CN204604937U - A kind of fiber cloth injecting glue moulded products multi-mould turnover automatic production line device - Google Patents

Abstract

The utility model provides a kind of fiber cloth injecting glue moulded products multi-mould turnover automatic production line device, and described device comprises: platen laid by fiber cloth automatic Modulus cutter sweep, the automatic laying device of die, matched moulds glue-injection forming apparatus, baking oven, automatic transport stripper apparatus, surface trimming grooving apparatus, the automatic one-shot forming perforating device of many cross-drilled holes, scrap automatic cleaning apparatus, baking oven induction system, transportation work platen, mould backhaul induction system, mould conveying robot and mould.Described device can realize automatic production line flow process and produce, and greatly improves productivity effect and social benefit, has a good application prospect.

Description

A kind of fiber cloth injecting glue moulded products multi-mould turnover automatic production line device

Technical field

The utility model relates to automatic laminated apparatus field, is specifically related to a kind of product preformed of fibre sheet material, matched moulds injecting glue, product Post RDBMS process for producing pipeline system.

Background technology

Good fatigue resistance, the damage tolerance high and mechanical property that has composite such as can to design at the excellent specific property, and it can also make product lightweight, and energy-saving and emission-reduction potentiality are very huge, and it can also improve the crashworthiness of product, improves security.Therefore, apply more and more widely in industry acquisitions such as automobile, aviation, ships and light boats, buildings.

Restriction composite obtains the main cause of extensive use, and the lamination efficiency remaining composite is low more expensive with price that is composite, and the lamination efficiency as carbon fiber is low and carbon fiber is expensive, and low its production cost that also can make of the lamination efficiency of carbon fiber raises.Although in fiber manufacturing process, preimpregnation is furnished with the folded machine of automation layer, and the dry cloth of fiber (i.e. fibre sheet material) does not also have equipment and the technology of automatic assembly line in the world.More advanced is adopt vacuum cup to operate composite material component at present, but also can only realize the automated production of simple shape parts as roof of the vehicle, protecgulum etc., can not be applicable to flexible articles.

In practice, use fibre sheet material to do structural material, usually make fibre sheet material by yarn, obtain the composite (i.e. structural material) of fibre sheet material lamination after stratified fiber sheet material to certain thickness, just can be applied in reality and go.Because automated machine operation fibre sheet material difficulty is comparatively large, only have exigent aircraft and shape matching rule component can adopt expensive automation laying equipment.And in general field, the many employings of superimposed fiber are manual, efficiency is low, and cost is high, hinders large-scale production.

Publication number is the automatic laminated device that the Chinese invention patent application of CN 101450754A discloses a kind of regular article, comprise the gripper shoe that two pieces of equalitys are arranged, symmetrical between two pieces of gripper shoes two parallel conveyer belts and unilateral gate are installed, below between two parallel conveyer belts is provided with one group of lifting mechanism, the quantity of this group lifting mechanism equals by the quantity of lifting object one deck, and each lifting mechanism is opposable to move up and down.Although this automatic laminated device can by the regular article of the hard on conveyer belt (cigarette as one case one case) by carrying out lamination after lifting mechanism lifting again, and the breakage rate of goods can be reduced, improve the lamination efficiency of the regular article of hard and reduce the floor space of goods, but this automatic laminated device can not be applicable to flexible articles, cannot complete the lamination of flexible articles.

The patent No. is that the Chinese utility model patent of ZL 200820101726.4 discloses the automatic laminated packing machine of a kind of regular object, frame is provided with feeding conveyor structure, release mechanism, multilayer lifting detent mechanism peace pushing mechanism, the release mechanism arranging formation first station in the end of feeding conveyor structure in turn, the multilayer lifting detent mechanism peace pushing mechanism forming the second station, the member of translational promoting push pedal translation is attached to the Lift Part driving push pedal lifting in this horizontal sliding mechanism.Although the automatic laminated packing machine of this regular object can by regular object, as the bar shaped cigarette after packaging, box packed medicine, boxed food carry out stacked, operating efficiency is higher, but the automatic laminated packing machine of this regular object can not be applicable to flexible articles, cannot complete the lamination of flexible articles.

At present, composite product production line balance, each link manufacturing process main method is that manual method obtains finished product, and lay fiber cloth, the demoulding, trimming, cleaning is wasted time and energy.Therefore, this area is in the urgent need to the full-automatic production method of a kind of fiber cloth injecting glue moulded products and equipment.

Utility model content

The purpose of this utility model be to provide a kind of can the automatic assembly line of fully-automatic production fiber cloth injecting glue moulded products, particularly can carry out the automatic assembly line of multi-mould turnover.

First aspect of the present utility model, provide a kind of fiber cloth injecting glue moulded products multi-mould turnover automatic production line device, described device comprises:

Fiber cloth automatic Modulus cutter sweep (A);

The automatic laying device of die (B);

Pre-shaping device (C);

Automatic trimming device (D);

Matched moulds glue-injection forming apparatus (E);

Baking oven system (F), described baking oven system comprises baking oven (26), and baking oven induction system;

Automatic transport stripper apparatus (G);

Surface trimming grooving apparatus (J);

Automatic one-shot forming perforating device (K);

Scrap automatic cleaning apparatus (L);

Transportation work platen (41);

Mould backhaul pipeline system (H);

Mould conveying robot (22); With

Platen (20) laid by mould.

In another preference, described transportation work platen (41) also has one or more rail plate.

In another preference, described mould conveying robot 22 comprises: manipulator truss and mould carrying assembly.

In another preference, described manipulator truss is provided with moveable set of rails, and described set of rails and mould are carried assembly and be connected.

In another preference, described mould carrying assembly comprises gas pawl and/or vacuum intake valve, for combining with mould to be handled or blank.

In another preference, described mould is laid platen 20 and is comprised: platen table, and described platen table is mounted with guide rail, and above-mentioned guide rail is connected with the guide rail in described mould conveying robot 22.

In another preference, described guide rail is provided with scalable driving slide block.

In another preference, in described device, each several part is connected by induction system, and described induction system comprises guide rail and/or transport roller.

In another preference, described fiber cloth automatic Modulus cutter sweep (A) comprising:

Shear platen (1);

One end of described shearing platen (1) has a yarn roll stand, described yarn roll stand is provided with one or more fiber cloth yarn roller (2), and one or more nip rolls (3);

Described shearing platen (1) middle part is provided with one or more grid plate, and described grid plate one end is provided with the first cutter (5) and the second cutter (6);

The other end of described shearing platen (1) is provided with moveable automatic Modulus cutter sweep (7) and cutting platen (10).

In another preference, described one or more nip rolls 3 are installed on below described one or more fiber cloth yarn rollers 2 respectively.

In another preference, described yarn roll stand is positioned at described shearing platen head end.

In another preference, described yarn roller and described nip rolls are one to one.

In another preference, described yarn roller and described nip rolls are positioned in described cutting platen yarn roll stand, and described nip rolls is installed on below corresponding yarn roller.

In another preference, described fiber cloth automatic Modulus cutter sweep (A) also comprises a feeding roller.

In another preference, described fiber cloth automatic Modulus cutter sweep (A) also comprises a cradle.

In another preference, in described fiber cloth automatic Modulus cutter sweep (A), each described yarn roller and nip rolls are alternately arranged, and before described feeding roller is positioned at described yarn roller and nip rolls.

In another preference, described grid plate is between described feeding roller and described cradle, and vertical with described feeding roller.

In another preference, described grid plate is parallel with described cradle.

In another preference, the first described cutter are positioned at one end of described grid plate, for carrying out pre-cut to fiber cloth.

In another preference, the second described cutter are positioned at the other end of described grid plate, cut out complete fiber cloth for blocking.

In another preference, described automatic Modulus cutter sweep is positioned at the tail end of described cutting platen.

In another preference, after the fiber cloth of cutting carries out lamination, successively by feeding roller and the grid plate be arranged in the middle of cutting platen, described cutter is installed on the end of described grid plate.

In another preference, described cradle is arranged on described cutting platen, and between described feeding roller and automatic Modulus cutter sweep, and described cradle can along described shearing bedplate moving.

In another preference, it is characterized in that, the automatic laying device of described die (B) comprising: folding forming mould, Manipulator Transportation executive module; Wherein:

Described folding forming mould comprises: mould (preferably including angled ends shaper and tail end shaper), and preforming tool (preferably include tail end fold preforming tool and angled ends folds preforming tool);

Described Manipulator Transportation executive module comprises: tail end sheet material carrying executive module, the carrying of angled ends sheet material executive module, the first robot and the second robot.

In another preference, described device also comprises waste material Material collecting box for harvesting.

In another preference, described device also comprises a moveable punching mechanism.

In another preference, described moveable punching mechanism has the first shear knife and the second shear knife.

In another preference, in described device, described mould is placed on shaper dispenser, and described preforming tool is arranged on sheet material punching frame.

In another preference, in described device, described angled ends sheet material carrying executive module is installed on described second arm end, and described angled ends sheet material carrying executive module comprises: the carrying of angled ends sheet material performs frame, the second inside casing, the second housing and angled ends sheet material carrying base plate.

In another preference, described angled ends sheet material carrying base plate end also has one or more vacuum absorption device.

In another preference, in described angled ends sheet material carrying executive module, the second described inside casing is arranged at the carrying of angled ends sheet material and performs on frame, and can planar move left and right forwards, backwards.

In another preference, the second described inside casing can move to housing direction surrounding.

In another preference, in described angled ends sheet material carrying executive module, the second described housing is arranged on described second inside casing, and can move up and down along the second inside casing wall.

In another preference, the described second outer frame bottom and vacuum generator (being preferably vavuum pump) UNICOM.

In another preference, the aperture that the adjacent surface in described second between frame bottom and the second housing has curve regularly arranged and vavuum pump UNICOM.

In another preference, the second described inside casing be connected, with execution frame be that fixing point moves, the second housing is connected with inside casing, moves relative to inside casing.

In another preference, the described second outer frame bottom is communicated with vavuum pump by the aperture that curve is regularly arranged.

In another preference, the aperture that the adjacent surface bottom the second described inside casing 13 and between the second housing 12 has curve regularly arranged and vavuum pump UNICOM.

In another preference, described tail end sheet material carrying executive module is installed on described first arm end, and described tail end sheet material carrying executive module comprises: the carrying of tail end sheet material performs frame, the first inside casing, the first housing, and angular mobility frame and tail end sheet material carrying base plate.

In another preference, described tail end sheet material carrying base plate end also has one or more vacuum absorption device.

In another preference, in described tail end dististyle material carrying executive module, the first described inside casing and described tail end dististyle material are carried and are performed frame and be connected, and the first described inside casing can move to housing surrounding.

In another preference, described inside casing be connected, carry out moving housing with fixing point and be connected with inside casing, move relative to inside casing.

In another preference, frame bottom and being connected with vavuum pump with the adjacent surface of the first housing in described first, preferably, in described first frame bottom and with the adjacent surface of the first housing by the regularly arranged aperture of curve and vavuum pump UNICOM.

In another preference, in described tail end dististyle material carrying executive module, the first described housing is arranged on the first inside casing, and the first described housing can move up and down along described first inside casing wall.

In another preference, the bottom of the first described housing is connected with vavuum pump, and preferably, the regularly arranged aperture of curve and vavuum pump UNICOM are passed through in the bottom of the first described housing.

In another preference, the second described inside casing and described angled ends sheet material are carried and are performed frame and be connected, and can carry with angled ends sheet material the fixing point performing frame and move around described; And/or

The first described inside casing and described tail end sheet material are carried and are performed frame and be connected, and can carry with tail end sheet material the fixing point performing frame and move around described.

Preferably, the second described housing is connected with the second described inside casing, and can move relative to the second described inside casing;

The first described housing is connected with the first described inside casing, and can move relative to the first described inside casing.

In another preference, the preformed method of described preformed frame adopts aperture vacuum suction fiber cloth to make fiber cloth keep preformed shaped as frame shape, utilize Manipulator Transportation executive module by the pre-stone in the fiber cloth of preformed shaped as frame shape carrying die place, complete die body shaped fibers cloth stone by the interphase interaction of inside casing relevant in Manipulator Transportation executive module and housing.

In another preference, described pre-shaping device (C) comprising: preforming tool, and preformed press.

In another preference, described automatic trimming device (D) comprising: frame, rope saw, workpiece clamping table, guide rail, PLC, leading screw, and motor.

In another preference, there is in described matched moulds glue-injection forming apparatus (E) a RTM glue-injection machine (24) and a hydraulic press base plate, and described hydraulic press base plate is provided with mould support plate (23), described mould support plate (23) is provided with guide rail.

In another preference, the guide rail that platen 20 laid by described guide rail and mould is connected.

In another preference, described baking oven system F is provided with and closes heating/ventilating system and baking oven induction system, and described baking oven induction system comprises guide rail.

In another preference, described guide rail is connected with the guide rail of matched moulds glue-injection forming apparatus E.

In another preference, described automatic transport stripper apparatus (G) is connected by described baking oven induction system with baking oven, is connected preferably by guide rail.

In another preference, described automatic transport stripper apparatus (G) comprises mold molding module 27, product molding module 28, product stripping conveyor module.

In another preference, described product stripping conveyor module has the first conveying device, the second conveying device and the 3rd conveying device.

In another preference, described mould backhaul pipeline system H has a mold conveying device, and once mold transferring device.

In another preference, described mold conveying device and bed die conveying device are vertical with the product stripping conveyor module in above-mentioned automatic transport stripper apparatus G respectively, preferably, described mold conveying device, bed die conveying device and product stripping conveyor module form U-shaped layout.

In another preference, described automatic transport stripper apparatus is provided with the first mould mechanism for sorting 29 and the second mould mechanism for sorting 31.

In another preference, described surface trimming grooving apparatus (J) comprising:

Conveying platen (41), described conveying platen (41) is mounted with one or more rail plate (45);

Working plate (33), described working plate (33) is linked by rail plate (45) and described conveying platen (41), and makes it in the upper operation of rail plate (45) by motor driving;

Described working plate (33) is provided with some clamping mechanisms (34);

Be positioned at the automatic cutting device (42) on described conveying platen (41); With

Be positioned at the automatic slotting device (43) on described conveying platen (41).

In another preference, described clamping mechanism 34 is pressed shape of product and is arranged.

In another preference, described automatic one-shot forming perforating device (K) is positioned on described transportation work platen (41), and described automatic one-shot forming perforating device (K) comprises automatic one-shot forming perforating device frame (44), being equipped with in the middle of described automatic one-shot forming perforating device frame (44) can reciprocating mechanism, described can be provided with automatic one-shot forming perforating device mould (36) by reciprocating mechanism end, and described automatic one-shot forming perforating device mould (36) is equipped with some groups of scalable grooved bits.

In another preference, described automatic one-shot forming perforating device K is the automatic one-shot forming perforating device of many cross-drilled holes.

In another preference, described scrap automatic cleaning apparatus L has vacuum absorption device, brush roll device and workbench, and described workbench is connected with conveying platen (41).

In another preference, described workbench is provided with guide rail and transport roller, table slide, surface trimming grooving apparatus J, many cross-drilled holes automatic one-shot forming perforating device K and scrap automatic cleaning apparatus L are connected by transport roller 32, and scrap automatic cleaning apparatus L is arranged on transport roller 32.

In another preference, described mould conveying robot (22) has manipulator truss and mould carrying assembly, wherein, described manipulator truss has moveable set of rails, and described mould carrying assembly is connected with described manipulator truss by described set of rails.

In another preference, described mould carrying assembly comprises gas pawl and/or vacuum valve.

In another preference, described mould is laid platen 20 and is had guide rail, and described guide rail is provided with scalable driving slide block.

In another preference, described mould backhaul induction system is also furnished with a device for cleaning mould, so that mould recycling in production line operation.

Second aspect of the present utility model, provide a kind of fiber cloth injecting glue moulded products multi-mould turnover automatic manufacturing method, it is characterized in that, described method uses the device as described in the utility model first aspect to carry out, and described method comprises step:

I () cuts out operation: described fiber cloth automatic Modulus cutter sweep A works, be arranged on and shear on platen 1 fiber cloth yarn roller 2 in yarn roll stand, fiber cloth yarn roller 2 is by nip rolls 3, feeding roller 4 is passed through again after fiber cloth, install below cutter 5 and cutter 6 by grid plate one end, removable automatic Modulus cutter sweep 7 pulls material institution staff and fiber cloth is pulled on cutting platen 10, become the work of die cut device, disposable intersection cuts out the first sheet material 11, second sheet material 12, 3rd sheet material 16 and the 4th sheet material 17 are (wherein, first sheet material 11 and the second sheet material 12 are a based sheet, 3rd sheet material 16 and the 4th sheet material 17 are a based sheet), complete and cut out operation,

(ii) die stone operation: the automatic laying device B of described die starts work, by the tail end carrying executive module of the first robot 13 and the angled ends carrying executive module of the second robot 18, intersection multiple-layer overlapped is carried out to the first sheet material 11/ second sheet material 12 and the 3rd sheet material 16/ the 4th sheet material 17 liang of based sheets, and in preformed press 19, be paved into the soft lamination blank 15 of fiber, preformed press 19 carries out preformed process to the soft lamination blank of described fiber, obtains preformed assembly;

(iii) preformed assembly trimming process step: be carried in automatic trimming device D by described preformed assembly by mould conveying robot 22, carries out the deburring process of preformed assembly, obtains the preformed assembly after deburring;

(iv) injecting glue compression molding operation: after deburring completes, by mould conveying robot 22, the preformed assembly after process is transferred on bed die 21 (carrying the mould of backhaul cleaned system preferably past mould), close after mold 30 (mould preferably past mould conveying backhaul cleaned system), entirety is delivered in the hydraulic press 25 of matched moulds glue-injection forming apparatus E, hydraulic press 25 works matched moulds, RTM glue-injection machine 24 works, and completes injecting glue compression molding operation;

(v) heating steps: the whole set of die completed after injecting glue compression molding is moved into baking oven system F, and baking oven is closed and is heated to setup times;

(vi) product stripping separation circuit: after having heated, baking oven induction system starts, the finished product of band mould is delivered to automatic transport stripper apparatus G place, automatic transport stripper apparatus G described in startup, carry out mold molding and product molding, obtain the blank part 35 after bed die 21, the demoulding and mold 30 again via the effect of the first mould mechanism for sorting 29 and the second mould mechanism for sorting 31, the product after the demoulding is delivered to surface trimming grooving apparatus J;

(ix) product cutting fluting operation: after the blank 35 after the described demoulding is delivered to surface trimming grooving apparatus J, clamping mechanism 34 described in operation, it is made to clamp described blank 35, working plate 33 described in motor drives moves forward, automatic cutting device 42 described in operation cuts (preferably to described blank 35, moving forward speed and automatic cutting device moves up and down speed by controlling working plate 33, cutting out the product border that different height requires);

Described working plate 33 continues the blank 35 after carrying described cutting and moves forward, and by automatic slotting device 43, obtains the trough needed;

(x) product drilling process: described working plate 33 carries the blank 35 after described fluting and continues reach, move to automatic one-shot forming perforating device K position, automatic one-shot forming perforating device K works, automatic one-shot forming perforating device mould 36 declines contact product, many drill bits startup work, complete the boring of disposable multi-hole position, perforating device K reduces, and takes out product 37 simultaneously.

In another preference, described method also comprises step:

(vii) mould recovery process: bed die and mold are delivered to mould backhaul pipeline system H place, after carrying out cleaning mould, is placed in mould by mould conveying robot 22 by the bed die 21 after cleaning and lays platen 20; Mould conveying robot 22 takes out the preformed assembly after automatic trimming device D deburring again, and is positioned in the bed die after cleaning 21, and the mold 30 that closes, repeat step (iv)-(vi).

In another preference, described method also comprises step:

(xi) cleaning process: the transport roller 38 described in startup, makes the product 37 after described punching by scrap automatic cleaning apparatus L, and carries out cleaning process, and the product after cleaning is positioned over working plate 40 position, completes a production procedure.

Should be understood that within the scope of the utility model, above-mentioned each technical characteristic of the present utility model and can combining mutually between specifically described each technical characteristic in below (eg embodiment), thus form new or preferred technical scheme.As space is limited, tiredly no longer one by one to state at this.

Accompanying drawing explanation

Fig. 1 is the overall construction design schematic diagram of the utility model device, and in figure, A is fiber cloth automatic Modulus cutter sweep, B is the automatic laying device of die, C is pre-shaping device, D is automatic trimming device, E is matched moulds glue-injection forming apparatus, F is baking oven system, G is automatic transport stripper apparatus, H is mould backhaul pipeline system, J is surface trimming grooving apparatus, K is the automatic one-shot forming perforating device of many cross-drilled holes, L is scrap automatic cleaning apparatus, 1 for shearing platen, 2 is fiber cloth yarn roller, 3 is nip rolls, 4 is feeding roller, 5 is the first cutter, 6 is the second cutter, 7 is moveable automatic Modulus cutter sweep, 8 is the first formed sheet, 9 is the second formed sheet, 10 is cutting platen, 11 is the first sheet material, 12 is the second sheet material, 13 is the first robot, 14 is the 3rd formed sheet, 15 is the 4th formed sheet, 16 is the 3rd sheet material, 17 is the 4th sheet material, 18 is the second robot, 19 is preformed press, 20 lay platen for mould, 21 is bed die, 22 is mould conveying robot, 23 is mould support plate, 24 is RTM machine, 25 is hydraulic press, 26 is baking oven, 27 is mold molding module, 28 is product molding module, 29 is the first mould mechanism for sorting, 30 is mold, 31 is the second mould mechanism for sorting, 32 is transport roller, 33 is working plate, 34 is clamping mechanism, 35 is blank, 36 is many cross-drilled holes automatic one-shot forming perforating device mould, 37 is product, 40 is product mounting platform, 41 is transportation work platen, 42 is automatic cutting device, 43 is automatic slotting device, 44 is many cross-drilled holes automatic one-shot forming perforating device frame, 45 is rail plate.

Detailed description of the invention

The present inventor is through long-term and deep research, prepare a kind of fiber cloth injecting glue moulded products multi-mould turnover automatic production line device, described production line can automatically, carry out the preparation of fiber injecting glue moulded products continuously, and multi-mould alternately production can be carried out, described preparation process does not need to be controlled by manpower substantially.Based on above-mentioned discovery, inventor completes the utility model.

The utility model provides a kind of fiber cloth injecting glue moulded products multi-mould turnover automatic production line device, by automatically cutting, automatic auxiliary material, pressing mold process, automatic trimming, automatic mold injecting glue, surface trimming, automatic drilling, Automatic clearance station in addition in a small amount human assistance work realizes automatic production line flow process and produces, and greatly improves productivity effect.

Fiber cloth injecting glue moulded products multi-mould turnover automatic production line device

The utility model provides a kind of fiber cloth injecting glue moulded products multi-mould turnover automatic assembly line flow-line equipment, described device comprises fiber cloth automatic Modulus cutter sweep A, the automatic laying device B of die, pre-shaping device C, automatic trimming device D, matched moulds glue-injection forming apparatus E, baking oven system F, automatic transport stripper apparatus G, baking oven induction system, mould backhaul pipeline system H, surface trimming grooving apparatus J, many cross-drilled holes automatic one-shot forming perforating device K, scrap automatic cleaning apparatus L and transportation work platen 41, mould conveying robot 22 and mould are laid platen 20 and are formed.

Wherein, described conveying platen 41 has guide rail, can UNICOM surface trimming grooving apparatus J, many cross-drilled holes automatic one-shot forming perforating device K and scrap automatic cleaning apparatus L (namely, the head end of described guide rail originates in described surface trimming grooving apparatus J, after many cross-drilled holes automatic one-shot forming perforating device K, tail end ends at scrap automatic cleaning apparatus L), described conveying platen 41 is also provided with transport roller 32, the head end of described transport roller 32 connects with the tail end of described guide rail, by scrap automatic cleaning apparatus L, tail end connects working plate 35.

In described device, described mould conveying robot 22 comprises: manipulator truss, mould carrying assembly.Manipulator truss is provided with moveable set of rails, and set of rails link mould carrying assembly, mould carrying assembly comprises gas pawl, vacuum intake valve.

In described device, described mould is laid platen 20 and is comprised: platen table, described platen table has the guide rail be connected with mould guide rail, guide rail is provided with scalable driving slide block.

Fiber cloth automatic Modulus cutter sweep

The fiber cloth automatic Modulus cutter sweep A that the utility model uses as shown in Figure 1, described device comprises: fiber cloth yarn roller 2 is arranged in the yarn roll stand of shearing platen 1, fiber cloth yarn roller is provided with nip rolls 3 to correspondence position 2 times, by feeding roller 4 after fiber cloth, shear in the middle of platen 1 and be provided with some grid plates, grid plate one end is provided with cutter 5 and cutter 6, shears platen one end and is provided with moveable automatic Modulus cutter sweep 7, and cutting platen 10.

In the utility model, a kind of preferred continuous automatic Modulus cutting means of fiber cloth comprises:

Slidably die frame assembly, described slidably die frame assembly comprises slidably cutting mould frame and one or more guide rail;

Clamping cap assembly, described clamping cap assembly comprises the first cylinder, the second cylinder, the first Die and mould plate and the second Die and mould plate;

Changeable toolframe group assembly;

Pull material assembly, described pulling is expected that assembly comprises and is pulled bin, and one or more Che Liao mechanism;

With cut platen, described guide rails assembling cuts on platen in described.

Described guide rail is used for fixing described slidably cutting mould frame, and makes it along slide.In another preference, described cutting on platen has two guide rails.

In another preference, described cutting platen is also provided with one or more mould meeting cutting mould shape and lays district, and is also provided with waste material Material collecting box for harvesting below described platen.

In another preference, described cutting on platen also has a longitudinal cutter, and described longitudinal cutter may be used for cutting in advance fiber material, makes it reach suitable width.

In another preference, described cutting on platen also has a horizontal cutter, and described horizontal cutter is used for cutting after process completes at one, is cut off by described fiber material.

The first described cylinder and the second cylinder are installed on described slidably cutting mould frame, and the first described Die and mould plate and the second Die and mould plate lay respectively at the first described cylinder and the second cylinder end, in use, it is made to move up and down by the Die and mould plate corresponding to described air cylinder driven.

In another preference, the first described Die and mould plate and the shape of the second Die and mould plate are identical or different, preferably, when the first and second described Die and mould plate shapes are different, the first described Die and mould plate and the second Die and mould plate can cut shape and mutually replace according to required fiber cloth, to cut out difform fiber material.

In another preference, described device, by controlling slidably die frame, changes clamping cap and cutter shelving, can realize the fiber cloth automatically cutting required form continuously.Described process can be regulated by control system.

In another preference, described cutting on platen also has a yarn roll stand, and described yarn roll stand lays one or more yarn roller.

In another preference, described cutting on platen also has the first nip rolls and the second optional nip rolls.

In another preference, described yarn roll stand is positioned at described one end cutting platen, and the first described nip rolls and the second nip rolls lay respectively at described yarn roll stand both sides.

In another preference, described slidably cutting mould frame has one or more Che Liao mechanism for draw fibers cloth; Preferably, described slidably cutting mould frame end is provided with and pulls bin, and described pulling on bin has the first Che Liao mechanism and the second Che Liao mechanism.

In another preference, by the slidably cutting mould frame described in movement, fiber cloth discharging length can be controlled.

In another preference, described slidably cutting mould frame also has and one or morely pulls material control cylinder for what control described Che Liao mechanism; Preferably, the first described Che Liao mechanism by first pull material control cylinder control, and the second described Che Liao mechanism by second pull material control cylinder control.

In another preference, the described material mechanism end that pulls also is provided with and scrapes slashing, and cut after process terminates at one, described slashing of scraping runs, and is struck off by the fiber of remnants from cutting platen.

In another preference, the first described Die and mould plate is equipped with tail end cutoff knife rack, described tail end cutoff knife rack has cutting blade (shape conforms to product) and tail end and control to cut cylinder.

The first cutoff knife rack and second cutoff knife rack of changeable shape the first described Die and mould plate be also equipped with in another preference; Wherein, the first described cutoff knife rack has cutting blade, and first controls to cut cylinder; The second described cutoff knife rack has cutting blade, and second controls to cut cylinder.

In another preference, the first cutoff knife rack 16 and second cutoff knife rack of described tail end cutoff knife rack and above-mentioned changeable shape lay respectively at the first described Die and mould plate two ends.

In another preference, the second described Die and mould plate is equipped with angled ends cutoff knife rack, described angled ends cutoff knife rack has cutting blade (shape conforms to product) and angled ends and control to cut cylinder.

The 3rd cutoff knife rack and the 4th cutoff knife rack of changeable shape the second described Die and mould plate be also equipped with in another preference; Wherein, the 3rd described cutoff knife rack has cutting blade, and the 3rd controls to cut cylinder; The 4th described cutoff knife rack has cutting blade, and the 4th controls to cut cylinder.

The cutting of described device comprises the following steps:

I () places fiber cloth on yarn roller, start described device, makes described first Che Liao mechanism, second pulls material institution staff, cutting mould frame described in operation, makes it along slide preset distance, thus makes described cutting mould frame be positioned the described desired location cutting platen;

(ii) make the first Die and mould plate and the second Die and mould plate move down respectively, and compress fiber cloth;

(iii) run the cutting knife on tail end cutoff knife rack, make it carry out cutting work, the cutting knife simultaneously run on the first described cutoff knife rack makes it carry out cutting work, cuts out the 3rd cropping of products;

(iv) cutting knife on operation angle end-grain cutting knife rest, makes it carry out cutting work, and the cutting knife simultaneously run on the 3rd described cutoff knife rack 21 makes it carry out cutting work, cuts out the 4th cropping of products;

V the horizontal cutter described in () operation makes it carry out cutting work, thus severing fiber cloth;

(vi) running cutting mould frame makes it return work origin, then runs the first Che Liao mechanism, the second Che Liao mechanism;

(vii) described cutting mould frame is run, it is made again to slide (preferably along guide rail, meanwhile, slashing is scraped belonging to operation, make it move with cutting mould frame, scrape off and cut waste material to waste material Material collecting box for harvesting) preset distance cut the desired location (preferably with step (i) the same with a upper desired location) of platen described in being positioned; Make described fiber cloth through longitudinal cutter, cut and obtain product pre-set dimension width;

(viii) make the first Die and mould plate and the second Die and mould plate move down respectively, and compress fiber cloth;

(ix) cutting knife run on tail end cutoff knife rack makes it carry out cutting work, and the cutting knife simultaneously run on the second cutoff knife rack makes it carry out cutting work, cuts out the first cropping of products;

X the cutting knife on () operation angle end-grain cutting knife rest, makes it carry out cutting work, the cutting knife simultaneously run on described 4th cutoff knife rack makes it carry out cutting work, cuts out the second cropping of products;

(xi) be arranged on the horizontal cutter cut on platen and carry out cutting work, severing fiber cloth.

In another preference, described step (i) also comprises; Make described fiber cloth through longitudinal cutter, thus cut and obtain product preliminary dimension width.

In preferred embodiment of the present utility model, described method comprises step:

I () places fiber cloth on described yarn roller, start described device, described fiber cloth is departed from from yarn rod, successively by described first nip rolls and the second nip rolls, make described first Che Liao mechanism, second pulls material institution staff, the cutting mould frame described in operation, make it along slide preset distance, thus make described cutting mould frame be positioned the described desired location cutting platen; Make described fiber cloth through longitudinal cutter, cut and obtain product pre-set dimension width;

(ii) the first Die and mould plate and the second Die and mould plate is made to move down and compress fiber cloth respectively;

(iii) run the cutting knife on tail end cutoff knife rack, make it carry out cutting work, the cutting knife simultaneously run on the first described cutoff knife rack makes it carry out cutting work, cuts out the 3rd cropping of products;

(iv) cutting knife on operation angle end-grain cutting knife rest, makes it carry out cutting work, and the cutting knife simultaneously run on the 3rd described cutoff knife rack makes it carry out cutting work, cuts out the 4th cropping of products;

V the horizontal cutter described in () operation makes it carry out cutting work, thus severing fiber cloth;

(vi) running cutting mould frame makes it return work origin, then runs the first Che Liao mechanism, the second Che Liao mechanism;

(vii) described cutting mould frame is run, it is made again to slide (preferably along guide rail, meanwhile, slashing is scraped belonging to operation, make it move with cutting mould frame, scrape off and cut waste material to waste material Material collecting box for harvesting) preset distance cut the desired location (preferably with step (i) the same with a upper desired location) of platen described in being positioned; Make described fiber cloth through longitudinal cutter, cut and obtain product pre-set dimension width;

(viii) the first Die and mould plate and the second Die and mould plate is made to move down and compress fiber cloth respectively;

(ix) cutting knife run on tail end cutoff knife rack makes it carry out cutting work, and the cutting knife simultaneously run on the second cutoff knife rack makes it carry out cutting work, cuts out the first cropping of products;

X the cutting knife on () operation angle end-grain cutting knife rest, makes it carry out cutting work, the cutting knife simultaneously run on described 4th cutoff knife rack makes it carry out cutting work, cuts out the second cropping of products;

(xi) be arranged on the horizontal cutter cut on platen and carry out cutting work, severing fiber cloth.

In another preference, described method comprises step:

Described yarn roller places fiber cloth, start described device, make described fiber cloth by described first nip rolls and the second nip rolls, first pull material control cylinder and second pull material control cylinder control the first Che Liao mechanism, second pulls material institution staff, cutting mould frame described in driving along slide preset distance, thus makes described cutting mould frame be positioned the described desired location cutting platen; Make described fiber cloth through longitudinal cutter, thus carry out cutting and obtain product pre-set dimension width;

Be arranged on the first cylinder on cutting mould frame and the second cylinder promotes the first Die and mould plate respectively and the second Die and mould plate moves down, thus compress fiber cloth;

Tail end on first Die and mould plate controls the cutting knife cut on cylinder control tail end cutoff knife rack to carry out cutting work, simultaneously the other end of the first Die and mould plate controls to cut the cylinder cutting knife controlled on the first cutoff knife rack by first and carries out cutting work, cuts out the 3rd cropping of products;

Angled ends on second Die and mould plate controls the cutting knife cut on cylinder control angle end-grain cutting knife rest and carries out cutting work, the cutting knife that the other end of the second Die and mould plate is cut on cylinder control the 3rd cutoff knife rack by the 3rd control simultaneously carries out cutting work, cuts out the 4th cropping of products;

Be arranged on the horizontal cutter cut on platen and carry out cutting work, severing fiber cloth, cutting mould frame returns work origin, then runs the first Che Liao mechanism, the second Che Liao mechanism;

Described cutting mould frame is slided preferably again along guide rail, meanwhile, belonging to operation, scrapes slashing, make it move with cutting mould frame, scrape off and cut waste material to waste material Material collecting box for harvesting preset distance and described in being positioned, cut the desired location of platen; Make described fiber cloth through longitudinal cutter, and carry out cutting and obtain product pre-set dimension width;

Promoting the first described cylinder and the second cylinder makes the first Die and mould plate and the second Die and mould plate compress fiber cloth respectively, the tail end run on the first Die and mould plate controls the cutting knife cut on cylinder control tail end cutoff knife rack to carry out cutting work, run first other one end of Die and mould plate to control to cut the cutting knife that cylinder controls on the second cutoff knife rack by second and cut simultaneously, cut out the first cropping of products;

Angled ends on second Die and mould plate controls the cutting knife cut on cylinder control angle end-grain cutting knife rest and carries out cutting work, the second Die and mould plate other end controls by the 4th the cutting knife cut on cylinder control the 4th cutoff knife rack to carry out cutting work, cuts out shape second cropping of products;

Be arranged on the horizontal cutter cut on platen and carry out cutting work, severing fiber cloth, the fiber cloth completing one-period cuts.

In another preference of the present utility model, after completing the cutting of fiber cloth, by manipulator, the fiber cloth after cutting is removed, and cut next time.

In traditional fiber material Scissoring device, all adopt cutting blade to move to set track, thus cut out the method for required form, such way efficiency is lower, is not suitable for the large-scale production of ad hoc structure product.And in device of the present utility model, improvement has been done for the method for operation of cutting tool, making to cut process efficiency improves greatly, is especially suitable for the large-scale production of ad hoc structure product.

Need to understand, said apparatus is only a kind of preferred embodiment of the present utility model, those skilled in the art can read on basis of the present utility model, according to the shape of the required fiber material the cut structure for cutter, the key elements such as the annexation of equipment make the improvement of some non-intrinsically safes, and such version should be considered to fall within equally within scope of the present utility model.

The automatic laying device of die

The automatic laying device B of the die that the utility model uses as shown in Figure 1, comprise: carry executive module by the angled ends of the tail end carrying executive module and robot 18 end that are arranged on robot 13 end, realize the carrying to sheet material 1, sheet material 12 and sheet material 16, sheet material 17 and lamination stone.

Especially, in a kind of preferred embodiment of the present utility model, the described automatic laying device of fiber cloth die is carried executive module formed by folding forming mould, Manipulator Transportation executive module, fiber cloth, soft fiber molding with cloth adopts the preformed method of preformed frame, namely, first in preformed frame, preformed is carried out to fiber cloth, make it form the shape adapted with die bottom surface, and then fiber cloth is moved to shaping frame and carry out shaping.

This application provides the automatic laying device of a kind of fiber cloth die, described device comprises: folding forming mould, Manipulator Transportation executive module; Wherein:

Described folding forming mould comprises: mould (preferably including angled ends shaper and tail end shaper), and preforming tool (preferably include tail end fold preforming tool and angled ends folds preforming tool);

Described Manipulator Transportation executive module comprises: tail end sheet material carrying executive module, the carrying of angled ends sheet material executive module, the first robot and the second robot.

Described device can also comprise other suitable parts, and such as, in the preferred embodiment of the application, described device also comprises waste material Material collecting box for harvesting.

In another preference, described device also comprises a moveable punching mechanism; Preferably, described moveable punching mechanism has the first shear knife and the second shear knife.

In the preferred embodiment of the application, in described device, described mould is placed on shaper dispenser, and described preforming tool is arranged on sheet material punching frame, in forming process, corresponding preforming tool first put into by sheet material, after corresponding sheet material carrying executive module runs and makes its preformed, then moves into corresponding mould and makes it shaping.

In the preferred embodiment of the application, in described device, described angled ends sheet material carrying executive module is installed on described second arm end, and described angled ends sheet material carrying executive module comprises: the carrying of angled ends sheet material performs frame, the second inside casing, the second housing and angled ends sheet material carrying base plate; Described angled ends sheet material carrying base plate is provided with one or more device for being combined with sheet material, and such as, in another preference, described angled ends sheet material carrying base plate end also has one or more vacuum absorption device.

In the application, angled ends sheet material carrying executive module takes housing and inside casing jointly to form the structure of bottom surface, makes to adjust according to the shape of die bottom surface during stone, thus fiber cloth is fitted with molding surface better.The connected mode of each assembly can adopt any mode that can realize above-mentioned purpose, in a preferred embodiment, in described angled ends sheet material carrying executive module, the second described inside casing is arranged at the carrying of angled ends sheet material and performs on frame, and can planar move left and right forwards, backwards.

In another preference, the second described inside casing can move to housing direction surrounding (namely around housing, planar moving as circumference).

In another preference, in described angled ends sheet material carrying executive module, the second described housing is arranged on described second inside casing, and can move up and down along the second inside casing wall.

In another preference, described second outer frame bottom and vacuum generator (being preferably vavuum pump) UNICOM, when need to make described angled ends sheet material carrying executive module and angled ends sheet material in conjunction with time, vavuum pump described in unlatching, thus make sheet material be adsorbed on angled ends sheet material carrying base plate.Described UNICOM's mode has no particular limits, in a kind of particularly preferred embodiment, and the aperture that the adjacent surface in described second between frame bottom and the second housing has curve regularly arranged and vavuum pump UNICOM; Described second outer frame bottom is communicated with vavuum pump by the aperture that curve is regularly arranged; The aperture that adjacent surface in described second between frame bottom and the second housing has curve regularly arranged and vavuum pump UNICOM.

In the preferred embodiment of the application, in described device, described tail end sheet material carrying executive module is installed on described first arm end, and described tail end sheet material carrying executive module comprises: the carrying of tail end sheet material performs frame, the first inside casing, the first housing, and angular mobility frame and tail end sheet material carrying base plate.In another preference, described tail end sheet material carrying base plate end also has one or more vacuum absorption device.

In the preferred embodiment of the application, in described device, in described tail end dististyle material carrying executive module, the first described inside casing and described tail end dististyle material are carried and are performed frame and be connected, and the first described inside casing can move to housing surrounding.

In another preference, frame bottom and being connected with vavuum pump with the adjacent surface of the first housing in described first, preferably, in described first frame bottom and with the adjacent surface of the first housing by the regularly arranged aperture of curve and vavuum pump UNICOM.

In the preferred embodiment of the application, in described device, in described tail end dististyle material carrying executive module, the first described housing is arranged on the first inside casing, and the first described housing can move up and down along described first inside casing wall.

In another preference, the bottom of the first described housing is connected with vavuum pump, and preferably, the regularly arranged aperture of curve and vavuum pump UNICOM are passed through in the bottom of the first described housing.

In another preference, the second described inside casing and described angled ends sheet material are carried and are performed frame and be connected, and can carry with angled ends sheet material the fixing point performing frame and move around described; And/or

The first described inside casing and described tail end sheet material are carried and are performed frame and be connected, and can carry with tail end sheet material the fixing point performing frame and move around described.

Preferably, the second described housing is connected with the second described inside casing, and can move relative to the second described inside casing; And/or

The first described housing is connected with the first described inside casing, and can move relative to the first described inside casing.

In another preference, the preformed method of described preformed frame adopts aperture vacuum suction fiber cloth to make fiber cloth keep preformed shaped as frame shape, utilize Manipulator Transportation executive module by the pre-stone in the fiber cloth of preformed shaped as frame shape carrying die place, complete die body shaped fibers cloth stone by the interphase interaction of inside casing relevant in Manipulator Transportation executive module and housing.

Described device can be used alone, also can with other fiber cloth composite process units common combination, form fiber cloth injecting glue moulded products production line, thus carry out automated production.

Matched moulds glue-injection forming apparatus

In device of the present utility model, described surface trimming grooving apparatus can design according to actual needs, or selects and known in the artly cut slot device open.In the utility model, as shown in Figure 1, comprising: mould support plate 23, hydraulic press 25 and RTM machine 24, wherein, described mould support plate is provided with guide rail to a kind of preferred matched moulds glue-injection forming apparatus E, and guide rail is connected with baking oven pipeline.

Baking oven system

In baking oven system F of the present utility model, described baking oven 26 is provided with closed heating system, and two ends have automatic opening door, and has a through guide rail.

Automatic transport stripper apparatus

As shown in Figure 1, described automatic transport stripper apparatus G is connected by induction system with baking oven 26, mold ejection system, product ejection system, product stripping conveyor module become U-shaped layout with mould backhaul pipeline system H-shaped, and product stripping conveyor module is provided with two groups of mould mechanism for sorting.

The structure of described automatic transport stripper apparatus has no particular limits, the stripper apparatus that can adapt for needs of production design.In a preference of the present utility model, described automatic transport stripper apparatus G can be device as shown in Figure 1, and wherein, described device comprises conveyor module, mold molding module, product molding module and control system; Wherein,

Described conveyor module comprises the first mould mechanism for sorting 29 (for separating of mold and product) and the second mould mechanism for sorting 31 (for separating of product and bed die);

In a kind of preferred embodiment of the present utility model, described automatic transport stripper apparatus G comprises: conveyor module, mold molding module, product molding module and control system; Wherein,

Described conveyor module comprises the first conveying device, the second conveying device and the 3rd conveying device;

Described mold molding module comprises mold draw arm, the first cylinder, mold lifting plate, molding claw, and the first bayonet unit;

Described product molding module comprises product draw arm, the second cylinder, product lifting plate, the second bayonet unit and backform device;

Described control system comprises controller, HMI human-computer interaction device, position Detection theory device, Switch balancing boom device, motor, and driving arrangement.

First, second, and third described conveying device comprises separately: fixed mount, deflector roll, conveyer belt and motor; Wherein:

Described fixed mount is provided with described position Detection theory device and described Switch balancing boom device;

Described deflector roll is installed on described fixed mount;

Described motor drives corresponding deflector roll to rotate by corresponding conveyer belt.

In another preference, first, second, third described conveying device is pipeline; Preferably, the first described conveying device, the second conveying device and the 3rd conveying device are arranged in parallel.

In another preference, the first described conveying device is provided with one first bayonet unit, the second bayonet unit, and the first poking device.

In another preference, the first described bayonet unit and the second bayonet unit are all equipped with position Detection theory device.In another preference, after described position Detection theory units test arrives assigned address to mould, start the described first or second bayonet unit.

In another preference, the second described conveying device is provided with the second poking device.

In another preference, the second described poking device is used for bed die to move to the 3rd pipeline.

In another preference, in described mold molding module, described mold draw arm is positioned in described first conveying device;

The first described cylinder is installed on described mold draw arm, and described cylinder end is connected with mold lifting plate;

Described molding claw is positioned on described mold lifting plate.

In another preference, in the middle of the left clamping part that described mold draw arm is positioned at described first bayonet unit and right jamming button portion, and be installed in described first conveying device.

In another preference, described mold draw arm has a crossbeam portion and is positioned at the support portion at two ends, described crossbeam portion, and described cylinder is positioned in the crossbeam portion of affiliated mold draw arm.

In another preference, described product draw arm is positioned in described first conveying device;

The second described cylinder is installed on described product draw arm, and the second described cylinder end and the backform device that described product lifting plate is connected described are positioned at below corresponding to described product lifting plate.

In another preference, in the middle of the left clamping part that described product draw arm is positioned at described second bayonet unit and right jamming button portion, and be installed in described first conveying device.

In another preference, described product draw arm has a crossbeam portion and is positioned at the support portion at two ends, described crossbeam portion, and described cylinder is positioned in the crossbeam portion of described product draw arm.

In another preference, described first cylinder and described second cylinder interior are equipped with position Detection theory device.

In another preference, in described control system, described HMI human-computer interaction device carries out whole-process control and monitoring to product and the automatic separation process of mould, and control system intelligence processes emergency.

The method of carrying out the demoulding with such as device described in the utility model comprises step:

(1) the first conveying device described in startup, is delivered to the position of the first described bayonet unit, described bed die is engaged with the first bayonet unit, start the first cylinder and drive mold lifting plate to carry out the molding of mold plate by reset condition mould;

(2) the first conveying device is started, mould (comprising bed die and product) after described mold molding is delivered to the second bayonet unit position, described bed die is engaged with the second bayonet unit, start backform device product is ejected, start the second cylinder and drive product lifting plate to carry out the molding of product;

(3) start the first conveying device, make described bed die be delivered to the second conveying device;

(4) described product lifting plate is declined, make described product drop in described first conveying device;

(5) described mold lifting plate is declined, make described mold drop in described first conveying device;

(6) start the first poking device, make described product move to described second conveying device;

(7) start the first poking device, make described mold move to described second conveying device, then start the second poking device, make described mold move to described 3rd conveying device.

Surface trimming grooving apparatus

In device of the present utility model, described surface trimming grooving apparatus can design according to actual needs, or selects and known in the artly cut slot device open.In the utility model, a kind of preferred surface trimming grooving apparatus J as shown in Figure 1, comprising: conveying platen 41, conveying platen 41 is provided with conveying mechanism, can be such as some rail plates, rail plate links with working plate 33, motor drive operational platen 33 is utilized to run on described conveying mechanism, working plate 24 is provided with some clamping mechanisms 34, workbench is provided with automatic cutting device 42 (being preferably rope saw automatic cutting system), and automatic cutting device 42 end is also mounted with automatic slotting device 43.

In another preference, described rail plate is driven by motor and runs.

In another preference, described clamping mechanism 34 is corresponding to the shape of blank 35, or described clamping mechanism 34 is arranged by described blank 35 shape.

Automatic one-shot forming perforating device

In device of the present utility model, described automatic one-shot forming perforating device can design according to actual needs, or selects perforating device known in the art.In the utility model, a kind of preferred one-shot forming perforating device K automatically as shown in Figure 1, comprising: be placed in the many cross-drilled holes automatic one-shot forming perforating device frame 44 on conveying platen 41, being provided with in the middle of described many cross-drilled holes automatic one-shot forming perforating device frame 44 can reciprocating mechanism, and described can be provided with many cross-drilled holes automatic one-shot forming perforating device mould 36 by reciprocating mechanism end.Preferably, described mould is provided with some groups of scalable grooved bits.

Scrap automatic cleaning apparatus

In device of the present utility model, described scrap automatic cleaning apparatus can design according to actual needs, or selects scrap automatic cleaning apparatus known in the art.In the utility model, as shown in Figure 1, described scrap automatic cleaning apparatus L is installed on conveying platen 41 a kind of preferred scrap automatic cleaning apparatus L, comprising: vacuum absorption device, brush roll device.

Compared with prior art, major advantage of the present utility model comprises:

(1) the utility model provides a kind of fiber cloth injecting glue moulded products multi-mould turnover automatic production line device, by automatic auxiliary material, automatic mold, preformed, automatic trimming, automatically injecting glue, surface trimming, automatic drilling, Automatic clearance station in addition in a small amount human assistance work realize automatic production line flow process and produce, the time of mold cleaning and products solidifying shortens greatly, greatly improves productivity effect and social benefit.

(2) device of the present utility model can carry out multi-mould turnover production and transport, basic without the need to carrying out manual operation in production process.

(3) the utility model is suitable for flexible articles, and this automatic production line system cost is low, and efficiency is high, flexible large, can meet the demand of large-scale production.In optimal technical scheme, fibre sheet material handing-over mouth and fibre sheet material are submitted interface and are misplaced identical, effectively can improve on fibre sheet material and join intensity, pick and place the cooperation of actuator at robot Executive Head under, make it possible to carry out stacked to flexible articles smoothly, structure is simple, be easy to realize, substantially increase stacked operating efficiency, under each station automation equipment coordinates, the stacked fibre sheet material of automation can be realized fast, efficiently, in large quantity.

(4) in device of the present utility model, the solidification of automatic stone, injecting glue and mold cleaning link achieve multi-mould production line balance, trimming, fluting and boring link also achieve automatic assembly line and produce, and drastically increase productivity effect and social benefit, have a good application prospect.

Below in conjunction with specific embodiment, set forth the utility model further.Should be understood that these embodiments are only not used in restriction scope of the present utility model for illustration of the utility model.The experimental technique of unreceipted actual conditions in the following example, usually conveniently condition, or according to the condition that manufacturer advises.

Below in conjunction with accompanying drawing 1, be described in further detail the process that fiber cloth injecting glue moulded products multi-mould turnover automatic production line device of the present utility model is produced, described production process comprises step:

I () cuts out operation: described fiber cloth automatic Modulus cutter sweep A works, be arranged on and shear on platen 1 fiber cloth yarn roller 2 in yarn roll stand, fiber cloth yarn roller 2 is by nip rolls 3, feeding roller 4 is passed through again after fiber cloth, install below cutter 5 and cutter 6 by grid plate one end, removable automatic Modulus cutter sweep 7 pulls material institution staff and fiber cloth is pulled on cutting platen 10, become the work of die cut device, disposable intersection cuts out the first sheet material 11, second sheet material 12, 3rd sheet material 16 and the 4th sheet material 17 are (wherein, first sheet material 11 and the second sheet material 12 are a based sheet, 3rd sheet material 16 and the 4th sheet material 17 are a based sheet), complete and cut out operation.

(ii) die stone operation: the automatic laying device B of described die starts work, by the tail end carrying executive module of the first robot 13 and the angled ends carrying executive module of the second robot 18, intersection multiple-layer overlapped is carried out to the first sheet material 11/ second sheet material 12 and the 3rd sheet material 16/ the 4th sheet material 17 liang of based sheets, and in preformed press 19, be paved into the soft lamination blank 15 of fiber, preformed press 19 carries out preformed process to the soft lamination blank of described fiber, obtains preformed assembly.

(iii) preformed assembly trimming process step: be carried in automatic trimming device D by described preformed assembly by mould conveying robot 22, carries out the deburring process of preformed assembly, obtains the preformed assembly after deburring.

(iv) injecting glue compression molding operation: after deburring completes, by mould conveying robot 22, the preformed assembly after process is transferred on bed die 21 (carrying the mould of backhaul cleaned system preferably past mould), close after mold 30 (mould preferably past mould conveying backhaul cleaned system), entirety is delivered in the hydraulic press 25 of matched moulds glue-injection forming apparatus E, hydraulic press 25 works matched moulds, RTM glue-injection machine 24 works, and completes injecting glue compression molding operation.

(v) heating steps: the whole set of die completed after injecting glue compression molding is moved into baking oven system F, and baking oven is closed and is heated to setup times;

(vi) product stripping separation circuit: after having heated, baking oven induction system starts, the finished product of band mould is delivered to automatic transport stripper apparatus G place, automatic transport stripper apparatus G described in startup, carry out mold molding and product molding, obtain the blank part 35 after bed die 21, the demoulding and mold 30 again via the effect of the first mould mechanism for sorting 29 and the second mould mechanism for sorting 31, the product after the demoulding is delivered to surface trimming grooving apparatus J.

Especially, in described step (vi), described mold molding and product molding comprise step:

The first conveying device described in startup, is delivered to the position of the first described bayonet unit by reset condition mould, described bed die is engaged with the first bayonet unit, starts the first cylinder and drives mold lifting plate to carry out the molding of mold plate;

Start the first conveying device, mould (comprising bed die and product) after described mold molding is delivered to the second bayonet unit position, described bed die is engaged with the second bayonet unit, start backform device product is ejected, start the second cylinder and drive product lifting plate to carry out the molding of product;

Start the first conveying device, make described bed die be delivered to the second conveying device, then start the second poking device, make described bed die move to described 3rd conveying device;

Described product lifting plate is declined, makes described product drop in described first conveying device;

Described mold lifting plate is declined, makes described mold drop in described first conveying device;

Start the first poking device, make described product move to described second conveying device;

Start the first poking device, make described mold move to described second conveying device, then start the second poking device, make described mold move to described 3rd conveying device.

(vii) mould recovery process: bed die and mold are delivered to mould backhaul pipeline system H place, after carrying out cleaning mould, is placed in mould by mould conveying robot 22 by the bed die 21 after cleaning and lays platen 20; Mould conveying robot 22 takes out the preformed assembly after automatic trimming device D deburring again, and is positioned in the bed die after cleaning 21, and the mold 30 that closes, repeat step (iv)-(vi).

(ix) product cutting fluting operation: after the blank 35 after the described demoulding is delivered to surface trimming grooving apparatus J, clamping mechanism 34 described in operation, it is made to clamp described blank 35, working plate 33 described in motor drives moves forward, automatic cutting device 42 described in operation cuts (preferably to described blank 35, moving forward speed and automatic cutting device moves up and down speed by controlling working plate 33, cutting out the product border that different height requires);

Described working plate 33 continues the blank 35 after carrying described cutting and moves forward, and by automatic slotting device 43, obtains the trough needed.

(x) product drilling process: described working plate 33 carries the blank 35 after described fluting and continues reach, move to automatic one-shot forming perforating device K position, automatic one-shot forming perforating device K works, shaping perforating device mould 36 declines contact product, many drill bits startup work, complete the boring of disposable multi-hole position, perforating device K reduces, and takes out product 37 simultaneously;

(xi) cleaning process: the transport roller 32 described in startup, makes the product 37 after described punching by scrap automatic cleaning apparatus L, and carries out cleaning process, and the product after cleaning is positioned over working plate 40 position, completes a production procedure.

The all documents mentioned at the utility model are quoted as a reference all in this application, are just quoted separately as a reference as each section of document.In addition should be understood that those skilled in the art can make various changes or modifications the utility model, and these equivalent form of values fall within the application's appended claims limited range equally after having read above-mentioned instruction content of the present utility model.

Claims (10)

1. a fiber cloth injecting glue moulded products multi-mould turnover automatic production line device, it is characterized in that, described device comprises:

Fiber cloth automatic Modulus cutter sweep (A);

The automatic laying device of die (B);

Pre-shaping device (C);

Automatic trimming device (D);

Matched moulds glue-injection forming apparatus (E);

Baking oven system (F), described baking oven system comprises baking oven (26), and baking oven induction system;

Automatic transport stripper apparatus (G);

Surface trimming grooving apparatus (J);

Automatic one-shot forming perforating device (K);

Scrap automatic cleaning apparatus (L);

Transportation work platen (41);

Mould backhaul pipeline system (H);

Mould conveying robot (22); With

Platen (20) laid by mould.

2. device as claimed in claim 1, it is characterized in that, described fiber cloth automatic Modulus cutter sweep (A) comprising:

Shear platen (1);

One end of described shearing platen (1) has a yarn roll stand, described yarn roll stand is provided with one or more fiber cloth yarn roller (2), and one or more nip rolls (3);

Described shearing platen (1) middle part is provided with one or more grid plate, and described grid plate one end is provided with the first cutter (5) and the second cutter (6);

The other end of described shearing platen (1) is provided with moveable automatic Modulus cutter sweep (7) and cutting platen (10).

3. device as claimed in claim 1, it is characterized in that, the automatic laying device of described die (B) comprising: folding forming mould, Manipulator Transportation executive module; Wherein:

Described folding forming mould comprises: mould (preferably including angled ends shaper and tail end shaper), and preforming tool (preferably include tail end fold preforming tool and angled ends folds preforming tool);

Described Manipulator Transportation executive module comprises: tail end sheet material carrying executive module, the carrying of angled ends sheet material executive module, the first robot and the second robot.

4. device as claimed in claim 1, it is characterized in that, described pre-shaping device (C) comprising: preforming tool, and preformed press; And/or

Described automatic trimming device (D) comprising: frame, rope saw, workpiece clamping table, guide rail, PLC, leading screw, and motor; And/or

There is in described matched moulds glue-injection forming apparatus (E) a RTM glue-injection machine (24) and a hydraulic press base plate, and described hydraulic press base plate is provided with mould support plate (23), described mould support plate (23) is provided with guide rail; And/or

Described baking oven system (F) is provided with closes heating/ventilating system and baking oven induction system, and described baking oven induction system comprises guide rail; And/or

Described automatic transport stripper apparatus (G) comprises mold molding module (27), product molding module (28), product stripping conveyor module.

5. device as claimed in claim 1, it is characterized in that, described surface trimming grooving apparatus (J) comprising:

Conveying platen (41), described conveying platen (41) is mounted with one or more rail plate (45);

Working plate (33), described working plate (33) is linked by rail plate (45) and described conveying platen (41), and makes it in the upper operation of rail plate (45) by motor driving;

Described working plate (33) is provided with some clamping mechanisms (34);

Be positioned at the automatic cutting device (42) on described conveying platen (41); With

Be positioned at the automatic slotting device (43) on described conveying platen (41).

6. device as claimed in claim 1, it is characterized in that, described automatic one-shot forming perforating device (K) is positioned on described transportation work platen (41), and described automatic one-shot forming perforating device (K) comprises automatic one-shot forming perforating device frame (44), being equipped with in the middle of described automatic one-shot forming perforating device frame (44) can reciprocating mechanism, described can be provided with automatic one-shot forming perforating device mould (36) by reciprocating mechanism end, described automatic one-shot forming perforating device mould (36) is equipped with some groups of scalable grooved bits.

7. device as claimed in claim 1, it is characterized in that, described scrap automatic cleaning apparatus (L) has vacuum absorption device, brush roll device and workbench, and described workbench is connected with conveying platen (41).

8. device as claimed in claim 1, it is characterized in that, described workbench is provided with guide rail and transport roller, the automatic one-shot forming perforating device (K) of table slide, surface trimming grooving apparatus (J), many cross-drilled holes and scrap automatic cleaning apparatus (L) are connected by transport roller (32), and scrap automatic cleaning apparatus (L) is arranged on transport roller (32).

9. device as claimed in claim 1, it is characterized in that, described mould conveying robot (22) has manipulator truss and mould carrying assembly, wherein, described manipulator truss has moveable set of rails, and described mould carrying assembly is connected with described manipulator truss by described set of rails.

10. device as claimed in claim 1, it is characterized in that, described mould is laid platen (20) and is had guide rail, and described guide rail is provided with scalable driving slide block; And/or

Described mould backhaul induction system is also furnished with a device for cleaning mould, so that mould recycling in production line operation.