阅读说明：本技术 新型电池标签包装机 (Novel battery label packagine machine ) 是由 陶开云 于 2019-12-11 设计创作，主要内容包括：新型电池标签包装机,包括依次设置且通过料带相连的放卷机构、上胶机构、分离机构、输送同步机构、热收缩机构,本装置依次设置且通过料带相连的放卷机构、上胶机构、分离机构、输送同步机构、热收缩机构,通过这些机构实现去底材、去不干胶、去框边,使操作简便,工序减少,同时成本也降低了。(Novel battery label packagine machine, including set gradually and through continuous unwinding mechanism, rubberizing mechanism, separating mechanism, the transport lazytongs in material area, this device sets gradually and through continuous unwinding mechanism, rubberizing mechanism, separating mechanism, the transport lazytongs in material area, thermal contraction mechanism, through these mechanisms realize removing the substrate, remove the non-setting adhesive, remove the frame limit, make easy and simple to handle, the process reduces, and the cost has also reduced simultaneously.)

1. Novel battery label packagine machine, its characterized in that: including set gradually and through continuous unwinding mechanism (1), rubberizing mechanism (2), separating mechanism (3), transport lazytongs (4), the heat shrink mechanism in material area, wherein: the unwinding mechanism (1) comprises a feeding rack and a feeding roller (6), wherein the feeding roller (6) is fixed on the feeding rack to form a rotary unwinding mechanism of the material belt;

the gluing mechanism (2) comprises a gluing roller assembly (7), and the gluing roller assembly (7) is used for gluing the labels transferred by the traction roller assembly;

a separating mechanism (3) comprising a separating roller assembly (8), said separating roller assembly (8) being used for individually separating the labels finished by gluing;

the conveying synchronization mechanism (4) conveys a plurality of batteries which are arranged with the front faces upward at equal intervals;

the heat shrinking mechanism comprises a heating device, and the heating device is used for performing heat shrinking on two sides of the label.

2. The novel battery label wrapping machine of claim 1, wherein: unwinding mechanism (1) still includes constant tension device (9), constant tension device (9) are including swaing subassembly and deflector roll (12), deflector roll (12) are located the material belt up end, the subassembly that sways drive deflector roll (12) seesaw.

3. The novel battery label wrapping machine of claim 2, wherein: the swing assembly comprises a swing arm shaft (10) and a swing arm group (11), one end of the swing arm group (11) is movably connected with two ends of the swing arm shaft (10), and the other end of the swing arm is connected with two ends of a guide roller (12).

4. The novel battery label wrapping machine of claim 1, wherein: go up rubber roll subassembly (7) including reticulation roller (13), last rubber roll (14) and counterpoint carry over pinch rolls (15) that set gradually, reticulation roller (13) below be provided with glue fill (16).

5. The novel battery label wrapping machine of claim 4, wherein: still including counterpointing draw gear, counterpoint draw gear is located between unwinding mechanism (1) and rubberizing mechanism (2), counterpoint draw gear includes transverse location deflector roll (17) and pulls rubber roll (18), transverse location deflector roll (17) are located and pull rubber roll (18) top, pull rubber roll (18) on be equipped with electric eye (19), pull rubber roll (18) and counterpoint carry over pinch rolls (15) cooperation setting.

6. The novel battery label wrapping machine of claim 1, wherein: the separation roller assembly (8) comprises a reverse adsorption roller (20), an adsorption labeling roller (21) and a stretch breaking convex roller (22), the adsorption labeling roller (21) bears a material belt of the reverse adsorption roller (20), the reverse adsorption roller (20) and the stretch breaking convex roller (22) are located above the adsorption labeling roller (21), and the conveying synchronous mechanism (4) is located below the adsorption labeling roller (21).

7. The novel battery label wrapping machine of claim 6, wherein: the reverse rotation adsorption roller (20) is provided with an annular array of protrusions (23), the length of each protrusion (23) is smaller than or equal to the length of the label without glue, and the glued part is located in a gap between the protrusions (23).

8. The novel battery label wrapping machine of claim 7, wherein: the separating mechanism (3) further comprises a pressing rubber wheel (24), and the snapping convex roller (22) and the pressing rubber wheel (24) are respectively arranged on two sides of the reverse adsorption roller (20).

9. The novel battery label wrapping machine of claim 4 or 6, wherein: go up rubber roll (14) and stretch out protruding roller (22) circumferential surface all be equipped with a plurality of equidistance sand grip (25), interval between sand grip (25) sets up according to label length.

10. The novel battery label wrapping machine of claim 6, wherein: carry lazytongs (4) including chain (26), transmission sprocket group (27) and roll mark pinch roller subassembly (28), transmission sprocket group (27) drive chain (26) and rotate, roll mark pinch roller subassembly (28) and be located chain (26) upper end and be located and adsorb subsides mark roller (21) side.

Technical Field

The invention relates to the field of battery packaging, in particular to a novel battery label packaging machine.

Background

The existing battery package adopts two modes of self-adhesive labels and plastic sleeves, the self-adhesive labels are taken as the main part, and the packaging equipment serves the self-adhesive labels.

The pressure-sensitive adhesive label is normally prepared by coating silicone oil, pressure-sensitive adhesive and composite surface material on the base material, printing and die-cutting the surface material, wherein a certain frame edge is required to be kept for die-cutting, and the base material is discarded after the surface material is used, so that the operation is complicated, the working procedures are multiple, and the cost is also increased.

Disclosure of Invention

The invention aims to provide a novel battery label packaging machine which can smoothly complete battery label packaging by removing a base material, a frame edge and adhesive sticker of an original adhesive sticker battery label.

The technical scheme of the invention is as follows:

novel battery label packagine machine, including set gradually and through continuous unwinding mechanism, rubberizing mechanism, separating mechanism, the transport lazytongs, the heat shrink mechanism in material area, wherein: the unwinding mechanism comprises a feeding rack and a feeding roller, and the feeding roller is fixed on the feeding rack to form a rotary unwinding mechanism of the material belt;

the gluing mechanism comprises a gluing roller assembly, and the gluing roller assembly is used for gluing the labels transferred by the traction roller assembly;

a separating mechanism comprising a separating roller assembly for individually separating the glued labels;

the conveying synchronization mechanism conveys a plurality of batteries which are arranged with the front faces upward at equal intervals;

the heat shrinking mechanism comprises a heating device, and the heating device is used for performing heat shrinking on two sides of the label.

The unwinding mechanism further comprises a constant-tension device, the constant-tension device comprises a swinging assembly and a guide roller, the guide roller is located on the upper end face of the material belt, and the swinging assembly drives the guide roller to move front and back. The swing assembly comprises a rocker shaft and a rocker arm group, one end of the rocker arm group is movably connected with the two ends of the rocker shaft, and the other end of the rocker arm is connected with the two ends of the guide roller.

The gluing mechanism comprises an anilox roller, a gluing roller and an alignment traction roller which are sequentially arranged, and a glue bucket is arranged below the anilox roller.

Still include counterpoint draw gear, counterpoint draw gear is located between unwinding mechanism and the rubberizing mechanism, counterpoint draw gear includes the transverse orientation deflector roll and pulls the rubber roll, the transverse orientation deflector roll is located and pulls the rubber roll top, pull and be equipped with the electric eye on the rubber roll, pull the rubber roll and counterpoint carry over pinch rolls cooperation setting.

Separating mechanism includes reversal adsorption roller, adsorbs the subsides mark roller and draws disconnected protruding roller, the absorption subsides mark roller accept the material area of reversal adsorption roller, reversal adsorption roller and the top that draws disconnected protruding roller to be located the absorption subsides mark roller, carry the below that synchronous mechanism is located the absorption subsides mark roller.

The separating mechanism further comprises a pressing rubber wheel, and the snapping convex roller and the pressing rubber wheel are respectively arranged on two sides of the reverse adsorption roller.

The rubberizing roller all be equipped with the sand grip of a plurality of equidistance with stretch-break protruding roller circumferential surface, interval between the sand grip sets up according to label length.

Carry lazytongs includes chain, transmission sprocket group and rolls mark pinch roller subassembly, transmission sprocket group drives the chain and rotates, roll mark pinch roller subassembly and be located the chain upper end and be located and adsorb the mark roller side.

The chain be close to the below of adsorbing the subsides mark roller and be provided with and roll and paste the pinch roller subassembly, roll and paste the pinch roller subassembly and include synchronizing wheel, follower and hold-in range, synchronizing wheel and follower are installed in the hold-in range, the synchronizing wheel drive the follower rotation.

Has the advantages that:

the device is sequentially provided with the unwinding mechanism, the gluing mechanism, the separating mechanism, the conveying synchronous mechanism and the heat shrinkage mechanism which are connected through the material belt, and the mechanisms realize substrate removal, non-setting adhesive removal and frame edge removal, so that the device is simple and convenient to operate, the processes are reduced, and the cost is reduced.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a schematic structural diagram of the unwinding mechanism.

Fig. 3 is a schematic structural diagram of the separating mechanism, the gluing mechanism and the alignment traction device.

Fig. 4 is a schematic structural diagram of a gluing mechanism.

Fig. 5 is a schematic structural view of the separating mechanism.

FIG. 6 is a schematic view of a separator roll assembly configuration.

Fig. 7 is a first structural schematic diagram of the conveying synchronization mechanism.

Fig. 8 is a structural schematic diagram of a conveying synchronization mechanism.

Fig. 9 is an enlarged view of a portion a.

Fig. 10 is an enlarged view of the portion B.

The automatic labeling machine comprises an unwinding mechanism 1, a gluing mechanism 2, a separating mechanism 3, a conveying synchronizing mechanism 4, a feeding roller 6, a gluing roller assembly 7, a separating roller assembly 8, a constant-tension device 9, a rocker shaft 10, a rocker arm group 11, a guide roller 12, an anilox roller 13, a gluing roller 14, an alignment traction roller 15, a glue hopper 16, a transverse positioning guide roller 17, a traction rubber roller 18, an electric eye 19, a reverse adsorption roller 20, an adsorption labeling roller 21, a snapping convex roller 22, a convex part 23, a pressing rubber wheel 24, a convex strip 25, a chain 26, a transmission chain wheel group 27, a rolling labeling roller assembly 28 and a rolling labeling roller assembly 29.

Detailed Description

The invention will be further described with reference to the accompanying drawings in which:

novel battery label packagine machine, including set gradually and through the unwinding mechanism 1 that the material area links to each other, rubberizing mechanism 2, separating mechanism 3, carry lazytongs 4, heat shrink mechanism, wherein: the unwinding mechanism 1 comprises a feeding rack and a feeding roller 6, wherein the feeding roller 6 is fixed on the feeding rack to form a rotary unwinding mechanism of a material belt;

the gluing mechanism 2 comprises a gluing roller assembly, and the gluing roller assembly is used for gluing the labels transferred by the traction roller assembly;

the separating mechanism 3 comprises a separating roller assembly 8, the separating roller assembly 8 is used for separating the labels subjected to gluing individually, a plurality of equidistant holes are formed in the middle line of the labels, and the arrangement facilitates the individual label separation.

And the conveying synchronization mechanism 4 conveys a plurality of batteries which are arranged in an equidistance way with the front side facing upwards, and then the separated labels are individually wrapped with the batteries.

The heat shrinkage mechanism comprises a heating device, the heating device is used for performing heat shrinkage on two sides of the label, and the heating device is an oven.

The device is sequentially provided with the unwinding mechanism 1, the gluing mechanism 2, the separating mechanism 3, the conveying synchronizing mechanism 4 and the heat shrinkage mechanism which are connected through the material belt, and the mechanisms realize the removal of a substrate, the removal of non-setting adhesive and the removal of a frame edge, so that the operation is simple and convenient, the processes are reduced, and the cost is also reduced.

Unwinding mechanism 1 still includes permanent tension device 9, permanent tension device 9 is including swaing subassembly and deflector roll 12, deflector roll 12 is located the material belt up end, the subassembly that sways drive deflector roll 12 seesaw.

The swing assembly comprises a rocker arm shaft 10 and a rocker arm group 11, one end of the rocker arm group 11 is movably connected with two ends of the rocker arm shaft 10, and the other end of the rocker arm is connected with two ends of a guide roller 12.

The guide roller 12 is positioned on the upper end surface of the material belt, and when the material belt is too tight, the rocker arm is shaken by hands to enable the guide roller 12 to be separated from the upper end surface of the material belt to adjust the tightness of the material belt.

The gluing mechanism 2 comprises an anilox roller 13, a gluing roller 14 and an alignment traction roller 15 which are sequentially arranged, a glue bucket 16 is arranged below the anilox roller 13, cyclohexanone is placed in the glue bucket 16, the anilox roller 13 rolls in the glue bucket 16, the cyclohexanone is uniformly attached to the outer surface of the anilox roller 13 and then is matched with the gluing roller 14 to rotate, the cyclohexanone is transferred to a convex strip 25 on the upper glue roller 14, then the gluing roller 14 is matched with the alignment traction roller 15 to rotate, two sides of a label on the alignment traction roller 15 are coated, and the cyclohexanone and the label material pvc are dissolved, adhered and adhered.

Still include counterpoint draw gear, counterpoint draw gear is located between unwinding mechanism 1 and the rubberizing mechanism 2, counterpoint draw gear includes transverse location deflector roll 17 and pulls the rubber roll 18, transverse location deflector roll 17 is located and pulls the rubber roll 18 top, pull the rubber roll 18 on be equipped with electric eye 19, pull the rubber roll 18 and counterpoint the cooperation setting of traction roller 15, the label coiled material enters into counterpoint draw gear through unwinding mechanism 1, confirms the position of label through electric eye 19, can realize accurate rubberizing when making the label reach rubberizing mechanism 2.

Separating mechanism 3 includes reversal adsorption roller 20, adsorbs labeller roller 21 and stretch-break protruding roller 22, adsorption labeller roller 21 accept the material area of reversal adsorption roller 20, reversal adsorption roller 20 and stretch-break protruding roller 22 are located the top of adsorbing labeller roller 21, carry synchronous mechanism 4 to be located the below of adsorbing labeller roller 21, there is the differential in adsorption labeller roller 21 and the stretch-break protruding roller 22, is convenient for better separation label.

The reverse rotation adsorption roller 20 accepts the material belt after the gluing mechanism 2 and transfers the material belt to the adsorption labeling roller 21, and the reverse rotation adsorption roller 20 plays a role in combing the material belt, so that the next separation process can be better completed.

The reverse rotation adsorption roller 20 is provided with the annular array of protruding parts 23, the length of the protruding parts 23 is smaller than or equal to the length of the label for removing coating, and the coated part is just clamped in the gap between the protruding parts 23, so that the reverse rotation adsorption roller 20 is prevented from being sticky in the rotating process.

The separating mechanism 3 further comprises a pressing rubber wheel 24, and the snapping convex roller 22 and the pressing rubber wheel 24 are respectively arranged on two sides of the reverse adsorption roller 20.

Rubberizing roller 14 all be equipped with the sand grip 25 of a plurality of equidistance with stretch-break protruding roller 22 circumferential surface, interval between the sand grip 25 sets up according to label length.

Carry lazytongs 4 and include chain 26, transmission sprocket group 27 and roll mark pinch roller subassembly 28, transmission sprocket group 27 drives chain 26 and rotates, roll mark pinch roller subassembly 28 and be located 26 upper ends of chain and be located and adsorb mark roller 21 side, roll mark pinch roller subassembly 28 includes a plurality of gyro wheels and belt, carries out the secondary through marking the pinch roller subassembly to the label on the battery and compresses tightly.

The chain 26 be close to the below of adsorbing labeling roller 21 and be provided with and roll and paste the pinch roller subassembly, roll and paste the pinch roller subassembly and include synchronizing wheel, follower and hold-in range, synchronizing wheel and follower are installed in the hold-in range, the synchronizing wheel drive the follower rotation.

The rolling and pressing wheel assembly plays a role in pressing the battery in a rotating and wrapping mode.

The working process is as follows: the label coiled material enters the unwinding mechanism 1 and reaches the counterpoint draw gear and gets into the location, carry out rubberizing processing in the rubberizing mechanism 2, get into the reversal adsorption roller 20 afterwards, send it into the adsorption labeling roller 21, carry out equidistance separation with the label through the speed difference of snapping protruding roller 22 and adsorption labeling roller 21, the label that adsorbs on the adsorption labeling roller 21, when the battery sends out through carrying synchronization mechanism 4, the adsorption labeling roller 21 that this moment gets into negative pressure separation state makes the label that adsorbs on the adsorption labeling roller 21 adhere to the steel casing for the first time, then carry out rotatory parcel through the differential setting of adsorption labeling roller 21 and carrying synchronization mechanism 4, utilize the differential of rolling the pinch roller subassembly to carry out the secondary again to the label on the steel casing simultaneously and tighten up, the battery steel casing that wraps up gets into the thermal contraction mechanism, carry out the shrinkage on two sides, accomplish battery label packing.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The embodiments described with reference to the drawings are illustrative and are intended to be illustrative of the invention and should not be construed as limiting the invention. The examples should not be construed as limiting the present invention, but any modifications made based on the spirit of the present invention should be within the scope of protection of the present invention.