CN208947701U - Protective film attaching device and its charger baby production equipment - Google Patents

Abstract

The utility model discloses a kind of protective film attaching device and its charger baby production equipment.Protective film attaching device includes: charger baby transfer mechanism, charger baby squeeze-film mechanism, charger baby film pasting mechanism.Charger baby transfer mechanism includes: reciprocal transfer component, overturning component；Horizontal reciprocating driving portion and reciprocal transfer platform are drivingly connected, and overturning jig rotation is set on overturning support；Charger baby squeeze-film mechanism includes: press mold support base, press mold crane, press mold driving portion；Press mold crane slides along the vertical direction to be set on press mold support base, and press mold driving portion is installed on press mold support base, and the output end of press mold driving portion is equipped with elevating lever, and press mold driving portion driving elevating lever is back and forth gone up and down along the vertical direction.Protective film is pasted on the surface of shell of charger baby by the protective film attaching device of the utility model, especially layer protecting film can be pasted respectively on two surfaces opposite in shell more efficiently, so that protective film can be more smooth is pasted on surface of shell.

Description

Protective film attaching device and its charger baby production equipment

Technical field

The utility model relates to mechanical automation production technical fields, more particularly to a kind of protective film attaching device and its fill Electric treasured production equipment.

Background technique

As shown in Figure 1, it is a kind of structure chart of charger baby 10, charger baby 10 is rectangular block structure.In charger baby 10 Production process in, especially before the factory of charger baby 10, need on two opposite surfaces of 10 shell of charger baby point Not Nian Tie layer protecting film 11, by bonding protective film 11, can the surface of shell preferably to charger baby 10 protect, prevent Only the surface of shell of charger baby 10 is recklessly spent.

It is constantly progressive as society continues to develop with science and technology, mechanical automation production has become development trend, and gradually Instead of traditional hand labour, new power source is injected for Sustainable Development of Enterprises.Therefore, manufacturing type enterprise be also required to When all into, by transition and upgrade, actively push forward technological transformation, greatly develop mechanical automation production, to improve the " intelligence of enterprise Make " it is horizontal, realize the sustainable development of enterprise.

Therefore, it is necessary to design a kind of charger baby production equipment, protective film 11 is pasted on two of charger baby shell automatically On surface, thus instead of traditional manual operations, and then improve the mechanical automation production level of enterprise.

In the exploitation design process of above-mentioned charger baby production equipment, one of them technology for needing emphasis to solve is asked Topic, is how protective film is pasted on to the surface of shell of charger baby, in particular how more efficiently in opposite two of shell Layer protecting film is pasted on surface respectively, so that protective film can be more smooth is pasted on surface of shell, this is enterprise Designer's technical issues that need to address.

Utility model content

The purpose of the utility model is to overcome shortcoming in the prior art, a kind of protective film attaching device is provided and its is filled Protective film, is pasted on the surface of shell of charger baby by electric treasured production equipment, especially can more efficiently opposite in shell Layer protecting film is pasted respectively on two surfaces, so that protective film can be more smooth is pasted on surface of shell.

The purpose of this utility model is achieved through the following technical solutions:

A kind of protective film attaching device, comprising: charger baby transfer mechanism, charger baby transfer robot arm, charger baby squeeze-film mechanism, Charger baby film pasting mechanism；

The charger baby transfer mechanism includes: reciprocal transfer component, overturning component；The reciprocal transfer component includes: water Reciprocal driving portion, reciprocal transfer platform are put down, the horizontal reciprocating driving portion and the reciprocal transfer platform are drivingly connected, the water It puts down reciprocal driving portion and drives reciprocal transfer platform reciprocating type mobile along the horizontal plane；The overturning component includes: turning-over support Frame, overturning jig, overturning driving portion, the overturning support are fixed in the reciprocal transfer platform, and the overturning jig turns Dynamic to be set on the overturning support, the overturning driving portion and the overturning jig are drivingly connected, and the overturning driving portion drives Move the overturning jig rotation；

The charger baby squeeze-film mechanism includes: press mold support base, press mold crane, press mold driving portion；The press mold lifting Frame slides along the vertical direction to be set on the press mold support base, and the press mold crane is equipped with press mold roller, and the press mold drives Dynamic portion is installed on the press mold support base, and the output end of the press mold driving portion is equipped with elevating lever, and the press mold driving portion drives It moves the elevating lever back and forth to go up and down along the vertical direction, the elevating lever sliding is arranged in the press mold crane；

The charger baby squeeze-film mechanism further includes shock-damping structure；The shock-damping structure includes: damping spring, lower pressure ring, subtracts Shake ring, jacking ring；The lower pressure ring and the jacking ring are fixedly sheathed on the elevating lever, the shock ring be slidably socketed in On the elevating lever, the lower pressure ring, shock ring, jacking ring are successively intervally arranged along the extended line direction of the elevating lever, institute It states damping spring to be slidably socketed on the elevating lever and between the lower pressure ring and the shock ring, the shock ring supports It is held on the press mold crane, the jacking ring is abutted or separated with the press mold crane；

The charger baby film pasting mechanism includes: pad pasting support base, unreeling wheel, winding wheel, protective film separating plate；It is described to unreel Wheel and winding wheel rotation are set on the pad pasting support base, and the protective film separating plate is fixed at the pad pasting support base On, the protective film separating plate is obliquely installed, and the plate face and horizontal plane of the protective film separating plate form angle.

The horizontal reciprocating driving portion is electric cylinders driving structure in one of the embodiments,.

The overturning driving portion is motor-driven structure in one of the embodiments,.

The press mold driving portion is cylinder driving structure in one of the embodiments,.

The press mold roller is cylindrical tube structure in one of the embodiments,.

Rubber sleeve is arranged on the press mold roller in one of the embodiments,.

The charger baby film pasting mechanism further includes winding driving portion, the winding driving portion in one of the embodiments, It is drivingly connected with the winding wheel, the winding driving portion drives the winding wheel rotation.

The winding driving portion is motor-driven structure in one of the embodiments,.

A kind of charger baby production equipment further includes matching with the protective film attaching device including above-mentioned protective film attaching device The loading and unloading transmitting device of conjunction.

Protective film is pasted on the surface of shell of charger baby by the protective film attaching device of the utility model, especially can be more Layer protecting film is pasted respectively on efficient two surfaces opposite in shell, so that protective film can be more smooth It is pasted on surface of shell.

Detailed description of the invention

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is a kind of structure chart of charger baby；

Fig. 2 is the structure chart of the charger baby production equipment of an embodiment of the present invention；

Fig. 3 is the structure chart of the charger baby loading tool of charger baby production equipment shown in Fig. 2；

Fig. 4 is the Local map of the charger baby conveying mechanism of charger baby production equipment shown in Fig. 2；

Fig. 5 is the structure chart of the charger baby feed mechanism of charger baby production equipment shown in Fig. 2；

Fig. 6 is the jig correcting structure of charger baby production equipment shown in Fig. 2 and the structure chart of barrier structure；

Fig. 7 is the Local map (one) of the protective film attaching device of charger baby production equipment shown in Fig. 2；

Fig. 8 is the Local map (two) of the protective film attaching device of charger baby production equipment shown in Fig. 2；

Fig. 9 is the structure chart of the overturning component of protective film attaching device shown in Fig. 7；

Figure 10 is the structure chart of the charger baby squeeze-film mechanism of protective film attaching device shown in Fig. 7；

Figure 11 is the Local map of the charger baby film pasting mechanism of protective film attaching device shown in Fig. 7.

Specific embodiment

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The better embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms It realizes, however it is not limited to embodiments described herein.On the contrary, the purpose of providing these embodiments is that making practical new to this The disclosure of type understands more thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not meant to be the only embodiment.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein packet Include any and all combinations of one or more related listed items.

As shown in Fig. 2, a kind of charger baby production equipment 20, including mutually matched loading and unloading transmitting device 21 and patch protection Film device 22.

Loading and unloading transmitting device 21 is used to carry out charger baby automatic charging, automatic conveying, automatic blanking, fills to realize Electric precious mechanical automation transmission；

Protective film attaching device 22 is used to for protective film 11 being pasted on the surface of shell of charger baby, especially can be by protective film 11 are pasted on respectively on two opposite surfaces of the shell of charger baby, so that the stickup that protective film 11 can be more smooth In surface of shell.

In the following, mainly the connection relationship of the specific structure to loading and unloading transmitting device 21 and each component is illustrated:

As shown in Fig. 2, loading and unloading transmitting device 21 includes: charger baby conveying mechanism 100, charger baby feed mechanism 200, fills Electric treasured cutting agency 300, charger baby loading tool 400 (as shown in Figure 3).

As shown in figure 4, charger baby conveying mechanism 100 includes: charger baby conveying pedestal 110, charger baby conveying pipeline 120, assembly line driving portion (not shown).Charger baby conveying pipeline 120 is end to end to convey pedestal 110 around set on charger baby On, assembly line driving portion and charger baby conveying pipeline 120 are drivingly connected.Assembly line driving portion drives charger baby conveying pipeline 120 make circulation reciprocating type translatory movement around charger baby conveying pedestal 110, and charger baby loading tool 400 is placed in charger baby On conveying pipeline 120, it is another that charger baby conveying pipeline 120 can drive charger baby loading tool 400 to be reached by a position One position, to realize the function of jig conveying.

As shown in Fig. 2, charger baby conveying pipeline 120 has charger baby feeding end 121 and charger baby discharging end 122；It fills Electric treasured feed mechanism 200 is located at the charger baby feeding end 121 of charger baby conveying pipeline 120, and charger baby cutting agency 300 is located at The charger baby discharging end 122 of charger baby conveying pipeline 120.Charger baby feed mechanism 200 is used for charger baby loading tool 400 Feeding is carried out, by 400 feeding of charger baby loading tool on charger baby conveying pipeline 120, and charger baby cutting agency 300 is then For carrying out blanking to the charger baby loading tool 400 on charger baby conveying pipeline 120.It is noted that charger baby loads Charger baby 10 is placed in jig 400.

As shown in figure 5, charger baby feed mechanism 200 include: feeding carrier loader 210, feeding lifting assembly (not shown), on Expect manipulator 220.Feeding lifting assembly is set on feeding carrier loader 210, and feeding manipulator 220 is located at 210 He of feeding carrier loader Between the charger baby feeding end 121 of charger baby conveying pipeline 120.Multiple charger baby loading tools 400 stack gradually, feeding liter For driving charger baby loading tool 400 to rise along the vertical direction, feeding manipulator 220 is used for feeding carrier loader part of coming down to a lower group Charger baby loading tool 400 in 210 is transferred in charger baby conveying pipeline 120.Feeding manipulator 220 is often taken one away and is filled Electric treasured loading tool 400, feeding lifting assembly then drives remaining charger baby loading tool 400 to rise a height, thus not The current vacancy of disconnected supplement, the effective feeding for cooperating feeding manipulator 220.

Specifically, feeding lifting assembly includes that feeding goes up and down driving portion (not shown) and upper lift platform (not shown), Feeding lifting driving portion drives upper lift platform back and forth to go up and down along the vertical direction, multiple charger baby loading tools 400 successively layer It is laminated on lift platform.In the present embodiment, feeding lifting driving portion is motor lead screw driving structure.

As shown in figure 5, specifically, feeding manipulator 220 includes: feeding horizontal cross driving portion 221, the horizontal longitudinal direction of feeding Driving portion 222, feeding vertical lifting driving portion 223, feeding clamping jaw (not shown).In the driving of feeding horizontal cross driving portion 221 Expect that horizontal zigzag tread patterns portion 222 is moved back and forth along horizontal cross, the horizontal zigzag tread patterns portion 222 of feeding drives feeding vertical lifting to drive Dynamic portion 223 along it is horizontal it is longitudinally reciprocal move, feeding vertical lifting driving portion 223 drives feeding clamping jaw back and forth to rise along the vertical direction Drop.

As shown in Fig. 2, the structure of charger baby cutting agency 300 is identical as the structure of charger baby feed mechanism 200, charger baby Feed mechanism 200 is used to carry out charger baby feeding, and charger baby cutting agency 300 is then for carrying out blanking to charger baby.

Charger baby cutting agency 300 includes: blanking carrier loader, blanking lifting assembly, blanking mechanical hand.Blanking lifting assembly On blanking carrier loader, blanking mechanical hand is located at the charger baby discharging end of blanking carrier loader and charger baby conveying pipeline 120 Between 122.Specifically, blanking lifting assembly includes that blanking goes up and down driving portion (not shown) and lower lift platform (not shown), Blanking lifting driving portion drives lower lift platform back and forth to go up and down along the vertical direction.In the present embodiment, blanking goes up and down driving portion For motor lead screw driving structure.Blanking mechanical hand is used for 400 turns of charger baby loading tool in charger baby conveying pipeline 120 It moves on the lower lift platform of blanking lifting assembly, blanking mechanical hand one charger baby loading tool 400 of every transfer, blanking liter Dropping driving portion drives lower lift platform to decline a height, so that the stacking for next charger baby loading tool 400 reserves Vacancy, the effective blanking for cooperating blanking mechanical hand.

Specifically, blanking mechanical hand includes: that blanking horizontal cross driving portion, the horizontal zigzag tread patterns portion of blanking, blanking are vertical Driving portion, blanking clamping jaw are gone up and down, the blanking horizontal cross driving portion driving horizontal zigzag tread patterns portion of blanking is back and forth moved along horizontal cross Dynamic, the horizontal zigzag tread patterns portion driving blanking vertical lifting driving portion edge level of blanking is longitudinally reciprocal to be moved, and blanking vertical lifting drives Dynamic portion's driving blanking clamping jaw is back and forth gone up and down along the vertical direction.

Feeding lifting assembly drives charger baby loading tool 400 to go up and down, and feeding manipulator 220 shifts in feeding lifting assembly Charger baby loading tool 400 into charger baby conveying pipeline 120, blanking mechanical hand shift charger baby conveying pipeline 120 In charger baby loading tool 400 into blanking lifting assembly, blanking lifting assembly drive charger baby loading tool 400 go up and down.

In the following, being illustrated to the working principle of above-mentioned loading and unloading transmitting device 21:

The multiple charger baby loading tools 400 stacked gradually are mounted on feeding carrier loader 210, by feeding carrier loader 210 Designated position is pushed to, the charger baby to pasting protective film is placed in charger baby loading tool 400；

Charger baby loading tool 400 in feeding carrier loader 210 is transferred to charger baby conveying flowing water by feeding manipulator 220 In line 120；

Assembly line driving portion drives charger baby conveying pipeline 120, and charger baby conveying pipeline 120 is allowed to drive it On charger baby loading tool 400 reach protective film attaching device 22 at, by protective film attaching device 22 to charger baby loading tool 400 In charger baby carry out pasting protective film；

After the charger baby in charger baby loading tool 400 all posts protective film, charger baby conveying pipeline 120 again will Charger baby loading tool 400 is sent to charger baby discharging end 122；

Charger baby loading tool 400 in charger baby conveying pipeline 120 is transferred to blanking carrier loader by blanking mechanical hand In；

After being fully loaded with multiple charger baby loading tool 400 stacked gradually in blanking carrier loader, then push blanking carrier loader To designated position.

As shown in figure 3, in the present embodiment, charger baby loading tool 400 offers multiple charger baby containers 410, more A 410 rectangular array of charger baby container distribution.

During charger baby conveying pipeline 120 conveys charger baby loading tool 400, due to being shaken Etc. factors influence, positional shift inevitably occurs for charger baby loading tool 400, in this way, charger baby loading tool 400 It is impossible to accurately reach designated position, then, the associated mechanical hand in protective film attaching device 22 just can not can accurately incite somebody to action Charger baby clamping in charger baby loading tool 400, and then will affect the pad pasting accuracy to charger baby.

In order to preferably solve this technical problem, charger baby conveying mechanism 100 further include jig correcting structure 140 (such as Shown in Fig. 4 and Fig. 6).Jig correcting structure 140 include left side correcting plate 141 and right side correcting plate 142, left side correcting plate 141 and Right side correcting plate 142 is fixed on charger baby conveying pedestal 110 and is located at the two sides of charger baby conveying pipeline 120.This Sample can be to the charger baby loading tool 400 that position shifts by setting left side correcting plate 141 and right side correcting plate 142 Correcting is carried out, allows the associated mechanical hand in protective film attaching device 22 accurately by filling in charger baby loading tool 400 Electric precious clamping.

Further, since charger baby loading tool 400 is to be conveyed by charger baby conveying pipeline 120 to it Mode reaches designated position, and protective film attaching device 22 carries out pad pasting to charger baby and needs to expend the regular hour, also, one Multiple charger babies are placed in a charger baby loading tool 400, the associated mechanical hand in protective film attaching device 22 can only take every time As soon as walking a charger baby, this is it is required that 400 temporal persistence of charger baby loading tool is motionless in original place.

In order to preferably solve this technical problem, charger baby conveying mechanism 100 further include jig barrier structure 150 (such as Shown in Fig. 2 and Fig. 6).Jig barrier structure 150 is located at the top of charger baby conveying pipeline 120.Jig barrier structure 150 wraps Include: jig countercheck rod 151, jig stop cylinder 152, jig stop cylinder 152 and jig countercheck rod 151 are drivingly connected.In this way, Jig stop cylinder 152 drives jig countercheck rod 151 to stretch out, and can fill the charger baby on charger baby conveying pipeline 120 It carries jig 400 to stop, prevents charger baby loading tool 400 from charger baby conveying pipeline 120 being followed to move forward；When filling After the completion of charger baby pad pasting in electric treasured loading tool 400, jig stop cylinder 152 drives jig countercheck rod 151 to shrink, in It is that charger baby loading tool 400 can follow charger baby conveying pipeline 120 to move forward.

In the following, the connection relationship of specific structure and each component to protective film attaching device 22 is illustrated:

As shown in Fig. 2, protective film attaching device 22 includes: charger baby transfer mechanism 500, charger baby transfer robot arm 600, fills Electric treasured squeeze-film mechanism 700, charger baby film pasting mechanism 800.

Charger baby transfer mechanism 500 includes: reciprocal transfer component 510, overturning component 520.

As shown in fig. 7, back and forth transfer component 510 includes: horizontal reciprocating driving portion 511, reciprocal transfer platform 512, level Reciprocal driving portion 511 is drivingly connected with reciprocal transfer platform 512, and horizontal reciprocating driving portion 511 drives reciprocal 512 edge of transfer platform Horizontal plane reciprocating type mobile.In the present embodiment, horizontal reciprocating driving portion 511 is electric cylinders driving structure.

As shown in figure 9, overturning component 520 includes: overturning support 521, overturning jig 522, overturning driving portion 523.It turns over Turn support frame 521 to be fixed in reciprocal transfer platform 512, the rotation of overturning jig 522 is set on overturning support 521, and overturning is driven Dynamic portion 523 is drivingly connected with overturning jig 522, and overturning driving portion 523 drives overturning jig 522 to rotate.In the present embodiment, it turns over Turning driving portion 523 is motor-driven structure.

As shown in figure 8, charger baby squeeze-film mechanism 700 includes: press mold support base 710, press mold crane 720, press mold driving Portion 730.Press mold crane 720 slides along the vertical direction to be set on press mold support base 710, and press mold crane 720 is equipped with press mold Roller 721, press mold driving portion 730 are installed on press mold support base 710, and the output end of press mold driving portion 730 is equipped with elevating lever 731, press mold driving portion 730 drives the reciprocal lifting along the vertical direction of elevating lever 731, and the sliding of elevating lever 731 is arranged in press mold lifting Frame 720.In the present embodiment, press mold driving portion 730 is cylinder driving structure, and press mold roller 721 is cylindrical tube structure, pressure Rubber sleeve (not shown) is arranged on membrane cylinder 721.

As shown in Figure 10, charger baby squeeze-film mechanism 700 further includes shock-damping structure 740；Shock-damping structure 740 includes: damping bullet Spring 741, lower pressure ring 742, shock ring 743, jacking ring 744；Lower pressure ring 742 and jacking ring 744 are fixedly sheathed in elevating lever 731 On, shock ring 743 is slidably socketed on elevating lever 731, and lower pressure ring 742, shock ring 743, jacking ring 744 are along elevating lever 731 Extended line direction is successively intervally arranged, and damping spring 741 is slidably socketed on elevating lever 731 and positioned at lower pressure ring 742 and damping Between ring 743, shock ring 743 is held on press mold crane 720, and jacking ring 744 is abutted or separated with press mold crane 720.

As shown in figure 8, charger baby film pasting mechanism 800 includes: pad pasting support base 810, unreeling wheel 820, winding wheel 830, protects Cuticula separating plate 840；Unreeling wheel 820 and the rotation of winding wheel 830 are set on pad pasting support base 810, and protective film separating plate 840 is fixed On pad pasting support base 810, protective film separating plate 840 is obliquely installed, and plate face and the horizontal plane of protective film separating plate 840 are formed Angle.As shown in figure 8, further, charger baby film pasting mechanism 800 further includes winding driving portion 850, winding driving portion 850 with Winding wheel 830 is drivingly connected, and winding driving portion 850 drives winding wheel 830 to rotate.In the present embodiment, winding driving portion 850 is Motor-driven structure.

In the following, being illustrated to the working principle of above-mentioned protective film attaching device 22:

Charger baby conveying pipeline 120 drives charger baby loading tool 400 to reach designated position, charger baby transfer robot arm 600 for the charger baby in charger baby loading tool 400 to be transferred in overturning jig 522；

Horizontal reciprocating driving portion 511 drives reciprocal transfer platform 512 to move along the horizontal plane, so that in transfer platform 512 Overturning component 520 can be close towards the side of charger baby film pasting mechanism 800；

When transfer platform 512 drives overturning component 520 to reach designated position, at this moment, the charger baby in overturning jig 522 is quasi- Standby in place, charger baby film pasting mechanism 800 starts work, and protective film is attached on one of surface of charger baby shell；

First it is noted that being placed with continuous continual takeup type material strip in unreeling wheel 820, material strip includes release Paper 31 (as shown in figure 11) and the protective film 11 being attached in release paper 31, multiple protective films 11 along release paper 31 extended line Direction is successively intervally arranged；

Unreeling wheel 820 is used to unreel continuous continual takeup type material strip, and winding wheel 830 is then for useless The release paper 31 of abandoning is wound；When edge of the material strip through over-protective film separating plate 840, the direction of transfer of material strip changes suddenly Become, and since the material hardness of release paper 31 and protective film 11 is different, then, protective film 11 can be separated from release paper 31 Out, protective film 11 can then be attached at the surface of shell of charger baby, and release paper 31 can then be wound in winding wheel 830；

It should be particularly noted that, in view of the material is soft for protective film 11, the guarantor separated by protective film separating plate 840 Cuticula 11 is difficult to disposable paste List in the surface of shell, but the protective film 11 separated by protective film separating plate 840 One end be first pasted on the surface of shell, subsequent protective film 11 is gradually pasted on the surface of shell again, this just needs past The cooperation of component 510 is transferred again；

Specifically, during protective film 11 is gradually attached at the surface of shell of charger baby, one end of protective film 11 The surface of shell is first arrived at and is pasted on, winding wheel 830 constantly winds release paper 31, and subsequent protective film 11 is not yet It is separated in disconnected slave protective film separating plate 840；It is constantly separated from protective film separating plate 840 in protective film 11 In the process, horizontal reciprocating driving portion 511 can drive the horizontal counter motion of reciprocal transfer platform 512 so that overturning component 520 together with Charger baby also horizontal counter motion, it is known that, during charger baby horizontal counter motion, protective film 11 can it is gradual, Smooth, not fold the surface for being pasted on shell；

And in order to enable the surface for being pasted on shell that protective film 11 more consolidates, is especially provided with charger baby squeeze-film mechanism 700, under the driving of press mold driving portion 730, press mold roller 721 on press mold crane 720 is by the protective film 11 of surface of shell It presses, since charger baby at this time is making horizontal counter motion, to cooperate press mold roller 721 well, it is known that, charging Treasured will drive the rotation of press mold roller 721 in horizontal counter motion, and the press mold roller 721 in rotating is constantly by protective film 11 are compacted at the surface of shell；

After protective film 11 to be pasted on to one of surface of shell, it is also necessary to being protected on another surface mount of shell Cuticula 11；

Overturning driving portion 523 drives overturning jig 522 to rotate, overturning jig 522 and then the charger baby overturning of drive thereon, So that the surface of shell of another also non-bonding protective film 11 of charger baby is upward, to wait pad pasting；

And then, horizontal reciprocating driving portion 511 drives reciprocal transfer platform 512 to move along the horizontal plane again, so that transfer Overturning component 520 on platform 512 can be close towards the side of charger baby film pasting mechanism 800 again；

It is appreciated that shell another surface carry out bonding protective film 11, working principle as hereinbefore, This, is no longer described in detail；

After completing to two surface mount protective films 11 of shell, charger baby transfer robot arm 600 is by overturning jig 522 In charger baby take out and be transferred in the charger baby loading tool 400 of charger baby conveying pipeline 120；

After charger baby all in charger baby loading tool 400, which is all stuck, protective film 11, charger baby transport Stream Waterline 120 drives charger baby loading tool 400 to continue to move along again and reaches charger baby discharging end 122, then by under charger baby Expect that mechanism 300 carries out blanking to charger baby loading tool 400.

In the following, being illustrated to the structure design principle of above-mentioned protective film attaching device 22:

1, horizontal reciprocating driving portion 511 drives reciprocal transfer platform 512 reciprocating type mobile along the horizontal plane, and such structure is set Meter, can have the technical effect of following several respects: on the one hand, by reciprocating type mobile, can drive charger baby back and forth in filling Between electric treasured conveying pipeline 12 and charger baby film pasting mechanism 800, loading and unloading and the pad pasting of charger baby are realized；On the other hand, lead to Reciprocating type mobile is crossed, charger baby film pasting mechanism 800 can be effectively cooperated, during charger baby horizontal counter motion, is filled Protective film 11 gradually can be pasted on surface of shell by electric treasured film pasting mechanism 800；In another aspect, by reciprocating type mobile, it can Effectively to cooperate charger baby squeeze-film mechanism 700, during charger baby horizontal counter motion, press mold roller 721 occurs to turn It is dynamic, and protective film 11 is constantly compacted at the surface of shell by the press mold roller 721 in rotating；

2, by setting overturning jig 522, and overturning support 521 is fixed in reciprocal transfer platform 512, in this way, On the one hand, overturning driving portion 523 drives overturning jig 522 to rotate, and then drives charger baby overturning, thus it is possible to reach to filling Electric two precious surfaces carry out the purpose of pad pasting；On the other hand, on the basis of charger baby is overturn, reciprocal 512 band of transfer platform Dynamic charger baby moves back and forth, and so as to the overturning of quick, effective cooperation charger baby, realizes to two tables of charger baby shell The pad pasting in face；

3, in charger baby squeeze-film mechanism 700, it has been specifically designed shock-damping structure 740, to have to press mold roller 721 The damping of effect prevents from crushing charger baby in the case where no cushion effect；

Specifically, being provided with damping spring 741, lower pressure ring 742, shock ring 743, jacking ring 744, press mold driving portion 730 Elevating lever 731 is driven to decline, press mold crane 720 is whole to be declined, and press mold roller 721 is allowed to press the protection in shell On film 11, during press mold roller 721 presses protective film 11, elevating lever 731 continues to decline, and elevating lever 731 passes through pushing Ring 742 squeezes damping spring 741, and then, damping spring 741 can deformation occurs in the case where lower pressure ring 742 and shock ring 743 squeeze, To slow down impact force brought by elevating lever 731 well；When press mold roller 721 does not need to press the protection in shell again When film 11, press mold driving portion 730 drives elevating lever 731 to rise, and elevating lever 731 drives press mold crane 720 by jacking ring 744 Rise, so that press mold roller 721 is separated from each other with protective film 11；

4, protective film separating plate 840 is obliquely installed, and the plate face and horizontal plane of protective film separating plate 840 form angle, in this way Structure design, can make protective film separating plate 840 when separating protective film 11, one end of protective film 11 is first Contact the surface of shell of charger baby, subsequent protective film 11 is gradually attached at surface of shell again, solve protective film 11 due to Material is more soft and the problem of disposably cannot completely attach；As one can imagine if the plate face and water of protective film separating plate 840 Plane is parallel, and the protective film 11 isolated can droop under gravity and suddenly, will cannot thus protect well Cuticula 11 is pasted on surface of shell.

Overturning jig 522 is the overturning realized by way of rotation to charger baby, therefore, how to overturning jig 522 Structure optimize, so that the effective cooperation charger baby squeeze-film mechanism 700 of cooperation and charger baby film pasting mechanism 800, real Pad pasting now is carried out to two surfaces of charger baby shell, this is the technical issues that need to address.Further, charger baby transfer When charger baby in charger baby conveying pipeline 120 is transferred to overturning jig 522 by tool hand 600, how charger baby is consolidated It is fixed, prevent charger baby from falling off during overturning, this is also the technical issues that need to address.

In order to solve the above-mentioned technical problem, design especially is optimized to the structure of overturning jig 522.As shown in figure 9, Overturning jig 522 includes: resupination framework 910, the first grip block 920, the second grip block 930, the first gag lever post 940, second limit Position bar 950, gripper cylinder 960.

As shown in figure 9, resupination framework 910 is square frame structure, the rotation of resupination framework 910 is set to overturning support On 521；Resupination framework 910 forms charger baby accommodating chamber 911, and the first grip block 920 and the second grip block 930 are contained in charger baby In accommodating chamber 911, sliding groove 912 is offered on resupination framework 910, the first grip block 920 is set to by the sliding of the first idler wheel 921 On sliding groove 912, the second grip block 930 is set on sliding groove 912 by the sliding of the second idler wheel 931；One end of gripper cylinder 960 It is connect with the first grip block 920, the other end of gripper cylinder 960 is connect with the second grip block 930；First gag lever post 940 and Two gag lever posts 950 are fixed on resupination framework 910, and the first grip block 920 is equipped with the first convex block 922, on the second grip block 930 Equipped with the second convex block 932, the first convex block 922 is supported or is separated with the first gag lever post 940, the second convex block 932 and the second gag lever post 950 support or separate.

In the following, being illustrated to the working principle of above-mentioned overturning jig 522:

Charger baby in charger baby conveying pipeline 120 is transferred to resupination framework 910 by charger baby transfer robot arm 600 In charger baby accommodating chamber 911, the charger baby in charger baby accommodating chamber 911 waits the first grip block 920 and the second grip block 930 clamping；

Gripper cylinder 960 makees contractive action, and gripper cylinder 960 drives the first grip block 920 and the second grip block 930 simultaneously It is slided along sliding groove 912, at this point, the first grip block 920 and the second grip block 930 are close to each other, in process close to each other In, the first convex block 922 can touch the first gag lever post 940, and the first grip block 920 can stop sliding at this time, likewise, second is convex Block 932 can touch the second gag lever post 950, and the second grip block 930 can also stop sliding at this time；When the first grip block 920 and After two grip blocks 930 stop sliding, the first grip block 920 and the second grip block 930 can will be in charger baby accommodating chambers 911 Charger baby clamps；

It is appreciated that gripper cylinder 960 makees extending action, the first grip block 920 and the second grip block 930 can be mutually remote From then, charger baby can be taken out.

In the following, being illustrated to the design principle of above-mentioned overturning jig 522:

1, resupination framework 910 is square frame structure, i.e. resupination framework 910 forms engraved structure, is turned in this way, being contained in Two surfaces for turning the charger baby shell in frame 910 can reveal, not shielded, to facilitate charger baby film laminator Structure 700 and charger baby film pasting mechanism 800 carry out press mold and pad pasting work；

2, the charger baby that comes is shifted by charger baby transfer robot arm 600, due to charger baby position can slightly deviation, it is difficult With accurately in place, then, the first grip block 920 and the second grip block 930 of design activity, the first grip block 920 and second press from both sides Block 930 is held to clamp charger baby from both direction is close；

3, it is especially provided with the first gag lever post 940 and the second gag lever post 950, with cooperation, the first grip block 920 is equipped with First convex block 922, the second grip block 930 is equipped with the second convex block 932, in this way, can solve two problems simultaneously, on the one hand, When the first grip block 920 first in place when, the first convex block 922 can be supported with the first gag lever post 940, then the first grip block 920 Fixation is set, so that the sliding that continues for the second grip block 930 provides support, effect of second grip block 930 in gripper cylinder 960 Under will continue to slide, until the second convex block 932 and the second gag lever post 950 support；On the other hand, the first gag lever post 940 and second Gag lever post 950 can limit the first grip block 920 and the second grip block 930, prevent the first grip block 920 and the second folder It holds block 930 to squeeze charger baby transition, effective protection charger baby.

The charger baby production equipment 20 of the utility model is protected by the way that mutually matched loading and unloading transmitting device 21 and patch is arranged Cuticula device 22, thus instead of traditional manual operations, and then improve the mechanical automation production level of enterprise；Loading and unloading transmission Device 21 is used to carry out charger baby automatic charging, automatic conveying, automatic blanking, to realize that the mechanical automation of charger baby passes It is defeated；Protective film attaching device 22 is used to for protective film 11 being pasted on the surface of shell of charger baby, can especially divide protective film 11 It is not pasted on two opposite surfaces of the shell of charger baby, so that protective film 11 can be more smooth is pasted on shell Body surface face.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (9)

1. a kind of protective film attaching device characterized by comprising charger baby transfer mechanism, charger baby transfer robot arm, charger baby Squeeze-film mechanism, charger baby film pasting mechanism；

The charger baby transfer mechanism includes: reciprocal transfer component, overturning component；The reciprocal transfer component includes: horizontal past Multiple driving portion, reciprocal transfer platform, the horizontal reciprocating driving portion and the reciprocal transfer platform are drivingly connected, and the level is past Multiple driving portion drives reciprocal transfer platform reciprocating type mobile along the horizontal plane；The overturning component includes: overturning support, turns over Turn jig, overturning driving portion, the overturning support is fixed in the reciprocal transfer platform, and the overturning jig rotation is set to On the overturning support, the overturning driving portion and the overturning jig are drivingly connected, described in the overturning driving portion driving Overturning jig rotation；

The charger baby squeeze-film mechanism includes: press mold support base, press mold crane, press mold driving portion；Press mold crane edge Vertical direction sliding is set on the press mold support base, and the press mold crane is equipped with press mold roller, the press mold driving portion It is installed on the press mold support base, the output end of the press mold driving portion is equipped with elevating lever, and the press mold driving portion drives institute It states elevating lever back and forth to go up and down along the vertical direction, the elevating lever sliding is arranged in the press mold crane；

The charger baby squeeze-film mechanism further includes shock-damping structure；The shock-damping structure include: damping spring, lower pressure ring, shock ring, Jack ring；The lower pressure ring and the jacking ring are fixedly sheathed on the elevating lever, and the shock ring is slidably socketed in described On elevating lever, the lower pressure ring, shock ring, jacking ring are successively intervally arranged along the extended line direction of the elevating lever, described to subtract Shake spring slide is socketed on the elevating lever and between the lower pressure ring and the shock ring, and the shock ring is held in On the press mold crane, the jacking ring is abutted or is separated with the press mold crane；

The charger baby film pasting mechanism includes: pad pasting support base, unreeling wheel, winding wheel, protective film separating plate；The unreeling wheel and The winding wheel rotation is set on the pad pasting support base, and the protective film separating plate is fixed on the pad pasting support base, The protective film separating plate is obliquely installed, and the plate face and horizontal plane of the protective film separating plate form angle.

2. protective film attaching device according to claim 1, which is characterized in that the horizontal reciprocating driving portion is electric cylinders driving Structure.

3. protective film attaching device according to claim 1, which is characterized in that the overturning driving portion is motor driven knot Structure.

4. protective film attaching device according to claim 1, which is characterized in that the press mold driving portion is cylinder driving knot Structure.

5. protective film attaching device according to claim 4, which is characterized in that the press mold roller is cylindrical tube knot Structure.

6. protective film attaching device according to claim 1, which is characterized in that be arranged rubber sleeve on the press mold roller.

7. protective film attaching device according to claim 1, which is characterized in that the charger baby film pasting mechanism further includes winding Driving portion, the winding driving portion and the winding wheel are drivingly connected, and the winding driving portion drives the winding wheel rotation.

8. protective film attaching device according to claim 7, which is characterized in that the winding driving portion is motor driven knot Structure.

9. a kind of charger baby production equipment, which is characterized in that including pasting protective film described in any one of claim 1 to 8 Device further includes the loading and unloading transmitting device with protective film attaching device cooperation.