Electric core membrane parcel and finisher apparatus
Technical field:
The utility model relates to a kind of electric core membrane parcel and finisher apparatus, electric core membrane parcel and finisher apparatus on especially a kind of laminating equipment that is used to make large-scale square electric core.
Background technology
After the lamination machine was finished electric core lamination, the outer surface of electric core also needed by barrier film its parcel one circle.Therefore, a device to be used for electric core membrane last lap or a few coiling.Because what this device was finished is the ending of the last barrier film of electric core, so be called electric core membrane parcel and finisher apparatus.
But electric core membrane parcel of the prior art and finisher apparatus are also simpler and cruder, need a large amount of artificial cooperations mostly, can not realize automation, and the homogeneity of product of producing are also bad.
Summary of the invention
The utility model is exactly in order to address the above problem, and proposes a kind of electric core membrane parcel and finisher apparatus, realizes parcel and ending automatically.
For this reason, electric core membrane parcel of the present utility model and finisher apparatus comprise at least one riser, at least one riser driving mechanism, at least one clip, at least one clip driving mechanism, at least one rotary drive mechanism, and mounting panel; Described riser driving mechanism makes riser do straight reciprocating motion on mounting panel, described clip, clip driving mechanism and rotary drive mechanism are installed on the riser, this clip is used for electric core is clamped, and rotary drive mechanism is used to make clip to drive electric core to rotate, to realize the coiling of barrier film.
Further preferably, the utility model also comprises following feature:
Described riser driving mechanism comprises guide rail, fixed head, fixed block, cylinder, joint; Fixed head is fixedlyed connected with the guide rail slide block, and is connected with mounting panel by guide rail; Fixed head is fixedlyed connected with riser, and fixed head is vertical mutually with riser; The stiff end of cylinder is fixedlyed connected with fixed block by the cylinder support, and fixed block is fixedlyed connected with mounting panel; The piston end of cylinder is fixedlyed connected with riser by joint, can make riser do straight reciprocating motion on guide rail by the driving of cylinder.
Described clip driving mechanism comprises cylinder, synchronizing wheel, bearing pedestal, connecting shaft, first contiguous block, second contiguous block, first clamp, second clamp; Connecting shaft is connected with bearing pedestal by bearing, and bearing pedestal is fixedly connected on the riser; Cylinder is fixedlyed connected with the connecting shaft tail end, and can do forward and backward reciprocating motion by the air cylinder driven connecting shaft; Synchronizing wheel is fixedlyed connected with connecting shaft; The other end of connecting shaft is fixedlyed connected with first contiguous block and second contiguous block, and first contiguous block fixedlys connected with first clamp, and second contiguous block is fixedlyed connected with second clamp, makes driving by cylinder drive clip and does and clamp and unclamp motion.
Described riser, riser driving mechanism, clip, clip driving mechanism, rotary drive mechanism all have two, about each one.
Described clip is the T font, and upward is provided with two dowel holes in the plane; First clamp and second clamp are staggered relatively, and wherein first dowel hole overlaps relatively, and fixedly connected by alignment pin; Second dowel hole of first clamp and second clamp forms upper and lower symmetry and places; First contiguous block and second contiguous block then overlap with second dowel hole of first clamp and second clamp respectively, and fixedly connected by alignment pin.
Wherein rotating driving device comprises motor, shaft coupling, first synchronizing wheel, clutch shaft bearing seat, connecting shaft, second bearing pedestal, second synchronizing wheel; Motor is connected with connecting shaft by shaft coupling; First synchronizing wheel and second synchronizing wheel are fixedly connected on the two ends of connecting shaft respectively; The clutch shaft bearing seat is fixedlyed connected with the riser of left riser driving mechanism and the riser of right riser driving mechanism respectively with second bearing pedestal.
First synchronizing wheel is connected with synchronous band with the synchronizing wheel of right clip drive unit, and synchronizedly runs by the synchronizing wheel that first synchronizing wheel drives right clip drive unit; Second synchronizing wheel is connected with synchronous band with the synchronizing wheel of left clip drive unit, and synchronizedly runs by the synchronizing wheel that second synchronizing wheel drives left clip drive unit.
Also comprise support, inductor, optical code disk; Described support is fixedly connected on the riser inboard of right riser driving mechanism, and inductor is fixedly mounted on the support, be provided with optical code disk directly over the inductor, and optical code disk is fixedlyed connected with connecting shaft.
Further, optical code disk is provided with a small gap, and when connecting shaft drove the optical code disk running, inductor detected original point position by the breach of sensing on the optical code disk.
During use, by the clip at the two ends of this device electric core is clamped, the driving by motor makes clip drive electric core to rotate again, to finish the coiling of barrier film last lap; The clip level is horizontal after clamping electric core winding one circle again, and by blanking device electric core is clamped to finish ending movement.Said process is all finished automatically, do not need artificial intervention, so homogeneity of product is improved.
Utilize connecting shaft to make left and right sides synchronizing wheel by motor-driven, add the employing of synchronizing wheel, thereby the rotation of left and right clip is reached synchronously, making reels keeps the shape, does not wander off.
Because the above-mentioned particular configuration of clip makes electric core lamination clamping standard, surely and not loosening, the changing of the relative positions.
Description of drawings
Below by embodiment also in conjunction with the accompanying drawings, the utility model is described in further detail:
Fig. 1 is the schematic diagram of a kind of execution mode of the utility model.
Fig. 2 is that a kind of execution mode clip of the utility model forms the clamped condition schematic diagram.
Fig. 3 is that a kind of execution mode clip of the utility model forms the releasing orientation schematic diagram.
Fig. 4 is the finisher apparatus schematic diagram that a kind of execution mode clamping of the utility model has electric core.
Embodiment
Fig. 1 shows a kind of embodiment of the utility model electric core membrane electric core membrane parcel and finisher apparatus.
As shown in drawings, present embodiment by mounting panel 100, right riser 103 and driving mechanism thereof, right clip 112,114 and driving mechanism, left riser 125 and driving mechanism thereof, left clip 134,136 and driving mechanism thereof, and rotary drive mechanism form.
Right riser driving mechanism comprises: right guide rail 101, right fixed head 102, right fixed block 104, right cylinder 105, right connector 106.
Right clip driving mechanism comprises: the second right cylinder 107, right synchronizing wheel 108, right bearing seat 109, right connecting shaft 110, right contiguous block 111, the second right contiguous block 113.
Left side riser driving mechanism comprises: left rail 123, left fixed head 124, left fixed block 126, left cylinder 127, left joint 128.
Left side clip driving mechanism comprises the second left cylinder 129, left synchronizing wheel 130, left shaft holder 131, left connecting shaft 132, left contiguous block 133, the second left contiguous block 135.
Rotary drive mechanism comprises motor 115, shaft coupling 116, the second right synchronizing wheel 117, right bearing seat 18, the second left synchronizing wheel 137, left shaft holder 138 and connecting shaft 122 etc.
Also be provided with inductor support 119, inductor 120, optical code disk 121.
In being described below, for for simplicity, when mentioning component names, remove before it " left side ", " right side " prefix speech, do not influence understanding to this patent.Such as: right guide rail 101 just is called for short guide rail 100, or the like.
Guide rail 101 is fixedly mounted on the mounting panel 100, and guide rail 101 slide blocks are fixedlyed connected with fixed head 102, and riser 103 vertical fixing are connected on the fixed head 102; Joint 106 is fixedly mounted on the riser 103, and fixedlys connected with the piston portion of cylinder 105; The stiff end of cylinder 105 is by cylinder support (not indicating) and fixed block 104 fixed installations; The another side of fixed block 104 and mounting panel 100 fixed installations; Connecting shaft 110 is connected with bearing pedestal 109 by bearing (indicating), and an end of connecting shaft 100 fixedlys connected with cylinder 107, and the other end is fixedlyed connected with contiguous block 111 and contiguous block 113; Contiguous block 111 is fixedlyed connected with clip 112 by alignment pin (not indicating), and contiguous block 113 is fixedlyed connected with clip 114 by alignment pin (not indicating); Synchronizing wheel 108 is fixedly mounted on the connecting shaft 110, and is located between bearing pedestal 108 and the cylinder 107.
Same, guide rail 123 is fixedly mounted on the mounting panel 100, and guide rail 123 slide blocks are fixedlyed connected with fixed head 124, and riser 125 vertical fixing are connected on the fixed head 124; Joint 128 is fixedly mounted on the riser 125, and fixedlys connected with the piston portion of cylinder 127; The stiff end of cylinder 127 is by cylinder support (not indicating) and fixed block 126 fixed installations; The another side of fixed block 126 and mounting panel 100 fixed installations; Connecting shaft 132 is connected with bearing pedestal 131 by bearing (indicating), and an end of connecting shaft 132 fixedlys connected with cylinder 129, and the other end is fixedlyed connected with contiguous block 133 and contiguous block 135; Contiguous block 133 is fixedlyed connected with clip 134 by alignment pin (not indicating), and contiguous block 135 is fixedlyed connected with clip 136 by alignment pin (not indicating); Synchronizing wheel 130 is fixedly mounted on the connecting shaft 132, and is located between bearing pedestal 131 and the cylinder 129.
Bearing pedestal 118 is fixedly connected on the riser 103, and is connected with connecting shaft 122 by bearing (not indicating); Motor 115 is fixedlyed connected with connecting shaft 122 by shaft coupling 116; Bearing pedestal 138 is connected with connecting shaft 122 by bearing (not indicating), and fixedlys connected with riser 125; Synchronizing wheel 117 is fixedly connected on the connecting shaft 122, and between bearing pedestal 118 and shaft coupling 116; Synchronizing wheel 137 is fixedly connected on the connecting shaft 122, and is positioned at the left side of bearing pedestal 138; Synchronizing wheel 117 reaches synchronizing wheel 108 by being with (indicating) synchronously with power, makes synchronizing wheel 108 drive connecting shafts 110 and does synchronous the rotation with motor 115; Synchronizing wheel 137 reaches synchronizing wheel 130 by being with (indicating) synchronously with power, makes synchronizing wheel 130 drive connecting shafts 132 and does synchronous the rotation with motor 115.
Support 119 is fixedly connected on the riser 103, and is located at the below of connecting shaft 122; Inductor 120 is fixedly connected on the support 119, and optical code disk 121 is fixedlyed connected with connecting shaft 122, and is located at the top of inductor 120.
When work, cylinder 105 and cylinder 127 can drive riser 103 and riser 125 is done in opposite directions or linear relative movement, with the relative position between control riser 103 and the riser 125; Motor 115 reaches rotary power on the connecting shaft 122 by shaft coupling 116, synchronizing wheel 117 and synchronizing wheel 137 are rotatablely moved synchronously with connecting shaft 122, and by being with (indicating) that power is reached on synchronizing wheel 108 and the synchronizing wheel 130 synchronously, connecting shaft 110 and connecting shaft 132 are rotatablely moved synchronously with connecting shaft 122, rotate thereby drive clip (112,114,134,136); When cylinder 107 drives connecting shafts 110 forward during moving linearly, contiguous block 111 and contiguous block 113 form a thrust with respect to clip 112 and clip 114, thereby control clip 112 forms mutually with clip 114 and clamps, as shown in Figure 2; When cylinder 107 drives connecting shafts 110 backward during moving linearly, contiguous block 111 and contiguous block 113 form a pulling force with respect to clip 112 and clip 114, unclamp thereby clip 112 is formed mutually with clip 114, as shown in Figure 3; Same, when cylinder 129 drives connecting shafts 132 forward during moving linearly, contiguous block 133 and contiguous block 135 form a thrust with respect to clip 134 and clip 136, thereby control clip 134 forms mutually with clip 136 and clamps, when cylinder 129 drives connecting shafts 132 backward during moving linearly, contiguous block 133 and contiguous block 135 form a pulling force with respect to clip 134 and clip 136, unclamp thereby clip 134 is formed mutually with clip 136.Fig. 4 is the finisher apparatus schematic diagram that clamping has electric core.
Above content be in conjunction with concrete preferred implementation to further describing that the utility model is done, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, under the prerequisite that does not break away from the utility model design, can also make some simple deduction or replace, all should be considered as belonging to protection range of the present utility model.Such as: under the prerequisite that does not influence the clamping effect, also can not adopt the symmetrically arranged scheme in the left and right sides, and a wherein side can only be set.Or the like, no longer exhaustive.