CN104364857A

CN104364857A - Applying apparatus and applying method

Info

Publication number: CN104364857A
Application number: CN201380031546.7A
Authority: CN
Inventors: 佐藤将太; 杉村恵吾; 谷口盛厚
Original assignee: Yazaki Corp
Current assignee: Yazaki Corp
Priority date: 2012-06-14
Filing date: 2013-05-27
Publication date: 2015-02-18
Also published as: MX2014015259A; PH12014502736A1; WO2013187266A1; EP2862183A1; JP2014017236A

Abstract

An applying apparatus (1) for applying a liquid agent to a coated part of an electric wire (100) includes a liquid agent tank (10) and a porous member (20). The liquid agent tank accommodates a liquid agent therein, and includes a pressurization mechanism (11) pressurizing an inside of the liquid agent tank. The porous member comes in contact with a coated part of the electric wire with holding the liquid agent delivered from the liquid agent tank, so as to apply the liquid agent to the coated part. The liquid agent tank delivers the liquid agent to the porous member by pressurization of the pressurization mechanism.

Description

Apparatus for coating and coating process

Technical field

The present invention relates to a kind of apparatus for coating and coating process.

Background technology

In order to identify the application target etc. of electric wire, as an example of apparatus for coating, the known labelling apparatus being carried out the electric wire of execution flag operation by the covered part at electric wire painted (coating) ink.As the labelling apparatus of electric wire, proposed a kind of device, it is from being arranged to spray ink (such as, patent documentation 1) towards multiple coloring nozzles of the electric wire be transferred towards electric wire.In addition, also proposed a kind of by from a coloring nozzle to electric wire spray ink come execution flag operation device (such as, patent documentation 2 and 3).

Reference listing

[patent documentation]

[patent documentation 1] JP-A-2008-93617

[patent documentation 2] JP-A-6-190341

[patent documentation 3] WO2004/015721

Summary of the invention

Technical problem

Labelling apparatus disclosed in patent documentation 1 to 3, because ink is from nozzle ejection, so cause the loss of ink because not being colored the ink of electric wire.

Therefore, consider so a kind of marking operation, wherein, ink bleed is to having in flexible porous member, and this porous member contacts to arrive this coating portion by painted for ink thus with the coating portion of electric wire.But, owing to being performed by capillary force in ink bleed to porous member, so be difficult to perform the marking operation employing the high viscosity ink with hypotonicity.

Meanwhile, the problems referred to above are not limited to painted for the ink labelling apparatus to electric wire and method, and are also applicable to other apparatus for coating and method.That is, the problems referred to above also occur in the apparatus for coating and method that high viscosity resins (such as undercoating agent) or high viscosity coating agent are applied to electric wire.

Therefore, a strong aspect of the present invention is to provide and a kind ofly can optimizes apparatus for coating when the coating portion that high viscosity liquid agent is applied to electric wire and coating process.

Technical scheme

According to advantage of the present invention, provide a kind of apparatus for coating of the coating portion for liquid agent being applied to electric wire, this apparatus for coating comprises:

Liquid agent tank, this liquid agent tank is configured to liquid agent to be contained in wherein, and comprises the pressing mechanism being configured to clamp the inside of described liquid agent tank; And

Porous member, this porous member is formed at and keeps contacting with the coating portion of described electric wire from the state of the described liquid agent of described liquid agent tank conveying, so that described liquid agent is applied to described coating portion,

Wherein, by the pressurization of described pressing mechanism, described liquid agent is transported to described porous member by described liquid agent tank.

Described apparatus for coating may further include felt portion, this felt portion is arranged between described liquid agent tank and described porous member, and is configured to the described liquid agent that absorbs from the conveying of described liquid agent tank and the infiltration of the liquid agent of described absorption is fed to described porous member.

According to another advantage of the present invention, provide a kind of coating process of the coating portion for liquid agent being applied to electric wire, this coating process comprises:

The first process of described liquid agent is also carried thus by the internal pressurization of pressing mechanism to the liquid agent tank wherein accommodating described liquid agent of liquid agent tank; And

The described liquid agent of carrying in described first process to be remained in porous member and to make the second process that the described porous member of the described liquid agent of maintenance contacts with the coating portion of described electric wire.

Beneficial effect of the present invention

According to this apparatus for coating, by the pressurization of pressing mechanism, liquid agent is transported to porous member.Therefore, even if when use has the high viscosity liquid agent of hypotonicity, also liquid agent can be fed to porous member fully.Thus, not easily there is the bad and optimization that can realize when in coating portion high viscosity liquid agent being applied to electric wire of coating.

According to this apparatus for coating, felt portion is plugged between liquid agent tank and porous member.Therefore, be directly fed to the structure of moveable porous member compared to liquid agent, because liquid once was penetrating in the felt portion of not movement, leak so can make that liquid agent not easily occurs.In addition, when plant felt portion, liquid agent should be made smoothly to penetrate in felt portion, this makes more to be difficult to perform painting work by high viscosity liquid agent.But, even if in this case, also can by adjust pressing mechanism plus-pressure or pressing time transfer of highly viscous liquid agent fully.Therefore, while suppression liquid agent is leaked, the optimization when high viscosity liquid agent being applied to the coating portion of mark electric wire can be realized.

According to this coating, by the pressurization of pressing mechanism, liquid agent is transported to porous member.Therefore, even if when use has the high viscosity liquid agent of hypotonicity, also liquid agent can be fed to porous member fully.Thus, not easily occur to be coated with optimization that is bad and that can realize when high viscosity liquid agent being applied to the coating portion of mark electric wire.

According to the present invention, can provide a kind of can realize when high viscosity liquid agent is applied to mark electric wire coating portion time optimized apparatus for coating and coating process.

Accompanying drawing explanation

Fig. 1 is the schematic configuration diagram of the example of the apparatus for coating illustrated according to illustrative embodiment of the present invention.

Fig. 2 is the magnified partial view in the impression portion shown in Fig. 1.

Fig. 3 is the application drawing of the labeling method that electric wire is shown, shows unit state during mark.

Fig. 4 is the application drawing of the labeling method that electric wire is shown, shows the unit state being in holding state.

Fig. 5 illustrates the electric wire that be marked by the labelling apparatus of electric wire according to illustrative embodiment.

Description of reference numerals

1 labelling apparatus

10 ink tanks

20 impression portions

30 felt portions

40 housings

41 peristomes

42 guide portion

100 electric wires

101,102 points

Embodiment

Below, preferred descriptions embodiment of the present invention will be described with reference to the drawings.Fig. 1 is the schematic configuration diagram of the example of the apparatus for coating illustrated according to illustrative embodiment of the present invention.Hereinafter, the labelling apparatus of execution flag operation in the coating portion of electric wire will be exemplified.But, it should be noted that apparatus for coating is not limited to this labelling apparatus.

The labelling apparatus (apparatus for coating) 1 of the electric wire 100 shown in Fig. 1 performs the marking operation for identifying electric wire in the coating portion of electric wire 100, and comprises: hold ink (such as the high viscosity liquid agent of UV cured printing ink etc.) in ink tank (liquid agent tank) 10 wherein; Two impression portions (porous member) 20; Guide the felt portion 30 of the ink in ink tank 10; And housing 40.

Ink tank 10 is for by ink receptive wherein and present the roughly infundibulate with major diameter peristome 10a and small-diameter opening part 10b.Felt portion 30 is inserted through the small-diameter opening part 10b of ink tank 10 and the ink in ink tank 10 permeates to impression portion 20 from small-diameter opening part 10b through felt portion 30.In addition, ink tank 10 is constructed to make when the ink in this ink tank 10 reaches scheduled volume, separates the cover (also as the parts of pressing mechanism 11 will described after a while) of major diameter peristome 10b side with supplementary ink.Meanwhile, ink tank 10 is not limited to supplement type and can is print cartridge type.In addition, ink tank 10 is not limited to shape shown in Fig. 1 etc. and also can adopts other shape.

Impression portion 20 is made of porous materials, such as, be by using acrylic fiber, polyester fiber, nylon (registered trade mark) fiber or vinylon fibre as raw material and using these fibers of resin solidification or sinter the material that these fibers obtain.Impression portion 20 is by the ink receptive carried from ink tank 10 and remain on wherein.In addition, impression portion 20 is arranged to vertically be clamped in therebetween by electric wire 100, and is driven to move up in side close to each other by controller.That is, impression portion 20 moves with vertically grip wire 100.Thus impression portion 20 contacts with the coating portion of electric wire being remained on by ink under state wherein, and ink is applied to coating portion with execution flag thus.Meanwhile, as shown in the sectional view of Fig. 1, two impression portions 20 separate mutually.But in fact two impression portions are formed as U-shaped or spill and construct integratedly thus.Therefore, the ink being fed to impression portion 20 also penetrates in lower impression portion 20.

Felt portion 30 is plugged between ink tank 10 and impression portion 20, absorb from ink tank 10 carry ink and by absorb ink feed to impression portion 20.Any felt portion 30 with capillary gap can be used.Can adopt, such as, the process of resin body of fibre bundle, the heat of fibre bundle melt processome, felt processome, the acupuncture processome of felt, such as synthetic resin porous foams porous material, there is the extrusion-molded body etc. of the synthetic resin of axial ink path of navigation.As the material in felt portion 30, the synthetic fibers resin of such as acrylic resin, mylar etc. can be used.In addition, felt portion 30 can be arranged in its periphery and has the crust be made up of film of synthetic resin, metal etc.

In addition, in this illustrative embodiment, ink tank 10 has pressing mechanism 11.Pressing mechanism 11 is can from the major diameter peristome 10a of ink tank 10 to the piston of small-diameter opening part 10b movement.Piston moves to small-diameter opening part 10b, thus the internal pressurization to ink tank 10.

Fig. 2 is the magnified partial view in the impression portion 20 shown in Fig. 1.As shown in Figure 2, impression portion 20 is constructed such that its front end is exposed to outside by the peristome 41 be formed in housing 40, and exposed division contacts with the coating portion of electric wire 100, to adhere to upper ink thus.Meanwhile, an impression portion 20 is only shown in Fig. 2.But another impression portion 20 is also identical.That is, each in two impression portions 20 is held by housing 40 and its part is exposed.

In addition, housing 40 has guide portion 42.Guide portion 42 is outstanding raised to the configuration side of electric wire 100 near the peristome 41 of housing 40.By guide portion 42, the intrusion to electric wire 100 is controlled as below 1.0mm.That is, when marking the coating portion of electric wire 100, the mark of appropriateness is realized when making porous material be no more than 1mm to the press-in of coating portion.

Hereinafter, the conveying of the ink in ink tank 10 is described.First, ink receptive is in ink tank 10.Then, pressing mechanism 11 runs.That is, piston moves to small-diameter opening part 10b, thus the internal pressurization to ink tank 10.Thus even if when the high viscous ink water capacity is contained in ink tank 10, high viscosity ink also penetrates in felt portion 30 fully.

Then, ink arrives impression portion 20 from felt portion 30.Herein, because ink penetrates in felt portion 30 fully, ink moderately penetrates in impression portion 20.That is, the ink of execution flag can be enough to impression portion 20 supply.

Subsequently, the labeling method of electric wire 100 is described.Fig. 3 is the application drawing of the labeling method that electric wire is shown, shows unit state during mark.When marking the coating portion of electric wire 100, by carrying out the instruction of self-controller, two impression portions 20 move up in side close to each other.Thus impression portion 20 touches electric wire 100 (see Fig. 3) to implement mark.Afterwards, by carrying out the instruction of self-controller, two impression portions 20 mutual away from side move up (see Fig. 1).Thus impression portion 20 is spaced apart with electric wire 100.

Like this, owing to being carried out mark in the coating portion of electric wire 100 by under the state that clamps, so do not need to arrange multiple coloring nozzle, make it possible to restraining device and maximize.In addition, because impression portion 20 is made of porous materials, so use ink according to the degree of the coating portion press-in to electric wire 100, make the loss suppressing ink.In addition, because electric wire is being stamped, so the coating portion of electric wire 100 is labeled from its both sides by under the state that clamps.Therefore, compared to the structure being coated to portion by coloring nozzle from a bearing mark, identity can be suppressed to reduce.

In addition, in an illustrative embodiment, impression portion 20 stands following state under not carrying out the holding state of mark to the coating portion of electric wire 100.Fig. 4 is the application drawing of the labeling method that electric wire is shown, shows unit state in the standby state.As shown in Figure 4, in the standby state, by carrying out the instruction of self-controller, two impression portions 20 move up in side close to each other.Now, with mark described electric wire 100 coating portion state outside compared with, impression portion 20 mutual closer to side move up, to contact with each other.Thus the exposed division in an impression portion 20 contacts the exposed division in another impression portion 20, its roughly whole perimembranous is covered by housing 40.Therefore, in an illustrative embodiment, the ink dried in impression portion 20 is prevented.Meanwhile, the complete cycle that the invention is not restricted to impression portion 20 is all by structure that housing 40 covers.Even if when complete cycle is not covered by housing 40, the part contacted with each other in impression portion 20 also can prevent ink dried.

Meanwhile, in an illustrative embodiment, because UV cured printing ink is used as ink, ink tank 10 is preferably by the material structure of ultraviolet blocking-up.Thus, prevent ink cured, make it possible to prevent its infiltration from becoming lower.In addition, housing 40 is also preferably by the material structure of ultraviolet blocking-up.

Fig. 5 illustrates the electric wire 100 that be marked by the labelling apparatus 1 of electric wire according to illustrative embodiment.According to this illustrative embodiment, can mark in the coating portion of electric wire 100 and user can be made to understand the colored pattern of circuit information (that is, the type of electric wire).Such as, as shown in Figure 5, by the mid portion gauge point 102 at terminal part gauge point 101 and between end, electric wire 100 circuit information can be supplied to.Meanwhile, although not shown in Fig. 5, also can Reference character or symbol.In addition, also can mark and simply get ready.

Like this, according to labelling apparatus 1 and the labeling method of the electric wire 100 of illustrative embodiment, by the pressurization of pressing mechanism 11, by ink transport to impression portion 20.Therefore, even if when use has the high viscosity ink of hypotonicity, also ink can be fed to impression portion 20 fully.Thus, not easily occur coating bad and can realize when by high viscosity ink markings to the coating portion of electric wire time optimization.

In addition, felt portion 30 is plugged between ink tank 10 and impression portion 20.Therefore, be directly fed to the structure in moveable impression portion 20 compared to ink, because ink once was penetrating in the felt portion 30 of not movement, so can make not easily ink leakage to occur.In addition, when plant felt portion 30, ink should be made smoothly to penetrate in felt portion 30, this makes more to be difficult to perform painting work by high viscosity ink.But, even if in this case, also can by adjust pressing mechanism 11 plus-pressure or pressing time transfer of highly viscous ink fully.Therefore, while suppression ink leakage, can realize when by high viscosity ink markings to optimization during the coating portion of electric wire.

Although describe the present invention based on this illustrative embodiment, the invention is not restricted to above-mentioned illustrative embodiment and this illustrative embodiment changes with can not deviating from purport of the present invention.

Such as, in above-mentioned illustrative embodiment, exemplified with labelling apparatus 1 and the labeling method of electric wire 100.But, the invention is not restricted to labelling apparatus 1 and the labeling method of this electric wire 100, and the apparatus for coating and method that the high viscosity resins of such as undercoating agent are applied to electric wire 100 or coating can be applied to the apparatus for coating of the high viscosity coating agent of electric wire 100 coating mark and method.

The Japanese patent application No.2012-134724 that the application submitted to based on June 14th, 2012, the full text of this patent is by reference to being incorporated to the application.

Industrial applicibility

According to apparatus for coating of the present invention and coating process, coating portion high viscosity liquid agent being applied to electric wire can be optimized.

Claims

1. an apparatus for coating, this apparatus for coating is used for coating portion liquid agent being coated electric wire, and this apparatus for coating comprises:

Liquid agent tank, this liquid agent tank is configured to liquid agent to be contained in wherein, and comprises pressing mechanism, and this pressing mechanism is configured to the internal pressurization to described liquid agent tank; And

Porous member, this porous member is formed at and keeps, from the state of the described liquid agent of described liquid agent tank conveying, contacting, thus described liquid agent is coated described coating portion with the coating portion of described electric wire,

2. apparatus for coating according to claim 1, also comprises:

Felt portion, this felt portion is arranged between described liquid agent tank and described porous member, and is configured to absorb the described liquid agent from described liquid agent tank conveying, and the infiltration of the liquid agent of described absorption is fed to described porous member.

3., for liquid agent being coated the coating process in the coating portion of electric wire, this coating process comprises:

First process: by the pressing mechanism of liquid agent tank to the internal pressurization of described liquid agent tank wherein accommodating described liquid agent, and carry described liquid agent thus; And

Second process: the described liquid agent of carrying in described first process is remained in porous member, and the described porous member of the described liquid agent of maintenance is contacted with the described coating portion of described electric wire.