CN202155307U

CN202155307U - Vibration feeding and screening equipment

Info

Publication number: CN202155307U
Application number: CN2011201722242U
Authority: CN
Inventors: 李绪伦; 肖津桃
Original assignee: GUIZHOU WANHENG TECHNOLOGY DEVELOPMENT Co Ltd
Current assignee: GUIZHOU WANHENG TECHNOLOGY DEVELOPMENT Co Ltd
Priority date: 2011-05-26
Filing date: 2011-05-26
Publication date: 2012-03-07
Anticipated expiration: 2021-05-26

Abstract

The utility model discloses vibration feeding and screening equipment which comprises an ore feeding bedplate (1), a vibrating motor (3), a strip-shaped ore separating screen (4), an ore guide hopper (5) and an ore passing slot hopper (8) and is characterized in that the vibrating motor (3) is mounted on the lower bottom surface of the ore feeding bedplate (1); the strip-shaped ore separating screen (4), the ore feeding bedplate (1) and the ore passing slot hopper (8) are connected into a whole through a side plate (7); the rear end of the upper part of the side plate (7) is connected with the ore feeding bedplate (1), and the front end of the lower part is connected with the ore passing slot hopper (8) as a whole; the strip-shaped ore separating screen (4) is mounted on the side plate (7); and the ore guide hopper (5) matched with the feed opening of a crusher is arranged at the tail end of the strip-shaped ore separating screen (4). The vibration feeding and screening equipment has a compact structure and is energy-saving and efficient.

Description

The vibrating feed screening plant

Technical field

The utility model belongs to field of mechanical technique, relates in particular to a kind of screening plant.

Background technology

At present; Vibration ore dumping machine is installed in drop shaft bottom, down-hole, known mine; Can only carry out certain even feeding to ore; But at the ore that gets into drop shaft from stope, the lumpiness difference is bigger, and bulk carries conveying capacity, operation use, maintenance cost, the influence in service life of the belt feeder system of ore very big to the ore drawing machine lower end.Especially can be because of the part bulk, its volume is blocked the funnel in the belt feeder system too greatly, influences the operating efficiency of whole transportation system; Each the layering inlet at the stope drop shaft that also has is installed diagrid and is controlled bulk; But that also can only control very special bulk; And the bulk that each drop shaft layering inlet filters out also will be handled respectively; Very trouble makes the transport capacity of whole system and conevying efficiency receive very big influence.And only depend on diagrid control to handle the ore that gets into drop shaft after the bulk, and directly get into belt feeder and carry, also can't resolve the problem that the belt feeder system capability promotes.If the ore of the inlet of each layering of drop shaft is carried out earlier pouring the drop shaft transportation again into after the fragmentation, suchly can increase very big production cost.Moreover, make the vibrating feed sieve of elastic component with spring, can only could realize feed and screening to its even feeding, it is deposited in when top with a large amount of ore materials, the reliability of vibrating feed and screening is relatively poor.

Summary of the invention

The purpose of the utility model is to overcome above-mentioned shortcoming and compact conformation, energy-conservation, vibrating feed screening plant efficiently is provided.

The purpose of the utility model and solve its technical problem underlying and adopt following technical scheme to realize:

The vibrating feed screening plant of the utility model comprises the ore drawing platen, vibrating motor; Sub-material bar shaped sieve, material guiding hopper, slide ore deposit groove bucket; Wherein: vibrating motor is installed in the bottom surface of ore drawing platen, and sub-material bar shaped sieve, ore drawing platen, the ore deposit groove bucket that slips are connected to integral body through side plate; Rear end, side plate top is connected with the ore drawing platen, and the bottom front end connects as one with slide ore deposit groove bucket; Sub-material bar shaped sieve is connected with side plate and passes through ore drawing platen placement positioning on the elastic component on the frame; Sub-material bar shaped tail end end is provided with the material guiding hopper with feed of crusher mouth coupling.

Above-mentioned vibrating feed screening plant, wherein: sub-material bar shaped sieve is mounted and fixed on two backbars on the side plate.

Above-mentioned vibrating feed screening plant, wherein: ore deposit groove bucket and the sub-material bar shaped sieve that slips is placed on above the elastic component that is positioned on the frame through the ore drawing platen.

Above-mentioned vibrating feed screening plant, wherein: the integral width of sub-material bar shaped sieve and stripe pitch are structures that increases gradually.

Above-mentioned vibrating feed screening plant, wherein: the overall width of material guiding hopper is a closing in structure that diminishes gradually.

The utility model compared with prior art has tangible beneficial effect.Can know that by above technical scheme vibrating motor, ore drawing platen, sub-material stripe shape sieve, the ore deposit groove bucket that slips connect as one.The ore drawing platen places under the drop shaft discharge port; Sub-material bar shaped sieve places the rear end of ore drawing platen; Inclination angle with greater than the ore drawing platen is connected with the ore drawing platen, the ore deposit groove bucket that slips place the sub-material grating under sieve with the sub-material bar shaped with the ore drawing platen and to be connected to become integral body through side plate.Sub-material bar shaped sieve end connects material guiding hopper in system and device, and material guiding hopper exports above the feed of crusher mouth; The stream material mouth of slide ore deposit groove bucket is put the belt conveyor top, satisfies and will sieve the requirement that the back fines imports belt feeder.The vibrating motor, ore drawing platen, sub-material bar shaped sieve, the slide ore deposit groove bucket that are linked to be integral body support and are placed on the fixed frame with the block rubber of high-strength elastic.This equipment not only can evenly provide the ore in the drop shaft (funnel) (piece material); Can also the ore (piece material) of output be sieved on demand; Make its size shunting; Fritter degree material then directly gets into belt conveyor; Get into belt conveyor again after can handling (fragmentation) after lump ore (piece material) then sieves and, this lump ore (material) that has just reduced greatly to export has reached the energy-conservation purpose of efficiently moving with belt system to damage of exporting the belt system facility and the possibility that causes the obstruction shutdown.

The specific embodiment of the utility model is provided by following examples and accompanying drawing thereof in detail.

Description of drawings

Fig. 1 is the structural representation of the utility model;

Fig. 2 is the vertical view of Fig. 1;

Fig. 3 is the user mode figure of the utility model.

Mark among the figure:

1. ore drawing platen, 2. elastic component, 3. vibrating motor, 4. sub-material bar shaped sieve, 5. material guiding hopper, 6. frame, 7. side plate, 8. slide ore deposit groove bucket, 9. crushing system, 10. belt conveyor.

The specific embodiment

Below in conjunction with accompanying drawing and preferred embodiment, to the specific embodiment, structure, characteristic and the effect thereof of the vibrating feed screening plant that proposes according to the utility model, specify as after.

Referring to Fig. 1-2, the vibrating feed screening plant of the utility model, ore drawing platen 1; Vibrating motor 3; Sub-material bar shaped sieve 4, material guiding hopper 5, slide ore deposit groove bucket 8; Wherein: vibrating motor 3 is installed in the bottom surface of ore drawing platen 1, and sub-material bar shaped sieve 4, ore drawing platen 1, the ore deposit groove bucket 8 that slips are connected to integral body through side plate 7; Rear end, side plate 7 top is connected with ore drawing platen 1, and the bottom front end connects as one with slide ore deposit groove bucket 8; On two backbars that sub-material bar shaped sieve 4 is mounted and fixed on the side plate 7, the sub-material bar shaped is sieved 4 compass screen surfaces greater than ore drawing platen 1, slips ore deposit groove bucket 8 base plate angles greater than sub-material bar shaped sieve 4.The ore deposit groove bucket 8 that slips is placed through ore drawing platen 1 with sub-material bar shaped sieve 4 and is positioned above the elastic component 2 on the frame 6; The integral width of sub-material bar shaped sieve 4 is a structure of increase gradually with stripe pitch, and the sub-material bar shaped is sieved 4 tail ends and is provided with the material guiding hopper 5 that is complementary with the crushing system charging aperture.The overall width of material guiding hopper 5 is structures of a closing in that diminishes gradually.The end of slide ore deposit groove bucket 8 is above belt conveyor 10.

Referring to Fig. 3, as required, can connect a crushing system 9 at material guiding hopper 5 ends.The end of slide ore deposit groove bucket 8 is above belt conveyor 10.This system is before work, and the drop shaft bottom will have a large amount of ores (material) to be deposited in above the ore drawing platen 1.When system need start working, first belt conveyor 10 started operation, and the back starts crushing system 9; Last Vibration on Start-up motor 3, the vibrating feed screening plant is started working, and motor oscillating power will at first pass to ore drawing platen 1; Ore on ore drawing platen 1 will roll into sub-material bar shaped sieve 4 under the effect of vibration force; Sub-material bar shaped sieve 4 receives the effect of vibrating motor 3 vibration forces, just will roll into the ore sizing of sub-material bar shaped sieve 4, and fine ore falls into slide ore deposit groove bucket 8 from the space between grating; Under the effect of the vibration force of vibrating motor 3, the fine ore of ore deposit groove bucket 8 of slipping is promptly slipped belt conveyor 10 by vibrations and carries; On sub-material bar shaped sieve 4, there is not the raw ore under the sieve to tumble along sub-material bar shaped sieve 4 always; In its terminal centralized collection and through material guiding hopper 5; Directly get into crushing system 9 and carry out break process, after also can being transported to assigned address and handling through special belt feeder again row carry.So this just makes that falling ore on the belt conveyor 10 at last can both reach the belt feeder system and carry the lumpiness requirement, the damage that this has not only reduced belt conveyor system facility has increased service life of belt conveyor; And will improve the operational efficiency of belt feeder system greatly.

The above; It only is the preferred embodiment of the utility model; Be not that the utility model is done any pro forma restriction; Any the utility model technical scheme content that do not break away from, all still belongs in the scope of the utility model technical scheme any simple modification, equivalent variations and modification that above embodiment did according to the technical spirit of the utility model.

Claims

1. vibrating feed screening plant; Comprise ore drawing platen (1), vibrating motor (3), sub-material bar shaped sieve (4); Material guiding hopper (5); Slide ore deposit groove bucket (8), it is characterized in that: vibrating motor (3) is installed in the bottom surface of ore drawing platen (1), and sub-material bar shaped sieve (4), ore drawing platen (1), the ore deposit groove bucket (8) that slips are connected to integral body through side plate (7); Side plate (7) rear end, top is connected with ore drawing platen (1), and the bottom front end connects as one with slide ore deposit groove bucket (8); Sub-material bar shaped sieve (4) is mounted and fixed on the side plate (7); Sub-material bar shaped sieve (4) tail end is provided with the material guiding hopper (5) with feed of crusher mouth coupling.

2. vibrating feed screening plant according to claim 1, it is characterized in that: sub-material bar shaped sieve (4) is mounted and fixed on two backbars on the side plate (7).

3. like the vibrating feed screening plant of claim 1 or 2, it is characterized in that: ore deposit groove bucket (8) and the sub-material bar shaped sieve (4) that slips is placed on above the elastic component (2) that is positioned on the frame (6) through ore drawing platen (1).

4. like the said vibrating feed screening plant of claim 3, it is characterized in that: the integral width of sub-material bar shaped sieve (4) and stripe pitch are structures that increases gradually.

5. like the said vibrating feed screening plant of claim 4, it is characterized in that: the overall width of material guiding hopper is a closing in structure that diminishes gradually.