CN203853230U - Coating device - Google Patents

Abstract

The utility model discloses a coating device which is used for coating varnish containing particles and resins. The coating device comprises a static mixer for stirring varnish, and a nozzle which is arranged on the downstream side of the static mixer in a jetting direction. The nozzle comprises a manifold through which the varnish which is jetted when being stirred by the static mixer spreads in a first direction orthogonal with the jetting direction. An expansion part is arranged in the manifold, and the length of the expansion part in the first direction is gradually increased towards the downstream side of the jetting direction. Uniformity of particles in a film obtained is sufficiently guaranteed.

Description

Applying device

Technical field

The utility model relate to a kind of applying device, specifically relate to a kind of for applying the applying device of the varnish that contains particle and resin.

Background technology

In the past, be known to a kind of for applying the applying device of the varnish that contains particle and resin.

For example, propose there is a kind of slurry coating device (for example,, with reference to following patent documentation 1.), this slurry coating device comprises slurry tank, be configured in the mould coating machine in the injection direction downstream of slurry tank (die coater) and be folded in the static mixer on the pipe arrangement that slurry tank and mould coating machine are coupled together.

In the slurry coating device of patent documentation 1, make the slurry of supplying with from slurry tank by spraying from mould coating machine after static mixer, thereby solved the inhomogeneities in the time that mould coating machine sprays, thus, guarantee the flatness of the film forming.

Patent documentation 1: TOHKEMY 2008-117541 communique

But, the master that the manifold that is formed at mould coating machine is broad ways (with the orthogonal direction of injection direction) expansion conventionally looks essentially rectangular shape, and at the width both ends of the injection direction upstream portion of manifold, the mobile of varnish becomes slow, therefore, varnish is easily detained.And if the proportion of particle is relatively large, particle can precipitate in the delay part of varnish.Therefore, there is the skewness of the particle in delay part and then make the distribution of the particle in manifold easily become inhomogeneous such unfavorable condition.Its result, the distribution with the particle in film becomes inhomogeneous such unfavorable condition.

Utility model content

The purpose of this utility model is to provide a kind of inhomogeneity applying device that can guarantee the particle in film.

To achieve these goals, the utility model provides a kind of applying device, and it,, for applying the varnish that contains particle and resin, is characterized in that, this applying device comprises: static mixer, and it is for stirring above-mentioned varnish; And nozzle, it is arranged on the injection direction downstream of above-mentioned static mixer, said nozzle has manifold, this manifold for make on one side by above-mentioned static mixer stir injected on one side varnish along with orthogonal the 1st Directional Extension of above-mentioned injection direction, in above-mentioned manifold, be provided with expansion section, the length in above-mentioned the 1st direction of this expansion section is elongated gradually along with going towards above-mentioned injection direction downstream.

In this applying device, can utilize static mixer to stir being supplied to nozzle varnish before.Therefore, can guarantee particle in varnish and the uniformity of resin.

In addition, in this applying device, expand to the 1st direction outside gradually along with going towards injection direction downstream in expansion section by the varnish of manifold.Therefore, can prevent that the jet flow of varnish from becoming slowly, thereby can prevent the delay of varnish.Its result can be eliminated the inhomogeneities of the particle in varnish in manifold.Thereby, can guarantee fully the uniformity of the particle in obtained film.

In addition, in applying device of the present utility model, preferably, above-mentioned manifold comprises: inflow portion, it is for flowing into for varnish of being sprayed by above-mentioned static mixer, this inflow portion along long-pending along with going and expand towards above-mentioned injection direction downstream with the opening section of the orthogonal orthogonal direction of above-mentioned injection direction; And outflow portion, it is arranged on the above-mentioned injection direction downstream of above-mentioned inflow portion, be used for making varnish to flow out from above-mentioned inflow portion, the opening section along above-mentioned orthogonal direction of this outflow portion is long-pending along with going and dwindle towards above-mentioned injection direction, and above-mentioned inflow portion is located in above-mentioned expansion section.

In manifold, compared with amassing with the opening section along orthogonal direction the outflow portion dwindling along with going towards injection direction, in the long-pending inflow portion expanding along with going towards injection direction downstream of the opening section along orthogonal direction, the jet flow of above-mentioned varnish easily becomes slowly, the delay of the varnish that easily generation causes thus.

But, in this applying device, owing to being provided with expansion section in inflow portion, therefore can preventing that the jet flow of above-mentioned varnish from becoming slowly, thereby can prevent the delay of varnish.

In addition, in applying device of the present utility model, preferably, above-mentioned static mixer has more than 6 twist blades along above-mentioned injection direction, and this twist blade is along with going and twist towards above-mentioned injection direction.

In this applying device, because static mixer has 6 above twist blades, therefore can further guarantee fully particle in varnish and the uniformity of resin.

In addition, in applying device of the present utility model, preferably, for mark off above-mentioned expansion section, can be located at the end that is positioned at above-mentioned injection direction upstream side in above-mentioned the 1st direction of above-mentioned manifold with respect to the Accessory Members of above-mentioned manifold handling.

Adopt this applying device, because Accessory Members can load and unload with respect to manifold, therefore can be replaced by according to the characteristic of varnish the Accessory Members of intended shape.

In addition, in applying device of the present utility model, preferably, said nozzle has the transparent component of the varnish can visualization passing through in above-mentioned expansion section.

Adopt this applying device, due to the varnish that can pass through via transparent component visualization, therefore can check simply the state of the particle in varnish in expansion section.

Adopt applying device of the present utility model, can guarantee fully the uniformity of the particle in obtained film.

Brief description of the drawings

Fig. 1 represents the stereogram of an embodiment of applying device of the present utility model.

The partial cutaway front view of the static mixer of the applying device of Fig. 2 presentation graphs 1.

The top view of the nozzle of the applying device of Fig. 3 presentation graphs 1.

The upward view of the nozzle of Fig. 4 presentation graphs 3.

The side view of the nozzle of Fig. 5 presentation graphs 3.

The A-A sectional view of the nozzle of Fig. 6 presentation graphs 3.

The B-B sectional view of the nozzle of Fig. 7 presentation graphs 3.

The master of the nozzle of Fig. 8 presentation graphs 3 looks cutaway view.

The exploded perspective view of the nozzle of Fig. 9 presentation graphs 3.

The exploded side sectional view of the nozzle of Figure 10 presentation graphs 3.

Figure 11 represents to utilize the state of the nozzle coating varnish shown in Fig. 6.

Figure 12 represents the image processing figure of the photo of the state of the varnish in the nozzle of applying device of embodiment 1.

Figure 13 represents the image processing figure of the photo of the state of the varnish in the nozzle of applying device of comparative example 1.

Figure 14 represents the image processing figure of the photo of the state of the varnish in the nozzle of applying device of comparative example 2.

Description of reference numerals

1, applying device; 4, static mixer; 5, nozzle; 7, twist blade; 12, the 2nd (transparent component); 21, manifold; 33, expansion section.

Detailed description of the invention

One embodiment of applying device of the present utility model is described with reference to Fig. 1～Figure 11.

In Fig. 3, taking the left and right directions of paper as " left and right directions " (the 1st direction or width), taking the above-below direction of paper as " fore-and-aft direction " (the 2nd direction or thickness direction), taking the thick direction of paper as " above-below direction " (the 3rd direction or injection direction), particularly, taking direction arrow that Fig. 3 was recorded as benchmark.For the accompanying drawing beyond Fig. 3, also taking the direction of Fig. 3 as benchmark.

In addition, in Fig. 8, in order clearly to represent manifold 21(aftermentioned), pad 13(aftermentioned) and Accessory Members 25(aftermentioned) relative configuration relation, omitted the 2nd 12(aftermentioned).And, in Fig. 9, in order clearly to represent pad 13, the relative configuration relation of the 1st 11 and the 2nd 12, omitted Accessory Members 25.

In Fig. 1, this applying device 1 is the applying device for applying the varnish (describing in detail) that contains particle and resin below.Applying device 1 comprises tank 2, pump 3, static mixer 4 and nozzle 5.Tank 2, pump 3, static mixer 4 and nozzle 5 configure towards the mode in downstream successively with the injection direction upstream side from varnish.

Tank 2 is the reservoirs for storing varnish, and it is arranged on the upper portion of applying device 1.

Pump 3 is connected with tank 2 via pipe arrangement 61, and particularly, it is configured in the rear side of tank 2.Pump 3 is as long as exerting pressure and make to be stored in the pump that the varnish in tank 2 sprays to static mixer 4, do not limit especially, can list for example screw pump (Moineau pump) (particularly, as the commercially available pump of soldier god screw pump (ヘ イ シ ン モ ー ノ Port Application プ) (soldier god equipment company manufactures) etc.) etc.

Static mixer 4 configures in the mode of extending along above-below direction.Static mixer 4 is configured in the downside of pump 3, and is connected with the bottom of pump 3.As static mixer 4, not do not limit especially, can list the 453rd page of such Kenics mixer type, Sulzer SMV type, Sulzer SMX type, Tray Hi-mixer type, Komax mixer type, Lightnin mixer type, the Ross ISG type of the chemical engineering brief guide that is for example documented in Japan's revision sixth version, the static mixer of Bran & Lube mixer type.Preferably use the Kenics mixer type shown in Fig. 2.

The static mixer 4 of Kenics mixer type comprises the straight tube 6 extending along the vertical direction and is contained in the twist blade 7 in straight tube 6.

Twist blade 7 comprise along with going towards injection direction downstream along clockwise direction (reverse to the right) turn round the right twist blade 8 of turnback and along with going towards injection direction downstream in the counterclockwise direction (to left handed twist) turn round the left handed twist blade 9 of turnback.Right twist blade 8 and left handed twist blade 9 are respectively equipped with multiple (in Fig. 2, being 9), and alternately configure along injection direction.In addition, the ora terminalis at injection direction upstream side of the ora terminalis in injection direction downstream of right twist blade 8 and left handed twist blade 9 engages in orthogonal mode in the time carrying out projection along injection direction.In addition, the ora terminalis in injection direction downstream of the ora terminalis at injection direction upstream side of right twist blade 8 and left handed twist blade 9 engages in orthogonal mode in the time carrying out projection along injection direction (above-below direction).

The size of static mixer 4 can suitably be set, and for example, pipe range is for example more than 10mm, more than being preferably 30mm, and is for example, below 400mm, to be preferably below 350mm.In addition, internal diameter is for example more than 3mm, more than being preferably 5mm, and is for example, below 30mm, to be preferably below 15mm.In addition, the ratio of pipe range and internal diameter is as being more than 3, to be preferably more than 5, and is for example, below 30, to be preferably below 25.And in the situation that static mixer 4 is Kenics mixer type, the length on injection direction of each right twist blade 8 and each left handed twist blade 9 is for example more than 3mm respectively, more than being preferably 5mm, and is for example, below 50mm, to be preferably below 30mm.

Nozzle 5 is for example slit die coating machine, and particularly, as shown in Figure 1, it is configured in the downside of static mixer 4 and is connected with the bottom of static mixer 4.Nozzle 5 is formed as along the vertical direction the heavy wall writing board shape extending with left and right directions.Nozzle 5 comprises the 1st 11, to be configured in the 2nd 12 and the pad 13 between the 1st 11 and the 2nd 12 of the front side of the 1st 11 with the 1st 11 relative modes.

Formed by resins such as metal or acrylic resin such as such as stainless steels for the 1st 11.Consider from the viewpoint of durability, the 1st 11 is preferably formed by metal.

As shown in Figure 3 and Figure 9, be along the vertical direction the heavy wall writing board shape extending with left and right directions for the 1st 11, particularly, in the time overlooking and main apparent time, be formed as essentially rectangular shape for the 1st 11, in the time of side-looking, the upper portion of the 1st 11 is formed as essentially rectangular shape, and lower portion is formed as the general triangular shape that the length on fore-and-aft direction shortens along with going towards downside.In addition, the central portion that is formed as front surface for the 1st 11 to rear side recessed have a underframe shape.Comprise upper wall 46a, the lower wall 46b and the 1 oppose side wall 46c that are configured to one for the 1st 11.

What upper wall 46a was formed as extending along left and right directions overlooks essentially rectangular shape and the main essentially rectangular shape of looking.In addition, as shown in Figure 6 and Figure 7, in the time of side-looking, the upper portion of upper wall 46a shape in the form of a substantially rectangular, the lower surface 47 of lower portion forms in the mode that becomes flexure plane.Particularly, the lower surface 47 of upper wall 46a is formed as along with going towards rear gradually the circular shape of lateral bend downwards.

Lower wall 46b is to arrange with the mode of the bottom adjacency of upper wall 46a.What as shown in Figure 4 and Figure 8, lower wall 46b was formed as extending along left and right directions looks up essentially rectangular shape and the main essentially rectangular shape of looking.In addition, as shown in Figure 6 and Figure 7, in the time of side-looking, the lower surface of lower wall 46b is formed as along with going and the inclined plane of linearly inclination downwards towards front side, and the upper surface 48 of lower wall 46b is formed as along with going and the inclined plane of linearly inclination downwards towards front side.The upper ora terminalis of the upper surface 48 of lower wall 46b is to form with the consecutive mode of lower ora terminalis of the lower surface 47 of upper wall 46a.

As shown in Figure 8 and Figure 9,1 oppose side wall 46c is mutually continuous with the both ends on left and right directions of upper wall 46a and lower wall 46b, and be formed as extending along the vertical direction overlook essentially rectangular shape.In addition, in the time of side-looking, the upper portion of sidewall 46c shape in the form of a substantially rectangular, lower portion is formed as the general triangular shape that the length on fore-and-aft direction shortens along with going towards downside.

And, be formed as upper wall 46a, lower wall 46b for the 1st 11 and the concordant master of 1 oppose side wall 46c front surface separately looks essentially rectangular frame shape.In addition, as shown in Figure 6 and Figure 8, in the 1st 11, form manifold 21 by the inner surface (medial surface) of the upper surface 48 and 1 oppose side wall 46c of the lower surface 47 of upper wall 46a, lower wall 46b.Manifold 21 is that the varnish in order to make to supply with from supply hole 20 described later arranges along left and right directions expansion.

Particularly, manifold 21 comprises inflow portion 50 and outflow portion 51.

Inflow portion 50 is formed by the inner surface (medial surface) of the lower surface 47 and 1 oppose side wall 46c of upper wall 46a.Inflow portion 50 is formed as that its opening section along left and right directions and fore-and-aft direction (with the orthogonal orthogonal direction of injection direction) is long-pending to be gone and expand along with (injection direction downstream) downward.Utilize this inflow portion 50 to be separated out inflow space 52.

Outflow portion 51 is formed by the inner surface (medial surface) of the upper surface 48 and 1 oppose side wall 46c of lower wall 46b.It is long-pending along with going towards injection direction and dwindling gradually that outflow portion 51 is formed as its opening section along left and right directions and fore-and-aft direction (with the orthogonal orthogonal direction of injection direction).Utilize this outflow portion 51 so that the mode that outflow space 53 is connected with inflow space 52 is separated out outflow space 53.

Utilize this manifold 21 to be separated out manifold space.

Manifold space is formed by inflow space 52 and outflow space 53.

In addition, on upper wall 46a, be formed with the supply hole 20 that runs through along the vertical direction upper wall 46a.Supply hole 20 is in order to see figures.1.and.2 from static mixer 4() to guide to chamber 49(described later for the varnish supplied with) and be formed on upper wall 46a, and be formed as substantial cylindrical shape.In addition, as shown in Figure 3, in the time overlooking, supply hole 20 is arranged on the substantial middle portion on left and right directions of upper wall 46a.In addition, as shown in Figure 6, the bottom of supply hole 20 is bending and at lower surface 47 openings of upper wall 46a in the oblique front of lower side direction.

In addition, as shown in Figure 8, on upper wall 46a and 1 oppose side wall 46c, be formed with from the front surface of upper wall 46a and the front surface of 1 oppose side wall 46c the 1st fixing hole 28 forming of boring a hole towards rear.The 1st fixing hole 28 with the mutual empty standard width of a room in an old-style house every mode be provided with multiple.Particularly, the 1st fixing hole 28 is formed at the front surface of upper wall 46a to separate equally spaced mode along left and right directions.In addition, the 1st fixing hole 28 is formed at the front surface of 1 oppose side wall 46c to separate along the vertical direction equally spaced mode.

And, as shown in Figure 5 and Figure 8, on 1 oppose side wall 46c, be formed with the 2nd fixing hole 29 that runs through 1 oppose side wall 46c along left and right directions.The 2nd fixing hole 29 be arranged in sidewall 46c with inflow space 52(with reference to Fig. 6) position that is connected.

And, as shown in Figure 7 and Figure 8, Accessory Members 25 is installed on manifold 21.

Accessory Members 25 is provided with two in the mode along the spaced-apart interval of left and right directions in upside (injection direction upstream side) part of manifold 21.

As shown in the dotted line of Fig. 3 and Fig. 7, each Accessory Members 25 be extend along left and right directions overlook essentially rectangular shape, the flat condition that the lateral surface on left and right directions of each Accessory Members 25 is formed as extending along the vertical direction.In addition, Accessory Members 25 is side-looking fan-shaped, and its lower surface is formed as tabular surface, and its upper surface is formed as along with going towards rear gradually the circular shape of lateral bend downwards.As shown in the shade of the thick line of Fig. 8 and fine rule, Accessory Members 25 is formed as the main general triangular shape (particularly, right-angle triangle) of looking.In addition, the lower surface of two Accessory Members 25 is formed as in main apparent time along with going towards left and right directions outside and rolling oblique inclined plane downwards, and the lower surface of two Accessory Members 25 configures in mode relative to each other on left and right directions.

In addition, as shown in Figure 7, on Accessory Members 25, be formed with in the time carrying out projection with left and right directions along the vertical direction than the 1st 11 side-prominent ledge slightly forward.

As shown in Figure 7 and Figure 8, two external end edges on left and right directions of the lower surface of Accessory Members 25 with in the time carrying out projection along fore-and-aft direction and the overlapping mode of the lower ora terminalis of the lower surface 47 of upper wall 46a configure.In addition, the interior ora terminalis on left and right directions of the lower surface of Accessory Members 25 is with adjacent and make mode that supply hole 20 exposes and supply hole 20 be configured in adjacently left and right directions two outsides of the bottom of supply hole 20 with the both ends on left and right directions of supply hole 20.

By this Accessory Members 25 is installed on to manifold 21, thus in the inflow space 52 of chamber 49, be formed with length on left and right directions along with going towards downside elongated expansion section 33 gradually.

Expansion section 33 be formed as centered by supply hole 20 and its length on left and right directions along with going downward elongated roughly inverted v-shaped shape gradually.

The 2nd 12 is the transparent components that formed by transparent materials such as the transparent resins such as for example acrylic resin (particularly, polymethyl methacrylate), silicone resin.

As shown in Figure 9, the 2nd 12 is the writing board shape extending along left and right directions, and its bottom is formed as the general triangular shape that the length on fore-and-aft direction shortens along with going towards downside.In addition, the 2nd 12 with in the time carrying out projection along fore-and-aft direction and the 1st 11 overlapping modes form.The upper surface of the 2nd 12 and two sides form concordantly with upper surface and the two sides of the 1st 11, and in addition, in the time carrying out projection along fore-and-aft direction, the bottom of the 2nd 12 and the 1st 11 bottom is configured in same position.

In addition, though not shown, on the 2nd 12 to be formed with multiple the 1st fixing hole 28(with reference to Fig. 8 in main apparent time with the 1st 11 identical configurations and identical size).

Pad 13 is by for example forming with the 1st block of 11 identical materials.Pad 13 is to look the roughly thin plate of reverse U shape shape to the unlimited master of downside.As the shade of the fine rule with reference to Fig. 8, pad 13 with in the time carrying out projection along fore-and-aft direction and the front surface of upper wall 46a and the overlapping mode of the front surface of 1 oppose side wall 46c between the 1st 11 and the 2nd 12.

In addition, though not shown, on pad 13 to be formed with multiple the 1st fixing holes 28 in main apparent time with the 1st 11 identical configurations and identical size.

Next, the assembling of nozzle 5 is described with reference to Fig. 9 and Figure 10.

First prepare, respectively the 1st 11, Accessory Members 25, pad 13 and the 2nd 12.

Then, Accessory Members 25 is installed on to the manifold 21 of the 1st 11, and pad 13 is disposed to the front surface of upper wall 46a and the front surface of 1 oppose side wall 46c.

Particularly, after Accessory Members 25 is embedded into the inflow portion 50 of manifold 21, by (not shown not shown fixed component, be for example screw element, bolt etc.) be inserted into the 2nd fixing hole 29(with reference to Fig. 5 and Fig. 8) in and make this fixed component arrive Accessory Members 25, thus, Accessory Members 25 is fixed on to manifold 21.

In addition, pad 13 is contacted respectively with the front surface of upper wall 46a and the front surface of 1 oppose side wall 46c.

Then, the rear surface of the 2nd 12 is contacted respectively with the front surface of pad 13 and the front surface of Accessory Members 25.Then the 1st fixing hole 28(that, not shown fixed component is inserted into the 1st 11, pad 13 and the 2nd 12 is with reference to Fig. 8) in and be fixed.Thus, utilize the 1st 11 and the 2nd 12 holding shims 13, assembling nozzle 5.

Thus, as shown in Figure 6, in nozzle 5, be formed with the chamber 49 being separated out by the medial surface of the manifold 21 of the 1st 11, pad 13 and the 2nd 12 rear surface.

Meanwhile, form the slit 56 being separated out by the medial surface of the front surface of the lower wall 46b of the 1st 11, pad 13 and the 2nd 12 rear surface.As with reference to Fig. 8, slit 56 is overlooked essentially rectangular configured openings with what extend along left and right directions, and, as shown in Figure 6, the side-looking essentially rectangular configured openings of slit 56 to extend along the vertical direction.

In addition, as shown in Figure 4 and Figure 6, the bottom of slit 56 (jet) offers gap 57.Gap 57 is formed as the jet of the varnish of the essentially rectangular shape of slenderly extending on left and right directions in the time looking up.

In addition, will be separated out the lower wall 46b, pad 13 of slit 56 and the 2nd 12 as injection portion 23.

And the lower surface of the lower surface of the bottom of the lower wall 46b of the 1st 11 and the 2nd 12 bottom is tabular surface and is used as scraper 26.

The size of nozzle 5 can be according to the physical property of varnish (comprising viscosity), film 60(with reference to Figure 11) shape and/or thickness and suitably setting, be not particularly limited.The width (length on left and right directions) of nozzle 5 is for example more than 30mm, more than being preferably 50mm, and is for example, below 500mm, to be preferably below 200mm.In addition, the internal diameter of supply hole 20 is for example more than 2mm, more than being preferably 5mm, and is for example, below 30mm, to be preferably below 15mm.In addition, the width in chamber 49, slit 56 and gap 57 (length on left and right directions) is for example more than 10mm, more than being preferably 30mm, and is for example, below 450mm, to be preferably below 150mm.In addition, the length on above-below direction of inflow space 52 is for example more than 3mm, more than being preferably 5mm, and be for example below 80mm, be preferably below 50mm, the length on fore-and-aft direction of inflow space 52 is for example more than 3mm, more than being preferably 5mm, and be for example, below 50mm, to be preferably below 30mm.The length on above-below direction of outflow space 53 is for example more than 3mm, more than being preferably 5mm, and is for example, below 80mm, to be preferably below 50mm.

In addition, the width of Accessory Members 25 (length on left and right directions) is for example more than 5mm, more than being preferably 15mm, and is for example, below 200mm, to be preferably below 70mm.In addition, the length on above-below direction of Accessory Members 25 is for example more than 3mm, more than being preferably 5mm, and is for example, below 80mm, to be preferably below 50mm.In addition, the length on fore-and-aft direction of Accessory Members 25 is for example more than 3mm, more than being preferably 5mm, and is for example, below 50mm, to be preferably below 30mm.

The length on fore-and-aft direction of slit 56 and gap 57(jet) the length on fore-and-aft direction in fact all identical with the length on fore-and-aft direction of pad 13, be for example more than 0.1mm, more than being preferably 0.5mm, and be for example, below 3mm, to be preferably below 2mm.

In addition, as shown in Figure 1, in this applying device 1, be adjacent to be provided with the mobile device 55 for nozzle 5 can be moved along fore-and-aft direction, left and right directions and/or above-below direction at the upside of pump 3 with pump 3.

Then, with reference to Fig. 1 and Figure 11, the method that uses this applying device 1 to apply varnish is described.

In the method, first, prepare varnish.

Varnish contains as the particle of essential component and resin.

As particle, can suitably set according to the purposes of film and object, can list for example fluorophor, filler.

Fluorophor has wavelength translation function, can list yellow fluorophor, the red-emitting phosphors that blue light can be converted to red light etc. that for example blue light can be converted to sodium yellow.

As yellow fluorophor, for example can list (Ba, Sr, Ca) 2SiO4:Eu, (Sr, Ba) ₂siO ₄: Eu(barium orthosilicate (BOS)) etc. silicate phosphor, for example Y ₃al ₅o ₁₂: Ce(YAG(yttrium-aluminium-garnet): Ce), Tb ₃al ₃o ₁₂: Ce(TAG(terbium aluminium garnet): Ce) etc. there is the nitrogen oxide fluorophor such as the carbuncle type fluorophor of carbuncle type crystal structure, such as Ca-α-SiAlON etc.

As red-emitting phosphors, can list for example CaAlSiN ₃: Eu, CaSiN ₂: the nitride phosphors such as Eu etc.

As the shape of fluorophor, can list such as spherical, tabular, needle-like etc.Consider from the viewpoint of mobility, preferably list spherical.

The mean value (being its average grain diameter in the situation that being spherical) of the maximum length of fluorophor is for example more than 0.1 μ m, more than being preferably 1 μ m, and is for example below 200 μ m, is also preferably below 100 μ m.

The proportion of fluorophor is for example more than 2.0, and is for example below 9.0.

Fluorophor can be used singly or in combination.

With respect to 100 mass parts resins, the mixing ratio of fluorophor is for example more than 0.1 mass parts, more than being preferably 0.5 mass parts, for example, is, below 80 mass parts, to be also preferably below 50 mass parts.

Filler is the toughness in order to improve film and being engaged in varnish, can list the inorganic particles such as the organic fine particles such as such as organic silicon granule, such as silica, talcum, aluminium oxide, aluminium nitride, silicon nitride.

The proportion of filler is for example more than 0.5, and is for example below 7.0.

The mean value (being its average grain diameter in the situation that being spherical) of the maximum length of filler is for example more than 0.1 μ m, more than being preferably 0.5 μ m, and is for example below 200 μ m, is also preferably below 100 μ m.

Filler can be used singly or in combination.

With respect to 100 mass parts resins, the mixing ratio of filler is for example more than 0.1 mass parts, more than being preferably 0.5 mass parts, and is for example, below 70 mass parts, to be also preferably below 50 mass parts.

Mixing ratio in the time being used in combination fluorophor and filler is as follows: with respect to 100 mass parts resins, the total amount of fluorophor and filler is for example more than 0.1 mass parts, more than being preferably 0.5 mass parts, for example, be, below 80 mass parts, to be also preferably below 60 mass parts.

As resin, can list the curable resins such as such as silicone resin, epoxy resin, polyimide resin, phenolic resins, urea resin, melmac and unsaturated polyester resin.

In addition, as resin, also can list for example polyolefin (for example, polyethylene, polypropylene, ethylene-propylene copolymer etc.), acrylic resin (for example, polymethyl methacrylate etc.), polyvinyl acetate, vinyl-vinyl acetate copolymer, polyvinyl chloride, polystyrene, polyacrylonitrile, polyamide, Merlon, polyformaldehyde, PETG, polyphenylene oxide (poly(phenylene oxide)), polyphenylene sulfide (polyphenylene sulfide), polysulfones, polyether sulfone, polyether-ether-ketone (polyetheretherketone), polyarylsulfone (PAS) (polyarylsulfone), TPI, TPU, polyamine base BMI (polyamino-bis-mieimide), polyamide-imides, PEI (polyetherimide), Bismaleimide Triazine (bismaleimide-triazine) resin, polymethylpentene (polymethylpentene), fluoride resin, liquid crystal polymer, alkene-ethenol copolymer, ionic bond, polyarylate (polyarylate), acrylonitrile ethylene styrene copolymer, the thermoplastic resin such as acrylonitrile-butadiene-styrene copolymer and acrylonitritrile-styrene resin.

As resin, preferably list curable resin, more preferably list curability silicone resin.

As curability silicone resin, can list for example silicone resin such as 2 stage solidification type silicone resins, 1 stage solidification type silicone resin etc.

2 stage solidification type silicone resins have the reaction mechanism in 2 stages, be in the reaction in the 1st stage the B stage (semi-solid preparation) and in the reaction in the 2nd stage the curability silicone resin in C stage (completely curing).

In addition, the B stage is the state between A stage and the completely crued C stage of 2 stage solidification type silicone resins in dissolving in solvent, be solidify and gelation is only carried out little by little, can be swelling in solvent but can not dissolve completely, can soften but state that can melting by heating.

1 stage solidification type silicone resin has the reaction mechanism in 1 stage, is completely crued curability silicone resin in the reaction in the 1st stage.

In addition, as curability silicone resin, for example can list the Thermocurable silicone resin curing by heating, for example for example, by irradiating active energy ray (, ultraviolet ray, electric wire etc.) curing active energy ray-curable silicone resin etc.Preferably list Thermocurable silicone resin.

The proportion of resin, for example than the light specific gravity of fluorophor and/or filler, particularly, for example, is more than 0.5, and is for example below 2.0.

With respect to varnish, the mixing ratio of resin is for example more than 0.1 quality %, more than being preferably 0.5 quality %, and for example for being less than 100 quality %, is preferably below 99.5 quality %.

In addition, in varnish, can coordinate in the proper ratio as required the composition arbitrarily such as solvent, additive.As solvent, can list the aromatic hydrocarbon such as the aliphatic hydrocarbons such as such as hexane, such as dimethylbenzene, the such as siloxanes such as vinyl cyclic dimethylsiloxane siloxanes, two terminal ethylenyl groups dimethyl silicone polymers etc.

As additive, can list the surface conditioners such as such as dispersant, silane coupler and levelling agent etc.

By by above-mentioned each components matching and be uniformly mixed to prepare varnish.

The viscosity of varnish under 25 DEG C and an atmospheric condition is for example more than 1000mPa s, more than being preferably 4000mPa s, and is for example, below 1000000mPa s, to be preferably below 100000mPa s.In addition, viscosity is by the temperature of varnish being adjusted to 25 DEG C and use E type cone and plate viscometer to turn mensuration with per second 99.

Then, the varnish preparing is put in tank 2.

The extra base material 54 of preparing.

Base material 54 is formed as sheet, but the not restriction especially of its outer shape for example, is formed as overlooking essentially rectangular shape (comprising rectangular strip, strip) etc. as shown in Figure 1.In addition, base material 54 configures along horizontal direction.

Base material 54 such as, becomes sheet by resin-shaped such as vistanex such as mylar, polypropylene such as such as PETGs (PET).In addition, also can make base material 54 be formed by for example metal.Also can implement lift-off processing etc. to the surface of base material 54.

Then, as with reference to Figure 11, make the 23(of the injection portion gap 57 of nozzle 5) relative with base material 54, and make injection portion 23 approach base material 54.

Now, by the length setting on above-below direction between scraper 26 and base material 54 be for example film 60(with reference to Figure 10) the thickness of expectation more than or for example identical size with the thickness of the expectation of film 60, particularly, for example, more than being set as 10 μ m, more than being preferably set to 30 μ m, and be for example set as, below 3000 μ m, being preferably set to below 2800 μ m.

Then, pump 3 is driven, and utilize mobile device 55 that nozzle 5 is forwards moved horizontally.

Now, by the driving of pump 3, make varnish arrive static mixer 4 from tank 2 via pump 3.So, particle and resin in varnish are mixed equably on one side, as shown in Figure 11 varnish is guided in chamber 49 via supply hole 20 on one side.

So, make varnish flow into inflow space 52, in expansion section 33, as with reference to Fig. 8, varnish is expanded gradually along left and right directions, and flows out to outflow space 53 under the driving of pump 3 and/or the effect of gravity.Then,, in outflow space 53, as shown in Figure 6, varnish is constriction on fore-and-aft direction on one side, flows and arrival slit 56 downwards on one side.Afterwards, varnish sprays towards base material 54 from gap 57.

As shown in figure 11, the thickness that is ejected into the varnish on base material 54 can be adjusted by the scraper 26 of the 1st of the nozzle 5 forwards moving pieces 11.

Afterwards, make as required varnish-drying, thereby form film 60.

In addition, by varnish is intermittently coated on base material 54, can forms film 60 with one chip, or can be also, by varnish is sprayed to base material 54 continuously, can form film 60 with continous way.In addition, afterwards, also can utilize the sharp processings such as cutting that the film of continous way 60 is formed as to one chip.

Afterwards, as required, in the situation that resin contains curable resin, utilize heat, active energy ray etc. to implement to solidify and process.Thus, form the film 60 that solidifies rear (or after semi-solid preparation).

In addition, in the situation that resin contains thermoplastic resin, on applying device 1, heater is set, one side is heated and is made resin melting or softening, implements above-mentioned processing on one side.

And, in this applying device 1, can utilize static mixer 4 to stir being supplied to nozzle 5 varnish before.Therefore, can guarantee particle in varnish and the uniformity of resin.

In addition, in this applying device 1, by varnish direction (the 1st direction) outside expansion to the left and right gradually along with going towards downside (injection direction downstream) in expansion section 33 of manifold 21.The jet flow that therefore, can prevent varnish becomes slowly and the delay that produces varnish.Its result can be eliminated the inhomogeneities of the particle in varnish in manifold 21.Thereby, can guarantee fully the uniformity of the particle in obtained film.

In addition, in manifold 21, compared with outflow portion 51, the jet flow of the above-mentioned varnish in inflow portion 50 easily becomes slowly, the delay of the varnish that easily generation causes thus.

But, in this applying device 1, owing to being provided with expansion section 33 in inflow portion, therefore can preventing that the jet flow of above-mentioned varnish from becoming slowly, thereby can prevent the delay of varnish.

In addition, the quantity of the twist blade 7 in static mixer 4 is as long as multiple, do not limit especially, be preferably 6 above (particularly, the quantity of left handed twist blade 9 is more than 3, and the quantity of right twist blade 8 is more than 3), and be for example 30 following (particularly, the quantity of left handed twist blade 9 is below 15, and the quantity of right twist blade 8 is below 15).In this applying device 1, because static mixer 4 has 6 above twist blades 7, therefore can further guarantee fully particle in varnish and the uniformity of resin.

In the explanation of Fig. 8, Accessory Members 25 is configured to and can be loaded and unloaded with respect to manifold 21, though not shown, can be also for example, Accessory Members 25 and manifold 21 to be configured to one.Preferably Accessory Members 25 is configured to and can be loaded and unloaded with respect to manifold 21.Adopt such applying device 1, can be replaced by according to the characteristic of varnish the Accessory Members 25 of intended shape.Particularly, change the inclination angle of the lower surface (inclined plane) of Accessory Members 25 according to the viscosity of varnish.Specifically, according to the kind of the kind of particle, mixing ratio, shape, average grain diameter, resin, mixing ratio and viscosity etc., that is to say the inclination angle that changes (inclined plane) of above-mentioned Accessory Members 25 according to the prescription of varnish, thereby can prevent simply the delay of above-mentioned varnish.

In addition, be set as transparent component by the 2nd 12, but can be also for example, to be set as by the 2nd 12 the opaque member being formed by metal.Preferably be set as transparent component by the 2nd 12.Adopt such applying device 1, can, via the 2nd block of varnish that 12 visualizations are passed through in the chamber 49 that comprises expansion section 33 as transparent component, therefore can check simply the state of the particle in varnish.

In addition, in order to confirm the delay of varnish in expansion section 33, be not limited to above-mentioned the 2nd 12 of being formed by transparent material, also can be, for example, in the 2nd 12, (for example make the part relative with expansion section 33, window portion) formed by transparent material, the part beyond this part is set as to opaque member.

In addition, in the embodiment of Fig. 1, nozzle 5 is moved with respect to base material 54, as long as for example make base material 54 and nozzle 5 relatively move, though not shown, but also can make base material 54 move with respect to nozzle 5.

In the above description, so that gap 57 mode is downward provided with nozzle 5, but for example also can make gap 57 towards side or top.

In addition, in the embodiment of Fig. 1, nozzle 5 is forwards moved, but moving direction being not limited thereto, for example, can be also that nozzle 5 is rearward moved.In this case, as with reference to Figure 11, utilize the scraper 26 of the 2nd 12 to adjust the thickness of film 60.

In addition, in the respective embodiments described above, also can implement the processing such as chamfer machining to the each part in static mixer 4 and/or nozzle 5 and process.

Embodiment

Can be by the numerical value in embodiment shown below and comparative example instead of the corresponding numerical value of recording in above-mentioned embodiment (, higher limit or lower limit).

Embodiment 1

The preparation of varnish

To the aqueous silicone resin of 80 mass parts (the A liquid of LR7665, 1 stage solidification type silicone resin, proportion 1.0, chemical industrial company of SHIN-ETSU HANTOTAI manufactures) middle 20 mass parts organic silicon granules (ト ス パ ー Le (Tospearl) 2000B that adds, proportion 1.32, モ メ Application テ ィ Block パ フ ォ ー マ Application ス マ テ リ ア Le ズ ジ ャ パ Application (the NIPPON RIKA KOGYOSHO CO. of company, LTD.) manufacture), and add 15 mass parts YAG:Ce(Y-468, proportion 4.5, yellow fluorophor, ネ モ ト Le ミ マ テ リ ア Le (the Nemoto Lumi-Materials Co. of company, Ltd.) manufacture), above-mentioned substance is uniformly mixed and has prepared varnish.

The viscosity of varnish under 25 DEG C and an atmospheric condition is 40000mPa s.

The coating of carrying out to base material

As shown in Fig. 1～Figure 11, prepare to comprise the applying device of tank, pump, static mixer, nozzle (with Accessory Members) and mobile device.Pattern and the size of static mixer and nozzle are shown below.

Static mixer

Kenics mixer type

Pipe range 260mm

Internal diameter 11mm

The ratio 23.6 of pipe range and internal diameter

The length 10mm on injection direction of right twist blade

The length 10mm on injection direction of left handed twist blade

The quantity 7 of right twist blade

The quantity 8 of left handed twist blade

Nozzle

Width (length on the left and right directions) 70mm of nozzle

The internal diameter 10.5mm of supply hole

Width (maximum length on the left and right directions) 54mm of chamber

The length 10mm on above-below direction of inflow space

The length 10mm on fore-and-aft direction of inflow space

The length 10mm on above-below direction of outflow space

The width 22mm of Accessory Members

The length 10mm on above-below direction of Accessory Members

The length 10mm on fore-and-aft direction of Accessory Members

Width (maximum length on the left and right directions) 50mm of slit

The length 10mm on fore-and-aft direction of slit

The length 10mm on fore-and-aft direction in gap

Then, the varnish preparing is put in tank, additionally prepared the base material being formed by PET.

Then, utilize mobile device, so that the mode that the length on above-below direction between scraper and base material is 400 μ m makes the gap of nozzle relative with base material.

Then, pump is driven, and utilize mobile device to make nozzle forwards move horizontally 140mm.

Thus, to have manufactured length on left and right directions be 54mm, length on fore-and-aft direction is the film that 140mm, thickness are 0.4mm.

Comparative example 1

Accessory Members is not installed in nozzle, in addition, is processed similarly to Example 1 and manufactured film.

Comparative example 2

In applying device, substitute static mixer and be provided with straight tube, in addition, process similarly to Example 1 and manufactured film.

Evaluate

From the 2nd side visualization the varnish in the nozzle when coating in embodiment 1 and comparative example 1,2.Its photo is illustrated in Figure 12～Figure 14.

Not installing in the comparative example 1 of Accessory Members, can confirm YAG:Ce(yellow fluorophor in the bight at the upper end in upside space and the both ends on left and right directions in nozzle) the thin part that thins out, in bight, can confirm the delay of varnish.

In comparative example 2, can confirm YAG:Ce(yellow fluorophor) be thin fluid along the inner surface of the manifold in lower surface and the lower side space of the Accessory Members in upside space, can confirm the YAG:Ce(yellow fluorophor in varnish) concentration become inhomogeneous such situation.

Compare with comparative example 2 with comparative example 1, in embodiment 1, do not confirm the YAG:Ce(yellow fluorophor in varnish) thin part, known YAG:Ce(yellow fluorophor) evenly.

In addition,, although provide above-mentioned utility model as illustrated embodiment of the present utility model, this is only to illustrate, and should not do limited explanation.The variation of the present utility model it will be apparent to those skilled in the art that is included in claims of the present utility model.

Utilizability in industry

The manufacture method of the film that applying device can be applicable to use in various uses.

Claims (5)

1. an applying device, it is the varnish that contains particle and resin for applying, it is characterized in that,

This applying device comprises:

Static mixer, it is for stirring above-mentioned varnish; And

Nozzle, it is arranged on the injection direction downstream of above-mentioned static mixer,

Said nozzle has manifold, this manifold for make on one side by above-mentioned static mixer stir injected on one side varnish along with orthogonal the 1st Directional Extension of above-mentioned injection direction,

In above-mentioned manifold, be provided with expansion section, the length in above-mentioned the 1st direction of this expansion section is elongated gradually along with going towards above-mentioned injection direction downstream.

2. applying device according to claim 1, is characterized in that,

Above-mentioned manifold comprises:

Inflow portion, it is for flowing into for varnish of being sprayed by above-mentioned static mixer, this inflow portion along long-pending along with going and expand towards above-mentioned injection direction downstream with the opening section of the orthogonal orthogonal direction of above-mentioned injection direction; And

Outflow portion, it is arranged on the above-mentioned injection direction downstream of above-mentioned inflow portion, and for varnish is flowed out from above-mentioned inflow portion, the opening section along above-mentioned orthogonal direction of this outflow portion is long-pending along with going and dwindle towards above-mentioned injection direction,

Above-mentioned inflow portion is located in above-mentioned expansion section.

3. applying device according to claim 1, is characterized in that,

Above-mentioned static mixer has more than 6 twist blades along above-mentioned injection direction, and this twist blade is along with going and twist towards above-mentioned injection direction.

4. applying device according to claim 1, is characterized in that,

Be used for marking off Accessory Members above-mentioned expansion section, that can load and unload with respect to above-mentioned manifold and be located at the end that is positioned at above-mentioned injection direction upstream side in above-mentioned the 1st direction of above-mentioned manifold.

5. applying device according to claim 1, is characterized in that,

Said nozzle has the transparent component of the varnish can visualization passing through in above-mentioned expansion section.