CN105405533A - Linear material coating method and linear material coating device - Google Patents

Abstract

The invention provides a linear material coating method and a linear material coating device which do not waste resin and suit various resins. In the linear material coating method, the resins are attached to the periphery of linear materials and the resins coat the whole length of the linear materials. The linear material coating method is characterized in that the linear materials are guided in and pass through holes filled with the resins, so that the resins are attached to the periphery of the linear materials, and the resins with the same amount of the attached resins are supplied to the through holes. Furthermore the linear material coating device in which the resins are attached to the linear materials and the resins coat the whole length of the linear materials includes: a pot which stores the resins in the uncured state; a cylindrical container having the through holes filled with the resins and through which the linear materials pass; and a pump mechanism which enables the resins flow from the port and supplies the resins to the through holes, wherein the resins have the same amount with the resins attached to the periphery of the linear materials in the through holes.

Description

Filamentary material painting method and filamentary material coating unit

Technical field

The present invention relates to for making the situation of wire insulation or strengthening the filamentary material painting method of situation etc. and the filamentary material coating unit of carbon fiber.

Background technology

In the past, as the method forming electric insulation layer in the periphery of electric wire, the method of usual employing is holding impreg-nating electrical in the liquid tank forming insulating layer resin, with the periphery making resin be attached to electric wire, then electric wire is made to pass through baking furnace, thus electric wire periphery roasting resin and formed (for example, referring to patent documentation 1).

Prior art document

Patent documentation 1: Unexamined Patent 8-306251 publication

But, in the conventional method of the above-mentioned attachment of the periphery at electric wire resin, need a large amount of resin stored for the formation of insulating barrier in liquid tank.Therefore As time goes on, the resin stored in liquid tank solidifies gradually and needs timely replacing, but has a lot of resin also not used just to be replaced in the resin of a large amount of storage in liquid tank, thus produces the problem of resin waste.

Further, when can use the time of resin and short resin storage period owing to using, need to change resin continually, and effectively at the periphery of electric wire attachment resin, can not therefore there is the problem that resin can be used limited.

Summary of the invention

The present invention for solving the problems of the technologies described above and make, provides and does not waste resin with resin-coating as the periphery of the filamentary material of electric wire, be applicable to filamentary material painting method and the filamentary material coating unit of various resin.

The filamentary material painting method that the present invention relates to be a kind of outer peripheral face at filamentary material attachment resin and in the whole length throughout filamentary material the method for coated with resins, filamentary material to be imported in the through hole being full of resin and to be made by through hole resin be attached to the outer peripheral face of filamentary material, according to the amount of resin of attachment, the resin of respective amount being supplied in through hole simultaneously.

Further, the filamentary material coating unit that the present invention relates to be a kind of outer peripheral face at filamentary material attachment resin and in the whole length throughout filamentary material the device of coated with resins, comprising: tank, for its uncured state storage resin; Cylindrical container, has and is full of resin and the through hole that filamentary material is passed through; And pump machanism, in through hole, be attached to the amount of resin of the outer peripheral face of filamentary material for basis, make the resin of respective amount flow out from tank and be supplied in described through hole.

According to filamentary material painting method of the present invention and filamentary material coating unit, when filamentary material passes through in through hole, according to be attached to filamentary material outer peripheral face and from through hole derive amount of resin, resin is supplied to through hole, therefore the smaller volume of through hole can be full of the degree of resin to the amount corresponding to the amount of resin of the outer peripheral face being attached to filamentary material.Consequently can be finished the resin in through hole before curing, and not waste resin.In addition, even if storage period, short resin also can be finished before resin solidification, therefore various resin can be utilized.

In the filamentary material coating unit of preferred implementation, through hole has the diameter being greater than filamentary material diameter, and at least can be full of the volume of resin of the amount corresponding to the amount of resin of the outer peripheral face being attached to filamentary material, one end of through hole forms the introducing port of filamentary material, the other end of through hole is formed with the export mouth of the filamentary material of the diameter opening corresponding to the amount of resin of the outer peripheral face being attached to filamentary material, and the inner face of through hole offers the connected entrance that the resin supply port that is connected with pump machanism is communicated with.

In the filamentary material coating unit of preferred implementation, pump machanism comprises: syringe, stores the resin be supplied in through hole; Pressing mechanism, for applying air pressure and by the resin transfer of storing in syringe in through hole in syringe; And adjusting mechanism, for adjusting the resin flow output from tank, to make the resin storage capacity in syringe constant all the time.

Invention effect

According to filamentary material painting method of the present invention and filamentary material coating unit, do not waste resin and various resin can be applicable to.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the execution mode represented according to filamentary material coating unit of the present invention;

Fig. 2 expands to represent the syringe of filamentary material coating unit in Fig. 1 and the stereogram of container;

Fig. 3 is the front view that a syringe of the filamentary material coating unit got in Fig. 1 and container carry out representing;

Fig. 4 is the profile along A-A line in Fig. 3;

Fig. 5 is the profile of the variation of the installation site of the syringe represented according to filamentary material coating unit of the present invention;

Fig. 6 is the profile of other variation of the installation site of the syringe represented according to filamentary material coating unit of the present invention;

Fig. 7 is the end view represented according to the syringe of filamentary material coating unit of the present invention and other execution modes of container.

Description of reference numerals

1: filamentary material coating unit

10: tank

20: container

21: through hole

211: introducing port

212: export mouth

213: connected entrance

22: supply port

30: pump machanism

32: syringe

33: adjusting mechanism

34: pressing mechanism

L: filamentary material

R: resin

Embodiment

Below, with reference to the accompanying drawings an execution mode of filamentary material painting method of the present invention and filamentary material coating unit 1 is described in detail.Fig. 1 represents the execution mode according to filamentary material coating unit 1 of the present invention, and Fig. 2 ~ Fig. 4 gets the syringe 32 of the filamentary material coating unit 1 in Fig. 1 and container 20 (following) represents.In addition, for the ease of understanding figure, the laser displacement sensor 52 eliminating the liquid level sensor 51 near following two syringes 32 being located at central authorities in Fig. 2 and be located near container 20.

As shown in Figure 1, filamentary material coating unit 1 comprises: tank 10, for storing resin R; Cylindrical container 20, has the through hole 21 (with reference to Fig. 4) being full of resin R; And pump machanism 30, make resin R flow out from tank 10 and be supplied to through hole 21.

In present embodiment, resin R uses two kinds of liquid resins of host used in combination and curing agent.Because two kinds of liquid resins just carry out reacting once mixing host and curing agent and solidify, therefore tank 10 is made up of the host tank 11 of storage host and the curing agent tank 12 of storage curing agent.Thus, with its uncured state storage resin R.This host tank 11 and curing agent tank 12 can use known any tank.In addition, resin R is not limited to two kinds of liquid resins, can use a kind of liquid resin.Now only can use a tank 10.

As shown in Figure 2 to 4, container 20 is roughly tubular, and the external diameter of a side end becomes large gradually.Large-diameter portion 201 is formed with the supply port 22 connecting pump machanism 30.The hollow space of container 20 becomes the through hole 21 passed through for filamentary material L.

Through hole 21 extends along the axis of container 20, has the diameter of the diameter being greater than filamentary material L and at least can be full of the volume of resin R according to the amount of resin R of the outer peripheral face being attached to filamentary material L.The inner face of through hole 21 offers the connected entrance 213 be communicated with supply port 22, by this connected entrance 213, is supplied to through hole 21 by resin R from pump machanism 30.

Further, one end of through hole 21 and one end of large-diameter portion 201 side are formed the introducing port 211 in filamentary material L importing through hole 21, and the other end of through hole 21 forms the export mouth 212 of deriving filamentary material L from through hole 21.Export mouth 212 is offered with the diameter corresponding to the amount of resin R of the outer peripheral face being attached to filamentary material L.That is, by export mouth 212, remove the unnecessary resin R being attached to the outer peripheral face of filamentary material L, thus apply the resin R expecting thickness at filamentary material L.In present embodiment, the end face in export mouth 212 side of container 20 forms recess 203, forms export mouth 212 by short tubular installing component 23 is releasably embedded this recess 203.Specifically, be formed with the endoporus 231 of the axis of through container 20 when embedding through hole 21 in installing component 23, endoporus 231 becomes export mouth 212.The diameter that this endoporus 231 is desired thickness according to the resin R being attached to filamentary material L is formed.Formation export mouth 212 like this, preparing multiple installing components 23 with the endoporus 231 of different-diameter, by replacing this installing component 23, can change the diameter of export mouth 212.It should be noted that, export mouth 212 is not limited to aforesaid way, when container 20 forms through hole 21, also the diameter of export mouth 212 side of through hole 21 can be formed as required diameter.

Form this container 20 by such as brass, superhard alloy etc., form installing component 23 by such as sapphire, ruby etc.An example as container 20 can use the known coating die having and can keep the length of resin R.

Filamentary material coating unit 1 has more than one container 20 as constituted above.That is, when applying many filamentary material L, or when stage increases the coating thickness of resin R in single line shape material L, filamentary material coating unit 1 can possess multiple container 20 simultaneously.Especially interim when changing the coating thickness of resin R, filamentary material coating unit 1 has the different multiple containers 20 of the diameter of export mouth 212.As shown in Figure 2, in present embodiment, wire Material coating device 1 has 4 containers 20.This when having multiple container 20, container 20 is kept part 40 and remains flat-hand position.Be specifically described with reference to Fig. 2 and Fig. 4, keeper 40 has the insertable multiple hole 41 of minor diameter 202 of container 20, and container 20 is installed as minor diameter 202 and inserts this hole 41, and large-diameter portion 201 touches the side of keeper 40.

As shown in Figure 1, pump machanism 30 comprises: syringe 32, is communicated with the supply port 22 of container 20; Adjusting mechanism 33, is arranged on tank 10 i.e. host tank 11 and between curing agent tank 12 and syringe 32; Pressing mechanism 33, applies air pressure in syringe 32.

Syringe 32 is supplied to the main part 321 of the resin R in through hole 21 by storage, and the tubule 322 that the lower end being located at main part 321 is communicated with main part 321 is formed.The top of tubule 322 is formed as the supply port 22 that can insert container 20, by the top of tubule 322 is inserted into supply port 22, syringe 32 is installed to container 20.Thus, by tubule 322, the resin R in main part 321 is imported in through hole 21.Like this, due to container 20 directly mounting of syringe 32, when therefore filamentary material coating unit 1 has multiple container 20, also there is the syringe 32 corresponding with the quantity of container 20.

The top of main part 321 is provided with the seal member 35 in sealed body portion 321.Seal member 35 is provided with the pitch tube 351 supplying resin R in main part 321, and to the air fed air hose 352 of main part 321.Pitch tube 351 is communicated with adjusting mechanism 33, and air hose 352 is connected with pressing mechanism 34.

The mixing unit 333 that the curing agent measuring pump 332 that adjusting mechanism 33 is communicated with curing agent tank 12 by the host measuring pump 331 be communicated with host tank 11 is communicated with host measuring pump 331 and curing agent measuring pump 332 and the valve 334 be located between mixing unit 333 and syringe 32 are formed.Host measuring pump 331 is for a certain amount of host that spues from host tank 11, and curing agent measuring pump 332 is for a certain amount of curing agent that spues from curing agent tank 12.This host measuring pump 331 and curing agent measuring pump 332 can use the known pump that quantitatively spues arbitrarily.

Mixing unit 333 is for mixing the host supplied from host tank 11 by host measuring pump 331 and the curing agent supplied from curing agent tank 12 by curing agent measuring pump 332.Mixing unit 333 can use known static mixer, dynamic mixer etc.Host and curing agent formation resin R is mixed in this mixing unit 333.

Whether valve 334 is installed on the pitch tube 351 of communication seals parts 35 and mixing unit 333, switch and be supplied in the main part 321 of syringe 32 by the resin R of mixing in mixing unit 333.That is, when the resin R in main part 321 reduces, then open valve 334 and supply resin R to main part 321, when the resin R in main part 321 increases, then valve-off 334 stops supplying resin R in main part 321.Especially, when filamentary material coating unit 1 has multiple syringe 32, pitch tube 351 branch be communicated to each syringe 32 from mixing unit 333, the pitch tube 351 of branch is provided with valve 334.Then by the switch of valve 334, the main part 321 switched to any syringe 32 supplies resin R.This valve 334 can use such as flow valve.

Adjusting mechanism 33 adjusts the amount of the resin R flowed out from tank 10, to make the discharge-amount of host and the curing agent spued in host measuring pump 331 and curing agent measuring pump 332, and make the storage capacity (in present embodiment liquid level) of the resin R in main part 321 constant all the time by the switch of valve 334.

Pressing mechanism 34, for being carried air in syringe 32 by air hose 352, utilizes air pressure to be delivered in through hole 21 by the resin R of storage in the main part 321 of syringe 32.Pressing mechanism 34 is made up of electromagnetically operated valve 341 and pressure-reducing valve 342.Adjusted the air pressure in syringe 32 by this pressing mechanism 34, according to the amount of resin R of outer peripheral face being attached to filamentary material L, the resin R of respective amount is supplied in through hole 21.By this pressing mechanism 34, by air, the pressure be delivered in syringe 32 is less than the pressure of to be spued by host measuring pump 331 and curing agent measuring pump 332 host and curing agent.Therefore, supply resin R by pitch tube 351 to the main part 321 of syringe 32, the air pressure that the air carried because of pressing mechanism 34 produces extrudes this resin R to through hole 21.

In present embodiment, filamentary material coating unit also comprises non-contact type liquid level sensor 51, is located at the side of the main part 321 of syringe 32, is gone out the amount of the resin R in main part 321 by the height detection of liquid level.This liquid level sensor 51 can use any known liquid level sensor.Further, near introducing port 211 side of container 20, laser displacement sensor 52 is provided with, for detecting the resin R spilt from through hole 21.Use laser displacement sensor 52 towards the introducing port 211 of container 20, from laser displacement sensor 52, penetrate laser and measure the position in the pixel of reverberation, thus detect the state of the resin R near introducing port 211.In other words, can judge whether resin R swells from introducing port 211 according to the position in the pixel of reverberation, or compare introducing port 211 and cave in, or relatively introducing port 211 does not have concavo-convex, thus can detect whether have resin R from introducing port 211 spill and resin R through hole 21 too much or not enough.This laser displacement sensor 52 can use laser displacement sensor known arbitrarily.It should be noted that, when being provided with multiple syringe 32 and container 20, the quantity according to syringe 32 and container 20 is provided with multiple liquid level sensor 51 and laser displacement sensor 52.Further, without the need to indispensable laser displacement sensor 52, laser displacement sensor 52 can not be set, judge whether that resin R spills from introducing port 211 by range estimation.

Below, filamentary material painting method of the present invention is described.Filamentary material painting method of the present invention is the outer peripheral face attachment resin R at filamentary material L, applies the whole length throughout filamentary material L with resin R.An execution mode of filamentary material painting method is realized by above-mentioned filamentary material coating unit 1.

That is, filamentary material L enters through hole 21 from introducing port 211, and exports to through hole 21 from export mouth 212.Resin R is full of due in now through hole 21, time therefore by through hole 21, the outer peripheral face attachment resin R of filamentary material L.It is the diameter of desired thickness that export mouth 212 is formed with the resin R being attached to filamentary material L, therefore be about to by before export mouth 212, the unnecessary resin R being attached to the outer peripheral face of filamentary material L drops in through hole 21, from through hole 21, thus derive the filamentary material L with desired thickness coated with resins R.

The filamentary material L derived in through hole 21, identical with the method that existing electric wire forms insulating barrier, be directed in baking furnace (not shown), at roasting kiln roasting and cured resin R.Thus form the filamentary material L of coating desired thickness.

When the thickness of the resin R of coating filamentary material L is thicker, if the mode forming desired thickness with operation is at filamentary material L coated with resins R, then, before resin R solidifies, resin R is sagging, thus exist can not with the situation of desired thickness coated with resins R.During this situation, prepare multiple container 20 and become large to make the diameter stage of export mouth 212, filamentary material L becomes the container 20 of large export mouth 212 by having diameter stage, repeat above-mentioned operation.So, the filamentary material L of coating desired thickness resin R can be formed.

On the other hand, the resin R in through hole 21 only decrease the outer peripheral face that is attached to filamentary material L and derive from through hole 21 amount.With the amount of this minimizing that can spue, namely control pressing mechanism 34 with the mode of resin R of amount respective amount of the resin R being attached to filamentary material L, by operation pressing mechanism 34, the resin R with the amount corresponding amount reduced is supplied in through hole 21.Particularly, according to speed and the amount of resin R that is attached to filamentary material L and derives from through hole 21 of filamentary material L movement in through hole 21, the resin minimizing in through hole 21.Wait the reduction data of collecting this resin R by experiment, according to these data, control pressing mechanism 34 the amount of the resin R corresponding with reduction to be supplied in through hole 21.In addition, also with good grounds laser displacement sensor 52 or range estimation judge whether have resin R to spill in through hole 21, if when resin R will spill from through hole 21, pressing mechanism 34 can be controlled to reduce air pressure, time near the introducing port 211 that resin R is not filled to through hole 21, pressing mechanism 34 can be controlled to increase air pressure.So, can all the time with neither too much nor too little state save resin R in through hole 21.

The non-contact type liquid level sensor 51 being arranged on the side of syringe 32 monitors the resin R reduced from the main part 321 of syringe 32 owing to supplying resin R in through hole 21.Not shown control device controls the action of adjusting mechanism 33, and the amount (height of liquid level) of the resin R detected to make liquid level sensor 51 is constant all the time.Namely, when liquid level sensor 51 detects that the resin R in main part 321 is less than a certain amount of, spue a certain amount of host and curing agent from host measuring pump 331 and curing agent measuring pump 332, and mix host and curing agent in mixing unit 333, open valve 334, resin R is flowed in main part 331.Especially, when filamentary material coating unit 1 has multiple syringe 32, only open and to detect with liquid level sensor 51 and be supplied to the valve 334 that the main part 321 of the syringe 32 that resin R reduces is communicated with resin R in this main part 321.So, a certain amount of resin R is stored in realization body portion 321 all the time.

As mentioned above, in present embodiment, when filamentary material L is by through hole 21, due to according to being attached to the outer peripheral face of filamentary material L and the amount of resin R that derives from through hole 21, resin R is supplied in through hole 21, therefore the smaller volume of through hole 21 can be full of the degree of respective amount resin to the amount of resin R according to the outer peripheral face being attached to filamentary material L.Consequently can be finished the resin R in through hole 21 before curing, and not waste resin R.Further, the opportunity of mixing host and curing agent is controlled by liquid level sensor 51, with the amount of the resin R be finished before a storage mixing Post RDBMS in syringe 32 and through hole 21.This amount that required resin R is only provided in syringe 32 and through hole 21, and this resin R runs low very much, even the resin that therefore storage period is short, also can use before resin R solidifies.So, various resin R can be used in the filamentary material coating unit 1 of present embodiment.

In addition, by various resin R can be used, the resin that existing more awkward viscosity is high can also be used, consequently on filamentary material L during coated with resins R, the thicker resin R of existing method can be compared by primary coating.So, even if when filamentary material L applying thicker resin R, also less number of times can be applied, can shorten the operation of coated with resins R on filamentary material L.Further, the resin R that storage period is short can be used, the time that resin R solidifies can be shortened in baking furnace afterwards.So can also shorten the time needed for filamentary material L coating work.

Above, be illustrated for one embodiment of the present invention, but the invention is not restricted to above-mentioned execution mode, various change can be had in the scope not departing from its aim.

Such as, in above-mentioned execution mode, introducing port 212 side of pump machanism 30 connecting container 20, but pump machanism 30 is not limited to the introducing port 211 of connecting container 20, can be connected to optional position.Such as, can the central portion of connecting container 20 as shown in Figure 5, also can export mouth 212 side of connecting container 20 as shown in Figure 6.

In addition, in above-mentioned execution mode, maintain flat-hand position because container 20 is kept part 40, as shown in Figure 7, container 20 can also be kept part 40 and maintain vertical position.Now, container 20 maintains introducing port 211 and is positioned at upside, and filamentary material L passes through from top to bottom.Form the supply port 22 connecting syringe 32 in the side of container 20, syringe 32 is with the stateful connection container 20 of relative level face tilt 45 ° ~ 60 °.

Claims (4)

1. a filamentary material painting method, for the outer peripheral face attachment resin at filamentary material also uses resin-coating throughout the filamentary material painting method of the whole length of filamentary material, is characterized in that,

Described filamentary material to be imported in the through hole being full of described resin and by described through hole, with the outer peripheral face making described resin be attached to described filamentary material, according to the amount of the described resin of attachment, the resin of respective amount to be supplied in described through hole simultaneously.

2. a filamentary material coating unit, for the outer peripheral face attachment resin at filamentary material also uses resin-coating throughout the filamentary material coating unit of the whole length of filamentary material, is characterized in that, comprising:

Tank, for storing resin with its uncured state;

Cylindrical container, has and is full of resin and the through hole that filamentary material is passed through; And

Pump machanism, according to the amount of resin of outer peripheral face being attached to filamentary material in described through hole, makes the resin of respective amount flow out from described tank and be supplied in described through hole.

3. filamentary material coating unit according to claim 2, is characterized in that,

Described through hole has the volume of the diameter being greater than filamentary material diameter and the resin that at least can be full of the amount corresponding to the amount of resin of the outer peripheral face being attached to filamentary material,

One end of described through hole forms the introducing port of filamentary material,

The other end of described through hole is formed with the export mouth of the filamentary material of the diameter opening corresponding to the amount of resin of the outer peripheral face being attached to filamentary material,

The inner face of described through hole offers the connected entrance that the resin supply port that is connected with described pump machanism is communicated with.

4. the filamentary material coating unit according to Claims 2 or 3, is characterized in that,

Described pump machanism comprises:

Syringe, for storing the resin be supplied in described through hole;

Pressing mechanism, for applying air pressure by the resin transfer of storing in described syringe to described through hole in described syringe; And

Adjusting mechanism, for adjusting the resin flow output from described tank, to make the resin storage capacity in described syringe constant all the time.