CN219129531U - Swinging vibration type chute concentrating machine for seashore sand - Google Patents

Abstract

The utility model discloses a swinging vibration type chute concentrating machine for beach sand, which belongs to the technical field of ore concentrating machines and comprises a bottom plate, wherein a rectangular screening frame is arranged at the top of the bottom plate through a buffer column, the rectangular screening frame is obliquely arranged, a screening screen plate is welded at the center of the inside of the rectangular screening frame, and vibration motors are arranged at the centers of the front side and the rear side of the rectangular screening frame.

Description

Swinging vibration type chute concentrating machine for seashore sand

Technical Field

The utility model relates to the technical field of ore dressing machines, in particular to a swinging vibration type chute ore dressing machine for seashore sand.

Background

In the seashore sand ore, need to screen the ore in the seashore sand, in order to conveniently carry out screening operation to it, need use to shake vibrating chute concentrator, traditional shake vibrating chute concentrator generally by the rectangle screening frame, vibrating motor constitutes, the seashore sand is directly added inside the rectangle screening frame, then vibrating motor drives the rectangle screening frame and shake the vibration, then the inside screening otter board of rectangle screening frame separates ore and sand, thereby accomplish screening operation, wherein the application number is "a chute concentrator" that "201220268116.X" disclosed, it has solved current concentrator and is single to tailing or low grade ore beneficiation method, mineral separation efficiency is low, to the multiple drawback that makes the mineral separation cost rise, it is further found that the application number is "202022756686.0" a sealed buoyancy chute concentrator that disclosed, "it has really solved general sealed buoyancy chute concentrator and is poor to shaking the fixed effect of concentrator through specific technical structure setting, the device is shaking when operating, thereby the screening operation has been reduced to the degree greatly, and general sealed buoyancy chute concentrator has had the sealed buoyancy chute ore sedimentation efficiency that makes the sealed ore sedimentation chute structure to flow out like the defect that the ore is easy when the sealed ore is lost in the actual ore is easy to shake the ore, but the defect such as the ore sedimentation chute has been used to the sealed ore sedimentation chute structure to have the defect that the actual ore sedimentation efficiency is easy to the following: the oscillating chute concentrator that seashore sand was used is unable to evenly add to the concentrator inside through the seashore sand in the use, consequently can appear the inside seashore sand accumulational phenomenon of concentrator to when the concentrator filters seashore sand middlings, the phenomenon of screening incompleteness appears easily, simultaneously, when filtering seashore sand middlings, sand and ore surface are dirty, follow-up still need carry out cleaning work to the sand and the ore of screening, lead to the operation more loaded down with trivial details. In view of this, we propose a swinging vibration type chute concentrator for beach sand.

Disclosure of Invention

1. Technical problem to be solved

The utility model aims to provide a swinging vibration type chute concentrating machine for seashore sand, which aims to solve the problems in the background technology.

2. Technical proposal

The utility model provides a swing vibration type chute concentrator for seashore sand, includes the bottom plate, rectangular screening frame is installed through the buffer column at the top of bottom plate, rectangular screening frame is the slope setting, and the inside central authorities department of rectangular screening frame welds the screening otter board, the central authorities of the front and back sides of rectangular screening frame are installed vibration motor;

two groups of symmetrical cleaning pipes are welded on the front side and the rear side of the inside of the rectangular screening frame, at least two groups of inclined cleaning spray heads are arranged on the opposite sides of the cleaning pipes, a water pump is arranged below the rectangular screening frame at the top of the bottom plate, the output end of the water pump is communicated with the input end of the cleaning pipes through a hose, and a pollution discharge screen is arranged at the center of the bottom of the rectangular screening frame;

the conveying pipe is installed to one side at bottom plate top, and the bottom department welding of conveying pipe has the loading hopper, the bottom of loading hopper communicates with the inside of conveying pipe, the top department welding of conveying pipe has the discharging pipe of slope, and the bottom of discharging pipe and the top butt joint of rectangle screening frame.

As an alternative scheme of this application technical scheme, the buffer post includes buffer spring, welding piece and sill pillar, and buffer spring is installed on the top of sill pillar, and buffer spring's both ends welding has the welding piece, and the welding piece on buffer spring top and the bottom welded fastening of rectangle screening frame, the welding piece on buffer spring bottom and the top welded fastening of sill pillar.

As an alternative scheme of this application technical scheme, the rectangle screening frame is equipped with two sets of row material pipes in one side of conveying pipe dorsad, and the bottom of arranging the material pipe in a set is in the coplanar with the top of screening otter board, and the bottom of arranging the material pipe in another set is in the coplanar with the interior bottom of rectangle screening frame.

As an alternative scheme of this application technical scheme, rectangular screening frame bottom and the symmetrical position department welding of blowdown otter board have a dirt collection cover, and the output of dirt collection cover is connected with the blow off pipe.

As an alternative scheme of this application technical scheme, the bottom welding of conveying pipe has the welded plate, and the bottom welding of welded plate has the welding rod of two at least equidistance of group, and the bottom of welding rod and the top welded fastening of bottom plate.

As an alternative scheme of this application technical scheme, servo motor is installed on the top of conveying pipe, and servo motor's output installs the pay-off axle through the axis of rotation, and the surface welding of pay-off axle has helical blade.

As an alternative of the technical scheme of the application, the feeding shaft and the helical blade are located inside the feeding pipe, and two ends of the feeding shaft are rotationally connected with two ends of the feeding pipe through bearings.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

1. this application technical scheme is through the conveying pipe, loading hopper and the discharging pipe that set up, when using the device, can directly add the seashore sand inside the loading hopper, then the conveying pipe carries the seashore sand to the discharging pipe, and the seashore sand is discharged the rectangle from the discharging pipe and is screened in the frame, can guarantee the seashore sand and carry the inside homogeneity of rectangle screening frame, avoids appearing piling up the phenomenon to can guarantee that the rectangle screening frame selects the effect to the ore deposit of seashore sand, also very big reduction reinforced degree of difficulty.

2. This application technical scheme is through establishing the cleaning tube that all sets up two sets of symmetries in the inside front and back side of rectangle screening frame, consequently when the screening is selected to the seashore sand ore dressing to the rectangle screening frame, can control the water pump and carry the cleaning tube with outside clear water source, then the washing shower nozzle that distributes on the cleaning tube can wash ore and seashore sand, guarantees the cleanness after its screening to need not subsequent cleaning work, improve the performance of device.

Drawings

FIG. 1 is a front sectional view of a vibratory trough concentrator for seashore sand as disclosed in the examples herein;

FIG. 2 is a front view of a vibratory trough concentrator for seashore sand as disclosed in the embodiments of the present application;

FIG. 3 is an enlarged schematic view of the portion A of a swing vibrating chute concentrator for beach sand disclosed in the embodiments of the present application;

fig. 4 is a schematic diagram of an enlarged structure of a B section in a swinging and vibrating chute concentrator for beach sand according to an embodiment of the present application.

The reference numerals in the figures illustrate: 1. a bottom plate; 2. a buffer column; 201. a buffer spring; 202. a welding block; 203. a bottom post; 3. a rectangular screening frame; 301. screening a screen plate; 302. a vibration motor; 303. a discharge pipe; 304. cleaning the tube; 305. cleaning the spray head; 306. a sewage draining screen plate; 307. a dirt collecting cover; 4. a water pump; 5. a feed pipe; 501. a servo motor; 502. a feeding shaft; 503. a helical blade; 504. welding plates; 505. welding a connecting rod; 6. a hopper; 7. and a discharging pipe.

Detailed Description

The utility model provides a technical scheme that:

as shown in fig. 1, 2 and 3, a swinging vibration chute concentrating machine for seashore sand comprises a bottom plate 1, a rectangular screening frame 3 is arranged at the top of the bottom plate 1 through a buffer column 2, the buffer column 2 can support the rectangular screening frame 3 and can not influence swinging vibration of the rectangular screening frame 3, the buffer column 2 comprises a buffer spring 201, a welding block 202 and a bottom column 203, the top end of the bottom column 203 is provided with the buffer spring 201, the two ends of the buffer spring 201 are welded with the welding block 202, the welding block 202 at the top end of the buffer spring 201 is welded with the bottom of the rectangular screening frame 3, the welding block 202 at the bottom end of the buffer spring 201 is welded with the top end of the bottom column 203, the welding block 202 is convenient for the buffer spring 201 to be welded with the bottom column 203 and the rectangular screening frame 3, the buffer spring 201 can be matched with the rectangular screening frame 3 to vibrate, the rectangular screening frame 3 is obliquely arranged, the top of the rectangular screening frame 3 is an opening, a screening screen 301 is welded at the center of the inside of the rectangular screening frame 3, after the beach sand is added into the rectangular screening frame 3, the beach sand slides downwards along the screening screen 301 along with the vibration of the rectangular screening frame 3, in the process, the screening screen 301 can separate ores in the beach sand, the ores remain on the screening screen 301, the beach sand falls into the bottom of the inside of the rectangular screening frame 3 through the screening screen 301, finally, the ores are discharged from a discharge pipe 303 above, the beach sand is discharged from a discharge pipe 303 below, thereby finishing ore selection screening of the ores in the beach sand, a vibration motor 302 is installed at the center of the front side and the rear side of the rectangular screening frame 3, the vibration motor 302 is fixedly installed through bolts, the model of the vibration motor 302 is YZU-20-4, and is only illustrated here, and can be replaced as required, when the vibration motor 302 works, the rectangular screening frame 3 can be driven to swing and vibrate, two groups of discharging pipes 303 are arranged on one side of the rectangular screening frame 3, which is opposite to the feeding pipe 5, the bottoms of one group of discharging pipes 303 are in the same plane with the top of the screening screen 301, and the bottoms of the other group of discharging pipes 303 are in the same plane with the inner bottom of the rectangular screening frame 3;

in this embodiment, when ore selection screening is carried out to the ore in the seashore sand, at first with the seashore sand from the high end department at rectangle screening frame 3 top add rectangle screening frame 3 inside, then control vibrating motor 302 work and drive rectangle screening frame 3 and shake the vibrations, along with rectangle screening frame 3 vibrations, the seashore sand can slide down along screening otter board 301, in this process, screening otter board 301 can separate the ore in the seashore sand, the ore remains on screening otter board 301, the seashore sand falls into rectangle screening frame 3 bottom through screening otter board 301, finally the ore is discharged from row material pipe 303 of top, the seashore sand is discharged from row material pipe 303 of below, thereby accomplish and carry out ore selection screening to the ore in the seashore sand.

As shown in fig. 1, fig. 2 and fig. 4, two groups of symmetrical cleaning pipes 304 are welded on the front side and the rear side of the inside of the rectangular screening frame 3, at least two groups of inclined cleaning spray heads 305 are installed on the opposite sides of the cleaning pipes 304, a water pump 4 is installed below the rectangular screening frame 3 at the top of the bottom plate 1, the water pump 4 is fixedly installed through bolts, the model of the water pump 4 is ISW, the water pump is only exemplified here, the water pump can be replaced according to the need, the output end of the water pump 4 is communicated with the input end of the cleaning pipes 304 through a hose, the input end of the water pump 4 is connected with an external clear water source, the clear water source is conveyed to the cleaning pipes 304 by the water pump 4, then the water source sprays out to flush the ore and the beach sand screened by the cleaning spray heads 305, the clean ore and the beach sand after the ore are guaranteed, the sewage screen 306 is arranged at the center of the bottom of the rectangular screening frame 3, the sewage collecting hood 307 is conveniently flushed out, the sewage collecting hood 307 is welded at the symmetrical position of the bottom of the rectangular screening frame 3, the sewage collecting hood 307 is in a funnel shape, and the output end of the sewage collecting hood 307 is connected with the sewage drain pipe 306, and then drops into the sewage through the sewage collecting hood 307;

in this embodiment, in the process of carrying out ore separation screening on ores in the seashore sand by the device, the water pump is controlled to work, the clear water source is conveyed to the cleaning pipe 304 by the water pump 4 to work, then the water source sprays out through the cleaning spray nozzle 305 to flush the ores and the seashore sand subjected to ore separation screening, the cleanliness of the ores and the seashore sand after ore separation is ensured, the flushed sewage falls into the sewage collecting cover 307 through the sewage draining screen 306, and then the sewage is discharged through the sewage draining pipe.

As shown in fig. 1 and 2, a feeding pipe 5 is installed on one side of the top of a bottom plate 1, the feeding pipe 5 is used for conveying beach sand, a welding plate 504 is welded at the bottom of the feeding pipe 5, at least two groups of equidistant welding rods 505 are welded at the bottom of the welding plate 504, the bottom ends of the welding rods 505 are welded and fixed with the top of the bottom plate 1, the welding plates 504 cooperate with the welding rods 505 to form a bracket to fix the feeding pipe 5, a servo motor 501 is installed at the top end of the feeding pipe 5, the servo motor 501 is fixedly installed through bolts, the model number of the servo motor 501 is 1FL6092-1AC61-2AA1, the feeding pipe can be replaced according to the need, the output end of the servo motor 501 is provided with a feeding shaft 502 through a rotating shaft, spiral blades 503 are welded on the surface of the feeding shaft 502, the feeding shaft 502 and the spiral blades 503 are positioned in the feeding pipe 5, two ends of the feeding shaft 502 are rotatably connected with the two ends of the feeding pipe 5 through bearings, the servo motor 501 work drives the feeding shaft 502 to rotate, the spiral blades 503 in the rotating process, the feeding pipe can be directly connected with the hopper 5 from the top end of the feeding pipe 6 to the bottom end of the hopper 5 through the rectangular hopper 6, the top end 7 is connected with the hopper 7, the hopper 7 is directly arranged in the hopper 7, and the hopper 7 is connected with the bottom end of the hopper 5, the hopper is connected with the hopper 7, and the hopper 7 is welded to the bottom end 7 is connected with the bottom end of the hopper 7, and the hopper 7 is filled with the hopper 7, and the hopper is filled from the hopper is filled with the hopper 7, and the hopper is filled with the hopper and 3 and the hopper and is filled;

in this embodiment, when the device works, can directly add the seashore sand inside loading hopper 6, then servo motor 501 work drives feeding axle 502 and rotates, feeding axle 502 drives helical blade 503 and rotates, can carry the top to the seashore sand from conveying pipe 5 bottom in helical blade 503 rotation in-process, the seashore sand is from the inside of discharging pipe 7 even row to rectangle screening frame 3, can guarantee the seashore sand and carry the inside homogeneity of rectangle screening frame 3, avoid appearing piling up the phenomenon, thereby can guarantee the ore selection effect of rectangle screening frame 3 to the seashore sand, and also very big reduction reinforced degree of difficulty.

Claims (7)

1. The utility model provides a swing vibration formula chute concentrator that seashore sand was used, includes bottom plate (1), its characterized in that: the top of the bottom plate (1) is provided with a rectangular screening frame (3) through a buffer column (2), the rectangular screening frame (3) is obliquely arranged, a screening screen plate (301) is welded at the center of the inside of the rectangular screening frame (3), and a vibration motor (302) is arranged at the center of the front side and the rear side of the rectangular screening frame (3);

two groups of symmetrical cleaning pipes (304) are welded on the front side and the rear side of the inside of the rectangular screening frame (3), at least two groups of inclined cleaning spray heads (305) are arranged on the opposite sides of the cleaning pipes (304), a water pump (4) is arranged below the rectangular screening frame (3) at the top of the bottom plate (1), the output end of the water pump (4) is communicated with the input end of the cleaning pipes (304) through a hose, and a pollution discharge screen (306) is arranged at the center of the bottom of the rectangular screening frame (3);

feed pipe (5) are installed to one side at bottom plate (1) top, and the bottom department welding of feed pipe (5) has loading hopper (6), the inside intercommunication of the bottom of loading hopper (6) and feed pipe (5), the top department welding of feed pipe (5) has discharging pipe (7) of slope, and the bottom of discharging pipe (7) and the top butt joint of rectangle screening frame (3).

2. A swinging and vibrating trough concentrator for beach sand as recited in claim 1, wherein: buffer post (2) are including buffer spring (201), welding piece (202) and sill pillar (203), and buffer spring (201) are installed on the top of sill pillar (203), and the both ends welding of buffer spring (201) have welding piece (202), and welding piece (202) and the bottom welded fastening of rectangle screening frame (3) on buffer spring (201) top, welding piece (202) and the top welded fastening of sill pillar (203) of buffer spring (201) bottom.

3. A swinging and vibrating trough concentrator for beach sand as recited in claim 1, wherein: two groups of discharging pipes (303) are arranged on one side, opposite to the feeding pipe (5), of the rectangular screening frame (3), the bottoms of one group of discharging pipes (303) and the top of the screening screen plate (301) are located on the same plane, and the bottoms of the other group of discharging pipes (303) and the inner bottoms of the rectangular screening frame (3) are located on the same plane.

4. A swinging and vibrating trough concentrator for beach sand as recited in claim 1, wherein: the sewage collecting cover (307) is welded at the symmetrical position of the bottom of the rectangular screening frame (3) and the sewage draining screen plate (306), and the output end of the sewage collecting cover (307) is connected with a sewage draining pipe.

5. A swinging and vibrating trough concentrator for beach sand as recited in claim 1, wherein: the bottom of the feeding pipe (5) is welded with a welding plate (504), the bottom of the welding plate (504) is welded with at least two groups of equidistant welding rods (505), and the bottom ends of the welding rods (505) are welded and fixed with the top of the bottom plate (1).

6. A swinging and vibrating trough concentrator for beach sand as recited in claim 1, wherein: a servo motor (501) is arranged at the top end of the feeding pipe (5), a feeding shaft (502) is arranged at the output end of the servo motor (501) through a rotating shaft, and spiral blades (503) are welded on the surface of the feeding shaft (502).

7. The oscillating chute concentrator for seashore sand of claim 6, wherein: the feeding shaft (502) and the helical blades (503) are positioned in the feeding pipe (5), and two ends of the feeding shaft (502) are rotatably connected with two ends of the feeding pipe (5) through bearings.

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