CN215843465U - Continuous experimental device for ore processing and selecting factory - Google Patents

Abstract

The application relates to a continuous experimental device for ore processing and plant selection, which belongs to the field of experimental equipment and comprises a lower box body, wherein an installation cavity is formed in the lower box body, a first installation station is arranged in the installation cavity, and a first treatment equipment group is detachably arranged on the first installation station correspondingly; the upper box body is detachably arranged above the lower box body and is provided with a plurality of second installation stations, a second treatment equipment group is detachably arranged on each second installation station correspondingly, and a slurry conveying pipe is connected between each second treatment equipment and the corresponding first treatment equipment; the technical process of the current laboratory can be optimized by the scheme; in addition, by arranging the upper box body and the lower box body, different devices are arranged in the upper box body and the lower box body, and particularly, the situation that manual or other devices specially transport or carry the mineral slurry or water is avoided by utilizing the gravity flow of partial mineral slurry or water in the mineral processing process is utilized, and whether the designed process is appropriate or not is verified by utilizing the cooperation among the process devices, so that a direction with more guiding significance is provided for investment and factory building.

Description

Continuous experimental device for ore processing and selecting factory

Technical Field

The utility model relates to the field of experimental equipment, in particular to a continuous experimental device for ore processing and selecting plants.

Background

At present, the development of the global mineral industry is continuously heated, and particularly in some areas with underdeveloped economy, the development field of mineral resources invests fire and heat, and investors continuously build selection plants. However, the direct investment of the factory building is relatively high in capital and resource uncertainty risk, and in order to reduce the investment risk, part of investment enterprises can select and build a medium-sized laboratory before the factory building and install mineral processing equipment in the laboratory to verify whether the designed processing process flow is reasonable or not, and necessary test parameters and investment basis are provided for the factory building. At present, the conventional domestic expansion continuous test of ores before ore development generally comprises the steps of transporting the ores to enterprises or scientific research institutions of corresponding equipment to carry out corresponding experiments, however, investment and plant building in mineral resource development are generally selected at positions close to underground storage places of the minerals, and the experimental mode of the mode can lead to different guidance of obtained experimental structures due to different mineral dressing environments and water quality; in addition, some temporary laboratories are built at a position close to a mineral resource storage place for the convenience of temporary detection of ores, but the laboratories of the type generally have simple process flow, poor process adaptability and small equipment processing capacity, and certainly have lower guidance on investment and plant building.

SUMMERY OF THE UTILITY MODEL

This application is in order to solve current ore processing and selects factory when enlarging continuous test, the equipment process flow in current laboratory is comparatively simple, the little problem of equipment throughput, and when experimenting based on above-mentioned laboratory, it is lower to the instructive of investment factory building, this application designs a continuous experimental apparatus for ore processing and selects factory, and the technical scheme of its concrete adoption is:

a continuous experimental apparatus for ore processing plant selection, comprising:

the device comprises a lower box body, a first processing device group and a second processing device group, wherein an installation cavity is formed in the lower box body, a first installation station is arranged in the installation cavity, and the first installation station is correspondingly detachably provided with the first processing device group;

go up the box, go up the box and can dismantle the top that sets up in box down, go up the box and have the second installation station, second installation station corresponds can dismantle and be provided with the second treatment facility group, is connected with defeated thick liquid pipe between second treatment facility group and the first treatment facility.

Preferably, a first mounting base is detachably arranged at the position corresponding to the first mounting station, and the first processing equipment group is correspondingly arranged on the first mounting base.

Preferably, a second installation base is detachably arranged at the position corresponding to the second installation station, and the second processing equipment group is correspondingly arranged on the second installation base.

Preferably, the first treatment equipment comprises a plurality of hose pumps, each hose pump is connected with the first treatment equipment group through a pulp conveying pipe, and the plurality of hose pumps are arranged side by side in a straight shape along the length direction of the lower box body.

Preferably, the first processing apparatus group further includes:

ball mill, linear sieve and magnet separator, ball mill, linear sieve and magnet separator can dismantle through first installation base respectively and set up in box down, and ball mill, linear sieve and magnet separator are "one" style of calligraphy setting with a plurality of hose pumps, and ball mill, linear sieve and alternate setting of magnet separator.

Preferably, the second processing apparatus group includes:

an outlet of the mud removing hopper penetrates through the bottom end face of the upper box body and extends into the lower box body;

screening equipment, screening equipment are located the top that takes off the mud fill, and screening equipment passes through the second installation base and can dismantle to set up in last box.

Preferably, the second processing apparatus group further includes:

stirred tank and flotation machine, stirred tank and flotation machine can dismantle through second installation base and set up in last box, and stirred tank and screening equipment are "one" style of calligraphy and set up side by side with taking off the mud fill.

Preferably, the outer side surface of the upper box body is also provided with a walking ladder, the upper end of the walking ladder is abutted against the upper box body, and the lower end of the walking ladder is abutted against the ground.

Preferably, the lower box body and the upper box body are respectively provided with an inlet and an outlet, the two inlets and the two outlets of the lower box body are respectively arranged on two opposite sides of the lower box body, one inlet and the one outlet are arranged on one side close to a mine site, and the inlet and the outlet of the upper box body are arranged on one side far away from the mine site.

Preferably, the upper and lower cases are formed of the body of the container.

The technical scheme of the utility model can optimize the current laboratory process flow, different devices are arranged in the upper box body and the lower box body through the arrangement of the upper box body and the lower box body, particularly, the independent transportation or the carrying required by manpower is avoided by utilizing the self-flowing of partial ore pulp or water in the mineral processing process, the proper design flow is verified by utilizing the cooperation among the process devices, a guide direction is provided for investment and factory building, in addition, the devices in the designed flow can be reasonably arranged and adjusted correspondingly by a plurality of installation stations, and the adjustment convenience is improved.

Drawings

FIG. 1 is a front view of the present invention;

fig. 2 is a plan view of the lower case of fig. 1.

In the figure, 1, a lower box body, 2, an upper box body, 3, a walking ladder, 4, a first installation base, 5, a first processing equipment group, 501, a hose pump, 502, a ball mill, 503, a linear sieve, 504, a magnetic separator, 6, a second processing equipment group, 601, a desliming bucket, 602, screening equipment, 603, a stirring tank, 604, a flotation machine, 7, a second installation base, 8 and an inlet and outlet.

Detailed Description

In order to clearly explain the technical features of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings.

In addition, in the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc., indicate orientations and positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

As shown in fig. 1-2, a continuous experimental apparatus for ore processing plants includes an upper tank 2 and a lower tank 1. Wherein, lower box 1 is inside to have the installation cavity, first installation station has in the installation cavity, first installation station corresponds and to dismantle and be provided with first treatment facility group 5, first treatment facility group 5 includes hose pump 501, this hose pump 501 can be used for handling in the first treatment facility group 5 in the lower box 1 the ore pulp liquid of ore and squeeze into the second treatment facility group 6 in last box 2, this hose pump 501's structure is current ripe technique, consequently, do not detail it in this application.

And last box 2 is then the top that is located box 1 down to go up box 2 and can dismantle the upper surface that sets up box 1 under, last box 2 and lower box 1 of here are the releasable connection who utilizes the twistlock to realize, and the twistlock can avoid this operation of punching alone on the box, utilizes the connecting hole of four corners on last box 2 or the lower box 1, directly utilizes the twistlock to connect it, avoids because of the hole punching including reducing the intensity of going up box 2 or lower box 1. The upper box body 2 is also internally provided with a second installation station, the second installation station is correspondingly detachably provided with a second treatment equipment set 6, the second treatment equipment set 6 comprises a desliming bucket 601, and an outlet of the desliming bucket 601 penetrates through the bottom end surface of the upper box body 2 and extends into the lower box body 1.

When the ore is processed, the ore is first manufactured into ore pulp liquid of the ore and water, the ore pulp liquid is driven into the desliming hopper 601 in the upper box body 2 from the lower box body 1 by the hose pump 501, desliming and concentration are carried out in the desliming hopper 601, and then the ore pulp liquid enters other equipment in the first processing equipment group 5 by the self weight of the ore pulp liquid. The technical scheme can optimize the current laboratory process flow; in addition, by arranging the upper box body 2 and the lower box body 1, different devices are arranged in the upper box body 2 and the lower box body 1, and particularly, the gravity flow of part of ore pulp or water in the mineral processing process is utilized to avoid special transportation or carrying of manpower or other devices, so that the process flow among the devices is optimized, and a direction with more guiding significance is provided for investment and factory building.

Further, in order to adjust or optimize the process flow of ore processing conveniently, it is equipped with first installation base 4 to dismantle corresponding first installation station department, and first treatment facility group 5 corresponds and sets up in first installation base 4, also sets up on box 1 down through first installation base 4 including hose pump 501, and first installation base 4 here can be dismantled and set up and can be fixed on box 1 down through bolt and nut, screw or double-screw bolt etc. at first installation station. If one of the first treatment equipment 5 is not beneficial to the optimization of the whole ore processing process flow, the first mounting base 4 of the equipment can be detached from the lower box body 1, so as to optimize the process flow of the whole ore processing in the laboratory; of course, other equipment can be added to optimize the process flow, and of course, when the equipment is added, the equipment is also fixed on the lower box body 1 through the first installation base 4.

Further, correspondingly, a second mounting base 7 can be detachably arranged at a corresponding second mounting station, the second processing equipment group 6 is correspondingly arranged on the second mounting base 7, the function of the second mounting base 7 is the same as that of the first mounting base 4, and the second mounting base 7 can be detachably fixed on the upper box body 2 through bolts, nuts, screws, studs and the like; other equipment can be removed or added through the second mounting base 7 to optimize the processing flow.

Further, in order to meet the requirement, the hose pumps 501 are provided in a plurality, because the ore needs to be subjected to a plurality of different process treatment operations during processing, but different process treatment devices are arranged at different heights in a vertical space, so that the hose pumps 501 are required to provide power, the hose pumps 501 are arranged side by side in a straight line shape along the length direction of the lower box body 1, the hose pumps 501 arranged in a straight line shape can be arranged according to the shape of the lower box body 1, the occupied space of the hose pumps 501 in the width direction is smaller, the space of the lower box body 1 in the length direction is reasonably utilized, and the arrangement is more reasonable.

Further, in some embodiments, the first processing equipment set 5 further comprises a ball mill 502, a linear screen 503, and a magnetic separator 504. The linear sieve 503 is an advanced wet-type sieve for mined ore, large-particle impurities in the mined ore are sieved, ore pulp is screened under the sieve, the ore pulp is pumped into the mud removing hopper 601 by using the hose pump 501, the ore is concentrated and concentrated by the mud removing hopper 601 on the upper box body 2, then flows into the ball mill under the action of self weight, and the ball mill 502 ball-mills the ore to reach proper ore grinding fineness, so that useful mineral monomers are dissociated. The plurality of hose pumps 501 are disposed in line with and spaced apart from the ball mill 502, the linear sieve 503, and the magnetic separator 504 inside the lower casing 1. Alternate setting can match the equipment on the box 2, shortens the hose pump 501 and uses the pipeline overlength when cooperating with the equipment on last box 2, and then causes hose pump 501 to increase its pressure because of the pipeline length.

Further, the second processing equipment group 6 further includes a screening device 602, the screening device 602 is a high-frequency fine screen and is located above another mud removing head, the screening device 602 is detachably mounted on the upper box 2 through the second mounting base 7, the detachable connection here is also through bolts, nuts, studs or screws, and when the process flow of the equipment in the whole experimental apparatus is adjusted, the process flow of the apparatus can be optimized by detaching the existing equipment inside or adding other equipment. The ore is ground in the ball mill 502, and is driven into the screening device 602 again through the hose pump 501, large-particle ore screened by the screening device 602 enters the ball mill again, and small-particle ore screened below enters the desliming hopper 601 below the screening device 602 to be concentrated again.

However, further, the second processing equipment group 6 further comprises an agitation tank 603 and a flotation machine 604, other substances are added to the agitation tank 603, so that the slurry is fully mixed with the other substances, then the slurry in the agitation tank 603 is pumped into the flotation machine 604 through the hose pump 501 again, the flotation machine 604 selects target minerals, then the tailings slurry after flotation flows into the magnetic separator 504 under the gravity flow effect, and magnetic substances are selected by the magnetic separator 504, so that the whole process flow improves the grade of ores. In addition, the stirring tank 603, the screening device 602 and the desliming hopper 601 are in a shape like a Chinese character 'yi' and are arranged side by side, so that the stirring tank can be specifically arranged according to the shape of the upper box body 2, the occupied space of the upper box body in the width direction is reduced, the ore floatation is completed in a flowing water mode in the length direction, the grade of the ore floatation is improved, the device arrangement in the whole experimental device is optimized, the structure of each device is compact, the space in the vertical direction is reasonably utilized, and the occupied area of the device in the horizontal direction is saved.

Through setting up different equipment at last box 2 and lower box 1, utilize last box 2 to go up equipment and utilize its action of gravity to realize in box 1 equipment under getting into, the installation of simplification equipment of the hose pump 501 that significantly reduces, also reduces consumption and cost to a certain extent and drops into.

Further, go up 2 lateral surfaces of box and still be equipped with walking ladder 3, the upper end and the last 2 butts of box of walking ladder 3, lower extreme and ground butt, inside the box 2 can be gone into to the operating personnel of being convenient for of walking ladder 3, be convenient for do other adjustments to the inside equipment of last box 2.

Furthermore, the lower box body 1 and the upper box body 2 are respectively provided with an inlet and an outlet, two inlets and outlets 8 of the lower box body 1 are arranged, the two inlets and outlets 8 are respectively arranged at two opposite sides of the lower box body, one inlet and outlet 8 is arranged close to one side where a mine site is located, so that feeding is facilitated to the linear sieve 503, the other inlet and outlet 8 is used as an artificial inlet and outlet, so that manual inlet and outlet are facilitated to be manually fed in and out, the artificial inlet and outlet and the feeding inlet and outlet are separately separated, so that artificial safety is ensured, the artificial safety coefficient is improved, the inlet and outlet of the upper box body 2 is arranged away from one side where the mine site is located, the linear sieve 503 arranged in the lower box body 1 is used as a starting end of the whole process flow, the linear sieve contacts with ores at the external location at the first time, the inlet and outlet 8 are close to the location of the mine site, so that the material conveying time is reduced, and the inlet and outlet of the upper box body 2 are arranged away from one side where the mine site is located, so that the walking ladder 3 is correspondingly arranged at the side, the entrance and exit of the operator at the entrance 8 of the lower case 1 are not obstructed, and the entrance of dust in the upper case 2 is reduced.

In one embodiment, the upper and lower cases 2 and 1 are replaced by an integral container, the container can be directly pulled to the place where the investment is to be built, and the container can be installed nearby, so that the problem of guiding failure of the experimental result to the investment building due to the difference of the mineral separation environment and water quality can be reduced, and in addition, the container can be used for concentrating the internal devices inside, so as to pre-install the internal devices, for example, the devices inside the lower case 1 are pre-installed, the devices inside the upper case 2 are pre-installed (except the mud removing bucket 601), because the outlet of the mud removing bucket 601 extends into the lower case 1, the lower case 1 and the upper case 2 need to be punched, and when the container is actually transported, the container needs to be ensured to be complete, and after the container reaches the position of the investment building, the container is then perforated on site and the desliming hopper 601 is installed on site.

The structures of the linear sieve 503, the high-frequency fine sieve, the desliming bucket 601, the ball mill 502, the flotation machine 604, the magnetic separator 504, and the stirring tank 603 are conventional, and the structures thereof are described in detail here in the present application.

The above-described embodiments should not be construed as limiting the scope of the utility model, and any alternative modifications or alterations to the embodiments of the present invention will be apparent to those skilled in the art.

The present invention is not described in detail, but is known to those skilled in the art.

Claims (10)

1. A continuous experimental apparatus for ore processing mill selection, comprising:

the device comprises a lower box body, a first processing device group and a second processing device group, wherein an installation cavity is formed in the lower box body, a first installation station is arranged in the installation cavity, and the first installation station is correspondingly detachably provided with the first processing device group;

go up the box, go up the box be located down the box and can dismantle set up in box down, it has second installation station to go up the box, second installation station corresponds can dismantle and is provided with second treatment facility group, second treatment facility with be connected with defeated thick liquid pipe between the first treatment facility.

2. The continuous experimental device for ore processing plant selection according to claim 1, wherein a first installation base is detachably arranged at a position corresponding to the first installation station, and the first processing equipment group is correspondingly arranged on the first installation base.

3. The continuous experimental apparatus for ore processing plant selection according to claim 1 or 2, wherein a second installation base is detachably disposed at a position corresponding to the second installation station, and the second processing equipment set is correspondingly disposed on the second installation base.

4. The continuous experimental apparatus for ore processing plant according to claim 3, wherein the first treatment device comprises a plurality of hose pumps, each hose pump is connected with the first treatment device group through the slurry conveying pipe, and the plurality of hose pumps are arranged side by side in a straight line shape along the length direction of the lower box body.

5. The continuous experimental facility for ore processing plant according to claim 4, wherein the first processing equipment set further comprises:

ball mill, rectilinear sieve and magnet separator, the ball mill the rectilinear sieve with the magnet separator can dismantle respectively through first installation base set up in the box down, the ball mill the rectilinear sieve with the magnet separator is with a plurality of the hose pump is "one" style of calligraphy and sets up, just the ball mill the rectilinear sieve with the alternate setting of magnet separator.

6. The continuous experimental installation for ore processing plants according to claim 4, characterized in that said second set of treatment devices comprises:

an outlet of the mud removing hopper penetrates through the bottom end face of the upper box body and extends into the lower box body;

screening equipment, screening equipment is located take off the top of mud fill, just screening equipment passes through second installation base can dismantle set up in go up the box.

7. The continuous experimental facility for ore processing plant according to claim 6, wherein the second processing equipment set further comprises:

the stirring tank with the flotation machine passes through the second installation base can dismantle set up in go up the box, the stirring tank with screening equipment with it is "one" style of calligraphy and set up side by side to take off the mud fill.

8. The continuous experimental device for ore processing and selecting factory as claimed in claim 1, wherein the outer side surface of the upper box body is further provided with a walking ladder, the upper end of the walking ladder is abutted against the upper box body, and the lower end of the walking ladder is abutted against the ground.

9. The continuous experimental device for ore processing and selecting factory as claimed in claim 1, wherein the lower box body and the upper box body are respectively provided with two inlets and outlets, the two inlets and outlets are respectively arranged at two opposite sides of the lower box body, one of the inlets and outlets is arranged near one side of the mine site, and the other inlet and outlet of the upper box body is arranged far away from one side of the mine site.

10. A continuous experimental installation for an ore processing plant according to claim 1 or 9, characterized in that said upper and lower casings are formed by casings of containers.

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