CN203064219U - Full-automatic micro-powder packing and compacting machine - Google Patents

Abstract

The utility model provides a full-automatic micro-powder packing and compacting machine. The machine comprises a charging bucket for holding micro-powder, a bucket-in track, a bucket-in conveyer belt connected with the bucket-in track, a bucket-in cylinder arranged perpendicular to the bucket-in conveyer belt, a packing and compacting device, a bucket-out track parallel with the bucket-in track, and a bucket pick-up cylinder arranged on the same horizontal line as the bucket-out track, and is characterized in that the packing and compacting device is positioned between the bucket-in track and the bucket-out track; and the packing and compacting device comprises a main body framework provided with both cross beams and side beams, a bucket supporting mechanism fixed on a first cross beam of the main body framework, a charging bucket positioning mechanism arranged at the upper end of the bucket supporting mechanism, a charging bucket check plate fixed on a second cross beam of the main body framework, a quantitative packing mechanism fixed on the upper surface of the charging bucket check plate, and a compacting mechanism fixed on a third cross beam of the main body framework. The full-automatic micro-powder packing and compacting machine completely replaces workers to pack and compact micro-powder, thereby improving working efficiency.

Description

The full automaticity micro mist is loaded compacting machine

Technical field

The utility model relates to the machinery of compacting micro mist, refers to full automaticity micro mist filling compacting machine especially.

Background technology

Because the lithium ion battery negative material of China is just to begin the new technique of putting into serial production after 2000, its production technology and equipment exist very big adjustment and scarcity, and the tinning operation is exactly that the high-purity micropowder after being mixed is filled in the pottery of definite shape (cylinder or square) or the graphite material container and with the micro mist compacting.Micro mist must load consolidation and get rid of in the micro mist heap air as far as possible (air content plays decisive role to lithium ion negative pole material production quality in the micro mist, generally require oxygen content less than 10ppm), air content is represented by the compacted density coefficient in the micro mist heap, the compacted density coefficient is greater than 1.4, and must not there be foreign matter to sneak in the filling process, particularly impurity such as metal, organic salt.

The tinning operation of lithium ion battery negative material production process is finished by hand by the people fully at present.Concrete operation method is: with containers such as spoons micro mist is contained in pottery or the graphite material container earlier, again with manpower with its compacting.This technical scheme exists shortcoming as follows:

A. loss of material is big, and manual operation can be trickled down material unavoidably; B. material pollute uncontrollable, as people's in summer sweat (organic salt), dust etc.; C. the degree of packing is uncontrollable, because manpower differs greatly; D. inefficiency; E. environmental pollution is big, because the material of filling and compacting is micro mist, manual operation causes micro mist to spray pollution control air environment easily.

The utility model content

The utility model proposes a kind of full automaticity micro mist and load compacting machine, solved the inefficient problem of micro mist tinning in the prior art.

The technical solution of the utility model is achieved in that the batch can that comprises for the splendid attire micro mist, goes into a jar track, with described go into that jar track is connected go into a jar load-transfer device, with described go into jar load-transfer device vertically disposed go into jar cylinder, filling compaction device, with described go into that jar track parallels go out a jar track, go out jar track and on same horizon, get a jar cylinder with described, it is characterized in that: described filling compaction device is gone into jar track and is describedly gone out between jar track described; Described filling compaction device comprises the main body frame that is provided with crossbeam and curb girder, be fixed on holder jar mechanism on described main body frame first crossbeam, be located at described holder jar mechanism upper end a batch can detent mechanism, be fixed on batch can check plate on described main body frame second crossbeam, be fixed on described batch can check plate upper surface quantitative filling body, be fixed on the system for compacting on described main body frame the 3rd crossbeam.

As optimized technical scheme, also comprise the electric-control system that is connected with described filling compaction device, described electric-control system comprises hydraulic pressure automatic control circuit, hydraulic manual control circuit, pneumatic element automatic or manual control circuit, warning circuit.

As optimized technical scheme, described holder jar mechanism comprises a holder jar hydraulic actuating cylinder, and described holder jar hydraulic actuating cylinder is fixed on described main body frame first crossbeam by screw; Holder jar dish pedestal, described holder jar dish pedestal are fixed on the described holder jar hydraulic cylinder piston rod head; The guiding pole socket, described guiding pole socket is by being bolted on described main body frame first crossbeam; Be fixed on first pilot bar on the described guiding pole socket, an end of described first pilot bar is fixed on the holder jar dish pedestal; Holder jar Advance plate, described holder jar Advance plate are fixed on the holder jar dish pedestal.

As optimized technical scheme, described batch can detent mechanism comprises the nest pedestal, and described nest pedestal is by being bolted to the back side of described batch can check plate; Nest, described nest are fixed on the described nest pedestal; Positioning cylinder, described positioning cylinder are fixed on the described nest, are used for driving described nest forward or reverse.

As further preferred, 12 bearing rod screws are installed evenly on the axial section of described nest; Described bearing rod screw upper end is equipped with antifriction-bearing box; Described antifriction-bearing box is flush-mounted on the described nest pedestal.

As optimized technical scheme, described quantitative filling body comprises quantitative hydraulic actuating cylinder, and described quantitative hydraulic actuating cylinder is by being bolted on described main body frame first curb girder; Plate, described plate is connected with described quantitative hydraulic actuating cylinder; Be fixed on the quantitative circle in described batch can check plate front by screw, described quantitative circle is provided with the sliding rail of being convenient to described plate linear reciprocating motion; The plate lower cover is fixed on described main body frame second crossbeam by screw; The plate upper cover plate with the corresponding setting of described plate lower cover, is fixed on described main body frame second crossbeam by screw.

As further preferred, the cavity height between described plate upper cover plate and the described plate lower cover is described plate thickness; Described cavity is connected with described sliding rail.

As optimized technical scheme, described system for compacting comprises main hydraulic cylinder, and described main hydraulic cylinder is fixed on described main body frame the 3rd crossbeam by screw; Binder block, described binder block is connected with described main hydraulic cylinder; Charging basket, described charging basket is fixed on the described quantitative circle by screw; Pneumatic hammer, described pneumatic hammer are fixed on the sidewall of described charging basket; Be fixed on charging basket cover plate on the described charging basket by screw, described charging basket cover plate is provided with deflation hole and inlet point.

As optimized technical scheme, the upper surface of described holder jar Advance plate is bonded with and reduces described batch can and the described silica gel plate that contacts firmly between jar Advance plate that holds in the palm.

The utility model adopts mechanical part, hydraulic gear, air pressure mechanism, appliance circuit to match and complete, and has overcome all shortcomings of prior art scheme, and concrete advantage is as follows:

1, flexible and convenient operation, saving are artificial.

(1) this equipment not only can substitute the filling compacting of manually carrying out micro mist fully, has also improved work efficiency greatly.Manually finish the micro mist of 1 batch can and load compacting operation, the skilled labor generally needs 7-8 minute, and the micro mist filling compacting that this utility model equipment is finished onesize batch can only needed get final product in 4-5 minute.

(2) this equipment flexible and convenient operation is applied widely.The amount of filler of this equipment, number of machine passes, compacting tight ness rating (compaction force) can be regulated arbitrarily, can satisfy the filling compacting requirement of different qualities micro mist.When this equipment is regulated, only need to get final product in direct relevant electrical equipment adjusted in intuitive display, easy to operate flexible.This utility model equipment through overtesting to granularity D50 less than 0.5 millimeter, the free accumulation degree less than 40 the degree powders all can effectively load compacting, applied widely.

(3) this device security is reliable.This utility model equipment is provided with overload alarm and overload alarm prompting to each movable parts.This equipment also is provided with alarm to micro mist charge amount in the charging basket.During each the warning not only red rotation alarm lamp do not stop rotation and sound the alarm simultaneously, can effectively remind operating personal; Can also effectively cut off device power supply (DPS), the support equipment safe in operation by relevant electrical equipment.

2, product quality is effectively ensured.

(1) uses this utility model equipment effectively to reduce the people and contact material, avoid artificial pollution and the pollutions of other foreign material such as people's sweat.

(2) parts that contact with micro mist of this utility model equipment adopt non-metal or corrosion-resistant steel to make, and actv. has reduced participating in of in filling compaction process trace meter, has guaranteed the requirement of micro mist to the metal micro content.

(3) after each filling compaction parameter of this utility model equipment was set up, the filling consolidation effect of product was consistent, and had guaranteed the conformability of product filling compacting quality.

3, improve working environment.

The action of this equipment filling compaction is to finish in the confined space that parts such as batch can, charging basket, quantitative circle constitute, and a small amount of gas that produces is discharged behind filter cloth bag filtration, can not cause any pollution to environment, comparing with present working environment has had very big improvement.

Description of drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is that the utility model full automaticity micro mist is loaded the compacting machine schematic perspective view;

Fig. 2 goes into a jar track structure scheme drawing for the utility model;

Fig. 3 goes into a jar conveyer belt structure scheme drawing for the utility model;

Fig. 4 goes into a jar structural representation of air cylinder for the utility model;

Fig. 5 is the utility model holder jar mechanism structure scheme drawing;

Fig. 6 is the utility model batch can detent mechanism assembling scheme drawing;

Fig. 7 is the quantitative filling body of the utility model and system for compacting assembling scheme drawing;

Fig. 8 is the quantitative filling body of the utility model and system for compacting structural representation;

Fig. 9 gets a jar equipment needed thereby scheme drawing for the utility model.

Among the figure: 1-goes into a jar track; 101-concave tracks groove; 102-rolling multi-directional ball; The 103-track support; The 104-spike; 2-goes into a jar load-transfer device; The 201-bracing frame; The 202-buncher; The 203-belt conveyor; The 204-lift block; The 205-bump rubber; 3-goes into a jar cylinder; The 301-cylinder; 302-stroke collision block; 303-guide-localization bar; 304-cuts somebody's hair; 305-guide-localization bar supporting seat; The 306-travel switch; 307-cylinder support; The 4-main body frame; 401-main body frame first crossbeam; 402-main body frame second crossbeam; 403-main body frame the 3rd crossbeam; 404-main body frame first curb girder; 501-holder jar hydraulic actuating cylinder; 502-first pilot bar; The 503-pole socket that leads; 504-holder jar dish pedestal; 505-first spring; The 506-setting nut; 507-second pilot bar; 508-holder jar Advance plate; The 509-silica gel plate; 510-spring radius stay; The 601-positioning cylinder; 602-bar head spring perch; The 603-screw rod; The 604-nest; 605-guide rod fixed cover bearing; 606-guide rod fixed cover; The 607-guide bar receiver; The 608-guide rod; 609-second spring; The 610-spring perch; 611-bearing rod screw; 612-nest pedestal; 7-batch can check plate; 801-plate lower cover; The quantitative hydraulic actuating cylinder of 802-; The 803-plate; 804-quantitatively encloses; 805-plate upper cover plate; The 806-charging basket; The 807-pneumatic hammer; The 808-binder block; 809-charging basket cover plate; 810-exhaust filter bag; The 811-inlet point; The 812-main hydraulic cylinder; The 9-batch can; 10-gets a jar cylinder; 11-goes out a jar track.

The specific embodiment

Below in conjunction with the accompanying drawing among the utility model embodiment, the technical scheme among the utility model embodiment is clearly and completely described, obviously, described embodiment only is the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that obtains under the creative work prerequisite, all belong to the scope of the utility model protection.

As shown in Figure 1, 2, the full automaticity micro mist load compacting machine comprise batch can 9 for the high-purity micropowder of splendid attire, go into jar track 1, with go into that jar track 1 is connected go into jar load-transfer device 2, with go into jar load-transfer device 2 vertically disposed go into jar cylinder 3, filling compaction device, with go into that jar track 1 parallels go out jar track 11, and go out jar track 11 and on same horizon, get jar cylinder 10, the filling compaction device is being gone into jar track 1 and is being gone out between jar track 11; The filling compaction device comprises the main body frame 4 that is provided with crossbeam and curb girder, be fixed on holder jar mechanism on main body frame first crossbeam 401, be located at holder jar mechanism upper end a batch can detent mechanism, be fixed on batch can check plate 7 on main body frame second crossbeam 402, be fixed on batch can check plate 7 upper surfaces quantitative filling body, be fixed on the system for compacting on main body frame the 3rd crossbeam 403.Go into jar track 1 and be used for placing and carrying empty batch can 9, going into jar track 1 comprises concave tracks groove 101, is fixed on universal rolling ball 102 on the concave tracks groove 101, is fixed on the track support 103 of concave tracks groove 101 lower ends, concave tracks groove 101 is angled with level ground, this set is convenient to batch can 9 and is slided to into jar load-transfer device 2,102 pairs of batch cans 9 of universal rolling ball play a supportive role, make batch can 9 resistance when sphere slides little, the adjustable feet 104 that is used for regulating height has been installed in the lower end of track support 103.

As shown in Figure 3; go into jar load-transfer device 2 and comprise bracing frame 201; be fixed on the belt conveyor 203 of bracing frame 201 upper ends; be used for batch can 9 is risen to the lift block 204 of belt conveyor 203 upper surfaces; buncher 202; lift block 204 is fixed on the outside face of belt conveyor 203; buncher 202 is fixed on the side of bracing frame 201; with go into jar cylinder 3 in the same side; go into jar load-transfer device 2 and go into the end that jar track 1 is connected and be provided with bump rubber 205; be used for reducing batch can 9 and slide the impulsive force that produces from going into jar track 1; protection batch can 9 does not damage, and batch can 9 numbers that rise to belt conveyor 203 upper surfaces are played restriction.

As shown in Figure 4, go into that jar cylinder 3 comprises cylinder support 307, is fixed on the cylinder 301 of cylinder support 307 upper ends, circular-arc fork-shaped is cut somebody's hair 304, guide-localization bar 303, cut somebody's hair and 304 be fixed on the piston rod head of cylinder 301 by screw, the utility model guide-localization bar 303 has 2, be fixed on 304 both sides of cutting somebody's hair, 304 rotations prevent from cutting somebody's hair.Be with guide-localization bar supporting seat 305 on the guide-localization bar 303, guide-localization bar supporting seat 305 is fixed on the cylinder support 307 by screw, go into jar cylinder 3 and also comprise travel switch 306, the stroke collision block 302 of controlling 3 moving displacements of cutting somebody's hair, travel switch 306 is fixed on the side of cylinder support 307, and stroke collision block 302 is fixed on the guide-localization bar 303 with travel switch 306 sides adjacent by screw.

As shown in Figure 5, a holder jar mechanism comprises holder jar hydraulic actuating cylinder 501, and a holder jar hydraulic actuating cylinder 501 is fixed on main body frame first crossbeam 401 by screw; Holder jar dish pedestal 504, a holder jar dish pedestal 504 is fixed on holder jar hydraulic actuating cylinder 501 piston rod heads; Guiding pole socket 503, guiding pole socket 503 is by being bolted on main body frame first crossbeam 401; An end that is fixed on first pilot bar, 502, the first pilot bars 502 on the guiding pole socket 503 is fixed on the holder jar dish pedestal 504; Holder jar Advance plate 508, a holder jar Advance plate 508 are fixed on the holder jar dish pedestal 504.The upper surface of holder jar Advance plate 508 is bonded with and reduces batch can 9 and hold in the palm the silica gel plate 509 that contacts firmly between jar Advance plate 508.A holder jar dish pedestal 504 also is provided with Advance plate knock hole, spring base hole, and a holder jar Advance plate 508 is fixed on the trustship dish pedestal 504 by second pilot bar 507.Second pilot bar 507 can be free to slide in the Advance plate knock hole, thereby realizes holder jar Advance plate 508 up-and-down movements.On the holder jar Advance plate 508 four spring radius stays 510 are installed evenly, a holder jar dish pedestal 504 is provided with spring decides four spring eyes that guide rod 510 matches, be used for installing first spring 505, the elastic displacement of first spring 505 is by setting nut 506 controls of its bottom, and the bearing capacity that holder jar Advance plate 508 makes progress is determined by the elastic force of first spring 505.

As shown in Figure 6, the batch can detent mechanism comprises nest pedestal 612, and nest pedestal 612 is by being bolted to the back side of batch can check plate 7; Nest 604, nest 604 are fixed on the described nest pedestal 612; Positioning cylinder 601, positioning cylinder 601 are fixed on the nest 604, are used for driving nest 604 forward or reverse.On the nest 604 axial sections 12 bearing rod screws 611 are installed evenly; Bearing rod screw 611 upper ends are equipped with antifriction-bearing box; Antifriction-bearing box is flush-mounted on the nest pedestal 612, and nest pedestal 612 has become two concentric circless on same axis with nest 604 after the installation.The batch can detent mechanism is used for batch can 9 in holder jar Advance plate 508 location, realizes that batch can mouth and charging basket mouth align.The batch can detent mechanism also comprises many guide rods 608, the utility model is four guide rods 608, guide rod 608 is fixed as transmission integral body with guide bar receiver 607, guide rod fixed cover 606 that next-door neighbour's guide rod 608 arranges, the top of guide rod fixed cover 606 is equipped with guide rod fixed cover bearing 605 by bearing, guide rod fixed cover bearing 605 is fixed on the inboard of nest 604 by screw rod 603, guide bar receiver 607 by bearing fixing on nest pedestal 612.During nest 604 rotations, four guide rods 608 slide simultaneously, and the circular batch can 9 that is positioned on the holder jar Advance plate 508 is pushed into holder jar Advance plate 508 positive centers from four quadrant nodes.Nest 604 outsides fixedly have bar head spring perch 602, spring perch 610 respectively with the screw rod 603 on 90 ° of directions, bar head spring perch 602 is connected with spring perch 610 by second spring 609, bar head spring perch 602 is connected with the piston rod head of positioning cylinder 601, the forward and backward of nest 604 is released by positioning cylinder 601 piston rods or is return realization, and the forward and backward of nest 604 can realize the clamping of batch can 9 and unclamp.

As Fig. 7, shown in Figure 8, quantitatively filling body comprises quantitative hydraulic actuating cylinder 802, and quantitatively hydraulic actuating cylinder 802 is by being bolted on main body frame first curb girder 404; Plate 803, plate 803 is connected with quantitative hydraulic actuating cylinder 802; Be fixed on the quantitative circle 804 in batch can check plate 7 fronts by screw, quantitatively enclose 804 and be provided with the sliding rail of being convenient to plate 803 linear reciprocating motions; Plate lower cover 801 is fixed on main body frame second crossbeam 402 by screw; Plate upper cover plate 805 with the 801 corresponding settings of plate lower cover, is fixed on described main body frame second crossbeam 402 by screw.Cavity height between plate upper cover plate 805 and the plate lower cover 801 is plate 803 thickness; Cavity is connected with sliding rail.

As Fig. 7, shown in Figure 8, system for compacting comprises main hydraulic cylinder 812, and main hydraulic cylinder 812 is fixed on main body frame the 3rd crossbeam 403 by screw; Binder block 808, binder block 808 is connected with main hydraulic cylinder 812, drives the realization of binder block 808 up-and-down movements to the compacting of micro mist by main hydraulic cylinder 812 piston rods; Charging basket 806, charging basket 806 is fixed on the quantitative circle 804 by screw; Pneumatic hammer 807, pneumatic hammer 807 are fixed on the sidewall of charging basket 806; Be fixed on charging basket cover plate 809 on the charging basket 806 by screw, charging basket cover plate 809 is provided with deflation hole and inlet point 811, and binding has exhaust filter bag 810 on the deflation hole.

As shown in Figure 9, the structure that goes out jar track 11 is with to go into jar track 1 the same, but go out jar track 11 and do not have degree of dip, the batch can 9 that filling compaction is finished pushes away batch can 9 to going out on jar track 11 from a holder jar Advance plate 508 by going into jar cylinder 3, get jar cylinder 10 and promote batch can 9 to the desired location along going out jar track 11 directions, in order to be that the next batch can that enters out jar track 11 is vacated the position.

The full automaticity micro mist is loaded compacting machine and is also comprised the electric-control system that is connected with the filling compaction device, and electric-control system comprises hydraulic pressure automatic control circuit, hydraulic manual control circuit, pneumatic element automatic or manual control circuit, warning circuit.

The full automaticity micro mist is loaded the compacting machine working process: fill it up with micro mist by inlet point 811 in charging basket 806 earlier, pile sky batch can 9 going into jar track 1, because going into jar track 1 has the suitable rolling multi-directional ball 102 of density is installed on certain degree of dip (low early and high after) and the concave tracks groove 101, empty batch can 9 can realize that empty batch can 9 moves forward at belt conveyor 203 by under the own wt free skating from top to bottom and send signal and make the load-transfer device electrical power.Empty batch can 9 moves to the desired location and touches corresponding travel switch that the empty batch can 9 of buncher 202 outages is stopped is mobile, realizes that empty batch can 9 is in belt conveyor 203 location.Empty batch can 9 is finished in belt conveyor 203 location, sends piston rod that signal makes jar cylinder 3 and releases forward and realize pushing away before cylinder 301 piston rods.Cylinder 301 piston rods are cut somebody's hair and 304 empty batch can 9 are pushed away belt conveyor 203 desired location to the holder jar Advance plate 508 by being attached thereto the fork-shaped that connects, realize that empty batch can 9 is in place on holder jar Advance plate 508, empty batch can 9 is in place finishing on holder jar Advance plate 508, issue a signal to into a jar cylinder, realize cylinder 301 piston rod rollbacks, return and send signal after finishing and make holder jar hydraulic actuating cylinder 501 piston rod upward movements, empty batch can 9 is realized empty batch can 9 upward movements along with holder jar Advance plate 508 upward movement together.When empty batch can 9 rises to the desired location, send signal and make holder jar hydraulic actuating cylinder 501 piston rods stop upward movement, jar time-out in the realization.After holder jar hydraulic actuating cylinder 501 a piston rod upward movements time-out is finished, sending signal moves positioning cylinder 601 piston rods backward, and make nest 604 assemblies that empty batch can 9 is fixed on holder jar Advance plate 508 centers by linkage, realize the centralized positioning of empty batch can 9 on holder jar Advance plate 508, sending signal then makes holder jar hydraulic actuating cylinder 501 piston rods continue upward movement, empty batch can 9 tops are to quantitatively circle 804 supporting plate butt jar hydraulic actuating cylinders 501 piston rods are motionless, oil circuit pressure raises, pressure reaches after the predetermined value relevant pressure relay and posts a letter and make oil circuit oil-break and the locking oil circuit of holder jar hydraulic actuating cylinder 501, realize that holder jar hydraulic actuating cylinder 501 piston rod upward movements stop fully, thereby finish holder jar hydraulic actuating cylinder 501 holders jar action.Send signal then and make the rollback motion and open plate 803 by linkage backward of quantitative hydraulic actuating cylinder 802 piston rods, the micro mist in the quantitative circle 804 is called in the sky batch can 9, realize automated packing.Automated packing is finished, and sends signal main hydraulic cylinder 812 piston rods are moved downward, by being installed in the realization of the micro mist in 808 pairs of batch cans of binder block 9 compacting on the piston rod.Along with binder block descends, oil circuit pressure raises, and is elevated to scheduled pressure value, and the relevant pressure relay sends signal and makes main hydraulic cylinder 812 piston rod upward movements, realizes main oil pressuring cylinder piston bar rollback.Main hydraulic cylinder 812 piston rod rollbacks are to the desired location, and rollback is finished, and send signal and quantitative hydraulic actuating cylinder 802 piston rods are released forward and closed plate 803 by linkage, realize batch can 9 filler lockings.Batch can 9 filler lockings are finished, and send signal and make pneumatic hammer 807 knock charging basket 806 (the micro mist flowing power is a poor) bucket wall to make barrel an interior micro mist be subjected to vibration to fall into and realize quantitatively enclosing 804 interior auto feeds in the quantitative circle 804.Pneumatic hammer quit work after pneumatic hammer 807 number of taps reached pre-determined number, quantitatively circle 804 reinforced finishing are sent signal holder jar hydraulic actuating cylinder 501 piston rods and are moved downward, and batch can 9 drops to the desired location and sends signal, make holder jar hydraulic actuating cylinder 501 oil circuit lockings, realize following jar of time-out.Following jar of time-out finished, and sends signal positioning cylinder 601 piston rods are released, and realize that by linkage quantitatively circle 804 unclamps batch can 9.Batch can 9 unclamps to be finished, and sends signal and makes holder jar hydraulic actuating cylinder 501 piston rods continue to move downward, and batch can 9 drops to final desired location and sends signal, makes holder jar hydraulic actuating cylinder 501 oil circuits locking again, finishes final following jar.Finish for final following jar, send signal and make into the release forward again of jar cylinder piston rod, batch can 9 is pushed into out on jar track 11 from a holder jar Advance plate 508, when batch can 9 is pushed into the desired location, send signal and make into the 3 piston rod stop motions of jar cylinder, realize getting jar.Get jar and finish, send signal and make into jar cylinder 3 piston rod rollbacks.Go into jar cylinder 3 piston rod rollbacks and finish, send signal and make and get jar cylinder 10 piston rods and travel forward, realize out jar.Batch can 9 is got jar cylinder 10 and is pushed into the desired location and finishes out jar, goes out jar to finish, and sends signal and makes and get jar cylinder 10 piston rods and move backward, realizes getting jar cylinder 10 piston rod rollbacks.To send signal after jar cylinder rollback is finished and make buncher 202 energising on jar load-transfer device 2 carry empty batch can 9 again and repeat above action again when getting; the realization automated packing that goes round and begins again is pressed a jar action; on going into jar track 1, do not have empty batch can 9 or discharging track 11 again and pile no material equipment auto-stop in batch can 9 or the charging basket 806, and the prompting operating personal that gives the alarm comes to handle.

The above only is preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (9)

1. the full automaticity micro mist is loaded compacting machine, comprise batch can for the splendid attire micro mist, go into a jar track, with described go into that jar track is connected go into a jar load-transfer device, with described go into jar load-transfer device vertically disposed go into jar cylinder, filling compaction device, with described go into that jar track parallels go out a jar track, go out jar track and on same horizon, get a jar cylinder with described, it is characterized in that:

Described filling compaction device is gone into jar track and is describedly gone out between jar track described;

Described filling compaction device comprises the main body frame that is provided with crossbeam and curb girder, be fixed on holder jar mechanism on described main body frame first crossbeam, be located at described holder jar mechanism upper end a batch can detent mechanism, be fixed on batch can check plate on described main body frame second crossbeam, be fixed on described batch can check plate upper surface quantitative filling body, be fixed on the system for compacting on described main body frame the 3rd crossbeam.

2. full automaticity micro mist as claimed in claim 1 is loaded compacting machine, it is characterized in that:

Also comprise the electric-control system that is connected with described filling compaction device;

Described electric-control system comprises hydraulic pressure automatic control circuit, hydraulic manual control circuit, pneumatic element automatic or manual control circuit, warning circuit.

3. full automaticity micro mist as claimed in claim 1 is loaded compacting machine, it is characterized in that:

A described holder jar mechanism comprises holder jar hydraulic actuating cylinder, and described holder jar hydraulic actuating cylinder is fixed on described main body frame first crossbeam by screw;

Holder jar dish pedestal, described holder jar dish pedestal are fixed on the described holder jar hydraulic cylinder piston rod head;

The guiding pole socket, described guiding pole socket is by being bolted on described main body frame first crossbeam;

Be fixed on first pilot bar on the described guiding pole socket, an end of described first pilot bar is fixed on the holder jar dish pedestal;

Holder jar Advance plate, described holder jar Advance plate are fixed on the holder jar dish pedestal.

4. full automaticity micro mist as claimed in claim 1 is loaded compacting machine, it is characterized in that:

Described batch can detent mechanism comprises the nest pedestal, and described nest pedestal is by being bolted to the back side of described batch can check plate;

Nest, described nest are fixed on the described nest pedestal;

Positioning cylinder, described positioning cylinder are fixed on the described nest, are used for driving described nest forward or reverse.

5. full automaticity micro mist as claimed in claim 4 is loaded compacting machine, it is characterized in that:

12 bearing rod screws evenly are installed on the axial section of described nest;

Described bearing rod screw upper end is equipped with antifriction-bearing box;

Described antifriction-bearing box is flush-mounted on the described nest pedestal.

6. full automaticity micro mist as claimed in claim 1 is loaded compacting machine, it is characterized in that:

Described quantitative filling body comprises quantitative hydraulic actuating cylinder, and described quantitative hydraulic actuating cylinder is by being bolted on described main body frame first curb girder;

Plate, described plate is connected with described quantitative hydraulic actuating cylinder;

Be fixed on the quantitative circle in described batch can check plate front by screw, described quantitative circle is provided with the sliding rail of being convenient to described plate linear reciprocating motion;

The plate lower cover is fixed on described main body frame second crossbeam by screw;

The plate upper cover plate with the corresponding setting of described plate lower cover, is fixed on described main body frame second crossbeam by screw.

7. full automaticity micro mist as claimed in claim 6 is loaded compacting machine, it is characterized in that:

Cavity height between described plate upper cover plate and the described plate lower cover is described plate thickness;

Described cavity is connected with described sliding rail.

8. full automaticity micro mist as claimed in claim 1 is loaded compacting machine, it is characterized in that:

Described system for compacting comprises main hydraulic cylinder, and described main hydraulic cylinder is fixed on described main body frame the 3rd crossbeam by screw;

Binder block, described binder block is connected with described main hydraulic cylinder;

Charging basket, described charging basket is fixed on the described quantitative circle by screw;

Pneumatic hammer, described pneumatic hammer are fixed on the sidewall of described charging basket;

Be fixed on charging basket cover plate on the described charging basket by screw, described charging basket cover plate is provided with deflation hole and inlet point.

9. full automaticity micro mist as claimed in claim 3 is loaded compacting machine, it is characterized in that:

The upper surface of described holder jar Advance plate is bonded with and reduces described batch can and the described silica gel plate that contacts firmly between jar Advance plate that holds in the palm.

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