CN205057512U - Flexible automatic processing unit of photovoltaic module aluminium frame - Google Patents

Abstract

The utility model discloses a flexible automatic processing unit of photovoltaic module aluminium frame, technical field was makeed to relevant photovoltaic board subassembly aluminium frame during it related to the photovoltaic industry, charge -in system, section material system, angle sign indicating number impression system, water falling hole punching press system, mounting hole and terrestrial reference punching press system, feeding system, hydraulic system all are connected with control system, and hydraulic system passes through the fluid pressure line with angle sign indicating number impression system, water falling hole punching press system, mounting hole and terrestrial reference punching press system and is connected with hydraulic pressure execution piece, the utility model discloses the uniformity of product is good, and the precision is high, and is of high quality, it is simple, high -efficient to change the mould process, automatic competent, processing production efficiency is high, the production cost is low.

Description

The flexible machining cell automatically of photovoltaic module aluminium frame

Technical field:

The utility model relates to relevant photovoltaic panel component aluminum frame manufacture technology field in photovoltaic industry, is specifically related to the flexible machining cell automatically of a kind of photovoltaic module aluminium frame.

Background technology:

In recent years, as new energy development and the utilization of green, environmental protection, photovoltaic industry obtains fast development, as fixing photovoltaic panel and a kind of photovoltaic module be connected on photovoltaic bracket----aluminium frame obtains relatively large product.As shown in Fig. 1 a, Fig. 1 b, Fig. 1 c, Fig. 1 d, the representative geometric features of photovoltaic aluminium frame is: there is the inclination angle 0.1 of 45 degree at two ends, the corner brace be connected with frame for frame impresses 0.2, the water falling hole 0.3 of the rainwater in photovoltaic panel of draining, for installing the installing hole 0.4 of photovoltaic panel, ground connection mark 0.5 and ground hole 0.6.At present, be generally to cut off to length with section bar and after gradient for the processing of photovoltaic aluminium frame, then use mechanical press's punching.Add man-hour requirement and make a positioning seat as section bar quick position benchmark, by human assistance Workpiece fixing, punch press floor push of simultaneously operating machine, after completing a head bore position processing, then turns the hole of work pieces process other end, so circulates.According to above-mentioned processes, there is following defect: the precision of (1), product is low, of poor quality; (2), technique is loaded down with trivial details, and personnel labor intensity is large; (3), automatization level is low, and processing efficiency is low; (4), manufacturing cost is high.

Utility model content:

The purpose of this utility model is defect for prior art and deficiency, the flexible machining cell automatically of the photovoltaic module aluminium frame providing a kind of structure simple, reasonable in design, easy to use.

In order to solve the problem existing for background technology, the technical solution adopted in the utility model is: it comprises feed system, cuts material system, corner brace impression system, water falling hole stamping system, installing hole and terrestrial reference stamping system, feed system, hydraulic system; Feed system, section material system, corner brace impression system, water falling hole stamping system, installing hole and terrestrial reference stamping system, feed system, hydraulic system are all connected with control system, and hydraulic system is connected with hydraulic pressure executive item by fluid pressure line with corner brace impression system, water falling hole stamping system, installing hole and terrestrial reference stamping system.

Described feed system comprises underframe one, closed slide two, tooth bar one, cart base plate one, linear bearing one, servomotor one, synchronous pulley one, Timing Belt one, cylinder one, dop, cylinder, wire casing; Closed slide one and tooth bar one are arranged on underframe one, cart base plate one is coordinated with closed slide one by linear bearing one, servomotor one is arranged on cart base plate one, one end of synchronous pulley one is connected with servomotor one by Timing Belt one, the other end engages with tooth bar one, and dop is arranged on cart base plate one, and cylinder one is arranged on dop, cylinder is arranged on underframe one, and wire casing is arranged on underframe one.

Described material system of cutting comprises the left materials device that cuts and cuts materials device with right; A described left side is cut materials device and is comprised a section material transmission device, cuts materials device, cuts the solid materials device of material; Cut materials device to be arranged on and to cut on material transmission device and cut materials device and closed slide in angle of 45 degrees, cut the solid materials device of material and be arranged on section material transmission device.

It is identical with the left equipment cut included by materials device that materials device is cut on the described right side.

The described material transmission device that cuts comprises underframe two, closed slide two, linear bearing two, cart base plate two, servomotor two, ball-screw one, shaft coupling one, servo motor seat one, nut seat one; Closed slide two is arranged on underframe two, cart base plate one is coordinated with closed slide two by linear bearing two, servo motor seat one is arranged on underframe two, servomotor two is arranged in servo motor seat one, one end of ball-screw one is coordinated with servomotor two by shaft coupling one, its other end is coordinated with cart base plate by nut seat one, and nut seat one is arranged on cart base plate.

The described materials device that cuts comprises support one, closed slide three, linear bearing three, servomotor three, ball-screw two, motor one, saw blade, shaft coupling two, servo motor seat two, nut seat two, motor cabinet; Servo motor seat two is fixed on support one, servomotor three is fixed in servo motor seat two, one end of ball-screw two is coordinated with servomotor three by shaft coupling two, its other end is coordinated with motor cabinet by nut seat two, nut seat two is arranged on motor cabinet, motor cabinet is coordinated with closed slide three by linear bearing three, and motor one is arranged on motor cabinet, and saw blade is arranged on motor one.

The described solid materials device of material that cuts comprises cylinder frame one, side cylinder, top gas cylinder, screens one, kerf; Side cylinder, top gas cylinder, screens one are installed on cylinder frame one, and kerf is arranged in screens one.

Described corner brace impression system comprises left comer code imprinting apparatus and right corner code imprinting apparatus; Described left comer code imprinting apparatus comprises corner brace impression transmission device, corner brace impression decompressor, the solid materials device of corner brace impression; Corner brace impression decompressor is arranged on the cart base plate of corner brace impression transmission device, and the solid materials device of corner brace impression is arranged on the underframe of corner brace impression transmission device.

Described corner brace imprinting apparatus is right identical with the equipment included by a corner brace imprinting apparatus left side.

Described corner brace impression transmission device comprises underframe three, closed slide four, linear bearing four, cart base plate three, servomotor four, ball-screw three, shaft coupling three, servo motor seat three, nut seat three; Closed slide four is arranged on underframe three, cart base plate three is coordinated with closed slide four by linear bearing four, servo motor seat three is arranged on underframe three, servomotor four is arranged in servo motor seat three, one end of ball-screw three is coordinated with servomotor four by shaft coupling three, its other end is coordinated with cart base plate three by nut seat three, and nut seat three is arranged on cart base plate three.

Described corner brace impression decompressor comprises that die frame one, mould are first, mold core one, connecting rod one, hydraulic cylinder one; Die frame one is arranged on cart base plate three, and mould is first, mold core one is arranged on die frame one, and cylinder shell and the die frame one of hydraulic cylinder one are hinged, one end of connecting rod one and the piston rod of hydraulic cylinder one hinged, its other end and mould first hinged.

The described solid materials device of corner brace impression comprises cylinder frame two, cylinder two, screens two; Cylinder frame two is arranged on underframe three, and cylinder two, screens two are arranged on cylinder frame two.

Described water falling hole stamping system comprises left water falling hole decompressor and right water falling hole decompressor; Described left water falling hole decompressor comprises water falling hole punching press transmission device, water falling hole decompressor, the solid materials device of water falling hole punching press; Water falling hole decompressor is arranged on the cart base plate of water falling hole punching press transmission device, and the solid materials device of water falling hole punching press is arranged on the underframe of water falling hole punching press transmission device.

Described right water falling hole decompressor is identical with the equipment included by left water falling hole decompressor.

Described water falling hole punching press transmission device comprises underframe four, closed slide five, linear bearing five, cart base plate four, servomotor five, ball-screw four, shaft coupling four, servo motor seat four, nut seat four; Closed slide five is arranged on underframe four, cart base plate four is coordinated with closed slide five by linear bearing five, servo motor seat four is arranged on underframe four, servomotor five is arranged in servo motor seat four, one end of ball-screw four is coordinated with servomotor five by shaft coupling four, its other end is coordinated with cart base plate four by nut seat four, and nut seat four is arranged on cart base plate four.

Described water falling hole decompressor comprises die frame two, die head two, mold core two, connecting rod two, hydraulic cylinder two; Die head two, mold core two are arranged on die frame two, and cylinder shell and the die frame two of hydraulic cylinder two are hinged, one end of connecting rod two and the piston rod of hydraulic cylinder two hinged its, the other end and die head two hinged.

The solid materials device of described water falling hole punching press comprises cylinder frame three, cylinder three, screens three; Cylinder three, screens three are arranged on cylinder frame three.

Described installing hole and terrestrial reference stamping system comprise support two, bracket base, punch holder, mold core three, die head three, synchronous hydraulic cylinder; Synchronous hydraulic cylinder cylinder body is arranged on support two, and the piston rod of cylinder pressure cylinder body is connected with punch holder, and mold core three is arranged on bracket base, and bracket base is arranged on support two, and die head three is arranged in punch holder.

Described feed system comprises underframe five, closed slide six, tooth bar two, pay-off one, pay-off two, pay-off three; Closed slide six and tooth bar two are arranged on underframe five, and pay-off one, pay-off two, pay-off three coordinate with closed slide six respectively, and engage with tooth bar two.

Described pay-off one comprises cart base plate five, linear bearing six, servomotor six, synchronous pulley two, Timing Belt two, cylinder four, cylinder five, air cylinder support four, sucker, suction cup carrier, guide pillar, bearing; Cart base plate five-way is crossed linear bearing six and is coordinated with closed slide six, servomotor six is arranged on cart base plate five, one end of synchronous pulley two is connected with servomotor six by Timing Belt two, its other end engages with tooth bar two, the housing of cylinder four is arranged on dolly chassis, the piston rod of cylinder four is connected with air cylinder support four, the housing of cylinder five is arranged on air cylinder support, piston rod and the suction cup carrier of cylinder five are fixed, sucker is arranged in suction cup carrier, guide pillar is arranged in suction cup carrier, and bearing is arranged on cylinder frame.

Described hydraulic system comprises motor two, hydraulic pump, sequence valve, reversal valve, overflow valve, Pressure gauge, fuel tank, flow divider-combiner, hydraulic cylinder one, hydraulic cylinder two, hydraulic cylinder three; Hydraulic pump is arranged on motor two, sequence valve is connected by pipeline with hydraulic pump, reversal valve is connected by pipeline with sequence valve, and Pressure gauge, overflow valve are in parallel with reversal valve by pipeline, and hydraulic cylinder one, hydraulic cylinder two, hydraulic cylinder three are connected by pipeline with reversal valve.

After adopting said structure, the utility model beneficial effect is: the uniformity of product is good, and precision is high, and quality is good; Change mold process simple, efficient; Automatization level is high, and processing efficiency is high; Low cost of manufacture.

Accompanying drawing illustrates:

Fig. 1 a is the structural representation in background technology;

Fig. 1 b is the right view of Fig. 1 a;

Fig. 1 c is that the A-A of Fig. 1 a is to sectional view;

Fig. 1 d is that the B-B of Fig. 1 b is to sectional view;

Fig. 2 is structural representation of the present utility model;

Fig. 3 is the structural representation of feed system in the utility model;

Fig. 4 is the left structural representation cutting materials device in the utility model;

Fig. 5 is the structural representation cutting material transmission device in the utility model;

Fig. 6 cuts materials device structural representation in the utility model;

Fig. 7 cuts the solid materials device structural representation of material in the utility model;

Fig. 8 is the structural representation of left comer code imprinting apparatus in the utility model;

Fig. 9 is the structural representation of left water falling hole device in the utility model;

Figure 10 is the structural representation of left installing hole device in the utility model;

Figure 11 is the structural representation of feed system in the utility model;

Figure 12 is the structural representation of pay-off one in the utility model;

Figure 13 is hydraulic system principle figure in the utility model.

Detailed description of the invention:

Below in conjunction with accompanying drawing, the utility model is further described.

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with the drawings and the specific embodiments, the utility model is further elaborated.Should be appreciated that detailed description of the invention described herein only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figure 1, this detailed description of the invention adopts following technical scheme: it comprises feed system 1, cuts material system 2, corner brace impression system 3, water falling hole stamping system 4, installing hole and terrestrial reference stamping system 5, feed system 6, hydraulic system 7; Feed system 1, section material system 2, corner brace impression system 3, water falling hole stamping system 4, installing hole and terrestrial reference stamping system 5, feed system 6, hydraulic system 7 are all connected with control system, and hydraulic system 7 is connected with hydraulic pressure executive item by fluid pressure line with corner brace impression system 3, water falling hole stamping system 4, installing hole and terrestrial reference stamping system 5; During machine operation, first by one end dop manually section bar one end of processing aluminium frame being put into feed system, the other end is put into screens place cutting material system, after the distance of feed system feeding setting, cuts material system and cuts material.After cutting, the pay-off 1 in feed system is transported to corner brace impression system aluminium frame and completes the punching press of corner brace impression, and feed system charging again simultaneously, a section material system cut material, so circulate; Pay-off 2 6.5 in feeder system is transported to water falling hole stamping system aluminium frame good for punching press and completes water falling hole punching press, and the pay-off 3 6.6 in feeder system is transported to aluminium frame good for punching press the punch process that installing hole and terrestrial reference stamping system complete installing hole and terrestrial reference; Periodic duty like this.

Described feed system comprises underframe 1, closed slide 2 1.2, tooth bar 1, cart base plate 1, linear bearing 1, servomotor 1, synchronous pulley 1, Timing Belt 1, cylinder 1, dop 1.10, cylinder 1.11, wire casing 1.12, closed slide 1 and tooth bar 1 are arranged on underframe 1, cart base plate 1 is coordinated with closed slide 1 by linear bearing 1, servomotor 1 is arranged on cart base plate 1, one end of synchronous pulley 1 is connected with servomotor 1 by Timing Belt 1, the other end engages with tooth bar 1, dop 1.10 is arranged on cart base plate 1, cylinder 1 is arranged on dop 1.10, for making dop opening and closing, cylinder 1.11 is arranged on underframe 1, for supporting aluminium frame, wire casing 1.12 is arranged on underframe 1, when manually one end of material being put on dop, after the other end is placed on screens place cutting material system, cylinder 1 work makes the closed clamping material of dop 1.10, and servomotor 1 works, and makes aluminium frame move certain distance forward, Deng cutting after a material system cuts material, reach certain distance, until whole material has cut, cylinder has not worked, dop unclamps, and gets back to initial position.Circulation like this.

Described section of material system comprises the left materials device that cuts and cuts materials device with right; A described left side is cut materials device and is comprised a section material transmission device 2.1, cuts materials device 2.2, cuts the solid materials device 2.3 of material; Cut materials device 2.2 to be arranged on and to cut on material transmission device 2.1 and cut materials device 2.2 and closed slide in angle of 45 degrees, cut the solid materials device 2.3 of material and be arranged on and cut on material transmission device 2.1; It is identical with the left equipment cut included by materials device that materials device is cut on the described right side.

The described material transmission device 2.1 that cuts comprises underframe two 2.1.1, closed slide two 2.1.2, linear bearing two 2.1.3, cart base plate two 2.1.4, servomotor two 2.1.5, ball-screw one 2.1.6, shaft coupling one 2.1.7, servo motor seat one 2.1.8, nut seat one 2.1.9; Closed slide two 2.1.2 is arranged on underframe two 2.1.1, cart base plate one 2.1.1 is coordinated with closed slide two 2.1.2 by linear bearing two 2.1.3, servo motor seat one 2.1.8 is arranged on underframe two 2.1.1, servomotor two 1.1.5 is arranged on servo motor seat one 2.1.8, one end of ball-screw one 2.1.6 is coordinated with servomotor two 2.1.5 by shaft coupling one 2.1.7, its other end is coordinated with cart base plate by nut seat one 2.1.9, and described nut seat one 2.1.9 is arranged on cart base plate.

The described materials device 2.2 that cuts comprises support one 2.2.1, closed slide three 2.2.2, linear bearing three 2.2.3, servomotor three 2.2.4, ball-screw two 2.2.5, motor one 2.2.6, saw blade 2.2.7, shaft coupling two 2.2.8, servo motor seat two 2.2.9, nut seat two 2.2.10, motor cabinet 2.2.11; Servo motor seat two 2.2.9 is fixed on support one 2.2.1, servomotor three 2.2.4 is fixed on servo motor seat two 2.2.9, one end of ball-screw two 2.2.5 is coordinated with servomotor three 2.2.4 by shaft coupling two 2.2.8, its other end is coordinated with motor cabinet 2.2.11 by nut seat two 2.2.10, nut seat two 2.2.10 is arranged on motor cabinet 2.2.11, motor cabinet 2.2.11 is coordinated with closed slide three 2.2.2 by linear bearing three 2.2.3, motor one 2.2.6 is arranged on motor cabinet 2.2.11, and saw blade 2.2.7 is arranged on motor one 2.2.6.

The described solid materials device 2.3 of material that cuts comprises cylinder frame one 2.3.1, side cylinder 2.3.2, top gas cylinder 2.3.3, screens one 2.3.4, kerf 2.3.5; Side cylinder 2.3.2, top gas cylinder 2.3.3, screens one 2.3.4 are installed on cylinder frame one 2.3.1, and kerf 2.3.5 is arranged on screens one 2.3.4.

Cut material system 2 operationally, cart base plate two 2.1.4 from initial position by servomotor two 2.1.5 brought into motion to assigned address and feeding material after screens one 2.3.4, motor one 2.2.6 works, side cylinder 2.3.2 and top gas cylinder 2.3.3 clamps raw material, servomotor three 2.2.4 work makes ball-screw two 2.2.5 revolve drive motor one 2.2.6 and moves down saw material, after moving down certain distance, is moved upwards up to assigned address, side cylinder 2.3.2 and top gas cylinder 2.3.3 unclamps, and cuts material and completes; Periodic duty like this; It is identical with the left equipment cut included by materials device that materials device is cut on the right side, and the while of each identical device, work asynchronously, they intercept one end of a material respectively.

Described corner brace impression system 3 comprises left comer code imprinting apparatus and right corner code imprinting apparatus.Described left comer code imprinting apparatus comprises corner brace impression transmission device 3.1, corner brace impression decompressor 3.2, the solid materials device 3.3 of corner brace impression; Described corner brace impression decompressor 3.2 is arranged on the cart base plate of corner brace impression transmission device 3.1, and the solid materials device 3.3 of corner brace impression is arranged on the underframe of corner brace impression transmission device 3.1; Described corner brace imprinting apparatus is right identical with the equipment included by a corner brace imprinting apparatus left side.

Described corner brace impression transmission device 3.1 comprises underframe three 3.1.1, closed slide four 3.1.2, linear bearing four 3.1.3, cart base plate three 3.1.4, servomotor four 3.1.5, ball-screw three 3.1.6, shaft coupling three 3.1.7, servo motor seat three 3.1.8, nut seat three 3.1.9; Closed slide four 3.1.2 is arranged on underframe three 3.1.1, cart base plate three 3.1.4 is coordinated with closed slide four 3.1.2 by linear bearing four 3.1.3, servo motor seat three 3.1.8 is arranged on underframe three 3.1.1, servomotor four 3.1.5 is arranged on servo motor seat three 3.1.8, one end of ball-screw three 3.1.6 is coordinated with servomotor four 3.1.5 by shaft coupling three 3.1.7, its other end is coordinated with cart base plate three 3.1.4 by nut seat three 3.1.9, and nut seat three 3.1.9 is arranged on cart base plate three 3.1.4.

Described corner brace impression decompressor 3.2 comprises die frame one 3.2.1, the first 3.2.2 of mould, mold core one 3.2.3, connecting rod one 3.2.4, hydraulic cylinder one 3.2.5; Die frame one 3.2.1 is arranged on cart base plate three 3.1.4, the first 3.2.2 of mould, mold core one 3.2.3 are arranged on die frame one 3.2.1, cylinder shell and die frame one 3.2.1 of hydraulic cylinder one 3.2.5 are hinged, one end of connecting rod one 3.2.4 and the piston rod of hydraulic cylinder one 3.2.5 hinged, its other end and the first 3.2.2 of mould hinged.

The described solid materials device 3.3 of corner brace impression comprises cylinder frame two 3.3.1, cylinder two 3.3.2, screens two 3.3.3; Cylinder frame two 3.3.1 is arranged on underframe three 3.1.1, and cylinder two 3.3.2, screens two 3.3.3 are arranged on cylinder frame two 3.3.1.

Corner brace impression system 3 operationally, after pay-off is transported to assigned address the aluminium frame cut, cylinder two 3.3.2 works, aluminium frame is fixed, servomotor four 3.1.5 works, make ball-screw three 3.1.6 rotarily drive cart base plate three 3.1.4 to move, mold core one 3.2.3 quits work after inserting aluminium frame certain distance; Hydraulic cylinder one 3.2.5 works, mould first 3.2.2 punching press aluminium frame; After punching press completes, move on to distance to a declared goal after servomotor four 3.1.5 makes dolly, cylinder unclamps; Periodic duty like this; Described corner brace imprinting apparatus is right identical with left the comprised equipment of corner brace imprinting apparatus, the while of each identical device, works asynchronously, one end of their difference punching press one material.

Described water falling hole stamping system 4 comprises left water falling hole decompressor and right water falling hole decompressor.Described left water falling hole decompressor comprises water falling hole punching press transmission device 4.1, water falling hole decompressor 4.2, the solid materials device 4.3 of water falling hole punching press; Described water falling hole decompressor 4.2 is arranged on the cart base plate of water falling hole punching press transmission device 4.1, and the solid materials device 4.3 of water falling hole punching press is arranged on the underframe of water falling hole punching press transmission device 4.1; Described right water falling hole decompressor is identical with the equipment included by left water falling hole decompressor.

Described water falling hole punching press transmission device 4.1 comprises underframe four 4.1.1, closed slide five 4.1.2, linear bearing five 4.1.3, cart base plate four 4.1.4, servomotor five 4.1.5, ball-screw four 4.1.6, shaft coupling four 4.1.7, servo motor seat four 4.1.8, nut seat four 4.1.9; Closed slide five 4.1.2 is arranged on underframe four 4.1.1, cart base plate four 4.1.4 is coordinated with closed slide five 4.1.2 by linear bearing five 4.1.3, servo motor seat four 4.1.8 is arranged on underframe four 4.1.1, servomotor five 4.1.5 is arranged on servo motor seat four 4.1.8, one end of ball-screw four 4.1.6 is coordinated with servomotor five 4.1.5 by shaft coupling four 4.1.7, its other end is coordinated with cart base plate four 4.1.4 by nut seat four 4.1.9, and nut seat four 4.1.9 is arranged on cart base plate four 4.1.4.

Described water falling hole decompressor 4.2 comprises die frame two 4.2.1, die head two 4.2.2, mold core two 4.2.3, connecting rod two 4.2.4, hydraulic cylinder two 4.2.5; Die head two 4.2.2, mold core two 4.2.3 are arranged on die frame two 4.2.1, cylinder shell and die frame two 4.2.1 of hydraulic cylinder two 4.2.5 are hinged, one end of connecting rod two 4.2.4 and the piston rod of hydraulic cylinder two 4.2.5 hinged its, the other end and die head two 4.2.2 hinged.

The solid materials device of described water falling hole punching press comprises cylinder frame three 4.3.1, cylinder three 4.3.2, screens three 4.3.3; Cylinder three 4.3.2, screens three 4.3.3 are arranged on cylinder frame three 4.3.1.

Water falling hole stamping system 4 operationally, after pay-off is transported to assigned address the aluminium frame cut, cylinder three 4.3.2 works, aluminium frame is fixed, servomotor five 4.1.5 works, make ball-screw four 4.1.6 rotarily drive cart base plate four 4.1.4 to move, mold core two 4.2.3 quits work after inserting aluminium frame certain distance, hydraulic cylinder two 4.2.5 works, die head two 4.2.2 punching press aluminium frame, after punching press completes, move on to distance to a declared goal after servomotor five 4.1.5 makes dolly, cylinder unclamps; Periodic duty like this; Described right water falling hole decompressor is identical with the equipment that left water falling hole decompressor comprises, and the while of each identical device, works asynchronously, one end of their difference punching press one material.

Described installing hole and terrestrial reference stamping system 5 comprise support 2 5.1, bracket base 5.2, punch holder 5.3, mold core 3 5.4, die head 3 5.5, synchronous hydraulic cylinder 5.6; Synchronous hydraulic cylinder cylinder body 5.6 is arranged on support 2 5.1, the piston rod of cylinder pressure cylinder body 5.6 is connected with punch holder 5.3, mold core 3 5.4 is arranged on bracket base 5.2, and bracket base 5.2 is arranged on support 2 5.1, and die head 3 5.5 is arranged in punch holder 5.3; Pay-off transports to the assigned address of installing hole and terrestrial reference stamping system the aluminium frame that a upper operation completes, and synchronous hydraulic cylinder 5.6 works, and drives punch holder to move down, to the punching of aluminium frame; After punching completes, punch holder rises to assigned address; Periodic duty like this.

Described feed system 6 comprises underframe 5 6.1, closed slide 6 6.2, tooth bar 2 6.3, pay-off 1, pay-off 2 6.5, pay-off 3 6.6; Underframe 5 6.1 is for support equipment, and closed slide 6 6.2 and tooth bar 2 6.3 are arranged on underframe 5 6.1, and pay-off 1, pay-off 2 6.5, pay-off 3 6.6 coordinate with closed slide 6 6.2 respectively and engage with tooth bar 2 6.3.

Described pay-off 1 comprises cart base plate five 6.4.1, linear bearing six 6.4.2, servomotor six 6.4.3, synchronous pulley two 6.4.4, Timing Belt two 6.4.5, cylinder four 6.4.6, cylinder five 6.4.7, air cylinder support four 6.4.8, sucker 6.4.9, suction cup carrier 6.4.10, guide pillar 6.4.11, bearing 6.4.12, cart base plate five 6.4.1 is coordinated with closed slide 6 6.2 by linear bearing six 6.4.2, servomotor six 6.4.3 is arranged on cart base plate five 6.4.1, one end of synchronous pulley two 6.4.4 is connected with servomotor six 6.4.3 by Timing Belt two 6.4.5, its other end engages with tooth bar 2 6.3, the housing of cylinder four 6.4.6 is arranged on dolly chassis, the piston rod of cylinder four 6.4.6 is connected with air cylinder support four 6.4.8, the housing of cylinder five 6.4.7 is arranged on air cylinder support 6.4.8, piston rod and the suction cup carrier 6.4.10 of cylinder five 6.4.7 fix, sucker 6.4.9 is arranged on suction cup carrier 6.4.10, guide pillar 6.4.11 is arranged on suction cup carrier 6.4.10, bearing 6.4.12 is arranged on cylinder frame 6.4.12.

During feed system work, after a section material system is finished the work, servomotor six 6.4.3 of pay-off 1 works, moving of car is to assigned address, cylinder four 6.4.6 piston rod is elongated to certain position, and sucker 6.4.9 holds aluminium frame, and cylinder five 6.4.7 piston rod is elongated to certain position, moving of car is to the assigned address of subsequent processing, cylinder five 6.4.7 piston rod is retracted, and sucker unclamps, and cylinder four 6.4.6 retracts, cart base plate five 6.4.1 runs to initial position, so circulates; The equipment that pay-off 2 6.5, pay-off 3 6.6 comprise is identical with pay-off 6.4, pay-off 2 6.5, pay-off 3 6.6 carry out the haul of corner brace impression system and water falling hole stamping system respectively, and the action completed is identical with pay-off 1.

Described hydraulic system 7 comprises motor 2 7.1, hydraulic pump 7.2, sequence valve 7.3, reversal valve 7.4, overflow valve 7.5, Pressure gauge 7.6, fuel tank 7.7, flow divider-combiner 7.8, hydraulic cylinder one 3.2.5, hydraulic cylinder two 4.2.5, hydraulic cylinder three 5.2.5; Hydraulic pump 7.2 is arranged on motor 2 7.1, sequence valve 7.3 is connected by pipeline with hydraulic pump 7.2, reversal valve 7.4 is connected by pipeline with sequence valve 7.3, Pressure gauge 7.6, overflow valve 7.5 are in parallel with reversal valve 7.4 by pipeline, and hydraulic cylinder one 3.2.5, hydraulic cylinder two 4.2.5, hydraulic cylinder three 5.2.5 are connected by pipeline with reversal valve 7.4.

Described control system is CNC controller.CNC controller is Programmable Logic Controller, for prior art products, just internal processes is different, also suitably saw brilliance degree by the change of program and change corresponding drilling mould, just can realize the processing of the photovoltaic module aluminium frame of different size, the machining cell of invention has good flexibility and different product adaptability.This machining cell is also applicable to the processing of the industry aluminium frames such as building doors and windows simultaneously.

The above, only in order to the technical solution of the utility model to be described and unrestricted, other amendment that those of ordinary skill in the art make the technical solution of the utility model or equivalently to replace, only otherwise depart from the spirit and scope of technical solutions of the utility model, all should be encompassed in the middle of right of the present utility model.

Claims (18)

1. the flexible machining cell automatically of photovoltaic module aluminium frame, is characterized in that: it comprises feed system, cuts material system, corner brace impression system, water falling hole stamping system, installing hole and terrestrial reference stamping system, feed system, hydraulic system; Feed system, section material system, corner brace impression system, water falling hole stamping system, installing hole and terrestrial reference stamping system, feed system, hydraulic system are all connected with control system, and hydraulic system is connected with hydraulic pressure executive item by fluid pressure line with corner brace impression system, water falling hole stamping system, installing hole and terrestrial reference stamping system.

2. the flexible machining cell automatically of photovoltaic module aluminium frame according to claim 1, is characterized in that described feed system comprises underframe one, closed slide two, tooth bar one, cart base plate one, linear bearing one, servomotor one, synchronous pulley one, Timing Belt one, cylinder one, dop, cylinder, wire casing; Closed slide one and tooth bar one are arranged on underframe one, cart base plate one is coordinated with closed slide one by linear bearing one, servomotor one is arranged on cart base plate one, one end of synchronous pulley one is connected with servomotor one by Timing Belt one, the other end engages with tooth bar one, and dop is arranged on cart base plate one, and cylinder one is arranged on dop, cylinder is arranged on underframe one, and wire casing is arranged on underframe one.

3. the flexible machining cell automatically of photovoltaic module aluminium frame according to claim 1, is characterized in that a described section material system comprises left section materials device and right section materials device; A described left side is cut materials device and is comprised a section material transmission device, cuts materials device, cuts the solid materials device of material; Cut materials device to be arranged on and to cut on material transmission device and cut materials device and closed slide in angle of 45 degrees, cut the solid materials device of material and be arranged on section material transmission device.

4. the flexible machining cell automatically of photovoltaic module aluminium frame according to claim 3, is characterized in that the described material transmission device that cuts comprises underframe two, closed slide two, linear bearing two, cart base plate two, servomotor two, ball-screw one, shaft coupling one, servo motor seat one, nut seat one; Closed slide two is arranged on underframe two, cart base plate one is coordinated with closed slide two by linear bearing two, servo motor seat one is arranged on underframe two, servomotor two is arranged in servo motor seat one, one end of ball-screw one is coordinated with servomotor two by shaft coupling one, its other end is coordinated with cart base plate by nut seat one, and nut seat one is arranged on cart base plate.

5. the flexible machining cell automatically of photovoltaic module aluminium frame according to claim 3, is characterized in that the described materials device that cuts comprises support one, closed slide three, linear bearing three, servomotor three, ball-screw two, motor one, saw blade, shaft coupling two, servo motor seat two, nut seat two, motor cabinet; Servo motor seat two is fixed on support one, servomotor three is fixed in servo motor seat two, one end of ball-screw two is coordinated with servomotor three by shaft coupling two, its other end is coordinated with motor cabinet by nut seat two, nut seat two is arranged on motor cabinet, motor cabinet is coordinated with closed slide three by linear bearing three, and motor one is arranged on motor cabinet, and saw blade is arranged on motor one.

6. the flexible machining cell automatically of photovoltaic module aluminium frame according to claim 3, is characterized in that the described solid materials device of material that cuts comprises cylinder frame one, side cylinder, top gas cylinder, screens one, kerf; Side cylinder, top gas cylinder, screens one are installed on cylinder frame one, and kerf is arranged in screens one.

7. the flexible machining cell automatically of photovoltaic module aluminium frame according to claim 1, is characterized in that described corner brace impression system comprises left comer code imprinting apparatus and right corner code imprinting apparatus; Described left comer code imprinting apparatus comprises corner brace impression transmission device, corner brace impression decompressor, the solid materials device of corner brace impression; Corner brace impression decompressor is arranged on the cart base plate of corner brace impression transmission device, and the solid materials device of corner brace impression is arranged on the underframe of corner brace impression transmission device.

8. the flexible machining cell automatically of photovoltaic module aluminium frame according to claim 7, is characterized in that described corner brace impression transmission device comprises underframe three, closed slide four, linear bearing four, cart base plate three, servomotor four, ball-screw three, shaft coupling three, servo motor seat three, nut seat three; Closed slide four is arranged on underframe three, cart base plate three is coordinated with closed slide four by linear bearing four, servo motor seat three is arranged on underframe three, servomotor four is arranged in servo motor seat three, one end of ball-screw three is coordinated with servomotor four by shaft coupling three, its other end is coordinated with cart base plate three by nut seat three, and nut seat three is arranged on cart base plate three.

9. the flexible machining cell automatically of photovoltaic module aluminium frame according to claim 7, is characterized in that described corner brace impression decompressor comprises that die frame one, mould are first, mold core one, connecting rod one, hydraulic cylinder one; Die frame one is arranged on cart base plate three, and mould is first, mold core one is arranged on die frame one, and cylinder shell and the die frame one of hydraulic cylinder one are hinged, one end of connecting rod one and the piston rod of hydraulic cylinder one hinged, its other end and mould first hinged.

10. the flexible machining cell automatically of photovoltaic module aluminium frame according to claim 7, is characterized in that the described solid materials device of corner brace impression comprises cylinder frame two, cylinder two, screens two; Cylinder frame two is arranged on underframe three, and cylinder two, screens two are arranged on cylinder frame two.

The flexible machining cell automatically of 11. photovoltaic module aluminium frames according to claim 1, is characterized in that described water falling hole stamping system comprises left water falling hole decompressor and right water falling hole decompressor; Described left water falling hole decompressor comprises water falling hole punching press transmission device, water falling hole decompressor, the solid materials device of water falling hole punching press; Water falling hole decompressor is arranged on the cart base plate of water falling hole punching press transmission device, and the solid materials device of water falling hole punching press is arranged on the underframe of water falling hole punching press transmission device.

The flexible machining cell automatically of 12. photovoltaic module aluminium frames according to claim 11, is characterized in that described water falling hole punching press transmission device comprises underframe four, closed slide five, linear bearing five, cart base plate four, servomotor five, ball-screw four, shaft coupling four, servo motor seat four, nut seat four; Closed slide five is arranged on underframe four, cart base plate four is coordinated with closed slide five by linear bearing five, servo motor seat four is arranged on underframe four, servomotor five is arranged in servo motor seat four, one end of ball-screw four is coordinated with servomotor five by shaft coupling four, its other end is coordinated with cart base plate four by nut seat four, and nut seat four is arranged on cart base plate four.

The flexible machining cell automatically of 13. photovoltaic module aluminium frames according to claim 11, is characterized in that described water falling hole decompressor comprises die frame two, die head two, mold core two, connecting rod two, hydraulic cylinder two; Die head two, mold core two are arranged on die frame two, and cylinder shell and the die frame two of hydraulic cylinder two are hinged, one end of connecting rod two and the piston rod of hydraulic cylinder two hinged its, the other end and die head two hinged.

The flexible machining cell automatically of 14. photovoltaic module aluminium frames according to claim 11, is characterized in that the solid materials device of described water falling hole punching press comprises cylinder frame three, cylinder three, screens three; Cylinder three, screens three are arranged on cylinder frame three.

The flexible machining cell automatically of 15. photovoltaic module aluminium frames according to claim 1, is characterized in that described installing hole and terrestrial reference stamping system comprise support two, bracket base, punch holder, mold core three, die head three, synchronous hydraulic cylinder; Synchronous hydraulic cylinder cylinder body is arranged on support two, and the piston rod of cylinder pressure cylinder body is connected with punch holder, and mold core three is arranged on bracket base, and bracket base is arranged on support two, and die head three is arranged in punch holder.

The flexible machining cell automatically of 16. photovoltaic module aluminium frames according to claim 1, is characterized in that described feed system comprises underframe five, closed slide six, tooth bar two, pay-off one, pay-off two, pay-off three; Closed slide six and tooth bar two are arranged on underframe five, and pay-off one, pay-off two, pay-off three coordinate with closed slide six respectively, and engage with tooth bar two.

The flexible machining cell automatically of 17. photovoltaic module aluminium frames according to claim 16, is characterized in that described pay-off one comprises cart base plate five, linear bearing six, servomotor six, synchronous pulley two, Timing Belt two, cylinder four, cylinder five, air cylinder support four, sucker, suction cup carrier, guide pillar, bearing; Cart base plate five-way is crossed linear bearing six and is coordinated with closed slide six, servomotor six is arranged on cart base plate five, one end of synchronous pulley two is connected with servomotor six by Timing Belt two, its other end engages with tooth bar two, the housing of cylinder four is arranged on dolly chassis, the piston rod of cylinder four is connected with air cylinder support four, the housing of cylinder five is arranged on air cylinder support, piston rod and the suction cup carrier of cylinder five are fixed, sucker is arranged in suction cup carrier, guide pillar is arranged in suction cup carrier, and bearing is arranged on cylinder frame.

The flexible machining cell automatically of 18. photovoltaic module aluminium frames according to claim 1, is characterized in that described hydraulic system comprises motor two, hydraulic pump, sequence valve, reversal valve, overflow valve, Pressure gauge, fuel tank, flow divider-combiner, hydraulic cylinder one, hydraulic cylinder two, hydraulic cylinder three; Hydraulic pump is arranged on motor two, sequence valve is connected by pipeline with hydraulic pump, reversal valve is connected by pipeline with sequence valve, and Pressure gauge, overflow valve are in parallel with reversal valve by pipeline, and hydraulic cylinder one, hydraulic cylinder two, hydraulic cylinder three are connected by pipeline with reversal valve.