Plastic-coated aluminum feeding device
Technical Field
The utility model belongs to bulb production facility field, more specifically the utility model relates to a mould alclad loading attachment that says so.
Background
The LED technology is becoming more and more mature, and compared with the conventional lighting products, the LED lighting products need to be given a key consideration to the heat dissipation problem. If the heat dissipation problem is not solved well, the performance of the lamp beads can be directly influenced, and the service life of the finished lamp is further shortened. The best heat dissipation is metal such as gold, silver, aluminum, iron and the like, and especially aluminum is the most popular because aluminum is light in texture and good in heat conduction performance. And the price of the aluminum material is cheaper and the cost is lower.
At present, an aluminum profile is prepared for a plastic-coated aluminum lamp body, then the aluminum profile is sent to an injection molding machine for injection molding through a robot gripper, the plastic is wrapped on the aluminum profile, usually, the robot gripper can grab a plurality of aluminum profiles at the same time, the aluminum profiles need to be manually placed on a platform at present, so that the robot gripper can grab all the aluminum profiles at the same time, and then the aluminum profiles are sent to the injection molding machine, because a plurality of injection molding cavities of the injection molding machine are not close to each other, the aluminum profiles cannot be placed close to each other when being placed, otherwise, the robot gripper cannot grab the aluminum profiles at the same time, the aluminum profiles need to be manually separated, the distance between the two aluminum profiles is the same as the arrangement of the injection molding cavities and the arrangement of the robot gripper (the robot is provided with a plurality of grippers, the arrangement of the plurality of grippers is, the efficiency is lower, and the cost of labor is high.
SUMMERY OF THE UTILITY MODEL
Not enough to prior art, the utility model provides a can arrange in order the aluminium alloy automatically, make the robot tongs snatch a plurality of aluminium alloy simultaneously and send into the injection molding machine in, save artifically, the plastic envelope aluminium loading attachment of raising efficiency.
In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a mould alclad loading attachment, includes delivery track and arrangement track, the arrangement track meets with delivery track's rear, the arrangement track includes the backup pad of both sides, forms the dead slot between the backup pad of both sides, arrangement track below is provided with the elevating platform, be provided with a plurality of arrangement moulds on the elevating platform, be provided with slider and slide rail between arrangement mould and the elevating platform, the arrangement mould that is closest to delivery track one end is fixed with the elevating platform, the diameter of arrangement mould is less than the width of dead slot, is provided with the range limiting device between two adjacent arrangement moulds, the arrangement mould is connected with its gliding drive arrangement of drive.
Further the other end of the arranging track corresponding to the conveying track is provided with a limit baffle, and the limit baffle is connected with a first cylinder.
Further the other end that the arrangement track corresponds the delivery track is provided with the stopper, and the aluminium alloy bottom is higher than the stopper position when the arrangement mould rises the aluminium alloy.
Further the arrangement mould is connected with a sliding block, and a sliding rail is arranged on the lifting platform.
The distance limiting device further comprises a limiting rod arranged between the two adjacent sliding blocks, and the limiting rod is used for limiting the maximum distance between the two sliding blocks.
Further a vibration motor is arranged below the conveying track, and one side of the bottom surface of the conveying track, which is close to the arranging track, is lower than the other side of the bottom surface of the conveying track.
Further, a vibration disc is arranged in front of the conveying track.
The robot gripper is further included.
Compared with the prior art, the beneficial effects of the utility model are that: carry a plurality of aluminium alloy to arrangement track top through the delivery track, all arrangement moulds are at first leaned on together and rise, stretch into the aluminium alloy jack-up, and alternate segregation and through range limiting device control interval distance between the arrangement mould, the distance this moment is the same with the robot tongs promptly, the robot tongs directly snatchs downwards and can seize all aluminium alloys on the arrangement mould simultaneously and send into the injection molding machine, the arrangement mould withdrawal is close together, and is then repeated, wherein can put the aluminium alloy as required and just send to the delivery track on automatically through the vibration dish, the manual work is saved completely, and the production efficiency is improved.
Drawings
Fig. 1 is a schematic structural view of the plastic-coated aluminum feeding device of the present invention;
FIG. 2 is an enlarged view of portion A of FIG. 1;
FIG. 3 is a state diagram of the aluminum profile of the present invention when it arrives on the arranging rail;
FIG. 4 is a diagram illustrating a state when the trimming mold starts to ascend;
FIG. 5 is a state diagram of the aluminum profile ejected by the middle trimming die of the present invention;
fig. 6 is a state diagram of the middle trimming mold of the present invention separating all aluminum profiles;
fig. 7 is an enlarged view of a portion B in fig. 6.
Reference numerals: 1. a vibrating pan; 2. a conveying track; 21. a vibration motor; 3. an aluminum profile; 4. a first cylinder; 5. arranging the tracks; 56. a support plate; 57. an empty groove; 6. arranging the die; 61. a slider; 62. a lifting platform; 63. a second cylinder; 64. a limiting rod; 65. a limiting chute; 66. a limiting sheet; 7. and a limiting baffle.
Detailed Description
The embodiment of the aluminum loading device for plastic package of the present invention is further described with reference to fig. 1 to 7.
The utility model provides a plastic package aluminium loading attachment, includes delivery track 2 and arrangement track 5, arrangement track 5 meets with delivery track 2's rear, arrangement track 5 includes the backup pad 56 of both sides, forms dead slot 57 between the backup pad 56 of both sides, arrangement track 5 below is provided with elevating platform 62, be provided with a plurality of arrangement moulds 6 on the elevating platform 62, be provided with slider 61 and slide rail between arrangement mould 6 and the elevating platform 62, the arrangement mould 6 that is closest to delivery track 2 one end is fixed with elevating platform 62, the diameter of arrangement mould 6 is less than the width of dead slot 57, is provided with the range limiting device between two adjacent arrangement moulds 6, arrangement mould 6 is connected with its gliding drive arrangement of drive.
The aluminum profile 3 is that the caliber of the upper end is slightly smaller than that of the lower end, the aluminum profile 3 is placed on the conveying track 2, the lower end is in contact with the conveying track 2, the conveying track 2 sends the aluminum profile 3 to the arranging track 5, as shown in fig. 1 and 3, four arranging molds 6 are arranged on each line in the embodiment, more or less arranging molds are needed, the number of arranging molds 6 is determined according to the number of the robot grippers capable of simultaneously gripping, and if the robot grippers can grip 10 arranging molds, 10 arranging molds 6 correspondingly; after the aluminum profile 3 reaches the arranging rail 5, as shown in fig. 4, the lifting platform 62 is lifted, the arranging mold 6 extends out of the empty groove 57 and into the cavity of the aluminum profile 3, and the aluminum profile 3 is sleeved on the arranging mold 6, wherein the top of the arranging mold 6 can be provided with an arc shape, so that the aluminum profile 3 can be automatically adjusted by self gravity in the lifting process; as shown in fig. 5, the lifting table 62 continuously rises to separate the aluminum profile 3 from the supporting plate 56, as shown in fig. 6, the driving device slides the arrangement molds 6, the positions of two adjacent arrangement molds 6 are limited by the distance limiting device, the positions of the aluminum profile 3 sleeved on the arrangement molds 6 can be completely matched with the robot gripper, and the robot gripper can directly grip the aluminum profile, of course, the lifting table 62 continuously rises to separate the aluminum profile 3 from the supporting plate 56 to prevent the aluminum profile 3 from rubbing and inclining with the supporting plate 56 in the moving process of the arrangement molds 6, and the arrangement molds 6 can be moved without separating the aluminum profile 3 from the supporting plate 56 when the supporting plate 56 is very smooth; the sequential feeding of the aluminum profiles 3 is completed through the steps, then the finishing die 6 is reset and close to each other, and the lifting table 62 descends to enable the top end of the finishing die 6 to retract to the position below the supporting plate 56.
The driving device connected with the trimming die 6 is preferably a second air cylinder 63, but can also be a linear motor or other mechanisms for driving the linear motion of the linear motor; the same lifting table 62 is for lifting and can be driven by an air cylinder or a hydraulic cylinder or a linear motor.
Wherein arrangement mould 6 link block 61, the slide rail sets up on elevating platform 62, and the width of slider 61 is the same basically with the lower extreme bore of aluminium alloy 3, can set up the connecting rod that increases the distance between slider 61 and the arrangement mould 6 to guarantee that arrangement mould 6 can stretch out dead slot 57, and elevating platform 62 and slider 61 can not touch arrangement track 5.
This embodiment is preferred the other end that arrangement track 5 corresponds delivery track 2 is provided with limit baffle 7, limit baffle 7 is connected with first cylinder 4, after aluminium alloy 3 on arrangement track 5 got into arrangement track 5, limit baffle 7 can restrict the 3 quantity of aluminium alloy that get into arrangement track 5, the position of restriction aluminium alloy 3 simultaneously can be in arrangement mould 6 directly over, after arrangement mould 6 jack-up aluminium alloy 3, first cylinder 4 makes limit baffle 7 keep away from, for the division of arrangement mould 6 and let the way.
The limitation of the number of aluminium profiles 3 entering the tidying track 5 in this embodiment can also be achieved in the following way: the other end that arrangement track 5 corresponds delivery track 2 is provided with the stopper, and 3 bottoms of aluminium alloy are higher than the stopper position when arrangement mould 6 rises aluminium alloy 3, and it is enough to then get into 3 quantity of aluminium alloy on the arrangement track 5 behind the stopper is contradicted to aluminium alloy 3, and arrangement mould 6 sheathes in aluminium alloy 3 to continue to rise the height that makes the lower extreme of aluminium alloy 3 be higher than the stopper, then separate to the interval that reaches the requirement again.
The distance limiting device preferably in this embodiment includes a limiting rod 64 disposed between two adjacent sliding blocks 61, the limiting rod 64 is used to limit the maximum distance between the two sliding blocks 61, wherein the limiting rod 64 may be an expansion rod, and may also be a mode as shown in fig. 7, one end of the limiting rod 64 is fixedly connected with the sliding block 61, the other end is provided with a limiting sheet 66, a limiting chute 65 is disposed on the corresponding sliding block 61, and the limiting sheet 66 extends into the limiting chute 65 to limit the moving range of the limiting sheet 66, i.e., to limit the distance between the two adjacent sliding blocks 61; of course, one end of the limiting rod 64 can be rotatably connected with one sliding block 61, and the other sliding block 61 is provided with a rotating turntable to connect the other end of the limiting rod 64 to the non-central position of the turntable, so that the same function can be realized.
The preferred conveying track 2 below of this embodiment is provided with vibrating motor 21, the bottom surface of conveying track 2 is close to the lower opposite side of arrangement track 5 one side, conveniently carries the aluminium alloy 3 on the conveying track 2 to the arrangement track 5 on.
In the preferred embodiment, the vibration disk 1 is arranged in front of the conveying track 2, and the vibration disk 1 can arrange the scattered aluminum profiles 3 to make the aluminum profiles 3 enter the conveying track 2 in the same posture.
Preferably also a robotic gripper.
It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.