CN202725230U - Jaw type sand powder crushing machine - Google Patents

Jaw type sand powder crushing machine Download PDF

Info

Publication number
CN202725230U
CN202725230U CN 201220382519 CN201220382519U CN202725230U CN 202725230 U CN202725230 U CN 202725230U CN 201220382519 CN201220382519 CN 201220382519 CN 201220382519 U CN201220382519 U CN 201220382519U CN 202725230 U CN202725230 U CN 202725230U
Authority
CN
China
Prior art keywords
jaw
bracket
main
moving
sewing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn - After Issue
Application number
CN 201220382519
Other languages
Chinese (zh)
Inventor
朱兴良
Original Assignee
朱兴良
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 朱兴良 filed Critical 朱兴良
Priority to CN 201220382519 priority Critical patent/CN202725230U/en
Application granted granted Critical
Publication of CN202725230U publication Critical patent/CN202725230U/en
Anticipated expiration legal-status Critical
Withdrawn - After Issue legal-status Critical Current

Links

Abstract

The utility model discloses a jaw type sand powder crushing machine. The jaw type sand powder crushing machine comprises a machine frame, an eccentric drive shaft mechanism, a movable jaw mechanism, a toggle plate mechanism and a crushing pair mechanism, wherein the crushing pair mechanism comprises a main fixed jaw plate and a main movable jaw plate; the working surfaces of the main fixed jaw plate and the main movable jaw plate are arranged oppositely to form a main crushing cavity; tooth-shaped structures are arranged on the working surfaces of the main fixed jaw plate and the main movable jaw plate; a secondary fixed jaw plate and a secondary movable jaw plate are connected to the lower parts of the main fixed jaw plate and the main movable jaw plate respectively in an extension way; the working surfaces of the secondary fixed jaw plate and the secondary movable jaw plate are arranged oppositely to form a secondary crushing cavity, which is in a long and narrow structure; and at least one of the working surfaces of the secondary fixed jaw plate and the secondary movable jaw plate is of a flat plate structure. Due to application of a design of the long and narrow crushing cavity and a laminating and crushing mechanism, the crushing function of a jaw type crushing machine is improved, so that the jaw type crushing machine which is formerly coarse crushing equipment is capable of uniformly and finely crushing materials.

Description

A kind of jaw formula sand powder disintegrating machine
Technical field
The utility model relates to the jaw crusher technical field, more specifically says a kind of jaw formula sand powder disintegrating machine.
Background technology
Jaw crusher also claims jaw broken, is with the longest history, one of most popular disintegrating apparatus.
Jaw is broken to be typical " thick broken " equipment.
Thick broken two connotations that have here:
One, jaw is broken is not precision equipment, (machine tool just can be competent at) simple in structure, easy to manufacture, use and keep in repair all and make things convenient for, operating cost is also very low, and (wearing and tearing that for example jaw is broken are the broken 1/3-1/5 of counterattack, power consumption is the 1/3-1/2 of impact cutting), so jaw is broken always welcome so far;
Two, the discharging that jaw is broken is thicker, is difficult to broken fines, and this is relevant with the breaking cavity structure that jaw breaks, and usually is crushed to the following particle of 30mm and just has been difficult to.
If can namely use the work of the equipment dried " level in small, broken bits " of " thick broken level " with the broken broken fines of jaw, its economic benefit then can significantly promote.
The broken crushing pair of prior art jaw combined symptoms can not be evenly in small, broken bits is:
The one, the angle unreasonable structure of crusher chamber.Be the crusher chamber of " V " type after each circulation stroke work done, discharge be the material of a pile triangle volume.Typical individual particle broken (do not have lamination broken) because jaw is broken, so the granular size set of dimensions moderate of triangle volume is poor, it is high that the on-the-sieve material (material that surpass up to specification size) of discharging after screening returned heavily broken ratio, affects crushing efficiency;
The 2nd, Cracking Mechanism is unreasonable.The prior art jaw crusher is Cracking Mechanism of Single Granule, the particle size of discharging finished product and crusher chamber gap size directly are equivalent to, be that great crusher chamber gap just goes out great product, but the gap of crusher chamber is subjected to the structural limitations can not be too little, therefore restricted the broken function in small, broken bits of jaw (such as the rank of the critical sand of particle size in small, broken bits time then can't be in small, broken bits again).
The 3rd, jaw breaks unreasonable structure, and there is " subtracting stress effect " drawback in the broken motor-driven jaw of prior art bottom, let alone possesses along with broken material breaks carefully and need the larger Cracking Mechanism of crushing force.
Therefore, want to make the broken fines of the broken type of jaw and even direct, will break through at innovative design and its Cracking Mechanism of change of crushing pair.
The utility model content
The purpose of this utility model is to overcome the defective that the prior art jaw crusher can not be in small, broken bits, provide a kind of simple in structure, cheap, crushing efficiency is high, the province's power consumption that saves time, can bulky grain raw material Direct Uniform is in small, broken bits jaw formula sand powder disintegrating machine.Break prior art use the types such as hammer, roll-type, impact type through multiple stage crushing can be in small, broken bits limitation, simplify the flow process of mining production line.
In order to reach above purpose, the utility model is achieved through the following technical solutions: a kind of jaw formula sand powder disintegrating machine, comprise frame, eccentric drive axis mechanism, moving jaw mechanism, bracket mechanism and crushing pair mechanism, described crushing pair mechanism is comprised of main fixed jaw and main sewing jaw, the working face face-off of main fixed jaw and main sewing jaw forms main crusher chamber, and the working face of main fixed jaw and main sewing jaw is provided with tooth-shape structure; It is characterized in that,
The bottom of described main fixed jaw and main sewing jaw is extended respectively and is connected with secondary fixed jaw and secondary sewing jaw, and the secondary crusher chamber that the working face face-off of secondary fixed jaw and secondary sewing jaw forms is the sleeve configuration structure;
Have at least one working face to be set to the planar light plate structure in described secondary fixed jaw and the secondary sewing jaw.
Architectural feature of the present utility model: " sleeve configuration structure " and " planar light plate structure " is of the present utility model two large significantly architectural features.The secondary crusher chamber of a sleeve configuration structure is set in the lower end of main crusher chamber, and one of them is the planar light plate structure at least in the two jaw working faces of the secondary crusher chamber of composition sleeve configuration structure.
Remarkable functional character of the present utility model is: make jaw crusher have the function of even broken fines.
The material that fragmentation goes out has two large characteristics:
The one, " carefully "; So-called " carefully ", exactly the material that goes out of fragmentation much thinner than the prior art jaw crusher of same size model;
The 2nd, " evenly ".So-called " evenly " is exactly that its granular size can concentrate in the specification limit of required finished product material to greatest extent, and namely product particle size concentration degree is high.
Core technology of the present utility model is: by the utilization of sleeve configuration structure crusher chamber design and crusher reason, promoted the crushing function of jaw crusher, making is that the jaw crusher realization material of coarse smash equipment is evenly in small, broken bits originally.
The even mechanism in small, broken bits of the utility model combines to realize by science " sleeve configuration crusher chamber " design and efficiently " crusher reason " utilization:
1. " sleeve configuration crusher chamber " design
Eccentric shaft turns around, a broken circulation, and the material that discharges is the volume in a del district of crusher chamber bottom.Analyzing first extreme case, under the type state of inverted triangle chamber, is that the gap of crushing pair two jaw lower ends transfers to zero (surpass zero will cause jaw to bump against and ruin machine) even floss hole transfers to minimum, still can give off coarse fodder.
And under the sleeve configuration structural capacity, can the floss hole size be set according to required material finished size size fully.And guarantee that each volume that discharges all is the material in this sleeve configuration structural area, does not allow the epicoele material omit in printing.The length of sleeve configuration structure is determined by the freely falling body rule.
Obviously, the bottom is provided with the crusher chamber of sleeve configuration structure, and is thinner and more even than prior art " V " character form structure chamber type fragmentation finished product material out, the superiority in Here it is sleeve configuration structure chamber.
The design of sleeve configuration structure crusher chamber is of the present utility model one large technological highlights.
The designing requirement of sleeve configuration structure crusher chamber:
(1) volume of sleeve configuration crusher chamber should be greater than the volume of each broken circulation institute discharges material; And the material in this volume is controlled in narrow alveolus scope, and particle is controlled at trimmed size material size range;
(2) length of sleeve configuration crusher chamber should satisfy the required height of each broken recycle stock freely falling body, can not allow material in the main crusher chamber alter to slip and descends; Determining of length L: press freely falling body formula h=1/2*g*t2 and calculate, the rotating speed that the prior art jaw breaks calculates length L between 110~550 millimeters at 180~330 rev/mins;
(3) angle of the secondary crusher chamber of sleeve configuration can be selected between-8~+ 8 degree, and notes following 3 points:
1. negative angle is conducive to discharges material, but can not be excessive, and excessive material is difficult for compacting;
2. positive-angle is conducive to broken fines, but also unsuitable excessive, excessively is unfavorable for even fragmentation;
3. to be conducive to material crushing even for zero degree, but because sewing jaw is the fan shape moving take eccentric shaft as the center of circle, and jaw is among continuous wearing and tearing change, thus zero degree only be theory analysis point and moment transient state, practical significance is little.
The angle of crusher chamber is a dynamic concept, and what study and hold is an angular range, and the applicant is set between-8~+ 8 degree.
2. " crusher reason " used
The function even in small, broken bits of above-mentioned sleeve configuration structure crusher chamber has significant limitation:
When raw meal particle size reached the rank of sand and powder (the 4.75-0.15mm particle is called sand, and 0.15mm is hereinafter referred to as powder), under Cracking Mechanism of Single Granule, the fine dimension that the crusher chamber gap is transferred to sand and powder was unrealistic.Because the accuracy of manufacture, installation accuracy or the performance accuracy that no matter are jaw all can not satisfy its requirement, even if can satisfy, its output is also atomic, does not have Practical significance.So the utility model is on the basis of design sleeve configuration crusher chamber, " the crusher reason " of uses advanced is to reach evenly purpose in small, broken bits.
So-called " lamination is broken " is exactly in shattering process lumen type the granule materials that flocks together to be arranged, and the mode by the material pressing materials realizes in small, broken bits.The individual particle fragmentation is the jaw pressing materials; The lamination fragmentation then is the material that flocks together to be arranged in mutual extruding between two jaws.
The lamination fragmentation be under the motion feature condition of sewing jaw " large slack list, the large bed of material, large stroke, large pilled-in selvedge ", form (stroke refers to the move distance of sewing jaw bottom when doing broken work done, claims again stroke; Stroke finishes to claim when namely two jaw bottoms are in minimum range pilled-in selvedge, stroke to begin to claim the slack list when namely two jaw bottoms are in ultimate range, and the difference of the size of slack list and pilled-in selvedge is stroke).
" large slack list " motion feature can make crusher chamber be filled with enough materials, forms material bed (the large bed of material) of adequate thickness;
It is broken that " large stroke " motion feature makes material produce desirable lamination;
" large pilled-in selvedge " motion feature makes crusher chamber can realize the evenly in small, broken bits of material under the state of non-fine clearance chamber type.
Jaw crusher is typical single Cracking Mechanism, and the pilled-in selvedge size of basic epicoele type is exactly the particle size of material when broken coarse fodder.Thinking ultrafine grinding (powder process) with " single Cracking Mechanism " misses one's aim separately, because chamber type pilled-in selvedge size is transferred to the words of powder particle sizes, so: 1, the accuracy of manufacture of chamber type and installation accuracy are difficult to reach, and 2, output is also very little under the so thin Micro-chamber, without practicality.
And the fragmentation campaign of " large pilled-in selvedge, large stroke " can realize " crusher reason ", and the broken fragmentation of so-called lamination is exactly under the high pressure that " large stroke " produces, and the multilayer particle material is arranged between the type of chamber, and the mode of squeezing material by material realizes in small, broken bits.Like this, chamber type pilled-in selvedge size particle size not necessarily.That is to say, under " crusher reason ", larger pilled-in selvedge also can be broken excess of export fines (such as the chamber type pilled-in selvedge size of 10~20mm, just can be broken going out the following powder of 0.15mm).The origin cause of formation that forms chamber type high pressure fragmentation be " large stroke ", inlet amount is large under the large stroke, the high pressure that produces under the high ratio of reduction when large pilled-in selvedge is broken, shows as the lamination crushing function.Under single Cracking Mechanism, " pilled-in selvedge " determines granular size, and " slack list " determines output; Under crusher reason, " large pilled-in selvedge, large stroke " namely determines ultra-fine particle, determines higher output again.
2. the design of planar light plate structure:
When particle was the rank of sand, powder, tooth-shape structure had lost broken meaning, and available flat board is for it, was that with the superiority of slab construction discharges material is more abundant, because there is not tooth pitch to take type space, chamber.
The planar light plate structure is exactly tooth depth, the facewidth and the space width limiting condition when being zero, and it is the structure that falls behind, eliminate with respect to tooth-shape structure, but presents great advantage here.Because in the afterbody chamber of multistage ladder crusher chamber, its broken object has been tiny material, broken task be fines homogenous superfine is broken again, be promoted as " mill " from " breaking ", mill is ultrafine grinding (sand processed, powder process) better then.
Planar light plate structure design be the utility model another large technological highlights.
3. the lifting of disintegrating machine mechanical structure
In using " lamination is broken " mechanism, need to have the jaw motion feature of " large stroke " and the mechanics mechanism with enough " reinforcement effect ", this overall structure with crusher is relevant, the prior art jaw breaks does not possess this two conditions, and dual-crank-rocker mechanism disintegrating machine and the compound crank and rocker mechanism disintegrating machine of application meet above-mentioned condition before the applicant.
Generally speaking, the broken type of jaw will be realized the ultrafine grinding function, and large " key element " is integrated forms by three: " chamber type+type+mechanism ".
The innovative design of " sleeve configuration structure ", " stepped construction " crusher chamber is the basis;
" dual-crank-rocker mechanism disintegrating machine " reaches " compound crank and rocker mechanism disintegrating machine " is necessary and sufficient condition;
" crusher reason " is core.
Remarkable functional character of the present utility model is: realize crushing function extraordinary, ultrafine grinding.Such as the again improvement of supporting crusher structure (such as the applicant's innovative design: dual-crank-rocker mechanism disintegrating machine, the compound crank and rocker mechanism disintegrating machine of the patent No., the patent No.), the utility model can be realized the directly broken sand processed of unit even broken powder process.Not only significantly promote the jaw crusher function, and improve to greatest extent crushing efficiency and reduce power consumption.Also greatly simplify simultaneously mining production line flow process.
Jaw is broken to be " slightly " equipment, and sand processed, powder process are " carefully " work, allows dried " carefully " work of " slightly " equipment be an energy-saving and cost-reducing green revolution! Realizing sand processed, powder process with the broken type of jaw, is a great technological revolution in the field of cracking machine!
Except above-mentioned remarkable functional character, the beneficial effect that brings simultaneously also has:
1. raising output.As be designed to shaped negative angle structures (referring to two plane of disruption angles) at the utility model breaking chamber structure, then in broken motion process, its jaw has a quick propulsive force (if eccentric shaft turn to be set to consistent with the logistics direction) to material.This will increase substantially jaw bankruptcy amount.
Because the broken speed that the prior art lower jaw is broken is the free-fall velocity of nature, is a limiting value.The utility model has been broken through this limit velocity.
2. the raising ratio of reduction.As being the segmentation structure of bypassing the immediate leadership with stepped structural design in the utility model crusher chamber, can increase substantially so the ratio of reduction of disintegrating machine, improve the crushing performance of disintegrating machine.
3. reduce abrasion.The crusher reason of the utility model uses advanced namely has the material of considerable part to be " material dnockout ", and therefore abrasion greatly reduce.
As preferably, tooth-shape structure on described secondary fixed jaw and the secondary sewing jaw working face is equal to or less than the tooth-shape structure on the working face of described main fixed jaw and main sewing jaw, and namely tooth depth, the facewidth and the space width of secondary fixed jaw and secondary sewing jaw working face are equal to or less than tooth depth, the facewidth and the space width on main fixed jaw and the main sewing jaw working face.
Tooth-shape structure is tapered design principle from top to bottom: when particle diameter and tooth pitch near the time, the broken defunctionalization of the folding of tooth-shape structure; When particle diameter and profile of tooth size near the time, tooth-shape structure split broken defunctionalization.So after material crushing was little, profile of tooth should in good time suitablely diminish, and so just has higher crushing efficiency.
As preferably, described secondary fixed jaw and secondary sewing jaw wherein have one working face to be set to the planar light plate structure.
As the alternative of such scheme, the working face that described secondary fixed jaw and secondary sewing jaw are two all is set to the planar light plate structure.
The design principle of planar light plate structure: when particle was the rank of sand, powder, tooth-shape structure had lost broken meaning, and available flat board is for it, was that with the superiority of slab construction discharges material is more abundant, because there is not tooth pitch to take type space, chamber.
The planar light plate structure is exactly tooth depth, the facewidth and the space width limiting condition when being zero, and it is the structure that falls behind, eliminate with respect to tooth-shape structure, but presents great advantage here.Because in the afterbody chamber of multistage ladder crusher chamber, its broken object has been tiny material, broken task be fines homogenous superfine is broken again, be promoted as " mill " from " breaking ", mill is ultrafine grinding (sand processed, powder process) better then.
In sleeve configuration structure chamber, planar light plate structure jaw has following superiority:
1. for the fines rank, no longer need " split broken, folding is broken, squeeze broken " etc. the effect finished of need tooth-shape structure, so tooth-shape structure is ineffective, the shortcoming of planar light plate structure has not existed;
2. broken fines is very sensitive to chamber type precision, and planar structure is higher than the contact-making surface precision of tooth-shape structure;
3. tooth-shape structure and the plane light plate structure of same stroke, the former differs at granular size, and latter's interlocking pattern is better, and fine granules is more even.
In one section planar light plate structure of the lower end (in the sleeve configuration structure chamber) of crusher chamber design, it is the another technological highlights in the utility model.
As preferably, the broken direction length of the secondary crusher chamber of described sleeve configuration planar light plate structure is 110~550mm; The angle angular range of the secondary crusher chamber of described sleeve configuration planar light plate structure is-8~+ 8 degree.
As preferably, the structure of described main fixed jaw and main sewing jaw is straight line, curve or broken line structure.Secondary fixed jaw and secondary sewing jaw that described main fixed jaw and main sewing jaw are corresponding with it all are structure as a whole or Split type structure.
The structure of main fixed jaw and main sewing jaw is that straight line is modal structure.Select the superiority of curvilinear structures to be that jaw bottom crushed particles is less, efficient is higher; The broken line structure then makes crusher chamber be divided into a plurality of chambeies, realizes graded crushing.
As preferably, the eccentric drive axis mechanism comprises an eccentric drive shaft, and described moving jaw mechanism comprises a moving jaw, and bracket mechanism comprises a bracket;
The upper end of moving jaw is connected with eccentric drive shaft, and the lower end is connected with the front end of bracket; The rear end of bracket is connected on the frame.
The utility model be can be used for the broken type of conventional jaw, and, particle size after cracking lower to material hardness also can play certain effect in small, broken bits when not too thin.And also can use on the old machine, to transform than being easier to, manufacturing cost is relatively cheap.
As preferably, the eccentric drive axis mechanism comprises a pre-eccentric driving shaft and a rear eccentric drive shaft, and moving jaw mechanism comprises a front moving jaw and a rear moving jaw, and bracket mechanism comprises a front bracket and a rear bracket;
The upper end of front moving jaw is connected with the pre-eccentric driving shaft, and the lower end is connected with the front end of front bracket; The rear end of front bracket is connected with the lower end of rear moving jaw;
The upper end of rear moving jaw is connected with rear eccentric drive shaft, and the lower end is connected with the front end of rear bracket; The rear end of rear bracket is connected on the frame.
Dual-crank-rocker mechanism is an important component part in the utility model, and its reinforcement effect provides necessary condition for super fine crushing; Its large stroke adjustment characteristic provides necessary assurance for the lamination fragmentation of little pilled-in selvedge, large stroke.
The required functional requirement of structure the utility model that the prior art jaw is broken.The one, moving jaw bottom work done is stressed limited; The 2nd, large stroke is adjusted limited.
The bracket mechanism of the moving jaw bottom of prior art jaw crusher is irrational, and " subtracting stress effect " arranged, and its motion is take discharges material as major function, so the motion of moving jaw bottom is the stroke of discharging, rather than broken stroke.Be accompanied with some crushing functions, very little and loss is very large (because exist subtract power effect).This is intrinsic disadvantage and the weakness of prior art jaw crusher.
The remarkable result of dual-crank-rocker mechanism jaw crusher is to have broken through jaw crusher in the prior art only with the limitation of a cover crank endplay device, the utility model uses the one in front and one in back combination of two cover crank endplay devices, eliminated the two conflicting drawback of prior art jaw crusher discharges material and broken work done, make a crusher have the effect of two-stage crushing, make broken material thinner, more even, fully saved again resource.
As preferably, the eccentric drive axis mechanism comprises a pre-eccentric driving shaft and a rear eccentric drive shaft; Moving jaw mechanism comprise the moving jaw of going forward, once before on the moving jaw, after moving jaw and rear moving jaw once; Bracket mechanism comprise the bracket of going forward, once before on the bracket, after bracket and once after bracket;
The go forward upper end of moving jaw is connected with the pre-eccentric driving shaft, and the lower end is connected with the front end of the bracket of going forward; The go forward rear end of bracket is connected with the lower end of upper rear moving jaw;
The upper end of moving jaw is connected with rear eccentric drive shaft after upper, and the lower end is connected with the front end of upper rear bracket; The rear end of bracket is connected on the frame after upper;
The upper end of moving jaw is connected with the lower end of the moving jaw of going forward before lower, and the lower end is connected with the front end of lower front bracket; The rear end of lower front bracket is connected with the lower end of lower rear moving jaw;
The upper end of moving jaw is connected with the lower end of upper rear moving jaw after lower, and the lower end is connected with the front end of lower rear bracket; The rear end of bracket is connected on the frame after lower.
" composite multi-crank rocker mechanism design " than Double crank rocker structure more superiority be: the latter only has moving jaw bottom to have the reinforcement effect, the former then moving jaw the reinforcement effect is all arranged up and down, more be conducive to super fine crushing.
With " composite multi-crank rocker mechanism design " replacement " dual-crank-rocker mechanism design ", make the jaw upper and lower part jointly have the crushing force of " reinforcement effect ", and overcome the congenital drawback of the broken half way work done of prior art jaw, realized omnidistance work done.The bright spot that adopts the composite multi-crank rocker mechanism maximum is that the fragmentation campaign of moving jaw horizontal direction and the flip-flop movement of vertical direction are separated into self-movement, and " the crushing Cracking Mechanism " of jaw crusher is promoted to " selective crushing " this efficient Cracking Mechanism.
Description of drawings
Fig. 1 is a kind of structural representation of the present utility model;
Fig. 2 is another kind of structural representation of the present utility model;
Fig. 3 is also a kind of structural representation of the present utility model;
Fig. 4 is a kind of structural representation of the utility model crushing pair mechanism;
Fig. 5 is the another kind of structural representation of the utility model crushing pair mechanism;
Fig. 6 is also a kind of structural representation of the utility model crushing pair mechanism;
Fig. 7 is another structural representation of the utility model crushing pair mechanism.
Among the figure: 1-master's fixed jaw, 2-master's sewing jaw, 3-master's crusher chamber, the secondary fixed jaw of 4-, the secondary sewing jaw of 5-, the secondary crusher chamber of 6-;
The 11-frame, the 12-eccentric drive shaft, 13-moves jaw, 14-bracket, 15-drive;
20-pre-eccentric driving shaft, moving jaw before the eccentric drive shaft behind the 21-, 22-, moving jaw behind the 23-, bracket before the 24-, bracket behind the 25-, 26-driving front gear, 27-final drive gear;
The 30-last section front moving jaw, moving jaw before the joint under the 31-, bracket before the 32-epimere, moving jaw behind the bracket behind the 33-epimere, the upper joint of 34-, 35-moving jaw under section, bracket before the 36-hypomere, bracket behind the 37-hypomere.
The specific embodiment
Below in conjunction with the drawings and specific embodiments the utility model is further described.
Embodiment 1: as shown in Figure 1 and Figure 4, a kind of jaw formula sand powder disintegrating machine, comprise frame 11, eccentric drive axis mechanism, moving jaw mechanism, bracket mechanism and crushing pair mechanism, crushing pair mechanism is comprised of main fixed jaw 1 and main sewing jaw 2, and the working face face-off of main fixed jaw 1 and main sewing jaw 2 forms main crusher chamber 3.
The eccentric drive axis mechanism comprises an eccentric drive shaft 12, and described moving jaw mechanism comprises a moving jaw 13, and bracket mechanism comprises a bracket 14;
The upper end of moving jaw 13 is connected with eccentric drive shaft 12, and the lower end is connected with the front end of bracket 14; The rear end of bracket 14 is connected on the frame 11.On the eccentric drive shaft 12 connection for transmissions wheel 15.
As shown in Figure 4, the bottom of main fixed jaw 1 and main sewing jaw 2 is extended respectively and is connected with secondary fixed jaw 4 and secondary sewing jaw 5, the secondary crusher chamber 6 that the working face face-off of secondary fixed jaw 4 and secondary sewing jaw 5 forms is the sleeve configuration structure, and namely secondary crusher chamber 6 length are very long, and width is very narrow.
The working face of main fixed jaw 1 and main sewing jaw 2 is provided with tooth-shape structure.Tooth-shape structure on secondary fixed jaw 4 and secondary sewing jaw 5 working faces equals the tooth-shape structure on the working face of main fixed jaw 1 and main sewing jaw 2, and namely tooth depth, the facewidth and the space width of secondary fixed jaw 4 and secondary sewing jaw 5 working faces equal tooth depth, the facewidth and the space width on main fixed jaw 1 and main sewing jaw 2 working faces.
Secondary sewing jaw 5 working faces are set to the planar light plate structure.The angle angular range of secondary crusher chamber 6 is-8 degree; The broken direction length of the secondary crusher chamber of sleeve configuration planar light plate structure is 110mm.The crushing stroke spacing is 1 times of discharges material particle specification.
The structure of main fixed jaw 1 and main sewing jaw 2 is linear structure.Secondary fixed jaw 4 and secondary sewing jaw 5 that main fixed jaw 1 and main sewing jaw 2 are corresponding with it all are structure as a whole.
Embodiment 2: as shown in Figure 2, the eccentric drive axis mechanism comprises a pre-eccentric driving shaft 20 and a rear eccentric drive shaft 21, and moving jaw mechanism comprises a front moving jaw 22 and a rear moving jaw 23, and bracket mechanism comprises a front bracket 24 and a rear bracket 25;
The upper end of front moving jaw 22 is connected with pre-eccentric driving shaft 20, and the lower end is connected with the front end of front bracket 24; The rear end of front bracket 24 is connected with the lower end of rear moving jaw 23;
The upper end of rear moving jaw 23 is connected with rear eccentric drive shaft 21, and the lower end is connected with the front end of rear bracket 25; The rear end of rear bracket 25 is connected on the frame 11.
Pre-eccentric driving shaft 20 is connected with final drive gear 27 with driving front gear 26 respectively with rear eccentric drive shaft 21.
All the other are with embodiment 1.
Embodiment 3: as shown in Figure 3, the eccentric drive axis mechanism comprises a pre-eccentric driving shaft 20 and a rear eccentric drive shaft 21; Moving jaw mechanism comprise the moving jaw 30 of going forward, once before on the moving jaw 31, after moving jaw 34 and rear moving jaw 35 once; Bracket mechanism comprise the bracket 32 of going forward, once before on the bracket 33, after bracket 36 and once after bracket 37;
The go forward upper end of moving jaw 30 is connected with pre-eccentric driving shaft 20, and the lower end is connected with the front end of the bracket 32 of going forward; The go forward rear end of bracket 32 is connected with the lower end of upper rear moving jaw 34;
The upper end of moving jaw 34 is connected with rear eccentric drive shaft 21 after upper, and the lower end is connected with the front end of upper rear bracket 36; The rear end of bracket 36 is connected on the frame 11 after upper;
The upper end of moving jaw 31 is connected with the lower end of the moving jaw 30 of going forward before lower, and the lower end is connected with the front end of lower front bracket 33; The rear end of lower front bracket 33 is connected with the lower end of lower rear moving jaw 35;
The upper end of moving jaw 35 is connected with the lower end of upper rear moving jaw 34 after lower, and the lower end is connected with the front end of lower rear bracket 37; The rear end of bracket 37 is connected on the frame 11 after lower.
Pre-eccentric driving shaft 20 is connected with final drive gear 27 with driving front gear 26 respectively with rear eccentric drive shaft 21.
All the other are with embodiment 1.
Embodiment 4: as shown in Figure 5, the working face of main fixed jaw 1 and main sewing jaw 2 is provided with tooth-shape structure.Tooth-shape structure on secondary fixed jaw 4 and secondary sewing jaw 5 working faces is less than the tooth-shape structure on the working face of main fixed jaw 1 and main sewing jaw 2, and namely tooth depth, the facewidth and the space width of secondary fixed jaw 4 and secondary sewing jaw 5 working faces are less than tooth depth, the facewidth and space width on main fixed jaw 1 and main sewing jaw 2 working faces.
The working face of secondary fixed jaw 4 and secondary sewing jaw 5 all is set to the planar light plate structure.
The angle angular range of secondary crusher chamber 6 is-1 degree; The broken direction length of the secondary crusher chamber of sleeve configuration planar light plate structure is 300mm.
Secondary fixed jaw 4 and secondary sewing jaw 5 that main fixed jaw 1 and main sewing jaw 2 are corresponding with it all are structure as a whole.
The structure of main fixed jaw 1 and main sewing jaw 2 is the broken line structure.Secondary fixed jaw 4 and secondary sewing jaw 5 that main fixed jaw 1 and main sewing jaw 2 are corresponding with it are Split type structure.
All the other are with embodiment 1.
Embodiment 5: as shown in Figure 6, the angle angular range of secondary crusher chamber 6 is+1 degree; The broken direction length of the secondary crusher chamber of sleeve configuration planar light plate structure is 550mm.The crushing stroke spacing is 3 times of discharges material particle specification.The structure of main fixed jaw 1 and main sewing jaw 2 is the curve arc structure.
All the other are with embodiment 2.
Embodiment 6: as shown in Figure 7, the structure of main fixed jaw 1 and main sewing jaw 2 is the broken line structure.
The angle angular range of secondary crusher chamber 6 is+8 degree; The broken direction length of the secondary crusher chamber of sleeve configuration planar light plate structure is 400mm.
All the other are with embodiment 2.
The embodiment of the above is the preferred embodiment of the utility model only, is not to limit practical range of the present utility model with this, therefore the variation that all shapes according to the utility model, principle are done all should be encompassed in the protection domain of the present utility model.

Claims (10)

1. jaw formula sand powder disintegrating machine, comprise frame, eccentric drive axis mechanism, moving jaw mechanism, bracket mechanism and crushing pair mechanism, described crushing pair mechanism is comprised of main fixed jaw and main sewing jaw, the working face face-off of main fixed jaw and main sewing jaw forms main crusher chamber, and the working face of main fixed jaw and main sewing jaw is provided with tooth-shape structure; It is characterized in that,
The bottom of described main fixed jaw and main sewing jaw is extended respectively and is connected with secondary fixed jaw and secondary sewing jaw, and the secondary crusher chamber that the working face face-off of secondary fixed jaw and secondary sewing jaw forms is the sleeve configuration structure;
Have at least one working face to be set to the planar light plate structure in described secondary fixed jaw and the secondary sewing jaw.
2. a kind of jaw formula sand powder disintegrating machine according to claim 1, it is characterized in that, tooth-shape structure on described secondary fixed jaw and the secondary sewing jaw working face is equal to or less than the tooth-shape structure on the working face of described main fixed jaw and main sewing jaw, and namely tooth depth, the facewidth and the space width of secondary fixed jaw and secondary sewing jaw working face are equal to or less than tooth depth, the facewidth and the space width on main fixed jaw and the main sewing jaw working face.
3. a kind of jaw formula sand powder disintegrating machine according to claim 1 is characterized in that, described secondary fixed jaw and secondary sewing jaw wherein have one working face to be set to the planar light plate structure.
4. a kind of jaw formula sand powder disintegrating machine according to claim 1 is characterized in that, the working face that described secondary fixed jaw and secondary sewing jaw are two all is set to the planar light plate structure.
5. a kind of jaw formula sand powder disintegrating machine according to claim 1 is characterized in that, the broken direction length of the secondary crusher chamber of described sleeve configuration planar light plate structure is 110~550mm; The angle angular range of the secondary crusher chamber of described sleeve configuration planar light plate structure is-8~+ 8 degree.
6. a kind of jaw formula sand powder disintegrating machine according to claim 1 is characterized in that, the structure of described main fixed jaw and main sewing jaw is straight line, curve or broken line structure.
7. according to claim 1 and 2 or 3 or 4 or 5 or 6 described a kind of jaw formula sand powder disintegrating machines, it is characterized in that, secondary fixed jaw and secondary sewing jaw that described main fixed jaw and main sewing jaw are corresponding with it all are structure as a whole or Split type structure.
8. a kind of jaw formula sand powder disintegrating machine according to claim 7 is characterized in that, the eccentric drive axis mechanism comprises an eccentric drive shaft, and described moving jaw mechanism comprises a moving jaw, and bracket mechanism comprises a bracket;
The upper end of moving jaw is connected with eccentric drive shaft, and the lower end is connected with the front end of bracket; The rear end of bracket is connected on the frame.
9. a kind of jaw formula sand powder disintegrating machine according to claim 7, it is characterized in that, the eccentric drive axis mechanism comprises a pre-eccentric driving shaft and a rear eccentric drive shaft, and moving jaw mechanism comprises a front moving jaw and a rear moving jaw, and bracket mechanism comprises a front bracket and a rear bracket;
The upper end of front moving jaw is connected with the pre-eccentric driving shaft, and the lower end is connected with the front end of front bracket; The rear end of front bracket is connected with the lower end of rear moving jaw;
The upper end of rear moving jaw is connected with rear eccentric drive shaft, and the lower end is connected with the front end of rear bracket; The rear end of rear bracket is connected on the frame.
10. a kind of jaw formula sand powder disintegrating machine according to claim 7 is characterized in that, the eccentric drive axis mechanism comprises a pre-eccentric driving shaft and a rear eccentric drive shaft; Moving jaw mechanism comprise the moving jaw of going forward, once before on the moving jaw, after moving jaw and rear moving jaw once; Bracket mechanism comprise the bracket of going forward, once before on the bracket, after bracket and once after bracket;
The go forward upper end of moving jaw is connected with the pre-eccentric driving shaft, and the lower end is connected with the front end of the bracket of going forward; The go forward rear end of bracket is connected with the lower end of upper rear moving jaw;
The upper end of moving jaw is connected with rear eccentric drive shaft after upper, and the lower end is connected with the front end of upper rear bracket; The rear end of bracket is connected on the frame after upper;
The upper end of moving jaw is connected with the lower end of the moving jaw of going forward before lower, and the lower end is connected with the front end of lower front bracket; The rear end of lower front bracket is connected with the lower end of lower rear moving jaw;
The upper end of moving jaw is connected with the lower end of upper rear moving jaw after lower, and the lower end is connected with the front end of lower rear bracket; The rear end of bracket is connected on the frame after lower.
CN 201220382519 2012-07-28 2012-07-28 Jaw type sand powder crushing machine Withdrawn - After Issue CN202725230U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201220382519 CN202725230U (en) 2012-07-28 2012-07-28 Jaw type sand powder crushing machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201220382519 CN202725230U (en) 2012-07-28 2012-07-28 Jaw type sand powder crushing machine

Publications (1)

Publication Number Publication Date
CN202725230U true CN202725230U (en) 2013-02-13

Family

ID=47650982

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201220382519 Withdrawn - After Issue CN202725230U (en) 2012-07-28 2012-07-28 Jaw type sand powder crushing machine

Country Status (1)

Country Link
CN (1) CN202725230U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103567002A (en) * 2012-07-28 2014-02-12 朱兴良 Jaw type sand powder crusher

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103567002A (en) * 2012-07-28 2014-02-12 朱兴良 Jaw type sand powder crusher

Similar Documents

Publication Publication Date Title
CN203281333U (en) Environment-friendly and energy-saving jaw crusher
CN206746649U (en) A kind of double rank double-cavity jaw crushers
CN103752370A (en) Energy-saving roller type grading machine
CN202962528U (en) Jaw type sand making machine
CN103567009A (en) Jaw type sand making machine
CN202725226U (en) Long and narrow crushing pair with flat plate structure
CN202725230U (en) Jaw type sand powder crushing machine
CN202725232U (en) Jaw type powder making machine
CN202725233U (en) Elongated structure smashing pair
CN206868299U (en) A kind of jaw crusher multitooth plate
CN206853773U (en) A kind of high-efficient jaw breaker
CN202725227U (en) Jaw type uniform crushing machine
CN103567002A (en) Jaw type sand powder crusher
CN103567000B (en) A kind of crushing pair with ultrafine grinding function and the implementation method of ultrafine grinding function thereof
CN204933539U (en) A kind of efficient ore crusher
CN202725225U (en) Jaw type crushing machine with high crushing ratio
CN202725231U (en) Jaw type shaping machine
CN202725228U (en) Crushing cavity with angle and tooth-shaped double-step structures
CN203044065U (en) Jaw plate with uniform-fine breaking function
CN103041891B (en) Three-cavity multi-functional jaw crusher with triple-folding symmetric exchange type toothed plates
CN202725229U (en) Crushing cavity with negative occlusal angle step structure
CN103567006A (en) Jaw type uniform-fineness crusher
CN103567003B (en) A kind of multi-tier formula crusher chamber
CN103566999A (en) Long and narrow-structure crushing pair
CN103566997A (en) Long and narrow plane polish plate structure crushing pair

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20130213

Effective date of abandoning: 20171017

AV01 Patent right actively abandoned