CN108672514A - Squeeze discard automatic conveying device and method - Google Patents

Abstract

The invention discloses squeeze discard automatic conveying device and method, the extruding discard automatic conveying device, it includes at least the first chute being located at below extruder discharge end, first chute discharging end is connected with the second chute, angle is right angle in horizontal direction between first chute and the second chute, first trough outlet rectify to the second chute inlet end inner wall at be fixed with impingement plate, second chute discharge port extension has hung discard baffle, the discharge outlet has conveyer, conveyer conveying tail end to have material frame.The present invention effectively reduces the impact force that discard rolls down on conveyer, plays a protective role to conveyer, and by conveyer safe transport discard.Solve in prior art list chute structure, discard due to impact it is larger often smash equipment or pound material frame to one side, the problem of discard cannot correctly fall into material frame, and recycling discard are needed to expend equipment and be lifted by crane.

Description

Squeeze discard automatic conveying device and method

Technical field

The invention belongs to field of metallurgical equipment, it is related to a kind of extruding discard automatic conveying device and method, is suitable for discard Automatic conveying.

Background technology

In aluminium extrusion production process, the conveying for squeezing discard is one of wherein very important link, existing discard Conveying, usually below extruder scissors, is provided with chute mechanism, the exit of chute is provided with material frame, is cut in scissors After complete discard, discard is rolled into along chute in material frame, such as patent《Magnesium alloy extrusion machine discard collects transport device automatically》Invention Number：In CN201420511594.8, material frame can be caused to impact when tumbling due to discard, on the one hand material frame is caused to be easily damaged, For still further aspect after repeat impact, material frame can shift deviation, and discard is caused to roll down to outside material frame, may smash other and set Standby and element, and for falling the processing in the discard of discard outer frame, compare and spends human and material resources.In addition, due to material frame to be considered The convenient problem of lifting, therefore the occupation of land face of this discard carrying method is generally large, and material frame basis is deeper, increases equipment Input cost.The above problem becomes apparent large press.

Invention content

The object of the present invention is to provide a kind of extruding discard automatic conveying device and method, realize discard smooth transport and On the one hand automatic conveying solves the problems, such as that existing discard conveying is easy to smash discard frame and discard is fallen on outside material frame, saves manpower Material resources improve the automatization level of equipment, and still further aspect floor space is small, and equipment input cost is low.

The technical scheme is that：Discard automatic conveying device is squeezed, it, which is included at least, is located under extruder discharge end First chute of side, the first chute discharging end is connected with the second chute, between the first chute and the second chute in horizontal direction Angle is right angle, the first trough outlet rectify to the second chute inlet end inner wall at be fixed with impingement plate, the discharging of the second chute Mouth, which is hung, has hung discard baffle, and the discharge outlet has conveyer, conveyer conveying tail end to have material frame.

First chute and the second chute both sides are provided with chute backplate.

Discard baffle upper end is rotatablely connected by the chute backplate of shaft and the second chute both sides, discard baffle Lower end extends on the conveyor surface of the second chute where it, and discard baffle lower end is at a distance from the conveyor surface less than discard Most short diameter.

The chute backplate is fixed on the first chute and the second chute two sides along or with being erected at the first chute and second The braced frame of extruder bottom support surface above chute is fixed.

The discard baffle is distributed with multigroup, and the spacing between adjacent two discards baffle is more than the overturning half of discard baffle Diameter.

The fixed inner wall outside wall of the impingement plate is fixed with strengthening mechanism.

Conveyor surface setting is slowed down raised in first chute.

Overhead gage is arranged in conveyer both sides setting backplate top.

The automatic carrying method of a kind of extruding discard, which is characterized in that after extruding owner's scissors cuts discard, discard is fallen In first chute, discard is rolled to the second chute along the first chute, and the right-angle design that the first chute and the second chute use is right Discard plays cushioning effect, has changed simultaneously the rotating direction of discard；Discard bumps against on discard baffle, discard baffle dig after again It falls on conveyer, can cushioning effect be played to discard again, reduce discard and roll down to the impact force on conveyer, discard baffle It relies on and automatically falls off after discard passes through；Conveyer remains at operating status, as long as there is discard to fall on a conveyor, Just discard is transported out automatically, and is fallen in the material frame below conveyor outlet, the collection of discard is completed.

The first trough outlet rectify to the second chute inlet end inner wall at be fixed with impingement plate, discard is from the first chute It when rolling, can be stopped by impingement plate, reduce the rolling pressure of discard.

The beneficial effects of the invention are as follows：The impact caused by material frame meeting, the damage of material frame when discard tumbles are solved, and is passed through After repeat impact, material frame can shift deviation, and discard is caused to roll down to outside material frame, may smash other equipment and the disadvantage of element End reduces lifting discard and needs to expend the cost of huge manpower and materials by conveyer so that the processing of discard is more convenient, And due to chute discharge port adjustable angle in the present apparatus, more extruder discards of same plant area can be made simultaneously while transport is extremely Same place, more uses manpower and material resources sparingly.

With patent《Magnesium alloy extrusion machine discard collects transport device automatically》It compares, list of the present invention compared to other side's patent One chute further, using the right angle design similar to stair activity, makes the inertia of chute using multilayer chute structure Power is reduced to zero in each infall, and inertia force is made to be recalculated in infall, is conveyed by multistage reduction of speed, then by conveyer is unified To material frame, because in a piece of plant area, discard can be uniformly sent to same by often more than one of extruder using conveyer Point increases conevying efficiency.

In the present invention, chute use right-angle design, be similar to by a water pipe bending it is rectangular, the right angle section of slot is first Cushioning effect is started to discard, has changed simultaneously the rotating direction of discard, due to being designed at trough outlet by turning round, is taken up an area Area is small, compares and takes full advantage of solid space with previous linear type chute, the present invention, and save space usable floor area, and equipment is thrown Enter at low cost.

Description of the drawings

Fig. 1, which is shown, squeezes discard automatic conveying device overall diagram.

Fig. 2 shows extruding discard automatic conveying device vertical views.

In figure：1, extruder；2, the first chute；9, impingement plate；10, the second chute；

3, discard baffle；4, conveyer；5, material frame；6, discard；8, backplate；7, overhead gage.

Specific implementation mode

Embodiment 1

As shown in Figures 1 and 2, the extruding discard automatic conveying device of the present embodiment, it, which is included at least, is located at 1 discharge end of extruder First chute 2 of lower section, which is characterized in that the first chute 2 discharging end is connected with the second chute 10, the first chute 2 and second Angle is right angle in horizontal direction between chute 10, is consolidated at the 10 arrival end inner wall of the second chute of 2 outlet end face of the first chute There are impingement plate 9,10 discharge port of the second chute extension to hang discard baffle 3, the discharge outlet has conveyer 4, conveyer 4 to convey surely Tail end has material frame 5.

In the present embodiment, the first chute and the second chute are sequentially connected, and corner is arranged between each other, to change discard Direction is tumbled, and in deceleration mechanism or multistage deceleration mechanism are arranged on chute, segmented reduces discard impulse force, is fallen within to stabilization On conveyer, reuses conveyer and be slowly transported away discard.Wherein, discard baffle and impingement plate are set on the second chute, Impingement plate absorbs the main kinetic energy for the discard slid down from the first chute, and the first chute or the second chute spout surfaces, which can also increase, to rub Wiping face, windage power apparatus, resilient resistance members etc..Wherein, a chute is used in the prior art, and discard is directly transmitted to material frame In, in Fig. 1, discard material frame is placed in only the first chute, the first chute end, by adding the second chute in the present invention, the It is designed by right angle section between one chute and the second chute so that two chutes are connected by right-angled bend, level in space Right angle, gravity direction is presented in direction, the first chute and the second chute, and two chutes drop time declines, and reaches the kinetic energy converted to gravity Slow drop bottom can change discard kinetic energy direction in right angle section, often change first power and similar to the right-angle design of stairs port To discard resets initial velocity, and discard is made to stablize conveying.The discard that the discard baffle in exit can export is slowed down again, is protected Ship sth. under guard the conveyer of defeated discard so that discard steadily enters conveyer.Hereinafter the first chute or the second chute can be also simply referred to as Chute.

A kind of automatic carrying method of extruding discard, after extruding owner's scissors cuts discard, discard is fallen in the first chute, Discard is rolled to the second chute along the first chute, and the right-angle design that the first chute and the second chute use plays discard slow Punching acts on, and has changed simultaneously the rotating direction of discard；Discard bumps against on discard baffle, and discard baffle falls on conveyer again after digging On, can cushioning effect be played to discard again, reduce discard and roll down to the impact force on conveyer, discard baffle passes through in discard It relies on and automatically falls off afterwards；Conveyer remains at operating status, automatically will pressure as long as there is discard to fall on a conveyor It is remaining to transport out, and fall in the material frame below conveyor outlet, complete the collection of discard.

The first trough outlet rectify to the second chute inlet end inner wall at be fixed with impingement plate, discard is from the first chute It when rolling, can be stopped by impingement plate, reduce the rolling pressure of discard.

Embodiment 2

On the basis of embodiment 1,2 and second chute of the first chute, 10 both sides are provided with chute backplate.The discard gear 3 upper end of plate is rotatablely connected by the chute backplate of shaft and 10 both sides of the second chute, and 3 lower end of discard baffle extends to its institute The second chute 10 conveyor surface on, 3 lower end of discard baffle at a distance from the conveyor surface be less than discard 6 most short diameter. The chute backplate is fixed on the first chute 2 and 10 two sides of the second chute along or with being erected at the first chute 2 and the second chute The braced frame of 1 bottom support surface of extruder of 10 tops is fixed.The discard baffle 3 be distributed with it is multigroup, and adjacent two discard keep off Spacing between plate 3 is more than the overturning radius of discard baffle 3.

In the present embodiment, using two sections of chutes, respectively it is located at the first chute of upper end and the second chute positioned at bottom end, Discard baffle can be set to the first chute upper end, can also be arranged in the second chute upper end, as shown in Figure 1, the present embodiment is set It is placed in the second chute tail end, one end of discard baffle needs to rub using rub larger hinge or the moderate use of discard baffle quality It wipes smaller hinge to be fixed on the baffle supporting mechanism of chute backplate, extruder or the present invention, the other end is hung down naturally in the On the transportation surface of two chutes, to collide with discard, collision then needs discard baffle to be more nearly the second chute Inclined-plane is transported, to be collided with discard, between them apart, cannot be less than the minimum diameter of discard, having more than minimum diameter can It can collide, discard backplate is arranged in the first chute and the second chute edge, prevents discard from going out outside chute, discard backplate By the right angle tubular chute that two chutes package is a configuration, the first chute and the second chute is made to be combined into one.

The clout that extruder work generates passes through the first chute, after sliding unloading certain impact power, goes out the first chute end End enters the second chute by the right-angle design of corner, and clout unloads impact force again by the second chute；Discard is slipped second It can bump against with discard baffle when unloading power on slot, since discard baffle is connect by hinge with extruder, the gravity inertial power of baffle In addition certain frictional force of hinge, can shed the impact force of discard, discard impact force is very small at this time again；Or it is discard It is directly slid due to angle problem on the second chute by discard, the effect of baffle at this time will be apparent from, due to gear Plate uses hinge connection, itself is in static state, when the impact force of discard is very big, only can pass to baffle, and impact force is bigger, The amplitude of baffle plate turning is bigger, but also therefore sheds discard impact force.Soft sheds discard impact force.At this time pass through baffle into Enter onto conveyer, there is conveyer to deliver to completing conveying in the material frame of its tail end.Finally, discard is unloaded three times by interim After power, conveyer is arrived safely, and impact will not be caused to conveyer, be smoothly delivered in material frame.And due to The place of the distinctive extension fed distance of conveyer, the discard exported can rationally select choosing, such as on-site, and more extruders are set It is standby to work at the same time, conveyer can will be used selective, and be output to same position, worker is greatly saved and transports clout Efficiency reduces human cost.

Preferably, chute and ground level angle of inclination are 45 degree, generally 45 degree to 30 degree, can also 32 degree, 35 degree, 40 It spends, 60 degree or 75 degree.

First chute or the second chute the selection of material can be metal troughs, carbon fiber slot, concrete pit；

First chute or the second chute width, are 200mm-600mm, and preferred chute width is 350mm；

Discard baffle, can be selected metal material, plastic material, and carbon fiber presss from both sides metal material；Discard baffle chooses quality, Ke Yiwei 1-2 times of discard, preferred discard baffle are 1.2 times of discard.

Conveyer is power-driven conveyors, it is preferred that conveyer is chain scraper conveyor, can also be ribbon conveyer, and dress is mended Integrated conveyer, belt type conveyer, screw conveyor, bucket elevator, roller conveyor, plate-and-chain conveyer, mesh-belt conveying Machine and chain transfer, GX type tube-type spiral conveyers.

Overweight reminding electronic scale can be arranged in material frame, lower end, be automatically reminded to when discard is full.

When discard rolls down, discard baffle is hit, discard baffle digs certain altitude by articulated structure, to be risen to discard To cushioning effect, the rolling speed of discard is reduced, after discard passes through, baffle, which is fallen, returns to original position.If multigroup discard is arranged Baffle, the distribution of discard baffle need the distance for retaining discard baffle plate turning radius, prevent from causing the phenomenon that gets stuck.

Embodiment 3：

On the basis of embodiment 1 or 2, the fixed inner wall outside wall of the impingement plate 9 is fixed with strengthening mechanism.

In the above embodiments, chute slides from the first chute, ordinary circumstance, since discard declines from extruder Get off, there is certain altitude, also have quite a few momentum when discard goes out the first chute, slipped if chute both sides are provided with Slot backplate when then discard is by right angle section, can be collided with chute backplate, needed to pound drop point setting impingement plate in discard, be blocked in The impulse force for the discard that first chute is rolled down makes discard tumble direction impulse force and is reduced to zero, and discard baffle needs to be arranged first On the track that discard is gone out on chute, to catch and stop that discard moves forward, keep discard static.

If chute backplate is not arranged, when due to carrying out unloading power for the first time on the first chute, discard passes through the first chute When end, entrained impact force there remains very much, alternatively, there is no frictions to unload power for discard, and due to angle problem, discard is oblique It puts on rolling, causes impact force bigger；Discard can go out the second chute at this time, and the damage of machine or discard is caused not to transport extremely Appointed place.

Just because of this, it unloads the first chute end of power nearby for the first time in discard, an impingement plate is set, is specially dealt with Not the problem of discard does not unload power normally when passing through the first chute.Impingement plate is set to the second chute one far from the first chute end Section end, discard fall on the second chute of its lower end, work normally with after impingement plate impact, the discard on the second chute Baffle is similar to impingement plate effect, and only discard baffle is more soft, and impact force is converted to the deflection of discard baffle, discard gear Plate does not unload power such case normally also for discard is dealt with.

In the present embodiment, more extruders work at the same time in a workshop, need the discard by different extruders defeated When sending to same place（The central point of all machines）, then the position of the second trough outlet can be adjusted according to point of delivery, When then implementing between the second chute and the first chute, just not necessarily 90 degree of angle when vertical view, all angles are possible to, It is corresponding, after impingement plate is set at the second chute chute backplate of the first chute face, change the second chute angle, as long as can connect Firmly discard.

Impingement plate, optional material can be soft metal, hard metal, metal mesh, carbon fibre web, carbon fiber block, sponge Block, impingement plate may be selected appropriate steel, timber, plastic plate, plastic wire etc., can also increase bolster, buffering discard is to impingement plate Impact, can be selected disc spring, hard spring, sponge interlayer, timber interlayer, plastic interlayer, mattress interlayer etc.；

Impingement plate, which can also be used, to be hingedly coupled on extruder body, and impingement plate uses the quality much larger than discard, then can be incited somebody to action The impact force of discard is converted to the oscillatory forces of impingement plate.

Impingement plate is more than the longest diameter of discard at a distance from the first chute, it is preferred that impingement plate and the first chute away from From 1.5 times for discard longest diameter.

Embodiment 4：

On the basis of embodiment 1 or 2 or 3, conveyor surface setting deceleration protrusion in first chute 2.4 both sides of the conveyer 8 top of backplate is set, overhead gage 7 is set.

In the present embodiment, some deceleration strips can be set on the first chute or the second chute, auxiliary is slowed down to discard, excellent Choosing, deceleration strip is set to the second chute end, and when it being made to slide on conveyer, deceleration minimizes.Conveyer both sides are set Backplate is set, is tumbled away when preventing discard from conveying；Top be arranged baffle, prevent staff's body contact conveyer, and by Injury.

It is right-angle structure about the first chute and the second chute in the present invention, for the visual angle of vertical view, the first chute and the It is 90 degree that both two chutes, which intersect, and the underface extension of the first chute end refers to the visual angle with vertical view, the first chute Refer to the right angle in space with the right-angle design at the second chute, discard is first transported along the first chute perpendicular to the direction of extrusion after falling It is dynamic（Shown in Fig. 1 upwards）, direction of extrusion movement is opposite in further along the first chute（Shown in Fig. 1 to the right）；Discard in two stages There is downward movement.Similar to spiral stairs, the right-angle transition that only uses.

In the present embodiment, discard baffle can use hinge, hinge or spring hinge, spring hinge.Due to hinge its Itself has frictional force, so discard can generate bigger resistance, but its vibrations also corresponding increase when hitting, needs according to equipment Anti-vibration itself adjusts, and comparatively, rotation is more flexible, can more convert the momentum that discard is brought to discard for hinge The rotation of baffle, and spring hinge then more increases the position of discard baffle installation, it, can be parallel since it has elasticity Installation.

On conveyer, often there is the phenomenon that discard landing, be more often slide it is fast without conveying so, conveyer is more Stablize, but when some special circumstances, such as discard due to its position it is more special, when discard rises to conveyer top, Discard tumbles, and the frictional force on conveyer and upward traveling at this time will not have effect, and discard can be tumbled and be rushed to bottom, It is possible that being damaged to machine；In the present embodiment, backplate is increased, is set to conveyer upper end, and backplate and conveyer Distance be more than discard longest diameter, to prevent discard from being blocked with backplate, it is convex that backplate top can add backplate, discard landing When, discard can be tripped by backplate is convex, be lain flat, is got on by conveyer conveying, discard is avoided to tumble.

Bump leveller can be set on impingement plate, absorb the vibrations of a vibration frequency section, prevent impingement plate itself from resonating When discard is rebounded, buckles are excessive to damage transmission part.

Material frame may also set up overweight reminding device for reminding discard excessive, and rewinding personnel is reminded to collect discard clout in time. It prevents from accumulating.

In the present embodiment, impingement plate itself can be detaching structure due to being the maximum blocking portion of stress, if it is It prevents the impact of discard from bringing shock wave, sponge structure, rubber, cloth, soft metal, netted obstacle, carbon can be used Fiber etc., discard baffle can be also fixedly connected.

After each discard is fallen, conveyer belt can be transported, will be difficult after the accumulation of discard, accumulation will not be caused excessive With processing；

So-called lubricating substance is exactly the slipping phenomenon occurred during transport, since conveyer has been at working condition, discard It remains transported state, even if having skidded phenomenon, also can smoothly transport

In conclusion such as Fig. 1, shown in Fig. 2, in the present invention, the course of work is as follows, after the completion of extruder squeezes, generates discard, Discard slides to the first chute 2；

Discard is first moved along the first chute perpendicular to the direction of extrusion after falling（Shown in Fig. 2 upwards）, it is opposite in further along chute The direction of extrusion moves（Shown in Fig. 2 figures to the right）；Discard has downward movement in two stages, is similar to spiral stairs, only The right-angle transition of use.

When discard slides out from the second chute, discard baffle can be passed through, discard baffle is hinge connection, is hit by discard It hits, discard baffle can be overturn, and then reduction of speed, kinetic energy are transferred to discard baffle to discard from discard, and discard baffle is generally positioned at Two chute ends；

After discard baffle reduction of speed, discard steadily slides and is delivered to the collection that conveying machine tail end material frame completes discard into conveyer.

Wherein, the first chute is located at the positive lower end of extruder discard discharge port, and the first chute and the second chute are same gravity The downward slope in direction, the second chute horizontal direction are vertically installed in the first chute, generate the crossing at right angle of a horizontal direction Inflection point, impingement plate are set in the discard strike path intersected at inflection point, opposite with the first chute discard landing direction, and with First chute heads on；Discard baffle plate setting is less than the most short diameter of discard in the second chute end and with chute conveying slope distance, Because discard needs and discard baffle collides, slowing effect can be just played.Conveyer is then set to discard end.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute is only used for solving in the present embodiment Relative position relation, motion conditions etc. between each component under a certain particular pose (as shown in the picture) are released, if this is specific When posture changes, then directionality instruction also correspondingly changes correspondingly.

In addition, the description for being related to " first ", " second " etc. is used for description purposes only, it is not understood to indicate or imply it Relative importance or the quantity for implicitly indicating indicated technical characteristic.Define " first " as a result, the feature of " second " can To express or implicitly include at least one this feature.

Technical solution between each embodiment can be combined with each other, but must be with those of ordinary skill in the art's energy It is enough realize based on, when the knot that conflicting or cannot achieve when will be understood that this technical solution occurs in the combination of technical solution Conjunction is not present, also not the present invention claims protection domain within.The component and structure that the present embodiment does not describe in detail belong to this The well-known components and common structure or conventional means of industry, do not describe one by one here.

Claims (10)

1. squeezing discard automatic conveying device, it, which is included at least, is located at extruder（1）The first chute below discharge end（2）, It is characterized in that, the first chute（2）Discharging end is connected with the second chute（10）, the first chute（2）With the second chute（10）Between Angle is right angle, the first chute in horizontal direction（2）Second chute of outlet end face（10）Punching is fixed at arrival end inner wall Hit plate（9）, the second chute（10）Discharge port extension has hung discard baffle（3）, the discharge outlet has conveyer（4）, conveyer（4） Conveying tail end has material frame（5）.

2. squeezing discard automatic conveying device as described in claim 1, which is characterized in that first chute（2）It is slipped with second Slot（10）Both sides are provided with chute backplate.

3. squeezing discard automatic conveying device as claimed in claim 2, which is characterized in that the discard baffle（3）Upper end passes through Shaft and the second chute（10）The chute backplate of both sides is rotatablely connected, discard baffle（3）Lower end extends to where it Two chutes（10）Conveyor surface on, discard baffle（3）Lower end is less than discard at a distance from the conveyor surface（6）Most short diameter.

4. squeezing discard automatic conveying device as claimed in claim 3, which is characterized in that the chute backplate is fixed on first and slips Slot（2）With the second chute（10）Two sides along or be erected at the first chute（2）With the second chute（10）The extruder of top（1） The braced frame of bottom support surface is fixed.

5. squeezing discard automatic conveying device as described in claim 3 or 4, which is characterized in that the discard baffle（3）It is distributed with It is multigroup, and adjacent two discards baffle（3）Between spacing be more than discard baffle（3）Overturning radius.

6. squeezing discard automatic conveying device as described in claim 1, which is characterized in that the impingement plate（9）Fixed institute It states inner wall outside wall and is fixed with strengthening mechanism.

7. squeezing discard automatic conveying device as described in claim 1, which is characterized in that first chute（2）Interior conveyor surface Setting is slowed down raised.

8. squeezing discard automatic conveying device as described in claim 1, which is characterized in that the conveyer（4）Both sides setting shield Plate（8）Overhead gage is arranged in top（7）.

9. a kind of automatic carrying method of extruding discard, which is characterized in that squeeze after owner's scissors cuts discard, discard is fallen the In one chute, discard is rolled to the second chute, the right-angle design that the first chute and the second chute use, to pressure along the first chute It is remaining to play cushioning effect, change simultaneously the rotating direction of discard；Discard bumps against on discard baffle, and discard baffle is fallen again after digging Onto conveyer, can cushioning effect be played to discard again, reduce discard and roll down to the impact force on conveyer, discard baffle exists Discard is relied on after passing through and is automatically fallen off；Conveyer remains at operating status, as long as there is discard to fall on a conveyor, Automatically discard is transported out, and fallen in the material frame below conveyor outlet, complete the collection of discard.

10. the automatic carrying method of a kind of extruding discard according to claim 9, which is characterized in that at the first trough outlet end Being fixed with impingement plate at second chute inlet end inner wall of face can be stopped when discard is rolled from the first chute by impingement plate, Reduce the rolling pressure of discard.