as glass fibre etc., select refractory material to be all considered as the factors such as corrosion-resistant； Some hole slots 6 are had, for placing the container containing sample, according to appearance in reality on described heating upper module 2 The size of device determines the size of hole slot；The first groove, institute is had on the sidewall of described heating upper module 2 State temperature probe 5 to be arranged in described first groove；The upper surface of described heating lower module 3 has second Groove, described in add heat pipe 4 and be laid in described second groove.

Described shell 1, is the outer containment vessel of heat-exchange device, can be ferrous material etc..

Owing to module requires that heat conduction is fast, uniformly etc., the material such as aluminum and aluminium alloy is preferably to select, so on Jia Re Or portion's module 2 and heating lower module 3 use aluminum aluminum alloy materials.

Described temperature probe 5 is temperature sensor.

Work process of the present utility model is as follows: or weigh other samples of a certain amount of bentonite, it is placed in polytetrafluoro In ethylene container, add other molten sample reagent such as hexafluosilicic acid, shake up, place hole slot 6 on the heating In, make sample reach solution temperature by electrical heating, keep certain time.Need during heating to shake sample Solution, after treating that in bentonite, silicate fully dissolves, takes off cooling, filters and separate, it is also possible to be centrifugal etc. Other separate modes, precipitation is exactly christobalite, after drying, weighs, and i.e. can calculate its content.

Claims (4)

1. one kind is used for the heater separated from bentonite by christobalite, it is characterised in that include Shell (1), heating upper module (2), heating lower module (3), add heat pipe (4), temperature probe (5)； Described heating upper module (2), heating lower module (3) are sequentially arranged in shell (1) from top to bottom, Described heating upper module (2), heating lower module (3) and shell (1) between be filled with refractory material； Some hole slots (6) are had on described heating upper module (2)；The sidewall of described heating upper module (2) On have the first groove, described temperature probe (5) is arranged in described first groove；Described heating lower die The upper surface of block (3) has the second groove, described in add heat pipe (4) and be laid in described second groove.

Heater for christobalite is separated from bentonite the most according to claim 1, It is characterized in that, described refractory material is glass fibre.

Heater for christobalite is separated from bentonite the most according to claim 1, It is characterized in that, described heating upper module (2) and heating lower module (3) are aluminum or aluminum alloy material.

Heater for christobalite is separated from bentonite the most according to claim 1, It is characterized in that, described temperature probe (5) is temperature sensor.