CN201849968U - Dustless intelligent discharge device - Google Patents

Abstract

A dustless intelligent discharge device comprises a discharge funnel and a discharge gate. The discharge gate consists of a gate bracket, a gate body, an insertion board, a discharge orifice and a gate oil cylinder. The discharge funnel is connected with a lifting mechanism. A main control scale device is arranged on the lifting mechanism. A gate control device is arranged on the gate bracket. The discharge orifice is connected with a expansion joint assembly which consists of a sixth expansion joint, a fifth expansion joint, a fourth expansion joint, a third expansion joint, a second expansion joint and a first expansion joint. The first expansion joint is provided with an insertion orifice and a material slipping orifice. The insertion orifice is connected with an expansion joint locking mechanism. The material slipping orifice is connected with a bin level door mechanism. The discharge gate, the lifting mechanism and four sets of expansion joint miniature lifting mechanisms are connected with a hydraulic power mechanism. The hydraulic power mechanism, the main control scale device, the gate control device and the bin level door mechanism are connected with a programmable logic controller (PLC) automatic control system. The intelligent discharge device is dustless and has no pollution discharge. The entire processes of loading and unloading realize intelligent management, thus the labor is saved, the intelligent discharge device is simple to operate and is convenient to use and the discharge efficiency is high.

Description

Dustlessization intelligent discharging equipment

Technical field

The utility model belongs to the mine and reprints the discharge apparatus technical field, particularly relates to a kind of dustlessization intelligent discharging equipment.

Background technology

At present, the sintering plant of the broken manufacturing line in mine, smelter and the final products of pelletizing plant generally all are to be stored in the bottom earlier to be provided with in the feed bin of discharge funnel, the bottom of this discharge funnel is equipped with the discharge gate of board plug type, is equipped with transhipment transportation device (self-propelled vehicle) walking passage below this discharge gate.Entrucking, during discharging, draw back the plate of discharge gate, directly mineral aggregate is spread in the container that is discharged to self-propelled vehicle, because this series products all contains a large amount of dust, one segment distance is all arranged between the container of discharge funnel and discharge gate and carrier or locomotive, therefore in discharging, transhipment, reprint in the process of this series products, filling the air a large amount of dust in the surrounding environment, no matter be healthy to the post workman, or running environment to electromechanical appliance, very big harm is caused in the capital, and present dust collecting process mostly is by pouncing on dirt, collect, purify, dirt gas separates, process procedures such as dust discharge are formed.These dust collection methods can only be pollution abatements for above-mentioned working environment, reduce dust, can not thoroughly effect a radical cure distributing and polluting of dust, and the dust collecting process flow process are longer, safeguards that accuracy requirement is very high, greatly influences dust removing effects.The power consumption of governance process simultaneously is also very high, and maintenance workload is also very big, and the effect of its dedusting is also desirable not to the utmost.

Summary of the invention

The purpose of this utility model provides a kind of dustlessization intelligent discharging equipment, makes the material that has a large amount of dust in discharging entrucking process, and no dust distributes, and is energy-conservation, environmental protection, and also discharging, entrucking overall process realize intelligent management.

The purpose of this utility model realizes by following technical proposals:

Dustlessization intelligent discharging equipment of the present utility model, comprise that the discharge funnel that is located on the feed bin is located at the discharge gate of this discharge funnel bottom, this discharge gate is by the gate support, the gate body, plate, discharging opening and gate oil cylinder are formed, the bottom that it is characterized in that described discharge funnel is connected with a lift system, this lift system is provided with the master control scale device, described gate support is provided with the gate control setup, described gate body is provided with the little mechanism of carrying of quadruplet slip joint, described discharging opening is connected with a slip joint assembly

Described slip joint assembly is by the flexible VI joint that is connected with discharging opening on the described discharge gate, the flexible V joint of flexible therewith VI joint sliding block joint, the flexible IV joint of flexible therewith V joint sliding block joint, the flexible III joint of flexible therewith IV joint sliding block joint, the flexible II joint of flexible therewith III joint sliding block joint, the flexible I joint of flexible therewith II joint sliding block joint is formed, described flexible I joint middle part is arranged with to slip expects mouth, this slips expects that mouth is connected with material level door mechanism, the top of described flexible I joint is arranged with jack, this jack is connected with the slip joint catch gear

The little mechanism of carrying of described discharge gate, lift system and quadruplet slip joint all is connected with a hydraulic power mechanism, and this hydraulic power mechanism, master control scale device, gate control setup and material level door mechanism are connected with a PLC robot control system(RCS).

Described lift system is by the framework of captiveing joint with the bottom of described discharge funnel, be located at two guide rails on this framework, two guide rail rolling bonded assembly slippage dollies therewith, be located at two pairs of movable pulleys of this slippage dolly right-hand member, be located at described framework left end upper surface the two pairs of fixed pulleys and be located at two I track adjusting wheels of described framework lower surface, be located at two II track adjusting wheels on the described gate body, respectively with described two pairs of movable pulleys, two pairs of fixed pulleys, two I track adjusting wheels and two four steel ropes that the II track adjusting wheel is connected with a joggle, difference is the Shackle assembly of the lower end captive joint of four steel ropes therewith, one end and described framework are hinged, the other end and described slippage dolly pivotally attached elevating ram, be located at the side of described two pairs of fixed pulleys respectively, and the N sensor and the O sensor that are fixed on the framework both sides are formed, the upper end of described four steel ropes all is connected with the slippage dolly, described Shackle assembly is connected with the bottom outer surface of described flexible I joint respectively, can reach the effect of the ratio 3:1 of the hoisting depth of slip joint assembly and elevating ram extension elongation, the side of described two pairs of fixed pulleys is provided with the inductive head that is close with described N sensor and O sensor, and described N sensor is connected with described PLC robot control system(RCS) with the O sensor.

Described master control scale device is by the scale adapter plate that is fixed on the described framework, be located at the scale slideway on this scale adapter plate, the scale slide block of scale slideway sliding block joint therewith, one end is the slide bar that is connected of scale slide block therewith, be located at the sensor sensing spare on the described scale slide block, be located at the A sensor on the described scale adapter plate from left to right successively, the B sensor, the C sensor, the D sensor, the E sensor, F sensor and G sensor are formed, the other end of described slide bar is connected with described slippage dolly, described A sensor, the B sensor, the C sensor, the D sensor, the E sensor, the F sensor all is connected with described PLC robot control system(RCS) with the G sensor.

The top that described A sensor is an elevating ram (slip joint assembly terminal) sensor, described B sensor, C sensor, E sensor and F sensor are for showing the sensor of each slip joint mode of operation in the slip joint assembly, described D sensor is (standby) undetermined sensor, the terminal that described G sensor 3-10 is an elevating ram (slip joint assembly top) sensor.

Described gate control setup is by the back plate that is located on the gate support, be located at P sensor, Q sensor on this back plate, the sensor block that is located at expansion link head on the described gate oil cylinder is formed, and described P sensor, Q sensor all are connected with described PLC robot control system(RCS).

Described quadruplet is little carries the neighboring that mechanism is evenly distributed on described slip joint module outer surface.This little mechanism of carrying is by the little lancet that is located at described flexible II joint upper end, the little pivoted frame of carrying that is hinged by hinged-support and described gate body, one end is little therewith carries little oil cylinder of carrying that pivoted frame is hinged, be located at the sensor adapter plate on the described gate body, the H sensor and the I sensor that are located on this sensor adapter plate are formed, described little other end of carrying oil cylinder is hinged by hinged-support and gate body, and described little pivoted frame of carrying is provided with the roller that articulates with little lancet.

Described H sensor is that little oil cylinder of carrying stretches out the top sensor, and described I sensor is that little oil cylinder of carrying stretches out end sensor, and described H sensor, I sensor all are connected with described PLC robot control system(RCS).

Described slip joint catch gear is by the pressure-sensitive head that is located on the described gate body, be located at the pressure-sensitive pawl of this pressure-sensitive head below, the Connection Block that is hinged of pressure-sensitive pawl therewith, be located at the cable brake device on this Connection Block, the locking bolt device that is connected of cable brake device is formed therewith, and described Connection Block is fixed on the upper surface of described flexible II joint.

Described locking bolt device is by the locking bolt support that is fixed on the flexible I joint, be located at the lock bolt sleeve on this locking bolt support, the stud shaft of lock bolt sleeve sliding block joint is formed therewith, described lock bolt sleeve end is connected with described jack periphery, and described stud shaft and described flexible I joint are gone up corresponding jack sliding block joint.

Captive joint with described stud shaft with described pressure-sensitive pawl respectively in the brake cable two ends of described cable brake device.

Described material level door mechanism is by the casing that is connected with described slide material mouth periphery, be located in this casing and bin gate that the upper side frame by door pivot and described slide material mouth is hinged, the tablet that is connected of the both sides of bin gate therewith, the J sensor, the K sensor that are located on the described casing two sides are formed, and described J sensor all is connected with described PLC robot control system(RCS) with the K sensor.Described J sensor is the bin gate end sensor, and described K sensor is a bin gate top sensor.

The utlity model has following characteristics:

What 1) each slip joint in the slip joint assembly adopted is the design of flange nested type, in the discharge process, reduces the area of contact of bulk cargo and slip joint barrel like this, reduces friction loss; And also can the filling bulk cargo between slip joint, guarantee that motion is unimpeded, no catching phenomenon.

2) design of master control scale device, employing be that the fixed type proximity transducer is shown the state of kinematic motion of controlling elevating ram as scale, than traditional mechanical stroke switch, control precise and stablely, the life-span is long, and is not fragile; In addition, sensor is fixed installation, and than mobile sensor, advantage is to have avoided the isometric distance of signal cable to move damageable phenomenon, has guaranteed the sealed environment of working sensor, is difficult for being interfered and damaging.

3) material level door mechanism adopts the enclosed design of casing, sensor by both sides installation in the casing, both can realize oneself's detection, oneself's control, and realize being in sealing state all the time in whole discharge processes, really realize dustless discharge controlling level.

4) by being located at the lift system upper sensor counting and the sensor in the material level door mechanism of fixed pulley rotating cycle are controlled the detection of bin gate position, realized elevating ram intermittently used function.Because the fixed pulley circular movement has periodically, realized the fixing of each hoisting depth.So the control accuracy height, sensing is effective, and error is little.

Movable pulley, fixed pulley and track adjusting wheel and construction of wire rope design in the lift system, the ratio that has realized slip joint assembly hoisting depth and elevating ram extension elongation is 3:1, reduce the maximum extension elongation of oil cylinder, compact conformation and stable not fragile has been saved the space.

5) the little design of carrying mechanism of slip joint makes slip joint assembly fixed performance when off working state good; 4 stressed even, and it is highly little to take up room, and has the little characteristics of volume.And it is guarantee that flexible I joint at first falls when falling, and in running order.

6) design of slip joint catch gear guarantees the relative position between flexible I joint when the slip joint assembly is in working order, the flexible II joint, and then guarantees that material level door mechanism communicates with slip joint assembly inner chamber, promptly is in the may command state,

The utlity model has following advantage:

1) the utility model is the intelligent discharge specialized equipment of dump transhipment that is applied in the final products of the sintering plant of the broken manufacturing line in mine, smelter and pelletizing plant; when adopting this equipment to carry out discharge; dustless, pollution-free, actv. has been protected peripheral environment.

2) the utility model transhipment material adopts the PLC robot control system(RCS) to monitor in real time, and whole discharging, entrucking overall process are carried out intelligent management, save manpower, and simple to operate, easy to use, accelerate discharge velocity.

3) the utility model is carried out double insurance to the monitoring of critical nature, monitors a kind of state simultaneously by two or four sensors, guarantees the stable performance, reliable of this equipment, and action accurately, precision is high.

Description of drawings

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

Fig. 2 is a working state structure scheme drawing of the present utility model.

Fig. 3 is the birds-eye view of the utility model Fig. 2.

Fig. 4 is a kind of structural representation of the utility model off working state.

Fig. 5 is the another kind of structural representation of the utility model off working state.

Sequence number is represented among the figure:

1 discharge funnel; 2 lift systems; 3 master control scale devices; 4 slip joint assemblies; 5 material level door mechanisms; 6 slip joint catch gears; The little mechanism of carrying of 7 slip joints; 8 gate control setups; 9 discharge gates;

2-1 II track adjusting wheel; 2-2 I track adjusting wheel; The 2-3 framework; The 2-4 fixed pulley; 2-5 slippage dolly; The 2-6 guide rail; The 2-7 steel rope; The 2-8 movable pulley; The 2-9 Shackle assembly; The 2-10 elevating ram; The 2-11N sensor; 2-12 O sensor;

3-1 scale slideway; 3-2 scale slide block; 3-3 sensor sensing spare; The 3-4A sensor; The 3-5B sensor; The 3-6C sensor; The 3-7D sensor; The 3-8E sensor; The 3-9F sensor; The 3-10G sensor; The 3-11 slide bar; 3-12 scale adapter plate;

The flexible I joint of 4-1; The flexible II joint of 4-2; The flexible III joint of 4-3; The flexible IV joint of 4-4; The flexible V joint of 4-5; The flexible VI joint of 4-6; The 4-7 jack; 4-8 slips and expects mouth;

The 5-1 casing; The 5-2 door pivot; The 5-3 bin gate; The 5-4 tablet; The 5-5J sensor; The 5-6K sensor

6-1 pressure-sensitive head; 6-2 cable brake device; 6-3 pressure-sensitive pawl; The 6-4 Connection Block; The 6-5 brake cable; 6-6 locking bolt support, the 6-7 stud shaft; The 6-8 lock bolt sleeve,

The little lancet of 7-1; 7-2 sensor adapter plate; The little pivoted frame of carrying of 7-3; The little oil cylinder of carrying of 7-4; The 7-5 roller; The 7-6H sensor; The 7-7I sensor;

The 8-1P sensor; The 8-2 sensor block; The 8-3 back plate; The 8-4Q sensor,

9-1 gate support; The 9-2 gate oil cylinder; Plate 9-3; 9-4 gate body.

The specific embodiment

Describe the specific embodiment of the present utility model in detail below in conjunction with accompanying drawing.

As Fig. 1,2, shown in 4, dustlessization intelligent discharging equipment of the present utility model, comprise the discharge funnel 1 that is located at feed bin, be located at the discharge gate 9 of this discharge funnel 1 bottom, this discharge gate 9 is by gate support 9-1, gate body 9-4, plate 9-3, discharging opening and gate oil cylinder 9-2 form, the bottom that it is characterized in that described discharge funnel 1 is connected with a lift system 2, this lift system 2 is provided with master control scale device 3, described gate support 9-1 is provided with the gate control setup, described gate body 9-4 is provided with the little mechanism 7 of carrying of quadruplet slip joint, described discharging opening is connected with a slip joint assembly 4

Described slip joint assembly is by the flexible VI joint 4-6 that is connected with discharging opening on the described discharge gate 9, the flexible V joint 4-5 of flexible therewith VI joint 4-6 sliding block joint, the flexible IV joint 4-4 of flexible therewith V joint 4-5 sliding block joint, the flexible III joint 4-3 of flexible therewith IV joint 4-4 sliding block joint, the flexible II joint 4-2 of flexible therewith III joint 4-3 sliding block joint, the flexible I joint 4-1 of flexible therewith II joint 4-2 sliding block joint forms, described flexible I joint 4-1 middle part is arranged with to slip expects a mouthful 4-8, this slips expects that a mouthful 4-8 is connected with material level door mechanism 5, the top of described flexible I joint 4-1 is arranged with jack 4-7, this jack 4-7 is connected with slip joint catch gear 6, above-mentioned slip joint assembly 4 structures, what adopt is the flange nested type, each slip joint all is by one section solid drawn pipe, the sliding sleeve that is connected of solid drawn pipe lower end outside face therewith, the square flanged plate that outside face is connected on the solid drawn pipe is formed therewith, stretch out all after the assembling of each slip joint that to be the upper end diameter little, the turriform shape that lower end diameter is big, like this in the discharge process, reduce the area of contact of bulk cargo and slip joint barrel, reduce friction loss; In addition, can remaining bulk cargo between slip joint yet, guarantee that motion is unimpeded.

The little mechanism 7 of carrying of described discharge gate 9, lift system 2 and quadruplet slip joint all is connected with a hydraulic power mechanism, and this hydraulic power mechanism, master control scale device 3, gate control setup 8 and material level door mechanism 5 all are connected with a PLC robot control system(RCS).

As Fig. 2, shown in 3, described lift system 2 is by the framework 2-3 of captiveing joint with the bottom of described discharge funnel 1, be located at two guide rail 2-6 on this framework 2-3, two guide rail 2-6 rolling bonded assembly slippage dolly 2-5 therewith, be located at two couples of movable pulley 2-8 of this slippage dolly 2-5 right-hand member, be located at described framework 2-3 left end upper surface the two couples of fixed pulley 2-4 and be located at two I track adjusting wheel 2-2 of described framework 2-3 lower surface, be located at two II track adjusting wheel 2-1 on the described gate body, respectively with movable pulley, fixed pulley, four steel rope 2-7 that I track adjusting wheel and II track adjusting wheel are connected with a joggle, difference is the Shackle assembly 2-9 of the lower end captive joint of four steel rope 2-7 therewith, one end and described framework 2-3 are hinged, the elevating ram 2-10 that the other end and described slippage dolly are hinged, be located at the side of described two couples of fixed pulley 2-4 respectively, and the N sensor 2-11 and the O sensor 2-12 that are fixed on the framework both sides form, the upper end of described four steel rope 2-7 all is connected with slippage dolly 2-5, described Shackle assembly 2-9 is connected with the outside face of described flexible I joint respectively, elevating ram 2-10 is in case action, just drive slippage dolly 2-5 and four steel rope 2-7 move, can reach the effect of ratio 3:1 of the extension elongation of the hoisting depth of telescopic component 4 and elevating ram 2-10, save the structure arrangement space.

As shown in Figure 3, the side of described two couples of fixed pulley 2-4 is provided with the inductive head that is close with described N sensor 2-11 and O sensor 2-12, described N sensor 2-11 all is connected with described PLC robot control system(RCS) with O sensor 2-12, and this N sensor 2-11 and O sensor 2-12 carry the count signal of fixed pulley 2-4 rotating cycle to the PLC robot control system(RCS) by the response after approaching to inductive head.

As Fig. 1, shown in 2, described master control scale device 3 is by the scale adapter plate 3-12 that is fixed on the described framework 2-3, be located at the scale slideway 3-1 on this scale adapter plate 3-12, the scale slide block 3-2 of scale slideway 3-1 sliding block joint therewith, one end is the slide bar 3-11 that is connected of scale slide block 3-2 therewith, be located at the sensor sensing spare 3-3 on the described scale slide block 3-2, be located at the A sensor 3-4 on the described scale adapter plate from left to right successively, B sensor 3-5, C sensor 3-6, D sensor 3-7, E sensor 3-8, F sensor 3-9 and G sensor 3-10 form, the other end of described slide bar 3-11 is connected with described slippage dolly 2-5,, described A sensor, the B sensor, the C sensor, the D sensor, the E sensor, the F sensor all is connected with described PLC robot control system(RCS) with the G sensor.

Coasting speed and the coasting distance of described scale slide block 3-2 on scale slideway 3-1 is consistent with cylinder bar stretching speed and the flexible stroke of described elevating ram 2-10, be close by a sensor in sensor sensing spare 3-3 and above-mentioned seven sensors, detect the forced stroke and the mode of operation of slip joint assembly 4.

As shown in Figure 2, the top that described A sensor 3-4 is an elevating ram (slip joint assembly terminal) sensor, slip joint assembly 4 is in the range state at this moment; Described B sensor 3-5, C sensor 3-6, E sensor 3-8 and F sensor 3-9 are for showing the sensor of each slip joint mode of operation in the slip joint assembly, described D sensor 3-7 is (standby) undetermined sensor, be used to have the occasion of special charging requirement, the terminal that described G sensor 3-10 is an elevating ram (slip joint assembly top) sensor, slip joint assembly 4 is in the minimum stroke state at this moment.

Distance between A sensor on the described master control scale device 3, B sensor, C sensor, E sensor, F sensor are adjacent with the G sensor becomes the 1:3 proportionate relationship with the flexible stroke of each slip joint.

As shown in Figure 1, 2, described gate control setup 8 is by the back plate 8-3 that is located on the gate support 9-1, be located at P sensor 8-1, Q sensor 8-4 on this back plate 8-3, the sensor block 8-2 that is located at the last expansion link head of described gate oil cylinder 9-2 forms, described P sensor 8-1 all is connected with described PLC robot control system(RCS) with Q sensor 8-4, the open and close state of above-mentioned P sensor 8-1 and Q sensor 8-4 monitoring discharge gate, and the open and close state fed back to the PLC robot control system(RCS), assign next step action command by the PLC robot control system(RCS) then.

As shown in Figure 1, 2, described quadruplet slip joint is little carries the neighboring that mechanism 7 is evenly arranged in described slip joint module outer surface.

As Fig. 3, shown in 4, the little mechanism of carrying of every suit slip joint is by the little lancet 7-1 on the square flanged plate that is located on the described flexible II joint, the little pivoted frame 7-3 that carries that is hinged by hinged-support and described gate body 9-4, one end is little therewith carries little oil cylinder 7-4 that carries that pivoted frame 7-3 is hinged, be located at the sensor adapter plate 7-2 on the described gate body 9-4, the H sensor 7-6 and the I sensor 7-7 that are located on this sensor adapter plate 7-2 form, described little other end of carrying oil cylinder 7-4 is hinged by hinged-support and gate body 9-4, and described little pivoted frame 7-3 that carries is provided with the roller 7-5 that articulates with little lancet 7-1.

Above-mentioned little oil cylinder 7-4 that carries goes up and little pivoted frame 7-3 pivotally attached hinged-support conduct and H sensor 7-6 or approaching induction pieces of I sensor 7-7 simultaneously carried, and is approaching with its side and sensor, and then sensor 7-6 or I sensor 7-7 are responded, and sends signal.

As shown in Figure 3, described H sensor 7-6 is that little oil cylinder of carrying stretches out the top sensor, and described I sensor 7-7 is that little oil cylinder of carrying stretches out end sensor, and described H sensor 7-6, I sensor 7-7 all are connected with described PLC robot control system(RCS).

Shown in Fig. 1,4, described slip joint catch gear 6 is by a pressure-sensitive 6-1 who is located on the described gate body 9-4, be located at the pressure-sensitive pawl 6-3 of this pressure-sensitive 6-1 below, the Connection Block 6-4 that is hinged of pressure-sensitive pawl 6-3 therewith, be located at the cable brake device 6-2 on this Connection Block 6-4, the locking bolt device that is connected of cable brake device 6-2 is formed therewith, and described Connection Block 6-4 is fixed on the upper surface of flexible II joint.

As shown in Figure 4, described locking bolt device is by the locking bolt support 6-6 that is fixed on the flexible I joint, be located at the lock bolt sleeve 6-8 on this locking bolt support 6-6, the stud shaft 6-7 of lock bolt sleeve 6-8 sliding block joint forms therewith, captive joint with described jack 4-7 periphery in described lock bolt sleeve 6-8 end, described stud shaft 6-7 and described flexible I joint are gone up corresponding jack 4-7 sliding block joint.

Captive joint with described stud shaft 6-7 with described pressure-sensitive pawl 6-3 respectively in the brake cable 6-5 two ends of described cable brake device 6-2.

As shown in Figure 4, when the slip joint assembly rises to pressure-sensitive pawl 6-3 and does not contact with a pressure-sensitive 6-1 by joint, stud shaft 6-7 passes jack 4-7 always, the relative position of the flexible I joint and the II joint that stretches is fixed, if slip joint continues to rise, a pressure-sensitive 6-1 will depress pressure-sensitive pawl 6-3, force pressure-sensitive pawl 6-3 to rotate, thereby drive cable brake device 6-2 action, the stud shaft 6-7 that withdraws simultaneously can slide the flexible relatively II joint of flexible I joint.

Shown in Fig. 1,2,4,5, described material level door mechanism 5 is by the casing 5-1 that is connected with described slide material mouth 4-8 periphery, be located in this casing 5-1 and bin gate 5-3 that the upper side frame by door pivot 5-2 and described slide material mouth 4-8 is hinged, the tablet 5-4 that is connected of the both sides of bin gate 5-3 therewith, the J sensor 5-5, the K sensor 5-6 that are located at respectively on the described casing 5-1 two sides form, and described J sensor 5-5 all is connected with described PLC robot control system(RCS) with K sensor 5-6.

Described J sensor 5-5 is the bin gate end sensor, and described K sensor 5-6 is a bin gate top sensor, and bin gate top sensor and bin gate end sensor are that the center differs 45 with the door pivot ^oThe angle arranges that the material level in flexible I joint rises, and bulk cargo is stacked into to be opened bin gate, rotate to 45 ^oThe time, J sensor 5-5(bin gate end sensor) signal to the PLC robot control system(RCS).

Working process of the present utility model is:

Slip joint whereabouts task program:

1), the PLC robot control system(RCS) assigns slip joint and falls after the instruction G sensor 3-10(elevating ram end sensor on the master control scale device) become colorless by yellow, elevating ram 2-10 begins to regain.(annotate: yellow is a sensor responsive operation state, colourless be responsive state not)

2), when the slide block on elevating ram 2-10 withdrawal, the master control scale device arrives the F sensor, the F sensor is by the colourless yellow that becomes, show that flexible I joint 4-1 whereabouts stroke puts in place also in running order, at this moment, pressure-sensitive pawl 6-3 leaves a pressure-sensitive 6-1, stud shaft 6-7 passes jack 4-7 and is abutted against mutually with flexible II joint bottom, the PLC robot control system(RCS) is sent halt instruction to elevating ram, four little oil cylinder 7-4 that carry start working simultaneously, I sensor (little oil cylinder of carrying stretches out end sensor) is become colorless by yellow, shows that little oil cylinder 7-4 that carries has left and stretches out terminal location.

3), little carrying drives little pivoted frame 7-3 conter clockwise commentaries on classics of proposing when oil cylinder 7-4 regains, when turning to H sensor (little oil cylinder of carrying stretches out the top sensor) by colourless when becoming yellow, show that little oil cylinder 7-4 that carries has been in the position, top of stretching out, the PLC robot control system(RCS) is sent instruction then, orders little oil cylinder 7-4 that carries to quit work; Elevating ram 2-10 continues to regain; Slip joint assembly 4 continues to fall.

4), continue in the dropping process at slip joint assembly 4, sensor sensing spare 3-3 on the master control scale triggers F sensor, E sensor, C sensor B sensor successively, cooresponding display lamp also lights yellow successively, can monitor the location status of whereabouts so constantly, if unusual generation is arranged, maintenance in time, adjustment.At last, when A sensor 3-4 display lamp lights yellow, show that slip joint assembly whereabouts range finishes, the PLC robot control system(RCS) is sent elevating ram 2-10 and is stopped to regain instruction.

The slip joint discharge promotes task program:

1), assign discharge instruction, the gate oil cylinder 9-2 of discharge gate begins to regain, the Q sensor is become colorless by yellow.When gate oil cylinder 9-2 is recovered to the P sensor by colourless when becoming yellow, gate oil cylinder 9-2 stops withdrawal work, illustrates that discharge gate 9 has been opened to the maximum discharging limit, and mineral aggregate begins discharging.

2), when material level reaches design value in slip joint assembly 4 inner chambers, bin gate 5-3 is opened gradually, K sensor 5-6 is become colorless by yellow, the expression bin gate is opened.When becoming yellow, illustrate that bin gate 5-3 is in open limit by colourless when bin gate 5-3 turns to J sensor 5-5 around door pivot 5-2, PLC robot control system(RCS) commander elevating ram begins to stretch out; Slip joint assembly 4 begins to rise.

3), along with the rising of slip joint assembly 4, material level in the slip joint assembly 4 descends relatively, bin gate 5-3 begins revolution, K sensor 5-6 is become colorless by yellow, illustrate that bin gate 5-3 leaves the end position of unlatching, when J sensor 5-5 by colourless when becoming yellow, bin gate 5-3 gets back to original position, J sensor 5-5 is once more by the colourless yellow that becomes.

4), when the material level in the slip joint assembly 4 reaches design value again, will repeat 2), 3) bar instruction.Finish until entrucking.

The slip joint assembly is fixed (off working state):

After discharging stopped, elevating ram continued to stretch out; A pressure-sensitive 6-1 moves closer to and depresses pressure-sensitive pawl 6-3; Pressure-sensitive pawl 6-3 clickwise; Cable brake device 6-2 action; Stud shaft 6-7 draws back in the jack; Flexible I joint rises; G sensor (end sensor of elevating ram) after putting in place on the master control scale device 3 becomes yellow, and the PLC robot control system(RCS) is sent little oil cylinder 7-4 that carries and stretched out instruction; Little oil cylinder 7-4 that carries stretches out; Little pivoted frame 7-3 that carries clockwise rotates; Little roller 7-5 that carries on the pivoted frame 7-3 articulates with the little lancet 7-1 that is positioned at the top; Whole slip joint assembly is fixed after arriving minimum constructive height.The slip joint state as shown in Figure 5 at this moment.

When adopting the utility model equipment to carry out discharge, dustless, pollution-free, whole discharging, entrucking overall process are carried out intelligent management, save manpower, and it is simple to operate, easy to use, accelerate discharge velocity, be the intelligent discharge ideal equipment of dump transhipment of the final products of the sintering plant of the broken manufacturing line in mine, smelter and pelletizing plant.

Claims (7)

1. dustlessization intelligent discharging equipment, comprise the discharge funnel that is located on the feed bin, be located at the discharge gate of this discharge funnel bottom, this discharge gate is by the gate support, the gate body, plate, discharging opening and gate oil cylinder are formed, the bottom that it is characterized in that described discharge funnel is connected with a lift system, this lift system is provided with the master control scale device, described gate support is provided with the gate control setup, described gate body is provided with the little mechanism of carrying of quadruplet slip joint, described discharging opening is connected with a slip joint assembly

Described slip joint assembly is by the flexible VI joint that is connected with discharging opening on the described discharge gate, the flexible V joint of flexible therewith VI joint sliding block joint, the flexible IV joint of flexible therewith V joint sliding block joint, the flexible III joint of flexible therewith IV joint sliding block joint, the flexible II joint of flexible therewith III joint sliding block joint, the flexible I joint of flexible therewith II joint sliding block joint is formed, described flexible I joint middle part is arranged with to slip expects mouth, this slips expects that mouth is connected with material level door mechanism, the top of described flexible I joint is arranged with jack, this jack is connected with the slip joint catch gear

The little mechanism of carrying of described discharge gate, lift system and quadruplet slip joint all is connected with a hydraulic power mechanism, and this hydraulic power mechanism, master control scale device, gate control setup and material level door mechanism are connected with a PLC robot control system(RCS).

2. dustlessization intelligent discharging equipment according to claim 1, it is characterized in that described lift system is by the framework of captiveing joint with the bottom of described discharge funnel, be located at two guide rails on this framework, two guide rail rolling bonded assembly slippage dollies therewith, be located at two pairs of movable pulleys of this slippage dolly right-hand member, be located at described framework left end upper surface the two pairs of fixed pulleys and be located at two I track adjusting wheels of described framework lower surface, be located at two II track adjusting wheels on the described gate body, respectively with described two pairs of movable pulleys, two pairs of fixed pulleys, two I track adjusting wheels and two four steel ropes that the II track adjusting wheel is connected with a joggle, difference is the Shackle assembly of the lower end captive joint of four steel ropes therewith, one end and described framework are hinged, the other end and described slippage dolly pivotally attached elevating ram, be located at the side of described two pairs of fixed pulleys respectively, and the N sensor and the O sensor that are fixed on the framework both sides are formed, the upper end of described four steel ropes all is connected with the slippage dolly, described Shackle assembly is connected with described flexible I joint outside face respectively, the side of described two pairs of fixed pulleys is provided with the inductive head that is close with described N sensor and O sensor, and described N sensor all is connected with described PLC robot control system(RCS) with the O sensor.

3. dustlessization intelligent discharging equipment according to claim 1 and 2, it is characterized in that described master control scale device is by the scale adapter plate that is fixed on the described framework, be located at the scale slideway on this scale adapter plate, the scale slide block of scale slideway sliding block joint therewith, one end is the slide bar that is connected of scale slide block therewith, be located at the sensor sensing spare on the described scale slide block, be located at the A sensor on the described scale adapter plate from left to right successively, the B sensor, the C sensor, the D sensor, the E sensor, F sensor and G sensor are formed, the other end of described slide bar is connected with described slippage dolly

Described A sensor, B sensor, C sensor, D sensor, E sensor, F sensor and G sensor all are connected with described PLC robot control system(RCS).

4. dustlessization intelligent discharging equipment according to claim 1, it is characterized in that described gate control setup is by the back plate that is located on the gate support, be located at P sensor, Q sensor on this back plate, the sensor block that is located at expansion link head on the described gate oil cylinder is formed, and described P sensor, Q sensor all are connected with described PLC robot control system(RCS).

5. dustlessization intelligent discharging equipment according to claim 1, it is characterized in that the little mechanism of carrying of described quadruplet slip joint is evenly distributed in the neighboring that described flexible VI saves, the little mechanism of carrying of this slip joint is by the little lancet that is located at described flexible II joint upper end, compare the little pivoted frame of carrying that connects by hinged-support and described gate body, one end is little therewith carries little oil cylinder of carrying that pivoted frame is hinged, be located at the sensor adapter plate on the described gate body, the H sensor and the I sensor that are located on this sensor adapter plate are formed, described little other end of carrying oil cylinder is hinged by hinged-support and gate body, described little pivoted frame of carrying is provided with the roller that articulates with little lancet, described H sensor, the I sensor all is connected with described PLC robot control system(RCS).

6. dustlessization intelligent discharging equipment according to claim 1, it is characterized in that described slip joint catch gear is by the pressure-sensitive head that is located on the described gate body, be located at the pressure-sensitive pawl of this pressure-sensitive head below, the pressure-sensitive pawl is compared the Connection Block that connects therewith, be located at the cable brake device on this Connection Block, the locking bolt device that is connected of cable brake device is formed therewith, and described Connection Block is fixed on the upper surface on the described flexible II joint

Described locking bolt device is by the locking bolt support that is fixed on the described flexible I joint, be located at the lock bolt sleeve on this locking bolt support, the stud shaft of lock bolt sleeve sliding block joint is formed therewith, described lock bolt sleeve end is connected with described jack periphery, described stud shaft and described flexible I joint are gone up corresponding jack sliding block joint

Captive joint with described stud shaft with described pressure-sensitive pawl respectively in the brake cable two ends of described cable brake device.

7. dustlessization intelligent discharging equipment according to claim 1, it is characterized in that described material level door mechanism is by the casing that is connected with described slide material mouth periphery, be located in this casing and bin gate that the upper side frame by door pivot and described slide material mouth is hinged, the tablet that is connected of the both sides of bin gate therewith, the J sensor, the K sensor that are located on the described casing two sides are formed, and described J sensor all is connected with described PLC robot control system(RCS) with the K sensor.

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