CN217731883U - Auxiliary blanking device and blanking system - Google Patents

Abstract

The utility model discloses an auxiliary blanking device and blanking system, wherein auxiliary blanking device includes: the blanking device comprises a blanking inclined plate, a blanking control device and a control device, wherein the blanking inclined plate extends obliquely downwards, an avoidance gap is arranged on the blanking inclined plate, and the avoidance gap extends along the oblique direction of the blanking inclined plate; a plurality of avoiding gaps are arranged on the blanking inclined plate at intervals; hold in the palm the material subassembly, it is including activity drive and die-pin, the activity drive is located the bottom side of unloading swash plate, the quantity of die-pin has a plurality ofly, and is a plurality of the die-pin all connect in the activity drive is last, and is a plurality of the one end of die-pin is from a plurality of respectively upwards stretching out in dodging the clearance, the activity drive can drive a plurality ofly the die-pin is followed the incline direction reciprocating motion of unloading swash plate, the utility model discloses both improved the efficiency of transporting the unloading to the plastic uptake spare, still improved the stability that the plastic uptake spare was transported the unloading, more be favorable to realizing automated production.

Description

Auxiliary blanking device and blanking system

Technical Field

The utility model relates to a conveyor especially relates to an auxiliary blanking device and unloading system.

Background

The plastic uptake is when processing into packing carton, need carry out the hem to its side and handle, traditional processing mode is taken out the plastic uptake one by one for the workman, and put into and process one by one to flanging machine department, along with the development of science and technology, some can get the machinery of material to flanging machine processing voluntarily appearing on the market, because plastic uptake weight is lighter, in order to realize stablizing the pay-off, current mode all adopts to have the sucking disc usually, arms such as clamping jaw directly transfer the plastic uptake target in place, so whole equipment volume is great, equipment cost is higher, and it is lower to the transfer efficiency of plastic uptake, influence whole production process velocity.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an auxiliary blanking device and unloading system to solve one or more technical problem that exist among the prior art, provide a profitable selection or create the condition at least.

The utility model provides a solution of its technical problem is:

an auxiliary blanking device comprising: the blanking inclined plate extends downwards in an inclined mode, an avoidance gap is formed in the blanking inclined plate, and the avoidance gap extends along the inclined direction of the blanking inclined plate; a plurality of avoiding gaps are arranged on the blanking inclined plate at intervals; the material supporting assembly comprises a movable drive and supporting rods, the movable drive is located on the bottom side of the blanking inclined plate, the number of the supporting rods is multiple, the supporting rods are connected to the movable drive, one ends of the supporting rods extend upwards from the avoidance gaps respectively, and the movable drive can drive the supporting rods to reciprocate along the inclined direction of the blanking inclined plate.

The technical scheme at least has the following beneficial effects: the plastic uptake piece of treating processing directly drops on the unloading swash plate, carry out the location bearing to one side of plastic uptake piece by a plurality of die-pins, then the activity drive drives the die-pin and moves down, the plastic uptake piece moves down along the direction of unloading swash plate under the bearing of die-pin, owing to have the die-pin to carry out the bearing, avoid because the height that drops is too high, drop and overturn easily when the unloading swash plate, perhaps shift the problem that the in-process overturns easily down at the plastic uptake piece again, overall structure is simple so, both improved the efficiency of transporting the unloading to the plastic uptake piece, still improved the stability that the unloading was transferred to the plastic uptake piece, more be favorable to realizing automated production.

As the further improvement of above-mentioned technical scheme, the utility model discloses still include the shell, the unloading swash plate is located the top side of shell, the unloading swash plate with enclose between the shell and establish and be formed with the cavity, the activity drive includes first linear driving spare, connecting rod and connecting block, first linear driving spare connect in the cavity, the connecting rod is followed dodge the array direction level in clearance and extend, the connecting rod connect in the activity of first linear driving spare is served, first linear driving spare can drive the connecting rod is followed the incline direction reciprocating motion of unloading swash plate, be connected with a plurality of connecting blocks on the connecting rod, it is a plurality of the die-pin is connected respectively in a plurality of on the connecting block. The unloading swash plate is located the top side of shell, forms the cavity that is used for accomodating activity drive isotructure with the shell, and a plurality of die-pins are connected to the connecting rod through a plurality of connecting blocks respectively on, provide the straight line reciprocating drive power that is parallel to each other along unloading swash plate incline direction by first linear drive spare to the connecting rod, when the expansion end rebound of first linear drive spare, can drive the die-pin upward movement, when first linear drive's expansion end rebound, can drive the die-pin downstream.

As a further improvement of the above technical solution, the material supporting assembly further includes a telescopic portion, the telescopic portion is connected to the connecting rod, and when the connecting rod moves downward, the telescopic portion drives the supporting rod to exit the avoiding gap downward through the connecting rod; when the connecting rod moves upwards, the telescopic part drives the supporting rod to extend upwards out of the avoiding gap through the connecting rod. When the die-pin shifts up along the incline direction of holding in the palm the material swash plate, the pars contractilis passes through the connecting rod and drives the die-pin upwards to stretch out and dodge the clearance to can carry out the bearing to the plastic uptake that drops, when the die-pin moves down to the incline direction along holding in the palm the material swash plate, the pars contractilis passes through the connecting rod and drives the die-pin and withdraw from downwards and dodge the clearance, so can cancel the bearing to the plastic uptake, make the plastic uptake drop along the direction of holding in the palm the material swash plate.

As a further improvement of the above technical scheme, the telescopic part includes a transmission block, a spring and a guide rod, the guide rod is connected to the inner bottom surface of the cavity, the height of the guide rod is gradually reduced from top to bottom, the transmission block is connected to the connecting rod, the connecting rod is rotatably connected to the movable end of the first linear driving element, the rotation axis of the connecting rod is parallel to the central line of the connecting rod, the transmission block is abutted to the top surface of the guide rod, one end of the spring is connected to the movable end of the first linear driving element, the other end of the spring is connected to any one of the connecting blocks, and the spring has a tendency that the connecting blocks are pulled downwards. Because the height of guide bar dwindles from top to bottom gradually, and the transmission piece offsets with the top surface of guide bar, when the connecting rod upward movement, the guide bar top surface of gradual lifting pushes up the transmission piece upwards, the transmission piece drives the connecting rod and rotates this moment, make the connecting rod rotate, the die-pin upwards stretches out gradually and dodges the clearance, and the spring is stretched gradually, when the connecting rod downstream, the elasticity of spring makes the transmission piece support the top surface at the guide bar all the time, and the guide bar top surface that sinks gradually makes the transmission piece drive the connecting rod reversal, the die-pin withdraws from gradually downwards this moment and dodges the clearance, drive the die-pin swing when so can realizing the up-and-down activity.

As a further improvement of the above technical solution, two guide shafts are connected in the cavity, the length extending direction of the two guide shafts is parallel to the moving direction of the connecting rod, followers are rotatably connected to both ends of the connecting rod, and the two followers are respectively slidably connected to the two guide shafts. When the connecting rod was moved about, the follower at its both ends all can slide along the length direction of extension of connecting rod on two guide bars, had so improved the stability of connecting rod when the up-and-down motion, further improved the stability of die-pin when bearing plastic uptake spare.

The blanking system comprises a frame, wherein the frame is provided with: the pushing assembly comprises baffle plates and pushing pieces which are arranged on the rack at intervals along the front-back direction, the pushing pieces can move on the rack along the front-back direction, and a limiting gap is formed between the baffle plates and the pushing pieces; the feeding component is provided with a feeding piece which can move in the limiting gap along the left-right direction; in the auxiliary blanking device, the extension line of the bottom side of the blanking sloping plate intersects with the limiting gap.

The technical scheme at least has the following beneficial effects: the plastic suction piece falls into the limiting gap from the blanking inclined plate, then the pushing piece is close to the baffle, the alignment is adjusted under the limiting effect of the pushing piece and the baffle, the feeding piece moves to be close to the plastic suction piece, the plastic suction piece is pushed to the next station, the plastic suction piece is rapidly blanked and transferred, and the automatic processing production is favorably realized.

As a further improvement of the technical scheme, the material pushing assembly comprises a second linear driving piece and a first material pushing rod, the second linear driving piece is connected to the rack, the second linear driving piece is in driving connection with the first material pushing rod, the second linear driving piece can drive the first material pushing rod to move in the front-back direction, a plurality of limiting sections are arranged on the first material pushing rod at intervals in the left-right direction, the outer diameters of the limiting sections are smaller than the outer diameter of the first material pushing rod, a mounting hole is formed in the material pushing piece, and the limiting sections are in clearance fit connection with the mounting hole of the material pushing piece. Because the material pushing part is in clearance fit connection with the limiting section through the mounting hole in the material pushing part, under the action of gravity, the material pushing part can droop to a position where a limiting clearance on the rack is abutted, because the outer diameter of the limiting section is smaller than that of the first material pushing rod, the axial displacement of the material pushing part on the first material pushing rod can be limited, when the second linear driving part drives the material pushing part to be close to the plastic sucking part, the drooping material pushing part can be ensured to be abutted against the side edge of the plastic sucking part, the problem that the plastic sucking part directly enters between the material pushing part and the rack and can not be pushed is avoided, and therefore the plastic sucking part is pushed to be close to the baffle.

As a further improvement of the technical scheme, the material pushing assembly comprises a third linear driving piece and a second material pushing rod, the third linear driving piece is connected to the rack, the third linear driving piece is in driving connection with the second material pushing rod, the third linear driving piece can drive the second material pushing rod to move in the front-back direction, the material pushing piece is in a hook shape with an opening facing the baffle, the second material pushing rod is connected with a plurality of material pushing pieces, and a movable gap is formed in the rack and is opposite to the position of the material pushing pieces. The movable gap can be used for pushing a material to move back and forth in the rack along the linear direction, the third linear driving piece can directly drive the material pushing piece to abut against the side edge of the plastic sucking piece through the second material pushing rod, and when the material pushing piece is close to the baffle, the hooked material pushing piece can stably push the plastic sucking piece to the position of the baffle.

As a further improvement of the above technical solution, the feeding assembly includes a translational driving member connected to the frame, and a lifting driving member connected to the translational driving member, the translational driving member can drive the lifting driving member to move in a left-right direction, the feeding member is connected to the lifting driving member, and the lifting driving member can drive the feeding member to move up and down. Translation driving piece and lift driving piece provide respectively to the pay-off piece along the left and right sides, drive power of upper and lower direction, when the plastic uptake piece need be passed to the pay-off piece, translation driving piece and lift driving piece drive the pay-off piece translation respectively, move down and be close to spacing clearance, when the pay-off piece needs to reset, translation driving piece and lift driving piece drive the pay-off piece translation respectively, move up and keep away from spacing clearance.

As above-mentioned technical scheme's further improvement, the utility model discloses still include the unloading subassembly, the unloading subassembly includes row's flitch, stock stop, separation head and gag lever post, row's flitch connect in the frame, row's flitch is along being close to the direction slope downwardly extending of unloading swash plate, the stock stop connect in the bottom side of row's flitch, the separation head connect in keep off on the work or material rest, keep off and have at least two along horizontal direction interval connection on the work or material rest the gag lever post. The plastic uptake that piles up can keep flat or erect and put the top side at row flitch, and carry on spacingly by two at least stop levers to the side of piling up the material, avoid the plastic uptake to turn on one's side, whole plastic uptake that piles up inclines to keeping off the material frame, the plastic uptake separation that will be closest to keeping off material frame one side by the separation head separates one by one, and put down above the unloading swash plate, the plastic uptake directly drops to the unloading swash plate on, accomplish foretell unloading, the action of transporting, so can realize automatic material loading, and efficiency is higher, it is much less to occupy the volume, the operation is also more steady.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures represent only some embodiments of the invention, not all embodiments, and that a person skilled in the art, without inventive effort, can also derive other designs and figures from them.

FIG. 1 is a perspective view of the auxiliary blanking device of the present invention;

FIG. 2 is a front view of the auxiliary blanking device without the blanking sloping plate;

FIG. 3 is a perspective view of an embodiment of the pushing assembly of the present invention;

fig. 4 is a schematic structural view of a blanking system of the second embodiment of the present invention when the pushing assembly is used as the pushing assembly.

In the drawings: 1-blanking inclined plate, 21-support rod, 22-shell, 23-first linear driving piece, 24-connecting rod, 241-follower, 25-connecting block, 26-driving block, 27-spring, 28-guide rod, 29-guide shaft, 31-baffle, 32-pushing piece, 321-second linear driving piece, 322-first pushing rod, 323-third linear driving piece, 324-second pushing rod, 41-feeding piece, 42-translation driving piece, 43-lifting driving piece, 51-discharging plate, 52-baffle frame, 53-separating head, 54-limiting rod, 6-frame and 61-movable gap.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the connection relations mentioned herein do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection accessories according to the specific implementation situation. The technical characteristics in the invention can be combined interactively on the premise of not conflicting with each other.

Referring to fig. 1 and 2, an auxiliary blanking apparatus includes: the blanking device comprises a blanking inclined plate 1 extending obliquely downwards, wherein an avoidance gap is arranged on the blanking inclined plate 1 and extends along the oblique direction of the blanking inclined plate 1; a plurality of avoiding gaps are arranged on the blanking inclined plate 1 at intervals; the material supporting assembly comprises a movable drive and supporting rods 21, the movable drive is located on the bottom side of the blanking inclined plate 1, the supporting rods 21 are multiple in number, the supporting rods 21 are all connected to the movable drive, one ends of the supporting rods 21 extend upwards from the avoidance gaps respectively, and the movable drive can drive the supporting rods 21 to move in a reciprocating mode along the inclined direction of the blanking inclined plate 1.

The plastic uptake that waits to process directly falls on unloading swash plate 1, carry out the location bearing to one side of plastic uptake by a plurality of die-pins 21, then the activity drive drives die-pin 21 and moves down, the plastic uptake moves down along the direction of unloading swash plate 1 under the bearing of die-pin 21, owing to have die-pin 21 to carry out the bearing, avoid because the height that drops is too high, drop and overturn easily when unloading swash plate 1, perhaps shift the problem that the in-process overturns easily down at the plastic uptake again, so overall structure is simple, both improved the efficiency of unloading is transferred to the plastic uptake, still improved the plastic uptake and transferred the stability of unloading, more be favorable to realizing automated production.

The utility model discloses still include shell 22, unloading swash plate 1 is located shell 22's top side, unloading swash plate 1 with enclose between the shell 22 and establish and be formed with the cavity, the activity drive includes first linear drive piece 23, connecting rod 24 and connecting block 25, first linear drive piece 23 connect in the cavity, connecting rod 24 is followed dodge the array direction level in clearance and extends, connecting rod 24 connect in on the activity of first linear drive piece 23 is served, first linear drive piece 23 can drive connecting rod 24 is followed the incline direction reciprocating motion of unloading swash plate 1, be connected with a plurality of connecting blocks 25 on the connecting rod 24, it is a plurality of die-pin 21 is connected in a plurality of respectively on the connecting block 25. Unloading swash plate 1 is located the top side of shell 22, form the cavity that is used for accomodating activity drive isotructure with shell 22, a plurality of die-pins 21 are connected to connecting rod 24 through a plurality of connecting blocks 25 respectively on, provide the straight line reciprocating drive power that is parallel to each other along unloading swash plate 1 incline direction to connecting rod 24 by first linear drive piece 23, when the expansion end rebound of first linear drive piece 23, can drive die-pin 21 upward movement, when first linear drive's expansion end rebound, can drive die-pin 21 downward movement.

In practical application, unloading swash plate 1 can be a whole plate body, and a plurality of clearances of dodging are seted up at the interval on this plate body, and perhaps unloading swash plate 1 is including the plate body that the interval set up on a plurality of, and a plurality of plate body intervals are connected side by side in the top side of shell 22, then form foretell clearance of dodging between two adjacent plate bodies again.

When the support rods 21 support the plastic-absorbing parts and move downwards to the proper position, the plastic-absorbing parts need to be placed at another station, for example, when the plastic-absorbing parts are placed on the frame 6, avoidance slotted holes can be directly formed in the positions, opposite to the support rods 21, of the frame 6, the support rods 21 directly penetrate the avoidance slotted holes when moving downwards, then the plastic-absorbing parts can be placed on the frame 6, or after the support rods 21 move downwards to the proper position, the plastic-absorbing parts are directly withdrawn from avoidance gaps, and the plastic-absorbing parts are placed down, specifically, the material supporting assembly further comprises telescopic parts, the telescopic parts are connected to the connecting rods 24, and when the connecting rods 24 move downwards, the telescopic parts drive the support rods 21 to withdraw downwards from the avoidance gaps through the connecting rods 24; when the connecting rod 24 moves upwards, the telescopic part drives the supporting rod 21 to extend upwards out of the avoiding gap through the connecting rod 24. When die-pin 21 shifts up along the incline direction of holding in the palm material swash plate, the pars contractilis passes through connecting rod 24 and drives die-pin 21 upwards to stretch out and dodge the clearance to can bear the plastic uptake piece that drops, when die-pin 21 moves down to the incline direction of following the support material swash plate, the pars contractilis passes through connecting rod 24 and drives die-pin 21 and withdraw from downwards and dodge the clearance, so can cancel the bearing to the plastic uptake piece, make the plastic uptake piece drop along the direction of holding in the palm the material swash plate.

The telescopic part is mainly used for driving the support rod 21 to get in and out of the avoidance gap, and has various structural forms, for example, an independent driving motor is directly adopted to drive the connecting rod 24, and synchronous driving rotation is realized when the connecting rod 24 moves up and down, so that the support rod 21 swings upwards to extend out of the avoidance gap or swings downwards to exit the avoidance gap; or a pneumatic push rod or an electric push rod is adopted to drive the connecting rod 24, and the connecting rod 24 is driven to move up and down, so that the supporting rod 21 enters and exits the avoidance gap; in order to reduce the driving source, in this embodiment, the telescopic portion includes a transmission block 26, a spring 27 and a guide rod 28, the guide rod 28 is connected to the inner bottom surface of the cavity, the height of the guide rod 28 is gradually reduced from top to bottom, the transmission block 26 is connected to the connection rod 24, the connection rod 24 is rotatably connected to the movable end of the first linear driving member 23, the rotation axis of the connection rod 24 is parallel to the center line thereof, the transmission block 26 abuts against the top surface of the guide rod 28, one end of the spring 27 is connected to the movable end of the first linear driving member 23, the other end of the spring 27 is connected to any one of the connection blocks 25, and the spring 27 has a tendency of pulling the connection block 25 downward.

Because the height of guide bar 28 from top to bottom reduces gradually, and transmission piece 26 offsets with the top surface of guide bar 28, when connecting rod 24 upward movement, the guide bar 28 top surface that rises gradually pushes up transmission piece 26, transmission piece 26 drives connecting rod 24 and rotates this moment, make connecting rod 24 rotate, die-pin 21 upwards stretches out gradually and dodges the clearance, and spring 27 is stretched gradually, when connecting rod 24 downstream, spring 27's elasticity makes transmission piece 26 offset the top surface at guide bar 28 all the time, and the guide bar 28 top surface that sinks gradually makes transmission piece 26 drive the reversal of connecting rod 24, die-pin 21 withdraws gradually downwards this moment and dodges the clearance, drive die-pin 21 swing when so can realizing the up-and-down activity.

In order to make the sliding of the driving block 26 on the guiding rod 28 smoother, a rotating bearing can be installed on the driving block 26, the outer ring of the rotating bearing is against the top surface of the guiding rod 28, and the rotating bearing can reduce the friction between the driving block 26 and the guiding rod 28 when the driving block 26 and the guiding rod 28 slide relatively.

In practical applications, the first linear actuator 23 may be an electric screw or a pneumatic push rod, the movable end of the first linear actuator 23 is generally connected to the middle of the connecting shaft, and in order to improve the moving stability of the connecting shaft, in this embodiment, two guide shafts 29 are connected in the cavity, the length extending direction of the two guide shafts 29 is parallel to the moving direction of the connecting rod 24, two ends of the connecting rod 24 are both rotatably connected with followers 241, and the two followers 241 are respectively slidably connected to the two guide shafts 29. The follower 241 has various structural forms, such as a slider, which is directly slidably connected to the guide shaft 29 to stabilize the end of the connecting rod 24; or, the guide wheels 241 are adopted, when the connecting rod 24 moves up and down, the guide wheels 241 at the two ends can slide on the two guide rods 28, so that the stability of the connecting rod 24 in the up-and-down movement is improved, and the stability of the supporting rod 21 in supporting the plastic parts is further improved.

As shown in fig. 4, a blanking system includes a frame 6, where the frame 6 is provided with: the pushing assembly comprises a baffle 31 and a pushing piece 32 which are arranged on the rack 6 at intervals along the front-back direction, the pushing piece 32 can move on the rack 6 along the front-back direction, and a limiting gap is formed between the baffle 31 and the pushing piece 32; the feeding component is provided with a feeding piece 41 which can move along the left and right directions in the limit gap; in the auxiliary blanking device, the extension line of the bottom side of the blanking inclined plate 1 intersects with the limiting gap.

The plastic sucking part falls to the limiting gap from the blanking inclined plate 1, then the material pushing part 32 is close to the baffle plate 31, the alignment is adjusted under the limiting effect of the material pushing part 32 and the baffle plate 31, the material feeding part 41 moves to be close to the plastic sucking part, the plastic sucking part is pushed to the next station, the plastic sucking part is rapidly blanked and transferred, and the automatic processing production is facilitated.

Because the thickness of the plastic sucking part is small, when the material pushing part 32 is directly close to the plastic sucking part to push the material, the plastic sucking part easily enters between the material pushing part 32 and the rack 6, and the material cannot be normally pushed, as shown in fig. 3, as a first embodiment of the material pushing assembly, the material pushing assembly comprises a second linear driving part 321 and a first material pushing rod 322, the second linear driving part 321 is connected to the rack 6, the second linear driving part 321 is in driving connection with the first material pushing rod 322, the second linear driving part 321 can drive the first material pushing rod 322 to move in the front-back direction, a plurality of limiting sections are arranged on the first material pushing rod 322 at intervals in the left-right direction, the outer diameter of the limiting sections is smaller than the outer diameter of the first material pushing rod 322, a mounting hole is formed in the material pushing part 32, and the limiting sections are in clearance fit connection with the mounting holes of the material pushing part 32. Because the material pushing part 32 is in clearance fit connection with the limiting section through the mounting hole in the material pushing part 32, under the action of gravity, the material pushing part 32 can droop to abut against the position of the limiting clearance on the rack 6, because the outer diameter of the limiting section is smaller than the outer diameter of the first material pushing rod 322, the axial displacement of the material pushing part 32 on the first material pushing rod 322 can be limited, when the second linear driving part 321 drives the material pushing part 32 to be close to the plastic sucking part, the drooping material pushing part 32 can be ensured to abut against the side edge of the plastic sucking part, the problem that the plastic sucking part directly enters between the material pushing part 32 and the rack 6 and cannot push the plastic sucking part is avoided, and therefore the plastic sucking part is pushed to be close to the baffle 31.

As a second embodiment of the pushing assembly, the pushing assembly includes a third linear driving element 323 and a second pushing rod 324, the third linear driving element 323 is connected to the frame 6, the third linear driving element 323 is connected to the second pushing rod 324 in a driving manner, the third linear driving element 323 can drive the second pushing rod 324 to move in the front-back direction, the pushing element 32 is in a hook shape with an opening facing the baffle 31, the second pushing rod 324 is connected to a plurality of pushing elements 32, and a movable gap 61 is provided at a position on the frame 6 facing the plurality of pushing elements 32. The movable gap 61 is a space for the pushing element 32 to reciprocate on the frame 6 in a linear direction, the third linear driving element 323 can directly drive the pushing element 32 to abut against the side edge of the plastic-absorbing element through the second pushing rod 324, and when the pushing element 32 is close to the baffle 31, the hooked pushing element 32 can stably push the plastic-absorbing element to the baffle 31.

The feeding assembly is mainly used for pushing out the plastic parts in the limiting gap, and in this embodiment, the feeding assembly includes a translational driving member 42 connected to the rack 6, and a lifting driving member 43 connected to the translational driving member 42, the translational driving member 42 can drive the lifting driving member 43 to move in the left-right direction, the feeding member 41 is connected to the lifting driving member 43, and the lifting driving member 43 can drive the feeding member 41 to move up and down. Translation driving piece 42 and lift driving piece 43 provide respectively to pay-off piece 41 along the drive power of left and right, upper and lower direction, and when the plastic sucking piece was passed to pay-off piece 41 needs, translation driving piece 42 and lift driving piece 43 drive pay-off piece 41 translation respectively, move down and be close to spacing clearance, and when pay-off piece 41 needs to reset, translation driving piece 42 and lift driving piece 43 drive pay-off piece 41 translation respectively, move up and keep away from spacing clearance.

In practical applications, the second linear driver 321, the third linear driver 323, the translational driver 42 and the lifting driver 43 are all used for providing the driving force along the linear direction, and the structure forms thereof are various, such as an electric screw rod or a pneumatic push rod.

The utility model discloses still include the unloading subassembly, the unloading subassembly includes flitch 51, striker plate 52, separation head 53 and gag lever post 54, the flitch 51 connect in the frame 6, the flitch 51 is along being close to the direction slope downwardly extending of unloading swash plate 1, keep off work or material rest 52 connect in the bottom side of flitch 51, separation head 53 connect in on the fender work or material rest 52, its mainly used absorbs the plastic uptake, and separation head 53 can drive the sucking disc and be close to the plastic uptake including connecting the sucking disc on the translation cylinder, and the plastic uptake is absorb by the sucking disc, then drives the sucking disc by the translation cylinder and keeps away from the plastic uptake, can separate out the plastic uptake, it has at least two to keep off the work or material rest 52 along the horizontal direction interval connection gag lever post 54. The plastic part that piles up can keep flat or erect and put the top side at the discharge plate 51 to carry on spacingly by two at least gag lever post 54 to the side that piles up the material, avoid the plastic part to turn on one's side, whole plastic part that piles up inclines to keeping off the material frame 52, the plastic part separation that will be closest to keeping off material frame 52 one side is separated one by separation head 53, and put down in unloading swash plate 1 top, the plastic part directly drops to unloading swash plate 1 on, accomplish foretell unloading, the transfer action, so can realize automatic material loading, and efficiency is higher, it is much less to occupy the volume, the operation is also more steady.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above-described embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are to be included within the scope of the present invention defined by the claims.

Claims (10)

1. The utility model provides an auxiliary blanking device which characterized in that: the method comprises the following steps:

the blanking device comprises a blanking inclined plate (1) extending downwards in an inclined mode, wherein an avoiding gap is formed in the blanking inclined plate (1), and the avoiding gap extends along the inclined direction of the blanking inclined plate (1); a plurality of avoiding gaps are arranged on the blanking sloping plate (1) at intervals;

the material supporting component comprises a movable driving part and supporting rods (21), the movable driving part is located on the bottom side of the blanking sloping plate (1), the supporting rods (21) are multiple in number, the supporting rods (21) are connected to the movable driving part, one ends of the supporting rods (21) extend upwards from the avoidance gaps respectively, and the movable driving part can drive the supporting rods (21) to move in a reciprocating mode along the sloping direction of the blanking sloping plate (1).

2. An auxiliary blanking device according to claim 1, characterized in that: still include shell (22), unloading swash plate (1) is located the top side of shell (22), unloading swash plate (1) with enclose between shell (22) and establish and be formed with the cavity, the activity drive includes first linear drive spare (23), connecting rod (24) and connecting block (25), first linear drive spare (23) connect in the cavity, connecting rod (24) are followed dodge the array orientation level in clearance and extend, connecting rod (24) connect in the activity of first linear drive spare (23) is served, first linear drive spare (23) can drive connecting rod (24) are followed the incline direction reciprocating motion of unloading swash plate (1), be connected with a plurality of connecting block (25) on connecting rod (24), it is a plurality of die-pin (21) are connected respectively in a plurality of on connecting block (25).

3. An auxiliary blanking device according to claim 2, characterized in that: the material supporting assembly further comprises a telescopic part, the telescopic part is connected to the connecting rod (24), and when the connecting rod (24) moves downwards, the telescopic part drives the supporting rod (21) to downwards exit the avoiding gap through the connecting rod (24); when the connecting rod (24) moves upwards, the telescopic part drives the supporting rod (21) to extend upwards out of the avoiding gap through the connecting rod (24).

4. An auxiliary blanking device according to claim 3, characterized in that: the telescopic part comprises a transmission block (26), a spring (27) and a guide rod (28), the guide rod (28) is connected to the inner bottom surface of the cavity, the height of the guide rod (28) is gradually reduced from top to bottom, the transmission block (26) is connected to the connecting rod (24), the connecting rod (24) is rotatably connected to the movable end of the first linear driving piece (23), the rotation axis of the connecting rod (24) is parallel to the central line of the connecting rod, the transmission block (26) is abutted to the top surface of the guide rod (28), one end of the spring (27) is connected to the movable end of the first linear driving piece (23), the other end of the spring (27) is connected to any one of the connecting blocks (25), and the spring (27) has a downward pulling trend of the connecting blocks (25).

5. An auxiliary blanking device according to claim 2, characterized in that: be connected with two guiding axle (29) in the cavity, two the length extending direction of guiding axle (29) with the moving direction of connecting rod (24) is parallel to each other, the both ends of connecting rod (24) are all rotated and are connected with follower (241), two follower (241) sliding connection respectively in two on guiding axle (29).

6. The utility model provides a blanking system which characterized in that: including frame (6), be provided with on frame (6):

the pushing assembly comprises baffle plates (31) and pushing pieces (32) which are arranged on the rack (6) at intervals in the front-back direction, the pushing pieces (32) can move on the rack (6) in the front-back direction, and a limiting gap is formed between the baffle plates (31) and the pushing pieces (32);

the feeding component is provided with a feeding piece (41) which can move in the limiting gap along the left-right direction;

the auxiliary blanking device as claimed in any one of claims 1 to 5, wherein the extension line of the bottom side of the blanking sloping plate (1) intersects with the limit gap.

7. The blanking system of claim 6, wherein: the material pushing assembly comprises a second linear driving piece (321) and a first material pushing rod (322), the second linear driving piece (321) is connected to the rack (6), the second linear driving piece (321) is in driving connection with the first material pushing rod (322), the second linear driving piece (321) can drive the first material pushing rod (322) to move along the front and back direction, a plurality of limiting sections are arranged on the first material pushing rod (322) along the left and right direction at intervals, the outer diameter of each limiting section is smaller than that of the first material pushing rod (322), a mounting hole is formed in the material pushing piece (32), and the limiting sections are in clearance fit connection with the mounting hole of the material pushing piece (32).

8. The blanking system of claim 6, wherein: the material pushing assembly comprises a third linear driving piece (323) and a second material pushing rod (324), the third linear driving piece (323) is connected to the rack (6), the third linear driving piece (323) is in driving connection with the second material pushing rod (324), the third linear driving piece (323) can drive the second material pushing rod (324) to move along the front and back direction, the material pushing piece (32) is in an opening shape and faces the hook shape of the baffle (31), the second material pushing rod (324) is connected with a plurality of material pushing pieces (32), and the rack (6) is provided with a movable gap (61) at the position of the material pushing piece (32).

9. The blanking system of claim 6, wherein: the feeding assembly comprises a translation driving piece (42) connected to the rack (6) and a lifting driving piece (43) connected to the translation driving piece (42), the translation driving piece (42) can drive the lifting driving piece (43) to move in the left-right direction, the feeding piece (41) is connected to the lifting driving piece (43), and the lifting driving piece (43) can drive the feeding piece (41) to move up and down.

10. The blanking system of claim 6, wherein: still include the unloading subassembly, the unloading subassembly includes row flitch (51), keeps off material frame (52), separation head (53) and gag lever post (54), row flitch (51) connect in on frame (6), row flitch (51) are along being close to the direction slope downwardly extending of unloading swash plate (1), keep off material frame (52) connect in the bottom side of row flitch (51), separation head (53) connect in keep off on material frame (52), it has at least two to keep off material frame (52) go up along the horizontal direction interval connection gag lever post (54).

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