CN110589088A - Lining conveying device for color box dismounting device - Google Patents

Abstract

The invention discloses a lining conveying device for a color box dismounting device, which is fixed on the side surface of the color box dismounting device through a lining fixing support, is used for sucking a lining from a lower color box and putting down the lining after conveying the lining to a lining blanking station of a lining blanking support station, the lining blanking support station is connected with a blanking slide rail on a support platform of the color box to slide and convey the dismounted color box lining, and after an upper color box cover and a lower color box cover of the color box are dismounted by the lining conveying device, the lining positioned in the lower color box is conveyed to the lining conveying device of the lining blanking support station, so that the automation degree and dismounting efficiency of color box dismounting are improved, and the time cost of color box production is reduced.

Description

Lining conveying device for color box dismounting device

Technical Field

The invention relates to the technical field of color box dismounting devices, in particular to a lining conveying device for a color box dismounting device.

Background

The color box is a folding paper box and a micro corrugated paper box which are made of two materials, namely paperboard and micro corrugated board.

At present, after a mobile phone is processed, a mobile phone packaging color box purchased from an outsourcing or produced inside needs to be disassembled, an original lining is removed, and then mobile phone accessories such as a mobile phone charger, an earphone, a specification, a warranty card and the like matched with the mobile phone are placed, so that later-period mobile phone sales are facilitated. On the one hand, however, the action of disassembling the mobile phone box belongs to single repeated work, the working time of workers is long, the work is tedious and tired, the rest time is insufficient, the working pressure is high after long-term work, and the negative emotions such as anxiety and depression of assembly line workers are easily caused.

On the other hand, the mobile phone color box is small in size, special tools and dies are used for disassembly, the positioning is inconvenient, and the outer surface of the color box is easy to damage during disassembly, so that the dies and the tools are rarely used for assisting disassembly.

At present, a plurality of color box machines on the market can only complete color box actions on packing boxes with relatively large sizes, and the packing boxes for packing the color boxes of the mobile phones and the packing boxes with the sizes as large as the color boxes of the mobile phones do not have professional related equipment, so that the installation efficiency of the color boxes is low all day, the generated damage and loss are relatively more, and the production cost of the mobile phones is increased.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the lining conveying device which can convey the lining positioned in the lower color box to the lining blanking supporting station after the upper color box cover and the lower color box cover of the color box are detached, so that the automation degree and the dismounting efficiency of color box dismounting are improved, and the time cost of color box production is reduced.

The technical scheme adopted by the invention is as follows: tear inside lining conveyor for various box device open fixes the side of dismantling various box device through inside lining fixed bolster for with the inside lining from the interior absorption of various box down to transport and put down behind the inside lining unloading station of inside lining unloading support station, the various box inside lining that sliding transport dismantled on the unloading slide rail of inside lining unloading support station connection on the supporting platform of various box, wherein: the liner transport apparatus includes:

the organ suction nozzle is connected to the PLC control device, is used for adsorbing, fastening and releasing the color box lining, and is fixed on the vertical sliding plate;

a vertical slide, which is driven by a lining-lifting cylinder to slide in the vertical direction of the transverse slide,

a transverse sliding rod fixed on the side surface of the color box dismounting device through a lining fixing bracket; as can be seen from the figures, the lining fixing bracket passes through the lining fixing bracket through a plurality of connecting screw assemblies to be fixedly connected with the side surface of the color box dismounting device; -lateral slide

-sliding on the lateral slide bar via a lining slide connection and a lining lateral servo drive;

one end of the lining sliding connecting piece is fixedly connected with the transverse sliding block, and the other end of the lining sliding connecting piece is sleeved on the outer side of the transverse sliding rod to slide.

Furthermore, the transverse sliding block is provided with an organ suction nozzle vertical sliding rail, the vertical sliding plate is connected with the organ suction nozzle to slide on the transverse sliding block, and the stability of the vertical sliding plate and the organ suction nozzle connected to the vertical sliding plate can be better guaranteed.

Further, the square stopper is connected in the inside lining sliding connection spare and the one end outside of horizontal slider, and square draw-in groove is established to the position that horizontal slider corresponds square stopper, square stopper size is greater than the square draw-in groove of horizontal slider and then realizes spacingly, and square stopper is connected with inside lining sliding connection spare detachably, and concrete detachable mode is for setting up the interior/external screw thread of connection at inside lining sliding connection spare's connecting portion, sets up external/screw thread through the connection tip at square stopper, realizes the cooperation and connects, also can directly sample the formula of cuting straightly of interference and connect, and the advantage of this structure is that the installation and dismantlement are convenient.

Furthermore, the lining blanking support station is provided with a lining stroke cylinder connected to the side face of the color box dismounting device, and the lining stroke cylinder is connected with a PLC control device.

Further, still be equipped with stroke stop device on the inboard Y direction of edge of inside lining fixed bolster, stroke stop device includes photoelectric sensing stroke gleitbretter and photoelectric sensing slide, wherein:

the device comprises a photoelectric sensing slide way, a photoelectric sensing switch and a PLC (programmable logic controller) control device, wherein the photoelectric sensing slide way is arranged at a parallel distance from a lining stroke slide rod through a support plate or a support rod structure so as to transmit stroke signal information, and the photoelectric sensing switch is connected with the PLC control device so as to control the corresponding stroke position of a lining blanking support station on a support platform, namely arranged in the Y direction but at a certain distance in the X direction, and the purpose of the arrangement is to ensure that a photoelectric sensing stroke slide sheet has a sliding space;

the photoelectric induction stroke sliding sheet is connected to a lining stroke sliding rod fixed on the rack to slide, and is provided with a pointer part bent towards the photoelectric induction slide way so as to be directly close to the photoelectric induction slide way.

Further, the photoelectric sensing slide way comprises a groove-shaped slide groove and travel switch slide rails arranged in the groove-shaped slide groove, each travel switch is connected to the travel switch slide rail in a sliding and adjusting mode, in a specific implementation mode, a semi-cylindrical sliding adjusting rail can be installed on each travel switch slide rail, and then the travel switches are connected to the semi-cylindrical sliding adjusting rail through sliders to move.

Compared with the prior art, the invention has the beneficial effects that:

this inside lining conveyor's purpose is with the inside lining from the interior absorption of various box down to transport and put down behind the inside lining unloading station to inside lining unloading support station, the various box inside lining that sliding transport dismantled on the unloading slide rail of inside lining unloading support station connection on the supporting platform of various box, its course of operation is:

1. when the upper cover and the lower cover of the color box are opened, the PLC control device controls the organ suction nozzle to descend on the vertical sliding plate, the organ suction nozzle sucks the inner lining in the lower color box, and then the organ suction nozzle ascends on the vertical sliding plate.

And 2, the PLC control device controls the liner transverse servo driving device to drive the transverse sliding block, the organ suction nozzle and the liner adsorbed on the organ suction nozzle, and the liner is conveyed to a liner blanking station and then put down.

And 3, the PLC control device controls the lining transverse servo driving device to drive the transverse sliding block and the organ suction nozzle to return to the lower color box placing position to continue to circulate back and forth or wait for the next conveying cycle.

In conclusion, the lining conveying device for the color box dismounting device can automatically and repeatedly suck the lining from the lower color box in a circulating manner, convey the lining to the lining blanking station of the lining blanking supporting station and then put down, and the lining blanking supporting station is connected to the blanking slide rail on the supporting platform of the color box to slidably convey the dismounted color box lining, so that the automation degree and dismounting efficiency of color box dismounting are improved, the time cost of color box production is reduced, and the lining conveying device has higher economic benefit.

Drawings

FIG. 1 is a three-dimensional structure of a color box removing apparatus;

fig. 2 is a structural diagram of a color cartridge dismounting device 200 and a color cartridge feeding device 300 of the color cartridge dismounting apparatus;

FIG. 3 is a side view of the color box removing apparatus;

fig. 4 is a three-dimensional structural view of an automatic lifting mat 500;

FIG. 5 is an enlarged partial view taken at A of FIG. 4;

fig. 6 is a three-dimensional structural view of the color cartridge dismounting device 200;

FIG. 7 is a three-dimensional block diagram of the back of the disassembled color box apparatus 200;

fig. 8 is a front view of the disassembled color cartridge device 200;

FIG. 9 is a three-dimensional structure of the L-shaped flipping positioning device 210 and the pen-shaped flipping device 260;

fig. 10 is a three-dimensional structural view of the pen-shaped turnover 260;

FIG. 11 is a three-dimensional block diagram of the automatic lifter 280;

FIG. 12 is a front view of the liner transport 290;

FIG. 13 is a rear three-dimensional view of the liner transport apparatus 290;

fig. 14 is a three-dimensional structure view of one direction of the color cartridge flipping unit 260;

fig. 15 is a three-dimensional structural view of another direction of the color cartridge flipping unit 260;

FIG. 16 is a block diagram of the travel stop device 299 on the liner mount 296;

figure 17 is a three dimensional block diagram of the travel limiting device 299;

FIG. 18 is a three-dimensional block diagram of a photoelectric sensing slide 2992;

wherein: 100-a frame;

200-disassembling the color box device,

210-L-shaped overturning positioning device, 211-color box blanking positioning plate, 212-lower color box supporting plate, 213-overturning pressing device, 2131-rotary cylinder and 2132-pressing rod;

220-upper color box supporting device, 221-inward concave groove; 230-feeding color box blanking station;

240-lining blanking support station, 241-blanking slide rail, 242-lining blanking station and 243-material distribution baffle; 250-a blanking platform;

260-pen-shaped turnover device, 261-pen-shaped suction cup device, 262-rotating base, 263-pen-shaped servo rotating cylinder, 264-pen-shaped servo lifting cylinder, 265-turnover support, 266-Y-direction turnover sliding rail, 267-Y-direction turnover sliding block, 268-Y-direction turnover sliding plate and 269-negative pressure meter;

270-a support platform;

280-automatic material pushing rods, 281-a sliding base, 282-material pushing rods, 283-X direction material pushing slide rails and 284-material rod overturning cylinders;

290-lining conveying device, 291-organ suction nozzle, 292-vertical sliding plate, 293-organ suction nozzle vertical sliding rail, 294-square limiting block, 295-lining sliding connecting piece, 296-lining fixing bracket, 297-transverse sliding rod and 298-transverse sliding block;

299-a stroke limiting device, 2991-a photoelectric induction stroke slide sheet, 29911-a pointer part bending to the photoelectric induction slide way; 2992-photoelectric sensing slide way, 29921-groove type slide way and 29922-travel switch slide way; 2993-lining stroke slide bar, 2994-photoelectric sensing switch;

300-color box feeding device, 310-gantry support, 320-X direction slide rail, 330-X direction slide block, 340-Y direction feeding slide rail and 350-feeding sucker device; 400-a sucker;

500-automatic lifting base plate, 510-correlation photoelectric device, 520-lifting mechanism for cushion block, 530-vertical sliding groove, 540-Y direction movement adjusting sliding plate, 550-reinforcing rib structure, 560-Y direction sliding block and 570-Y direction sliding rail;

600-middle partition board and 700-PLC control device.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the combination or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, are not to be construed as limiting the present invention. In addition, in the description process of the embodiment of the present invention, the positional relationships of the devices such as "upper", "lower", "front", "rear", "left", "right", and the like in all the drawings are based on fig. 1.

Example 1

As shown in fig. 1 and 2, the color cartridge removing apparatus, which sets a front-back direction as an X direction, a left-right direction as a Y direction, and a vertical direction as a Z direction, has:

a frame 100 having the following structural features:

the middle portions in the X direction are separated by a middle partition plate 600;

the detachable color cartridge device 200 is arranged at the front middle position in the X direction to support and detach the color cartridge and push the detached upper color cartridge and lower color cartridge out to the blanking platform 250;

an automatic lifting base plate 500 is arranged at the bottom position of the rear part in the X direction and is used for supporting and dismounting the stacked color boxes to be dismounted and automatically positioning the color boxes after the color boxes on the upper layer are taken away;

the top position in the Z-direction supports the magazine loader 300 via the gantry 310 to transport the magazines on the lifting pads to the magazine detacher 200 for detachment, as shown in fig. 1, 2 and 3;

a detachable color cartridge device 200 having

The L-shaped overturning positioning device 210 is characterized in that the overall outer side joint part is driven to overturn within a 90-degree range through an overturning positioning cylinder, one end of the L-shaped overturning positioning device is a color box blanking positioning plate 211, the other end of the L-shaped overturning positioning device is a lower color box supporting plate 212, a plurality of suckers 400 are arranged on the inner sides of the color box blanking positioning plate 211 and the inner side of the lower color box supporting plate 212, an overturning pressing device 213 is further arranged on the outer side of the color box blanking positioning plate 211, the overturning pressing device 213 is an L-shaped pressing claw and is connected with a pressing cylinder, and when the color box is overturned in place;

the upper color box blanking station 230 is arranged in front of the upper color box supporting device 220 and is used for receiving the upper color box and the lower color box pushed by the automatic material pushing rod 280;

a liner blanking support station 240 which is connected to a blanking slide rail 241 fixed on the support platform 270 and used for sliding and conveying the detached color box liner, and conveying the liner from the lower color box to the position near the liner blanking station 242 through a liner conveying device 290;

the upper color box supporting device 220 is arranged on the side surface of the L-shaped overturning and positioning device 210 and is used for supporting the disassembled upper color box, a color box overturning device 260 is arranged above the side close to the middle partition plate 600, and an automatic material pushing rod 280 is arranged on the right side;

as can be seen from fig. 6 and 14, the color box turnover device 260 is integrally connected to the lateral sliding device for detaching the color box device 200, and includes a pen-shaped suction cup device 261 and a rotating base 262, the pen-shaped suction cup device 261 is connected to the rotating base 262 through a rotating cylinder for turnover, the rotating base 262 is connected to the Y-direction turnover sliding plate 268 for lifting, the Y-direction turnover sliding plate 268 moves from the color box blanking positioning plate 211 to the horizontal position of the upper color box supporting device 220 through the color box, and the Y-direction turnover sliding plate 268 slides along the Y-direction through at least one Y-direction turnover sliding rail 266 fixedly arranged in the Y-direction, so as to drive the upper color box adsorbed on the pen-shaped suction cup to turn over to the top downward, and then the pen-shaped suction cup is lowered to place the upper color box on the upper;

the automatic material pushing rod 280 has a sliding base 281 connected to the top of the supporting platform 270 and sliding along the X direction, and a material pushing rod 282 connected to the end of the sliding base 281, and the material pushing rod 282 drives the material pushing rod to be vertical or horizontal through a material rod turning cylinder 284, as shown in fig. 10, that is, when the automatic material pushing rod turns to the horizontal position and pushes the upper color box out to the upper color box blanking station, the material pushing rod 282 automatically turns to be vertical to avoid collision with the color box turning device during operation, and generally, an X-direction material pushing slide rail 283 is usually arranged at the bottom of the sliding base 281.

The color box feeding device 300, as can be seen from fig. 1, 2 and 3, has two X-direction slide rails 320 fixedly supported on the gantry support 310, and a Y-direction feeding slide rail 340 connected to the two X-direction slide rails 320 through two X-direction sliders 330 and sliding thereon;

the magazine loader 300 further comprises a loading suction cup device 350 fixed to the Y-direction slide rail 340 for sliding the loading suction cup device 350 from the auto-lift pallet 500 to a magazine loader for disassembling the magazine 200.

The bottom of the automatic lifting base plate 500 is provided with a correlation photoelectric device 510 for detecting whether the automatic lifting base plate 500 is provided with a stacked color box to be disassembled.

When the color box disassembling device is used specifically, the color box disassembling device can be operated according to the following steps:

firstly, a customer stacks the color boxes which are not disassembled on the automatic lifting base plate 500, the opposite photoelectric device 510 arranged at the bottom of the automatic lifting base plate 500 detects the color boxes, if the color boxes are not detected, the automatic lifting base plate 500 automatically lifts in the Z direction, and the next step is executed after the color boxes are detected.

And secondly, after the color box feeding device 300 is controlled by the PLC control device 700 to adjust the color box to a proper position in the X direction and the Y direction of the gantry support 310, the color box is placed on the color box blanking positioning plate 211 of the L-shaped turnover positioning device 210 of the color box dismounting device 200.

And thirdly, the sucking discs on the color box blanking positioning plate 211 suck the color boxes tightly under the action of air pressure, the turnover pressing device 213 rotates to press the color boxes immediately, and the L-shaped turnover positioning device 210 and the turnover pressing device 213 press the color boxes tightly and turn over to be horizontal.

And fourthly, the pen-shaped sucker device 261 of the color box turnover device 260 moves to the position above the color box, the sucker of the pen-shaped sucker device 261 sucks up the upper color box, then the upper color box is turned over, the top of the upper color box faces downwards, and the pen-shaped sucker device 261 puts the upper color box on the upper color box supporting device 220.

And fifthly, the lining conveying device 290 absorbs the lining in the lower color box and conveys the lining to the lining blanking supporting station 240, and the lining blanking supporting station 240 conveys the lining to the lining blanking station 242 along the blanking slide rail 241, so that the lining blanking cycle is completed.

The fourth step and the fifth step can be executed in reverse order.

And sixthly, the material pushing rod 282 of the automatic material pushing rod 280 is turned over from the side to the rear of the upper color box, the upper color box and the lower color box are pushed to the upper color box blanking station 230 towards the front in the X direction, and then the automatic lifting base plate 500 detects the color boxes again and starts to circulate from the first part.

As can be seen from fig. 4 of the present invention, the bottom position of the rear portion of the rack 100 is divided into two vertical spaces by a middle partition 600, each vertical space is provided with one automatic lifting pad 500 therein, each automatic lifting pad 500 is lifted by a lifting mechanism 520 using a pad, and the top of each automatic lifting pad 500 is provided with a correlation photoelectric device 510 for lifting each automatic lifting pad and the color box to be disassembled. It is also possible to arrange that, as shown in fig. 4 and 5, one end of each automatic lifting mat 500 is provided with a distance adjusting means in the Y direction, and the one end of the automatic lifting mat 500 is provided with a plurality of vertical sliding grooves 530, specifically, that is: the distance adjusting device includes a Y-direction movement adjusting slide plate 540 and a Y-direction slide rail 570,

a Y-direction movement adjusting sliding plate 540, the bottom of which is fixed on the Y-direction sliding block 560 and slides with the Y-direction sliding block 560 on the Y-direction sliding rail 570 to the Y direction; a Y-direction sliding rail 570 for providing the Y-direction movement adjusting sliding plate 540 to slide in the Y direction, and when the device is used, a plurality of reinforcing rib structures 550 are generally arranged at the bottom of the automatic lifting base plate 500;

and the plurality of vertical sliding grooves 530 are used for supplying the Y-direction movement adjusting sliding plate 540 to slide and adjust the distance between the Y-direction movement adjusting sliding plate 540 and the other end of the automatic lifting base plate 500 so as to achieve the purpose of adjusting the placing length of the color boxes and adapt to the placing of the color boxes with different thicknesses.

In this embodiment, as shown in fig. 6, a separating baffle 243 may be disposed in the middle of the lining blanking supporting station 240 to separate the lining blanking supporting station 240 into two independent emptying units, and one of the units may be used for placing a sample for sampling inspection.

In this embodiment, as shown in fig. 14 and 15, the pen-shaped suction cup device 261 of the color box turnover device 260 is integrally set to be a cross-shaped structure, and at least one suction cup is respectively arranged at the bottom of each end of the four ends of the cross-shaped structure, so that the color box can be uniformly adsorbed, and the color box can be ensured to have stronger adsorption force.

In this embodiment, as shown in fig. 10, the position of the upper color box supporting device 220 corresponding to the pen-shaped suction cup device 261 is provided with an invagination groove 221 with a height not lower than that of the pen-shaped suction cup device 261, and the invagination groove 221 is provided for the pen-shaped suction cup device 261 to temporarily store when the automatic material pushing rod 280 pushes materials.

As can be seen from fig. 6, the flipping and pressing device 213 of the L-shaped flipping and positioning device 210 includes a rotating cylinder 2131 and a pressing rod 2132, wherein:

revolving cylinder 2131, one end is fixed at color box unloading locating plate 211 to the other end is connected depression bar 2132 and is rotated in order to compress tightly the color box of arranging between color box unloading locating plate 211 and lower color box backup pad 212, finally rotates the color box to the level, so that unload. The pressing rod 2132 is connected to the end of the rotary cylinder 2131 through a thread matching structure and rotates, and therefore installation and disassembly are facilitated.

Referring to fig. 6, 12 and 13, it can also be seen that liner transport 290 includes:

the organ suction nozzle 291 is connected to the PLC control device 700, is used for adsorbing, fastening and releasing the color box lining, and is fixed on the vertical sliding plate 292;

a vertical slide plate 292, which is driven by a liner lifting cylinder to slide in the vertical direction of the lateral slide 298,

a lateral slide bar 297 fixed to the side of the removable color cartridge apparatus 200 by a lining fixing bracket 296; as can also be seen in fig. 7 and 12 and fig. 13, the lining fixing bracket 296 is fixedly connected with the side of the detachable color cartridge device 200 through a plurality of connecting screw assemblies; a lateral slide block 298 connected to the lateral slide bar 297 through a lining slide connector 295 and a lining lateral servo drive device to slide;

fig. 13 shows that the liner sliding connector 295 has one end fixedly connected to the lateral slider 298 and the other end slidably received on the outer side of the lateral sliding bar 297.

Dismantle various box device 200, various box loading attachment 300 and automatic rising backing plate 500 and equally divide and do not connect PLC controlling means 700 to realize transporting various box material loading automatically, dismantle various box automatically and automatic with the various box propelling movement after dismantling to ejection of compact station.

Example 2

As shown in fig. 6, the color cartridge disassembling device 200 is applied to color cartridge disassembling alone, and the specific solution is that the color cartridge disassembling device 200 has the following technical features:

l type upset positioner 210, holistic outside handing-over position drives its upset at 90 degrees within ranges through L type upset location cylinder, one end is various box unloading locating plate 211, the other end is various box backup pad 212 down, various box unloading locating plate 211 all is equipped with a plurality of sucking discs 400 with various box backup pad 212 inboard down, the outside of various box unloading locating plate 211 still is equipped with upset closing device 213, the upset compresses tightly to compress tightly the claw for the L type at device 213, it connects and compresses tightly the cylinder, after various box upset targets in place, it loosens and compresses tightly the claw to compress tightly the cylinder, and resume the normal position.

The upper color box supporting device 220 is arranged on the side surface of the L-shaped turnover positioning device 210 and used for supporting the disassembled upper color box, a pen-shaped turnover device 260 is arranged on the side upper part close to the middle partition plate 600, and an automatic material pushing rod 280 is arranged on the right side.

As shown in fig. 14, the pen-shaped turnover device 260 is integrally connected to the lateral sliding device for detaching the color box device 200, and includes a pen-shaped suction cup device 261 and a rotating base 262, the pen-shaped suction cup device 261 is connected to the rotating base 262 through a rotating cylinder for turnover, the rotating base 262 drives the pen-shaped suction cup device and the upper color box to move to the upper color box supporting device 220 from the horizontal position of the color box blanking positioning plate 211 through the pen-shaped actuating mechanical arm 263, and further drives the upper color box adsorbed on the pen-shaped suction cup to turn over to the top downward, and then the pen-shaped suction cup is lowered, and the upper color box is placed to the upper color box supporting device 220.

Referring to fig. 11, the automatic pushing rod 280 has a sliding base 281 connected to the top of the supporting platform 270 and sliding along the X direction, and a pushing rod 282 connected to the end of the sliding base 281, and the pushing rod 282 is driven to be vertical or horizontal by a rod turning cylinder 284, as shown in fig. 10, that is, after the automatic pushing rod is turned to be horizontal and pushes the upper color box out to the upper color box blanking station, the automatically turned pushing rod 282 is automatically turned to be vertical to avoid collision with the pen-shaped turning device during operation, and generally, an X-direction pushing slide track 283 is usually provided at the bottom of the sliding base 281.

As can be seen from fig. 6 and 7, the upper color box blanking station 230 is disposed in front of the upper color box supporting device 220; the liner blanking support station 240 is connected to a blanking slide rail 241 fixed on the support platform 270 to slide and transport the detached box-disassembled liner, and the liner is transported from the lower color box to the position near the liner blanking station 242 by the liner transport device 290. As also shown in fig. 6, a material separating baffle 243 is provided in the middle of the lining blanking support station 240 to separate the lining blanking support station 240 into two independent material placing units, one of which can be used for placing a sample for sampling inspection.

Fig. 14 and 15 all show that pen-shaped suction cup device 261 of pen-shaped turning device 260 is overall cross-shaped structure to the bottom position of each end of four tip of cross-shaped structure is equallyd divide and is equipped with at least one sucking disc respectively, in order to realize the even absorption to going up the color box, guarantees that it has stronger absorption dynamics to going up the color box.

Similar to the embodiment 1, the position of the upper color box supporting device 220 corresponding to the pen-shaped suction cup device 261 is provided with an invagination groove 221 with a height not lower than that of the pen-shaped suction cup device 261, and the invagination groove 221 is supplied to the pen-shaped suction cup device 261 for temporary storage when the automatic material pushing rod 280 pushes materials.

As can be seen from fig. 6, 9 and 10, the turning and pressing device 213 of the L-shaped turning and positioning device 210 includes a rotating cylinder 2131 and a pressing rod 2132, wherein:

revolving cylinder 2131, one end is fixed at color box unloading locating plate 211 to the other end is connected depression bar 2132 and is rotated in order to compress tightly the color box of arranging between color box unloading locating plate 211 and lower color box backup pad 212, finally rotates the color box to the level, so that unload. Generally, the pressing rod 2132 can also be connected to the end part of the rotating cylinder 2131 through a thread matching structure, so that the installation and the disassembly are convenient.

As in embodiment 1, the liner conveying device 290 may be provided as a device including the following structure:

the organ suction nozzle 291 is used for adsorbing, fastening and releasing the lining, and is fixed on the vertical sliding plate 292 and driven by the lining lifting cylinder to lift and fall along the transverse sliding block 298 connected with the lining lifting cylinder;

a lateral slide bar 297 fixed to the side of the removable color cartridge apparatus 200 by a lining fixing bracket 296; as can also be seen in fig. 7 and 12 and fig. 13, the lining fixing bracket 296 is fixedly connected with the side of the detachable color cartridge device 200 through a plurality of connecting screw assemblies;

a transverse slide block 298 connected to the transverse slide bar 297 through a lining slide joint 295;

the liner sliding connection 295 is fixedly connected to the vertical slide 292 at one end and slidably connected to the lateral slide 297 at the other end.

Different from the above scheme, all the power sources of the L-shaped turning positioning device 210, the pen-shaped turning device 260 and the automatic material pushing rod 280 can be respectively connected to the PLC control device 700, so as to realize automatic disassembly of the color cartridge device.

According to the full-automatic color box dismounting device, the color box is sequentially pressed and turned, the upper color box is dismounted, the upper color box is automatically turned, the upper color box is transported and pressed, the lining is dismounted and transported, and the upper color box and the lower color box are discharged from the color box feeding device to the L-shaped turning positioning device, so that the automatic dismounting and transporting discharging of the color box are realized, the manual color box dismounting efficiency is improved, the box dismounting pressure of workers is relieved, the color box dismounting quality is ensured, and the yield is reduced.

When the color box dismounting device is used, firstly, a color box is placed on the color box blanking positioning plate 211 of the L-shaped overturning positioning device 210 of the color box dismounting device 200.

Subsequently, the suction cup on the color box blanking positioning plate 211 sucks the color box tightly under the action of air pressure, the turning and pressing device 213 rotates to press the color box tightly, and the L-shaped turning and positioning device 210 and the turning and pressing device 213 press the color box tightly and turn to the horizontal position.

Then the pen-shaped suction cup device 261 of the color box turning device 260 is moved to the upper side of the color box, the suction cup of the pen-shaped suction cup device 261 sucks up the upper color box, then the upper color box is turned over, the top of the upper color box faces downwards, and the pen-shaped suction cup device 261 puts the upper color box on the upper color box supporting device 220.

Finally, the lining conveying device 290 absorbs the lining in the lower color box and conveys the lining to the lining blanking supporting station 240, and the lining blanking supporting station 240 conveys the lining to the lining blanking station 242 along the blanking slide rail 241, so as to complete the lining blanking cycle.

Example 3

As can be seen from fig. 6, the color box turning device 260 is integrally connected to the lateral sliding device for detaching the color box device 200, and includes a pen-shaped suction cup device 261, a rotating base 262, and a Y-direction turning sliding plate 268, and the lateral sliding direction of the turning device is set to be the Y-direction, wherein:

as shown in fig. 14 and 15, a Y-direction flip sliding plate 268, which slides along the Y-direction through at least one Y-direction flip sliding rail 266 fixedly arranged in the Y-direction, is connected with a pen-shaped servo lifting cylinder 264 for lifting the pen-shaped suction cup device 261 and the rotating base 262;

the rotating base 262 is fixed on the top of a pen-shaped servo lifting cylinder 264 to lift, and the side surface of the rotating base is connected with a pen-shaped sucker device 261 through a pen-shaped servo rotating cylinder 263 to turn and adsorb the color box;

the Y-direction flip slide 266 is fixed on the flip support 265, and the flip support 265 is fixed on the rack 100.

As shown in fig. 14, the pen-shaped suction cup device 261 can realize 360-degree turning, that is, the top of the upper color box is sucked up, and then the upper color box is turned 360 degrees and placed on the upper color box supporting device 220, so that the upper color box can be directly arranged for use after being pushed out, and no extra process is needed. Drive pen-shaped sucking disc device 261 and go up the color box and move to supreme color box strutting arrangement 220 from the horizontal position of color box unloading locating plate 211, and then drive the color box upset that adsorbs on pen-shaped sucking disc to the top downwards, reduce pen-shaped sucking disc afterwards, will go up the color box and place supreme color box strutting arrangement 220.

As can also be seen from fig. 14 and 15, the pen-shaped suction cup device 261 of the color box turnover device 260 is integrally of a cross-shaped structure, and at least one suction cup is respectively arranged at the bottom of each of the four ends of the cross-shaped structure, so that the color box can be uniformly adsorbed, and the color box can be ensured to have strong adsorption force. The cross structure of the pen-shaped suction cup device 261 is fixed at one end in the direction of the rotating base 262 to be a rectangular structure, so that the pen-shaped suction cup device 261 can better cover the color box which needs to be adsorbed and transferred.

As can be further seen from fig. 14, the number of the Y-direction reverse sliding rails 266 is two, and the two Y-direction reverse sliding rails 266 are arranged in parallel in the Y direction, wherein the Y-direction reverse sliding plate 268 is connected to the two Y-direction reverse sliding rails 266 through a Y-direction reverse sliding block 267 respectively to slide, so as to improve the stability of the Y-direction reverse sliding plate in sliding in the Y direction.

Fig. 15 also shows that the pen-shaped servo rotary cylinder 263 is further connected with a negative pressure gauge 269 for detecting and displaying the vacuum degree of the pen-shaped servo rotary cylinder, the negative pressure gauge 269 is connected with the PLC control device 700, and the device using the negative pressure gauge can give a signal to the PLC control device when a predetermined vacuum pressure is reached during operation, so as to be rapidly executed, and finally realize the centralized control of the pen-shaped suction cup device of the color box turnover device and the sliding displacement of the Y-direction turnover sliding plate, and the automation degree is higher.

This various box turning device risees at the during operation, pen-shaped sucking disc device to parallel translation to various box top, and the sucking disc of following pen-shaped sucking disc device has inhaled colored box, overturns 180 degrees afterwards and makes the top of going up colored box down, then translation to the position of keeping away from down colored box, puts down colored box afterwards, and the last colored box top of putting down this moment is down, and pen-shaped sucking disc device lies in the below of colored box simultaneously.

When the pen-shaped sucking disc device works, the color box can be directly translated to the position of the lower color box after being sucked up by the sucking disc of the pen-shaped sucking disc device, and then the pen-shaped sucking disc device is turned over by 180 degrees, so that the top of the upper color box can be downward, and the turned upper color box can be downward only by ensuring that the top of the upper color box is downward.

In summary, the color box turnover device provided by the invention has the advantages that the color box upper cover is sequentially sucked up, lifted and translated from the horizontal position to the position far away from the original position and then turned over, and finally the color box turnover device of the upper color box of the color box which is put down and automatically disassembled is used for realizing the technological process of automatically disassembling the upper color box of the color box from the lower color box, so that the purposes of improving the color box disassembly efficiency, relieving the box disassembly pressure of workers, ensuring the color box disassembly quality and reducing the defective percentage are finally achieved.

Example 4

As shown in fig. 6, 12 and 13, the liner conveying device 290 for a color box removing device is fixed on the side of the color box removing device 200 through a liner fixing bracket 296, and is used for sucking the liner from the lower color box and conveying the liner to the liner blanking station 242 of the liner blanking support station 240 for being put down, and the liner blanking support station 240 is connected on a blanking slide rail 241 on a support platform 270 of the color box for sliding and conveying the removed color box liner, wherein: as shown in fig. 13, the liner transportation device 290 includes:

an organ suction nozzle 291 connected to the PLC control device 700 for sucking, fastening and releasing the color box lining, fixed to the vertical slide plate 292;

a vertical slide 292 driven by a liner lifting cylinder to slide in the vertical direction of the lateral slide 298,

a lateral slide bar 297 fixed to the side of the removable color cartridge apparatus 200 by a lining fixing bracket 296; as can also be seen in fig. 7 and 12 and fig. 13, the lining fixing bracket 296 is fixedly connected with the side of the detachable color cartridge device 200 through a plurality of connecting screw assemblies;

a lateral slide 298, as shown in fig. 12 and 13, slidably connected to the lateral slide bar 297 by a liner slide connection 295 and a liner lateral servo drive; and one end of the lining sliding connecting piece 295 is fixedly connected with the transverse sliding block 298, and the other end is sleeved outside the transverse sliding rod 297 to slide so as to realize connection. In a more preferred embodiment, the lateral slide 298 is provided with a vertical sliding rail 293 for the organ suction nozzle, and the vertical sliding plate 292 is connected to slide on the vertical sliding rail 293, so that the stability of the vertical sliding plate 292 and the organ suction nozzle 291 connected to the vertical sliding plate 292 can be better ensured.

As can be seen from fig. 13 and 15, the liner sliding connector 295 is connected with the square limiting block 294 outside one end of the transverse slider 298, a square clamping groove is formed in a position of the transverse slider 298 corresponding to the square limiting block 294, the size of the square limiting block 294 is larger than that of the square clamping groove of the transverse slider 298 so as to achieve limiting, the square limiting block 294 is detachably connected with the liner sliding connector 295, an internal/external thread is arranged at a connecting portion of the liner sliding connector 295 in a specific detachable mode, an external/external thread is arranged at a connecting end portion of the square limiting block 294 so as to achieve matching connection, and interference direct-insertion connection can be directly sampled.

In the above embodiment, the inner side of the lining fixing bracket 296 is further provided with a travel limiting device 299 along the Y direction, so as to control the corresponding travel position of the lining blanking support station 240 on the support platform 270,

as shown in fig. 16 and 17, the stroke limiting device 299 includes a photoelectric sensing stroke slider 2991 and a photoelectric sensing slideway 2992, wherein:

a photoelectric sensing slide 2992, which is provided with a photoelectric sensing switch 2994 at a parallel distance from the lining stroke slide 2993 through a support plate or support rod structure to transmit stroke signal information;

the photoelectric sensing switch 2994 is connected with the PLC control device 700, that is, arranged in the Y direction but at a certain distance in the X direction, so as to ensure that the photoelectric sensing stroke slider has a sliding space;

the photoelectric sensing stroke slider 2991 is connected to a lining stroke slider 2993 fixed to the frame 100 and slides thereon, and has a pointer portion 29911 bent toward the photoelectric sensing slide so as to directly approach the photoelectric sensing slide 2992.

As shown in fig. 18, the photo-electric slide 2992 includes a groove-shaped slide groove 29921 and a travel switch slide rail 29922 disposed in the groove-shaped slide groove 29921, each travel switch is slidably and adjustably connected to the travel switch slide rail 29922, and in a specific embodiment, a semi-cylindrical slide adjusting rail is installed on the travel switch slide rail, and then the travel switch is connected to the semi-cylindrical slide adjusting rail through a slider to move.

The inside lining conveyor for the color box dismounting device of this embodiment can dismantle the last color box lid of color box with color box lid down after, the inside lining conveyor that the inside lining that will be located down color box within transports to inside lining unloading support station has improved the degree of automation and the dismantlement efficiency that color box dismantled, has reduced the time cost of color box production.

The embodiments of the present invention are disclosed as the preferred embodiments, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention and make various extensions and changes without departing from the spirit of the present invention.

Claims (5)

1. Tear open inside lining conveyor for various box device, its characterized in that: fix the side of dismantling colored box device (200) through inside lining fixed bolster (296) for with the inside lining from the interior absorption of lower colored box to transport and put down behind inside lining unloading station (242) of inside lining unloading support station (240), the colored box inside lining of sliding transport dismantlement on unloading slide rail (241) on the supporting platform (270) of colored box is connected to inside lining unloading support station (240), wherein: the liner transport device (290) comprises:

-an organ suction nozzle (291) connected to the PLC control device (700) for sucking, fastening and releasing the inner liner of the color box, fixed to the vertical slide (292);

-a vertical slide (292) driven by a lining raising and lowering cylinder to slide in the vertical direction of the lateral slide (298),

-a lateral slide bar (297) fixed to the side of the dismounting magazine (200) by means of lining fixing brackets (296);

-transverse slider (298)

-sliding on lateral slide bars (297) via liner sliding connections (295) and liner lateral servo drives;

-a lining sliding connector (295) with one end fixedly connected to the transverse slider (298) and the other end slidably engaged to the outer side of the transverse sliding bar (297).

2. The liner carrier device for a color-stripping cartridge as claimed in claim 1, wherein: and an organ suction nozzle vertical sliding rail (293) is arranged on the transverse sliding block (298) and is connected with the supply vertical sliding plate (292) to slide.

3. The liner carrier device for a color-stripping cartridge as claimed in claim 1, wherein: the lining sliding connecting piece (295) is connected with a square limiting block (294) on the outer side of one end of the transverse sliding block (298), a square clamping groove is formed in the position, corresponding to the square limiting block (294), of the transverse sliding block (298), the size of the square limiting block (294) is larger than that of the square clamping groove of the transverse sliding block (298) so that limiting is achieved, and the square limiting block (294) is detachably connected with the lining sliding connecting piece (295).

4. A liner carrying apparatus for a color-removable cartridge according to any one of claims 1 to 3, wherein: the inner side of the lining fixing support (296) is also provided with a stroke limiting device (299) along the Y direction so as to control the corresponding stroke position of the lining blanking supporting station (240) on the supporting platform (270),

travel stop device (299) includes photoelectric sensing stroke gleitbretter (2991) and photoelectric sensing slide way (2992), wherein:

a photoelectric sensing slide way (2992) which is provided with a photoelectric sensing switch (2994) at a parallel distance with the lining stroke slide bar (2993) through a supporting plate or a supporting rod structure so as to transmit stroke signal information;

the photoelectric sensing switch (2994) is connected with the PLC control device (700);

and a photoelectric induction stroke slide sheet (2991) which is connected to a lining stroke slide bar (2993) fixed on the frame (100) to slide, and has a pointer part (29911) bent towards the photoelectric induction slide way to directly approach the photoelectric induction slide way (2992).

5. The liner carrier device for a color-stripping cartridge as claimed in claim 4, wherein: the photoelectric sensing slideway (2992) comprises a groove-shaped sliding groove (29921) and travel switch sliding rails (29922) arranged in the groove-shaped sliding groove (29921), and each travel switch is connected to the travel switch sliding rails (29922) in a sliding and adjusting mode.