CN107671635A

CN107671635A - A kind of full-automatic silicon ingot chamfer equipment

Info

Publication number: CN107671635A
Application number: CN201710893982.5A
Authority: CN
Inventors: 陈锋
Original assignee: Jiangsu Compass Automation Technology Co Ltd
Current assignee: Suzhou Otelanen Automation Equipment Co ltd
Priority date: 2017-09-28
Filing date: 2017-09-28
Publication date: 2018-02-09
Anticipated expiration: 2037-09-28
Also published as: CN107671635B

Abstract

The invention discloses a kind of full-automatic silicon ingot chamfer equipment, including feeding streamline, the first station beveler, second station beveler, 3rd station beveler, the 4th station beveler and blanking streamline, described feeding streamline is arranged on the front end of the first station beveler, described blanking streamline is arranged on the rear end of the 4th station beveler, and chamfering is carried out to four angles of silicon ingot respectively by described the first station beveler, second station beveler, 3rd station beveler and the 4th station beveler.By above-mentioned, the full-automatic silicon ingot chamfer equipment of the present invention, each station is respectively that silicon ingot falls an angle, pass through the division of labor chamfering of four stations, online chamfering is realized, eliminates manually-operated link, so as to greatly improve the production efficiency of factory, the employment cost of enterprise is reduced simultaneously, is mainly characterized by：Small volume, simple in construction, operating efficiency is high, intelligent level is high.

Description

A kind of full-automatic silicon ingot chamfer equipment

Technical field

The invention belongs to the technical field of photovoltaic industry, more particularly to a kind of full-automatic silicon ingot chamfer equipment.

Background technology

The chamfering device of photovoltaic industry is large-scale special purpose machine tool at present, is characterized in bulky, device structure is complicated, work Make that efficiency is low, intelligence degree is relatively low, it is necessary to manually be operated：Worker needs that silicon ingot is carried into beveler, silicon ingot manually Weight is very heavy, long-term to carry, easy to obtain the occupational diseases such as lumbar muscle strain, has damage to physical and mental health.Enterprise needs to employ largely Worker goes to operate beveler, and employment cost is very expensive.

The content of the invention

The present invention solves the technical problem of a kind of full-automatic silicon ingot chamfer equipment is provided, each station is respectively silicon Ingot falls an angle, by the division of labor chamfering of four stations, realizes online chamfering, eliminates manually-operated link, so as to big It is big to improve the production efficiency of factory, while the employment cost of enterprise is reduced, it is mainly characterized by：Small volume, simple in construction, work Efficiency high, intelligent level are high.

In order to solve the above technical problems, one aspect of the present invention is：A kind of full-automatic silicon ingot is provided to fall Angle equipment, including feeding streamline, the first station beveler, second station beveler, 3rd station beveler, the 4th station fall Angle machine and blanking streamline, described the first station beveler, second station beveler, 3rd station beveler and the 4th work Position beveler is arranged in order setting in the same horizontal line, before described feeding streamline is arranged on the first station beveler End, described blanking streamline are arranged on the rear end of the 4th station beveler, pass through the first described station beveler, the second work Position beveler, 3rd station beveler and the 4th station beveler carry out chamfering to four angles of silicon ingot respectively.

In a preferred embodiment of the present invention, the first described station beveler, second station beveler, 3rd station Beveler and the 4th station beveler use specification framework identical station beveler.

In a preferred embodiment of the present invention, described station beveler includes charging upset lifting body, beveler Lifting body is overturn with discharging, described charging upset lifting body and discharging upset lifting body are separately positioned on beveler Two sides.

In a preferred embodiment of the present invention, the charging turn-over top of described feeding streamline and the first station beveler Rise mechanism to be connected, described blanking streamline is connected with the discharging upset lifting body of the 4th station beveler.

In a preferred embodiment of the present invention, the first described station beveler, second station beveler, 3rd station Beveler and the 4th station beveler respectively overturn lifting body and a discharging upset lifting body connection by a charging, real Existing 90 degree upset.

In a preferred embodiment of the present invention, described charging upset lifting body and discharging upset lifting body wrap Include upset sewing platform base, roll-over table lifting body, roll-over table roller and tumble cylinder, described roll-over table lifting body and roll-over table Roller be movably arranged on upset sewing platform base upper end, described tumble cylinder be arranged on upset sewing platform base in and with roll-over table top Mechanism is risen with roll-over table roller to be connected.

In a preferred embodiment of the present invention, described beveler include beveler pedestal, guide rail mounting seat, guide rail, Tank, feeding V-type platform, compression cylinder, emery wheel and slide unit electric machine assembly, described guide rail mounting seat are horizontally installed on chamfering respectively Machine pedestal top and two sides for extending to beveler pedestal, described guide rail is separately positioned in guide rail mounting seat, described Feeding V-type platform is arranged on beveler pedestal and is connected with guide rail, and described emery wheel is arranged on the centre of feeding V-type platform bottom Position is simultaneously connected with the slide unit electric machine assembly being arranged in beveler pedestal, and described compression cylinder is arranged on feeding V-type platform Top and the top for extending to emery wheel, described tank are arranged on feeding V-type platform.

In a preferred embodiment of the present invention, described slide unit electric machine assembly manually or control servomotor The height of emery wheel is adjusted, so as to adjust the size of silicon ingot chamfer.

In a preferred embodiment of the present invention, described feeding streamline and blanking streamline use roller flowing water Line, including roller, chain, buncher and frame, described roller is arranged on the upper end of frame by chain respectively, described Buncher is arranged in frame and is connected with chain.

In a preferred embodiment of the present invention, polyurethane protective case is enclosed with described roller.

The beneficial effects of the invention are as follows：The full-automatic silicon ingot chamfer equipment of the present invention, each station are respectively that silicon ingot falls one Individual angle, by the division of labor chamfering of four stations, online chamfering is realized, eliminates manually-operated link, so as to greatly improve The production efficiency of factory, while the employment cost of enterprise is reduced, it is mainly characterized by：Small volume, simple in construction, operating efficiency High, intelligent level height.

Brief description of the drawings

Technical scheme in order to illustrate the embodiments of the present invention more clearly, make required in being described below to embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for For those of ordinary skill in the art, on the premise of not paying creative work, it can also be obtained according to these accompanying drawings other Accompanying drawing, wherein：

Fig. 1 is the structural representation of a preferred embodiment of full-automatic silicon ingot chamfer equipment of the invention；

Fig. 2 is the structural representation of station beveler in Fig. 1；

Fig. 3 is the structural representation of charging upset lifting body or discharging upset lifting body in Fig. 2；

Fig. 4 is the structural representation of beveler in Fig. 2；

Mark in accompanying drawing for：1st, stream waterline, the 2, first station beveler, 3, second station beveler, 4,3rd station falls Angle machine, the 5, the 4th station beveler, 6, blanking streamline, 7, charging upset lifting body, 8, beveler, 9, discharging upset jacking Mechanism, 10, upset sewing platform base, 11, roll-over table lifting body, 12, roll-over table roller, 13, tumble cylinder, 14, beveler pedestal, 15th, guide rail mounting seat, 16, guide rail, 17, tank, 18, feeding V-type platform, 19, compression cylinder, 20, emery wheel, 21, slide unit group of motors Part, 22, roller, 23, chain, 24, buncher, 25, frame, 26, polyurethane protective case, 27, silicon ingot.

Embodiment

The technical scheme in the embodiment of the present invention will be clearly and completely described below, it is clear that described implementation Example is only the part of the embodiment of the present invention, rather than whole embodiments.It is common based on the embodiment in the present invention, this area All other embodiment that technical staff is obtained under the premise of creative work is not made, belong to the model that the present invention protects Enclose.

As shown in figure 1, the embodiment of the present invention includes：

A kind of full-automatic silicon ingot chamfer equipment, including feeding streamline 1, the first station beveler 2, second station beveler 3, the Three station bevelers 4, the 4th station beveler 5 and blanking streamline 6, the first described station beveler 2, second station are fallen Angle machine 3, the station beveler 5 of 3rd station beveler 4 and the 4th are arranged in order setting in the same horizontal line, described upper stream Waterline 1 is arranged on the front end of the first station beveler 2, after described blanking streamline 6 is arranged on the 4th station beveler 5 End, passes through the first described station beveler 2, second station beveler 3, the station beveler 5 of 3rd station beveler 4 and the 4th Chamfering is carried out to four angles of silicon ingot 27 respectively.

In above-mentioned, the first described station beveler 2, second station beveler 3, the work of 3rd station beveler 4 and the 4th Position beveler 5 uses specification framework identical station beveler.

As shown in Fig. 2 described station beveler includes charging upset lifting body 7, beveler 8 and discharging upset jacking Mechanism 9, described charging upset lifting body 7 and the discharging upset structure of jack 9 are separately positioned on two sides of beveler 8.

In the present embodiment, described feeding streamline 1 is connected with the charging upset lifting body 7 of the first station beveler 2 Connect, described blanking streamline 6 is connected with the discharging upset lifting body 9 of the 4th station beveler 5.The first described station Beveler 2, second station beveler 3, the station beveler 5 of 3rd station beveler 4 and the 4th respectively pass through a charging turn-over top Rise mechanism 7 and a discharging upset lifting body 9 connects, realize 90 degree of upset.

As shown in figure 3, described charging upset lifting body 7 and discharging upset lifting body 9 includes upset sewing platform base 10th, roll-over table lifting body 11, roll-over table roller 12 and tumble cylinder 13, described roll-over table lifting body 11 and roll-over table rolling Cylinder 12 is movably arranged on the upper end of upset sewing platform base 10, and described tumble cylinder 13 is arranged in upset sewing platform base 10 and with turning over Turntable lifting body 11 is connected with roll-over table roller 13.With conveying, upset, the function of jacking silicon ingot 27.

As shown in figure 4, described beveler 8 includes beveler pedestal 14, guide rail mounting seat 15, guide rail 16, tank 17, taken Material V-type platform 18, compression cylinder 19, emery wheel 20 and slide unit electric machine assembly 21, described guide rail mounting seat 15 are horizontally installed on respectively The top of beveler pedestal 14 and two sides for extending to beveler pedestal 14, described guide rail 16 are separately positioned on guide rail mounting seat On 15, described feeding V-type platform 18 is arranged on beveler pedestal 14 and is connected with guide rail 16, and described emery wheel 20 is arranged on The centre position of the bottom of feeding V-type platform 18 is simultaneously connected with the slide unit electric machine assembly 21 being arranged in beveler pedestal 14, described Compression cylinder 19 be arranged on the top of feeding V-type platform 18 and extend to the top of emery wheel 20, described tank 20 is arranged on feeding V On type platform 18.

Wherein, described slide unit electric machine assembly 21 can manually or control servomotor adjusts the height of emery wheel 20 Degree, so as to adjust the size of the chamfering of silicon ingot 27.

In the present embodiment, described feeding streamline 1 and blanking streamline 6 use roller streamline, including roller 22, Chain 23, buncher 24 and frame 25, described roller 22 is arranged on the upper end of frame 23 by chain 23 respectively, described Buncher 24 is arranged in frame 25 and is connected with chain 23.Wherein, polyurethane guarantor is enclosed with described roller 22 Sheath 26.Each roller 22 is driven by chain 23, and power input is buncher 24, and polyurethane protective case is surrounded by each roller 22 26, it is possible to prevente effectively from the scuffing in transmitting procedure to silicon ingot 27.

The beveler of aforementioned four station is each responsible for carrying out four angles of silicon ingot chamfering, and centre is entered by tipping arrangement Row, which turns over, to be turn 90 degrees, and is carried out chamfering to four angles of silicon ingot 27 successively to realize, is finished down behind angle and is conveyed silicon ingot by blanking streamline To designated area.

The course of work of full-automatic silicon ingot chamfer equipment of the invention is as follows：

After silicon ingot 27 enters feeding streamline 1, the charging of the first station beveler 2 can be delivered to by feeding streamline 1 automatically Overturning on lifting body 7, roll-over table roller 12 starts to convey silicon ingot 27, after system detectio conveys in place to silicon ingot 27, upset Roll-over table roller 12 and silicon ingot 27 are carried out 45 degree of upsets by cylinder 13, energizing signal in place after, roll-over table lifting body 11 is carried out Jacking, silicon ingot 27 is set to depart from roll-over table roller 12, now the feeding V-type platform 18 of the first station beveler 2 passes through slide unit group of motors Part 21 drives, and reaches the lower section of silicon ingot 27, and roll-over table lifting body 11 declines, and silicon ingot 27 drops down onto feeding V-type platform 18, then compresses gas Silicon ingot 27 is compressed and delivers to progress chamfering at emery wheel 20 by cylinder 19.After being finished down angle, silicon ingot 27 is delivered to discharging by feeding V-type platform 18 Lifting body 9 is overturn, completes the chamfering workflow of the first station.

First station beveler 2, second station beveler 3,3rd station beveler 4, the 4th station beveler 5 respectively pass through One charging upset lifting body 7 and a discharging upset lifting body 9 connect, it is possible to achieve 90 degree of upset, so as to realize Silicon ingot 27 enters that next chamfering task can be realized during second station.

When completing the chamfering of the 4th station, silicon ingot 27 can be delivered to blanking streamline 6 by discharging upset lifting body 7, And by artificial blanking or subsequent processing of entering.

In summary, full-automatic silicon ingot chamfer equipment of the invention, realize the full-automatic of photovoltaic industry silicon ingot and fall online Angle, each station are respectively that silicon ingot falls an angle, by the division of labor chamfering of four stations, realize online chamfering, eliminate people The link of work operation, so as to greatly improve the production efficiency of factory, while reduces the employment cost of enterprise, is mainly characterized by： Small volume, simple in construction, operating efficiency is high, intelligent level is high.

Embodiments of the invention are the foregoing is only, are not intended to limit the scope of the invention, it is every to utilize this hair The equivalent structure or equivalent flow conversion that bright description is made, or directly or indirectly it is used in other related technology necks Domain, it is included within the scope of the present invention.

Claims

1. a kind of full-automatic silicon ingot chamfer equipment, it is characterised in that including feeding streamline, the first station beveler, the second work Position beveler, 3rd station beveler, the 4th station beveler and blanking streamline, the first described station beveler, the Two station bevelers, 3rd station beveler and the 4th station beveler are arranged in order setting in the same horizontal line, described Feeding streamline is arranged on the front end of the first station beveler, after described blanking streamline is arranged on the 4th station beveler End, distinguished by the first described station beveler, second station beveler, 3rd station beveler and the 4th station beveler Chamfering is carried out to four angles of silicon ingot.

2. full-automatic silicon ingot chamfer equipment according to claim 1, it is characterised in that described the first station beveler, Second station beveler, 3rd station beveler and the 4th station beveler use specification framework identical station beveler.

3. full-automatic silicon ingot chamfer equipment according to claim 2, it is characterised in that described station beveler include into Material upset lifting body, beveler and discharging upset lifting body, described charging upset lifting body and discharging upset jacking Mechanism is separately positioned on two sides of beveler.

4. full-automatic silicon ingot chamfer equipment according to claim 3, it is characterised in that described feeding streamline and first The charging upset lifting body of station beveler is connected, the discharging upset of described blanking streamline and the 4th station beveler Lifting body is connected.

5. full-automatic silicon ingot chamfer equipment according to claim 3, it is characterised in that described the first station beveler, Second station beveler, 3rd station beveler and the 4th station beveler respectively overturn lifting body and one by a charging Discharging upset lifting body connection, realize 90 degree of upset.

6. full-automatic silicon ingot chamfer equipment according to claim 5, it is characterised in that described charging upset lifting body Include upset sewing platform base, roll-over table lifting body, roll-over table roller and tumble cylinder with discharging upset lifting body, it is described Roll-over table lifting body and roll-over table roller are movably arranged on the upper end of upset sewing platform base, and described tumble cylinder, which is arranged on, to be turned over It is connected in rotary table base and with roll-over table lifting body and roll-over table roller.

7. full-automatic silicon ingot chamfer equipment according to claim 3, it is characterised in that described beveler includes beveler Pedestal, guide rail mounting seat, guide rail, tank, feeding V-type platform, compression cylinder, emery wheel and slide unit electric machine assembly, described guide rail peace Dress seat is horizontally installed on beveler pedestal top and extends to two sides of beveler pedestal respectively, and described guide rail is set respectively In guide rail mounting seat, described feeding V-type platform is arranged on beveler pedestal and is connected with guide rail, and described emery wheel is set It is connected in the centre position of feeding V-type platform bottom and with the slide unit electric machine assembly being arranged in beveler pedestal, described pressure Tight cylinder is arranged on feeding V-type platform top and extends to the top of emery wheel, and described tank is arranged on feeding V-type platform.

8. full-automatic silicon ingot chamfer equipment according to claim 7, it is characterised in that described slide unit electric machine assembly passes through Manually or servomotor is controlled to adjust the height of emery wheel, so as to adjust the size of silicon ingot chamfer.

9. full-automatic silicon ingot chamfer equipment according to claim 1, it is characterised in that described feeding streamline and blanking Streamline uses roller streamline, including roller, chain, buncher and frame, described roller to be set respectively by chain Put in the upper end of frame, described buncher is arranged in frame and is connected with chain.

10. full-automatic silicon ingot chamfer equipment according to claim 9, it is characterised in that be enclosed with described roller Polyurethane protective case.