CN214448707U - Double-station shaping equipment - Google Patents

Abstract

The utility model discloses a duplex position plastic equipment, comprises a workbench, be provided with rotatory windrow mechanism, rotatory feed mechanism, liftout transport mechanism, push down plastic mechanism, X to plastic mechanism, conveyer belt and Y to plastic mechanism on the workstation, rotatory windrow mechanism sets up in rotatory feed mechanism the place ahead, liftout transport mechanism sets up at rotatory feed mechanism rear, push down plastic mechanism sets up in liftout transport mechanism top, X sets up at liftout transport mechanism rear to plastic mechanism, the conveyer belt sets up at X to plastic mechanism rear, Y sets up in conveyer belt one side to plastic mechanism, wherein the directional Y of the transmission direction of conveyer belt to plastic mechanism. The utility model discloses an automatic plastic of glued iron frame, and efficient, improved machining efficiency greatly.

Description

Double-station shaping equipment

Technical Field

The utility model relates to an automation equipment technical field specifically is a duplex position plastic equipment.

Background

The development of modern production and scientific technology puts higher and higher requirements on the automation technology, and simultaneously provides necessary conditions for the innovation of the automation technology. The automatic technology can not only liberate people from heavy physical labor, partial mental labor and severe and dangerous working environments, but also expand the functions of human organs, greatly improve the labor productivity and enhance the ability of human to know the world and transform the world.

In mobile phone electronic equipment, the backlight need be installed through the laminating of glued iron frame, and this glued iron frame can carry out injection moulding in process of production, and injection moulding accomplishes the back, and glued iron frame body can lead to glued iron frame to produce the bending deformation of different degrees through the high temperature influence, so need revise its current situation through the trimmer earlier, makes things convenient for backlight and glued iron frame laminating installation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a duplex position plastic equipment possesses the advantage that production efficiency is high, has solved the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a duplex position plastic equipment, includes the workstation, be provided with rotatory windrow mechanism, rotatory feed mechanism, liftout transport mechanism, push down plastic mechanism, X to plastic mechanism, conveyer belt and Y to plastic mechanism on the workstation, rotatory windrow mechanism sets up in rotatory feed mechanism the place ahead, liftout transport mechanism sets up at rotatory feed mechanism rear, push down plastic mechanism sets up in liftout transport mechanism top, X is to plastic mechanism setting at liftout transport mechanism rear, the conveyer belt sets up at X to plastic mechanism rear, Y is to plastic mechanism setting in conveyer belt one side, wherein the directional Y of the transmission direction of conveyer belt to plastic mechanism.

Preferably, rotatory windrow mechanism includes first rotatory module, material platform and two sets of first Z axle modules, first rotatory module and two sets of first Z axle modules set up in the workstation below, first rotatory module upper end is run through the workstation and is connected with the material platform, the material bench is equipped with four blowing frames, and these four blowing frames are the array distribution, and are two sets of Z axle module upper end all is provided with the ejector pad, is provided with two first through-holes that can supply the ejector pad to pass on the workstation, blowing frame lower extreme is equipped with the second through-hole, the shape size and the first through-hole looks adaptation of second through-hole, and two second through-holes that are located the rear are located two first through-holes respectively directly over.

Preferably, the rotary feeding mechanism comprises a second rotary module, a connecting plate and two cylinders, the second rotary module is arranged on the workbench, the upper end of the second rotary module is connected with the connecting plate, two ends of the connecting plate are respectively connected with the two cylinders, and the lower ends of the cylinders are connected with suction nozzles.

Preferably, the liftout transport mechanism includes material support frame and two sets of XZ axle modules, parallel arrangement has two flutings on the material support frame, and is two sets of XZ axle module is located two flutings below respectively, and is two sets of all be provided with the kicking block on the XZ axle module, two both ends all are provided with first portion and second portion of propping up around on the kicking block, and first portion and second portion of propping up can make a round trip to slide in the fluting.

Preferably, the downward pressing and shaping mechanism comprises a second Z-axis module, the lower end of the second Z-axis module is connected with two pressing blocks, the two pressing blocks are respectively positioned above the two slots, and the bottom surface of each pressing block is an upward curved cambered surface.

Preferably, the X-direction shaping mechanism comprises a first support and first driving components symmetrically arranged on two sides of the first support, each first driving component comprises a first support plate and a first motor, a first driving wheel, a first driven wheel and a second driven wheel are arranged on the first support plate, the first motor is connected with the first driving wheel, the first driven wheel and the second driven wheel are connected in a linkage manner by being coated on the outer side of the circumference through a belt, two first rectangular frames which are hollow and communicated are arranged in the first support, a first upper roller group and a first lower roller group are connected in each of the two first rectangular frames, a first gear group and a second gear group are arranged on the outer side of the first support, the first gear group and the second gear group penetrate through the first support and are respectively connected with the first upper roller group and the first lower roller group, and the first driven wheel is connected with the first gear group through a coupler, the second driven wheel is connected with the second gear set through a coupler, and the rotating directions of the first upper roller set and the first lower roller set are opposite.

Preferably, the Y-direction shaping mechanism comprises a second support and a second driving assembly arranged on one side of the second support, the second driving assembly comprises a second support plate and a second motor, a second driving wheel, a third driven wheel and a fourth driven wheel are arranged on the second support plate, the second motor is connected with the second driving wheel, the third driven wheel and the fourth driven wheel are coated on the outer side of the circumference through a belt and are in linkage connection, the second support is provided with a hollow through second rectangular frame, a second upper roller group and a second lower roller group are connected inside the second rectangular frame, a third gear group and a fourth gear group are arranged on the outer side of the second support, the third gear group and the fourth gear group penetrate through the second support and are respectively connected with the second upper roller group and the second lower roller group, and the third driven wheel is connected with the third gear group through a coupler, the fourth driven wheel is connected with the fourth gear set through a coupler, and the rotating directions of the second upper roller set and the second lower roller set are opposite.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses a rotatory windrow mechanism is used for piling up and deposits the material, rotatory feed mechanism can remove the material fluting front end, first branch on the liftout transport mechanism removes the material to pushing down plastic mechanism below, pushing down plastic mechanism pushes down and carries out a plastic to the material, second branch on the liftout transport mechanism removes the material of fluting rear end and goes into X to plastic mechanism, X carries out the second plastic to the material to plastic mechanism, feed the transmission band side by side, the conveyer belt removes the material and sends into Y to plastic mechanism, Y is to plastic mechanism third time plastic to the material, the effect of automatic material plastic has been realized, and production efficiency has been improved greatly.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a top view of the present invention;

fig. 3 is a schematic structural view of the rotary stacking mechanism of the present invention;

fig. 4 is a schematic structural view of the rotary feeding mechanism of the present invention;

FIG. 5 is a schematic structural view of the material ejecting and transporting mechanism of the present invention;

fig. 6 is a schematic structural view of the push-down shaping mechanism of the present invention;

fig. 7 is a schematic structural view of the X-directional shaping mechanism of the present invention;

fig. 8 is a schematic structural view of the Y-directional shaping mechanism of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 8, the present invention provides an embodiment: the utility model provides a duplex position plastic equipment, comprises a workbench 1, be provided with rotatory windrow mechanism 2 on the workstation 1, rotatory feed mechanism 3, liftout transport mechanism 4, push down plastic mechanism 5, X is to plastic mechanism 6, conveyer belt 7 and Y are to plastic mechanism 8, rotatory windrow mechanism 2 sets up in rotatory feed mechanism 3 the place ahead, liftout transport mechanism 4 sets up in rotatory feed mechanism 3 rear, push down plastic mechanism 5 and set up in liftout transport mechanism 4 top, X sets up in liftout transport mechanism 4 rear to plastic mechanism 6, conveyer belt 7 sets up in X to plastic mechanism 6 rear, Y sets up in conveyer belt 7 one side to plastic mechanism 8, wherein the directional Y of transmission direction of conveyer belt 7 is to plastic mechanism 8. The material processed by the embodiment is a rectangular rubber frame 9.

Specifically, rotatory windrow mechanism 2 includes first rotatory module 21, material platform 22 and two sets of first Z axle module 23, first rotatory module 21 upper end is run through workstation 1 and is connected with material platform 22, first rotatory module 21 rotatable animal material platform 180, four blowing frames 26 on the material platform 22 are used for putting the glued membrane frame 9, these four blowing frames 26 are the array distribution, two sets of Z axle module 23 upper ends all are provided with ejector pad 24, be provided with two first through-holes that can supply ejector pad 24 to pass on the workstation 1, blowing frame 26 lower extreme is equipped with second through-hole 25, the shape size and the first through-hole looks adaptation of second through-hole 25, and two second through-holes 25 that are located the rear are located two first through-holes respectively directly over. The first Z-axis module 23 is used to push the rubber frame 9 to a proper height, and is matched with the rotary feeding mechanism 3 for feeding.

Specifically, the rotary feeding mechanism 3 comprises a second rotary module 31, a connecting plate 32 and two cylinders 33, the second rotary module 31 is arranged on the workbench 1, the upper end of the second rotary module 31 is connected with the connecting plate 32, two ends of the connecting plate 32 are respectively connected with the two cylinders 33, the lower end of each cylinder 33 is connected with a suction nozzle 34, the cylinders 33 control the suction nozzles 34 to move downwards, the suction nozzle 34 at the front end adsorbs and connects with the rubber frame 9 on the discharging frame 26, then the cylinders 33 perform a vertical reciprocating motion, if another rubber frame 9 is adhered below the rubber frame 9 which is adsorbed and connected, the rubber frame 9 can be vibrated down through vibration to prevent the rubber frame 9 from overlapping, then the second rotary module 31 rotates the connecting plate 32 by 180 degrees, the suction nozzle 34 at one side with the rubber frame 9 is separated from being connected with the rubber frame 9, the suction nozzle 34 at the other side adsorbs and connects with the rubber frame 9 on the discharging frame 26 at the same time, the uncoupled glue frame 9 reaches the front end of the slot 43.

Specifically, the liftout transport mechanism 4 includes a material support frame 41 and two sets of XZ axis modules 42, two slots 43 are arranged in parallel on the material support frame 41, the two sets of XZ axis modules 42 are located below the two slots 43 respectively, the two sets of XZ axis modules 42 are provided with ejector blocks 44, a first supporting portion 45 and a second supporting portion 46 are arranged at front and rear ends of the two ejector blocks 44, the first supporting portion 45 and the second supporting portion 46 can slide back and forth in the slots 43, the XZ axis modules 42 drive the first supporting portion 45 and the second supporting portion 46 on the ejector blocks 44 to move simultaneously, wherein the first supporting portion 45 is used for moving the rubber frame 9 at the front end of the slot 43 to the rear end of the slot 43 (namely, the lower portion of the shaping mechanism 5 is pressed down), and the second supporting portion 46 moves the rubber frame 9 at the rear end of the slot 43 into the X-direction shaping mechanism 6.

Specifically, push down plastic mechanism 5 and include second Z axle module 51, second Z axle module 51 lower extreme all is connected with two briquetting 52, two briquetting 52 are located two fluting 43 tops respectively, and briquetting 52 bottom surface is the ascending cambered surface of curve, because of the serious bending deformation of part indisputable frame 9, it is unable that indisputable frame 9 gets into X to plastic mechanism 6 in, it pushes down the plastic to drive the briquetting 52 through second Z axle module 51 to the indisputable frame 9 of fluting 43 rear end, reduce its deformation situation, can make it get into X to plastic mechanism 6.

Specifically, the X-directional shaping mechanism 6 includes a first support 61 and first driving components symmetrically disposed at two sides of the first support 61, the first driving components include a first support plate 62 and a first motor 63, the first support plate 62 is provided with a first driving wheel 64, a first driven wheel 65 and a second driven wheel 66, the first motor 63 is connected with the first driving wheel 64, the first driven wheel 65 and the second driven wheel 66 are coated on the outer side of the circumference by a belt and are connected in a linkage manner, two first rectangular frames which are hollow and through are disposed inside the first support 61, a first upper roller set 67 and a first lower roller set 68 are connected inside the two first rectangular frames, a first gear set 69 and a second gear set 70 are disposed outside the first support 61, the first gear set 69 and the second gear set 70 penetrate through the first support 61 and are respectively connected with the first upper roller set 67 and the first lower roller set 68, the first driven pulley 65 is coupled to the first gear set 69, the second driven pulley 66 is coupled to the second gear set 70, the first upper roller set 67 and the first lower roller set 68 rotate in opposite directions, wherein the first gear set 69 and the second gear set 70 are formed by meshing a plurality of driving gears and steering gears, the first upper roller set 67 and the first lower roller set 68 are formed by a plurality of rollers, the rollers of the first upper roller set 67 are positioned on the same horizontal line, the first lower roller set 68 is positioned on the same horizontal line, the first upper roller set 67 and the first lower roller set 68, the driving gear is connected with the rollers, and through the meshing of steering gears, a plurality of rollers of the first upper roller group 67 rotate in the same direction, a plurality of rollers of the first lower roller group 68 rotate in the same direction, and the first upper roller group 67 and the first lower roller group 68 press and shape the rubber iron frame 9 in parallel and drive the rubber iron frame to the transmission belt 7.

Specifically, the Y-direction shaping mechanism 8 includes a second support 81 and a second driving assembly disposed on one side of the second support 81, the second driving assembly includes a second support plate 82 and a second motor 83, the second support plate 82 is provided with a second driving wheel 84, a third driven wheel 85 and a fourth driven wheel 86, the second motor 83 is connected with the second driving wheel 84, the third driven wheel 85 and the fourth driven wheel 86 are covered on the outer side of the circumference by a belt and are connected in a linkage manner, the second support 81 is provided with a hollow through second rectangular frame, the second rectangular frame is internally connected with a second upper roller group 87 and a second lower roller group 88, the outer side of the second support 81 is provided with a third gear group 89 and a fourth gear group 90, the third gear group 89 and the fourth gear group 90 penetrate through the second support 81 and are respectively connected with the second upper roller group 87 and the second lower roller group 88, the third driven wheel 85 is connected with the third gear group 89 by a coupling, the fourth driven wheel 86 is connected with a fourth gear set 90 through a coupler, the rotation directions of the second upper roller set 87 and the second lower roller set 88 are opposite, the third gear set 89 and the fourth gear set 90 are formed by meshing a plurality of driving gears and steering gears, the second upper roller set 87 and the second lower roller set 88 are formed by a plurality of rollers, the rollers of the second upper roller set 87 are positioned on the same horizontal line, the second lower roller set 88 is positioned on the same horizontal line, the driving gears are connected with the rollers and meshed through the steering gears, so that the plurality of rollers of the second upper roller set 87 rotate in the same direction, the plurality of rollers of the second lower roller set 88 rotate in the same direction, and the second upper roller set 87 and the second lower roller set 88 press and shape the rubber iron frame 9 in parallel.

The first driven wheel 65, the second driven wheel 66, the third driven wheel 85 and the fourth driven wheel 86 are all connected with couplings, and the couplings can increase the torsion of the driven wheels and the gear set and prevent the breakage caused by insufficient torsion.

The working principle is as follows: when the utility model works, firstly, the adhesive frame 9 is fully placed through manual feeding, the air cylinder 33 controls the suction nozzle 34 to move downwards, the suction nozzle 34 at the front end adsorbs and connects the adhesive frame 9 on the discharging frame 26, then the air cylinder 33 performs a reciprocating motion up and down, the second rotary module 31 rotates the connecting plate 32 by 180 degrees, the suction nozzle 34 at one side of the adhesive frame 9 is separated from the connection with the adhesive frame 9, the suction nozzle 34 at the other side simultaneously adsorbs and connects the adhesive frame 9 on the discharging frame 26, the separated adhesive frame 9 reaches the front end of the slot 43, the first support 45 moves the adhesive frame 9 at the front end of the slot 43 to the rear end of the slot 43, the second Z-axis module 51 drives the pressing block 52 to press and shape the adhesive frame 9 at the rear end of the slot 43, the second support 46 moves the adhesive frame 9 at the rear end of the slot 43 into the X-direction shaping mechanism 6, the first upper roller set 67 and the first lower roller set 68 press and shape the adhesive frame 9 in parallel, and drive the transmission band 7, the transmission band 7 moves the rubber frame 9 into the Y-direction shaping mechanism 8, the second upper roller group 87 and the second lower roller group 88 press-fit and shape the rubber frame 9 in parallel, the rubber frame 9 can be shaped to be straight, and the backlight source can be attached more easily.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. A duplex position plastic equipment, includes workstation (1), its characterized in that: the automatic feeding and shaping device is characterized in that a rotary stacking mechanism (2), a rotary feeding mechanism (3), an ejection conveying mechanism (4), a downward pressing shaping mechanism (5), an X-direction shaping mechanism (6), a conveyor belt (7) and a Y-direction shaping mechanism (8) are arranged on the workbench (1), the rotary stacking mechanism (2) is arranged in front of the rotary feeding mechanism (3), the ejection conveying mechanism (4) is arranged behind the rotary feeding mechanism (3), the downward pressing shaping mechanism (5) is arranged above the ejection conveying mechanism (4), the X-direction shaping mechanism (6) is arranged behind the ejection conveying mechanism (4), the conveyor belt (7) is arranged behind the X-direction shaping mechanism (6), the Y-direction shaping mechanism (8) is arranged on one side of the conveyor belt (7), and the transmission direction of the conveyor belt (7) points to the Y-direction shaping mechanism (8).

2. The double-station shaping device according to claim 1, wherein: the rotary stacking mechanism (2) comprises a first rotary module (21), a material table (22) and two groups of first Z-axis modules (23), the first rotating module (21) and two groups of first Z-axis modules (23) are arranged below the workbench (1), the upper end of the first rotating module (21) penetrates through the workbench (1) and is connected with the material platform (22), four material placing frames (26) are arranged on the material platform (22), the four discharging frames (26) are distributed in an array, the upper ends of the two groups of Z-axis modules (23) are respectively provided with a pushing block (24), the workbench (1) is provided with two first through holes for the pushing blocks (24) to pass through, the lower end of the discharging frame (26) is provided with a second through hole (25), the shape and the size of the second through hole (25) are matched with those of the first through hole, and two second through holes (25) positioned at the rear are respectively positioned right above the two first through holes.

3. The double-station shaping device according to claim 1, wherein: rotatory feed mechanism (3) include second rotation module (31), connecting plate (32) and two cylinders (33), second rotation module (31) set up on workstation (1), and second rotation module (31) upper end is connected with connecting plate (32), connecting plate (32) both ends are connected with two cylinders (33) respectively, every cylinder (33) lower extreme all is connected with suction nozzle (34).

4. The double-station shaping device according to claim 1, wherein: liftout transport mechanism (4) are including material support frame (41) and two sets of XZ axle module (42), parallel arrangement has two fluting (43), and is two sets of on material support frame (41) XZ axle module (42) are located two fluting (43) below respectively, and are two sets of all be provided with kicking block (44) on XZ axle module (42), two both ends all are provided with first branch portion (45) and second branch portion (46) around kicking block (44) is gone up, and first branch portion (45) and second branch portion (46) can make a round trip to slide in fluting (43).

5. The double-station shaping device according to claim 1, wherein: the downward pressing and shaping mechanism (5) comprises a second Z-axis module (51), the lower end of the second Z-axis module (51) is connected with two pressing blocks (52), the two pressing blocks (52) are respectively positioned above the two slots (43), and the bottom surface of each pressing block (52) is an upward curved cambered surface.

6. The double-station shaping device according to claim 1, wherein: the X-direction shaping mechanism (6) comprises a first support (61) and first driving components symmetrically arranged on two sides of the first support (61), each first driving component comprises a first support plate (62) and a first motor (63), a first driving wheel (64), a first driven wheel (65) and a second driven wheel (66) are arranged on each first support plate (62), each first motor (63) is connected with the corresponding first driving wheel (64), each first driven wheel (65) and each second driven wheel (66) are coated on the outer side of the circumference through a belt and are in linkage connection, two first rectangular frames which are hollow and penetrating are arranged inside the first support (61), a first upper roller group (67) and a first lower roller group (68) are connected inside each first rectangular frame, and a first gear group (69) and a second gear group (70) are arranged on the outer side of the first support (61), first gear train (69) run through first support (61) with second gear train (70) and are connected with first last roller group (67) and first roller group (68) respectively, first follow driving wheel (65) passes through the coupling joint with first gear train (69), second follow driving wheel (66) passes through the coupling joint with second gear train (70), the rotation direction of first last roller group (67) and first roller group (68) is opposite.

7. The double-station shaping device according to claim 1, wherein: the Y-direction shaping mechanism (8) comprises a second support (81) and a second driving assembly arranged on one side of the second support (81), the second driving assembly comprises a second support plate (82) and a second motor (83), a second driving wheel (84), a third driven wheel (85) and a fourth driven wheel (86) are arranged on the second support plate (82), the second motor (83) is connected with the second driving wheel (84), the third driven wheel (85) and the fourth driven wheel (86) are coated on the outer side of the circumference through a belt and are in linkage connection, the second support (81) is provided with a hollow through second rectangular frame, a second upper roller group (87) and a second lower roller group (88) are connected inside the second rectangular frame, and a third gear group (89) and a fourth gear group (90) are arranged on the outer side of the second support (81), third gear train (89) run through second support (81) with fourth gear train (90) and are connected with roller group (87) and second lower roller group (88) respectively on the second, the third is followed driving wheel (85) and is passed through the coupling joint with third gear train (89), the fourth is followed driving wheel (86) and is passed through the coupling joint with fourth gear train (90), the rotation direction of roller group (87) and second lower roller group (88) is opposite on the second.

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