CN216063732U - Integrated system for gold selection, drill selection and sand washing - Google Patents

Abstract

The utility model discloses a gold-selecting, drill-selecting and sand-washing integrated system, which comprises a sand pumping ship, an above-water ore dressing platform, a first above-water sand pumping platform, a second above-water sand pumping platform, an on-shore sand washing device and an on-shore sand-washing and drill-selecting device, wherein the sand pumping ship, the above-water ore dressing platform, the first above-water sand pumping platform and the second above-water sand pumping platform are all arranged on the water surface, and the on-shore sand washing device and the on-shore sand-washing and drill-selecting device are arranged on the shore; it meets on sand pumping ship and the ore dressing platform process on water to take out husky platform on water and second, first take out husky platform on water and take out husky platform on water respectively with ore dressing platform on water meets, the bank wash husky equipment with take out husky platform process on water and meet, the bank wash husky select to bore equipment with take out husky platform process on water and meet. The utility model adopts the integrated operation system to carry out gold and sand mining, and can realize the full utilization of resources and the protection of environmental ecology to the maximum extent.

Description

Integrated system for gold selection, drill selection and sand washing

Technical Field

The utility model relates to an integrated system for gold selection, drill selection and sand washing.

Background

The realization of the full utilization of resources and the reduction of environmental ecological damage are always continuous pursuits of people in the period of industrial activity. Particularly, in the gold panning work, the existing gold panning process has the defects of simple and crude equipment, extensive operation process, low dispersion and recovery efficiency of operation equipment and easy influence on the local ecological environment, so the gold panning process needs to be improved and is more integrated and more effective.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides an integrated system for gold selection, diamond selection and sand washing, which integrally completes gold selection, diamond selection and sand washing through the improved design of a gold mining system, thereby improving the operating efficiency and the utilization of natural resources.

In order to achieve the purpose, the utility model adopts the technical scheme that the integrated system for gold selection, drill selection and sand washing comprises a sand pumping ship, an overwater ore dressing platform, a first overwater sand pumping platform, a second overwater sand pumping platform, an onshore sand washing device and an onshore sand washing and drill selection device, wherein the sand pumping ship, the overwater ore dressing platform, the first overwater sand pumping platform and the second overwater sand pumping platform are all arranged on the water surface, and the onshore sand washing device and the onshore sand washing and drill selection device are arranged on the shore; it meets on sand pumping ship and the ore dressing platform process on water to take out husky platform on water and second, first take out husky platform on water and take out husky platform on water respectively with ore dressing platform on water meets, the bank wash husky equipment with take out husky platform process on water and meet, the bank wash husky select to bore equipment with take out husky platform process on water and meet.

In one embodiment of the utility model, the water beneficiation platform is provided with a main buffer water tank, a gold beneficiation machine, a large-particle gold chute and a main vibrating screen; the main buffer water tank is communicated with the sand pumping boat, the main vibrating screen is connected with the main buffer water tank, and the gold concentration concentrator and the large-particle gold chute are respectively connected with the main vibrating screen.

In an embodiment of the utility model, the system further comprises a mud sedimentation tank, the mud sedimentation tank is arranged on the shore, and the shore sand washing equipment and the shore sand washing and drilling equipment are respectively connected with the mud sedimentation tank.

In an embodiment of the present invention, the on-shore sand washing apparatus includes a first type mineral aggregate buffer water tank and a first type mineral aggregate sand washer, the first type mineral aggregate buffer water tank is connected to the first water sand pumping platform, and the first type mineral aggregate sand washer is connected to the first type mineral aggregate buffer water tank in a process.

In an embodiment of the present invention, the on-shore sand washing apparatus further includes a sand conveying device, and the sand conveying device is connected to the first type mineral aggregate sand washer.

In an embodiment of the utility model, the on-shore sand washing and selecting drill equipment comprises a second type mineral aggregate buffer water tank, a secondary vibrating screen and a second type mineral aggregate sand washer, wherein the second type mineral aggregate buffer water tank is connected with the second water sand pumping platform, the secondary vibrating screen is connected with the second type mineral aggregate buffer water tank, and the second type mineral aggregate sand washer is sequentially connected with the secondary vibrating screen.

In an embodiment of the utility model, the on-shore sand washing and selecting drilling equipment further comprises a sand conveying device and a diamond mineral aggregate conveying device, the sand conveying device is connected with the second type of mineral aggregate sand washer, and the diamond mineral aggregate conveying device is connected with the secondary vibrating screen. The first type and the second type of mineral aggregate sand washers are bucket sand washers.

In an embodiment of the present invention, a gold-sticking blanket is laid in the large-particle gold chute for recovering large-particle gold.

In an embodiment of the utility model, the main vibrating screen is formed by connecting a plurality of vibrating screens in parallel and/or in series, and the gold concentrating machine is formed by connecting a plurality of gold concentrating machines in parallel and/or in series.

In an embodiment of the utility model, the sand pumping boat is a cutter suction type sand pumping boat, which can mine sand ores at different depths and sector-pump sand ores in different areas.

The technical scheme has the following beneficial effects:

according to the integrated process for gold separation, drill selection and sand washing, provided by the utility model, sand ores dug by a sand pumping ship from the underwater can be fully separated and recovered through the water ore dressing platform, the first water sand pumping platform, the second water sand pumping platform, the on-shore sand washing equipment and the on-shore sand washing and drill selection equipment, and gold, sand and mineral aggregates for drill selection can be obtained simultaneously. Furthermore, the mud water generated in the recovery process is recovered by arranging the mud sedimentation tank, so that the pollution to the environment is reduced, and the green process is realized.

Drawings

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

FIG. 2 is a schematic diagram of a portion of the structure of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic view of the present invention at another angle from FIG. 1;

fig. 4 is a schematic view of the present invention at another angle in fig. 1.

Description of reference numerals: the system comprises a sand pumping ship 1, a first water sand pumping platform 11, a second water sand pumping platform 12, a sand conveying device 2, a diamond mineral aggregate conveying device 3 and a mud sedimentation tank 4; the device comprises an overwater beneficiation platform 100, a main buffer water tank 101, a main vibrating screen 102, a gold concentrating and concentrating machine 103 and a large-particle gold chute 104; the device comprises an onshore sand washing device 200, a first type mineral aggregate buffer water tank 201 and a first type mineral aggregate sand washer 202; the device comprises an onshore sand washing and selecting drill device 300, a second type mineral aggregate buffer water tank 301, a secondary vibrating screen 302 and a second type mineral aggregate sand washer 303.

Detailed Description

The utility model will now be further described with reference to the following examples and figures 1 to 4.

Example 1

The utility model provides a select gold, select and bore, wash husky integrated system for select gold, select to bore and wash husky integration completion through the improved design to the gold mining system under water, thereby improve the operating efficiency, realize simultaneously making full use of natural resources. As shown in fig. 1-4, the integrated system comprises a sand pumping ship 1, an overwater ore dressing platform 100, a first overwater sand pumping platform 11, a second overwater sand pumping platform 12, an onshore sand washing device 200 and an onshore sand washing and selecting device 300, wherein the sand pumping ship 1, the overwater ore dressing platform 100, the first overwater sand pumping platform 11 and the second overwater sand pumping platform 12 are all arranged on the water surface, and the onshore sand washing device 200 and the onshore sand washing and selecting device 300 are arranged on the shore; the sand pumping ship 1 is connected with the water beneficiation platform 100 in the process, the first water sand pumping platform 11 and the second water sand pumping platform 12 are respectively connected with the water beneficiation platform 100, the shore sand washing device 200 is connected with the first water sand pumping platform 11 in the process, and the shore sand washing and drilling device 300 is connected with the second water sand pumping platform 12 in the process.

As shown in fig. 2, a main buffer water tank 101, a gold concentrating machine 103, a large-particle gold chute 104 and a main vibrating screen 102 are arranged on the water beneficiation platform 100; the main buffer water tank 101 is communicated with the sand pumping boat 1, the main vibrating screen 102 is connected with the main buffer water tank 101, and the gold concentrating machine 103 and the large-particle gold chute 104 are respectively connected with the main vibrating screen 102. The large-particle gold chute 104 is internally paved with a gold-sticking blanket for recovering large-particle gold. The gold-adhered grass is thick and hard, durable and good in gold-grabbing effect, the angle of the chute is well adjusted, and large-particle gold is recovered by using the gold-adhered grass. The main vibrating screen 102 is formed by connecting a plurality of vibrating screens in parallel, the gold concentrating machine 103 is formed by connecting a plurality of gold concentrating machines in parallel, and in other embodiments, the vibrating screens can be connected in series and in parallel. In the embodiment, three vibrating screens are adopted, and the vibrating screens are special for mines; the fine concentration and enrichment are carried out in 18 100-type gold concentration machines (the gold concentration machine is specially used for recovering fine gold below 6mm, the recovery rate is up to 90%, and the heavy mineral enrichment ratio is 1:1000 times).

As shown in fig. 3, the sand suction dredger 1 is a cutter suction dredger 1, and can be used for excavating sand ores at different depths and extracting sand ores in different areas in a fan shape. In the embodiment, in the process of pumping sand, the bridge winch of the cutter suction type sand pumping ship 1 can control the bridge to lift so as to mine sand ores with different depths; the transverse winch of the ship body is matched with the positioning pile and the fixed anchor, so that the cutter suction dredger 1 can move forwards, backwards and swing left and right, and sand and ore in different areas can be pumped in a fan shape.

Further, still include mud sedimentation tank 4, as shown in fig. 4, mud sedimentation tank 4 establishes on the bank, the equipment 200 of washing sand on the bank and the equipment 300 of selecting the drill of washing sand on the bank are connected with mud sedimentation tank 4 respectively. And treating the muddy water generated in the recovery process through a sedimentation tank to obtain mud and clean water, wherein the mud is used for making a paddy field, and the clean water flows back into a river, so that the full utilization of resources and the green and environment-friendly process are realized.

In this embodiment, as shown in fig. 3, the on-shore sand washing apparatus 200 includes a first-type mineral aggregate buffer water tank 201 and a first-type mineral aggregate sand washer 202, the first-type mineral aggregate buffer water tank 201 is connected to the first water sand pumping platform 11, and the first-type mineral aggregate sand washer 202 is connected to the first-type mineral aggregate buffer water tank 201 in a process. Further, the on-shore sand washing apparatus 200 further comprises a sand conveying device 2, and the sand conveying device 2 is connected with the first type mineral aggregate sand washer 202.

As shown in fig. 3, the on-shore sand washing and selecting device 300 includes a second type mineral aggregate buffer water tank 301, a secondary vibrating screen 302 and a second type mineral aggregate sand washer 303, the second type mineral aggregate buffer water tank 301 is connected to the second water sand pumping platform 12, the secondary vibrating screen 302 is connected to the second type mineral aggregate buffer water tank 301, and the second type mineral aggregate sand washer 303 is connected to the secondary vibrating screen 302 in sequence. Further, the on-shore sand washing and selecting drill equipment 300 further comprises a sand conveying device 2 and a diamond mineral aggregate conveying device 3, wherein the sand conveying device 2 is connected with the second type mineral aggregate sand washer 303, and the diamond mineral aggregate conveying device 3 is connected with the secondary vibrating screen 302. In this embodiment, the first type mineral aggregate sand washer 202 and the second type mineral aggregate sand washer 303 are bucket sand washers, and other sand washers for achieving the same purpose may be used as needed.

Example 2

By adopting the integrated system in the embodiment 1 and optimizing the process flow, the gold selection, the drill selection and the sand washing can be simultaneously completed on the integrated system, so that the operation efficiency is improved, and the requirement of modern production is better met.

The method comprises the following steps of (1) excavating sand ore from underwater through a sand pumping ship 1, pumping the sand ore to a main buffer water tank 101, fully buffering ore pulp, flowing into a main vibrating screen 102, and screening into at least two types of ore materials; in this embodiment, the two kinds of mineral aggregates are sieved, and the first kind of mineral aggregate and the second kind of mineral aggregate are respectively, where the first kind of mineral aggregate is a mineral aggregate with a size of less than 6mm, and the second kind of mineral aggregate is a mineral aggregate with a size of 6mm or more.

The screened first type of mineral aggregate enters the gold concentration concentrator 103 for concentration and enrichment, and finally gold-containing heavy ore and tailings are discharged, so that the gold-containing heavy ore is recovered; the gold concentration concentrator 103 adopts 18 gold concentration concentrators, after ore pulp enters the gold concentration concentrator, the gold concentration concentrator rotates at high speed to generate strong centrifugal force, a water supply pump supplies high-pressure back flushing water to strengthen the separation process, heavy minerals are thrown into each cell of the gold concentration concentrator, light mineral materials are flushed out by the high-pressure back flushing water, a time relay of the gold concentration concentrator is set, and when the specified time is reached, the heavy minerals and tailings are automatically discharged, so that gold-containing heavy minerals below 6mm are recovered, the gold concentration concentrator alternately draws ores, and the whole working process does not need to be stopped. The tailings enter a first water sand pumping platform 11 (JM 500 water sand pumping platform) through a tailing pipe, then the tailings are pumped to a first material buffer water tank by a high-power sand pumping pump, ore pulp flows into a first material sand washer 202 after being fully buffered, and clean sand is obtained through cleaning and water filtering.

And the screened second mineral aggregate enters a large-particle gold chute 104 to recover gold, and a gold-sticking blanket is paved in the large-particle gold chute 104 and used for recovering large-particle gold. The second type (6 mm and above) of gold seeds after being recovered enters a second water sand pumping platform 12 (JM 350 water sand (stone) pumping platform), then the second type of mineral materials after gold seeds are recovered are pumped to a second type of mineral material buffer water tank 301 of the on-shore sand washing and selecting drilling equipment 300 by a high-power sand pumping pump, mineral pulp flows into the secondary vibrating screen 302 after being fully buffered, the secondary vibrating screen 302 is two vibrating screens, the mineral materials with 6mm-10mm after being screened flow into a second type of mineral material sand washing machine 303, and clean sand is obtained after cleaning and water filtering; and (4) feeding the mineral aggregate with the diameter larger than 10mm into four sets of parallel conveying belts, and recovering to obtain the mineral aggregate for selecting diamonds.

And the sand obtained by the treatment of the first type mineral aggregate sand washer 202 and the second type mineral aggregate sand washer 303 is piled by a conveying belt. The slurry water generated by the first type mineral aggregate sand washer 202 and the second type mineral aggregate sand washer 303 flows back to the slurry sedimentation tank 4, after sedimentation, the slurry is used for making a paddy field, and clean water flows back to the river.

The above-described embodiments are intended to illustrate rather than to limit the utility model, and any changes and alterations made without inventive step within the spirit and scope of the claims are intended to fall within the scope of the utility model.

Claims (10)

1. A gold-selecting, drill-selecting and sand-washing integrated system is characterized by comprising a sand pumping ship, an above-water ore dressing platform, a first above-water sand pumping platform, a second above-water sand pumping platform, an on-shore sand-washing device and an on-shore sand-washing and drill-selecting device, wherein the sand pumping ship, the above-water ore dressing platform, the first above-water sand pumping platform and the second above-water sand pumping platform are all arranged on the water surface, and the on-shore sand-washing device and the on-shore sand-washing and drill-selecting device are arranged on the shore; it meets on sand pumping ship and the ore dressing platform process on water to take out husky platform on water and second, first take out husky platform on water and take out husky platform on water respectively with ore dressing platform on water meets, the bank wash husky equipment with take out husky platform process on water and meet, the bank wash husky select to bore equipment with take out husky platform process on water and meet.

2. The system according to claim 1, wherein the above-water beneficiation platform is provided with a main buffer water tank, a gold concentration machine, a large-particle gold chute and a main vibrating screen; the main buffer water tank is communicated with the sand pumping boat, the main vibrating screen is connected with the main buffer water tank, and the gold concentration concentrator and the large-particle gold chute are respectively connected with the main vibrating screen.

3. The system of claim 1, further comprising a mud sedimentation tank, wherein the mud sedimentation tank is arranged on the shore, and the on-shore sand washing equipment and the on-shore sand washing and drilling equipment are respectively connected with the mud sedimentation tank.

4. The system of claim 1, wherein said onshore sand wash facility comprises a first type of mineral aggregate surge tank connected to said first overwater sand extraction platform and a first type of mineral aggregate sand washer in operative connection with said first type of mineral aggregate surge tank.

5. The system of claim 4, wherein the on-shore sand washing facility further comprises a sand transporting device connected to the first type of mineral material sand washer.

6. The system of claim 4, wherein the on-shore sand washing and selecting device comprises a second type mineral aggregate buffer water tank, a secondary vibrating screen and a second type mineral aggregate sand washer, wherein the second type mineral aggregate buffer water tank is connected with the second water sand pumping platform, the secondary vibrating screen is connected with the second type mineral aggregate buffer water tank, and the second type mineral aggregate sand washer is connected with the secondary vibrating screen in sequence.

7. The system of claim 6, wherein the on-shore sand washing and selecting rig further comprises a sand conveying device and a diamond mineral material conveying device, wherein the sand conveying device is connected with the second type of mineral material sand washer, and the diamond mineral material conveying device is connected with the secondary vibrating screen.

8. The system of claim 2, wherein the large-particle gold chute is paved with a sticky gold blanket for recovering large-particle gold.

9. A system according to claim 8, wherein the main shaker is formed by a plurality of shakers connected in parallel and/or in series, and the gold concentrator is formed by a plurality of concentrators connected in parallel and/or in series.

10. The system of claim 1, wherein the suction dredger is a cutter suction dredger capable of excavating sand at different depths and sector-extracting sand in different areas.

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