CN205096785U - Insulating film incision jacking device and stitch welding machine - Google Patents

Abstract

The utility model provides an insulating film incision jacking device for install in the frame, it can include jacking device, arm and controlling means, the arm sets up in the frame, jacking device and the arm with the electricity is connected and is received between the controlling means controlling means control, jacking device includes roof pressure grabbing device and roof pressure strutting arrangement, be provided with the concave station on the roof pressure strutting arrangement, roof pressure strutting arrangement still includes vacuum absorption hole, roof pressure grabbing device includes crossbeam and compression leg. The embodiment of the utility model provides a still provide a stitch welding machine.

Description

Dielectric film otch jack unit and stitch welding machine

Technical field

The utility model relates to mechanical equipment technical field, particularly a kind of dielectric film otch jack unit and stitch welding machine.

Background technology

Solar module is a kind of is the TRT of electric energy for being seated in thermal-arrest under sunlight, by light energy conversion.The manufacture process of solar module is, multiple cell piece series welding for thermal-arrest need be connected into battery strings, more multiple battery strings be again connected in series by convergent belt, finally make solar module.By multiple battery strings by convergent belt again in concatenation process, short circuit may be caused owing to using multiple convergent belt, need with spaced apart to reach insulation object by the convergent belt of lower floor and the convergent belt on upper strata of dielectric film, cut out portion by dielectric film penetrates below the terminal box end of bending convergent belt, part beyond dielectric film otch covers on the welding region of convergent belt, this operation is always by manually completing, this makes the production efficiency of battery component low, required hand labor intensity is large, and the degree of reliability is low.

Summary of the invention

In view of this, be necessary to provide a kind of dielectric film otch jack unit and stitch welding machine.

The utility model embodiment provides a kind of dielectric film otch jack unit, for being arranged on frame, it can comprise jack unit, mechanical arm and control device, described mechanical arm is arranged in described frame, described jack unit and be electrically connected between described mechanical arm with described control device and control by described control device, described jack unit comprises top pressure grabbing device and top pressure bracing or strutting arrangement;

Described top pressure bracing or strutting arrangement is arranged in described frame, described top pressure bracing or strutting arrangement is provided with concave station, described concave station is for carrying the dielectric film on dielectric film between two otch, and described top pressure bracing or strutting arrangement also comprises the vacuum absorption holes for fixing described dielectric film;

Described top pressure grabbing device comprises crossbeam and compression leg, described crossbeam is connected to described mechanical arm and moves for following described mechanical arm, described compression leg is connected to described crossbeam, when described mechanical arm drive described top pressure grabbing device move to fixed placement have the described top of described dielectric film to press above bracing or strutting arrangement time, the compression leg top pressure side of described compression leg contacts with the dielectric film between described two otch, dielectric film between described two otch is pressed to top, described concave station direction by Action of Gravity Field by described compression leg, the dielectric film between described two otch is made to have tilting angle relative to the dielectric film not on described dielectric film between two otch, obtain the dielectric film after pushing up pressure.

More preferably, described top pressure grabbing device also comprises vacuum absorption device, and described vacuum absorption device is connected to described crossbeam, and described vacuum absorption device is for adsorbing the dielectric film after the pressure of described top.

More preferably, described top pressure grabbing device also comprises elastic mechanism, described elastic mechanism is connected between described compression leg and described crossbeam, when described compression leg top pressure side touches the material not producing deformation, described compression leg produces the effect of power to described elastic mechanism, thus makes described elastic mechanism generation elastic deformation.

More preferably, the dielectric film between described two otch and exist between described dielectric film not on described dielectric film between two otch and embed space, described embedding space is for making convergent belt pass described embedding space and with described to push up the dielectric film after pressing mutually embedding.

More preferably, the width of described compression leg top pressure side be no more than described top pressure after dielectric film need through two convergent belt terminal box ends spacing;

When described mechanical arm drives described top pressure grabbing device to move to the top of described two convergent belt terminal box ends, the described vacuum absorption device of described top pressure grabbing device is adsorbed with the described dielectric film after pressing that pushes up, dielectric film between described two otch penetrates from described two convergent belt terminal box end bottoms, make described two convergent belts through described embedding space and with described to push up the dielectric film after pressing mutually embedding, described dielectric film not on described dielectric film between two otch covers on described two convergent belts, top pressure effect through described compression leg top pressure side after dielectric film between described two otch penetrates described two convergent belt terminal box end bottoms resets.

More preferably, described concave station is slope shape concave station, and the width of described concave station is not less than the width of the dielectric film between described two otch.

The utility model embodiment also provides a kind of stitch welding machine, and it can comprise frame, supply film device and dielectric film otch jack unit,

Described dielectric film otch jack unit is aforesaid dielectric film otch jack unit;

The described film device that supplies is arranged in described frame, for providing described dielectric film for described dielectric film otch jack unit and described dielectric film being transferred to described top pressure bracing or strutting arrangement.

The utility model embodiment has by providing dielectric film otch jack unit automatically to make the dielectric film tilting angle, to support that stitch welding machine places dielectric film easily, the operation making stitch welding machine place dielectric film becomes automation, can improve the production efficiency of battery component.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the utility model embodiment, be briefly described to the accompanying drawing used required in embodiment below, apparently, accompanying drawing in the following describes is some embodiments of the utility model embodiment, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Accompanying drawing 1 is the perspective view of the dielectric film otch jack unit of a better embodiment.

Accompanying drawing 2 is that the top pressure grabbing device of dielectric film otch jack unit in Fig. 1 captures dielectric film by the perspective view of door shape otch layering.

Accompanying drawing 3 is that the top pressure grabbing device of dielectric film otch jack unit in Fig. 1 captures dielectric film by the left TV structure schematic diagram of door shape otch layering.

Accompanying drawing 4 is that the top of dielectric film otch jack unit in Fig. 1 presses bracing or strutting arrangement to arrange the plan structure schematic diagram of concave station and one group of vacuum absorption holes at dielectric film door shape suitable order.

Accompanying drawing 5 is plan structure schematic diagrames that the welding of the short convergent belt of L shape before dielectric film otch jack unit wears dielectric film in Fig. 1 after solar module bending and battery strings terminal box end welds together.

Accompanying drawing 6 is that in Fig. 1, dielectric film otch jack unit puts on dielectric film, and door shape otch inboard portion is in below the short convergent belt of L shape of bending, and door shape otch both sides Outboard Sections is in the plan structure schematic diagram above the short convergent belt of L shape.

Accompanying drawing 7 is that in Fig. 1, dielectric film otch jack unit puts on dielectric film, and door shape otch inboard portion is in below the short convergent belt of L shape of bending, and door shape otch both sides Outboard Sections is in the perspective view above the short convergent belt of L shape.

Accompanying drawing 8 is that in Fig. 1, dielectric film otch jack unit puts on dielectric film, and door shape otch inboard portion is in below the short convergent belt of L shape of bending, and door shape otch both sides Outboard Sections is in the perspective view of the partial enlargement above the short convergent belt of L shape.

A kind of dielectric film schematic shapes that accompanying drawing 9 provides for the utility model embodiment.

The another kind of dielectric film schematic shapes that accompanying drawing 10 provides for the utility model embodiment.

Accompanying drawing 11 is partial structurtes schematic diagrames of a kind of stitch welding machine of the utility model embodiment.

In figure: stitch welding machine (1), dielectric film otch jack unit (10), frame (20), jack unit (30), top pressure grabbing device (31), crossbeam (310), vacuum absorption device (311), compression leg (312), elastic mechanism (313), top pressure bracing or strutting arrangement (32), concave station (321), vacuum absorption holes (322), mechanical arm (40), for film device (50), transmitting device (60), dielectric film (100), dielectric film (101) between two otch, dielectric film (102) not on dielectric film between two otch, battery component (200), L shape convergent belt one (301), L shape convergent belt two (302).

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Please refer to Fig. 1 ~ Fig. 8, the utility model embodiment provides a kind of dielectric film otch jack unit 10, for being arranged on frame 20, it can comprise jack unit 30, mechanical arm 40 and control device, wherein, mechanical arm 40 is arranged in frame 20, jack unit 30 and mechanical arm 40 with to be electrically connected between control device and controlled device controls, jack unit 30 comprises top pressure grabbing device 31 and top pressure bracing or strutting arrangement 32.

In the dielectric film otch jack unit 10 that the utility model embodiment provides, top pressure bracing or strutting arrangement 32 is arranged in frame 20, top pressure bracing or strutting arrangement 32 is provided with concave station 321, this concave station 321 is for carrying the dielectric film 101 on dielectric film 100 between two otch, top pressure bracing or strutting arrangement 32 also comprises the vacuum absorption holes 322 for fixed insulation film 100, vacuum absorption holes 322 can make dielectric film 100 remain static in the pressure dielectric film process of top, avoids dielectric film 100 deviation position.As shown in Figure 2, vacuum absorption holes 322 on the pressure bracing or strutting arrangement 32 of top is at least one, the position on concave station both sides can be distributed in, because processed dielectric film is generally strip, then multiple vacuum absorption holes 322 of straight line arrangement can be set on the pressure bracing or strutting arrangement 32 of top.In addition, the shape of dielectric film 100 can be not limited only to the dielectric film of elongated strip shaped shown on Fig. 2, when user demand is variant, the shape of dielectric film 100 can also be the convex shown in Fig. 9 and Figure 10, wide bar shaped dielectric film, now, number and the arrangement mode of vacuum absorption holes 322 specifically should be arranged, to reach the object of fixed insulation film according to the shape of dielectric film 100.

In the dielectric film otch jack unit 10 that the utility model embodiment provides, top pressure bracing or strutting arrangement 32 pushes up presses the position of the concave station 321 that bracing or strutting arrangement 32 is arranged and number should determine according to the true form demand of dielectric film 100, be not limited on the pressure bracing or strutting arrangement 32 of top shown in diagram and only have a concave station, when dielectric film 100 has multiple need top splenium position time or need to process many bar insulations film 100 simultaneously time, top pressure bracing or strutting arrangement 32 on can be provided with multiple concave station.

In the dielectric film otch jack unit 10 that the utility model embodiment provides, concave station 321 is slope shape concave station, and the width of concave station 321 is not less than the width of the dielectric film 101 between two otch, can wider than the width of the dielectric film 101 between two otch.

In the citing of the utility model embodiment, illustrate for two convergent belts stitch welding machine 1 welded as shown in Figure 5, therefore in the utility model embodiment, the dielectric film 100 needing dielectric film otch jack unit 10 to carry out processing only there are 2 otch, when more than 2 of lower floor's convergent belt stitch welding machine 1 needing insulated by dielectric film 100, dielectric film 100 not only should have 2 otch, and the processing instance of the utility model embodiment to the dielectric film 100 only having 2 otch should not be construed as the restriction to utility model scheme.In addition, these two convergent belts are exemplified as a kind of L-type convergent belt in the present embodiment by two convergent belts that stitch welding machine 1 as shown in Figure 5 has welded, and in the application of reality, the utility model embodiment is not subject to the restriction of convergent belt number and shape.

In the dielectric film otch jack unit 10 that the utility model embodiment provides, top pressure grabbing device 31 can comprise crossbeam 310 and compression leg 312 further, wherein, crossbeam 310 is connected to mechanical arm 40 and moves for following mechanical arm 40, compression leg 312 is connected to crossbeam 310, when mechanical arm 40 drive top pressure grabbing device 31 move to fixed placement have dielectric film 100 top pressure bracing or strutting arrangement 32 above time, the compression leg top pressure side of compression leg 312 contacts with the dielectric film 101 between two otch, dielectric film 101 between two otch is pressed to top, concave station 321 direction by Action of Gravity Field by compression leg 312, the dielectric film 101 between two otch is made to have tilting angle relative to the dielectric film 102 not on dielectric film 100 between two otch, obtain the dielectric film 100 after pushing up pressure.Wherein, on crossbeam 310, the number of compression leg 312 should be arranged according to the position of concave station 321 and number.

In the dielectric film otch jack unit 10 that the utility model embodiment provides, top pressure grabbing device 31 can further include vacuum absorption device 311, wherein, vacuum absorption device 311 is connected to crossbeam 310, and vacuum absorption device 311 is for adsorbing the dielectric film 100 after the pressure of top.As shown in Figure 2, on crossbeam 310, the vacuum absorption device 311 of distribution should be at least 2, and vacuum absorption device 311 is distributed in the both sides of compression leg 312.

In the dielectric film otch jack unit 10 that the utility model embodiment provides, top pressure grabbing device 31 can further include elastic mechanism 313, wherein, elastic mechanism 313 is connected between compression leg 312 and crossbeam 310, when compression leg top pressure side touches the material not producing deformation, compression leg 312 pairs of elastic mechanisms 313 produce the effect of power, thus make elastic mechanism 313 that elastic deformation occur.As shown in FIG. 2 and 3, through the elastic deformation of elastic mechanism 313 and the Action of Gravity Field of compression leg 312, pressure side place, the compression leg top height of compression leg 312 is lower than the vacuum suction end of vacuum absorption device 311, and this makes the dielectric film 102 pushed up between pressure two otch by compression leg 312 become possibility.In addition, the elastic compression degree of elastic mechanism 313 should meet compression leg 312 touch can not the object of deformation time, make pressure side place, the compression leg top height of compression leg 312 be not less than the vacuum suction end of vacuum absorption device 311 by the elastic compression of elastic mechanism 313.In the utility model embodiment, elastic mechanism 313 mainly plays cushioning effect, therefore also can be referred to as buffer gear, and elastic mechanism 313 can select spring etc. to have compression elongation ability, elastically-deformable object can occur.

In the dielectric film otch jack unit 10 that the utility model embodiment provides, press through pressure side top, compression leg top, dielectric film otch jack unit 10 has made the dielectric film 100 after the pressure of top, in dielectric film 100 after the pressure of this top, dielectric film 101 between two otch and exist between the dielectric film not on dielectric film 100 between two otch 102 and embed space, this embedding space can be used for that convergent belt is passed and embeds space and dielectric film 100 after pressing with top is mutually embedding.

In the dielectric film otch jack unit 10 that the utility model embodiment provides, dielectric film 100 after the width of compression leg top pressure side is no more than top pressure need through two convergent belt terminal box ends spacing, i.e. spacing A as shown in Figure 6, and all to leave gap between the terminal box end of compression leg top pressure side and two convergent belts be good, interfere phenomenon to avoid compression leg 312 and L shape convergent belt 1, L shape convergent belt 2 302.In the utility model embodiment, when mechanical arm 40 drives top pressure grabbing device 31 to move to the top of two convergent belt terminal box ends, the vacuum absorption device 311 of top pressure grabbing device 31 is adsorbed with the dielectric film 100 after pushing up pressure, dielectric film 101 between two otch penetrates from two convergent belt terminal box end bottoms, make two convergent belts through embed space and with top press after dielectric film 100 mutually embedding, dielectric film 102 not on dielectric film 100 between two otch covers on two convergent belts, top pressure effect through compression leg top pressure side after dielectric film 101 between two otch penetrates two convergent belt terminal box end bottoms resets.

The utility model embodiment has by providing dielectric film otch jack unit automatically to make the dielectric film tilting angle, to support that stitch welding machine places dielectric film easily, the operation making stitch welding machine place dielectric film becomes automation, improves the production efficiency of battery component.

The utility model embodiment also provides a kind of stitch welding machine 1, it can comprise frame 20, for film device 50 and dielectric film otch jack unit 10, transmitting device 60 can also be comprised, wherein dielectric film otch jack unit 10 can be the dielectric film otch jack unit 10 of the arbitrary description of Fig. 1 to Fig. 8 in accompanying drawing, as shown in figure 11, be arranged in frame 20 for film device 50, for providing dielectric film 100 for dielectric film otch jack unit 10, and dielectric film 100 is transferred to top pressure bracing or strutting arrangement 32, mechanical arm 40 is positioned at above frame 20, be positioned in the middle part of frame 20 for film device 50, transmitting device 60 is positioned at below frame 20.

Module in the utility model embodiment device or unit can carry out merging, divide and deleting according to actual needs.

Above disclosedly be only the utility model preferred embodiment, certainly the interest field of the utility model can not be limited with this, one of ordinary skill in the art will appreciate that all or part of flow process realizing above-described embodiment, and according to the equivalent variations that the utility model claim is done, still belong to the scope that utility model contains.

Claims (7)

1. a dielectric film otch jack unit, for being arranged on frame, it is characterized in that, comprise jack unit, mechanical arm and control device, described mechanical arm is arranged in described frame, described jack unit and be electrically connected between described mechanical arm with described control device and control by described control device, described jack unit comprises top pressure grabbing device and top pressure bracing or strutting arrangement;

Described top pressure bracing or strutting arrangement is arranged in described frame, described top pressure bracing or strutting arrangement is provided with concave station, described concave station is for carrying the dielectric film on dielectric film between two otch, and described top pressure bracing or strutting arrangement also comprises the vacuum absorption holes for fixing described dielectric film;

Described top pressure grabbing device comprises crossbeam and compression leg, described crossbeam is connected to described mechanical arm and moves for following described mechanical arm, described compression leg is connected to described crossbeam, when described mechanical arm drive described top pressure grabbing device move to fixed placement have the described top of described dielectric film to press above bracing or strutting arrangement time, the compression leg top pressure side of described compression leg contacts with the dielectric film between described two otch, dielectric film between described two otch is pressed to top, described concave station direction by Action of Gravity Field by described compression leg, the dielectric film between described two otch is made to have tilting angle relative to the dielectric film not on described dielectric film between two otch, obtain the dielectric film after pushing up pressure.

2. dielectric film otch jack unit as claimed in claim 1, is characterized in that, described top pressure grabbing device also comprises vacuum absorption device, and described vacuum absorption device is connected to described crossbeam, and described vacuum absorption device is for adsorbing the dielectric film after the pressure of described top.

3. dielectric film otch jack unit as claimed in claim 2, it is characterized in that, described top pressure grabbing device also comprises elastic mechanism, described elastic mechanism is connected between described compression leg and described crossbeam, when described compression leg top pressure side touches the material not producing deformation, described compression leg produces the effect of power to described elastic mechanism, thus makes described elastic mechanism generation elastic deformation.

4. dielectric film otch jack unit as claimed in claim 3, it is characterized in that, dielectric film between described two otch and exist between described dielectric film not on described dielectric film between two otch and embed space, described embedding space is for making convergent belt pass described embedding space and with described to push up the dielectric film after pressing mutually embedding.

5. dielectric film otch jack unit as claimed in claim 4, is characterized in that,

Dielectric film after the width of described compression leg top pressure side is no more than described top pressure need through two convergent belt terminal box ends spacing;

When described mechanical arm drives described top pressure grabbing device to move to the top of described two convergent belt terminal box ends, the described vacuum absorption device of described top pressure grabbing device is adsorbed with the described dielectric film after pressing that pushes up, dielectric film between described two otch penetrates from described two convergent belt terminal box end bottoms, make described two convergent belts through described embedding space and with described to push up the dielectric film after pressing mutually embedding, described dielectric film not on described dielectric film between two otch covers on described two convergent belts, top pressure effect through described compression leg top pressure side after dielectric film between described two otch penetrates described two convergent belt terminal box end bottoms resets.

6. dielectric film otch jack unit as claimed in claim 1, it is characterized in that, described concave station is slope shape concave station, and the width of described concave station is not less than the width of the dielectric film between described two otch.

7. a stitch welding machine, is characterized in that, comprises frame, supplies film device and dielectric film otch jack unit,

Described dielectric film otch jack unit is the dielectric film otch jack unit described in any one of claim 1-6;

The described film device that supplies is arranged in described frame, for providing described dielectric film for described dielectric film otch jack unit and described dielectric film being transferred to described top pressure bracing or strutting arrangement.