CN201644397U

CN201644397U - Integrated screening device

Info

Publication number: CN201644397U
Application number: CN2010201580001U
Authority: CN
Inventors: 陈一定; 黄亚宇
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-04-14
Filing date: 2010-04-14
Publication date: 2010-11-24
Anticipated expiration: 2020-04-14

Abstract

The utility model provides an integrated screening device. The integrated screening device is composed of a distribution mechanism (1), a conic rotary screen (2), a vibrating screen I (3), a fixed screen (4), a vibrating screen II (5), an aggregate output mechanism (6), and a siftage transmission mechanism (7) which are connected through a machine frame. The material to be processed is distributed onto the conic rotary screen (2) through the distribution mechanism (1) for a first time screening; oversize material moves to the peak of the conic drum along with the movement of the conic rotary drum, and then falls onto the vibrating screen I; the vibrating screen I is used for a second time screening, and the oversize material is transferred to the fixed screen (4) through the vibrating screen I for a third time screening and sent out by the aggregate output mechanism (6). The utility model integrates various screening equipments together, that is, sets of screening devices are connected in parallel so as to give full play to the advantages of various equipments, and the disadvantages of a single screening device are overcome. Therefore, not only can the requirements of material screening be met, but also the requirements for treatment capacity of the material can be met.

Description

A kind of integrated screening plant

Technical field

The utility model relates to a kind of integrated screening plant.

Background technology

At present, screening plant is single form substantially, and as vibratory sieve, but the screening plant of each single form all has its intrinsic advantage, and the shortcoming of himself is also arranged simultaneously.Because all treating materials all will pass through the vibratory sieve compass screen surface during bolting, compass screen surface should be born the function of screening, undertakes the task of conveying again, and therefore, its specific load is very heavy, is difficult to finish the work that engineering system need be finished.Like this, make the screening part become the bottleneck of engineering system, restricted the operating efficiency of engineering system.

The utility model content

The purpose of this utility model is to provide a kind of can satisfy the integrated screening plant that engineering system requires.

The technical solution of the utility model is: be made up of material-feeding mechanism, circular cone rotary screen, gravity flow screen, vibratory sieve, the output mechanism that gathers materials, screenings conveying mechanism; 1. vibratory sieve is installed in the circular cone rotary screen, its rear stretches out the circular cone rotary screen, gravity flow screen is installed in outside the circular cone rotary screen, one terminates at below the vibratory sieve tail end 1., the other end be connected on the output mechanism that gathers materials above, vibratory sieve 2. be installed in circular cone rotary screen and gravity flow screen below, its feeding end is below the feeding end of circular cone rotary screen, its discharge end be installed in the output mechanism that gathers materials above, the screenings conveying mechanism be installed in vibratory sieve 2. below, and said mechanism is coupled together by frame.

During integrated screening plant operation of the present utility model, treating material is distributed to the circular cone rotary screen through material-feeding mechanism and is higher than on the compass screen surface of its radius, and material rolls down through screening for the first time at gravity effect lower edge circular cone compass screen surface; The minus mesh of screening is for the first time fallen vibratory sieve and is 2. gone up, and oversize takes its peak to by the circular cone cylinder of rotation and drops to vibratory sieve in the gravity effect then and do screening for the second time on 1.; For the second time the oversize of screening is done screening for the third time by gravity flow screen fast, and Shai Fen oversize is accept and falls the output mechanism that gathers materials from the gravity flow screen compass screen surface and see off for the third time.The screenings of material that is not pulled away on the circular cone rotary screen and screening is for the second time done screening repeatedly and is moved to the circular cone outlet along element of cone in the circular cone rotary screen, fall gravity flow screen then and sieve once more and send.2. the screenings of circular cone rotary screen and gravity flow screen is gone up by it to vibratory sieve and is carried out meticulous screening, and screenings is seen off by the screenings conveying mechanism, and material qualified on the sieve is backfilled to railway roadbed through the output mechanism that gathers materials.

The utility model integrates several screening plants, is equivalent to several bushing screens and divides the device parallel connection, gives full play to the advantage of various device, has overcome the shortcoming of single screening plant, and the screening that can satisfy material requires and can satisfy the requirement of material treating capacity.Compared with prior art, the utility model with running steadily, circular cone rotary screen that treating capacity is big bears the transportation work of hundred-percent scalping and 50 percent, and only allow oscillation intensity is big, energy consumption is high, noise is big, inefficient vibratory sieve is born 50 percent meticulous screening and 20 percent transportation work.Make the treating capacity of whole system can reach the demand of engineering system, make system more reliable, more energy-conservation simultaneously.

Description of drawings

Fig. 1 is the structural representation of the integrated screening plant of utility model,

Fig. 2 is A-A generalized section among Fig. 1 (a circular cone rotary screen).

Among the figure, the 1-material-feeding mechanism; 2-circular cone rotary screen; The 3-vibratory sieve 1.; The 4-gravity flow screen; The 5-vibratory sieve 2.; The 6-output mechanism that gathers materials; 7-screenings conveying mechanism.

The specific embodiment

As shown in Figure 1, integrated screening plant of the present utility model is made up of material-feeding mechanism, circular cone rotary screen, gravity flow screen, vibratory sieve, the output mechanism that gathers materials, screenings conveying mechanism; 1. vibratory sieve 3 is installed in the circular cone rotary screen 2, its rear stretches out the circular cone rotary screen, gravity flow screen 4 is installed in outside the circular cone rotary screen, one terminates at vibratory sieve 1. below 3 the tail end, the other end be connected on the output mechanism 6 that gathers materials above, vibratory sieve 2. 5 be installed in circular cone rotary screen 2 and gravity flow screen 4 below, its feeding end is below the feeding end of circular cone rotary screen 2, its discharge end be installed in the output mechanism 6 that gathers materials above, screenings conveying mechanism 7 be installed in vibratory sieve 2. 5 below, and said mechanism is coupled together by frame.

In Fig. 2, treating material is distributed to circular cone rotary screen 2 through material-feeding mechanism 1 and is higher than on the compass screen surface of its radius, and material rolls down from circular cone rotary screen compass screen surface and does screening for the first time under the deadweight effect; 2. the circular cone rotary screen is rotated counterclockwise, and the oversize that does not sift is fallen vibratory sieve from peak then and 1. gone up with the peak of circular cone drum movement to the circular cone cylinder under the gravity effect; 1. vibratory sieve carries out the fast screening second time to material, and 1. the oversize material is transported to by vibratory sieve that gravity flow screen 4 sieves for the third time fast and qualified material is seen off fast by the output mechanism 6 that gathers materials.This process route provides quick screening passage for about 50 percent material, carries out meticulous screening and only there is about 50 percent material to fall vibratory sieve on 2.; Through vibratory sieve meticulous screening 2., about 30 percent screenings is arranged, see off and only there is about 20 percent material 2. to flow to the conveying mechanism 6 that gathers materials through vibratory sieve.1. wherein said vibratory sieve also can use gravity flow screen.

Claims

1. integrated screening plant is characterized in that: by material-feeding mechanism (1), circular cone rotary screen (2), vibratory sieve 1. (3), gravity flow screen (4), vibratory sieve 2. (5), the output mechanism that gathers materials (6), screenings conveying mechanism (7) are formed; Vibratory sieve 1. (3) is installed in the circular cone rotary screen (2), its rear stretches out the circular cone rotary screen, gravity flow screen (4) is installed in outside the circular cone rotary screen, one terminates at vibratory sieve 1. below the tail end of (3), the other end be connected on the output mechanism that gathers materials (6) above, vibratory sieve 2. (5) be installed in circular cone rotary screen (2) and gravity flow screen (4) below, its feeding end is below the feeding end of circular cone rotary screen (2), its discharge end be installed in the output mechanism that gathers materials (6) above, screenings conveying mechanism (7) be installed in vibratory sieve 2. (5) below, and said mechanism is coupled together by frame.