CN201653142U

CN201653142U - Energy-saving continuous operation type inclined surface sintering machine

Info

Publication number: CN201653142U
Application number: CN2010201722642U
Authority: CN
Inventors: 张健
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-04-28
Filing date: 2010-04-28
Publication date: 2010-11-24
Anticipated expiration: 2020-04-28

Abstract

The utility model relates to an energy-saving continuous operation type inclined surface sintering machine which is characterized in that a trolley track is aslant arranged in such a manner that a feeding end is high, and an ore removal end is low. A damping mechanism and a quick feeding mechanism are arranged at the tail part of a sintering machine body; trolley limiting mechanisms are arranged between the head part and the tail part of the trolley track and at the tail part of the trolley track; guiding grooves are respectively formed on supports under two chain wheel groups of a machine head chain type conveying device and a machine tail chain type conveying device; machine head plate turnover mechanisms are discontinuously and transversely arranged between a left chain and a right chain of the machine head chain type conveying device; machine tail plate turnover mechanisms are discontinuously and transversely arranged between a left chain and a right chain of the machine tail chain type conveying device; a trolley return track consists of a vehicle sliding section with a low front part and a high rear part, a climbing section with a high front part and a low rear part and a vehicle conveying section with a low front part and a high rear part; a windlass mechanism is arranged under the climbing section of the trolley return track; and reverse stoppers are uniformly arranged on a support frame under the climbing section. The energy-saving continuous operation type inclined surface sintering machine has the advantages of good energy-saving effect, low air leakage rate and easy realization of large-scale equipment.

Description

Energy-saving continuous operation inclined plane sintering machine

Technical field

The utility model belongs to smelting industry agglomerating plant technical field, particularly a kind of energy-saving continuous operation inclined plane sintering machine.

Background technology

When smelting industry carries out SINTERING PRODUCTION, need configuration sintering machine main equipment.Current trend continuous pallettype sintering machine, circular travelling sintering machine, step-by-step movement plane sintering machine arranged, the production cost of continuous pallettype sintering machine is low, technical indicator is good, the production of maximizing, but input cost is big when just building, the construction period is long, the maintenance cost height.The circular travelling sintering machine investment is bigger, the production cost height, and index is bad, and the production of can't maximizing is eliminated gradually.The step-by-step movement plane sintering machine construction period is short, less investment, and instant effect quite is subjected to the welcome of medium and small iron and steel enterprise.But operating cost is very high, is mainly reflected in and can not produces continuously, stop when changeing during production line, and the chassis handover mode of its head, tail is the mode that goes and back running of single vehicular that holding time is longer, has limited the speed-raising of flat burning machine and the expansion of area.It is many to leak out between each chassis of sintering machine body, and technical indicator and energy consumption index all do not reach requirement.The sintering industry development is to today, and energy resource consumption is more and more, therefore presses for a kind of construction period weak point, less investment, instant effect, operating cost is low, technical indicator good, the sintering machine of the production of maximizing is realized energy-conservation production.

Summary of the invention

The purpose of this utility model provides a kind of capable of reducing energy consumption, realization quantity-produced energy-saving continuous operation inclined plane sintering machine.

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

A kind of energy-saving continuous operation inclined plane sintering machine of the present utility model, comprise the sintering machine body, head chain delivery device, tail chain delivery device, the chassis retrieval system, be located at the driving mechanism of described sintering machine body head, chassis, described chassis retrieval system comprises support, be located at the chassis return trajectory on this support, be located at the hoisting mechanism of this chassis return trajectory below, the trailer wagon that is connected of hoisting mechanism therewith, it is characterized in that described trolley track is the feed end height, ore removal end low dip is provided with, be provided with damping mechanism at described sintering machine body afterbody, on the bearing block of the power transmission shaft Partner of described driving mechanism and damping mechanism, be equipped with micro-adjusting mechanism, be provided with at the afterbody of described sintering machine body and advance mechanism of car fast, head at described trolley track, reach afterbody between the afterbody and be provided with the chassis position-limit mechanism, on the bearing below two chain wheel set of described head chain delivery device and tail chain delivery device, be respectively equipped with gathering sill, both sides at described head chain delivery device and tail chain delivery device are respectively equipped with one group of strainer, left side at described head chain delivery device, be interrupted between right two chains and laterally be provided with the head panel turnover mechanism, left side at described tail chain delivery device, be interrupted between right two chains and laterally be provided with the tail panel turnover mechanism, described chassis return trajectory is by low early and high after slide car section, the low climbing section in preceding high back that the car section of slipping therewith is connected, the low early and high after car section of sending that climbing section therewith is connected is formed, described hoisting mechanism is arranged on the below of the climbing section of described chassis return trajectory, on the support below this climbing section, evenly be provided with reverse backstop apparatus, the driving wheel of described driving mechanism and the damping wheel of damping mechanism all with the axletree of described chassis on, axle sleeve near the wheel place is abutted against mutually.The unload spacing hydraulic cylinder of hydraulic cylinder and chassis position-limit mechanism of the tail that the tail that advances car hydraulic cylinder, tail chain delivery device fast that the head of described head chain delivery device unloads hydraulic cylinder, advance mechanism of car fast unloads ore deposit hydraulic cylinder, tail chain delivery device all is connected with automatic control system.

The angle of the basic plane of described trolley track and described sintering machine body is 0.5-15 °.

Evenly be provided with star-wheel on the circumference of the driving wheel of described driving mechanism, this star-wheel is abutted against mutually with the wheel of described chassis.

Evenly be provided with star-wheel on the circumference of the damping wheel of described damping mechanism, the output of the power transmission shaft of described damping mechanism is provided with speed increaser, and the generator output of speed increaser therewith is connected.

Described advance fast mechanism of car have be located at sintering machine body afterbody advance the car hydraulic cylinder fast, the driving lever that the car hydraulic cylinder is connected, the bottom is hinged by bearing pin and the driving lever bearing that is located at sintering machine body afterbody is advanced at the middle part therewith fast, by the bearing pin V-arrangement shift fork that is hinged of the top of driving lever therewith, the downside of this V-arrangement shift fork is provided with counterweight.

Described head panel turnover mechanism comprises left support abutment and the right support abutment that is located on the described left and right chain, be located at head between the described left and right chain hydraulic cylinder of unloading, lower surface is provided with down the trapezoidal turnover panel that arcs of recesses contiguous block, two ends are equipped with directive wheel, the right-hand member of this trapezoidal turnover panel is hinged by bearing pin and described right support abutment, and be abutted against mutually on the unload hydraulic stem top of hydraulic cylinder of the following cancave cambered surface of described down arcs of recesses contiguous block and described head.

Described tail panel turnover mechanism comprises a described left side, left support abutment on the right chain and right support abutment, be located at a described left side, tail between the right chain unloads the ore deposit hydraulic cylinder, the tail that is located at the right side of the described right support abutment hydraulic cylinder of unloading, two ends be provided with directive wheel and by bearing pin respectively with a described left side, the turnover panel that right support abutment is hinged, described turnover panel is provided with down the sweep that unloads that carrier bar that arcs of recesses contiguous block and right-hand member and described right support abutment be hinged and left end and described left support abutment be hinged by lower surface and forms, the described sweep that unloads is by upper straight-plate, upper surface is that the declined board on inclined-plane and upper surface that an end is the circular arc and the other end are the inclined-plane, lower surface is provided with down linkage section three parts of cancave cambered surface and forms

Described chassis position-limit mechanism is horizontal position-limit mechanism or vertical position-limit mechanism, described horizontal position-limit mechanism by be located on the sintering machine body and spacing hydraulic cylinder that the top of hydraulic stem is provided with trapezoidal contact block and lower surface therewith the limited block that is abutted against mutually of the inclined-plane of trapezoidal contact block form, described limited block is by falling trapezoid block, one end falls therewith that trapezoid block is connected and downward-sloping piece handle two parts constitute, the other end of this piece handle is hinged by bearing pin and the horizontal spacing bearing that is located at described sintering machine body, described vertical position-limit mechanism by be located on the sintering machine body spacing hydraulic cylinder and lower surface therewith the limited block that is abutted against mutually of the hydraulic stem top of spacing hydraulic cylinder form, described limited block is by rectangular block, one end rectangular block therewith is connected and downward-sloping piece handle two parts formation, and the other end of this piece handle is hinged by bearing pin and the vertical spacing bearing that is located at described sintering machine body.

Described gathering sill is by flat segments, two semicircle segmental arc three parts being connected of the two ends of flat segments constitute therewith.

Described reverse backstop apparatus is the reverse backstop apparatus of V-arrangement, and the bottom of the reverse backstop apparatus of this V-arrangement is hinged by the support of bearing pin and described chassis retrieval system.

The characteristics that energy-saving continuous operation inclined plane sintering machine of the present utility model has are:

1, the trolley track of sintering machine body is obliquely installed by certain angle, its feed end height, and the ore removal end is low.When chassis moves, under the effect of deadweight, strengthened the power that runs to afterbody from sintering machine body head on this track, made the driving mechanism load low, power consumption is few, has also reduced the configuration of driving mechanism, makes sintering machine possess the quantity-produced ability.

When 2, chassis runs to sintering machine body afterbody, under the effect of damping mechanism, make chassis be subjected to the resistance opposite with traffic direction, chassis makes be abutted against between the chassis tightr under the acting in conjunction of power and resistance, guaranteed the sealing between the chassis.

3, damping mechanism can change into electric energy by speed increaser and generator with resistance, is recycled, and reaches purpose of energy saving.

4, the Partner at the power transmission shaft of driving mechanism and damping mechanism is equipped with micro-adjusting mechanism,, can adjust the sideslip of chassis effectively.

5, at the head of trolley track, the chassis position-limit mechanism that is provided with between the afterbody, can fixedly install, also can be provided with temporarily, its spacing hydraulic cylinder also can manual operation.For advantage has been created in accident treatment and maintenance.

6, sintering machine body aft mounted advances mechanism of car fast, pushes the chassis that leaves tail seal and break away from speed adjusting gear control to tail chain delivery device apace, for advantage has been created in running continuously.

7, substituted head with simple head panel turnover mechanism and moved mechanism of car, the tail overturning mechanism and the tail that get final product replace complex with simple tail panel turnover mechanism move mechanism of car, have simplified the setting of equipment greatly, reduce floor space, reduce production costs.

8, the slide car section of chassis return trajectory is utilized the deadweight of chassis, makes chassis reach the purpose of slide car, has shortened the time that chassis returns, and has also saved and has led the car device.

9, the hoisting mechanism of chassis retrieval system is located at the below of climbing section, and the distance of this climbing section is short, can apace chassis be delivered to the parking stall.

The utility model equipment is simple, making, installation period weak point, and operating cost is low, good energy-conserving effect, the equipment air leak rate of air curtain is low, and online production can be carried out the chassis replacing, and organization of production is convenient, meets or exceeds the technical merit of band burning fully.Be easy to realize comprehensive automation control.Also be easy to the maximization of the equipment of realizing.The version of energy-saving continuous operation inclined plane sintering machine of the present utility model also is fit to cooler.

Description of drawings

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

Fig. 2 is the A-A view of Fig. 1.

Fig. 3 is the B-B view of Fig. 1.

Fig. 4 is the C-C view of Fig. 1.

Fig. 5 is the structural representation of vertical position-limit mechanism.

Fig. 6 is the structural representation of horizontal position-limit mechanism.

Fig. 7 is the structural representation of reverse backstop apparatus.

The specific embodiment

Given embodiment further specifies the specific embodiment of the present utility model below in conjunction with accompanying drawing.

As Fig. 1, Fig. 2, Fig. 3, shown in Figure 4, a kind of energy-saving continuous operation inclined plane sintering machine of the present utility model, comprise sintering machine body 8, head chain delivery device 4, tail chain delivery device 13, the chassis retrieval system, be located at the driving mechanism 5 of described sintering machine body head, chassis 1, described chassis retrieval system comprises support, be located at the chassis return trajectory 32 on this support, be located at the hoisting mechanism 17 of these chassis return trajectory 32 belows, the trailer wagon 18 that is connected of hoisting mechanism 17 therewith, it is characterized in that described trolley track 21 is the feed end height, ore removal end low dip is provided with, be provided with damping mechanism 12 at described sintering machine body 8 afterbodys, on the bearing block of the power transmission shaft Partner of described driving mechanism 5 and damping mechanism 12, be equipped with micro-adjusting mechanism 7, be provided with at the afterbody of described sintering machine body 8 and advance mechanism of car fast, head at described trolley track 21, reach afterbody between the afterbody and be provided with the chassis position-limit mechanism, on the bearing below two chain wheel set of described head chain delivery device 4 and tail chain delivery device 13, be respectively equipped with gathering sill 31, both sides at described head chain delivery device 4 and tail chain delivery device 13 are respectively equipped with one group of strainer 34, left side at described head chain delivery device 4, be interrupted between right two chains and laterally be provided with the head panel turnover mechanism, left side at described tail chain delivery device 13, be interrupted between right two chains and laterally be provided with the tail panel turnover mechanism, described chassis return trajectory 32 is by low early and high after slide car section 32-3, the preceding high low climbing section 32-2 in back that the car section 32-3 that slips therewith is connected, the low early and high after car section 32-1 that send that the 32-2 of climbing section therewith is connected forms, described hoisting mechanism 17 is arranged on the below of the climbing section 32-2 of described chassis return trajectory 32, on the support below this climbing section 32-2, evenly be provided with reverse backstop apparatus 33, the damping wheel of the driving wheel of described driving mechanism 5 and damping mechanism 12 all with the axletree of described chassis 1 on, axle sleeve near the wheel place is abutted against mutually.Unload spacing hydraulic cylinder 27, the 22-2 of hydraulic cylinder 16 and chassis position-limit mechanism of the tail that the tail that advances car hydraulic cylinder 25, tail chain delivery device 13 fast that the head of described head chain delivery device 4 unloads hydraulic cylinder 3, advance mechanism of car fast unloads ore deposit hydraulic cylinder 14, tail chain delivery device 13 all is connected with automatic control system.

Described trolley track 21 is 0.5-15 ° with the angle of the basic plane of described sintering machine body 8.This kind angle more helps the operation of chassis.

Evenly be provided with star-wheel on the circumference of the driving wheel of described driving mechanism 5, this star-wheel is abutted against mutually with the wheel of described chassis 1.This structure is laborsaving, helps the driving of driving mechanism.

Evenly be provided with star-wheel on the circumference of the damping wheel of described damping mechanism 12, the output of the power transmission shaft 11 of described damping mechanism 12 is provided with speed increaser 10, and generator 9 output of speed increaser 10 therewith is connected.This damping mechanism 12 can change into electric energy by speed increaser 10 and generator 9 with resistance, is recycled, and reaches purpose of energy saving.

Described advance fast mechanism of car have be located at sintering machine body 8 afterbodys advance car hydraulic cylinder 25 fast, the driving lever 24 that car hydraulic cylinder 25 is connected, the bottom is hinged by bearing pin and the driving lever bearing that is located at sintering machine body 8 afterbodys is advanced at the middle part therewith fast, by the bearing pin V-arrangement shift fork 23 that is hinged of the top of driving lever 24 therewith, the downside of this V-arrangement shift fork 23 is provided with counterweight.This advances the chassis that mechanism of car will leave tail seal and break away from damping mechanism control fast and pushes tail chain delivery device 13 apace to, for advantage has been created in running continuously.

Described head panel turnover mechanism comprises left support abutment and the right support abutment 19 that is located on the described left and right chain, be located at head between the described left and right chain hydraulic cylinder 3 of unloading, lower surface is provided with down the trapezoidal turnover panel 2 that arcs of recesses contiguous block, two ends are equipped with directive wheel 30, the right-hand member of this trapezoidal turnover panel 2 is hinged by bearing pin and described right support abutment 19, and be abutted against mutually on the unload hydraulic stem top of hydraulic cylinder 3 of the following cancave cambered surface of described down arcs of recesses contiguous block and described head.Substitute head with this simple head panel turnover mechanism and moved mechanism of car, reduced auxiliary equipment, reduced production cost.

Described tail panel turnover mechanism comprises a described left side, left support abutment 28 on the right chain and right support abutment 29, be located at a described left side, tail between the right chain unloads ore deposit hydraulic cylinder 14, the tail that is located at the right side of described right support abutment 29 hydraulic cylinder 16 of unloading, two ends be provided with directive wheel 30 and by bearing pin respectively with a described left side, the turnover panel that right support abutment is hinged, described turnover panel 15 is provided with down the sweep 15-2 that unloads that carrier bar 15-1 that arcs of recesses contiguous block and right-hand member and described right support abutment 29 be hinged and left end and described left support abutment 28 be hinged by lower surface and forms, the described sweep 15-2 that unloads is by upper straight-plate, upper surface is that the declined board on inclined-plane and upper surface that an end is the circular arc and the other end are the inclined-plane, lower surface is provided with down linkage section three parts of cancave cambered surface and forms, the tail overturning mechanism and the tail that get final product replace complex with this simple tail panel turnover mechanism move mechanism of car, simplified the setting of equipment greatly, reduce floor space, reduce production costs.

As Fig. 5, shown in Figure 6, described chassis position-limit mechanism is horizontal position-limit mechanism or vertical position-limit mechanism, described horizontal position-limit mechanism by be located on the sintering machine body 8 and spacing hydraulic cylinder 22-2 that the top of hydraulic stem is provided with trapezoidal contact block and lower surface therewith the limited block 22-1 that is abutted against mutually of the inclined-plane of trapezoidal contact block form, described limited block 22-1 is by falling trapezoid block, one end falls therewith that trapezoid block is connected and downward-sloping piece handle two parts constitute, the other end of this piece handle is hinged by bearing pin and the horizontal spacing bearing that is located at described sintering machine body 8, described vertical position-limit mechanism is made up of with the limited block 26 that be abutted against mutually on the hydraulic stem top of the spacing therewith hydraulic cylinder 27 of lower surface the spacing hydraulic cylinder 27 that is located on the sintering machine body 8, described limited block 26 is by rectangular block, one end rectangular block therewith is connected and downward-sloping piece handle two parts formation, and the other end of this piece handle is hinged by bearing pin and the vertical spacing bearing that is located at described sintering machine body 8.This chassis position-limit mechanism can fixedly install, and also can be provided with temporarily, and its spacing hydraulic cylinder also can manually be controlled, for advantage has been created in accident treatment and maintenance.

Described gathering sill 31 is by flat segments, two semicircle segmental arc three parts being connected of the two ends of flat segments constitute therewith.This gathering sill can guarantee the panel turnover mechanism even running.

As shown in Figure 7, described reverse backstop apparatus 33 is the reverse backstop apparatus 33-1 of V-arrangement, and the bottom of the reverse backstop apparatus 33-1 of this V-arrangement is hinged by the support of bearing pin 33-2 and described chassis retrieval system.This reverse backstop apparatus can prevent the chassis landslide effectively.

6 is the decelerator of driving mechanism among the figure, and 20 is chain.

The operation principle of energy-saving continuous operation inclined plane sintering machine of the present utility model is:

When the driving wheel of driving mechanism 5 rotates, driving wheel promotes chassis 1 and moves ahead with the afterbody of certain speed to sintering machine body 8, the damping wheel of damping mechanism 12 rotates chassis 1 is produced certain resistance, chassis 1 is under the acting in conjunction of power and resistance, that is abutted against between the chassis is tightr, has guaranteed the sealing between the chassis.For reducing air leak rate of air curtain, sintering machine created advantage.Chassis 1 passes through the grate-layer material device successively, distribution device, and head seal, the igniter starting point is burnt knot, through all bellows, arrives tail seal again, finishes sintering process, enters damping mechanism 12.

When chassis 1 sideslip, adjust the micro-adjusting mechanism 7 of driving mechanism 5 and damping mechanism 12, can adjust the sideslip of chassis 1 effectively.

When chassis leaves damping mechanism 12, touch limit switch, the car hydraulic cylinder 25 that advances fast that advances mechanism of car fast obtains starting behind the signal, driving driving lever 24 moves to the caudal directions of sintering machine body 8, the wheel that the V-arrangement shift fork 23 at driving lever 24 tops promotes chassis 1 rolls forward fast, chassis 1 is shifted onto rapidly on the tail chain delivery device 13, and V-arrangement shift fork 23 at this moment returns to original position under the effect of counterweight.Simultaneously, the vertical spacing hydraulic cylinder 27 that is located at tail starts, and with limited block 26 jack-up, has stoped the chassis of back to move ahead, and prevents that chassis is strayed into afterbody.When tail chain delivery device 13 is finished overturning, moves, unloaded, after the reposition, obtain vertical spacing hydraulic cylinder 27 returns of tail of signal, drive limited block 26 and fall after rise.

The tail of tail chain delivery device 13 unloads ore deposit hydraulic cylinder 14 and obtains starting behind the signal, and with turnover panel jack-up, turnover panel serves as the axle rotation with the right support abutment 29 of chain, and chassis 1 is dug and unloaded the ore deposit, and turnover panel resets then, drives chassis 1 and gets back on the track of tail chain delivery device 13.When the chain 20 of tail chain delivery device 13 is sent to chassis return trajectory 32, the tail hydraulic cylinder 16 of unloading obtains signal enabling, jack-up is unloaded sweep 15-2, unloading sweep 15-2 serves as the axle rotation with the left support abutment 28 of chain, send unloading chassis on the sweep 15-2 into the slide car section 32-3 of chassis return trajectory 32, the tail hydraulic cylinder 16 of unloading resets then, drives to unload sweep 15-2 and reset.It is shorter than the time that chassis of sintering machine advances to return the total time that connects the parking stall again.

Chassis 1 enters slide car section 32-3, and deadweight is slipped car to slide car section 32-3 lower by chassis, by trailer wagon 18 chassis is delivered to car section 32-1 successively again, and chassis is again by sending the car section to slip into head chain delivery device 4.

Head chain delivery device 4 is delivered to the head of sintering machine body 8 with chassis, and the head hydraulic cylinder 3 of unloading obtains starting behind the signal, and the trapezoidal turnover panel 2 of jack-up head panel turnover mechanism serves as the axle rotation with the right support abutment 19 of chain, and chassis is sent into trolley track.Head chain delivery device 4 is finished and is connect car, moves, unloads, total time of reposition is shorter than the time that chassis of sintering machine advances, the chassis 1 that unloads from head chain delivery device 4 is under the effect of deadweight, slide to the front chassis, and near the piece chassis of going forward, enter the working range of driving mechanism 5 successively, finish once circulation, realized continuous production.

When the chassis between 21 of trolley tracks, the tail 1 needed maintenance or handling failure, the chassis position-limit mechanism started the operation of prevention chassis, ensures carrying out smoothly of maintenance or handling failure work.

The utility model equipment is simple, making, installation period weak point, and operating cost is low, good energy-conserving effect, the equipment air leak rate of air curtain is low, and online production can be carried out the chassis replacing, and organization of production is convenient, is easy to realize comprehensive automation control.Also be easy to the maximization of the equipment of realizing.The version of energy-saving continuous operation inclined plane sintering machine of the present utility model also is fit to cooler.

Claims

1. energy-saving continuous operation inclined plane sintering machine, comprise the sintering machine body, head chain delivery device, tail chain delivery device, the chassis retrieval system, be located at the driving mechanism of described sintering machine body head, chassis, described chassis retrieval system comprises support, be located at the chassis return trajectory on this support, be located at the hoisting mechanism of this chassis return trajectory below, the trailer wagon that is connected of hoisting mechanism therewith, it is characterized in that described trolley track is the feed end height, ore removal end low dip is provided with, be provided with damping mechanism at described sintering machine body afterbody, on the bearing block of the power transmission shaft Partner of described driving mechanism and damping mechanism, be equipped with micro-adjusting mechanism, be provided with at the afterbody of described sintering machine body and advance mechanism of car fast, head at described trolley track, reach afterbody between the afterbody and be provided with the chassis position-limit mechanism, on the bearing below two chain wheel set of described head chain delivery device and tail chain delivery device, be respectively equipped with gathering sill, both sides at described head chain delivery device and tail chain delivery device are respectively equipped with one group of strainer, left side at described head chain delivery device, be interrupted between right two chains and laterally be provided with the head panel turnover mechanism, left side at described tail chain delivery device, be interrupted between right two chains and laterally be provided with the tail panel turnover mechanism, described chassis return trajectory is by low early and high after slide car section, the low climbing section in preceding high back that the car section of slipping therewith is connected, the low early and high after car section of sending that climbing section therewith is connected is formed, described hoisting mechanism is arranged on the below of the climbing section of described chassis return trajectory, on the support below this climbing section, evenly be provided with reverse backstop apparatus, the driving wheel of described driving mechanism and the damping wheel of damping mechanism all with the axletree of described chassis on, be abutted against the head of the described head chain delivery device hydraulic cylinder of unloading mutually near the axle sleeve at wheel place, that advances mechanism of car fast advances the car hydraulic cylinder fast, the tail of tail chain delivery device unloads the ore deposit hydraulic cylinder, the unload spacing hydraulic cylinder of hydraulic cylinder and chassis position-limit mechanism of the tail of tail chain delivery device all is connected with automatic control system.

2. energy-saving continuous operation inclined plane sintering machine according to claim 1, the angle that it is characterized in that the basic plane of described trolley track and described sintering machine body is 0.5-15 °.

3. energy-saving continuous operation inclined plane sintering machine according to claim 1 is characterized in that evenly being provided with star-wheel on the circumference of driving wheel of described driving mechanism, and this star-wheel is abutted against mutually with the wheel of described chassis.

4. energy-saving continuous operation inclined plane sintering machine according to claim 1, it is characterized in that evenly being provided with star-wheel on the circumference of damping wheel of described damping mechanism, the output of the power transmission shaft of described damping mechanism is provided with speed increaser, and the generator output of speed increaser therewith is connected.

5. energy-saving continuous operation inclined plane sintering machine according to claim 1, it is characterized in that described advance fast mechanism of car have be located at sintering machine body afterbody advance the car hydraulic cylinder fast, the driving lever that the car hydraulic cylinder is connected, the bottom is hinged by bearing pin and the driving lever bearing that is located at sintering machine body afterbody is advanced at the middle part therewith fast, by the bearing pin V-arrangement shift fork that is hinged of the top of driving lever therewith, the downside of this V-arrangement shift fork is provided with counterweight.

6. energy-saving continuous operation inclined plane sintering machine according to claim 1, it is characterized in that described head panel turnover mechanism comprises left support abutment and the right support abutment that is located on the described left and right chain, be located at head between the described left and right chain hydraulic cylinder of unloading, lower surface is provided with down the trapezoidal turnover panel that arcs of recesses contiguous block, two ends are equipped with directive wheel, the right-hand member of this trapezoidal turnover panel is hinged by bearing pin and described right support abutment, and be abutted against mutually on the unload hydraulic stem top of hydraulic cylinder of the following cancave cambered surface of described down arcs of recesses contiguous block and described head.

7. energy-saving continuous operation inclined plane sintering machine according to claim 1, it is characterized in that described tail panel turnover mechanism comprises a described left side, left support abutment on the right chain and right support abutment, be located at a described left side, tail between the right chain unloads the ore deposit hydraulic cylinder, the tail that is located at the right side of the described right support abutment hydraulic cylinder of unloading, two ends be provided with directive wheel and by bearing pin respectively with a described left side, the turnover panel that right support abutment is hinged, described turnover panel is provided with down the sweep that unloads that carrier bar that arcs of recesses contiguous block and right-hand member and described right support abutment be hinged and left end and described left support abutment be hinged by lower surface to be formed, and the described sweep that unloads is by upper straight-plate, upper surface is that the declined board on inclined-plane and upper surface that an end is the circular arc and the other end are the inclined-plane, lower surface is provided with down linkage section three parts of cancave cambered surface and forms.

8. energy-saving continuous operation inclined plane sintering machine according to claim 1, it is characterized in that described chassis position-limit mechanism is horizontal position-limit mechanism or vertical position-limit mechanism, described horizontal position-limit mechanism by be located on the sintering machine body and spacing hydraulic cylinder that the top of hydraulic stem is provided with trapezoidal contact block and lower surface therewith the limited block that is abutted against mutually of the inclined-plane of trapezoidal contact block form, described limited block is by falling trapezoid block, one end falls therewith that trapezoid block is connected and downward-sloping piece handle two parts constitute, the other end of this piece handle is hinged by bearing pin and the horizontal spacing bearing that is located at described sintering machine body, described vertical position-limit mechanism by be located on the sintering machine body spacing hydraulic cylinder and lower surface therewith the limited block that is abutted against mutually of the hydraulic stem top of spacing hydraulic cylinder form, described limited block is by rectangular block, one end rectangular block therewith is connected and downward-sloping piece handle two parts formation, and the other end of this piece handle is hinged by bearing pin and the vertical spacing bearing that is located at described sintering machine body.

9. energy-saving continuous operation inclined plane sintering machine according to claim 1 is characterized in that described gathering sill is by flat segments, two semicircle segmental arc three parts being connected of the two ends of flat segments constitute therewith.

10. energy-saving continuous operation inclined plane sintering machine according to claim 1 is characterized in that described reverse backstop apparatus is the reverse backstop apparatus of V-arrangement, and the bottom of the reverse backstop apparatus of this V-arrangement and the support of described chassis retrieval system are hinged.