The automatic discharge unit of the online pipe cutting machine of a kind of heat-shrink tube
Technical field
The utility model relates to the automatic discharge unit of the online pipe cutting machine of a kind of heat-shrink tube, especially the automatic discharge unit of the online pipe cutting machine of automobile heat-shrink tube.
Background technology
In current heat-shrink tube industry, automobile heat-shrink tube often adopts online Pipe Cutting mode to enhance productivity, a belt conveyor is connected with at the exit end of automatic casing cutter, common way utilizes manually regularly to be taken off by the tubing on belt conveyor, or allow tubing after belt conveyor transmits, be first deposited in the front end of conveyer, again by manual sorting, so add venue cost and cost of human resources.
Utility model content
The technical problems to be solved in the utility model is: in order to need the problem of artificial feeding when overcoming the online Pipe Cutting of existing heat-shrink tube, the utility model provides the automatic discharge unit of the online pipe cutting machine of a kind of heat-shrink tube, regularly automatically can clamp the tubing on belt conveyor, then the side to belt conveyor is released, unload tubing, eliminate special manual cleaning, it also avoid tubing and be deposited in the front end of belt conveyor and the manufacturing line caused is long and waste the problem in place, workshop.
In order to solve the problems of the technologies described above, the utility model proposes following technical scheme: the automatic discharge unit of the online pipe cutting machine of a kind of heat-shrink tube, it comprises an adapter plate, one first cylinder, a contiguous block, a jaw connecting panel, a permanent seat, one second cylinder, a joint, a jaw, a striker plate;
This first cylinder is arranged on this adapter plate, and this first cylinder comprises first cylinder piston rod;
The rear end of this contiguous block connects the front end of this first cylinder piston rod;
This jaw connecting panel is fixed on the front end face of this contiguous block;
This permanent seat is fixed on the end face of this contiguous block;
This second cylinder is rotatably articulated on this permanent seat, and this second cylinder includes second cylinder piston rod;
The rear end of this joint is fixed on this second cylinder piston rod;
This jaw comprises connecting rod on, a lower clamping bar, and on this, the top of connecting rod is rotatably articulated on this joint, and this lower clamping bar extends after the bottom of connecting rod on this bends to form;
The bottom of this jaw connecting panel is rotatably articulated in the middle part of this jaw;
This striker plate is arranged on this adapter plate.
The further restriction of technique scheme is, this lower clamping bar extends after the bottom of connecting rod on this bends the angle of 110-150 degree to form.
The further restriction of technique scheme is, this first cylinder is three axle cylinders.
The further restriction of technique scheme is, the automatic discharge unit of the online pipe cutting machine of this heat-shrink tube also comprises one first latch, one first snap ring; This permanent seat upwards extends and is provided with two parallel mounting ears, these two mounting ears respectively offer a permanent seat jack; The rear end of this second cylinder offers a second cylinder jack; This first latch is plugged among the permanent seat jack of this permanent seat and the second cylinder jack of this second cylinder, this the first snap ring is fastened on the end of this first latch, this second cylinder and this permanent seat are coupled together, therefore this second cylinder is rotatably articulated on this permanent seat.
The further restriction of technique scheme is, the automatic discharge unit of the online pipe cutting machine of this heat-shrink tube also comprises one second latch, one second snap ring; The front end of this joint offers a connector receptacle; On this, the top of connecting rod is extended with two connecting straps, these two connecting straps respectively offers a upper connecting rod jack; This second latch is plugged in the connector receptacle of this joint and the upper connecting rod jack of this jaw, and this second snap ring is fastened on the end of this second latch, and this jaw and this joint are coupled together, therefore on this, the top of connecting rod is rotatably articulated on this joint.
The further restriction of technique scheme is, the automatic discharge unit of the online pipe cutting machine of this heat-shrink tube also comprises one the 3rd latch, one the 3rd snap ring; The bottom of this jaw connecting panel is provided with two parallel jaw pivoted poles to downward-extension, and these two jaw pivoted poles respectively offer a pivoted hole; The middle part of this jaw is positioned at connecting rod and the crossing neighbouring position of this lower clamping bar on this and offers a jaw jack; 3rd latch is plugged in the jaw jack of this jaw and the pivoted hole of this jaw connecting panel, 3rd snap ring is fastened on the end of the 3rd latch, this jaw and jaw connecting panel are coupled together, therefore in the middle part of this jaw, is rotatably articulated in the bottom of this jaw connecting panel.
The further restriction of technique scheme is, the automatic discharge unit of the online pipe cutting machine of this heat-shrink tube also comprises two the first cylinder inductive switches, and these two the first cylinder inductive switches are arranged on the front-end and back-end of this first cylinder respectively.
The further restriction of technique scheme is, the automatic discharge unit of the online pipe cutting machine of this heat-shrink tube also comprises two the second cylinder inductive switches, and these two the second cylinder inductive switches are arranged on rear end and the front end of this second cylinder respectively.
The further restriction of technique scheme is, the automatic discharge unit of the online pipe cutting machine of this heat-shrink tube also comprises a base plate, a support side plate, a brace panel, several reinforced ribs, this support side plate is vertically mounted on base plate, this adapter plate is vertically mounted on the top of this support side plate, and this brace panel is fixed on this base plate; In these several reinforced ribs, the reinforced rib of partial amt is fixed between this support side plate and base plate, and other reinforced rib is fixed between this support side plate and adapter plate.
Compared with prior art, the utility model has following beneficial effect: the automatic discharge unit of the online pipe cutting machine of the utility model heat-shrink tube, regularly automatically can clamp the tubing on belt conveyor, then automatic side discharging is realized, eliminate special manual cleaning's operation, reduce human cost, improve work efficiency, it also avoid tubing and be deposited in the front end of belt conveyor and the manufacturing line caused is long and waste the problem in place, workshop.
Accompanying drawing explanation
Fig. 1 is the three-dimensional exploded view of the automatic discharge unit of the online pipe cutting machine of the utility model heat-shrink tube.
Fig. 2 is the block diagram of automatic discharge unit at initial condition of the online pipe cutting machine of the utility model heat-shrink tube.
Fig. 3 is the block diagram of automatic discharge unit when discharging action is carried out in preparation of the online pipe cutting machine of the utility model heat-shrink tube.
Detailed description of the invention
As shown in Figure 1 to Figure 3, the utility model proposes the automatic discharge unit of the online pipe cutting machine of a kind of heat-shrink tube, it comprises a base plate 11, one support side plate 13, one adapter plate 15, one brace panel 17, three reinforced ribs 19, one first cylinder 21, two the first cylinder inductive switches 23, one contiguous block 25, one jaw connecting panel 27, one permanent seat 29, one second cylinder 31, two the second cylinder inductive switches 33, one joint 35, one first latch 37, first snap ring 39, one jaw 41, one second latch 43, second snap ring 45, one the 3rd latch 47, 3rd snap ring 49, one striker plate 51.
This support side plate 13 is vertically mounted on base plate 11.
This adapter plate 15 is vertically mounted on the top of this support side plate 13.
This brace panel 17 is fixed on this base plate 11.
In these three reinforced ribs 19, two reinforced ribs 19 are fixed between this support side plate 13 and base plate 11, and another reinforced rib 19 is fixed between this support side plate 13 and adapter plate 15.
This first cylinder 21 is arranged on this adapter plate 15.
This first cylinder 21 is three axle cylinders, and it comprises first cylinder piston rod 212 that can seesaw.
These two the first cylinder inductive switches 23 are arranged on the front-end and back-end of this first cylinder 21 respectively, are used for limiting the front limit of this first cylinder piston rod 212 and rear spacing.
The rear end of this contiguous block 25 is fastened on the front end of this first cylinder piston rod 212.
This jaw connecting panel 27 is fixed on the front end face of this contiguous block 25.
The bottom of this jaw connecting panel 27 is provided with two parallel jaw pivoted poles 272 to downward-extension.
These two jaw pivoted poles 272 respectively offer a pivoted hole 274.
This permanent seat 29 is fixed on the end face of this contiguous block 25.
This permanent seat 29 upwards extends and is provided with two parallel mounting ears 292.These two mounting ears 292 respectively offer a permanent seat jack 294.
The rear end of this second cylinder 31 offers a second cylinder jack 312.
This second cylinder 31 includes the second cylinder piston rod 314 of a scalable motion.
These two the second cylinder inductive switches 33 are arranged on rear end and the front end of this second cylinder 31 respectively, are used for limiting the front limit of this second cylinder piston rod 314 and rear spacing.
The rear end of this joint 35 is fixed on this second cylinder piston rod 314, and the front end of this joint 35 offers a connector receptacle 352.
This first latch 37 is plugged among the permanent seat jack 294 of this permanent seat 29 and the second cylinder jack 312 of this second cylinder 31, this the first snap ring 39 is fastened on the end of this first latch 37, this the second cylinder 31 and this permanent seat 29 are coupled together, therefore this second cylinder 31 is rotatably articulated on this permanent seat 29.
This jaw 41 comprises connecting rod 412, lower clamping bar 414 on.
On this, the top of connecting rod 412 is extended with two connecting straps 4122, these two connecting straps 4122 respectively offers a upper connecting rod jack 4124.
This lower clamping bar 414 extends after the bottom of connecting rod 412 on this bends the angle of 110-150 degree to form.
The middle part of this jaw 41 is positioned at connecting rod 412 and the crossing neighbouring position of this lower clamping bar 414 on this and offers a jaw jack 416.
This second latch 43 is plugged in the connector receptacle 352 of this joint 35 and the upper connecting rod jack 4124 of this jaw 41, this the second snap ring 45 is fastened on the end of this second latch 43, this jaw 41 and this joint 35 are coupled together, therefore on this, the top of connecting rod 412 is rotatably articulated on this joint 35.
3rd latch 47 is plugged in the jaw jack 416 of this jaw 41 and the pivoted hole 274 of this jaw connecting panel 27,3rd snap ring 49 is fastened on the end of the 3rd latch 47, this jaw 41 and jaw connecting panel 27 are coupled together, therefore in the middle part of this jaw 41, is rotatably articulated in the bottom of this jaw connecting panel 27.
This striker plate 51 is arranged on this adapter plate 15, is used for tubing 1000 to keep off between contiguous block 25 and jaw 41, can accurately clamp tubing 1000 when jaw 41 is worked.
During work, after the cutting mechanism (not shown) of a upper workshop section completes Pipe Cutting action, this second cylinder 31 starts action, second cylinder piston rod 314 is from rear spacing arrival front limit, this second cylinder piston rod 314 promotes this joint 35 and upper connecting rod 412 top travels forward, due to the position-limiting action of this jaw connecting panel 27 and the 3rd latch 47 pairs of jaws 41, this lower clamping bar 414 rotates up, and is clamped by the tubing 1000 be positioned in belt conveyor (not shown).Then, the first cylinder 21 starts action, the first cylinder piston rod 212 from rear spacing arrival front limit, promote contiguous block 25, jaw connecting panel 27 and jaw 41 entirety move forward, by tubing 1000 belt conveyor (not shown) forward thruster go out.Then, the second cylinder 31 starts action, and the second cylinder piston rod 314 is got back to rear spacing from front limit, lower clamping bar 414 is rotated down, and tubing 1000 flows out from gap between lower clamping bar 414 and striker plate 51 and unloads.Next, this first cylinder 21 starts action, and the first cylinder piston rod 212 is got back to rear spacing from front limit, whole device gets back to initial condition.
The utility model has following beneficial effect: the automatic discharge unit of the online pipe cutting machine of the utility model heat-shrink tube, regularly automatically can clamp the tubing 1000 on belt conveyor, then automatic side discharging is realized, eliminate special manual cleaning's operation, reduce human cost, improve work efficiency, it also avoid tubing 1000 and be deposited in the front end of belt conveyor and the manufacturing line caused is long and waste the problem in place, workshop.