CN208279509U - A kind of system using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma - Google Patents

Abstract

The utility model discloses a kind of systems using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma, including the mixing device and Muffle furnace set gradually, mixing device includes shell, the first mixing mechanism and the second mixing mechanism, feed inlet is provided on the right side of housing top surface, discharge port is provided on the left of housing bottom surface, housing bottom is additionally provided with supporting leg, and the first mixing mechanism is provided with the intracorporal top of shell, and the second mixing mechanism is arranged in the intracorporal lower part of shell；The system using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma can by tailing metallic copper and lead be fixed in devitrified glass product, the content of amorphous material lead feldspar, orthoclase and copper spinelle is higher in obtained devitrified glass and can effectively prevent the bleeding of heavy metal lead and copper.

Description

A kind of system using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma

Technical field

The utility model relates to a kind of systems using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma.

Background technique

Kaolin is a kind of nonmetallic minerals, is a kind of clay and clay rock based on kaolinite race clay mineral.Cause White and fine and smooth, also known as white clouds are native.It gains the name because of Jiangxi Province Jing Dezhen kaolinite village.The pure kaolin of its matter is in pure white thin Greasy, soft earthy has the physicochemical properties such as good plasticity and fire resistance.Its mineralogical composition mainly by kaolinite, galapectite, The mineral compositions such as hydromica, illite, montmorillonite and quartz, feldspar.Kaolin purposes is very extensive, be mainly used for papermaking, Ceramics and refractory material, secondly for coating, gum filler, frit for porcelain enamel and white cement raw material, on a small quantity for plastics, paint, The industrial departments such as pigment, grinding wheel, pencil, daily cosmetics, soap, pesticide, medicine, weaving, petroleum, chemical industry, building materials, national defence.

In existing system of processing, there are no the processing systems using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma System, to the METAL EXTRACTION of copper tailing, there are important meanings.

It is accordingly required in particular to it is a kind of can by tailing metallic copper and lead be fixed on the utilization kaolinite in devitrified glass product The system of heavy metal in the fixed copper tailing of soil matrix presoma, to solve problems of the prior art.

Utility model content

Purpose of the utility model is to solve defects in the prior art, and providing one kind can be by the metallic copper in tailing It is fixed on the system using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma in devitrified glass product with lead, it is existing to solve There is the problem of technology.

To achieve the above object, the technical solution of the utility model is as follows:

A kind of system using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma, including the mixing device set gradually And Muffle furnace, the mixing device include shell, the first mixing mechanism and the second mixing mechanism, setting on the right side of the housing top surface There is feed inlet, is provided with discharge port on the left of the housing bottom surface, the housing bottom is additionally provided with supporting leg, first mixing Mechanism is provided with the intracorporal top of shell, and second mixing mechanism is arranged in the intracorporal lower part of shell.

In order to further realize the utility model, the supporting leg is provided with four, and four supporting legs are separately positioned on shell On four angles of body bottom.

In order to further realize the utility model, the supporting leg bottom is provided with cushion blocking, and the cushion blocking includes rubber Glue damping block and the shock-absorbing spring being arranged in rubber damping plate.

In order to further realize the utility model, the shock-absorbing spring is uniformly distributed setting along rubber damping plate.

In order to further realize the utility model, first mixing mechanism includes first motor, first rotating shaft and rotation Bar, the first motor are fixed on the top surface middle part of shell, and one end of the first rotating shaft is fixed on first motor Bottom, the other end protrude into shell and connect setting with rotating bar, and described rotating bar one end is hinged with first rotating shaft, and the other end passes through Spring is connect with first rotating shaft.

In order to further realize the utility model, second mixing mechanism includes the second motor, the second shaft and rotation Leaf is promoted, second motor is arranged on lateral surface in the lower part of the housing, and one end and the second motor of second shaft are fixed Connection, the other end is through shell and protrudes into setting, the side for rotating and upgrading leaf and the second shaft inserting end being arranged in shell On.

Beneficial effect

(1) the utility model first uniformly mixes copper tailing powder with kaolinite soil matrix ceramic forerunner, is put into aluminium oxide Then crucible is placed in Muffle furnace by crucible, heating after a certain period of time after natural cooling, can by tailing metallic copper and lead consolidate Content due to amorphous material lead feldspar, orthoclase and copper spinelle in the devitrified glass in devitrified glass product, obtained is higher And it can effectively prevent the bleeding of heavy metal lead and copper.

Detailed description of the invention

Fig. 1 is flow chart of the utility model using the system of heavy metal in the fixed copper tailing of kaolinite soil matrix presoma；

Fig. 2 is that the utility model utilizes mixing device in the system of heavy metal in the fixed copper tailing of kaolinite soil matrix presoma Structural schematic diagram；

Fig. 3 is knot of the utility model using cushion blocking in the system of heavy metal in the fixed copper tailing of kaolinite soil matrix presoma Structure schematic diagram.

Description of symbols:

1, mixing device；11, shell；12, the first mixing mechanism；121, first motor；122, first rotating shaft；123, it rotates Bar；124, spring；13, the second mixing mechanism；131, the second motor；132, the second shaft；133, leaf is rotated and upgraded；14, it feeds Mouthful；15, discharge port；16, supporting leg；17, cushion blocking；171, rubber damping plate；172, shock-absorbing spring；2, Muffle furnace.

Specific embodiment

The utility model is further described in detail with reference to the accompanying drawing, these attached drawings are simplified signal Figure, only illustrates the basic structure of the utility model, the direction of this specific implementation is using the direction Fig. 1 as standard in a schematic way.

Embodiment one

As shown in Figure 1-Figure 3, the utility model fixes the system packet of heavy metal in copper tailing using kaolinite soil matrix presoma Include the mixing device 1 and Muffle furnace 2 set gradually, in which:

Mixing device 1 includes shell 11, the first mixing mechanism 12 and the second mixing mechanism 13, setting on the right side of 11 top surface of shell There is feed inlet 14, is provided with discharge port 15 on the left of 11 bottom surface of shell, 11 bottom of shell is additionally provided with supporting leg 16, and supporting leg 16 is set Four are equipped with, four supporting legs 16 are separately positioned on four angles of 11 bottom of shell, and 16 bottom of supporting leg is provided with cushion blocking 17, cushion blocking 17 includes rubber damping plate 171 and the shock-absorbing spring 172 being arranged in rubber damping plate 171, shock-absorbing spring 172 Setting is uniformly distributed along rubber damping plate 171.

First mixing mechanism 12 is provided with the top in shell 11, and the first mixing mechanism 12 includes first motor 121, the One shaft 122 and rotating bar 123, first motor 121 are fixed on the top surface middle part of shell 11, and the one of first rotating shaft 122 End is fixed on the bottom of first motor 121, and the other end protrudes into shell 11 and connect setting, 123 one end of rotating bar with rotating bar 123 Hinged with first rotating shaft 122, the other end is connect by spring 124 with first rotating shaft 122, by being provided with rotating bar 123, the The rotation of one motor 121 drives first rotating shaft 122 to move, and rotating bar 123 is unfolded under the influence of centrifugal force, passes through the first electricity of control The velocity of rotation of machine 121 controls the size of centrifugal force, to control the expanded angle of rotating bar 123, expands stirring range, Improve mixing effect；The lower part in shell 11 is arranged in second mixing mechanism 13, and the second mixing mechanism 13 includes the second motor 131, the second shaft 132 and leaf 133 being rotated and upgraded, the second motor 131 is arranged on the lateral surface of 11 lower part of shell, and second turn One end of axis 132 is fixedly connected with the second motor 131, and the other end is through shell 11 and protrudes into setting in shell 11, is rotated and upgraded Leaf 133 is arranged on the side of 132 inserting end of the second shaft, by being provided with the first mixing mechanism 12 and the second mixing mechanism 13, mixing is stirred to the material of 11 internal upper part of shell and lower part, improves mixing efficiency, is mixed more uniform.

A kind of Muffle furnace disclosed in Patent No. CN201220008075.0 can be used in Muffle furnace 2.

The system first uniformly mixes copper tailing powder with kaolinite soil matrix ceramic forerunner, is put into alumina crucible, so Crucible is placed in Muffle furnace 2 afterwards, heating after a certain period of time after natural cooling, can by tailing metallic copper and lead be fixed on it is micro- In crystal glass product, the content of amorphous material lead feldspar, orthoclase and copper spinelle is higher in obtained devitrified glass and can have The bleeding for preventing heavy metal lead and copper of effect.

The foregoing is merely the better embodiment of the utility model, the utility model is not limited to above-mentioned embodiment party Formula, there may be the structural modifications that part is small in implementation process, if various changes or modifications to the utility model are not The spirit and scope of the utility model are detached from, and are belonged within the scope of the claims and equivalents of the utility model, then originally Utility model is also intended to encompass these modification and variations.

Claims (6)

1. a kind of system using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma, which is characterized in that including setting gradually Mixing device and Muffle furnace, the mixing device includes shell, the first mixing mechanism and the second mixing mechanism, the shell top Right side of face is provided with feed inlet, is provided with discharge port on the left of the housing bottom surface, the housing bottom is additionally provided with supporting leg, institute It states the first mixing mechanism and is provided with the intracorporal top of shell, second mixing mechanism is arranged in the intracorporal lower part of shell.

2. the system according to claim 1 using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma, feature exist In the supporting leg is provided with four, and four supporting legs are separately positioned on four angles of housing bottom.

3. the system according to claim 1 using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma, feature exist In the supporting leg bottom is provided with cushion blocking, and the cushion blocking includes rubber damping plate and is arranged in rubber damping plate Shock-absorbing spring.

4. the system according to claim 3 using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma, feature exist In the shock-absorbing spring is uniformly distributed setting along rubber damping plate.

5. the system according to claim 1 using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma, feature exist In first mixing mechanism includes first motor, first rotating shaft and rotating bar, and the first motor is fixed at shell On in the middle part of top surface, one end of the first rotating shaft is fixed on the bottom of first motor, and the other end protrudes into shell to be connected with rotating bar Setting is connect, described rotating bar one end and first rotating shaft are hinged, and the other end is connect by spring with first rotating shaft.

6. the system according to claim 1 using heavy metal in the fixed copper tailing of kaolinite soil matrix presoma, feature exist In second mixing mechanism includes the second motor, the second shaft and rotates and upgrades leaf, and second motor is arranged under shell On the lateral surface in portion, one end of second shaft is fixedly connected with the second motor, and the other end is through shell and protrudes into shell Setting, the leaf that rotates and upgrades are arranged on the side of the second shaft inserting end.