CN209476345U - Ore sorts Novel impurity-cleaning device - Google Patents

Abstract

The utility model discloses a kind of ores to sort Novel impurity-cleaning device, pulverizing chamber is provided in cabinet, separation chamber, collecting chamber and recovery room, pulverizing chamber is internally provided with disintegrating mechanism, the first vibration is separated to form by partition in separation chamber and screens room, second vibration screening room and third vibration screening room, first vibration screening room, indoor first reciprocating sieve is screened in second vibration screening room and third vibration, driving motor and vibration Buffer Unit are all connected on second reciprocating sieve and third reciprocating sieve, first reciprocating sieve, pushing material component is provided with right above second reciprocating sieve and third reciprocating sieve, the side of third vibration screening room is arranged in recovery room, third vibration screening interior is provided with ores lifting part, it is provided at the top of cabinet and shakes the conveying channel that screening room is connected with third.Ore provided by the utility model sorts Novel impurity-cleaning device, can screen to ore classification, and screens again after crushing to the ore sundries recycling after screening, reduces the waste of ore.

Description

Ore sorts Novel impurity-cleaning device

Technical field

The utility model relates to ore production technical fields, sort Novel impurity-cleaning device more particularly to a kind of ore.

Background technique

With the development of science and technology, the development of mineral products industry is more and more rapider, when being processed to ore, meeting Use a variety of machinery equipments.Wherein when carrying out sorting removal of impurities to ore, just have to use Ore separation device, it is general common Ore separation device substantially all be ore screening machine, be a kind of ancillary equipment for thickness ore screening, with nowadays There is different types of mine ore screening machine in the market in the continuous development of mining machinery industry, so that ore sorting dress Will be used wider and wider for setting is general, and Practical Benefit is higher and higher.

Screening plant in the prior art, most of mechanical grading device are level-one screening plants, are merely able to filter out one The ore of the suitable size of kind, it is remaining to be dropped as sundries, so that the service efficiency to ore is low, cause to waste, and In use process, when ore falls on the sorting filter screen of device, due to ore big small size not necessarily, and its form is each Different, contours profiles are different, when falling on filter screen, easily block the sieve pore on filter screen, influence work effect Rate easily damages device.

Utility model content

The purpose of the utility model is to provide a kind of ores to sort Novel impurity-cleaning device, in the prior art above-mentioned to solve Shortcoming.

To achieve the goals above, the utility model provides the following technical solutions:

A kind of ore sorts Novel impurity-cleaning device, including cabinet, is provided with pulverizing chamber, separation chamber, collection in the cabinet Room and recovery room are provided with feed inlet in the pulverizing chamber, and the pulverizing chamber is internally provided with disintegrating mechanism, the pulverizing chamber Bottom is provided with inclination discharging portion, is separated to form the first vibration screening room from left to right, the by partition in the separation chamber Two vibration screening rooms and third vibration screening room, the first vibration screening room, the second vibration screening room and third vibration screening Interior is tiltedly installed with the first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve, first reciprocating sieve, the second vibration respectively It is respectively arranged with the first sieve pore, the second sieve pore and third sieve pore on sieve and third reciprocating sieve, the aperture of first sieve pore is less than The aperture of second sieve pore, the aperture of second sieve pore are less than the aperture of the third sieve pore；

Driving motor and vibration Buffer Unit are all connected on first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve, Pushing material component, the pushing material component packet are provided with right above first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve Include sliding panel, driving unit, telescopic rod and pusher, the sliding panel is slidably arranged in the first vibration screening room, the The roof of two vibration screening rooms and third vibration screening room, the pusher include vertical bar and are fixed under the vertical bar The stripe board of side, the vertical bar are fixed on the lower end of the telescopic rod, and the bottom of the stripe board is arranged along its length There are multiple stirring rods, sliding is provided with movable plate in the vertical bar, and height adjustment assembly is connected on the movable plate, described Multiple bar shaped scraping wings are arranged in the bottom of movable plate；

It is provided with discharge port on the first vibration screening room, the second vibration screening room and third vibration screening room, institute The side that the third vibration screening room is arranged in recovery room is stated, the third vibration screening interior is provided with ores lifting part, The ores lifting part is located at the underface of the discharge port of third vibration screening room, is provided at the top of the cabinet and institute The connected conveying channel in third vibration screening room is stated to realize the ores lifting on the ores lifting part to the pulverizing chamber It is interior.

Above-mentioned ore sorts Novel impurity-cleaning device, and the disintegrating mechanism includes the first rotary body and the second rotary body, institute State between the first rotary body, the second rotary body and the inner wall of the pulverizing chamber and between the first rotary body and the second rotary body It is preset with and crushes gap, be connected with the first actuator on first rotary body, be connected with the second drive on second rotary body Moving part.

Above-mentioned ore sorts Novel impurity-cleaning device, and the two of first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve Side is provided with the vibration Buffer Unit, and the vibration Buffer Unit includes fixed plate, buffer board, telescopic mast and compression bullet Spring, the buffer board are fixed on first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve, the side wall of the separation chamber and The vertical chute for buffer board sliding is provided on partition.

Above-mentioned ore sorts Novel impurity-cleaning device, and the fixed plate is fixedly mounted on the underface of the vertical chute, The both ends of the telescopic mast are connected with the fixed plate and the buffer board respectively, are set on outside the compressed spring described On telescopic mast, the top and bottom of the compressed spring are mutually fixed with the buffer board and the fixed plate respectively.

Above-mentioned ore sorts Novel impurity-cleaning device, the collecting chamber include first collect locellus, second collect locellus and Third collect locellus, first collection locellus, second collection locellus and third collect locellus be separately positioned on first reciprocating sieve, The underface of second reciprocating sieve and third reciprocating sieve.

Above-mentioned ore sorts Novel impurity-cleaning device, and stirring gap, institute are formed between the stirring rod and the stirring rod It states bar shaped scraping wings to be arranged in a one-to-one correspondence with the stirring gap, be provided in the stripe board corresponding with the stirring gap Strip groove, the bar shaped scraping wings can be moved downwardly to along the vertical bar in the strip groove and the stirring gap.

In the above-mentioned technical solutions, ore provided by the utility model sorts Novel impurity-cleaning device, is provided with powder in cabinet Broken room, separation chamber, collecting chamber and recovery room, are provided with disintegrating mechanism in pulverizing chamber, in separation chamber by partition be separated to form from The first vibration screening room, the second vibration screening room and the third vibration screening room of from left to right, the first vibration screening room, the second vibration Screening room and third vibration screening interior are tiltedly installed with the first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve respectively, such as This can repeatedly screen ore by the first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve, by ore according to its size It screens, and collects storage output respectively, ores lifting part is provided in recovery room, after being screened by ores lifting part Ore sundries continue on in pulverizing chamber and crushed, then by the first vibration screening room, the second vibration screening room and Third vibration screening room is screened again, to increase the screening and using effect of ore, the sundries after screening is transferred out It goes, is provided with pushing material component right above the first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve, it can by pushing material component Ore on first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve is stirred, ore storage is avoided to manufacture into the stifled of sieve pore Plug, and the ore on the first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve can be cleared up by pushing material component, avoid mine Stone is trapped on the first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve.

Detailed description of the invention

In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, below will be to institute in embodiment Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only to record in the utility model Some embodiments be also possible to obtain other drawings based on these drawings for those of ordinary skill in the art.

Fig. 1 is the structural schematic diagram that ore provided by the embodiment of the utility model sorts Novel impurity-cleaning device；

Fig. 2 is the structural schematic diagram of pushing material component provided by the embodiment of the utility model；

Fig. 3 is the structural schematic diagram of vibration Buffer Unit provided by the embodiment of the utility model.

Description of symbols:

1, cabinet；2, pulverizing chamber；2.1, feed inlet；2.2, the first rotary body；2.3, the second rotary body；3, separation chamber； 3.1, the first vibration screening room；3.2, the second vibration screening room；3.3, third vibration screening room；3.4, the first reciprocating sieve；3.5, Second reciprocating sieve；3.6, third reciprocating sieve；3.7, discharge port；4, pushing material component；4.1, sliding panel；4.2, telescopic rod；4.3, it erects Straight-bar；4.4, stripe board；4.4.1, strip groove；4.5, stirring rod；4.6, movable plate；4.7, bar shaped scraping wings；5, vibration buffering Component；5.1, fixed plate；5.2, buffer board；5.3, telescopic mast；5.4, compressed spring；5.5, vertical chute；6, collecting chamber；6.1, First collects locellus；6.2, second locellus is collected；6.3, third collects locellus；7, recovery room；7.1, ores lifting part；7.2, defeated Expect channel.

Specific embodiment

In order to make those skilled in the art more fully understand the technical solution of the utility model, below in conjunction with attached drawing pair The utility model is further detailed.

As shown in Figure 1-3, a kind of ore provided by the embodiment of the utility model sorts Novel impurity-cleaning device, including cabinet 1, It is provided with pulverizing chamber 2, separation chamber 3, collecting chamber 6 and recovery room 7 in cabinet 1, is provided with feed inlet 2.1, pulverizing chamber in pulverizing chamber 2 2 are internally provided with disintegrating mechanism, and the bottom of pulverizing chamber 2 is provided with inclination discharging portion, in separation chamber 3 by partition be separated to form from The first vibration screening room 3.1, the second vibration screening room 3.2 and third vibration screening room 3.3 of from left to right, the first vibration screening room 3.1, it is tiltedly installed with the first reciprocating sieve 3.4, second respectively in the second vibration screening room 3.2 and third vibration screening room 3.3 Reciprocating sieve 3.5 and third reciprocating sieve 3.6 are respectively set on first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6 There are the first sieve pore, the second sieve pore and third sieve pore, aperture of the aperture less than the second sieve pore of the first sieve pore, the aperture of the second sieve pore Less than the aperture of third sieve pore；Driving motor is all connected on first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6 With vibration Buffer Unit 5, the surface of the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6, which is provided with, to be pushed away Expect that component 4, pushing material component 4 include sliding panel 4.1, driving unit, telescopic rod 4.2 and pusher, the sliding setting of sliding panel 4.1 Roof in the first vibration screening room 3.1, second vibration screening room 3.2 and third vibration screening room 3.3, pusher includes perpendicular Straight-bar 4.3 and the stripe board 4.4 for being fixed on 4.3 lower section of vertical bar, vertical bar 4.3 are fixed on the lower end of telescopic rod 4.2, stripe board 4.4 bottom is provided with multiple stirring rods 4.5 along its length, and sliding is provided with movable plate 4.6 in vertical bar 4.3, activity Height adjustment assembly is connected on plate 4.6, multiple bar shaped scraping wings 4.7 are arranged in the bottom of movable plate 4.6；First vibration screening room 3.1, it is provided with discharge port 3.7 on the second vibration screening room 3.2 and third vibration screening room 3.3, recovery room 7 is arranged in third The side of vibration screening room 3.3, third vibration screening are provided with ores lifting part 7.1 in room 3.3, and ores lifting part 7.1 is located at The underface of third vibration screening 3.3 discharge port 3.7 of room, the top of cabinet 1, which is provided with, shakes what screening room 3.3 was connected with third It conveying channel 7.2 will be in the ores lifting on ores lifting part 7.1 to pulverizing chamber 2 to realize.

Specifically, installing mechanism has can be set in the bottom of cabinet 1, for example bracket is provided with to pacify to cabinet 1 Dress and fixed, is provided with pulverizing chamber 2, separation chamber 3, collecting chamber 6 and recovery room 7 in cabinet 1, pulverizing chamber 2, separation chamber 3 and returns The inside that room 7 is successively set on cabinet 1 is received, pulverizing chamber 2, separation chamber 3 and recovery room 7 can be and set gradually from left to right, It can set gradually, to successively realize the crushing to ore, screening and recycling, ore be divided according to size from right to left Choosing, and the sundries after sorting is transferred out, collecting chamber 6 is correspondingly arranged with separation chamber 3, to be stacked the screening of separation chamber 3 Ore.For pulverizing chamber 2 for crushing to ore, the pulverizing chamber 2 in the present embodiment is to carry out pulverization process again to ore, The preliminary crushing of ore carries out in other ore equipment, and preliminary smashed ore is delivered to crushing by feed inlet 2.1 The inside of room 2, in the disintegrating mechanism that is internally provided with of pulverizing chamber 2, disintegrating mechanism realizes the crushing to ore, and disintegrating mechanism can be with It is to be crushed by two rotary body realizations to ore, can also be realized by crushing shell and ore is crushed, crushed The bottom of room 2 is provided with inclination discharging portion, and inclination discharging portion has opening state and closed state, in the closed state, crushing Mechanism can crush the ore in pulverizing chamber 2, and in opening state, ore is delivered in separation chamber 3 from pulverizing chamber 2, divide It selects and is provided with partition in room 3, separation chamber 3 is separated into the first vibration screening room 3.1, second vibration screening from left to right by partition Room 3.2 and third vibration screening room 3.3, the first vibration screening room 3.1, second vibration screening room 3.2 and third vibration screening room The first vibration screening room 3.1, second vibration screening room 3.2 and third are realized by the way that openable discharging structure is arranged between 3.3 Being interconnected between vibration screening room 3.3 is provided with the first reciprocating sieve 3.4 the first vibration screening room 3.1 is tilted, and first The first sieve pore is provided on reciprocating sieve 3.4, the higher one end in 3.4 position of the first reciprocating sieve is located at the underface of inclination discharging portion, In the second vibration screening, room 3.2 is tilted is provided with the second reciprocating sieve 3.5, and the higher one end in 3.5 position of the second reciprocating sieve is located at The underface of the lower one end in 3.4 position of the first reciprocating sieve or corresponding setting shake the screening tilted setting in room 3.3 in third There is third reciprocating sieve 3.6, the higher one end in 3.6 position of third reciprocating sieve is being located at the lower one end in 3.5 position of the second reciprocating sieve just Lower section or corresponding setting are thusly-formed three reciprocating sieves that can be screened to ore along the conveying direction of ore, the It is respectively corresponded on one reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6 and is provided with the first sieve pore, the second sieve pore and Three sieve pores, less than the aperture of the second sieve pore, the aperture of the second sieve pore is less than the aperture of third sieve pore for the aperture of the first sieve pore, so The first reciprocating sieve 3.4 is enabled to filter out ore and sandstone of small volume etc., the second reciprocating sieve 3.5 can filter out body The biggish ore of product, third reciprocating sieve 3.6 can filter out the bigger ore of volume, and volume is undesirable and can not be crushed Sundries is delivered in recovery room 7.

In the present embodiment, driving motor is all connected on the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6 With vibration Buffer Unit 5, driving motor can drive the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6 to carry out Vibration, vibration Buffer Unit 5 can play the vibration of the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6 slow The effect of punching is arranged pushing material component 4 in the surface of the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6, pushes away Material component 4 can realize the work that stirring is played to the ore on the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6 With avoiding ore from being deposited in the top of the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6, to cause The blocking of one sieve pore, the second sieve pore and third sieve pore, while pushing material component 4 can also be to the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6 play the role of cleaning, the ore on the first reciprocating sieve 3.4 is pushed to the second reciprocating sieve 3.5 On, the ore on the second reciprocating sieve 3.5 is pushed on third reciprocating sieve 3.6, pushing material component 4 includes sliding panel 4.1, driving list Member, telescopic rod 4.2 and pusher, sliding panel 4.1 are slidably arranged in the first vibration screening room 3.1, second vibration screening room 3.2 On the roof for shaking screening room 3.3 with third, telescopic rod 4.2 is fixed on the lower section of sliding panel 4.1, and pusher includes vertical bar 4.3 and stripe board 4.4, vertical bar 4.3 be fixedly mounted on the lower section of telescopic rod 4.2, stripe board 4.4 is fixed on vertical bar 4.3 Lower section, the bottom of stripe board 4.4 is provided with multiple stirring rods 4.5 along its length, under the action of driving unit, can drive Dynamic sliding panel 4.1 moves in the first vibration screening room 3.1, second vibration screening room 3.2 and third vibration screening room 3.3, from And drive stripe board 4.4 and stirring rod 4.5 in the first vibration screening room 3.1, second vibration screening room 3.2 and third vibration screening Room 3.3 moves, to be stirred to the ore on the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6, keeps away Exempt from ore to be deposited on the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6, slides and set in vertical bar 4.3 It is equipped with movable plate 4.6, height adjustment assembly is connected on movable plate 4.6, height adjustment assembly controllable adjustable movable plate 4.6 Highly, driving movable plate 4.6 is slided up and down along vertical bar 4.3, and the bottom of sliding panel 4.1 is provided with bar shaped scraping wings 4.7, item Shape scraping wings 4.7 can be matched with the stirring rod 4.5 in stripe board 4.4 and stripe board 4.4, realize to the first reciprocating sieve 3.4, Ore on second reciprocating sieve 3.5 and third reciprocating sieve 3.6 is cleared up.

In the present embodiment, on the first vibration screening room 3.1, second vibration screening room 3.2 and third vibration screening room 3.3 It is provided with discharge port 3.7, discharge port 3.7 has opening state and closed state, in off position, the first reciprocating sieve 3.4, second Reciprocating sieve 3.5 and third reciprocating sieve 3.6 realize that the vibration to ore is screened, can will be on the first reciprocating sieve 3.4 in opening state It, can also be by the second reciprocating sieve 3.5 on ores lifting to third reciprocating sieve 3.6, by ores lifting to the second reciprocating sieve 3.5 In ores lifting to recovery room 7 on three reciprocating sieves 3.6, the side of third vibration screening room 3.3, third is arranged in recovery room 7 Ores lifting part 7.1 is provided in vibration screening room 3.3, ores lifting part 7.1 is located at third vibration screening 3.3 discharge port of room 3.7 underface, ores lifting part 7.1, which can be accepted from third, shakes the ore that screening room 3.3 exports, the top setting of cabinet 1 Have and shakes the conveying channel 7.2 that screening room 3.3 is connected with third to realize the ores lifting on ores lifting part 7.1 to crushing In room 2, by ores lifting part 7.1 can by after screening ore or impurity continue on in pulverizing chamber 2 and carry out brokenly again Then broken processing carries out vibration screening, still remaining impurity is exported by recovery room 7 after screening.

Ore provided by the embodiment of the utility model sorts Novel impurity-cleaning device, and pulverizing chamber 2, sorting are provided in cabinet 1 Room 3, collecting chamber 6 and recovery room 7 are provided with disintegrating mechanism in pulverizing chamber 2, are separated to form by partition from left-hand in separation chamber 3 Right the first vibration screening room 3.1, second vibration screening room 3.2 and third vibration screening room 3.3, the first vibration screening room 3.1, It is tiltedly installed with the vibration of the first reciprocating sieve 3.4, second respectively in second vibration screening room 3.2 and third vibration screening room 3.3 Sieve 3.5 and third reciprocating sieve 3.6, so can be to mine by the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6 Stone is repeatedly screened, and ore is screened according to its size, and collects storage output respectively, is provided in recovery room 7 Ore sundries after screening is continued on in pulverizing chamber 2 by ores lifting part 7.1 and is crushed by ores lifting part 7.1, Then it is screened again by the first vibration screening room 3.1, second vibration screening room 3.2 and third vibration screening room 3.3, from And increase the screening and using effect of ore, the sundries after screening is transferred out, in the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and the surface of third reciprocating sieve 3.6 be provided with pushing material component 4, can be to the first reciprocating sieve 3.4, by pushing material component 4 Ore on two reciprocating sieves 3.5 and third reciprocating sieve 3.6 is stirred, and avoids ore storage from manufacturing into the blocking of sieve pore, and pass through Pushing material component 4 can clear up the ore on the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6, avoid Ore is trapped on the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6.

In the present embodiment, it is preferred that disintegrating mechanism includes the first rotary body 2.2 and the second rotary body 2.3, the first rotary body 2.2, default between 2 inner wall of the second rotary body 2.3 and pulverizing chamber and between the first rotary body 2.2 and the second rotary body 2.3 There is crushing gap, the first actuator is connected on the first rotary body 2.2, is provided with the second actuator on the second rotary body 2.3；The One actuator and the second actuator can respectively drive the first rotary body 2.2 and the second rotary body 2.3 is rotated, thus realization pair The ore crushed in gap carries out pulverization process.

In the present embodiment, it is preferred that the two sides of the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6 It is provided with vibration Buffer Unit 5, vibration Buffer Unit 5 includes fixed plate 5.1, buffer board 5.2, telescopic mast 5.3 and compression bullet Spring 5.4, buffer board 5.2 are fixed on the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6, the side of separation chamber 3 The vertical chute 5.5 slided for buffer board 5.2 is provided on wall and partition；Under the action of driving motor, first can be driven 3.6 vertical tremor of reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve, the first reciprocating sieve 3.4,3.5 and of the second reciprocating sieve Buffer board 5.2 can be driven to be slided along vertical chute 5.5 while third 3.6 vertical tremor of reciprocating sieve.

In the present embodiment, it is preferred that fixed plate 5.1 is fixedly mounted on the underface of vertical chute 5.5, telescopic mast 5.3 Both ends are connected with fixed plate 5.1 and buffer board 5.2 respectively, are set on telescopic mast 5.3 outside compressed spring 5.4, compress bullet The top and bottom of spring 5.4 are fixed with buffer board 5.2 and 5.1 phase of fixed plate respectively；Buffer board 5.2 is downward along vertical chute 5.5 When movement, buffer board 5.2 compresses telescopic mast 5.3 and telescopic mast 5.3 is shunk, and buffer board 5.2 compresses compressed spring 5.4 and makes at this time It obtains compressed spring 5.4 to be compressed, compressed spring 5.4 is to the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6 Buffer function is played in vibration.

In the present embodiment, it is preferred that collecting chamber 6 includes that the first collection locellus 6.1, second collects locellus 6.2 and third receipts Collect locellus 6.3, the first collection locellus 6.1, second collects locellus 6.2 and third collects locellus 6.3 and is separately positioned on the first vibration Sieve the underface of the 3.4, second reciprocating sieve 3.5 and third reciprocating sieve 3.6；First, which collects locellus 6.1, second, collects 6.2 and of locellus Third collects in locellus 6.3 and is also provided with collecting box, and the ores lifting of different sizes filtered out is gone out by collecting box.

In the present embodiment, it is preferred that form stirring gap, bar shaped scraping wings 4.7 between stirring rod 4.5 and stirring rod 4.5 It is arranged in a one-to-one correspondence with stirring gap, strip groove 4.4.1 corresponding with stirring gap, bar shaped pusher is provided in stripe board 4.4 Plate 4.7 can be moved downwardly to along vertical bar 4.3 in strip groove 4.4.1 and stirring gap；It is shaken in the first reciprocating sieve 3.4, second When sieve 3.5 and third reciprocating sieve 3.6 carry out vibration screening to ore, by adjusting the position of movable plate 4.6, so that stripe board Stirring rod 4.5 on 4.4, which can play the ore on the first reciprocating sieve 3.4, the second reciprocating sieve 3.5 and third reciprocating sieve 3.6, to be stirred The effect of mixing avoids ore from blocking the first sieve pore, the second sieve pore and third sieve pore, is needing to shake the first reciprocating sieve 3.4, second When ore on sieve 3.5 and third reciprocating sieve 3.6 is cleared up, the height of movable plate 4.6 is adjusted, so that heap flitch is embedded in item It, at this time can be by the first vibration by stripe board 4.4, stirring rod 4.5 and bar shaped scraping wings 4.7 in shape slot 4.4.1 and stirring gap Ore on the 3.4, second reciprocating sieve 3.5 of sieve and third reciprocating sieve 3.6 is cleared up.

It is above that certain exemplary embodiments of the utility model are only described by way of explanation, undoubtedly, for Those skilled in the art can be with a variety of different without departing from the spirit and scope of the utility model Mode is modified described embodiment.Therefore, above-mentioned attached drawing and description are regarded as illustrative in nature, and should not be construed as Limitation to the utility model claims protection scope.

Claims (6)

1. a kind of ore sorts Novel impurity-cleaning device, which is characterized in that including cabinet, pulverizing chamber is provided in the cabinet, is divided Room, collecting chamber and recovery room are selected, feed inlet is provided in the pulverizing chamber, the pulverizing chamber is internally provided with disintegrating mechanism, institute The bottom for stating pulverizing chamber is provided with inclination discharging portion, is separated to form the first vibration from left to right by partition in the separation chamber Screen room, the second vibration screening room and third vibration screening room, the first vibration screening room, the second vibration screening room and third Vibration screening interior is tiltedly installed with the first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve respectively, first reciprocating sieve, The first sieve pore, the second sieve pore and third sieve pore are respectively arranged on second reciprocating sieve and third reciprocating sieve, first sieve pore Aperture is less than the aperture of second sieve pore, and the aperture of second sieve pore is less than the aperture of the third sieve pore；

Driving motor and vibration Buffer Unit are all connected on first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve, it is described Pushing material component is provided with right above first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve, the pushing material component includes sliding Movable plate, driving unit, telescopic rod and pusher, the sliding panel are slidably arranged in the first vibration screening room, the second shake The roof of dynamic screening room and third vibration screening room, the pusher include vertical bar and are fixed below the vertical bar Stripe board, the vertical bar are fixed on the lower end of the telescopic rod, and the bottom of the stripe board is provided with more along its length A stirring rod, sliding is provided with movable plate in the vertical bar, and height adjustment assembly, the activity are connected on the movable plate Multiple bar shaped scraping wings are arranged in the bottom of plate；

The first vibration screening room, the second vibration screening room and third, which shake, is provided with discharge port on screening room, and described time The side that the third vibration screening room is arranged in room is received, the third vibration screening interior is provided with ores lifting part, described Ores lifting part is located at the underface of the discharge port of third vibration screening room, is provided at the top of the cabinet and described the The connected conveying channel in three vibration screening rooms will be in the ores lifting to the pulverizing chamber on the ores lifting part to realize.

2. ore according to claim 1 sorts Novel impurity-cleaning device, which is characterized in that the disintegrating mechanism includes first Rotary body and the second rotary body, between first rotary body, the second rotary body and the inner wall of the pulverizing chamber and first revolves It is preset between swivel and the second rotary body and crushes gap, be connected with the first actuator on first rotary body, described the The second actuator is connected on two rotary bodies.

3. ore according to claim 1 sorts Novel impurity-cleaning device, which is characterized in that first reciprocating sieve, second The two sides of reciprocating sieve and third reciprocating sieve are provided with the vibration Buffer Unit, and the vibration Buffer Unit includes fixing Plate, buffer board, telescopic mast and compressed spring, the buffer board are fixed on first reciprocating sieve, the second reciprocating sieve and third shake On dynamic sieve, the vertical chute for buffer board sliding is provided on the side wall and partition of the separation chamber.

4. ore according to claim 3 sorts Novel impurity-cleaning device, which is characterized in that the fixed plate is fixedly mounted on The underface of the vertical chute, the both ends of the telescopic mast are connected with the fixed plate and the buffer board respectively, described Be set on the telescopic mast outside compressed spring, the top and bottom of the compressed spring respectively with the buffer board and described Fixed plate is mutually fixed.

5. ore according to claim 1 sorts Novel impurity-cleaning device, which is characterized in that the collecting chamber includes the first receipts Collect locellus, the second collection locellus and third and collect locellus, the first collection locellus, the second collection locellus and third are collected locellus and distinguished The underface of first reciprocating sieve, the second reciprocating sieve and third reciprocating sieve is set.

6. ore according to claim 1 sorts Novel impurity-cleaning device, which is characterized in that the stirring rod and the stirring Stirring gap is formed between bar, the bar shaped scraping wings is arranged in a one-to-one correspondence with the stirring gap, is arranged in the stripe board There is strip groove corresponding with the stirring gap, the bar shaped scraping wings can move downwardly to the strip groove along the vertical bar In the stirring gap.