CN204607218U - A kind of aluminium skin collecting conveyor structure - Google Patents

Abstract

The utility model provides a kind of aluminium skin collecting conveyor structure, described aluminium skin collecting conveyor structure comprises ribbon feeding mechanism, lattice mechanism, screw rod material storage mechanism, chain driving conveyor structure, described lattice mechanism is positioned at described ribbon feeding mechanism discharge outlet, described screw rod material storage mechanism and described chain driving conveyor structure are all positioned at the below of described lattice mechanism, and described chain driving conveyor structure is positioned in the middle part of described screw rod material storage mechanism.By lattice mechanism, point sash of the aluminium skin after cutting is collected, ensure that the aluminium skin transmitted through ribbon feeding mechanism stacks precision by screw rod material storage mechanism, transferred out piling the aluminium skin folded by chain driving conveyor structure, the aluminium skin automatic frame separating lattice of cutting can be realized to collect and carry, rational in infrastructure, the automatic proper alignment of aluminium micromicro also stablizes output.

Description

A kind of aluminium skin collecting conveyor structure

Technical field

The utility model relates to a kind of aluminium skin production storage equipment, particularly a kind of aluminium skin collecting conveyor structure.

Background technology

The need of production of two piece can carries out section to aluminium skin and gets the raw materials ready, aluminium skin has at the automated production in material preparation technology stage the feature that speed is fast, output is high, if the collection carrying of aluminium skin after automation equipment is cut relies on artificial, then can not realize neatly errorless arrangement and the conveying fast of aluminium skin, and easily cause the situations such as staff's hand scuffing to occur.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of aluminium skin automatic Partitioning through cutting can collection and the aluminium skin collecting conveyor structure transferred out.

In order to solve the problems of the technologies described above, the aluminium skin collecting conveyor structure of the technical solution adopted in the utility model for providing, described aluminium skin collecting conveyor structure comprises ribbon feeding mechanism, lattice mechanism, screw rod material storage mechanism, chain driving conveyor structure and frame;

Described ribbon feeding mechanism comprises feeding motor, feeding roller and feeding belt, and described feeding motor drives feeding belt right-hand circular to rotate through feeding roller;

Described lattice mechanism comprises two and arranges the lattice baffle plate placed vertical with described feeding roller axial direction and fixed block with the postive stop baffle, of the parallel placement of described feeding roller axial direction, described postive stop baffle is fixed in frame, and described lattice baffle plate is fixed on postive stop baffle by fixed block;

Described screw rod material storage mechanism comprises splicing plate, spiral lifting mechanism, screw drive assembly, and described splicing plate is positioned at above spiral lifting mechanism, and described screw drive assembly drives splicing plate to realize oscilaltion campaign by spiral lifting mechanism;

Described chain driving conveyor structure comprises conveying motor and chain, chain cycle operation described in described conveying driven by motor;

Described lattice mechanism is positioned at described ribbon feeding mechanism discharge outlet, and described screw rod material storage mechanism and described chain driving conveyor structure are all positioned at the below of described lattice mechanism, and described chain driving conveyor structure is positioned in the middle part of described screw rod material storage mechanism.

Further, the distance between two described postive stop baffles and the width of aluminium skin suitable.

Further, the distance between described lattice baffle plate and the length of aluminium skin suitable.

Further, described lattice baffle plate is provided with sensing hole.

Further, described frame is installed a photoelectric switch corresponding with described sensing hole position.

Further, the chain of described chain driving conveyor structure has two of left and right arrangement in parallel.

Further, described chain driving conveyor structure also comprises stay bearing plate, and described stay bearing plate has two, lays respectively at below the chain of two, described left and right.

Further, described spiral lifting mechanism is positioned in the middle of two described chains.

Further, described screw drive assembly comprises screw belt transmission component and screw rod motor.

Further, described spiral lifting mechanism comprises leading screw, worm screw, worm gear, described splicing plate is positioned at above leading screw, described worm screw is rotated by screw rod driven by motor by screw belt transmission component, the engagement of described worm and wheel outer ring, described worm gear inner ring and leading screw are spirally connected, and the convert rotational motion of described worm screw is the oscilaltion campaign of leading screw, described spiral lifting mechanism has one at least, and the worm screw between described spiral lifting mechanism is coupled together by coupler and adapter shaft.

The beneficial effects of the utility model are the aluminium skin collecting conveyor structure provided, collected through the aluminium skin point sash of ribbon feeding mechanism transmission after cutting by lattice mechanism, ensure that the aluminium skin transmitted through ribbon feeding mechanism stacks precision by screw rod material storage mechanism, transferred out piling the aluminium skin folded by chain driving conveyor structure, the aluminium skin automatic frame separating lattice of cutting can be realized to collect and carry, rational in infrastructure, the automatic proper alignment of aluminium micromicro also stablizes output, and equipment is reliable stable.

Accompanying drawing explanation

Fig. 1 is the perspective view of the aluminium skin collecting conveyor structure of the utility model embodiment;

Fig. 2 is the left TV structure schematic diagram of the aluminium skin collecting conveyor structure of the utility model embodiment;

Fig. 3 is that the aluminium skin of the aluminium skin collecting conveyor structure of the utility model embodiment collects localization part structural representation;

Fig. 4 is the screw rod material storage mechanism structural representation of the aluminium skin collecting conveyor structure of the utility model embodiment;

Fig. 5 is the chain driving conveyor structure structural representation of the aluminium skin collecting conveyor structure of the utility model embodiment.

Label declaration:

1, aluminium skin; 2, ribbon feeding mechanism; 3, lattice mechanism; 4, screw rod material storage mechanism; 5, chain driving conveyor structure; 6, frame; 7, feeding motor; 8, feeding roller; 9, feeding belt; 10, postive stop baffle; 11, lattice baffle plate; 12, fixed block; 13, splicing plate; 14, leading screw; 15, worm screw; 16, worm gear; 17, spiral lifting mechanism; 18, screw belt transmission component; 19, screw rod motor; 20, motor is carried; 21, chain; 22, stay bearing plate; 23, sensing hole; 24, photoelectric switch; 25, coupler; 26, adapter shaft.

Detailed description of the invention

By describing technology contents of the present utility model in detail, realized object and effect, accompanying drawing is coordinated to be explained below in conjunction with embodiment.

The design of the utility model most critical is to utilize the inertia of aluminium skin that sends through belt and the stock chest of separation to collect stacking for aluminium skin point sash, utilize leading screw to adjust stock chest distance from bottom belt and transmit the height exported, utilize Chain conveyer to be transferred out by the aluminium skin of stacking collection, realize the automatic stacked arrangement of aluminium skin and conveying.

Please refer to Fig. 1 to Fig. 5, the aluminium skin collecting conveyor structure that the utility model provides, described aluminium skin collecting conveyor structure comprises ribbon feeding mechanism 2, lattice mechanism 3, screw rod material storage mechanism 4, chain driving conveyor structure 5 and frame 6;

Described ribbon feeding mechanism 2 comprises feeding motor 7, feeding roller 8 and feeding belt 9, and described feeding motor 7 drives feeding belt 9 right-hand circular to rotate through feeding roller 8;

Described lattice mechanism 3 comprises two and arranges the lattice baffle plate 11 placed vertical with described feeding roller 8 axial direction and fixed block 12 with the postive stop baffle 10, of the parallel placement of described feeding roller 8 axial direction, described postive stop baffle 10 is fixed in frame 6, and described lattice baffle plate 11 is fixed on postive stop baffle 10 by fixed block 12;

Described screw rod material storage mechanism 4 comprises splicing plate 13, spiral lifting mechanism 17, screw drive assembly, and described splicing plate is positioned at above spiral lifting mechanism, and described screw drive assembly drives splicing plate to realize oscilaltion campaign by spiral lifting mechanism;

Described chain driving conveyor structure 5 comprises conveying motor 20 and chain 21, and described conveying motor 20 drives described chain 21 cycle operation.

Described lattice mechanism 3 is positioned at described ribbon feeding mechanism 2 discharge outlet, and described screw rod material storage mechanism 4 and described chain driving conveyor structure 5 are all positioned at the below of described lattice mechanism 3, and described chain driving conveyor structure 5 is positioned in the middle part of described screw rod material storage mechanism 4.

From foregoing description, the beneficial effects of the utility model are the aluminium skin collecting conveyor structure provided, by lattice mechanism 3, the aluminium skin 1 point of sash transmitted through ribbon feeding mechanism 2 after cutting is collected, ensure that the aluminium skin 1 transmitted through ribbon feeding mechanism 2 stacks precision by screw rod material storage mechanism 4, transferred out piling the aluminium skin 1 folded by chain driving conveyor structure 5, the aluminium skin 1 automatic frame separating lattice of cutting can be realized to collect and carry, rational in infrastructure, aluminium skin 1 proper alignment also can stablize output automatically, and equipment is reliable stable.

Further, the distance between two described postive stop baffles 10 and the width of aluminium skin 1 suitable.

Further, the distance between described lattice baffle plate 11 and the length of aluminium skin 1 suitable.

Seen from the above description, the aluminium skin collecting conveyor structure that the utility model provides, from feeding belt 9, the single aluminium skin 1 of landing is finally positioned in the sash that two described postive stop baffles 10 and described lattice baffle plate 11 fence up, multiple aluminium flake is successively after landing, stacking effect is formed in sash, aluminium flake reasonable positioning, is conducive to automatically stacking, collection after aluminium flake landing.

Further, described lattice baffle plate 11 is provided with sensing hole 23.

Further, described frame 6 is installed a photoelectric switch 24 corresponding with described sensing hole 23 position.

Seen from the above description, the aluminium skin collecting conveyor structure that the utility model provides, lattice baffle plate 11 is established sensing hole 23, the stacking height of aluminium flake can be detected with photoelectric switch 24, when the height that aluminium flake is stacking reaches certain position, photoelectric switch 24 is to controller feedback signal, the height of stacking aluminium flake is slowly reduced by screw rod material storage mechanism 4, follow-up aluminium flake is facilitated to continue to drop in the sash that two described postive stop baffles 10 and described lattice baffle plate 11 fence up, utilize sensor to realize the automatic control of aluminium flake stacks as high, rational in infrastructure, meet the requirements for automatic control that aluminium flake is stacking.

Further, the chain 21 of described chain driving conveyor structure 5 has two of left and right arrangement in parallel.

Further, described chain driving conveyor structure 5 also comprises stay bearing plate 22, and described stay bearing plate 22 has two, lays respectively at below the chain 21 of two, described left and right.

Seen from the above description, the aluminium skin collecting conveyor structure that the utility model provides, by two chains 21 of left and right arrangement in parallel, stacking aluminium skin 1 is transferred out, and chain adds stay bearing plate 22 21 times, rational in infrastructure, be conducive to ensureing balance of mechanism when aluminium skin 1 is collected and extend service life of chain 21.

Further, described spiral lifting mechanism 17 is positioned in the middle of two described chains 21.

Further, described screw drive assembly comprises screw belt transmission component 18 and screw rod motor 19.

Further, described spiral lifting mechanism 17 comprises leading screw 14, worm screw 15, worm gear 16, described splicing plate 13 is positioned at above leading screw 14, described worm screw 15 passes through screw belt transmission component 18 by screw rod motor 19 driven rotary, described worm screw 15 engages with worm gear 16 outer ring, described worm gear 16 inner ring and leading screw 14 are spirally connected, and the convert rotational motion of described worm screw 15 is the oscilaltion campaign of leading screw 14; Described spiral lifting mechanism 17 has one at least, and the worm screw 15 between described spiral lifting mechanism 17 is coupled together by coupler 25 and adapter shaft 26.

Seen from the above description, the aluminium skin collecting conveyor structure that the utility model provides, the linear downward motion collecting aluminium skin 1 is controlled by the leading screw 14 in spiral lifting mechanism 17, leading screw 14 is positioned at the balance being conducive to aluminium skin 1 collection in the middle of two chains 21, and the quantity of spiral lifting mechanism 17 is variable, can according to the weight of aluminium skin 1, the factors such as the width of feeding belt 9 are determined, connected by coupler 25 between the worm screw 15 of spiral lifting mechanism 17, flexibly rational in infrastructure, precision is high.

Please refer to Fig. 1 to Fig. 5, during aluminium skin collecting conveyor structure work of the present utility model, row's aluminium skin 1 after slitting is positioned at above feeding belt 9, feeding belt 9 is wrapped on feeding roller 8, feeding belt 9 realizes clockwise rotation under the drive of feeding motor 7, and is carried successively from left to right by aluminium skin 1 by rows, being dropped by row's aluminium skin 1 that feeding belt 9 is carried arranges in sash surrounded by two postive stop baffles 10 and some spacing and the suitable lattice baffle plate 11 of aluminium skin 1 length one, it is splicing plate 13 bottom sash, splicing plate 13 is fixed on above leading screw 14, leading screw 14 transforms rear drive realization by the rotary motion of worm screw 15 by worm gear 16 and moves up and down, worm screw 15 drives screw belt transmission component 18 to realize rotary motion by screw rod motor 19, the height of the sensing hole 23 on the upper surface of splicing plate 13 and lattice baffle plate 11 is not easily too high, too highly can affect the stacking regularity of aluminium skin 1, when the height that aluminium skin 1 on splicing plate 13 is stacking arrives the position of sensing hole 23, photoelectric switch 24 is to controller feedback signal, controller controls screw rod motor 19 and rotates certain height that to be declined by leading screw 14, continue to collect aluminium skin 1, after aluminium skin 1 collects certain thickness, feeding motor 7 stops operating, feeding belt 9 stops conveying aluminum skin 1, leading screw 14 straight line declines until the aluminium skin 1 collected is placed on chain 21, chain 21 drives the aluminium skin 1 of collection outwards to carry under the drive of conveying motor 20, splicing plate 13 rises to the certain height of distance sensing hole 23 under spiral lifting mechanism 17 acts on, and feeding motor 7 starts to rotate drive feeding belt 9 and rotates clockwise, and can start the collection of next round aluminium skin 1, action can so move in circles.

In sum, the aluminium skin collecting conveyor structure that the utility model provides, by aluminium skin 1 point of stacking collection of sash that lattice mechanism 3 will transmit through ribbon feeding mechanism 2 after cutting, ensure that the aluminium skin 1 transmitted through ribbon feeding mechanism 2 stacks precision by screw rod material storage mechanism 4, the stacking height of aluminium skin 1 is detected by photoelectric switch 24, by spiral lifting mechanism 17, stacking aluminium skin 1 is declined steadily, transferred out piling the aluminium skin 1 folded by chain driving conveyor structure 5, the aluminium skin 1 automatic frame separating lattice of cutting can be realized to collect and carry, rational in infrastructure, aluminium skin 1 proper alignment also can stablize output automatically, equipment is reliable stable.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalents utilizing the utility model specification sheets and accompanying drawing content to do; or be directly or indirectly used in relevant technical field, be all in like manner included in scope of patent protection of the present utility model.

Claims (9)

1. an aluminium skin collecting conveyor structure, is characterized in that, described aluminium skin collecting conveyor structure comprises ribbon feeding mechanism, lattice mechanism, screw rod material storage mechanism, chain driving conveyor structure and frame;

Described ribbon feeding mechanism comprises feeding motor, feeding roller and feeding belt, and described feeding motor drives feeding belt right-hand circular to rotate through feeding roller;

Described lattice mechanism comprises two and arranges the lattice baffle plate placed vertical with described feeding roller axial direction and fixed block with the postive stop baffle, of the parallel placement of described feeding roller axial direction, described postive stop baffle is fixed in frame, and described lattice baffle plate is fixed on postive stop baffle by fixed block;

Described screw rod material storage mechanism comprises splicing plate, spiral lifting mechanism, screw drive assembly, and described splicing plate is positioned at above spiral lifting mechanism, and described screw drive assembly drives splicing plate to realize oscilaltion campaign by spiral lifting mechanism;

Described chain driving conveyor structure comprises conveying motor and chain, chain cycle operation described in described conveying driven by motor;

Described lattice mechanism is positioned at described ribbon feeding mechanism discharge outlet, and described screw rod material storage mechanism and described chain driving conveyor structure are all positioned at the below of described lattice mechanism, and described chain driving conveyor structure is positioned in the middle part of described screw rod material storage mechanism.

2. aluminium skin collecting conveyor structure according to claim 1, is characterized in that, the distance between two described postive stop baffles and the width of aluminium skin suitable.

3. aluminium skin collecting conveyor structure according to claim 1, is characterized in that, the distance between described lattice baffle plate and the length of aluminium skin suitable.

4. aluminium skin collecting conveyor structure according to claim 1, it is characterized in that, described lattice baffle plate is provided with sensing hole.

5. aluminium skin collecting conveyor structure according to claim 4, is characterized in that, described frame is installed a photoelectric switch corresponding with described sensing hole position.

6. aluminium skin collecting conveyor structure according to claim 1, is characterized in that, the chain of described chain driving conveyor structure has two of left and right arrangement in parallel.

7. the aluminium skin collecting conveyor structure according to claim 1 or 6, it is characterized in that, described spiral lifting mechanism is positioned in the middle of two described chains.

8. aluminium skin collecting conveyor structure according to claim 1, it is characterized in that, described screw drive assembly comprises screw belt transmission component and screw rod motor.

9. aluminium skin collecting conveyor structure according to claim 1, it is characterized in that, described spiral lifting mechanism comprises leading screw, worm screw, worm gear, described splicing plate is positioned at above leading screw, described worm screw is rotated by screw rod driven by motor by screw belt transmission component, the engagement of described worm and wheel outer ring, described worm gear inner ring and leading screw are spirally connected, the convert rotational motion of described worm screw is the oscilaltion campaign of leading screw, described spiral lifting mechanism has one at least, and the worm screw between described spiral lifting mechanism is coupled together by coupler and adapter shaft.