CN212124073U - Injection molding production line for cosmetic packaging bottle caps - Google Patents

Abstract

The utility model discloses an injection moulding line of cosmetics packaging bottle lid, including injection molding machine and feed arrangement, the injection molding machine includes feed inlet and mould portion of placing, feed arrangement is located the feed inlet directly over, the top of mould portion of placing is provided with injection molding material take-out mechanism, injection molding material take-out mechanism includes that horizontal migration device, injection molding suction means and waste material press from both sides and get the device, horizontal migration device fixed mounting is in the top of injection molding machine, injection molding suction means and waste material press from both sides and get the device and install on horizontal migration device, injection molding suction means and waste material press from both sides and get the device and include installation piece, long stroke cylinder, protecting sheathing, anticollision buffer gear. The utility model discloses can take out the injection molding machine with the waste material that produces of moulding plastics simultaneously to place injection molding neatly range and transport on conveyer, cut the waste material of will moulding plastics and collect the processing.

Description

Injection molding production line for cosmetic packaging bottle caps

Technical Field

The utility model relates to a cosmetic bottle lid production technical field especially relates to an injection moulding line of cosmetic packaging bottle lid.

Background

The cosmetic is a chemical industrial product or fine chemical product which is applied, sprayed or the like to any part of the surface of a human body to keep the good state. Cosmetics need to be packaged in cosmetic packaging bottles when being sold, and the bottle caps of the packaging bottles are important parts of packaging and are the places where consumers firstly contact with the cosmetics. The bottle cap has the functions of keeping the sealing performance and the safety of the content products, so that the bottle cap is widely applied to bottled products.

The plastic cosmetic bottle cap is produced by injection molding of an injection molding machine, eight bottle caps can be simultaneously injected in a pair of molds for producing the cosmetic bottle cap, and then the bottle caps are taken out of the molds through a movable material taking device, so that the next-wave bottle cap injection molding production is continued. However, the removal and transportation of injection molded parts during injection molding production and the disposal of waste materials generated during injection molding are problems in the prior art, and the inability to remove the injection molded parts and the waste materials simultaneously affects the speed of injection molding production. In order to improve the production efficiency, the device is required to take the injection molding part and the waste material out of the mold together, and the taken injection molding part needs to be placed on a conveyor belt to be conveyed to a subsequent station for further processing. And the waste material then need collect the centralized processing and carry out the reutilization, but because the waste material that produces in the mould of production cosmetic bottle lid is great, need the manual work to cut it can be better further processing, the mode inefficiency of adopting the manual work to cut the waste material. Adopt artifical mode to need a large amount of manpowers, compare in mechanical automation equipment inefficiency, increased manufacturing cost moreover.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a bottle lid of cosmetics packaging bottle can take out the injection molding and the waste material of moulding plastics simultaneously from the injection molding machine after accomplishing to place injection molding neatly range on conveyer and transport, will mould plastics the waste material and cut and collect the injection moulding line of the cosmetics packaging bottle lid of processing.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides an injection moulding line of cosmetics packaging bottle lid, includes injection molding machine and feed arrangement, the injection molding machine includes that feed inlet and mould place the portion, feed arrangement is located the feed inlet directly over, its characterized in that: an injection molding material taking-out mechanism is arranged above the mold placing part and comprises a horizontal moving device, an injection molding part suction device and a waste material clamping device, the horizontal moving device is fixedly arranged above the injection molding machine, the injection molding part suction device and the waste material clamping device are arranged on the horizontal moving device, the injection molding part suction device and the waste material clamping device comprise an installation block, a long-stroke cylinder, a protective shell and an anti-collision buffer mechanism, the cylinder body of the long-stroke cylinder is fixedly connected onto the installation block, the lower end of the protective shell is fixedly connected with the lower end of a piston rod of the long-stroke cylinder, the inner wall of the protective shell is provided with a first sliding rail along the length direction, the side wall of the installation block close to the long-stroke cylinder is provided with a first sliding groove, the first sliding rail is slidably embedded inside the first sliding groove, and the anti-collision buffer mechanism, one side of injection molding machine is provided with injection molding conveyer, the conveyer rear side is provided with the garbage collection device, be provided with the waste material directly over the garbage collection device and cut the mechanism, the waste material is cut mechanism fixed connection and is on the horizontal migration device.

Through the technical scheme, the male die and the female die are separated after the injection molding of the injection molding part is completed, the injection molding material taking-out mechanism moves between the male die and the female die through the horizontal moving device to take out the injection molding part and waste materials from the male die and the female die respectively and simultaneously, and then the injection molding material taking-out mechanism is moved out of the injection molding machine through the horizontal moving device. The protection casing can move downwards together with the piston rod under the effect of piston rod, and slide rail one on the protection casing moves in spout one when the protection casing reciprocates under the effect with the piston rod, can improve the stability when the protection casing removes to can not produce when guaranteeing to absorb and the waste material clamp gets at the injection molding and rock, guarantee can absorb the injection molding simultaneously accurately and press from both sides and get the waste material. The anti-collision buffer mechanism can play a role in buffering a piston rod of the long-stroke cylinder when the piston rod falls down, and the tail end of the stroke of the piston rod is prevented from generating large impact force to damage an end cover of the cylinder. The injection molding conveying device can transport the injection molding to the position of the next working procedure for further processing. When the waste material clamping device clamps the waste material to the waste material collecting device directly over, the waste material shearing mechanism can shear the waste material, so that the waste material falls into the waste material collecting device.

The utility model discloses still further set up to: the horizontal migration device includes erection column, base, lead screw drive mechanism and removal portion, erection column fixed connection is in the upper end of injection molding machine, the one end of injection molding machine is kept away from at the erection column to the lower extreme fixed connection of base, lead screw drive mechanism sets up in the upper end of base, lead screw drive mechanism includes the spiral shell cover seat, removal portion fixed connection is in the upper end of spiral shell cover seat, one side fixedly connected with shifting arm that removal portion is close to the mould and places the portion.

Through above-mentioned technical scheme, the removal portion can carry out horizontal migration under screw drive mechanism's effect, gets injection molding suction means and waste material clamp promptly and gets the device and remove along the length direction of base simultaneously to accomplish and get the material and the operation that the blowing still returned, improve and get material speed and injection molding production efficiency.

The utility model discloses still further set up to: screw rod drive mechanism still includes the slide, controls lead screw and servo motor, the slide sets up in the base upper end along the length direction of base, be provided with the sliding block on the slide, servo motor sets up in the one end of base, the one end that servo motor was kept away from to the base is provided with the bearing frame, control the one end of lead screw and fix in the bearing frame, control the pivot fixed connection that shaft coupling and servo motor were passed through to the one end that the bearing frame was kept away from to the lead screw, the swivel nut seat cover is located and is controlled on the lead screw and fixed connection in the sliding block upper end.

Through above-mentioned technical scheme, thereby start servo motor and drive the rotatory screw sleeve seat of left and right sides lead screw and remove on controlling the lead screw, control servo motor's direction of rotation can change the direction of motion of screw sleeve seat, and the screw sleeve seat removes together in sliding block word slide when removing, can increase the stability that the screw sleeve seat removed.

The utility model discloses still further set up to: the injection molding suction means still includes removal subassembly and injection molding suction means, the removal subassembly sets up on the lateral wall that the removal arm is close to the mould portion of placing, injection molding suction means's installation piece fixed connection is on removing the subassembly, injection molding suction means fixed connection is in protecting sheathing's bottom.

Through above-mentioned technical scheme, the injection molding absorbs the subassembly and can absorb and take out the injection molding on the mould, because the injection molding on the mould inlays and locates on the mould and the mould at injection molding place is located the inside of injection molding machine, so need the injection molding to absorb the subassembly and move down earlier to the position with the mould co-altitude, then carry out horizontal migration to the direction of mould, the removal subassembly can make the injection molding absorb the subassembly and move to the mould direction.

The utility model discloses still further set up to: the movable assembly comprises a second sliding rail, a first cylinder and a first cylinder fixing block, the second sliding rail is fixed on the side wall of the movable arm along the length direction of the movable arm, the installation block is close to the side wall of the movable arm and is provided with a second sliding groove, the second sliding rail can be slidably embedded in the second sliding groove, the first cylinder is arranged below the installation block and fixedly connected to the lower end of the installation block, the one end of the first cylinder fixing block is fixedly connected to the end of a piston rod of the first cylinder, and the one end of the first cylinder is fixedly connected to the movable arm.

Through the technical scheme, the piston rod of the first control cylinder is telescopic, and the end part of the piston rod is fixed on the moving arm, so that the cylinder body of the first cylinder can move along the length direction of the moving arm, and meanwhile, the mounting block is driven to move along the length direction of the moving arm, so that the injection molding part absorption assembly can achieve the purpose of approaching and leaving the mold. In addition, the second sliding groove on the mounting block moves on the second sliding rail when the mounting block moves, so that the supporting function can be provided, the guiding function is realized, and the moving stability of the mounting block is improved.

The utility model discloses still further set up to: the injection molding absorbs subassembly includes revolving cylinder, sucking disc support and eight injection molding sucking discs, the vertical downward setting of revolving cylinder and its cylinder body fixed connection are in protecting sheathing's bottom, sucking disc support fixed connection is in revolving cylinder's rotation portion, the sucking disc support includes two installation poles and connecting rod, two installation pole parallel arrangement and the both ends of connecting rod are fixed connection respectively in the intermediate position of installation pole, injection molding sucking disc interval arrangement sets up in the lower extreme of installation pole, and every installation pole lower extreme is connected with four injection molding sucking discs.

Through the technical scheme, revolving cylinder can carry out 90 rotations, make the sucking disc support carry out the change of level and vertical state, thereby can be vertical state when taking out the injection molding, make things convenient for the injection molding sucking disc to absorb the injection molding, it carries out 90 rotations to take out control revolving cylinder behind the injection molding, it is horizontal state to rotate the sucking disc support, then control horizontal migration device with its removal to injection molding conveyer top, control the injection molding sucking disc at last and loosen the injection molding and put it on injection molding conveyer and transport.

The utility model discloses still further set up to: the anti-collision buffer mechanism comprises an oil buffer, a buffer impact block and a connecting arm, wherein the oil buffer is fixedly arranged at the middle position of the top of the mounting block, one end of the connecting arm is fixedly connected to the top end of the first sliding rail, and the buffer impact block is fixedly connected to the lower end of the end part of the connecting arm far away from the first sliding rail.

Through above-mentioned technical scheme, thereby the piston rod can bump the hydraulic buffer on the buffering striking block on the slide rail one when falling to the bottommost portion promptly and cushion it, slows down the falling speed of piston rod.

The utility model discloses still further set up to: the buffer impact block is in the shape of an inverted round table, an impact head is arranged at the upper end of the oil pressure buffer, an impact groove in the shape of the inverted round table matched with the shape of the impact part is formed in the upper end of the impact head, a silencing pad is arranged at the bottom of the impact groove, and the central lines of the buffer impact block and the impact groove are located on the same vertical line.

Through above-mentioned technical scheme, the round platform of invering has the guide effect, can make the better striking of buffering striking piece to the impact head of oil buffer upper end, prevents that it from appearing hitting askew condition and can not playing the effect of buffering, and the amortization pad can reduce the sound that produces when striking in addition, and noise in the environment when reducing and moulding plastics makes the staff have better operational environment.

The utility model discloses still further set up to: the waste material shearing mechanism comprises a cylinder mounting rod and a finger cylinder, the upper end of the cylinder mounting rod is fixedly connected to one end, far away from the mounting column, of the base, the finger cylinder is fixedly connected to one end, far away from the base, of the cylinder mounting rod, and a blade is arranged on the inner wall of a finger clamp of the finger cylinder.

Through above-mentioned technical scheme, when the waste material presss from both sides the device and moves the right-hand member of base under horizontal migration device's effect, because the waste material is very thin shaft-like and has fine elasticity, the waste material middle part that the waste material middle part of pressing from both sides on the device was pressed from both sides to get is crooked then moves to the intermediate position that two clamp fingers of finger cylinder, and the clamp finger of control finger cylinder both sides removes to the inboard this moment, and the blade on the clamp finger is close to each other and is cut the waste material that will be located in the middle of, then the control waste material presss from both sides the device and loose.

The utility model discloses still further set up to: the waste collecting device comprises a collecting box and an anti-elastic plate, wherein an opening is formed in the upper end of the collecting box, the anti-elastic plate is obliquely and outwards fixed on the edge of the upper end of the collecting box, two guide plates inclining downwards are arranged on two sides of the inside of the collecting box, a blanking port is reserved between the two guide plates, and the width of the blanking port is 3 cm.

Through above-mentioned technical scheme, the deflector can prevent to strike the deflector and pop out the collecting box when the waste material whereabouts, and the deflector can make the waste material slide into by the action of gravity to the collecting box inside, and the blanking mouth can prevent not by the big waste material of shearing to fall into to the collecting box inside.

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 cross-sectional view taken along direction a of fig. 2 according to the present invention;

FIG. 4 is an enlarged schematic view of the anti-collision buffer mechanism and the moving assembly of the present invention;

FIG. 5 is an enlarged schematic view of the injection molding suction assembly of the present invention;

fig. 6 is an enlarged schematic structural view of the waste shearing mechanism of the present invention.

The reference numbers in the figures mean: 1. an injection molding machine; 2. a mold placing section; 3. an injection molding material taking-out mechanism; 4. a horizontal moving device; 5. an injection molding part suction device; 6. a waste material gripping device; 7. mounting blocks; 8. a long stroke cylinder; 9. a protective housing; 10. a first sliding chute; 11. a first slide rail; 12. an anti-collision buffer mechanism; 13. an injection molding transfer device; 14. a waste collection device; 15. a waste material shearing mechanism; 16. mounting a column; 17. a base; 18. a screw drive mechanism; 19. a moving part; 20. a screw sleeve seat; 21. a moving arm; 22. a slideway; 23. a left screw rod and a right screw rod; 24. a servo motor; 25. a bearing seat; 26. a moving assembly; 27. an injection molding suction assembly; 28. a second slide rail; 29. a first cylinder; 30. a cylinder fixing block; 31. a second chute; 32. a rotating cylinder; 33. a suction cup holder; 34. an injection molding piece sucker; 35. a hydraulic shock absorber; 36. a buffer impact block; 37. a connecting arm; 38. a striking head; 39. an impact groove; 40. a cylinder mounting rod; 41. a finger cylinder; 42. a ballistic panel; 43. a guide plate.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

The present invention will be described below with reference to fig. 1 to 6.

The utility model provides an injection moulding line of cosmetics packaging bottle lid, includes injection molding machine 1 and feed arrangement, and one side of injection molding machine 1 is provided with injection molding conveyer 13, and the conveyer rear side is provided with garbage collection device 14, and injection molding conveyer 13 can transport the injection molding, transports its position to next process and carries out further processing.

Injection molding machine 1 includes that feed inlet and mould place portion 2, installs the mould of production cosmetic bottle packing bottle lid in the mould is placed portion 2, and the mould includes public mould and master model, and has seted up 8 caves in the mould, and the arrangement is every row 2, and total 4 rows can once only accomplish 8 bottle lids of moulding plastics. After the injection molding is finished and the mold is opened, the injection molding part and the waste material are respectively positioned on the male mold and the female mold.

The feeding device is located directly above the feeding hole, the injection molding material taking-out mechanism 3 is arranged above the mold placing part 2, and the injection molding material taking-out mechanism 3 comprises a horizontal moving device 4, an injection molding part suction device 5 and a waste material clamping device 6. After the injection molding is finished, the male mold and the female mold are separated, the injection molding material taking-out mechanism 3 moves between the male mold and the female mold through the horizontal moving device 4 to take out the injection molding part and waste materials from the male mold and the female mold respectively and simultaneously, and then the injection molding part and the waste materials are moved out of the injection molding machine 1 through the horizontal moving device 4.

Horizontal migration device 4 fixed mounting is in the top of injection molding machine 1, horizontal migration device 4 includes erection column 16, base 17, lead screw drive mechanism 18 and removal portion 19, erection column 16 fixed connection is in the upper end of injection molding machine 1, the lower extreme fixed connection of base 17 is in the one end that injection molding machine 1 was kept away from to erection column 16, injection molding machine 1 is located the base 17 intermediate position under, injection molding conveyer 13 is located the base 17 right-hand member position under, be injection molding material take-out mechanism 3 waiting area under the base 17 left end position, be in this regional position when injection molding material take-out mechanism 3 does not work promptly. The moving part 19 can horizontally move under the action of the screw rod transmission mechanism 18, namely, the injection molding part suction device 5 and the waste material clamping device 6 are moved along the length direction of the base 17, so that the operation of material taking and material discharging and returning is completed, and the material taking speed and the production efficiency of injection molding parts are improved.

Screw drive mechanism 18 sets up in the upper end of base 17, and screw drive mechanism 18 includes spiral shell cover seat 20, and removal portion 19 passes through screw fixed connection in the upper end of spiral shell cover seat 20, and one side fixedly connected with shifting arm 21 that removal portion 19 is close to the mould and places portion 2, and the shifting arm 21 level sets up and length is 1m, can carry out the round trip movement on the length direction of base 17 through screw drive mechanism 18 shifting arm 21.

Screw drive mechanism 18 still includes slide 22, control lead screw 23 and servo motor 24, slide 22 sets up in the base 17 upper end along the length direction of base 17, be provided with the sliding block on the slide 22, servo motor 24 sets up in the one end of base 17, the one end that servo motor 24 was kept away from to base 17 is provided with bearing frame 25, control lead screw 23 and be located slide 22 directly over, control the one end of lead screw 23 and fix in the bearing in bearing frame 25, control the pivot fixed connection that shaft coupling and servo motor 24 were passed through to the one end that bearing frame 25 was kept away from to lead screw 23, screw sleeve seat 20 cover is located and is controlled on lead screw 23 and fixed connection is in the sliding block upper end.

The servo motor 24 is started to drive the left and right screw rods 23 to rotate, so that the screw sleeve seat 20 moves on the left and right screw rods 23, the rotating direction of the servo motor 24 is controlled to change the moving direction of the screw sleeve seat 20, the screw sleeve seat 20 moves in the sliding block type slide way 22 when moving, and the moving stability of the screw sleeve seat 20 can be improved.

Injection molding suction means 5 and waste material are got device 6 and are installed on horizontal migration device 4, and injection molding suction means 5 and waste material are got device 6 and are included installation piece 7, long stroke cylinder 8, protecting sheathing 9, crashproof buffer gear 12. The long-stroke cylinder 8 is vertically arranged downwards, the cylinder body of the long-stroke cylinder 8 is fixedly connected to the mounting block 7, the lower end of the protective shell 9 is fixedly connected with the lower end of the piston rod of the long-stroke cylinder 8, and the protective shell can move downwards together with the piston rod under the action of the piston rod. The inner wall of the protective shell 9 is provided with a first sliding rail 11 along the length direction, the side wall of the mounting block 7 close to the long-stroke cylinder 8 is provided with a first sliding groove 10, and the first sliding rail 11 is slidably embedded inside the first sliding groove 10.

When the protective housing 9 moves up and down under the action of the piston rod, the first sliding rail 11 on the protective housing 9 moves in the first sliding groove 10, so that the stability of the protective housing 9 in moving can be improved, the injection molding part can be prevented from shaking when being sucked and clamped by waste materials, and the injection molding part can be accurately sucked and the waste materials can be clamped simultaneously.

Injection molding suction means 5 still includes removal subassembly 26 and injection molding suction means 27, injection molding suction means 27 can absorb the injection molding on the mould and take out it, because the injection molding on the mould is inlayed and is located the inside of injection molding machine 1 on the mould and the mould at injection molding place, so need injection molding suction means 27 to move down earlier to the position with the mould co-altitude, then carry out horizontal migration to the direction of mould again, removal subassembly 26 can make injection molding suction means 27 move to the mould direction. The moving assembly 26 is arranged on the side wall of the moving arm 21 close to the mold placing part 2, the mounting block 7 of the injection molding part suction device 5 is fixedly connected on the moving assembly 26, and the injection molding part suction assembly 27 is fixedly connected at the bottom end of the protective shell 9.

The moving assembly 26 comprises a second sliding rail 28, a first cylinder 29 and a first cylinder fixing block 30, the second sliding rail 28 is fixed on the side wall of the moving arm 21 along the length direction of the moving arm 21 through screws, a second sliding groove 31 is formed in the side wall, close to the moving arm 21, of the mounting block 7, the second sliding rail 28 is slidably embedded inside the second sliding groove 31, the first cylinder 29 is arranged below the mounting block 7, the cylinder body of the first cylinder 29 is fixedly connected to the lower end of the mounting block 7 through screws, one end of the first cylinder fixing block 30 is fixedly connected to the end portion of the piston rod of the first cylinder 29, and one end, far away from the first cylinder 29, of the first cylinder fixing.

By controlling the extension and contraction of the piston rod of the first cylinder 29, the end part of the piston rod is fixed on the moving arm 21, so that the cylinder body of the first cylinder 29 can move along the length direction of the moving arm 21, and meanwhile, the mounting block 7 is driven to move along the length direction of the moving arm 21, and the injection molding part suction assembly 27 can achieve the purpose of approaching and leaving the mold. In addition, when the mounting block 7 moves, the second sliding groove 31 on the mounting block 7 moves on the second sliding rail 28, so that not only can a supporting function be provided, but also a guiding function is achieved, and the moving stability of the mounting block 7 is improved.

Injection molding suction means 27 includes revolving cylinder 32, sucking disc support 33 and eight injection molding sucking discs 34, revolving cylinder 32 is vertical to be set up downwards and its cylinder body passes through screw fixed connection in the bottom of protecting sheathing 9, sucking disc support 33 passes through screw fixed connection in the rotation portion of revolving cylinder 32, sucking disc support 33 includes two installation poles and connecting rod, two installation pole parallel arrangement and the both ends of connecting rod are fixed connection respectively in the intermediate position of installation pole, injection molding sucking discs 34 interval arrangement sets up in the lower extreme of installation pole, and every installation pole lower extreme is connected with four injection molding sucking discs 34.

The injection molding in the mould is arranged on the mould vertically, and the injection molding sucking assembly 27 needs to be horizontally arranged when taking out and placing the injection molding on the injection molding conveying device 13, so that the bottom of the bottle cap of the cosmetic bottle is in contact with the surface of the injection molding conveying device 13, and the surface of the bottle cap is prevented from being in contact with the injection molding conveying device 13 to scratch, and the attractiveness of the bottle cap is prevented from being influenced.

The revolving cylinder 32 can rotate 90 degrees, the sucking disc support 33 is enabled to change between a horizontal state and a vertical state, so that the injection molding part can be taken out in a vertical state, the injection molding part sucking disc 34 can be conveniently sucked by the injection molding part, the revolving cylinder 32 is controlled to rotate 90 degrees after the injection molding part is taken out, the sucking disc support 33 is rotated to be in a horizontal state, then the horizontal moving device 4 is controlled to move the injection molding part to the upper side of the injection molding part conveying device 13, and finally the injection molding part sucking disc 34 is controlled to loosen the injection molding part to be placed on the injection molding part conveying device 13 for transportation.

The anti-collision buffer mechanism 12 is arranged at the top of the mounting block 7, and the anti-collision buffer mechanism 12 can play a role in buffering a piston rod of the long-stroke cylinder 8 when the piston rod falls down, so that the tail end of the stroke of the piston rod is prevented from generating large impact force to damage an end cover of the cylinder.

The anti-collision buffer mechanism 12 comprises an oil buffer 35, a buffer impact block 36 and a connecting arm 37, wherein the oil buffer 35 is fixedly installed at the middle position of the top of the installation block 7, one end of the connecting arm 37 is fixedly connected to the top end position of the first sliding rail 11, and the buffer impact block 36 is fixedly connected to the lower end position of the end portion, far away from the first sliding rail 11, of the connecting arm 37.

When the piston rod falls to the bottommost part, the buffer impact block 36 on the sliding rail I11 impacts the hydraulic buffer 35 to buffer the piston rod, and the falling speed of the piston rod is reduced.

The shape of the buffering impact block 36 is an inverted round table, the upper end of the hydraulic buffer 35 is provided with an impact head 38, the upper end of the impact head 38 is provided with an inverted round table-shaped impact groove 39 matched with the shape of the impact part, the bottom of the impact groove 39 is provided with a silencing pad, and the central lines of the buffering impact block 36 and the impact groove 39 are on the same vertical line.

The inverted round table has a guiding function, so that the buffering impact block 36 can better impact the impact head 38 at the upper end of the hydraulic buffer 35, the impact is prevented from being askew, the buffering function cannot be achieved, in addition, the sound generated in the impact process can be reduced by the sound absorbing pad, the noise in the environment during injection molding is reduced, and a better working environment is provided for workers.

Be provided with the waste material directly over garbage collection device 14 and cut mechanism 15, waste material cuts mechanism 15 fixed connection on horizontal migration device 4, gets device 6 and gets the waste material clamp when getting the garbage collection device 14 directly over when the waste material, and waste material cuts mechanism 15 and can cut the waste material, makes the waste material fall into in the garbage collection device 14.

Waste material shearing mechanism 15 includes cylinder installation pole 40 and finger cylinder 41, and screw fixed connection is passed through in the one end that the erection column 16 was kept away from to base 17 in the upper end of cylinder installation pole 40, and finger cylinder 41 fixed connection is in the one end that base 17 was kept away from to cylinder installation pole 40, and the high the same with the intermediate position height of waste material in the mould of the height of finger cylinder 41, and the double-layered finger inner wall of finger cylinder 41 is provided with the blade.

When the waste material clamping device 6 moves to the right end of the base 17 under the action of the horizontal moving device 4, because the waste material is in a thin rod shape and has good elasticity, the middle part of the waste material clamped on the waste material clamping device 6 can be bent and then moves to the middle position of two clamping fingers of the finger cylinder 41, the clamping fingers on two sides of the finger cylinder 41 are controlled to move inwards at the moment, blades on the clamping fingers are close to each other to cut the waste material in the middle, and then the waste material clamping device 6 is controlled to loosen the waste material to enable the waste material to fall into the waste material collecting device 14.

The waste collecting device 14 comprises a collecting box and an anti-spring plate 42, an opening is formed in the upper end of the collecting box, the anti-spring plate 42 inclines outwards and is fixed on the edge of the upper end of the collecting box through screws, two guide plates 43 inclining downwards are arranged on two sides of the inside of the collecting box, a blanking port is reserved between the two guide plates 43, and the width of the blanking port is 3 cm.

The bulletproof plate 42 can prevent the waste from colliding with the guide plate 43 when falling to pop out the collection box, the guide plate 43 can enable the waste to slide into the collection box under the action of gravity, and the blanking port can prevent the large waste which is not sheared from falling into the collection box.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations of the above assumption should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides an injection moulding line of cosmetics packaging bottle lid, includes injection molding machine (1) and feed arrangement, injection molding machine (1) includes that feed inlet and mould place portion (2), feed arrangement is located the feed inlet directly over, its characterized in that: an injection molding material taking-out mechanism (3) is arranged above the mold placing part (2), the injection molding material taking-out mechanism (3) comprises a horizontal moving device (4), an injection molding part suction device (5) and a waste material clamping device (6), the horizontal moving device (4) is fixedly arranged above the injection molding machine (1), the injection molding part suction device (5) and the waste material clamping device (6) are arranged on the horizontal moving device (4), the injection molding part suction device (5) and the waste material clamping device (6) comprise an installation block (7), a long-stroke cylinder (8), a protective shell (9) and an anti-collision buffer mechanism (12), a cylinder body of the long-stroke cylinder (8) is fixedly connected onto the installation block (7), the lower end of the protective shell (9) is fixedly connected with the lower end of a piston rod of the long-stroke cylinder (8), and a sliding rail (11) is arranged on the inner wall of the protective shell (9) along the length direction thereof, installation piece (7) are close to the lateral wall of long stroke cylinder (8) and have seted up spout (10), but slide rail (11) slidable inlays and locates inside spout (10), anticollision buffer gear (12) set up in the top of installation piece (7), one side of injection molding machine (1) is provided with injection molding conveyer (13), the conveyer rear side is provided with garbage collection device (14), be provided with waste material directly over garbage collection device (14) and cut mechanism (15), waste material cuts mechanism (15) fixed connection on horizontal migration device (4).

2. The injection molding production line of cosmetic packaging bottle caps as claimed in claim 1, wherein: horizontal migration device (4) are including erection column (16), base (17), screw drive mechanism (18) and removal portion (19), erection column (16) fixed connection is in the upper end of injection molding machine (1), the one end of injection molding machine (1) is kept away from in erection column (16) to the lower extreme fixed connection of base (17), screw drive mechanism (18) set up in the upper end of base (17), screw drive mechanism (18) are including spiral shell cover seat (20), removal portion (19) fixed connection is in the upper end of spiral shell cover seat (20), removal portion (19) are close to one side fixedly connected with removal arm (21) that the mould placed portion (2).

3. The injection molding production line of cosmetic packaging bottle caps as claimed in claim 2, wherein: screw rod drive mechanism (18) still include slide (22), control lead screw (23) and servo motor (24), slide (22) set up in base (17) upper end along the length direction of base (17), be provided with the sliding block on slide (22), servo motor (24) set up in the one end of base (17), the one end that servo motor (24) were kept away from in base (17) is provided with bearing frame (25), the one end of controlling lead screw (23) is fixed in the bearing in bearing frame (25), the pivot fixed connection that shaft coupling and servo motor (24) were passed through to the one end of keeping away from bearing frame (25) about lead screw (23), screw sleeve seat (20) cover is located about on lead screw (23) and fixed connection is in the sliding block upper end.

4. The injection molding production line of cosmetic packaging bottle caps as claimed in claim 2, wherein: injection molding suction means (5) still include removal subassembly (26) and injection molding suction means (27), removal subassembly (26) set up on the lateral wall that removes arm (21) and be close to mould placing portion (2), installation piece (7) fixed connection of injection molding suction means (5) is on removing subassembly (26), injection molding suction means (27) fixed connection is in the bottom of protecting sheathing (9).

5. The injection molding production line of cosmetic packaging bottle caps as claimed in claim 4, wherein: remove subassembly (26) including slide rail two (28), cylinder (29) and cylinder fixed block (30), slide rail two (28) are fixed in the lateral wall of carriage arm (21) along the length direction of carriage arm (21), installation piece (7) are close to the lateral wall of carriage arm (21) and have seted up spout two (31), slide rail two (28) slidable inlays and locates inside spout two (31), cylinder (29) set up in the below of installation piece (7) and the cylinder body fixed connection of cylinder (29) is at the lower extreme of installation piece (7), the one end fixed connection of cylinder fixed block (30) is at the tip of the piston rod of cylinder (29), the one end fixed connection that cylinder (29) was kept away from in cylinder fixed block (30) is on carriage arm (21).

6. The injection molding production line of cosmetic packaging bottle caps as claimed in claim 4, wherein: injection molding absorbs subassembly (27) and includes revolving cylinder (32), sucking disc support (33) and eight injection molding sucking discs (34), the vertical bottom that sets up and its cylinder body fixed connection in protecting sheathing (9) downwards of revolving cylinder (32), sucking disc support (33) fixed connection is in the rotation portion of revolving cylinder (32), sucking disc support (33) are including two installation poles and connecting rod, two installation pole parallel arrangement and the both ends of connecting rod are fixed connection respectively in the intermediate position of installation pole, injection molding sucking discs (34) interval arrangement sets up in the lower extreme of installation pole, and every installation pole lower extreme is connected with four injection molding sucking discs (34).

7. The injection molding production line of cosmetic packaging bottle caps as claimed in claim 1, wherein: anticollision buffer gear (12) include oil buffer (35), buffering striking block (36) and linking arm (37), oil buffer (35) fixed mounting is in the top intermediate position of installation piece (7), the one end fixed connection of linking arm (37) is in the top position of slide rail (11), buffering striking block (36) fixed connection is in linking arm (37) and is kept away from the tip lower extreme position of slide rail (11).

8. The injection molding production line of cosmetic packaging bottle caps as claimed in claim 7, wherein: the buffer impact block (36) is in the shape of an inverted circular truncated cone, an impact head (38) is arranged at the upper end of the hydraulic buffer (35), an inverted circular truncated cone-shaped impact groove (39) matched with the shape of the impact part is formed in the upper end of the impact head (38), a silencing pad is arranged at the bottom of the impact groove (39), and the central lines of the buffer impact block (36) and the impact groove (39) are located on the same vertical line.

9. The injection molding production line of cosmetic packaging bottle caps as claimed in claim 2, wherein: waste material is sheared mechanism (15) and is included cylinder installation pole (40) and finger cylinder (41), the one end of installing post (16) is kept away from in base (17) to the upper end fixed connection of cylinder installation pole (40), finger cylinder (41) fixed connection is in the one end that base (17) were kept away from in cylinder installation pole (40), the clamp of finger cylinder (41) indicates the inner wall and is provided with the blade.

10. The injection molding production line of cosmetic packaging bottle caps as claimed in claim 4, wherein: the waste collecting device (14) comprises a collecting box and an anti-bullet plate (42), an opening is formed in the upper end of the collecting box, the anti-bullet plate (42) is obliquely and outwards fixed on the edge of the upper end of the collecting box, two oblique and downward guide plates (43) are arranged on two sides of the inside of the collecting box, a blanking port is reserved between the two guide plates (43), and the width of the blanking port is 3 cm.

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