CN203990852U - A kind of building stones disintegrating apparatus of being convenient to mobile operational process - Google Patents

Abstract

A kind of building stones disintegrating apparatus of being convenient to mobile operational process, comprise equipment pedestal, it passes through vibrating feed assembly, disintegrating machine assembly, separatory funnel assembly and vibratory sieve assembly etc. are fixedly placed on equipment pedestal and by a plurality of transfer tape assembles and make each several part interrelated, secondly at the left end by equipment pedestal, connecting pin is set, right rear end at equipment pedestal arranges wheel, the means such as many group legs are also set simultaneously, be used for being used in conjunction with trailer, realize the needs of circulation transportation and stable operation, and make vibrating feed, the running of the equipment such as disintegrating machine and vibratory sieve is used convenient, at needs, do not carry out a large amount of installations, dismantlement work, improved production efficiency.

Description

A kind of building stones disintegrating apparatus of being convenient to mobile operational process

Technical field

The utility model relates to engineering machinery field, relate in particular to a kind of building stones disintegrating apparatus of being convenient to mobile operational process.

Background technology

In engineering machinery field, building stones disintegrating apparatus is mainly used in the fragmentation of the raw materials such as oversize rock material, ore, is widely used in the fields such as the construction of highway bridge, construction site.Traditional building stones disintegrating apparatus in other words production line is normally comprised of vibrating feed storehouse assembly, disintegrating machine assembly, vibratory sieve assembly and corresponding various conveyer belt assemblies, power unit and control module etc.In current engineering construction, move into behind new construction site, need to assemble being transported to respectively the vibrating feed storehouse assembly, disintegrating machine assembly, vibratory sieve assembly in building site and corresponding various conveyer belt assemblies, power unit etc., then debug after qualified and start again normal production.The problem of its existence is: all larger as equipment type bodies such as vibrating feed storehouse assembly, disintegrating machine assembly, vibratory sieve assemblies, transport inconvenience; Each equipment delivery is installed and is wasted time and energy to combination behind building site, and debugs and need the longer time of cost, has reduced production efficiency; In addition, in a building site, complete after construction, each equipment that combination need to be installed splits, and is then transported to respectively new building site, then re-assemblies, debugs, and causing the use that circulates between building site very inconvenient.

Utility model content

For the problem of above-mentioned existence, the utility model provides a kind of building stones disintegrating apparatus of the operation that can circulate between different construction sites easily.By using this, be convenient to the building stones disintegrating apparatus of mobile operational process, the transportation difficulties such as vibrating feed storehouse assembly, disintegrating machine assembly, vibratory sieve assembly of current existence, the problem that cost of transportation is high have been solved, remove the installation, the dismantlement work that circulate when each construction site from, can improve into product efficiency.

The technical scheme in the invention for solving the technical problem is: a kind of building stones disintegrating apparatus of being convenient to mobile operational process, comprise equipment pedestal, in the upper surface of described equipment pedestal, be fixedly installed successively from left to right vibrating feed assembly, disintegrating machine assembly, separatory funnel assembly and vibratory sieve assembly, in the lower surface of described equipment pedestal, be at least fixedly installed three pairs of supporting legs, in the inner side of every a pair of supporting leg, elevating lever be set respectively, at the equipment pedestal being positioned between two pairs of supporting legs of the rightmost side, wheel is partly set, lower surface at described equipment pedestal left end arranges connecting pin, conveyer belt one assembly is set in the support left end of described vibrating feed assembly, the scalable and flexible direction of the support of described conveyer belt one assembly be front and back to, corresponding conveyer belt two assemblies of discharging opening of described disintegrating machine assembly, the output of described conveyer belt two assemblies coordinates with the input overlap joint of described driving-belt one assembly, in the right-hand member of the support of described vibrating feed assembly, a supporting rod is set, described separatory funnel assembly comprises three funnel cavities, and the feeding mouth of these three funnel cavities is all positioned at the right side vertical plane of separatory funnel assembly and be arranged in parallel from top to bottom, feeding mouth is positioned at the discharging opening of funnel cavity of topmost towards the front of separatory funnel assembly bottom, bottom at this front side discharging opening arranges conveyor unit, this conveyor unit comprises that the axial length of this folding arm can stretch along sagittal horizontal mounting arm and the folding arm that is articulated with this horizontal mounting arm front end, feeding mouth is positioned at the discharging opening of funnel cavity of foot towards the rear end side of separatory funnel assembly bottom, bottom at this rear side discharging opening arranges conveyor unit equally, and this conveyor unit also comprises along sagittal horizontal mounting arm and the folding arm that is articulated with this horizontal mounting arm rear end, and the axial length of this folding arm also can stretch, the discharging opening of the funnel cavity of feeding mouth in the middle of being positioned at is positioned at the centre position of separatory funnel assembly bottom and opening towards left side, bottom at this left side discharging opening also arranges conveyor unit, this conveyor unit comprises the folding arm that horizontal mounting arm and the axial length that is articulated with this horizontal mounting arm rear end also can be flexible, the front end of horizontal mounting arm is hinged on the support being fixed on described equipment pedestal herein, thereby the horizontal mounting arm at this place can be rotated in horizontal plane, while being circulated to another construction site by a construction site, rotate this horizontal mounting arm be located at equipment pedestal below, certainly first to will fold gathering with the hinged folding arm of this horizontal mounting arm, then rotating this horizontal mounting arm, make folding arm after drawing in and horizontal mounting arm be jointly placed in equipment pedestal below.In the position that is positioned at described separatory funnel assembly top, be fixedly installed a bearing support, and this bearing support can rotate in horizontal plane; Also comprise along left and right to conveyer belt three assemblies and conveyer belt four assemblies that arrange; The right-hand member of described conveyer belt four assemblies is positioned at the top of described powder funnel assembly near the position of right side vertical plane, and the left end of described conveyer belt four assemblies extends to the charging aperture top of described vibrating feed assembly; Five layers of sieve bed of material are set altogether in described vibratory sieve assembly inside; Corresponding superposed four layers of sieve bed of material, are from up to down disposed with four discharging openings at the left surface of described vibratory sieve assembly; Below the sieve bed of material of the bottom, be also provided with a discharging opening, and to being fixedly installed a horizontal mounting arm by discharging opening, at the hinged folding arm one of right-hand member of this horizontal mounting arm; Described conveyer belt three assemblies are arranged on the left surface that the top of described vibratory sieve assembly and the right-hand member of conveyer belt three assemblies extend described vibratory sieve assembly; Also comprise a conveyer belt assembly of carrying the building stones after fragmentation to use, the conveyer belt assembly that the building stones after this conveying fragmentation are used is fixedly supported upon described tie-strut and is positioned on the bearing support of described separatory funnel assembly tip position; The left end of the conveyer belt assembly that the building stones after described conveying fragmentation are used is overlapped on the below, rear end of described conveyer belt one assembly, and right-hand member is overlapped on the left end top of described conveyer belt three assemblies; The right-hand member of described conveyer belt three assemblies is movably connected on a U-shaped jib by steel wire rope one; Described vibratory sieve assembly is fixed on the upper plane of vibratory sieve assembly pedestal; Vibratory sieve assembly pedestal is quadrilateral frame shelf structure, and its left end is hinged on described equipment pedestal, and right-hand member is free end; The middle part of described vibratory sieve assembly pedestal is connected with the hydroboom that the medium position of equipment pedestal relies on left bank setting; Described vibratory sieve assembly is positioned at the opening of described U-shaped ledge, and the two ends of U-shaped jib opening is hinged on respectively the forward and backward side on the upper surface of described vibratory sieve assembly pedestal, at the middle part of two vertical arms of described U-shaped jib, establishes respectively hinge hole; Hinge hole on two vertical arms of corresponding described U-shaped jib is also hinged with respectively a support arm on the upper surface of described vibratory sieve assembly pedestal, on the hinged mouth that the free end of support arm is used for being articulated and connected on two vertical arms of the U-shaped jib corresponding with it; Three fixed pulleys are set on the crossbeam of described U-shaped jib; One end of described steel wire rope one is fixed on described equipment pedestal, and the other end is walked around successively to the back-end three fixed pulleys on described U-shaped jib crossbeam and fastens the right-hand member at described conveyer belt three assemblies from front end; The stationary links one that is rigidly connected in the lower surface of described vibratory sieve assembly pedestal, stationary links one is established reinforcement connecting rod perpendicular between the lower surface of vibratory sieve assembly pedestal and the two; Pulley is set in lower end in described stationary links one; In the lower surface of described vibratory sieve assembly pedestal near the position of the upper end of described stationary links one, be hinged with connecting rod one, one end of the free end articulated linkage two of connecting rod one, one end of the other end articulated linkage three of connecting rod two, the other end of connecting rod three is fixedly hinged and is being positioned on the horizontal mounting arm of described vibratory sieve assembly bottom; Right-hand member on the horizontal mounting arm that is positioned at described vibratory sieve assembly bottom rigidly fixes a stationary links two, and described stationary links two is upwards vertically installed in the upper surface of this horizontal mounting arm; Described stationary links two is tubular structure; Also comprise steel cable two, one end of described steel wire rope two is fixedly connected on the horizontal mounting arm that is positioned at described vibratory sieve assembly bottom, the other end is walked around the fixed pulley of described stationary links one lower end, then, through the tube chamber of described stationary links two, is finally fixed on described folding arm one; In the bottom of vibratory sieve assembly, along front and back to hinged two striker plates that arrange of symmetry, two described striker plates are all along left and right to extension, and striker plate is hung in the upper end of described stationary links one by spring; The relative front side free end of described striker plate and rear side free end form the discharging opening below the described sieve bed of material that is positioned at the bottom; In running order lower time, described hydroboom extends and described vibratory sieve assembly is propped it is tilted to the left, a discharging opening that is now positioned at topmost in four discharging openings of described vibratory sieve assembly left surface is taken the right-hand member top of putting at described conveyer belt four assemblies, and three downward discharging openings are from up to down distinguished three feeding mouths that corresponding described separatory funnel assembly right flank from up to down arranges; The free end of described support arm is connected in the hinge hole on two vertical arms of described U-shaped jib and U-shaped jib is propped, and after steel wire rope one is exceptionally straight, the right-hand member of described conveyer belt three assemblies is mentioned and described conveyer belt three assemblies are inclined upwardly in left and right; On the described mutual corresponding horizontal mounting arm of each group and folding arm, be respectively arranged with transfer tape assemble; Similarly, be also provided with transfer tape assemble being positioned on the horizontal mounting arm of described vibratory sieve assembly bottom and folding arm one; Also comprise respectively the pallet that is arranged on each supporting leg bottom with removably, the horizontal sectional area of each described pallet is at least more than 0.5 times of each described supporting leg horizontal sectional area.Horizontal mounting arm is with folding arm or folding arm one is hinged coordinates, and outside suit arranges transfer tape assemble, is used for the building stones output that falls thereon.But it should be noted that, because each folding arm and folding arm one all can regulate axial length, so the conveyer belt in the transfer tape assemble that correspondence is nested with respectively in circulation transportation is by partially folded, be transported to construction ground when in running order, by opening folding arm and folding arm, regulate in the lump their axial length, and corresponding conveyer belt is propped up completely.Whole transport process is roughly: the building stones of bulk are admitted to by the material inlet of described vibrating feed assembly, enter crushed in described disintegrating machine assembly and fallen on described conveyer belt two assemblies by the discharging opening of described disintegrating machine assembly bottom, by conveyer belt two assemblies, being transported to (conveyer belt one assembly is now by being pulled rearward out in equipment) on conveyer belt one assembly.Job readiness is pulled out supporting rod by device interior during the stage backward, also opening to rear side at the bearing support of separatory funnel upper end position, make it simultaneously and left and right to vertical plane between at right angles (during shipping situation, this bearing support along left and right to), the conveyer belt assembly that the building stones after described conveying fragmentation are used is fixedly installed on supporting rod and bearing support.By the crushed building stones in rear end of described conveyer belt one assembly, dropped on the left end of the conveyer belt assembly that the building stones after described conveying fragmentation use, and by the right-hand member of this conveyer belt assembly, be transported to the left end of described conveyer belt three assemblies, finally the right-hand member by described conveyer belt three assemblies falls in the feeding mouth of described vibratory sieve assembly.The aperture of the inner sieve bed of material arranging of described vibratory sieve assembly diminishes from top to bottom successively.The building stones of staying on the sieve bed of material of the superiors are transported to the right-hand member of described conveyer belt four assemblies by corresponding discharging opening, and by the left end of described conveyer belt four assemblies, are transported to the material inlet of described vibrating feed assembly, reenter in described disintegrating machine assembly and crush.Building stones on three layers of middle sieve bed of material are transported to accordingly successively in three material input ports on described separatory funnel assembly right flank and are transported to outside equipment.In described vibratory sieve assembly pedestal being propped by described hydroboom to the process that makes the inclination of vibratory sieve assembly, described stationary links one moves up, steel wire rope two is relaxed described folding arm one is fallen to the right gradually simultaneously, connecting rod one, the linkage unit that connecting rod two and connecting rod three form becomes extended configuration from folded state, final described folding arm one drops on bottommost to the right the conveyer belt being arranged on outside himself and the horizontal mounting arm that is articulated and connected with it is propped up, be positioned on the conveyer belt that building stones on the undermost sieve bed of material outlet by vibratory sieve assembly bottom drops on folding arm one and be transported to outside equipment.

Further, the axial wall body of each described folding arm is the tubular structure being nested with, the hinged end of described each folding arm is provided with chain drive structure, the structure of adopting screw nut driven between the axial wall body being mutually nested with of each described folding arm, and sprocket wheel is arranged on one end of leading screw.

Further, the adjusting of the vertical length of described elevating lever adopts hydraulically powered mode.

The beneficial effects of the utility model are: in the utility model, vibrating feed assembly, disintegrating machine assembly, separatory funnel assembly and vibratory sieve assembly etc. are fixed on equipment pedestal, left end at equipment pedestal arranges connecting pin simultaneously, at right-hand member, wheel is set, when this equipment is transported to another construction ground by a construction ground stream, together with connecting pin trailer is hitched with the connecting ring of trailer, running is convenient, under equipment pedestal, supporting leg is set, prop up inboard leg elevating lever is set, at equipment pedestal during in level, retraction amount is upwards arranged at the bottom of the lower surface relative wheel of supporting leg, but this retraction amount is less than the thickness of pallet, like this, elevating lever in transporting circulation process is in shortening state, the pallet that is used for being installed on supporting leg bottom is also removed, equipment pedestal is now equivalent to a car and hangs, and being installed in car, working each equipment hangs up, during preparation work, first with elevating lever, prop equipment pedestal, pallet is arranged on to the bottom of supporting leg, then the elevating lever of retracting, rely on the pallet of supporting leg and its bottom that the supporting of equipment pedestal is held up, because the horizontal sectional area of pallet is larger, so reduced the pressure that supporting produces, and make equipment pedestal under strong vibrations job state, keep stable, the hinged folding arm of related and horizontal mounting arm can shrink, and is stretched in working order time and opens, and is retracted and turns up, so provide convenience for running in operation process.In a word, the combinations such as oscillating feeder, disintegrating machine and vibratory sieve that the utility model is used site construction are installed as assembled unit and are placed on a pedestal, thereby heavy installation, dismounting flow process have in use been removed from, make to turn round more convenient, the time of preparing debug phase cost greatly reduces, and enhances productivity.

Accompanying drawing explanation

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

Fig. 2 is the status architecture schematic diagram of the vibratory sieve assembly part in the utility model while being propped up;

Structural representation when Fig. 3 forms discharging opening for two striker plates in right apparent direction are opened;

Fig. 4 is supporting leg and the structural representation of elevating lever in right apparent direction;

In figure: 1 equipment pedestal, 11 connecting pins, 12 conveyer belt one assemblies, 13 conveyer belt two assemblies, 14 supporting rods, 15 wheels, 16 supporting legs, 17 elevating levers, 2 vibrations feed assemblies, 3 disintegrating machine assemblies, separatory funnel assembly, 41 folding arms, 42 bearing supports, 5 vibratory sieve assemblies, 51 vibratory sieve assembly pedestals, 52 conveyer belt three assemblies, 53 conveyer belt four assemblies, 54U type jib, 541 fixed pulleys, 55 support arms, 56 hydrobooms, 57 striker plates, 58 springs, 6 stationary links one, 7 horizontal mounting arms, 71 folding arms one, 72 stationary links two, 81 connecting rods one, 82 connecting rods two, 83 connecting rods three, 91 steel wire ropes one, 92 steel wire ropes two, 10 control module assemblies.

The specific embodiment

For ease of understanding the technical solution of the utility model, below in conjunction with accompanying drawing, wherein related technology contents is described further.

In to description of the present utility model, it should be noted that, term " on ", orientation or the position relationship of the indication such as D score, " left side ", " right side ", " top ", " end ", " interior ", " outward ", 'fornt', 'back' be based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, rather than indicate or imply that the device of indication or element must have specific orientation, with specific orientation, construct and operation, therefore can not be interpreted as restriction of the present utility model.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and for example, can be to be fixedly connected with, and can be also to removably connect, or connect integratedly; Can be mechanical connection, can be to be also electrically connected to; Can be to be directly connected, also can indirectly be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, can concrete condition understand above-mentioned term concrete meaning in the present invention.

As shown in Figures 1 to 4,

A building stones disintegrating apparatus of being convenient to mobile operational process, comprises equipment pedestal 1, in the upper surface of described equipment pedestal 1, is fixedly installed successively from left to right vibrating feed assembly 2, disintegrating machine assembly 3, separatory funnel assembly 4 and vibratory sieve assembly 5.Described vibrating feed assembly 2, disintegrating machine assembly 3 and vibratory sieve assembly 5 etc. are existing individual equipment unit, and operation principle and technology contents mostly are known to those of ordinary skills, therefore repeat no more.

In the lower surface of described equipment pedestal 1, be fixedly installed three pairs of supporting legs 16, in the inner side of every a pair of supporting leg 16, elevating lever 17 be set respectively, the adjusting of the vertical length of described elevating lever 17 adopts hydraulically powered mode.In the bottom of equipment pedestal 1 that is positioned at 16 of two pairs of supporting legs on right side, wheel 15 being set, is three groups.On the lower surface of the left end of described equipment pedestal 1, connecting pin 11 is set.

Conveyer belt one assembly 12 is set in the support left end of described vibrating feed assembly 2, the scalable and flexible direction of the support of described conveyer belt one assembly 12 be front and back to.Corresponding conveyer belt two assemblies 13 of discharging opening of described disintegrating machine assembly 3, the output of described conveyer belt two assemblies 13 coordinates with the input overlap joint of described driving-belt one assembly 12.In the right-hand member of the support of described vibrating feed assembly 2, a supporting rod 14 is set, the pull-out direction of supporting rod 14 is fore-and-aft direction.

Described separatory funnel assembly 4 comprises three funnel cavities, and the feeding mouth of these three funnel cavities is all positioned at the right side vertical plane of separatory funnel assembly and be arranged in parallel from top to bottom.The discharging opening of funnel cavity that wherein feeding mouth is positioned at topmost is towards the front of separatory funnel assembly 4 bottoms, bottom at this front side discharging opening arranges conveyor unit, this conveyor unit comprises that the axial length of this folding arm 41 can stretch along sagittal horizontal mounting arm and the folding arm 41 that is articulated with this horizontal mounting arm front end.The discharging opening of funnel cavity that wherein feeding mouth is positioned at foot is towards the rear end side of separatory funnel assembly 4 bottoms, bottom at this rear side discharging opening arranges conveyor unit equally, and this conveyor unit also comprises along sagittal horizontal mounting arm and the folding arm 41 that is articulated with this horizontal mounting arm rear end, and the axial length of this folding arm 41 also can stretch.Wherein the discharging opening of the funnel cavity of feeding mouth in the middle of being positioned at is positioned at the centre position of separatory funnel assembly 4 bottoms and opening towards left side, bottom at this left side discharging opening also arranges conveyor unit, this conveyor unit comprises the folding arm that horizontal mounting arm and the axial length that is articulated with this horizontal mounting arm rear end also can be flexible, the front end of horizontal mounting arm herein is also hinged on the support being fixed on described equipment pedestal 1, thereby the horizontal mounting arm at this place can be rotated in horizontal plane.When being circulated to another construction site by a construction site, rotate this horizontal mounting arm can be located at equipment pedestal 1 below, certainly first to will fold gathering with the hinged folding arm of this horizontal mounting arm, then rotating this horizontal mounting arm, make folding arm after drawing in and horizontal mounting arm be jointly placed in equipment pedestal below.

In the position that is positioned at described separatory funnel assembly 4 tops, be fixedly installed a bearing support 42, and this bearing support 42 can be along circumferential rotation in horizontal plane.

The utility model also includes along left and right to conveyer belt three assemblies 52 and conveyer belt four assemblies 53 that arrange.The right-hand member of described conveyer belt four assemblies 53 is positioned at the top of described separatory funnel assembly 4 near the position of right side vertical plane, and the left end of described conveyer belt four assemblies 53 extends to the charging aperture top of described vibrating feed assembly 2.

Five layers of sieve bed of material are set altogether in described vibratory sieve assembly 5 inside.Corresponding superposed four layers of sieve bed of material, are from up to down disposed with four discharging openings at the left surface of described vibratory sieve assembly.Below the sieve bed of material of the bottom, be also provided with a discharging opening, and to being fixedly installed a horizontal mounting arm 7 by discharging opening, at the hinged folding arm 1 of right-hand member of this horizontal mounting arm 7.

Described conveyer belt three assemblies 52 are arranged on the left surface that the top of described vibratory sieve assembly 5 and the right-hand member of conveyer belt three assemblies 52 extend described vibratory sieve assembly 5.The utility model also comprises a conveyer belt assembly of carrying the building stones after fragmentation to use, and the conveyer belt assembly that the building stones after this conveying fragmentation are used is fixedly supported upon described tie-strut 14 and is positioned on the bearing support 42 of described separatory funnel assembly 4 tip positions.The left end of the conveyer belt assembly that the building stones after described conveying fragmentation are used is overlapped on the below, rear end of described conveyer belt one assembly 12, and right-hand member is overlapped on the left end top of described conveyer belt three assemblies 52.The right-hand member of described conveyer belt three assemblies 52 is movably connected on a U-shaped jib 54 by steel wire rope 1.As shown in Figure 1, Figure 2, Figure 4 shows, described vibratory sieve assembly 5 is fixed on the upper plane of vibratory sieve assembly pedestal 51, vibratory sieve assembly pedestal 51 is quadrilateral frame shelf structure, its left end is hinged on described equipment pedestal 1, right-hand member is free end, and the middle part of described vibratory sieve assembly pedestal 51 is connected with the hydroboom 56 that the medium position of equipment pedestal 1 relies on left bank setting.Described vibratory sieve assembly 5 is positioned at the opening of described U-shaped ledge 54, the two ends of U-shaped jib 54 openings is hinged on respectively the forward and backward side on the upper surface of described vibratory sieve assembly pedestal 51, hinge hole is established respectively at middle part at two vertical arms of described U-shaped jib 54, hinge hole on two vertical arms of corresponding described U-shaped jib 54, on the upper surface of described vibratory sieve assembly pedestal 51, be also hinged with respectively a support arm 55, on the hinged mouth that the free end of support arm 55 is used for being articulated and connected on two vertical arms of the U-shaped jib 54 corresponding with it.Three fixed pulleys 541 are set on the crossbeam of described U-shaped jib 54, one end of described steel wire rope 1 is fixed on described equipment pedestal 1, and the other end is walked around successively from front to back three fixed pulleys 541 on described U-shaped jib 54 crossbeams and fastened the right-hand member at described conveyer belt three assemblies 52.The stationary links 1 that is rigidly connected in the lower surface of described vibratory sieve assembly pedestal 51, stationary links 1 is established reinforcement connecting rod perpendicular between the lower surface of vibratory sieve assembly pedestal 51 and the two.Pulley is set in lower end in described stationary links 1.In the lower surface of described vibratory sieve assembly pedestal 51 near the position of the upper end of described stationary links 1, be hinged with connecting rod 1, one end of the free end articulated linkage 2 82 of connecting rod 1, one end of the other end articulated linkage 3 83 of connecting rod 2 82, the other end of connecting rod 3 83 is fixedly hinged and is being positioned on the horizontal mounting arm 7 of described vibratory sieve assembly 5 bottoms.Right-hand member on the horizontal mounting arm 7 that is positioned at described vibratory sieve assembly 5 bottoms rigidly fixes a stationary links 2 72, and described stationary links 2 72 is upwards vertically installed in the upper surface of this horizontal mounting arm 7.Described stationary links 2 72 is tubular structure.Also comprise steel cable 2 92, one end of described steel wire rope 2 92 is fixedly connected on the horizontal mounting arm 7 that is positioned at described vibratory sieve assembly 5 bottoms, the other end is walked around the fixed pulley of described stationary links one 6 lower ends, then through the tube chamber of described stationary links 2 72, be finally fixed on described folding arm 1.

As shown in Figure 2 and Figure 3, in the bottom of vibratory sieve assembly 5, along front and back to hinged two striker plates 57 that arrange of symmetry, two described striker plates 57 are all along left and right to extension, and striker plate is hung in the upper end of described stationary links 1 by spring 58; The relative front side free end of described striker plate 57 and rear side free end form the discharging opening below the described sieve bed of material that is positioned at the bottom.

In running order lower time, described hydroboom 56 extends and described vibratory sieve assembly 5 is propped it is tilted to the left, a discharging opening that is now positioned at topmost in four discharging openings of described vibratory sieve assembly 5 left surfaces is taken the right-hand member top of putting at described conveyer belt four assemblies 53, and three downward discharging openings are from up to down distinguished three feeding mouths that corresponding described separatory funnel assembly 4 right flanks from up to down arrange.The free end of described support arm 55 is connected in the hinge hole on two vertical arms of described U-shaped jib 54 and U-shaped jib 54 is propped, and after steel wire rope 1 is exceptionally straight, the right-hand member of described conveyer belt three assemblies 52 is mentioned and described conveyer belt three assemblies 52 are inclined upwardly in left and right.It will be appreciated that, make conveyer belt three assemblies 52 in left and right, be upwards placed in heeling condition be by steel wire rope 1 to due to the pulling force of its right-hand member, by regulating the position of fixed pulley 541 on described U-shaped jib 54, can change the angle of inclination.

On the described mutual corresponding horizontal mounting arm of each group and folding arm 41, be respectively arranged with transfer tape assemble.Similarly, be also provided with transfer tape assemble being positioned on the horizontal mounting arm 7 of described vibratory sieve assembly 5 bottoms and folding arm 1.But also comprising the pallet that is arranged on respectively each supporting leg 16 bottoms with removably, the horizontal sectional area of each described pallet is 1.5 times of described each supporting leg horizontal sectional area.

Horizontal mounting arm is with folding arm 41, horizontal mounting arm 7 and folding arm 1 is hinged coordinates, and outside suit arranges transfer tape assemble, is used for the building stones output that falls thereon.Horizontal mounting arm wherein, for what arrange in horizontal plane, along the horizontal mounting arm of left and right directions or fore-and-aft direction, can be even also the horizontal mounting arm of the relative left and right directions in horizontal plane or fore-and-aft direction inclination.Also it should be noted that, because each folding arm 41 and folding arm 1 all can regulate axial length, so the conveyer belt in the transfer tape assemble that correspondence is nested with respectively in circulation transportation is by partially folded, be transported to construction ground when in running order, by opening folding arm 41 and folding arm 1 and regulating their axial length, and corresponding conveyer belt is propped up completely.Whole transport process is roughly: the building stones of bulk are admitted to by the material inlet of described vibrating feed assembly 2, enter described disintegrating machine assembly 3 interior crushed and fallen on described conveyer belt two assemblies 13 by the discharging opening of described disintegrating machine assembly bottom, by conveyer belt two assemblies 13, be transported to (conveyer belt one assembly 12 is now by being pulled rearward out in equipment) on conveyer belt one assembly 12.Job readiness is pulled out supporting rod 14 by device interior during the stage backward, also opening to rear side at the bearing support 42 of separatory funnel upper end position, make it simultaneously and left and right to vertical plane between at right angles (during shipping situation, this bearing support 42 along left and right to), the conveyer belt assembly that the building stones after described conveying fragmentation are used is fixedly installed on supporting rod 14 and bearing support 42.By the crushed building stones in rear end of described conveyer belt one assembly 12, dropped on the left end of the conveyer belt assembly that the building stones after described conveying fragmentation use, and by the right-hand member of this conveyer belt assembly, be transported to the left end of described conveyer belt three assemblies 52, finally the right-hand member by described conveyer belt three assemblies 52 falls in the feeding mouth of described vibratory sieve assembly 5.The aperture of the described vibratory sieve assembly 5 inner sieve bed of materials that arrange diminishes from top to bottom successively.The building stones of staying on the sieve bed of material of the superiors are transported to the right-hand member of described conveyer belt four assemblies 53 by corresponding discharging opening, and by the left end of described conveyer belt four assemblies 53, be transported to the material inlet of described vibrating feed assembly 2, reenter the interior crushing of described disintegrating machine assembly 3.Building stones on three layers of middle sieve bed of material are transported to accordingly successively in three building stones input ports on described separatory funnel assembly 4 right flanks and are transported to outside equipment, obtain the building stones of three kinds of different size sizes.In described vibratory sieve assembly pedestal 51 being propped by described hydroboom 56 to the process that makes 5 inclinations of vibratory sieve assembly, described stationary links 1 moves up, steel wire rope 2 92 is relaxed described folding arm 1 is fallen to the right gradually simultaneously, connecting rod 1, the linkage unit that connecting rod 2 82 and connecting rod 3 83 form becomes extended configuration from folded state, final described folding arm 1 drops on bottommost to the right the conveyer belt being arranged on outside himself and the horizontal mounting arm 7 that is articulated and connected with it is propped up, be positioned on the conveyer belt that building stones on the undermost sieve bed of material outlet by vibratory sieve assembly 5 bottoms drops on folding arm 1 and be transported to outside equipment, obtain the building stones product of sand shape.

The axial wall body of each described folding arm 41 is the tubular structure being nested with, the hinged end of described each folding arm 41 is provided with chain drive structure, the structure of adopting screw nut driven between the axial wall body being mutually nested with of each described folding arm 41, sprocket wheel is arranged on one end of leading screw.By drive sprocket, rotate, drive feed screw nut action, between the axial wall body that makes to be mutually nested with, produce and relatively move, thereby realize the adjusting to folding arm 41 axial lengths.

The utility model passes through vibrating feed assembly 2, disintegrating machine assembly 3, separatory funnel assembly 4 and vibratory sieve assembly 5 etc. are fixedly placed on equipment pedestal and by a plurality of transfer tape assembles and make each several part interrelated, by the left end at equipment pedestal 1, connecting pin 11 is set and then, right rear end at equipment pedestal 1 arranges wheel 15, the means such as many group supporting legs 16 are also set simultaneously, be used for being used in conjunction with trailer, realize the needs of circulation transportation and stable operation, and make vibrating feed, the running of the equipment such as disintegrating machine and vibratory sieve is used convenient, no longer need to carry out a large amount of installations, dismantlement work, improved production efficiency.

Also need explanation be; in description of the present utility model, power unit and control module assembly 10 etc. is not described in detail; reason is; setting for this partial content; those skilled in the art can complete according to prior art or general knowledge completely, in order to be simple to the description of technology contents of the present utility model, are convenient to understand; so do not repeat, but can not therefore think the restriction to the utility model protection domain.

More than show and described basic principle of the present utility model, principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that in above-described embodiment and description, describes just illustrates principle of the present utility model; do not departing under the prerequisite of the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent replacement means thereof.

Claims (3)

1. a building stones disintegrating apparatus of being convenient to mobile operational process, is characterized in that:

Comprise equipment pedestal,

Upper surface at described equipment pedestal is fixedly installed vibrating feed assembly, disintegrating machine assembly, separatory funnel assembly and vibratory sieve assembly from left to right successively;

In the lower surface of described equipment pedestal, be at least fixedly installed three pairs of legs, in the inner side of every a pair of leg, elevating lever be set respectively;

At the equipment pedestal being positioned between two pairs of legs of the rightmost side, wheel is partly set;

Lower surface at described equipment pedestal left end arranges connecting pin;

Conveyer belt one assembly is set in the support left end of described vibrating feed assembly, the scalable and flexible direction of the support of described conveyer belt one assembly be front and back to;

Corresponding conveyer belt two assemblies of discharging opening of described disintegrating machine assembly;

The output of described conveyer belt two assemblies coordinates with the input overlap joint of described conveyer belt one assembly;

In the right-hand member of the support of described vibrating feed assembly, a supporting rod is set;

Described separatory funnel assembly comprises three funnel cavities, and the feeding mouth of these three funnel cavities is all positioned at the right side vertical plane of separatory funnel assembly and be arranged in parallel from top to bottom;

Feeding mouth is positioned at the discharging opening of funnel cavity of topmost towards the front of separatory funnel assembly bottom, bottom at this front side discharging opening arranges conveyor unit, this conveyor unit comprises that the axial length of this folding arm can stretch along sagittal horizontal mounting arm and the folding arm that is articulated with this horizontal mounting arm front end;

Feeding mouth is positioned at the discharging opening of funnel cavity of foot towards the rear end side of separatory funnel assembly bottom, bottom at this rear side discharging opening arranges conveyor unit equally, and this conveyor unit also comprises along sagittal horizontal mounting arm and the folding arm that is articulated with this horizontal mounting arm rear end, and the axial length of this folding arm also can stretch;

The discharging opening of the funnel cavity of feeding mouth in the middle of being positioned at is positioned at the centre position of separatory funnel assembly bottom and opening towards left side, bottom at this left side discharging opening also arranges conveyor unit, this conveyor unit comprises the folding arm that horizontal mounting arm and the axial length that is articulated with this horizontal mounting arm rear end also can be flexible, and the front end of horizontal mounting arm is hinged on the support being fixed on described equipment pedestal herein;

In the position that is positioned at described separatory funnel assembly top, be fixedly installed a bearing support, and this bearing support can rotate in horizontal plane;

Also comprise along left and right to conveyer belt three assemblies and conveyer belt four assemblies that arrange;

The right-hand member of described conveyer belt four assemblies is positioned at the top of described separatory funnel assembly near the position of right side vertical plane, and the left end of described conveyer belt four assemblies extends to the charging aperture top of described vibrating feed assembly;

Five layers of sieve bed of material are set altogether in described vibratory sieve assembly inside: corresponding superposed four layers of sieve bed of material, are from up to down disposed with four discharging openings at the left surface of described vibratory sieve assembly; Below the sieve bed of material of the bottom, be also provided with a discharging opening, and to being fixedly installed a horizontal mounting arm by discharging opening, at the hinged folding arm one of right-hand member of this horizontal mounting arm;

Described conveyer belt three assemblies are arranged on the left surface that the top of described vibratory sieve assembly and the right-hand member of conveyer belt three assemblies extend described vibratory sieve assembly;

Also comprise a conveyer belt assembly of carrying the building stones after fragmentation to use, the conveyer belt assembly that the building stones after this conveying fragmentation are used is fixedly supported upon described tie-strut and is positioned on the bearing support of described separatory funnel assembly tip position;

The left end of the conveyer belt assembly that the building stones after described conveying fragmentation are used is overlapped on the below, rear end of described conveyer belt one assembly, and right-hand member is overlapped on the left end top of described conveyer belt three assemblies;

The right-hand member of described conveyer belt three assemblies is movably connected on a U-shaped jib by steel wire rope one;

Described vibratory sieve assembly is fixed on the upper plane of vibratory sieve assembly pedestal;

Vibratory sieve assembly pedestal is quadrilateral frame shelf structure, and its left end is hinged on described equipment pedestal, and right-hand member is free end;

The middle part of described vibratory sieve assembly pedestal is connected with the hydroboom that the medium position of equipment pedestal relies on left bank setting;

Described vibratory sieve assembly is positioned at the opening of described U-shaped ledge, and the two ends of U-shaped jib opening is hinged on respectively the forward and backward side on the upper surface of described vibratory sieve assembly pedestal, at the middle part of two vertical arms of described U-shaped jib, establishes respectively hinge hole;

Hinge hole on two vertical arms of corresponding described U-shaped jib is also hinged with respectively a support arm on the upper surface of described vibratory sieve assembly pedestal, on the hinged mouth that the free end of support arm is used for being articulated and connected on two vertical arms of the U-shaped jib corresponding with it;

Three fixed pulleys are set on the crossbeam of described U-shaped jib;

One end of described steel wire rope one is fixed on described equipment pedestal, and the other end is walked around successively to the back-end three fixed pulleys on described U-shaped jib crossbeam and fastens the right-hand member at described conveyer belt three assemblies from front end;

The stationary links one that is rigidly connected in the lower surface of described vibratory sieve assembly pedestal, stationary links one is established reinforcement connecting rod perpendicular between the lower surface of vibratory sieve assembly pedestal and the two;

Pulley is set in lower end in described stationary links one;

In the lower surface of described vibratory sieve assembly pedestal near the position of the upper end of described stationary links one, be hinged with connecting rod one, one end of the free end articulated linkage two of connecting rod one, one end of the other end articulated linkage three of connecting rod two, the other end of connecting rod three is fixedly hinged and is being positioned on the horizontal mounting arm of described vibratory sieve assembly bottom;

Right-hand member on the horizontal mounting arm that is positioned at described vibratory sieve assembly bottom rigidly fixes a stationary links two, and described stationary links two is upwards vertically installed in the upper surface of this horizontal mounting arm;

Described stationary links two is tubular structure;

Also comprise steel cable two, one end of described steel wire rope two is fixedly connected on the horizontal mounting arm that is positioned at described vibratory sieve assembly bottom, the other end is walked around the fixed pulley of described stationary links one lower end, then, through the tube chamber of described stationary links two, is finally fixed on described folding arm one;

In the bottom of vibratory sieve assembly, along front and back to hinged two striker plates that arrange of symmetry, two described striker plates are all along left and right to extension, and striker plate is hung in the upper end of described stationary links one by spring; On two described striker plates, relative front side free end and rear side free end form the discharging opening below the described sieve bed of material that is positioned at the bottom;

In running order lower time,

Described vibratory sieve assembly is tilted to the left, in four discharging openings of described vibratory sieve assembly left surface, be positioned at a discharging opening of topmost and the right-hand member upper position of described conveyer belt four assemblies overlap joint, three downward discharging openings are from up to down distinguished three feeding mouths that corresponding described separatory funnel assembly right flank from up to down arranges;

The free end of described support arm is connected in the hinge hole on two vertical arms of described U-shaped jib and U-shaped jib is propped, and after steel wire rope one is exceptionally straight, the right-hand member of described conveyer belt three assemblies is mentioned and described conveyer belt three assemblies are inclined upwardly in left and right;

On the described mutual corresponding horizontal mounting arm of each group and folding arm, be respectively arranged with transfer tape assemble; Similarly,

Also be provided with transfer tape assemble being positioned on the horizontal mounting arm of described vibratory sieve assembly bottom and folding arm one;

Also comprise respectively the pallet that is arranged on each leg bottom with removably, the horizontal sectional area of each described pallet is at least more than 0.5 times of each described leg horizontal sectional area.

2. a kind of building stones disintegrating apparatus of being convenient to mobile operational process according to claim 1, it is characterized in that: the axial wall body of each described folding arm is the tubular structure being nested with, the hinged end of described each folding arm is provided with chain drive structure, the structure of adopting screw nut driven between the axial wall body being mutually nested with of each described folding arm, sprocket wheel is arranged on one end of leading screw.

3. a kind of building stones disintegrating apparatus of being convenient to mobile operational process according to claim 1, is characterized in that: the adjusting of the vertical length of described elevating lever adopts hydraulically powered mode.