SU994033A1 - Extrusion slit head for applying photoemulsion on substrate - Google Patents

Description

The invention relates to techniques for the extrusion application of liquid layers on the surface of rolled materials and can be used, in particular, when applying photosensitive coatings to a substrate in the production of film and photo materials.

Known extrusion slit head for applying · emulsion to the substrate containing the plate, forming _f distribution channels with exit slots. For the passage of the emulsion, while the plates are sandwiched between the vacuum chamber and the plate and through holes are made in them, in which threaded bushings are installed £ 1].

A disadvantage of the known head is the formation of edge thickenings on a photosensitive coating, ve-; leading to the loss of emulsion, as well as to deterioration of the drying mode and the quality of the winding of the rolls due to the excess of the thickened edge over the main layer.

The closest to the invention in technical essence and the achieved result is an extrusion slit head for applying a photoemulsion to a substrate containing plates forming distribution channels with exit gaps, end caps, dividing profiled inserts with a pointed exit edge mounted on end caps and forming with cavities open from the exit side of the slit head and communicating with the source of the gelatinous solution £ 2].

A disadvantage of the known head is the presence of a zone of mutual destruction of adjacent layers, which is formed upon their entry into the gap due to fluid turbulence, which leads to an increased consumption of photoemulsion.

The aim of the invention ^ is to improve the quality of application and economy of the emulsion. Due to the elimination of the zone, 994033 mutual destruction of the adjacent layers of the emulsion and gelatin solution. This goal is achieved due to the fact that in the extrusion slit head for applying emulsion on a substrate containing plates forming distribution channels with outlet slots, end caps, profiled separation inserts with a pointed exit edge., Mounted on the end caps and forming cavities with them open from the exit side of the slit head and communicating with the source of the gelatin solution, the inserts are installed in. recesses between the distribution channel and the outlet section of the gap, while in the plates at the location of the cavities in communication with the source of the gelatinous solution, recesses are made one against the other.

In FIG. 1 schematically shows an extrusion slit head, cross section; in FIG. 2 - longitudinal section along the first slit; in FIG. 3 cross section of the head at the exit section of the slit; in FIG. 4 is a section in a plane perpendicular to the surface of the free flow of fluid (only the bottom layer is conventionally shown).

The extrusion slit head contains plates 1,2 and 3, sandwiched between the plate 4 and the housing of the vacuum chamber 5 with screws 6 and forming distribution channels O and bc with exit slots C and c | . The head also includes end caps 7 and 8, which cover the plates 1, 2 and 3 from the ends and the distribution channels a and b formed by them with exit slots C and <3> extending onto the free draining surfaces e and {plates. The head is equipped with dividing profiled inserts 9 and 10 with a pointed output edge mounted on the end caps 7 and 3 and forming cavities g and b with them, open from the outlet side of the slit head and communicating with mud solution (cauldron).

Dividing inserts 9 and 10 are installed at both ends in the exit slot C between the distribution channel a and the outlet 'portion of the gap and divide the gap c into three sections ή, j, ί. Sections I and through the cavities IJ and b and the channels γη and and together with the source of the gut (in the drawing, not profiled gelatinous spreading through the distribution channel P-c in the system drawing

IS are connected with the source of the thief, and the site channel (a) and my feed of the emulsion are not shown). The surfaces fug of the dividing profiled insert 9 form a pointed outlet edge Φ, and the surfaces and the dividing profiled insert 10 ί form a pointed outlet edge w. The head is mounted relative to the substrate 11 with a gap. In plates 1, 2 and 3, at the location of the cavities g and Vi, communicating with the source of the same> Latin solution, the recesses X and N are made one against the other.

Extrusion slit head operates as follows.

A photoemulsion along the p channel is supplied. I into the distribution channel a, where it is evenly distributed throughout. its length, and then enters the section) of the exit slit ^c . Through the channels u and through the cavities and b, gelatin. the solution enters the sections -i and from the exit slit C. Then, along the inclined surfaces r and o, the gelatinous solution reaches the pointed outlet edges έ and W, where it is combined into a common stream with a photoemulsion. From the exit slit C, the fluid flow, exiting onto the free runoff surface 6, moves along it in the form of a film, being held at the edges by surface tension forces with surfaces 7 and 8.

By reducing the flow rate of the gelatin solution per unit length of the gap, in comparison with the flow rate of the emulsion, a decrease in the thickness of the gelatin layer with respect to the thickness of the emulsion layer is achieved. The edge thickness due to surface tension forces increases in comparison with the thickness of the gelatin layer L ^.

Thus, by changing the flow rate of the gelatin solution, the edge thickness can be obtained equal to the thickness of the PHOTOEMULSION LAYER Ίΐ-ϊ,. In this case, there are no zones of mutual destruction of neighboring layers, since they unite directly in the gap, the irin of which is very small and the surface tension of the liquid prevents the layers from mixing.

The use of this invention will improve the quality of products, as well as provide significant savings 5994033 expensive material in short supply. At the same time, the expected economic effect will be about 500 thousand rubles per year for the production association, and about 1 million rubles for the industry 5.

Claims (2)

The invention relates to the technique of extrusion deposition of liquid layers on the surfaces of roll materials and can be used, in particular, when applying photosensitive coatings to a substrate in the production of film photographic materials. A known extrusion slit head for applying - a photo emulsion on a substrate, containing plates, forming distribution channels with exit slots. The emulsion passes, while the plates are clamped to meldu with a vacuum chamber and lining and threaded holes are installed in them. bushings l. A disadvantage of the known f-head is the formation of edge thickenings on the photosensitive coating, leading to loss of the photo emulsion, as well as deterioration of the drying mode and quality of the winding rolls due to the excess of the thickened edge over the main layer. The closest to the invention in technical essence and the achieved result is an extrusion slit head for applying a photo emulsion on a substrate containing plates, forming distribution channels with exit gaps, end caps, separating profiled inserts with a pointed exit, an edge fixed on frontal lids and cavities forming with them, open 1 on the outlet side of the slotted head and communicating with the source of gelatin solution 2. A disadvantage of the known holoop is the presence of a cross-section of the adjacent layers formed at the entrance them into the gap due to the arising turbulence of the liquid, which leads to an increased consumption of the photo emulsion. The aim of the invention is to improve the quality of application and to save photo emulsion. By eliminating the mutual destruction zone of adjacent layers of photo emulsion and gelatin solution. The goal is achieved due to the fact that in an extrusion slit head for applying a photo emulsion on a substrate containing plates forming distribution channels with exit slots , end caps, dividing profiled inserts with a pointed output edge, fixed on the end caps and forming cavities with them, open on the exit side of the die and communicating with the gelatin solution of a source, insert installed. the outlet slots between the distribution channel and the outlet portion of the slot, while in the plates at the location of the cavities, which communicate with the source of the gelatin solution, there are grooves opposite one another, Fig. 1 schematically shows an extrusion slit head, a transverse section; in fig. 2 is a longitudinal section along the first slit in FIG. 3 a cross section of the head at the exit portion of the slit; in fig. 4 is a section in a plane perpendicular to the surface of the free flow of liquid (only the bottom layer is conventionally shown). The extrusion slotted head contains plates 1, 2 and 3, clamped between the cover 4 and the case of the vacuum chamber 5 by screws 6 and forming distribution channels O and b. with exit slots C and (3. The head also includes end caps 7 and 8, some of which cover plates 1, 2 and 3 and the distribution channels O and b formed by them with exit slots C and 3 that go to surfaces free drainage and {plates Sleep head Bzhena separating profiled inserts H and 10 with a pointed output edge, fixed on the end caps 7 and 3 and forming with them the Cavities p and ii, open from the exit side of the slotted head and communicating with the source of the gelatinous solution (not shown in the drawing). Separating profiled inserts 9 and 10 are installed at both edges in the exit slit C between the distribution channel a and the exit portion of the slit and divide the 1 end from the rest of the spacing, j, C. Sections i through cavities g and V) and channels gp and vi communicate with the SOURCE of the gelatinous solution, and the section through the distribution channel a and channel P with the emulsion supply system (not shown). The surfaces G and g of the separating profiled insert 9 form a pointed output edge t., And the surfaces and the separating profiled insert 10 form a pointed output edge Jv. The head is set relative to the substrate 11 with a gap. Plates 1, 2, and 3 at the location of the cavities g and Vi, which are connected to the source of the gelatinous solution, have grooves X and one against the other. The extrusion slit head works as follows. The photoemulsion is fed through channel p to distribution channel a, where it is evenly distributed throughout. its length, and then enters the section j of the exit slit. Through the channels m and and through the cavities p and b, the gelatinous solution enters the regions -i and from the exit slit C. Then, along the surfaces, and the gelatinous solution reaches the pointed output edges t and w, where it is combined into a common stream with a photo emulsion. From the exit slit C, the flow of liquid, the exit to the surface of free runoff 6, moves along it in the form of a film, being held along the edges by surface tension forces with surfaces 7 and 8. By reducing the flow of gelatinous solution, the arrival per unit length of the slit compared to the flow rate of the emulsion, a reduction in the thickness of the gelatin layer is achieved relative to the thickness of the photoemulsion layer. The edge thickness b is increased due to surface tension forces compared with the thickness of the gelatin layer tin. Thus, by changing the consumption of the gelatinous solution, the edge thickness can be obtained equal to the thickness of the emulsion layer li-ji,. At the same time, the zones of mutual destruction of the adjacent layers are absent, since they unite directly in the slit, whose irish is very small and the surface tension of the liquid prevents the layers from mixing. The use of this invention will improve the quality of products, as well as provide significant savings in expensive scarce material. At the same time, the expected economic effect of the production association will be about 500 thousand rubles a year, and about 1 million rubles for the industry. Claims of the Invention An extrusion slit head for applying a photo emulsion to a substrate comprising plates forming distribution channels with exit slits, end caps, separating profiled inserts with a pointed output edge, fixed on end caps and forming cavities with them, open from the side of the slot head and communicating A SOURCE gelatinous solution, characterized in that, in order to improve the quality of application and to save photo emulsion due to liquidation and mutual destruction zone The adjacent layers of the photo emulsion and gelatinous solution are inserted into the outlet slots between the distribution channel and the outlet portion of the slit, while i-iecre plates of cavities connected to the source of the gelatinous solution are made in the plates opposite to each other. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 317536, cl. In 29 F S / O, 1969. 2. USSR author's certificate number 797900, cl. In 29 F ZM, 1979 (prototype). fpygJ / // ™ H Fug. f S ff // / ffC / ryy ffb / tf / ftffC / T, F & g four / f Of / fffi y ec ff / fyjf cy