CN218520522U

CN218520522U - Ore pulp separation recovery unit of transportation contains pulp material belt feeder

Info

Publication number: CN218520522U
Application number: CN202222732200.9U
Authority: CN
Inventors: 黄建军; 柯庆元; 陈俊念; 王潮海
Original assignee: Wisco Resources Group Jinshandian Mining Co ltd
Current assignee: Wisco Resources Group Jinshandian Mining Co ltd
Priority date: 2022-10-18
Filing date: 2022-10-18
Publication date: 2023-02-24
Anticipated expiration: 2032-10-18

Abstract

The utility model relates to an ore pulp separation recovery unit of transportation contains ore pulp material belt feeder, including first mud scraper, second mud scraper and ore pulp separation collecting box, first mud scraper sets up under the head wheel, the second mud scraper sets up the place ahead that increases the face wheel at the head, and first mud scraper and second mud scraper all laminate with returning journey belt surface is perpendicular, ore pulp separation collecting box arranges under first mud scraper and second mud scraper, and ore pulp separation collecting box fixed mounting is on the lateral wall of hopper down, the open-top of ore pulp separation collecting box, and the opening part installs stainless steel and separates the sediment net, the axis 45 ~ 60 slope setting of the relative hopper of stainless steel separation sediment net, the bottom of ore pulp separation collecting box is passed through the drainage tube and is connected the long-pending ore deposit pond. The utility model discloses can carry out effectual recovery to adnexed ore pulp in the belt feeder material, can reduce the back washing then the adnexed ore pulp of material is brought into the health volume of fine crushing and two-stage process and belt feeder of screening.

Description

Ore pulp separation recovery unit of transportation contains pulp material belt feeder

Technical Field

The utility model belongs to the technical field of belt conveyor, concretely relates to transportation contains ore pulp separation recovery unit of ore pulp material belt feeder.

Background

The pre-selection operation of the original ore of the iron ore in the Jinshan shop is a two-section crushing and two-section screening operation process. The method is characterized in that a belt conveyor is adopted to transport and convey materials between the crushing and screening processes, raw ores lifted by a main well enter a washing screen to be washed and screened after being crushed by a middle crusher, and the ores are divided into a plurality of grain grades after being washed and screened and are transported to the fine crushing and two-stage screening process by a belt conveyor.

As the raw ore contains ore pulp on the block materials of each grade after being washed and screened, when the belt conveyor transports and conveys the materials containing the ore pulp, the ore pulp can be attached to the belt and the materials and brought to the working procedures of fine crushing, secondary screening and the like along with the belt conveyor. After the ore pulp is mixed with the crushed powdery material, the material sticking and the material blocking of sieve pores can be caused in the crushing cavity of the next process, so that the operation efficiency of the fine crusher and the screening is reduced. Meanwhile, ore pulp is collected among the belt conveyors in an unordered mode, so that the sanitation quantity of the belt conveyors is increased, and the labor intensity of operation is high.

SUMMERY OF THE UTILITY MODEL

In order to improve and to transport contain pulp material belt feeder and easily bring the ore pulp into next process and cause broken chamber sizing material of next process and sieve mesh putty, make the defect that operating efficiency reduces and the belt feeder health volume increases, the utility model provides a transport contains pulp material belt feeder's ore pulp separation recovery unit.

The utility model provides an above-mentioned technical problem's technical scheme as follows:

the utility model provides a transportation contains ore pulp material belt feeder's ore pulp separation recovery unit, includes first mud scraper, second mud scraper and ore pulp separation collecting box, first mud scraper sets up under the head pulley, the second mud scraper sets up in the place ahead of head increase face wheel, and first mud scraper and second mud scraper all laminate with returning journey belt surface is perpendicular, ore pulp separation collecting box arranges under first mud scraper and second mud scraper, and ore pulp separation collecting box fixed mounting is on the lateral wall of hopper down, the open-top of ore pulp separation collecting box, and the opening part installs stainless steel slag removal net, stainless steel slag removal net sets up for 45 ~ 60 slopes relative to the axis of hopper down, the bottom of ore pulp separation collecting box passes through the drainage tube and connects the long-pending ore deposit pond.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Furthermore, the sieve pores on the stainless steel slag separation net are circular holes, and the pore diameter is 5mm.

Furthermore, the sieve pores on the stainless steel slag separation net are square pores, and the pore diameter is 5mm × 5mm.

Further, first mud scraper and second mud scraper all include rubber slab and channel-section steel, rubber slab fixed mounting is on the channel-section steel, the channel-section steel can be dismantled and connect in the frame of belt feeder.

Further, the middle part of channel-section steel is through fastening bolt fixed rubber slab, the both ends of channel-section steel all are connected in the frame of belt feeder through adjusting bolt, just adjusting bolt is used for adjusting the laminating distance between rubber slab and the return stroke belt surface.

The utility model has the advantages that:

1) The utility model has simple structure, good practicability and working reliability, and can effectively recycle the ore pulp attached to the belt conveyor material;

2) Production faults such as belt slipping, deviation and the like of the belt conveyor for conveying the slurry-containing materials are effectively reduced;

3) The sanitary quantity of the belt conveyor for conveying the slurry-containing materials is effectively reduced, and the labor intensity is reduced;

4) Through separating recycle to the ore pulp at the former process, the ore pulp attached to the material after washing is reduced and brought into the fine crushing and two-stage screening process, thereby improving the fine crushing and screening efficiency of the latter process and reducing the production cost.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural view of the mud scraper of the present invention.

In the figure:

11. the device comprises a head wheel, 12 a head surface increasing wheel, 13 a blanking hopper, 20 a first mud scraper, 21 a rubber plate, 22 a channel steel, 23 a fastening bolt, 24 an adjusting bolt, 30 a second mud scraper, 40 a pulp separation and collection box, 41 a stainless steel slag separation net, 42 and a drainage tube.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1, the belt conveyor for transporting materials containing mineral slurry of the present invention includes a frame, a head pulley 11, a tail pulley (not shown in the figure), a belt, a head surface increasing pulley 12, a discharging hopper 13, and a driving mechanism (not shown in the figure) for driving the head pulley 11 to rotate; the head surface increasing wheel 12 is arranged below the return belt and close to the head wheel 11 so as to increase the wrap angle between the belt and the head wheel 11, increase the friction force and prevent the belt from slipping; the discharge hopper 13 is arranged directly below the head wheel 11 to discharge the material to a discharge point. The belt conveyor for transporting the slurry-containing materials is a mature technology in the prior art, and is not described herein again.

The utility model relates to an ore pulp separation recovery unit of transportation contains ore pulp material belt feeder, including first mud scraper 20, second mud scraper 30 and ore pulp separation collecting box 40. The first mud scraper 20 is arranged right below the head wheel 11, the second mud scraper 30 is arranged in front of the head surface increasing wheel 12, and the first mud scraper 20 and the second mud scraper 30 are vertically attached to the surface of the return belt.

The mud scraping plates are arranged right below the head wheel 11 and in front of the head surface increasing wheel 12 of the belt conveyor to scrape off slag slurry attached to the belt.

The slurry separating and collecting box 40 is arranged right below the first and

second scrapers

20 and 30, and the slurry separating and collecting box 40 is fixedly installed on the side wall of the lower hopper 13. The top of the ore pulp separation and collection box 40 is open, a stainless steel slag separation net 41 is installed at the opening, the stainless steel slag separation net 41 is obliquely arranged at an angle of 45-60 degrees relative to the axis of the blanking hopper 13, and the bottom of the ore pulp separation and collection box 40 is connected with the ore accumulation pond through a drainage pipe 42.

The slag pulp scraped by the scraper is separated by the stainless steel slag separating net 41, namely, the ore pulp in the slag pulp enters the ore pulp separating and collecting box 40 through the sieve pores on the stainless steel slag separating net 41, and the slag which cannot pass through the sieve pores falls onto a lower process belt through the blanking hopper 13 under the self gravity of the slag pulp.

The ore pulp separation and recovery device has the following working principle:

during the production process, the slurry attached to the belt falls onto the stainless steel slag separation net 41 after being scraped by the first and

second mud scrapers

20 and 30. The ore pulp in the slag pulp enters an ore pulp separation and collection box 40 through sieve holes on a stainless steel slag separation net 41 and is introduced into an ore accumulation pool through a drainage tube 42 for recycling. The slag which does not pass through the screen holes in the slag slurry falls onto the lower process belt through the blanking hopper 13. Through the slag-pulp separation treatment, the ore pulp in the materials of the belt conveyors in the working procedures after water washing can be recycled, collected and utilized.

The utility model discloses can carry out effectual recovery to adnexed ore pulp in the belt feeder material, can improve the belt feeder then and when transporting and contain the ore pulp material, the unordered emission of ore pulp and cause the big defect of belt feeder health volume, simultaneously reducible belt off tracking, trouble such as skid, in addition recycle has used useful mineral.

Through separating recycle to the ore pulp at the preceding process, the phenomenon that the ore pulp attached to the material after washing is brought into fine crushing and two-stage screening process to cause the situation of material sticking of a crushing cavity and material blockage of a sieve pore in the next process is reduced, thereby effectively improving the crushing and screening efficiency.

Example 1

The major structure of this embodiment is similar with the aforesaid the utility model discloses a basic structure differs only to lie in sieve mesh on the stainless steel separates the sediment net 41 is the circular port, and the aperture is 5mm, the stainless steel separates the relative 55 slopes settings of axis of hopper 13 down of sediment net 41 to obtain better sediment thick liquid separation effect.

Example 2

The major structure of this embodiment is similar to the above-mentioned utility model's basic structure, and the difference is as follows:

stainless steel separates the 45 slope settings of axis of hopper 13 relatively down of sediment net 41 to when guaranteeing that the stainless steel separates the sediment net and can carry out effective separation to the sediment thick liquid, improve production efficiency, thereby satisfy the rapid processing demand.

The sieve pores on the stainless steel slag separation net 41 are square pores, and the pore diameter is 5mm × 5mm, so that a better slag-slurry separation effect is obtained.

The first mud scraper 20 and the second mud scraper 30 both comprise a rubber plate 21 and a channel steel 22 which are fixedly connected, and the channel steel 22 can be detachably connected to a frame of the belt conveyor. In this embodiment, the middle part of the channel steel 22 is fixed with the rubber plate 21 through the fastening bolt 23, the two end parts are connected to the frame of the belt conveyor through the adjusting bolts 24, and the adjusting bolts 24 are used for adjusting the distance between the rubber plate 21 and the surface of the return belt.

Specifically, a through hole (unthreaded hole) matched with the adjusting bolt 24 is formed in the channel steel 22, and a threaded hole matched with the adjusting bolt 24 is formed in a frame of the belt conveyor. By rotating the adjusting bolt 24 and correspondingly adjusting the locking nut, the joint distance between the rubber plate 21 and the surface of the return belt can be adjusted, so that the rubber plate 21 is vertically jointed with the surface of the return belt.

Application example

Based on the ore pulp separation recovery unit among embodiment 2, reform transform and put into production the transportation contains ore pulp material belt feeder, concrete transformation process as follows:

1) Under the head pulley 11 of the belt conveyor, the ore pulp separation and collection box 40 is made of steel plates, and the ore pulp separation and collection box 40 is as wide (as wide) as the belt. The top of the ore pulp separation and collection box 40 is open, and a stainless steel slag separation net 41 made of stainless steel is arranged at the opening. The sieve pores on the stainless steel slag separation net 41 are square pores, and the pore diameter is 5mm × 5mm. The stainless steel slag separation net 41 is obliquely arranged at an angle of 45 degrees relative to the vertical direction, and four sides of the stainless steel slag separation net are fixed on the ore pulp separation and collection box 40 by small angle iron blank pressing. The ore pulp separation and collection box 40 is fixedly connected with the lower hopper 13 of the belt conveyor. The bottom of the ore pulp separation and collection box 40 is opened, a drainage tube 42 is welded, the drainage tube 42 is a steel pipe with the diameter phi of 100mm, and the outlet of the steel pipe is connected to the ore collecting pool.

2) The rubber sheet 21 is made of an old belt which is left when the belt is changed in a daily manner. The rubber plate 21 has the same width as the belt and the height of 250-300mm, and the surfaces of two rubber plates with the same size are polished and then glued together by brushing glue so as to increase the thickness of the rubber plate 21. A rubber sheet 21 obtained by bonding a double belt is fixed to the channel steel 22 by a fastening bolt 23. Two identical scraper plates are manufactured, wherein the first scraper plate 20 is mounted on the steel beam columns on two sides of the return belt right below the head pulley 11 through the adjusting bolts 24, and the second scraper plate 30 is mounted on the steel beam columns on two sides of the return belt in front of the head surface increasing pulley 12 through the adjusting bolts 24. When the belt is installed, the rubber plate 21 is vertically attached to the surface of the return belt by rotating the adjusting bolt 24 and correspondingly adjusting the locking nut. In order to ensure the scraping effect of the slag slurry attached to the belt, the adjusting bolt 24 and the locking nut are adjusted regularly, and the rubber scraping leather plate 21 is replaced.

After the ore pulp separating and recovering device is additionally arranged on the belt conveyor for conveying ore pulp-containing materials, the ore pulp attached to the belt conveyor materials can be effectively recovered, the defect that the sanitation quantity of the belt conveyor is large due to the disordered discharge of the ore pulp when the belt conveyor transports the ore pulp-containing materials can be further overcome, meanwhile, the faults of belt deviation, slipping and the like can be reduced, and in addition, useful minerals are recycled. In addition, the ore pulp is separated and recycled in the former process, the phenomena that the ore pulp attached to the washed material is brought into the fine crushing and two-stage screening process to cause the blocking of the material in the crushing cavity and the sieve pores in the next process are reduced, the screening efficiency of the later process and the production efficiency of the fine crusher can be improved, and the production cost is reduced. In conclusion, the annual benefit can be improved by 50 ten thousand yuan.

The utility model discloses in, the equipment and the subassembly that do not describe the structure are commercial equipment or subassembly.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims

1. The utility model provides an ore pulp separation recovery unit of transportation contains ore pulp material belt feeder which characterized in that, includes first mud scraper (20), second mud scraper (30) and ore pulp separation collecting box (40), first mud scraper (20) set up under head pulley (11), second mud scraper (30) set up in the place ahead of head increase face wheel (12), and first mud scraper (20) and second mud scraper (30) all with return journey belt surface perpendicular laminating, ore pulp separation collecting box (40) arrange under first mud scraper (20) and second mud scraper (30), and ore pulp separation collecting box (40) fixed mounting is on the lateral wall of hopper (13) down, the open-top of ore pulp separation collecting box (40), and install stainless steel separation slag net (41), stainless steel separation slag net (41) sets up with 45 ~ 60 slopes relatively the axis of hopper (13) down, the bottom of separation collecting box (40) passes through the connection deposit pond drainage tube (42).

2. The ore pulp separating and recycling device of the belt conveyor for materials containing ore pulp of claim 1, wherein the stainless steel slag separation net (41) has circular holes with a diameter of 5mm.

3. The ore pulp separating and recovering device according to claim 1, wherein the sieve holes on the stainless steel slag separation net (41) are square holes, and the diameter of the sieve holes is 5mm by 5mm.

4. The ore pulp separating and recycling device of the belt conveyor for the ore pulp-containing materials according to claim 1, wherein the first scraper (20) and the second scraper (30) each comprise a rubber plate (21) and a channel steel (22), the rubber plates (21) are fixedly installed on the channel steel (22), and the channel steel (22) is detachably connected to the frame of the belt conveyor.

5. The ore pulp separating and recycling device of the belt conveyor for conveying the ore pulp-containing materials according to claim 4, wherein the middle of the channel steel (22) is fixed with the rubber plate (21) through a fastening bolt (23), two ends of the channel steel (22) are connected to the frame of the belt conveyor through adjusting bolts (24), and the adjusting bolts (24) are used for adjusting the attaching distance between the rubber plate (21) and the surface of the return belt.