CN209668425U - Roller - Google Patents

Abstract

A kind of roller, including body part, the first part and second part that the outer surface of the body part has color different, the first part and the second part intersection are formed with radial direction tag line made of extending along the roller.So set, the utility model roller surface is smooth and is formed with the identification line that the division is clearly demarcated for calibration, substrate damage is avoided, it is final to promote battery manufacture security performance.

Description

Roller

Technical field

The utility model relates to a kind of rollers, belong to automatic battery equipment technical field.

Background technique

Multiple transfer rollers are set in up- coiler for transmitting substrate, check substrate on transfer roller for convenience of operator Axial position needs to be arranged on transfer roller reference line, in the prior art using on transfer roller groove mode identify substrate Tape transport benchmark.

But the mode of groove can destroy the smoothness of transmission roller surface on transfer roller, groove is easy to cause roll surface to produce Raw sharp burrs, when the scale link friction on substrate and transfer roller, burr easy damaged substrate surface finally influences coiling and molding Battery core security performance.

Therefore, it is necessary to provide the new roller of one kind to solve the above problems.

Utility model content

Identification line can be formed for the roller of calibration without destroying outer surface the purpose of this utility model is to provide a kind of.

To achieve the above objectives, the present invention adopts the following technical solutions: a kind of roller, including body part, the ontology The first part and second part that the outer surface in portion has color different, the first part and the second part intersection shape At the radial direction tag line made of extending having along the roller.

As the further improved technical solution of the utility model, the first part be formed with the first oxide layer and/or Dye layer, the second part are formed with the second oxide layer and/or dye layer, first oxide layer and second oxide layer Color is different, and first oxide layer is different from the dye layer color, and second oxide layer and the dye layer color are not Together.

As the further improved technical solution of the utility model, the first part is formed with the first oxide layer and cladding Dye layer in first oxide layer outer surface, the second part are simply formed with the dye layer, first oxide layer It is different from the dye layer color.

As the further improved technical solution of the utility model, the first part is formed with the first oxide layer, described Second part is formed with the second oxide layer, and first oxide layer is different from the second oxide layer color.

As the further improved technical solution of the utility model, the first part is formed with the first oxide layer and cladding Dye layer in first oxide layer outer surface, the second part only form the second oxide layer, second oxide layer with The dye layer color is different.

As the further improved technical solution of the utility model, first oxide layer with a thickness of 0.001mm~ 0.003mm。

As the further improved technical solution of the utility model, second oxide layer with a thickness of 0.001mm~ 0.003mm。

As the further improved technical solution of the utility model, the dye layer with a thickness of 0.001mm~ 0.003mm。

As the further improved technical solution of the utility model, the roller is made of aluminum alloy materials.

Compared to the prior art, first part and second part of the utility model roller by setting different colours, thus The radial direction formed along the roller avoids substrate from transmitting on roller around the tag line extended so that roller surface keeps smooth When the problem of damaging substrate since roller surface portrays tag line appearance, it is final to promote battery manufacture security performance.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of the utility model roller.

Specific embodiment

It please join shown in Fig. 1, the utility model discloses a kind of roller 100, and the roller 100 is applied to up- coiler (not shown) The transfer roller of middle transmission substrate.The roller 100 includes the outer surface 10 of body part 1 and the body part 1.The outer surface 10 is divided For the different first part 101 of color and second part 102, the first part 101 and the 102 intersection shape of second part At the radial direction tag line 103 made of extending having along the roller 100.

In the utility model first embodiment, the first part 101 of the roller 100 can be to pass through anodic oxygen Change forms after oxide layer the first part 101 with the first color for dyeing formation again, and the second part 102 is only to pass through dye Color forms the second part 102 with the second color after dye layer, and the oxide layer is different from the dye layer color, described Oxide layer and the dye layer intersection form the tag line 103.

The production method of specific aforementioned roller, includes the following steps:

S1, roller, non-conductive covering (not shown) are provided, the non-conductive covering is shielded in the outer of the roller 100 Surface forms the radial direction ring along the roller 100 between the edge of the non-conductive covering and the outer surface of the roller 100 Around the line of demarcation of extension, the outer surface is divided into first part 101 and second part 102 by the line of demarcation, described non-conductive Covering is shielded in the second part 102, and the non-conductive covering is not turned on the second part 102；

S2, the first part 101 is formed into the first oxide layer, the thickness of first oxide layer by anodic oxidation mode Degree is 0.001mm~0.003mm；

S3, the roller 100 after S2 step is removed into the non-conductive covering, whole soaking and dyeing, the roller 100 outer surface forms dye layer, the dye layer with a thickness of 0.001mm~0.003mm, the first part 101 The first oxide layer and dye layer cooperatively form the first part with the first color, only with dye layer second part 102 Be formed with second color different from the first color, at this point, due to color difference, the first part 101 with described second 102 intersections are divided to form the radial direction along the roller around the tag line 103 extended.

In other embodiments, can also exchanging first part 101 and the production method of second part 102, i.e., will The second part 102 of the roller 100 formed after oxide layer by anodic oxidation dye again formation with the second color Second part 102, the first part 101 are only to form the first part with the first color after dye layer by dyeing 101, the oxide layer is different from the dye layer color, and the oxide layer and the dye layer intersection form the tag line 103.The production method step of specific steps first embodiment as described above, only has exchanged first part 101 and second Divide 102 production method, therefore, details are not described herein.

In the utility model second embodiment, the first part 101 of the roller 100 can be only to pass through anode Oxidation forms the first part 101 with the first color after the first oxide layer, and the second part 102 is only to pass through anodic oxygen Change the second part 102 with the second color after forming the second oxide layer, first oxide layer and second oxide layer Color is different, and first oxide layer and the second oxide layer intersection form the tag line 103.

The production method of specific aforementioned roller, includes the following steps:

S1, roller, non-conductive covering are provided, the non-conductive covering are shielded in the outer surface of the roller, it is described not The radial direction along the roller is formed between the edge of conductive covering and the outer surface of the roller around the line of demarcation extended, institute It states line of demarcation and the outer surface is divided into first part 101 and second part 102, the non-conductive covering is shielded in described Two parts 102, the non-conductive covering are not turned on the second part 102；

S2, the first part 101 is formed into the first oxide layer with the first color by anodic oxidation mode, it is described First oxide layer with a thickness of 0.001mm~0.003mm；

S3, the roller after S2 step is removed into the non-conductive covering, then non-conductive covering is shielded in The second part 102 is formed the second oxide layer with the second color by anodic oxidation mode by first oxide layer, Second oxide layer with a thickness of 0.001mm~0.003mm, first oxide layer and the second oxide layer color are not Together, first oxide layer and the second oxide layer intersection form the radial direction along the roller around the tag line extended 103。

In the utility model third embodiment, the first part 101 of the roller 100 can be to pass through anodic oxygen Change is formed after oxide layer dyes the first part 101 with the first color to form dye layer again, and the second part 102 is only The second part 102 with the second color after forming oxide layer by anodic oxidation, the dye layer and the oxide layer face Color is different, and the dye layer and the oxide layer intersection form the tag line 103.

The production method of specific aforementioned roller, includes the following steps:

S1, roller is provided, the first oxide layer is formed in the outer surface of the roller 100 by anodic oxidation mode；

S2, non-conductive covering is provided, the non-conductive covering is shielded in the outer surface of first oxide layer, institute It states formation between the edge of non-conductive covering and the outer surface of first oxide layer and is surround along the radial direction of the roller and prolonged The outer surface of first oxide layer is divided into first part 101 and second part 102, institute by the line of demarcation stretched, the line of demarcation It states non-conductive covering and is shielded in the second part 102, the non-conductive covering leads the second part 102 not It is logical；

S3, the first part of the roller Jing Guo S2 step is dyed, 101 outer surface of first part forms dyeing Layer, the dye layer with a thickness of 0.001mm~0.003mm, remove the non-conductive covering, the first part 101 with 102 color of second part is different, and the first part 101 is formed with 102 intersection of second part along the roller 100 Radial direction around extend tag line 103.

It in other embodiments, can also exchanging first part 101 and the production method of second part 102, i.e. institute The second part 102 for stating roller 100 can be for by dyeing to form having for dye layer again after anodic oxidation formation oxide layer The second part 102 of second color, the first part 102 are only by having the first face after anodic oxidation formation oxide layer The first part 101 of color, the dye layer is different from the oxide layer color, the dye layer and the oxide layer intersection shape At the tag line 103.The production method step of specific steps third embodiment as described above, only has exchanged first part 101 with the production method of second part 102, therefore, details are not described herein.

In the present invention, the roller 100 is made of aluminum alloy materials, and the non-conductive covering is rubber, poly- first One of aldehyde, resin are made.The anode oxidation method is the prior art, and the dyeing is the prior art, therefore, herein no longer It repeats.

Compared to the prior art, the utility model by anodic oxidation, dyeing production method and cooperate non-conductive masking The use of part, so that first part 101 and the second part 102 of different colours are formed in the outer surface of roller 100 10, at first Divide 101 tag line 103 radially around extension with the formation of 102 intersection of second part along the roller 100, it is practical new by this The production method of type roller makes tag line 103 so that 100 surface of roller keeps smooth, avoid substrate when being transmitted on roller 100 due to The problem of roller surface portrays tag line and damages substrate appearance, it is final to promote battery manufacture security performance.

Above embodiments are merely to illustrate the utility model and not limit technical solution described in the utility model, right The understanding of this specification should based on person of ordinary skill in the field, such as to "front", "rear", "left", "right", The description of "upper", "lower" isotropy, although this specification has been carried out in detail the utility model referring to the above embodiments Explanation, still, those skilled in the art should understand that, person of ordinary skill in the field still can be to this reality It is modified or replaced equivalently, and the technical solution of all spirit and scope for not departing from the utility model and its changed with novel Into should all cover in the scope of the claims of the utility model.

Claims (9)

1. a kind of roller, including body part, it is characterised in that: the outer surface of the body part have the different first part of color and Second part, the first part and the second part intersection are formed with the radial direction along the roller around extending Tag line.

2. roller as described in claim 1, it is characterised in that: the first part is formed with the first oxide layer and/or dye layer, The second part is formed with the second oxide layer and/or dye layer, and first oxide layer and the second oxide layer color are not Together, first oxide layer is different from the dye layer color, and second oxide layer is different from the dye layer color.

3. roller as claimed in claim 2, it is characterised in that: the first part is formed with the first oxide layer and is coated on described The dye layer of first oxide layer outer surface, the second part are simply formed with the dye layer, first oxide layer with it is described Dye layer color is different.

4. roller as claimed in claim 2, it is characterised in that: the first part is formed with the first oxide layer, and described second Divide and be formed with the second oxide layer, first oxide layer is different from the second oxide layer color.

5. roller as described in claim 1, it is characterised in that: the first part is formed with the first oxide layer and is coated on described The dye layer of first oxide layer outer surface, the second part only form the second oxide layer, second oxide layer and the dye Chromatograph color is different.

6. the roller as described in any one of claim 2 to 5, it is characterised in that: first oxide layer with a thickness of 0.001mm~0.003mm.

7. the roller as described in any one of claim 4 to 5, it is characterised in that: second oxide layer with a thickness of 0.001mm~0.003mm.

8. the roller as described in any one of claim 2,3 and 5, it is characterised in that: the dye layer with a thickness of 0.001mm ~0.003mm.

9. roller as described in claim 1, it is characterised in that: the roller is made of aluminum alloy materials.