CN105855894A - Phosphor copper ball production line - Google Patents

Abstract

The invention discloses a phosphor copper ball production line. The phosphor copper ball production line comprises a ball rolling production line body, a polishing and grinding production line body connected with the ball rolling production line body, a cleaning production line body connected with the polishing and grinding production line body and a packing production line body connected with the cleaning production line body. The ball rolling production line body comprises a material placing plate, a straightening machine, a cutting machine, a hauling machine, a two-way feeder and a ball rolling machine, wherein the material placing plate is used for placing a phosphor copper round rod coiled material; the straightening machine is matched with the material placing plate and used for straightening the phosphor copper round rod coiled material into a copper rod; the cutting machine is matched with the straightening machine and used for cutting off the copper rod; the hauling machine is matched with the cutting machine and used for hauling the copper rod; the two-way feeder is matched with the hauling machine; and the ball rolling machine is matched with the two-way feeder. According to the phosphor copper ball production line of the structure, ball rolling, polishing, cleaning and packing are integrated, and automatic production of the whole process of the production line is achieved; and the phosphor copper ball production line is high in production efficiency, large in output, high in stability and capable of continuously working for 24 hours a day without faults.

Description

Phosphorous copper balls production line

Technical field

The present invention relates to machinery production equipment technical field, be specifically related to phosphorous copper balls production line.

Background technology

In order to machine improves efficiency and yield, being changed into fully-automatic equipment from the Semi-automatic device of staff is a unmodifiable strategic purpose.Existing phosphorous copper balls produces to be needed through rolling the big operation of ball → polishing → cleaning → packaging four, existing production technology, needs artificial feeding, artificial transfer and artificial splicing, cannot be connected and realize automated production between equipment, and production efficiency is low.

Summary of the invention

It is an object of the invention to disclose phosphorous copper balls production line, solve artificial feeding, artificial transfer and artificial splicing, cannot be connected between equipment and realize automated production, the problem that production efficiency is low.

For reaching above-mentioned purpose, the present invention adopts the following technical scheme that

Phosphorous copper balls production line, including roll ball production line, connect this roll ball production line polishing grinding production line, connect the cleaning product line of this polishing grinding production line and connect the packaging production line of this cleaning product line；Roll ball production line to include placing discharge plate and this discharge plate of phosphor-copper round bar coiled strip and coordinate and coordinate with this straightener and be used for the cutting machine cutting off copper bar coordinate and be used for the bidirectional feeder that the traction machine drawing copper bar coordinates with this traction machine and the ball rolling machine coordinated with this feeder with this cutting machine for phosphor-copper round bar coiled strip is aligned into the straightener of copper bar.

Further, described straightener includes aligning frame, longitudinal straightening mechanism coordinates with this longitudinal direction straightening mechanism transverse straightener structure and for drawing the aligning haulage gear of described copper bar；Longitudinal straightening mechanism, transverse straightener structure and aligning haulage gear are located in aligning frame, and longitudinal straightening mechanism is for aligning copper bar in a longitudinal direction, and transverse straightener structure is for aligning copper bar in a lateral direction.

Further, described bidirectional feeder includes blanking rack, conveyer frames and two the folding moulds coordinated with described traction machine, and two folding moulds lay respectively at the lower position of blanking rack both sides, and blanking rack is parallel with folding mould and is positioned on conveyer frames；Blanking rack connects folding mould by conveyer frames, and folding mould coordinates with described ball rolling machine；Through the copper bar that described cutting machine cuts off, delivering on the retainer plate of blanking rack under the traction of traction machine, then the copper bar on blanking rack is fallen on conveyer frames and delivers in folding mould, after deliver to ball rolling machine through folding mould.

Further, described blanking rack includes blanking framework, the retainer plate being located on blanking framework, the blanking cylinder driving retainer plate folding and travel switch；Travel switch and blanking cylinder connect；Head end and the described traction machine of blanking framework are connected, and travel switch is located at the terminal position of blanking framework；Described conveyer frames includes conveyor frame, and the conveyer frames of blanking framework both sides is respectively equipped with three conveyer chain wheel constructions being parallel to each other, and conveyer chain wheel construction includes conveyer chain and the transmission motor driving conveyer chain to advance；Conveyer chain wheel construction is for being sent to the copper bar fallen on conveyer frames in the described folding mould of conveyer frames both sides；Folding mould includes the Mould opening and closing machine frame being located at described conveyor frame side, the copper rod guide being located on Mould opening and closing machine frame, the pushing structure being located at copper rod guide head end and be located at the material baffle structure of copper rod guide end；Pushing structure includes scraping wings, drives scraping wings along the pusher cylinder of copper rod guide displacement；Material baffle structure includes striker plate and connects the backgauge cylinder of striker plate, and the lifting of backgauge air cylinder driven striker plate realizes copper rod guide end folding.

Further, described ball rolling machine includes ball rolling machine frame, is located at rolling ball motor, connecting and roll rolling ball reductor, universal drive shaft, being located at the bundle ball machine body of the ball rolling machine frame other end of ball motor of ball rolling machine frame one end；Prick ball machine body include rolling rail, for roll ball roll ball cutterhead, for carrying the cooling water pipe of Cooling Water and for connecing the copper ball block plate of copper ball, cooling water pipe is positioned at and rolls the position that ball cutterhead coordinates；Roll ball reductor by universal drive shaft connect roll rail, roll ball motor by roll ball reductor, universal drive shaft drive roll rail rotate, roll ball cutterhead and roll rail coordinate realize described copper bar is rolled into copper ball, cooling water pipe carry Cooling Water for roll ball process lower the temperature；The copper ball shut out is fallen on copper ball block plate, and copper ball block plate connects the polishing elevating conveyor of described polishing grinding production line, and copper ball enters polishing grinding production line.

Further, described polishing grinding production line also includes the blow tank that the grinder that the first guiding gutter that the discharging opening of aggregate bin and this aggregate bin coordinated with described polishing elevating conveyor coordinates coordinates coordinates with the discharging opening of this grinder and the membrane pump being connected grinder with this first guiding gutter；Described cleaning product line connects blow tank；Membrane pump realizes adding abluent and brightener in grinder；The discharging opening being respectively provided on two sides with aggregate bin bottom aggregate bin and the first cylinder valve, the first cylinder valve includes the first cylinder and the first valve；First cylinder drives the first valve to decline the discharging opening closing realizing aggregate bin, or the discharging opening that the first cylinder drives the first valve rising to realize aggregate bin is opened；The discharging opening of first guiding gutter one end and described aggregate bin matches, and the open top of the first guiding gutter other end and grinder matches；Copper ball in aggregate bin falls into guiding gutter from the discharging opening of aggregate bin, is then passed through guiding gutter and enters grinder.

Further, what described cleaning product line included connecting described blow tank cleans pallet conveyer and the plane conveying mechanism that the air-cooler that the drying oven that the blower fan water-blowing device that the high-pressure spraying room that elevating conveyor coordinates coordinates with this high-pressure spraying room coordinates with this blower fan water-blowing device coordinates with this drying oven coordinates with this air-cooler with this cleaning elevating conveyor；Elevating conveyor, high-pressure spraying room, blower fan water-blowing device, drying oven, air-cooler and pallet conveyer are connected by plane conveyor structure；Described packaging production line connects pallet conveyer.

Further, described packaging production line includes Weighing mechanism and the joint sealing mechanism being connected with this Weighing mechanism；Weighing mechanism include connecting the hopper that the elevating conveyor of weighing of described pallet conveyer coordinates with the top of this elevating conveyor, the inlet mouth of weighing being located at this hopper bottom, be positioned at the automatic Weighing frame below this inlet mouth of weighing, first push away tank tower, the packing crates on automatic Weighing frame is pushed into first push away that second on tank tower push away that tank tower and first pushes away that tank tower coordinates the 3rd push away tank tower and push away the roller conveyer belt of weighing that tank tower coordinates with the 3rd；First push away tank tower by packing box transmission to and the 3rd pushes away tank tower cooperation position, then the 3rd push away tank tower and packing crates be pushed on roller conveyer belt of weighing and deliver to joint sealing mechanism；Described joint sealing mechanism include connecting roller conveyer belt of weighing joint sealing roller conveyer belt, for the cartoning sealing machine of packing crates joint sealing, for the labeling coder of packing crates labeling stamp, make band pushing means and tape punch；The described head end weighing roller conveyer belt and joint sealing roller conveyer belt is connected, and tape punch is positioned at the end of joint sealing roller conveyer belt；Cartoning sealing machine, labeling coder, beat band pushing means direction of advance X along joint sealing roller conveyer belt to being sequentially distributed, and cartoning sealing machine, labeling coder, beat band pushing means and be positioned at the position matched with joint sealing roller conveyer belt；Described beat band pushing means be included in the range of 0～90 ° swing beat band catch bar, along joint sealing roller conveyer belt extension beating band guide rail and beating band driving means；Play the driving of band driving means and play band catch bar along playing band guide rail displacement；Beat the swaying direction direction of advance towards described joint sealing roller conveyer belt of band catch bar.

Further, described packaging production line also includes the automatic stacking mechanism being connected with described joint sealing mechanism；Automatic stacking mechanism includes the first roller conveyer belt, the second roller conveyer belt, pallet supply and stacking machine hands；Head end and the described tape punch of the first roller conveyer belt are connected, and stacking machine hands is positioned at the end of the first roller conveyer belt；Pallet supply is positioned at the head end of the second roller conveyer belt；Described packing crates is delivered on the first roller conveyer belt and along with the first roller conveyer belt advances from tape punch, and pallet is placed on the second roller conveyer belt and along with the second roller conveyer belt advances by pallet supply；Stacking machine hands, by the packing crates on the first roller conveyer belt, is placed on the pallet on the second roller conveyer belt, completes pile.

Further, also include controlling device, described in roll ball production line, described polishing grinding production line, described cleaning product line and described packaging production line and connect control device respectively.

Compared with prior art, beneficial effects of the present invention:

1, the present invention uses above structure, collection roll ball, polish, clean, be packaged as one, production line full process automatization produce, control device (such as computer) control, production efficiency is high, yield is big, stability is high, continuous 24 hour/day work fault-free.Rolling ball production line uses bidirectional feeder to realize volume phosphor-copper round bar coiled strip bidirectional feeding to two ball rolling machines, it is not necessary to artificial feeding, production efficiency doubles.

2, polishing grinding production line realizes automatization's feeding, cleaning and blanking, it is achieved automated production.The inner core of aggregate bin uses stainless steel structure, attractive and durable；Use weight sensor to connect to control device and realize automatically controlling, polishing time and weight-adjustable, add water, add abluent, brightener is accurately controlled.

3, in cleaning product line, copper ball is after high-pressure spraying room is cleaned, dry tack free is made through blower fan water-blowing device and drying oven, again by air-cooler rear surface temperature near room temperature, enter next step packing process, whole production line is connected by plane conveyor structure, and flow process is smooth and easy, coordinates rationally and efficiency is high；Plane conveyor structure head end is by cleaning elevating conveyor feeding simultaneously, and tail end is by pallet conveyer blanking, it is not necessary to artificial loading and unloading, labor intensity is little.

4, in packaging production line, after copper ball cleaning product line cleaning, drying, it is packaged into case through Weighing mechanism, is encapsulating through joint sealing mechanism, be then passed through automatic stacking mechanism pile；Automated production completely, labor intensity is little, and efficiency is high.

5, present invention additionally comprises control device, it is achieved accurately control the operation of whole production line.Inner setting program controlling device (such as computer), the most on-demand call, on-demand production, fault-free, precision is high.Motor in the present invention can use home brands, with low cost.Complete machine is selected materials superior, and vitals is high-quality imported with original packaging famous brand name, to guarantee that overall mass is remarkable, and stable performance.Controlling device can use Omron PLC, Haitai gram touch screen, Delta servo, France's Schneider Electric Devices etc. to automatically control, and all round process is without manual operation, and output and quality all can be ensured.All of control all can be sent to computer by sensor, sets program in computer, the most on-demand calls, on-demand production, it is achieved whole-course automation controls.

Accompanying drawing explanation

For the technical scheme being illustrated more clearly that in the embodiment of the present invention, in describing embodiment below, the required accompanying drawing used is briefly described, apparently, accompanying drawing in describing below is only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the schematic diagram of phosphorous copper balls production line embodiment of the present invention；

Fig. 2 is the schematic diagram rolling ball production line in embodiment illustrated in fig. 1, and in figure, dotted arrow represents copper bar direction of advance；

Fig. 3 is the schematic perspective view of straightener in Fig. 2；

Fig. 4 is cutting machine and the schematic perspective view of traction machine in Fig. 2；

Fig. 5 is the schematic perspective view of bidirectional feeder in Fig. 2；

Fig. 6 is the schematic perspective view of blanking rack in Fig. 5；

Fig. 7 is the schematic perspective view of conveyer frames in Fig. 5；

Fig. 8 is the schematic perspective view of folding mould in Fig. 5；

Fig. 9 is the schematic perspective view of ball rolling machine in Fig. 2；

Figure 10 is the schematic perspective view polishing grinding production line in Fig. 1；

Figure 11 is the schematic perspective view of cleaning product line in Fig. 1；

Figure 12 is the Weighing mechanism front schematic perspective view of Fig. 1 intermediate package production line；

Figure 13 is the back side schematic perspective view of Figure 12；

Figure 14 is the joint sealing mechanism schematic perspective view of Fig. 1 intermediate package production line；

Figure 15 is the automatic stacking mechanism schematic perspective view of Fig. 1 intermediate package production line；

In figure, 1-discharge plate；2-straightener；21-aligns frame；22-longitudinal direction straightening mechanism；221-longitudinally regulation axle；23-transverse straightener structure；231-lateral adjustments axle；24-aligns haulage gear；3-cutting machine；31-cuts off guide pipe；32-amputation knife；33-cutting machine drives assembling device；4-traction machine；41-traction teeth wheels；42-traction machine motor；5-bidirectional feeder；51-blanking rack；511-blanking framework；The head end of 5111-blanking framework；The end of 5112-blanking framework；512-retainer plate；513-blanking cylinder；514-travel switch；52-conveyer frames；521-conveyer frames；522-conveyer chain wheel construction；5221-conveyer chain；5222-transmits motor；5223-spacing block；523-sensor block；53-folding mould；531-Mould opening and closing machine frame；532-copper rod guide；5321-copper rod guide head end；5322-copper rod guide end；533-pushing structure；534-material baffle structure；5341-striker plate；5342-backgauge cylinder；6-ball rolling machine；61-ball rolling machine frame；62-rolls ball motor；63-rolls ball reductor；64-universal drive shaft；65-pricks ball machine body；651-rolls rail；652-rolls ball cutterhead；653-cooling water pipe；654-copper ball block plate；655-the first flange；656-the second flange；

7-polishes grinding production line；71-polishes elevating conveyor；711-promotes carriage；712-promotes conveyer belt；713-lifting motor；The anti-funnel of 714-；72-aggregate bin；The discharging opening of 721-aggregate bin；The open top of 722-aggregate bin；723-the first cylinder valve；The inner core of 724-aggregate bin；73-the first guiding gutter；74-grinder；The discharging opening of 741-grinder；The open top of 742-grinder；743-the second cylinder valve；75-blow tank；751-trapezium structure；76-membrane pump；77-automatic spray pipe；

8-cleaning product line: 81-cleans elevating conveyor；82-high-pressure spraying room；83-blower fan water-blowing device；831-Middle pressure draught fan；84-drying oven；85-air-cooler；86-pallet conveyer；87-plane conveyor structure；871-the first crawler belt；872-the second crawler belt；873-the second guiding gutter；

9-Weighing mechanism；91-weighs elevating conveyor；911-the 3rd guiding gutter；92-hopper；93-weighs inlet mouth；94-automatic Weighing frame；941-weighs panel；95-first pushes away tank tower；951-the first guide rail；9511-the first guide rail head end；9512-the first guide rail end；952-the first panel；96-second pushes away tank tower；97-the 3rd pushes away tank tower；98-weighs roller conveyer belt；

10-joint sealing mechanism；101-joint sealing roller conveyer belt；102-cartoning sealing machine；103-labeling coder；104-beats band pushing means；1041-plays band catch bar；1042-beats band guide rail；1043-beats band driving means；105-tape punch；The table top of 1051-tape punch；

11-automatic stacking mechanism；111-the first roller conveyer belt；112-the second roller conveyer belt；113-pallet supply；114-stacking machine hands；12-packing crates；13-pallet.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments.

Phosphorous copper balls production line as shown in Figure 1, including roll ball production line, connect this roll ball production line polishing grinding production line, connect the cleaning product line of this polishing grinding production line and connect the packaging production line of this cleaning product line.

Roll ball production line

Ball production line is rolled, the ball rolling machine 6 that the bidirectional feeder 5 that the traction machine 4 that the cutting machine 3 that the straightener 2 coordinated including the discharge plate 1 for feeding coordinates with straightener 2 coordinates with cutting machine 3 coordinates with traction machine 4 coordinates with feeder 5 with discharge plate 1 as shown in Fig. 2 to Fig. 9.The raw materials for production of copper ball are the phosphor-copper round bar coiled strip of diameter 25mm.The production process rolling ball production line is as follows: discharge plate (placing phosphor-copper round bar coiled strip) → straightener → cutting machine (for phosphor-copper round bar coiled strip is cut into 3M) → traction machine → feeder → bidirectional feeder → folding mould → ball rolling machine (rolling balling-up).

Discharge plate 1 includes the disk of diameter 1800mm and drives the discharge plate motor (not shown) of disk rotation.Phosphor-copper round bar coiled strip is placed on disk, and phosphor-copper round bar coiled strip feeding under the effect of traction machine 4.

Straightener 2 is for aligning into copper bar by phosphor-copper round bar coiled strip.As it is shown on figure 3, the transverse straightener structure 23 that straightener 2 includes aligning frame 21, longitudinal straightening mechanism 22 coordinates with longitudinal straightening mechanism and for drawing the aligning haulage gear 24 of copper bar.Longitudinal straightening mechanism 22, transverse straightener structure 23 and aligning haulage gear 24 are located in aligning frame 21, and longitudinal straightening mechanism 22 is for aligning copper bar in a longitudinal direction, and transverse straightener structure 23 is for aligning copper bar in a lateral direction.Longitudinal straightening mechanism 22 is made up of 5 longitudinal direction regulation axles 221 cooperated, and transverse straightener structure 23 is constituted by 5 lateral adjustments axles 231 cooperated.5 longitudinally regulate the copper bar advance trajectory formed between axle 221, and the copper bar advance trajectory formed between 5 lateral adjustments axles, on same straight line L.Under the traction of aligning haulage gear 24, phosphor-copper round bar coiled strip through 5 longitudinally regulate axles 221 and and 5 lateral adjustments axles 231 between, it is achieved be straightened into copper bar.

As shown in Figure 4, cutting machine 3 and traction machine 4 are located at same cut-out in traction frame.Cutting machine 3 includes cutting off guide pipe 31 and cuts off the amputation knife 32 that coordinate of guide pipe 31 and drive amputation knife 32 to cut off the cutting machine driving assembling device 33 of copper bar.Traction machine 4 includes for drawing the traction teeth wheels 41 of copper bar and driving the traction machine motor 42 of traction teeth wheels 41.Through the copper bar that straightener 2 is formed, under the draw of traction machine 4, copper bar is cut off with 30 speed per minute by the speed with 10 ms/min through cutting machine 3, cutting machine 3.

As shown in Fig. 5 to Fig. 8, bidirectional feeder 5 includes blanking rack 51, conveyer frames 52 and two the folding moulds 53 coordinated with traction machine 4, two folding moulds 53 lay respectively at the lower position of blanking rack 51 both sides, and blanking rack 51 is parallel with folding mould 53 and is positioned on conveyer frames 52.Blanking rack 51 connects folding mould 53 by conveyer frames 52, and folding mould 53 coordinates with ball rolling machine 6.Through the copper bar that cutting machine 3 cuts off, delivering on the retainer plate of blanking rack 51 under the traction of traction machine 4, then the copper bar on blanking rack 51 is fallen on conveyer frames 52 and is delivered in folding mould 53, after deliver to ball rolling machine 6 through folding mould 53.

Retainer plate 512, the blanking cylinder 513 of driving retainer plate 512 folding and the travel switch 514 that blanking rack 51 includes blanking framework 511, is located on blanking framework 511.Travel switch 514 and blanking cylinder 513 connect.Head end 5111 and the traction machine 4 of blanking framework are connected, and end 5112 position of blanking framework is located at by travel switch 514.

Conveyer frames 52 includes conveyor frame 521, and the conveyer frames 521 of blanking framework both sides is respectively equipped with three conveyer chain wheel constructions 522 being parallel to each other, and conveyer chain wheel construction 522 includes conveyer chain 5221 and the transmission motor 5222 driving conveyer chain 5221 to advance.Conveyer chain wheel construction 522 is for being sent to the copper bar fallen on conveyer frames 521 in the folding mould 53 of conveyer frames both sides.Conveyer chain 5221 is provided with the spacing block 5223 of projection, is used for mutually isolated for copper bar adjacent on conveyer chain 5221.Conveyer chain 5221 is provided with the sensor block 523 for sensing copper bar in the one end being connected with folding mould 53.

Folding mould 53 includes the Mould opening and closing machine frame 531 being located at conveyor frame side, the copper rod guide 532 being located on Mould opening and closing machine frame 531, the pushing structure 533 being located at copper rod guide head end 5321 and be located at the material baffle structure 534 of copper rod guide end 5322.Pushing structure 533 includes scraping wings, drives scraping wings along the pusher cylinder of copper rod guide 532 displacement.Material baffle structure 534 includes striker plate 5341 and connects the backgauge cylinder 5342 of striker plate 5341, and backgauge cylinder 5342 drives striker plate 5341 lifting to realize copper rod guide end 5322 folding.

Further illustrate as to bidirectional feeder, its specific works flow process: S1, the copper bar cut off through cutting machine 3 are first described, deliver under the traction of traction machine 4 on retainer plate 512；S2, when travel switch 514 senses that copper bar, blanking cylinder 513 drive retainer plate 512 to open, and copper bar is fallen on the conveyer chain wheel construction 522 of conveyer frames 52；S3, transmission motor 5222 drive conveyer chain 5221 to advance, and drive copper bar to advance to fall in folding mould 53；S4, backgauge cylinder 5342 drive striker plate 5341 to rise and realize copper rod guide end 5322 and open, and pusher air cylinder driven scraping wings advances, and scraping wings is during just ball rolling machine 6 delivered to by copper bar.

Ball rolling machine 6 includes ball rolling machine frame 61, is located at rolling ball motor 62, connecting and roll rolling ball reductor 63, universal drive shaft 64, being located at the bundle ball machine body 65 of the ball rolling machine frame other end of ball motor 62 of ball rolling machine frame one end as shown in Figure 9.Prick ball machine body 65 include rolling rail 651, for roll ball roll ball cutterhead 652, for carrying the cooling water pipe 653 of Cooling Water and for connecing the copper ball block plate 654 of copper ball, cooling water pipe 653 is positioned at and rolls the position that ball cutterhead 652 coordinates.Roll ball reductor 63 and roll rail 651 by universal drive shaft 64 connection, roll ball motor 62 by rolling ball reductor 63, universal drive shaft 64 drives and rolls rail 651 and rotate, rolling ball cutterhead 652 and roll rail 651 and coordinate and realize rolling copper bar ball, cooling water pipe 653 carries Cooling Water and lowers the temperature for rolling ball process；The copper ball shut out is fallen on copper ball block plate 654, and copper ball block plate 654 connects the elevating conveyor of polishing grinding production line, and copper ball enters polishing grinding production line.The present embodiment rolls ball motor preferred broadband threephase asynchronous.Universal drive shaft one end is connected by the first flange 655 rolls ball reductor 63, and the universal drive shaft other end rolls rail 651 by the second flange 656 connection.

Further illustrate as to the present embodiment, the present embodiment also includes the control device (not shown) being provided with touch screen, discharge plate, straightener, cutting machine, traction machine, bidirectional feeder, ball rolling machine connect control device respectively, all of control all is sent to control device by sensor, program is set in computer, the most on-demand call, on-demand production.

Polishing grinding production line

As shown in Figure 10, polishing grinding production line 7 includes the blow tank 75 that the grinder 74 that the second guiding gutter 873 that the polishing elevating conveyor 71 connecting copper ball block plate 654 coordinates with the discharging opening 721 of aggregate bin coordinates with the second guiding gutter 873 coordinates with the discharging opening 741 of grinder and the membrane pump 76 being connected grinder 74 with the aggregate bin 72 of polishing elevating conveyor 71 cooperation；Membrane pump 76 controls dosage and the dosage of brightener of the abluent of interpolation in grinder 74.

Polishing elevating conveyor 71 includes that tilt upward promotes carriage 711, along promoting the lifting conveyer belt 712 of carriage 711 extension, driving lifting motor 713, the anti-funnel 714 promoting conveyer belt and running.The bottom promoting carriage 711 is provided with anti-funnel 714, prevents copper ball from falling lifting conveyer belt 712；The open top 722 on the top and aggregate bin that promote carriage 711 matches.Lifting motor 713 drives lifting conveyer belt 712 to run, it is achieved copper ball transports from the bottom promoting carriage 711 top promoting carriage 711, and copper ball is sent into aggregate bin 72 from the open top 722 of aggregate bin.

The discharging opening 721 being respectively provided on two sides with aggregate bin bottom aggregate bin and the first cylinder valve 723, first cylinder valve 723 includes the first cylinder and the first valve, the discharging opening 721 that first cylinder drives the first valve decline to realize aggregate bin is closed, or the discharging opening 721 that the first cylinder drives the first valve rising to realize aggregate bin is opened.The inner core 724 of aggregate bin is made of stainless steel, and inner core 724 thickness of aggregate bin is more than or equal to 2mm.

Second guiding gutter 873 is made up of 304 rustless steels；The discharging opening 721 of guiding gutter one end and aggregate bin matches, and the open top 742 of the guiding gutter other end and grinder matches.Copper ball in aggregate bin 72 falls into the second guiding gutter 873 from the discharging opening 721 of aggregate bin, is then passed through the second guiding gutter 873 and enters grinder 74.

The side of grinder 74 is provided with grinder discharging opening the 41, second cylinder valve 743.Second cylinder valve 743 includes the second cylinder and the second valve, and the second cylinder drives the second valve to decline and realizes grinder discharging opening 41 and close, or the second cylinder drives the second valve to rise to realize grinder discharging opening 41 and open.Polishing grinding production line 7 includes two grinders 74, and the discharging opening 721 of an aggregate bin joins a grinder 74, and the discharging opening 741 of two grinders is staggered relatively, blow tank 75 between two grinders 74 and and the discharging opening 741 of grinder match.Membrane pump 76 connects grinder 74, it is achieved add abluent and brightener for grinder 74.Grinder 74 requirement washes away the impurity such as the greasy dirt on copper ball surface, and grinder 74 working method is that the centrifugal vibrations of power frequency are ground, rear surface light impulse-free robustness after copper ball and copper angle grinding and polishing.The centrifugal power frequency vibrations polishing of grinder 74 employing strength, had both met high quality polished standard and had been suitable for working continuously in high volume, without greasy dirt after grinding, highly polished.

The structure that blow tank 75 is tilted down, the discharging opening 741 that the top of blow tank is positioned at grinder coordinates, the trapezoidal structure in bottom 751 of blow tank, it is simple to the copper ball on blow tank 75 rolls into cleaning product line.

As to further improvement of this embodiment, blow tank 75 is also arranged above automatic spray pipe 77, for washing out the burr waste material of copper ball surface adhering on hopper 75, remaining abluent and brightener.Automatic spray pipe 77 is in multiple rows of structure, and often row's shower extends along the radial direction Y-direction of blow tank.

In polishing grinding production line 7, the inner core 724 of aggregate bin uses stainless steel structure, attractive and durable；Using weight sensor to connect control device to realize automatically controlling, polishing time and weight-adjustable, the abluent brightener that adds water is accurately controlled, and driving motor uses home brands.Complete machine is selected materials superior, and vitals is high-quality imported with original packaging famous brand name, to guarantee that overall mass is remarkable, and stable performance, continuous 24 hour/day work fault-free.Controlling device can use Omron PLC to automatically control, and all round process is without manual operation, and output and quality all can be ensured.

Cleaning product line

As shown in figure 11, cleaning product line 8, pallet conveyer 86 that the air-cooler 85 that the drying oven 84 coordinated with blower fan water-blowing device 83 including the blower fan water-blowing device 83 cleaning elevating conveyor 81 with cleaning the high-pressure spraying room 82 that coordinates of elevating conveyor 81 and coordinate with high-pressure spraying room 82 connecting blow tank 75 coordinates with drying oven 84 coordinates with air-cooler 85 and plane conveying mechanism 87.Clean elevating conveyor 81, high-pressure spraying room 82, blower fan water-blowing device 83, drying oven 84, air-cooler 85 and pallet conveyer 86 to be connected by plane conveyor structure 87.

Clean elevating conveyor 81, high-pressure spraying room 82, blower fan water-blowing device 83, drying oven 84, air-cooler 85, pallet conveyer 86 and plane conveying mechanism 87 distribution and connect control device, it is achieved accurately control the operation of whole production line.

Plane conveyor structure 87 includes the first crawler belt the 871, second crawler belt 872 and the first guiding gutter 73 second guiding gutter 873.First crawler belt 871 and the second crawler belt 872 horizontal positioned and staggered floor are arranged, the first crawler belt 871 is positioned at the second crawler belt 872 times, and the first guiding gutter 73 second guiding gutter 873 connects the first crawler belt 871 and the second crawler belt 872.First crawler belt 871 connects high-pressure spraying room 82 and blower fan water-blowing device 83, and the second crawler belt 872 connects drying oven 84 and air-cooler 85.First carries out tape leader coordinates with cleaning elevating conveyor 81, and the afterbody of the first crawler belt connects the second shoe tape leader by the first guiding gutter 73 second guiding gutter 873, and the afterbody of the second crawler belt connects pallet conveyer 86.

The structure of cleaning elevating conveyor 81 is similar to polishing elevating conveyor 71, promotes carriage, along promoting the lifting conveyer belt of carriage extension, driving the motor that conveyer belt runs, the anti-funnel being located on conveyer belt including tilt upward.Motor drives lifting conveyer belt to run up, it is achieved copper ball transports the top promoting carriage from the bottom promoting carriage.The stem of the first crawler belt is positioned at below the top of carriage.Anti-funnel, along with conveyer belt displacement, prevents copper ball from falling and promotes conveyer belt and copper ball is delivered to the top of carriage.Copper ball falls on the first crawler belt 871 after being delivered to the top 111 of carriage, and monolayer is uniformly distributed on plane conveyor structure.

Copper ball is delivered in high-pressure spraying room 82 by the first crawler belt 871.Copper ball is diameter of phi 25mm～the copper ball of Φ 50mm.The cleansing power of high-pressure spraying room 82 is 2.5 ton hour, it is desirable to the impurity such as greasy dirt washing away copper ball surface.High-pressure spraying room 82 is crawler type spray chamber.

Blower fan water-blowing device 83 has at least 2 Middle pressure draught fans 831 to constitute, and Middle pressure draught fan 831 is positioned at above the first crawler belt 871, and at least 2 Middle pressure draught fans 831 are distributed along the axis direction X-axis of the first crawler belt 871.Air-cooler 85 is centrifugal Middle pressure draught fan.Copper ball, after high-pressure spraying room 82 is cleaned, makes dry tack free through blower fan water-blowing device 83 and drying oven 84, then by air-cooler 85 rear surface temperature near room temperature, enters next step packaging production line.Whole production line flow process is smooth and easy, coordinates rationally and efficiency is high.

Packaging production line

Packaging production line as shown in Figure 12 to Figure 14, the automatic stacking mechanism 11 that the joint sealing mechanism 10 being connected including Weighing mechanism 9 and Weighing mechanism and joint sealing mechanism 10 are connected.

Weighing mechanism 9 shown in Figure 12 and Figure 13 includes elevating conveyor 91 of weighing, the hopper 92 coordinated with the top of elevating conveyor 91 of weighing, it is located at two inlet mouths 93 of weighing of hopper 92 bottom, it is positioned at the automatic Weighing frame 94 below inlet mouth 93 of weighing, between two automatic Weighing framves 94 first pushes away tank tower 95, packing crates 12 on automatic Weighing frame 94 is pushed into first push away on tank tower 95 second push away tank tower 96, push away with first that tank tower 16 coordinates the 3rd pushes away tank tower 97 and pushes away the roller conveyer belt 98 of weighing that tank tower 97 coordinates with the 3rd.First pushes away tank tower 95 is delivered to packing crates 12 push away tank tower 97 cooperation position with the 3rd, then the 3rd pushes away tank tower 97 and is pushed on roller conveyer belt 98 of weighing by packing crates 12 and delivers to joint sealing mechanism 10.

The structure of elevating conveyor 91 of weighing is similar with polishing elevating conveyor 71, promotes carriage, along promoting conveyer belt that carriage extends, driving the motor of conveyer belt operation, the anti-funnel be located on conveyer belt including tilt upward.Motor drives conveyer belt 112 to run up, it is achieved copper ball transports the top of carriage from the bottom of carriage.The top of carriage is additionally provided with the 3rd guiding gutter 911 connected with hopper 92, it is achieved be guided to hopper 92 from elevating conveyor 91 of weighing by copper ball.

Inlet mouth 93 of weighing is provided with the gate (not shown) of air cylinder driven, and the inlet mouth that controls to weigh is opened or closed.Automatic Weighing frame 94 includes 941 and up-down drive device, and up-down drive device connects bottom panel of weighing and drives 941 to rise or fall.First pushes away the first panel 952 and the first driving means (not shown) that tank tower 95 includes that the first guide rail 951 coordinates with the first guide rail 951, and the first driving means drives the first panel 952 along the first guide rail 951 displacement.Second pushes away tank tower 96 and the 3rd pushes away tank tower 97 by cylinder and push rod composition.

Further illustrate as to weight box, now illustrate that copper ball is transported in hopper 92 by its workflow: S1, elevating conveyor 91 of weighing；S2, being placed on 941 by packing crates, up-down drive device drives 941 risings, and air cylinder driven gate is opened, and copper ball is rolled in packing crates by inlet mouth 93 of weighing；Then panel 941 of weighing is driven to decline and packing crates is weighed, until packing crates reaches predicted weight (such as 25KG)；The second air cylinder driven push rod elongation pushing away tank tower 96 that S3 coordinates with panel 941 of weighing, and packing crates is pushed into from 941 first pushes away on the first panel 952 of tank tower；S4, the first the first panel 151 pushing away tank tower 95 are positioned at the first guide rail head end 9511, and after packing crates is positioned on the first panel 952, the first panel 952 is delivered to the first guide rail end 9512 by the first driving means；S5, the 3rd air cylinder driven push rod elongation pushing away tank tower 7, and the packing crates 12 on the first panel 952 is pushed into weighs on roller conveyer belt 98, then the first panel 952 resets, and packing crates 12 is delivered to joint sealing mechanism 10 by roller conveyer belt 98 of weighing.

Joint sealing mechanism shown in Figure 14 10 include joint sealing roller conveyer belt 101, for the cartoning sealing machine 102 of packing crates 12 joint sealing, for the labeling coder 103 of packing crates 12 labeling stamp, make band pushing means 104 and tape punch 105, the head end of roller conveyer belt 98 and joint sealing roller conveyer belt of weighing is connected, and tape punch 105 is positioned at the end of joint sealing roller conveyer belt.Cartoning sealing machine 102, labeling coder 103, beat the band pushing means 104 direction of advance X along joint sealing roller conveyer belt to being sequentially distributed, and cartoning sealing machine 102, labeling coder 103, beat band pushing means 104 and be positioned at the position matched with joint sealing roller conveyer belt 101.Beat band pushing means 104 be included in swing in the range of 0～90 ° play band catch bar 1041, extend beating band guide rail 1042 and beating band driving means 1043 of (i.e. along X to extend) along joint sealing roller conveyer belt 101.Play band driving means 1043 driving and play band catch bar 1041 along playing band guide rail 1042 displacement.Beat the swaying direction direction of advance towards joint sealing roller conveyer belt of band catch bar 1041.

Further illustrating as to joint sealing mechanism, now illustrate that its workflow: S1, packing crates 12 are delivered on joint sealing roller conveyer belt 101 by roller conveyer belt 98 of weighing, packing crates 12 sequentially passes through cartoning sealing machine 102 and labeling coder 103 realizes joint sealing, labeling stamp；S2, joint sealing roller conveyer belt 101 drive packing crates to advance to play band catch bar 1041, play band catch bar 1041 along with the advance of packing crates and to swing, playing band catch bar 1041 to reset through later at packing crates, now packing crates is moved to the end 212 of joint sealing roller conveyer belt；S3, beat band driving means 1043 and drive and play band catch bar 1041 and advance along beating band guide rail 1042, and packing crates 12 is pushed on the table top 1051 of tape punch；S4, tape punch 105 complete joint sealing to 12 dozens of bands of packing crates.

Automatic stacking mechanism shown in Figure 15 11 includes first roller conveyer belt the 111, second roller conveyer belt 112, pallet supply 113 and stacking machine hands 114.Head end and the tape punch 105 of the first roller conveyer belt are connected, and stacking machine hands 114 is positioned at the end of the first roller conveyer belt.Pallet supply 113 is positioned at the head end of the second roller conveyer belt.Being delivered to from tape punch 105 on the first roller conveyer belt 111 and along with the first roller conveyer belt 111 advances as automatic stacking mechanism further illustrates its workflow of existing explanation: S1, packing crates 12, pallet 13 is placed on the second roller conveyer belt 112 and along with the second roller conveyer belt 112 advances by pallet supply 113；S2, stacking machine hands 114, by the packing crates 12 on the first roller conveyer belt 111, are placed on the pallet 13 on the second roller conveyer belt 112, complete pile.Weighing mechanism 9, joint sealing mechanism 10 and automatic stacking mechanism 11 connect control device respectively, it is achieved accurately control the operation of whole production line.

Other structure of the present embodiment phosphorous copper balls production line sees prior art.

The invention is not limited in above-mentioned embodiment, if various changes or modification to the present invention are without departing from the spirit and scope of the present invention, if within the scope of these change claim and the equivalent technologies belonging to the present invention with modification, then the present invention is also intended to comprise these change and modification.

Claims (10)

1. phosphorous copper balls production line, it is characterised in that: include rolling ball production line, connecting this throwing rolling ball production line Light grinding production line, connect the cleaning product line of this polishing grinding production line and connect the bag of this cleaning product line Assembling production lines；Roll ball production line and include that the discharge plate placing phosphor-copper round bar coiled strip coordinates with this discharge plate and uses Coordinate with this straightener in phosphor-copper round bar coiled strip being aligned into the straightener of copper bar and be used for cutting off cutting of copper bar Off line coordinates with this cutting machine and for drawing the bidirectional feeding that the traction machine of copper bar coordinates with this traction machine Machine and the ball rolling machine coordinated with this feeder.

2. phosphorous copper balls production line as claimed in claim 1, it is characterised in that: described straightener includes straightener Transverse straightener structure that frame, longitudinal straightening mechanism coordinate with this longitudinal direction straightening mechanism and be used for drawing described copper The aligning haulage gear of bar；Longitudinal straightening mechanism, transverse straightener structure and aligning haulage gear are located at straightener On frame, longitudinal straightening mechanism is for aligning copper bar in a longitudinal direction, and transverse straightener structure is in laterally side Upwards aligning copper bar.

3. phosphorous copper balls production line as claimed in claim 2, it is characterised in that: described bidirectional feeder includes and institute Stating blanking rack, conveyer frames and two folding moulds that traction machine coordinates, two folding moulds lay respectively at blanking rack both sides Lower position, blanking rack is parallel with folding mould and is positioned on conveyer frames；Blanking rack is connected by conveyer frames to be opened Matched moulds, folding mould coordinates with described ball rolling machine；Through the copper bar that described cutting machine cuts off, in the traction of traction machine Under deliver on the retainer plate of blanking rack, then the copper bar on blanking rack is fallen on conveyer frames and delivers in folding mould, Ball rolling machine is delivered to through folding mould after.

4. as claimed in claim 3 phosphorous copper balls production line, it is characterised in that: described blanking rack include blanking framework, It is located at the retainer plate on blanking framework, the blanking cylinder driving retainer plate folding and travel switch；Travel switch and Blanking cylinder connects；Head end and the described traction machine of blanking framework are connected, and blanking framework is located at by travel switch Terminal position at；Described conveyer frames includes conveyor frame, and the conveyer frames of blanking framework both sides is respectively equipped with biography Chain sprocket structure, conveyer chain wheel construction is sent to include conveyer chain and the transmission motor driving conveyer chain to advance；Transmit sprocket wheel Structure is for being sent to the copper bar fallen on conveyer frames in the described folding mould of conveyer frames both sides；Folding mould includes Mould opening and closing machine frame, the copper rod guide being located on Mould opening and closing machine frame of being located at described conveyor frame side, it is located at copper bar The pushing structure of guide rail head end and the material baffle structure being located at copper rod guide end；Pushing structure includes scraping wings, drives Dynamic scraping wings is along the pusher cylinder of copper rod guide displacement；Material baffle structure includes striker plate and connects the gear of striker plate Material cylinder, the lifting of backgauge air cylinder driven striker plate realizes copper rod guide end folding.

5. phosphorous copper balls production line as described in Claims 1-4 any one, it is characterised in that: described ball rolling machine Including ball rolling machine frame, be located at ball rolling machine frame one end roll ball motor, connect roll ball motor roll ball reductor, ten thousand To power transmission shaft, the bundle ball machine body of being located at the ball rolling machine frame other end；Prick ball machine body to include rolling rail, for rolling ball Roll ball cutterhead, for carrying the cooling water pipe of Cooling Water and for connecing the copper ball block plate of copper ball, cooling water pipe position In with roll ball cutterhead coordinate position；Roll ball reductor and roll rail by universal drive shaft connection, roll ball motor and pass through Roll ball reductor, universal drive shaft drives and rolls rail rotation, and cooperation realizes rolling described copper bar with rolling rail to roll ball cutterhead Becoming copper ball, cooling water pipe carries Cooling Water for rolling the cooling of ball process；The copper ball shut out is fallen on copper ball block plate, copper Ball stopper dish connects the polishing elevating conveyor of described polishing grinding production line, and copper ball enters polishing grinding production line.

6. phosphorous copper balls production line as claimed in claim 5, it is characterised in that: described polishing grinding production line also wraps Include the first guiding gutter that the aggregate bin coordinated with described polishing elevating conveyor coordinates with the discharging opening of this aggregate bin, Blow tank that the discharging opening of the grinder and this grinder that coordinate with this first guiding gutter coordinates and be connected grinder Membrane pump；Described cleaning product line connects blow tank；Membrane pump realizes adding abluent and light in grinder Bright dose；The discharging opening being respectively provided on two sides with aggregate bin bottom aggregate bin and the first cylinder valve, the first cylinder valve Door includes the first cylinder and the first valve；First cylinder drives the first valve to decline the discharging opening envelope realizing aggregate bin Close, or the discharging opening that the first cylinder drives the first valve rising to realize aggregate bin is opened；First guiding gutter one end Matching with the discharging opening of described aggregate bin, the open top of the first guiding gutter other end and grinder matches； Copper ball in aggregate bin falls into guiding gutter from the discharging opening of aggregate bin, is then passed through guiding gutter and enters grinder.

7. phosphorous copper balls production line as claimed in claim 6, it is characterised in that: described cleaning product line includes even Connect described blow tank clean the high-pressure spraying room that coordinates with this cleaning elevating conveyor of elevating conveyor and The drying oven that coordinates with this blower fan water-blowing device of blower fan water-blowing device that this high-pressure spraying room coordinates and this baking The pallet conveyer that coordinates with this air-cooler of air-cooler that dry stove coordinates and plane conveying mechanism；Promote conveying Machine, high-pressure spraying room, blower fan water-blowing device, drying oven, air-cooler and pallet conveyer are carried by plane Mechanisms in series；Described packaging production line connects pallet conveyer.

8. phosphorous copper balls production line as claimed in claim 7, it is characterised in that: described packaging production line includes claiming Heavy-duty machine structure and the joint sealing mechanism being connected with this Weighing mechanism；Weighing mechanism includes connecting the conveying of described flat board Hopper that the elevating conveyor of weighing of machine coordinates with the top of this elevating conveyor, it is located at this hopper bottom Weigh inlet mouth, be positioned at the automatic Weighing frame below this inlet mouth of weighing, first push away tank tower, by automatic Weighing Packing crates on frame be pushed into first push away that second on tank tower push away that tank tower and first pushes away that tank tower coordinates the 3rd push away case Frame and push away the roller conveyer belt of weighing that tank tower coordinates with the 3rd；First pushes away tank tower by packing box transmission to the 3rd Push away tank tower cooperation position, then the 3rd push away tank tower and packing crates be pushed on roller conveyer belt of weighing and deliver to joint sealing Mechanism；Described joint sealing mechanism includes connecting the joint sealing roller conveyer belt of roller conveyer belt of weighing, for packaging The cartoning sealing machine of case joint sealing, for the labeling coder of packing crates labeling stamp, beat band pushing means and play band Machine；The described head end weighing roller conveyer belt and joint sealing roller conveyer belt is connected, and tape punch is positioned at joint sealing The end of roller conveyer belt；Cartoning sealing machine, labeling coder, beat band pushing means along joint sealing roller conveyer belt Direction of advance X to being sequentially distributed, and cartoning sealing machine, labeling coder, beat band pushing means and be positioned at and joint sealing The position that roller conveyer belt matches；Described beat band pushing means be included in the range of 0～90 ° swing band of beating push away Lever, beating band guide rail and beating band driving means along the extension of joint sealing roller conveyer belt；Beat band driving means to drive Move and play band catch bar along playing band guide rail displacement；The swaying direction playing band catch bar is defeated towards described joint sealing roller Send the direction of advance of band.

9. phosphorous copper balls production line as claimed in claim 8, it is characterised in that: described packaging production line also includes The automatic stacking mechanism being connected with described joint sealing mechanism；Automatic stacking mechanism include the first roller conveyer belt, Second roller conveyer belt, pallet supply and stacking machine hands；The head end of the first roller conveyer belt and described beat Band machine is connected, and stacking machine hands is positioned at the end of the first roller conveyer belt；Pallet supply is positioned at second The head end of roller conveyer belt；Described packing crates is delivered on the first roller conveyer belt and along with from tape punch One roller conveyer belt advances, and pallet is placed on the second roller conveyer belt and along with the second rolling by pallet supply Wheel conveyer belt advances；Stacking machine hands, by the packing crates on the first roller conveyer belt, is placed on the second roller defeated Send on the pallet on band, complete pile.

Polish grinding production line the most as claimed in claim 1, it is characterised in that: also include controlling device, Described ball production line, described polishing grinding production line, described cleaning product line and the described packaging production line of rolling divides Lian Jie not control device.