CN114161825A - Full-automatic printing equipment for electrothermal film - Google Patents

Abstract

The invention provides a full-automatic printing device for an electrothermal film, which comprises: the printing machine comprises a printing machine main body, wherein a main control cabinet is fixedly arranged at the top end of the printing machine main body; the cooling subassembly, the four longitudinal sides surface of receipts thing case is equant to divide row fixed mounting to have a plurality of to reduce the cooling subassembly of receiving thing case surface temperature, and the outward appearance of cooling subassembly is the totally closed triangle shape of falling of inside hollow, and the cooling subassembly is including: the main casing, roof, drain pan, can be with the guide subassembly that a class cooling material was drawn forth and can be with the guide subassembly that another class cooling material was derived. This kind of full-automatic lithography apparatus of electric heat membrane can play and make the thing case of receipts possess the function of cooling down in time, even if because of the electric heat membrane temperature that has dried is higher, the electric heat membrane that the printing was dried out is known the number and is fallen to the thing case and collect the time and also can not make the temperature on thing case surface and continuously rise, can in time cool down the thing case and handle, eliminates the effect that operating personnel touched the potential safety hazard of being scalded when getting the thing case surface carelessly.

Description

Full-automatic printing equipment for electrothermal film

Technical Field

The invention relates to the technical field of printing equipment, in particular to full-automatic printing equipment for an electrothermal film.

Background

Most of the simple structure function singleness of electric heat membrane sheet-fed gravure press that appear on the market at present, the printing of domestic gravure press belongs to manual operation at present, can not realize automatic feeding and unloading, and work efficiency is low, and the manual work places the sola electric heat membrane, and the error appears easily, has reduced the qualification rate of production, and then has increased the labour cost of production, has also increased workman's use amount.

Aiming at the problems, the technical problem that the feeding efficiency of the existing electrothermal film gravure press is low is solved, through a large number of searches, a full-automatic low-temperature radiation electrothermal film printing device with the patent number of CN201920502677.3 is inquired, the full-automatic low-temperature radiation electrothermal film printing device comprises a printer main body and a storage box, a printing roller is rotatably connected to the inner side of the printer main body, a drying cabinet is fixedly connected to the inner side of the top end of the printer main body, a transition frame is fixedly connected to the top end of the printer main body, a third air suction belt is rotatably connected to the inner side of the rear end of the printer main body and penetrates through the drying cabinet, a second air suction box is attached to the inner side of the bottom end of the third air suction belt and fixedly connected with the printer main body, and a connecting rod is fixedly connected to the left end of the printer main body; this patent is induced drafted belt, third induced draft case and storage tank and second through backup pad, electric telescopic handle, the second that sets up and is induced drafted the belt, can realize treating the quick automatic material loading of printed matter to the sola through the effect that the second induced drafted the belt, has improved the efficiency of material loading.

But the technical scheme that this patent provided does not possess timely cooling function to receiving the thing case, because of the electrothermal film temperature that has dried is higher, the electrothermal film that the printing was dried is known to number and can make when receiving in the thing case and collect and receive the temperature on thing case surface and continuously rise, if fail in time to receive the thing case to cool down the processing, will have operating personnel and touch the potential safety hazard of being scalded when receiving the thing case surface carelessly when getting the material.

Disclosure of Invention

The invention aims to solve the technical problems in the background art and provides full-automatic printing equipment for an electrothermal film.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a full-automatic lithography apparatus of electric heat membrane, includes:

the automatic winding and unwinding device comprises a printer main body, wherein a main control cabinet is fixedly mounted at the top end of the printer main body, a support frame is fixedly mounted at the lower part of the front end of the printer main body, a winding roller is rotatably mounted at the upper part of the front end inside the support frame, tensioning rollers are rotatably mounted at the middle part and the top part of the front end inside the printer main body, a driving roller and a driven roller are respectively rotatably mounted at the upper part of the front end inside the printer main body from front to back, and an object collecting box is placed at the bottom position of the back of the printer main body;

the cooling subassembly, it has a plurality of to reduce to receive four longitudinal side surface equipartition branch lists fixed mounting of thing case receive the cooling subassembly of thing case surface temperature, the outward appearance of cooling subassembly is inside hollow totally closed triangle-shaped of falling, the cooling subassembly including: the cooling device comprises a main shell, a top plate, a bottom shell, a material guiding assembly and a material guiding assembly, wherein the material guiding assembly can lead out one type of cooling material, and the material guiding assembly can lead out the other type of cooling material;

a plurality of main shells are fixedly arranged on the outer surfaces of four longitudinal sides of the article receiving box in an equal-adjacent row, the appearance of each main shell is in a hollow letter W shape with an opening at the top end on one longitudinal section, the five sides of the front, the rear, the left and the right bottoms of the main shells are in a fully-closed shape, the outer surface of the rear side of each main shell is fixedly arranged on the outer surface of the longitudinal side of the article receiving box, a long and thin hole penetrating up and down is formed in the bottom of the left end of each main shell, the main shells are made of copper, cooling liquid is pre-filled in a V-shaped groove in the bottom of the right end of each main shell, and the pre-filled amount of the cooling liquid is 5/6 of the volume in the V-shaped groove in the bottom of the right end of each main shell;

the top end of the main shell is fixedly provided with a top plate, the appearance of the top plate is in a horizontal long straight plate shape, and the top plate seals the top end opening of the main shell;

a bottom shell is fixedly installed at the bottom end of the main shell, the combined appearance of the bottom shell and the middle part of the bottom end of the main shell is a rhombic groove which is hollow inside and totally closed, the appearance of the lower end part of the bottom shell is in a shape of a letter V which is hollow inside on a longitudinal section, the left inner wall and the right inner wall of the upper end of the bottom shell are inverted V-shaped outer surfaces of the bottom middle end of the main shell, the left outer surface and the right outer surface of the lower end of the bottom shell are respectively flush with the left outer surface and the right outer surface of the main shell, a folded angle position of the middle end of the left inner wall of the bottom shell is closely adjacent to a slender outlet hole of the main shell, and the bottom shell is also made of copper;

a material guiding assembly is movably arranged between the middle end and the right end in the main shell;

and a material guide assembly is movably arranged at the top end inside the bottom shell.

Further preferred embodiments: the material guiding component comprises:

the middle position of the top end inside the main shell is rotatably provided with an upper rotating shaft in the front-back horizontal direction, the front end and the back end of the upper rotating shaft are rotatably arranged at the middle position of the top end of the front inner wall and the back inner wall of the main shell, and the upper rotating shaft is positioned at the middle position of the outer surface of the bottom side of the top plate;

the right groove, go up the surface right-hand member position slant fixed mounting of pivot and have right groove, the outward appearance in right groove is the short straight plate shape that inside cavity, end to end run through, right groove is in under normal conditions and personally submits the static balanced state of the high right side low slope of 30 contained angles with the level, the right-hand member prelude entry in right groove under normal conditions static laminating in inclined to one side upper end surface in the right inner wall of main casing.

Further preferred embodiments: the material guiding component also comprises:

a left side groove, go up the surface bottom fixed mounting of pivot has left groove, a left side groove with the combination outward appearance in right side groove is inside cavity, interior angle that the head and the tail run through is 60 slope letter "V" shape on a longitudinal section, a left side groove is in vertical static balanced state from top to bottom under normal conditions, the top prelude entry in a left side groove with the left end afterbody export in right side groove runs through each other, the length on the upper and lower length in a left side groove is short in length about the right side groove, the bottom afterbody export in a left side groove static laminating in under normal conditions in the bottom middle part dog-ear inner wall surface of main casing, a left side groove with distance equals about the right side groove between the inner wall.

Further preferred embodiments: the material guiding component also comprises:

the lower end of the outer surface of the left side of the left groove is fixedly provided with an upper air bag, and the appearance of the upper air bag is in a semicircular shape with a left convex and a right vertical on a longitudinal section.

Further preferred embodiments: the material guiding component also comprises:

the magnetic block is fixedly installed at the upper end of the outer surface of the left side of the left groove, and the left thickness and the right thickness of the magnetic block are smaller than the distance between the left inner wall and the right inner wall of the left groove.

Further preferred embodiments: the material guiding component also comprises:

the fixed plate is fixedly installed at the position, deviated from the left end, of the outer surface of the bottom side of the top plate, the appearance of the fixed plate is in a shape of an inclined arc strip protruding from the left and concave from the right on a longitudinal section, the fixed plate is made of iron, and the outer surface of the bottom of the right end of the fixed plate is spaced from the outer surface of the left side of the magnetic block under normal conditions.

Further preferred embodiments: the guide assembly comprises:

the middle position of the top end of the inside of the bottom shell is provided with a lower rotating shaft in a front-back horizontal direction in a rotating manner, the front end and the back end of the lower rotating shaft are rotatably arranged at the middle position of the top ends of the front inner wall and the back inner wall of the bottom shell, and the lower rotating shaft is positioned at the middle position of the outer surface of the bottom side of the main shell;

the change board, the left side surface of pivot encircles fixed mounting down has the change board, the outward appearance of change board is short straight plate shape, the change board is in under the normal condition and personally submits the low high static balanced state in the right side in the left side of 30 contained angles with vertical from top to bottom, the left end bottom side tail end surface of change board under the normal condition static laminate in end surface and next-door neighbour in the left inner wall of drain pan the slender hole of main casing.

Further preferred embodiments: the material guiding component also comprises:

the outer surface of the right side of the rotating plate is fixedly provided with an inserting plate at the upper end, and the appearance of the inserting plate is in an arc strip shape with a concave top and a convex bottom on one longitudinal section.

Further preferred embodiments: the material guiding component also comprises:

the backup pad, the right inner wall upper end position fixed mounting of drain pan has the backup pad, the outward appearance of backup pad is slope letter "C" shape on a longitudinal section, the backup pad is located the right-hand member position of picture peg, inclined to one side upper end position in the left end of backup pad is seted up the slide opening that runs through about, the slide opening can with the picture peg butt joint, the right-hand member afterbody of picture peg is located under the normal condition the left end entry position of slide opening, the right-hand member bottom middle-end position of backup pad is seted up the orifice that runs through from top to bottom.

Further preferred embodiments: the material guiding component also comprises:

the lower air bag is embedded between the inner wall of the supporting plate and the right inner wall of the bottom shell, the appearance of the lower air bag is in a semicircular shape with a left convex and a right straight on a longitudinal section, and ammonium nitrate powder is pre-installed in the inner position of the lower air bag;

the bottom of the right end of the lower air bag is provided with a sealing plug in a sliding mode, and the sealing plug is used for normally blocking a bottom outlet hole of the supporting plate.

Has the advantages that:

1. the full-automatic printing equipment for the electrothermal film utilizes the principles of expansion with heat and contraction with cold, levers, siphoning and negative pressure by arranging the cooling assembly, when the printed and dried electrothermal film is counted and falls in the object receiving box, the heat temperature of the electrothermal film is transmitted into a main shell of the cooling assembly through the surface of the object receiving box, and the material guiding assembly of the cooling assembly in the main shell is deformed under the action of the principle of expansion with heat and contraction with cold; under the action of the lever principle, the material guiding assembly moves; then under the action of a siphon principle, coolant liquid preassembled in the V-shaped groove at the lower right end of the main shell is led out from right to left and from inside to outside into a bottom shell of the main shell bottom temperature reduction assembly; then under the action of a lever principle, a material guide assembly of the cooling assembly in the bottom shell moves; finally, under the action of a negative pressure principle, the material guide assembly deforms, another type of cooling material pre-installed in the material guide assembly is led out downwards to the bottom end of the bottom shell and is converged and mixed with the previously introduced cooling liquid, heat in the bottom shell and the main shell is absorbed and cold temperature is generated after the two materials are contacted, and the main shell and the bottom shell which are made of copper are outwards transmitted to the surface of the object receiving box; therefore, under the continuous cooperation action of the plurality of cooling components, the temperature of the outer surface of the object receiving box can be reduced;

2. the full-automatic printing equipment for the electrothermal film is provided with the material guiding assembly, and utilizes the principles of expansion with heat and contraction with cold, lever and siphon, when the surface temperature of the object receiving box is normal, the right groove of the material guiding assembly is in a static balanced state of inclination of high left and low right, which forms an included angle of 30 degrees with the horizontal plane, and the head part inlet at the right end of the right groove is statically attached to the upper end surface of the right inner wall of the main shell; the left groove of the material guiding component is in a vertical static balance state, and the outlet at the tail part of the bottom end of the left groove is statically attached to the surface of the inner wall of the bevel at the middle part of the bottom end of the main shell; the upper air bag of the material guiding component is in a natural expansion undeformed state; a distance is reserved between the outer surface of the bottom of the right end of the fixing plate of the material guiding assembly and the outer surface of the left side of the magnetic block of the material guiding assembly; when the temperature of the surface of the object receiving box rises, the state can be gradually broken, namely, after the heat is transferred into the main shell of the cooling assembly, the heat can float to the surface of the upper air bag, and under the action of the principle of expansion with heat and contraction with cold, the upper air bag is heated to expand, so that the buoyancy of the upper air bag is improved; then under the action of a lever principle, the upper air bag drives the left groove to rotate clockwise towards the upper left, and simultaneously, the right groove rotates downwards, so that the inlet at the head part of the right end of the right groove is inserted into the cooling liquid in the V-shaped groove at the lower right end of the main shell; when the left groove and the right groove are kept in a static state after the magnetic block and the fixed plate are mutually adsorbed, under the action of a siphon principle, cooling liquid is sucked into the left groove from an inlet of the right groove and then is led into the left groove through an outlet at the tail part of the left end of the left groove, is led into a V-shaped groove at the left lower end of the main shell and flows out into the bottom shell through a long and thin outlet of the V-shaped groove, so that the cooling material can be released after the magnetic block and the fixed plate are movably deformed; therefore, the extraction of a class of cooling materials is realized, and the cooling is convenient;

3. according to the full-automatic printing equipment for the electrothermal film, by arranging the material guide assembly and utilizing the lever and negative pressure principle, when the surface temperature of the material collecting box is normal, the rotating plate of the material guide assembly is in a static balance state of being low at the left side and high at the right side, forming an included angle of 30 degrees with the upper vertical surface and the lower vertical surface, and the outer surface of the tail end at the bottom side of the left end of the rotating plate is statically attached to the middle end surface of the left inner wall of the bottom shell and is close to the slender outlet hole of the main shell; the tail part of the right end of the inserting plate of the material guiding component is positioned at the inlet position of the left end of the sliding hole of the supporting plate of the material guiding component; the lower air bag of the material guide assembly is in a natural expansion undeformed state, the ammonium nitrate powder in the lower air bag does not overflow, and the sealing plug below the lower air bag blocks the outlet hole at the bottom end of the supporting plate; when the temperature of the surface of the article receiving box rises, the state can be gradually broken, namely, when the cooling liquid flows out through the long and thin outlet hole of the main shell as described above, the cooling liquid firstly flows to the tail part of the left end of the rotating plate, the rotating plate rotates anticlockwise rightwards under the action of the lever principle, and meanwhile, the tail part of the right end of the inserting plate is driven to be inserted into the sliding hole of the supporting plate rightwards so as to extrude the surface of the left end of the lower air bag, and at the moment, the cooling liquid falls to the bottom end area of the bottom shell; then under the action of a negative pressure principle, the left end of the lower air bag is extruded, then the air in the lower air bag surges towards an outlet hole at the bottom end of the support plate, the sealing plug is sprayed downwards, so that another type of cooling material with the components of sodium nitrate powder in the lower air bag is led outwards to the bottom end area of the bottom end, so as to be converged and mixed with the cooling liquid falling previously, and the cooling material and the cooling liquid absorb heat and cool after contacting; therefore, another type of cooling material is led out, and cooling is facilitated;

4. to sum up, this kind of full-automatic lithography apparatus of electric heat membrane, through the cooling subassembly, draw the combined action of material subassembly and guide subassembly etc. can make and receive the thing case and possess timely cooling function, even if because of the electric heat membrane temperature of drying is higher, the electric heat membrane that the printing was done and is known the number and can not make the temperature on receipt thing case surface continuously rise when collecting in receiving the thing case yet, can in time cool down the processing to receiving the thing case, eliminate the potential safety hazard that operating personnel was scalded when carelessly touching when getting the material and receiving the thing case surface.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic perspective cross-sectional view of a cooling assembly of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 2B according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 2 at C according to the present invention;

FIG. 6 is a schematic perspective cross-sectional view of the cooling assembly when the guiding assembly and the guiding assembly are in an active state according to the present invention;

FIG. 7 is an exploded perspective view of the cooling assembly of the present invention;

in FIGS. 1-7: 1-a printer body; 2-a master control cabinet; 3-a support frame; 4-a wind-up roll; 5, tensioning rollers; 6-driving roll; 7-a passive roller; 8-an article receiving box; 9-a cooling component; 10-a main shell; 11-a top plate; 12-a bottom shell; 13-a priming assembly; 14-a material guiding assembly; 15-upper rotating shaft; 16-right groove; 17-left groove; 18-upper air bag; 19-a magnetic block; 20-fixing the plate; 21-lower rotating shaft; 22-rotating the plate; 23-inserting plates; 24-a support plate; 25-lower air bag; 26-sealing plug.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to fig. 1 to 7 in the embodiment of the present invention.

Example 1

Referring to fig. 1-2, in an embodiment of the present invention, an electrothermal film full-automatic printing apparatus includes:

the automatic winding and unwinding device comprises a printer main body 1, wherein a main control cabinet 2 is fixedly installed at the top end position of the printer main body 1, a support frame 3 is fixedly installed at the lower part position of the front end of the printer main body 1, a winding roller 4 is rotatably installed at the upper part of the inner front end of the support frame 3, tensioning rollers 5 are rotatably installed at the middle part and the top part of the inner front end of the printer main body 1, a driving roller 6 and a driven roller 7 are respectively rotatably installed at the upper part of the inner front end of the printer main body 1 from front to back, and a material collecting box 8 is placed at the bottom position of the rear part of the printer main body 1;

cooling assembly 9, the four longitudinal sides surface of receipts thing case 8 is equant to be listed as fixed mounting has a plurality of can reduce the cooling assembly 9 of receiving thing case 8 surface temperature, and cooling assembly 9's outward appearance is inside hollow totally closed triangle-shaped shape of falling, and cooling assembly 9 is including: the cooling device comprises a main shell 10, a top plate 11, a bottom shell 12, a material guiding assembly 13 and a material guiding assembly 14, wherein the material guiding assembly 13 can lead out one type of cooling materials, and the material guiding assembly 14 can lead out the other type of cooling materials;

the cooling assembly 9 is used for facilitating the heat temperature on the surface of the article receiving box 8 to be transferred into the main shell 10 of the cooling assembly 9, so that the material guiding assembly 13 and the material guiding assembly 14 in the cooling assembly are deformed in time, two types of cooling materials with different components are guided into the bottom shell 12 to be collected, mixed, absorbed and cooled, and the generated cold temperature is transferred to the surface of the article receiving box 8 to realize cooling;

a plurality of main shells 10 are fixedly arranged on the outer surfaces of four longitudinal sides of the article receiving box 8 in an equal-adjacent row, the appearance of each main shell 10 is in a hollow letter W shape with an opening at the top end on one longitudinal section, the five sides of the front, the rear, the left and the right bottoms of the main shells 10 are in a fully-closed shape, the outer surface of the rear side of each main shell 10 is fixedly arranged on the outer surface of the longitudinal side of the article receiving box 8, a long and thin hole which penetrates through the main shell 10 up and down is formed in the bottom of the left end of the main shell 10, the main shell 10 is made of copper, cooling liquid is pre-filled in a V-shaped groove at the bottom of the right end of the main shell 10, and the pre-filled amount of the cooling liquid is 5/6 of the volume in the V-shaped groove at the bottom of the right end of the main shell 10;

the main shell 10 is provided with a letter W shape with a hollow inner part and an open top end on a longitudinal section, so that a V-shaped groove at the right lower end of the letter W is conveniently used for containing cooling liquid, the cold area liquid is timely led out from the right to the left after the heat temperature is transferred into the main shell 10, and the main shell is matched with the bottom shell 12 to realize cooling;

a top plate 11 is fixedly installed at the top end of the main shell 10, the appearance of the top plate 11 is in a horizontal long straight plate shape, and the top plate 11 seals the top end opening of the main shell 10;

the top plate 11 is used for ensuring that an opening area at the top end of the main shell 10 is sealed, so that the material guiding assembly 13 can be triggered to deform and trigger cooling in time after heat is transferred into the main shell 10;

a bottom shell 12 is fixedly installed at the bottom end position of the main shell 10, the combined appearance of the bottom shell 12 and the middle part of the bottom end of the main shell 10 is a rhombic groove with a hollow and totally-enclosed interior, the appearance of the lower end part of the bottom shell 12 is in a V shape with a hollow letter on a longitudinal section, the left inner wall and the right inner wall of the upper end of the bottom shell 12 are the outer surfaces of the inverted V shape at the bottom side middle end of the main shell 10, the left outer surface and the right outer surface of the lower end of the bottom shell 12 are respectively level with the left outer surface and the right outer surface of the main shell 10, a break angle position at the left inner wall middle end of the bottom shell 12 is close to a slender outlet hole of the main shell 10, and the bottom shell 12 is also made of copper;

the combined appearance of the bottom shell 12 and the middle part of the bottom end of the main shell 10 is a rhombic groove with a hollow and totally-enclosed interior, and the appearance of the lower end part of the bottom shell 12 is in a shape of a letter V with a hollow interior on a longitudinal section, so that the material guiding assembly 14 is convenient to accommodate, and the temperature is timely reduced by matching with the material guiding assembly 13;

a material guiding component 13 is movably arranged between the middle end and the right end in the main shell 10;

the material guiding assembly 13 is used for facilitating the utilization of the principles of expansion with heat and contraction with cold, leverage and siphon, and after the heat temperature on the surface of the material receiving box 8 is transferred into the main shell 10, the material guiding assembly 13 can be deformed in time to trigger the material guiding assembly to guide a type of cooling material pre-installed in the main shell 10 into the bottom shell 12 from inside to outside, and the material guiding assembly 14 is matched to realize cooling together;

a material guide assembly 14 is movably mounted at the top end inside the bottom shell 12;

the material guiding assembly 14 is convenient to use the lever and negative pressure principle, when the material guiding assembly 13 leads one type of cooling material out of the bottom shell 12, the material guiding assembly 14 is movably deformed in time so as to lead out the other part of the cooling material in the material guiding assembly, and the material guiding assembly 13 is matched to realize cooling together.

According to the full-automatic printing equipment for the electrothermal film, by arranging the cooling component 9, by utilizing the principles of expansion with heat and contraction with cold, leverage, siphon and negative pressure, when the printed and dried electrothermal film falls into the object receiving box 8, the heat temperature of the electrothermal film is transmitted into the main shell 10 of the cooling component 9 through the surface of the object receiving box 8, and the material guiding component 13 of the cooling component 9 in the main shell 10 is deformed under the action of the principle of expansion with heat and contraction with cold; under the action of the lever principle, the material guiding component 13 moves; then under the action of a siphon principle, coolant liquid pre-filled in a V-shaped groove at the lower right end of the main shell 10 is led out from right to left and from inside to outside into a bottom shell 12 of a temperature reduction assembly 9 at the bottom end of the main shell 10; then under the action of a lever principle, a material guide component 14 of the cooling component 9 in the bottom shell 12 moves; finally, under the action of a negative pressure principle, the material guide assembly 14 is deformed, another type of cooling material pre-loaded in the material guide assembly is led out downwards to the bottom end of the bottom shell 12 and is converged and mixed with the previously introduced cooling liquid, the two materials are contacted with each other, then the heat in the bottom shell 12 and the main shell 10 is absorbed to generate cold temperature, and the cold temperature is transmitted to the surface of the object receiving box 8 through the main shell 10 and the bottom shell 12 which are made of copper; therefore, under the continuous cooperation action of the cooling assemblies 9, the temperature of the outer surface of the object receiving box 8 can be reduced.

Example 2

Referring to fig. 2-3 and fig. 6-7, the embodiment of the present invention differs from embodiment 1 in that: the material guiding component 13 comprises:

the middle position of the top end of the interior of the main shell 10 is rotatably provided with an upper rotating shaft 15 in the front-back horizontal direction, the front end and the rear end of the upper rotating shaft 15 are rotatably arranged at the middle position of the top end of the front inner wall and the rear inner wall of the main shell 10, and the upper rotating shaft 15 is positioned at the middle position of the outer surface of the bottom side of the top plate 11;

the right groove 16 is obliquely and fixedly arranged at the right end of the outer surface of the upper rotating shaft 15, the appearance of the right groove 16 is in a shape of a short flat plate which is hollow inside and penetrates end to end, the right groove 16 is in a left-high right-low inclined static balance state forming an included angle of 30 degrees with the horizontal plane under normal conditions, and a head inlet at the right end of the right groove 16 is in static fit with the middle upper end surface of the right inner wall of the main shell 10 under normal conditions;

the right groove 16 is hollow inside and is in a shape of a short flat plate penetrating from head to tail, so that after the temperature in the main shell 10 rises, the left groove 17 drives the right groove 16 to rotate clockwise, a head inlet at the right end of the right groove 16 can be pulled into a V-shaped groove in the right lower end area of the main shell 10, and cooling liquid filled in the V-shaped groove can be sucked upwards.

In the embodiment of the present invention, the material guiding assembly 13 further includes:

the bottom end of the outer surface of the upper rotating shaft 15 is fixedly provided with a left groove 17, the combined appearance of the left groove 17 and the right groove 16 is in a vertical section in a shape of an inclined letter V with a hollow interior and a penetrating head and tail with an internal angle of 60 degrees, the left groove 17 is in a vertical static balance state under normal conditions, a head inlet at the top end of the left groove 17 and a tail outlet at the left end of the right groove 16 are mutually penetrated, the vertical length of the left groove 17 is shorter than the left length and the right length of the right groove 16, a tail outlet at the bottom end of the left groove 17 is in static fit with the inner wall surface of a bevel at the middle part of the bottom end of the main shell 10 under normal conditions, and the distance between the left inner wall of the left groove 17 and the right inner wall of the right groove 16 is equal;

the combined appearance of the left groove 17 and the right groove 16 is in a shape of an inclined letter 'V' with a hollow interior and an interior angle of 60 degrees penetrating from head to tail on a longitudinal section, and the length of the left groove 17 is shorter than that of the right groove 16, so that when the left groove 17 rotates clockwise towards the left upper direction by utilizing the lever and siphon principle, cold area liquid sucked by the right groove 16 can be guided out leftwards to the V-shaped groove in the left lower end area of the main shell 10 and flows out into the bottom shell 12 through the slender outlet hole of the V-shaped groove.

In the embodiment of the present invention, the material guiding assembly 13 further includes:

the lower end of the outer surface of the left side of the left groove 17 is fixedly provided with an upper air bag 18, and the appearance of the upper air bag 18 is in a semicircular shape which is convex left and vertical right on a longitudinal section;

the upper air bag 18 is provided with a semicircular shape which is convex left and vertical right on a longitudinal section, so that the principle of expansion with heat and contraction with cold is conveniently utilized, after the temperature in the main shell 10 is raised, the heat temperature is transferred to the surface of the upper air bag 18 to be heated and expanded, the left groove 17 is driven to rotate clockwise towards the upper left, and then the right groove 16 is synchronously pulled to rotate downwards to absorb the cooling liquid.

In the embodiment of the present invention, the material guiding assembly 13 further includes:

the magnetic block 19 is fixedly installed at the upper end of the outer surface of the left side of the left groove 17, and the left thickness and the right thickness of the magnetic block 19 are smaller than the distance between the left inner wall and the right inner wall of the left groove 17;

the magnetic block 19 is provided to facilitate the magnetic block 19 to be gradually brought near the fixing plate 20 and finally adsorbed when the left groove 17 rotates clockwise in the left-up direction, so as to maintain the fixed state of the left groove 17 and the right groove 16, smoothly guide the cooling liquid out stably, and prevent the left groove 17 and the right groove 16 from swinging back and forth in the left-right direction.

In the embodiment of the present invention, the material guiding assembly 13 further includes:

the fixing plate 20 is fixedly installed at the position, which is deviated from the left end, of the outer surface of the bottom side of the top plate 11, the outer appearance of the fixing plate 20 is in a shape of an inclined arc strip which is convex left and concave right on a longitudinal section, the fixing plate 20 is made of iron, and the outer surface of the bottom of the right end of the fixing plate 20 is separated from the outer surface of the left side of the magnetic block 19 under the normal condition;

the fixing plate 20 is designed to be in a shape of an inclined arc strip which is convex at the left and concave at the right on a longitudinal section, the fixing plate 20 is made of iron, and the fixing plate is matched with the magnetic block 19 together, so that when the left groove 17 rotates upwards to guide materials, the fixing of the left groove 17 and the right groove 16 is realized by being adsorbed by the magnetic block 19, and the drainage is stable.

According to the full-automatic printing equipment for the electrothermal film, the material guiding assembly 13 is arranged, and by utilizing the principles of expansion with heat and contraction with cold, leverage and siphon, when the surface temperature of the object receiving box 8 is normal, the right groove 16 of the material guiding assembly 13 is in a left-high right-low inclined static balance state forming an included angle of 30 degrees with the horizontal plane, and a head part inlet at the right end of the right groove is statically attached to the middle upper end surface of the right inner wall of the main shell 10; the left groove 17 of the material guiding component 13 is in a vertical static balance state, and the outlet at the tail end of the bottom end is statically attached to the surface of the inner wall of the bevel at the middle part of the bottom end of the main shell 10; the upper air bag 18 of the material guiding component 13 is in a natural expansion and undeformed state; a distance exists between the outer surface of the bottom of the right end of the fixing plate 20 of the material guiding component 13 and the outer surface of the left side of the magnetic block 19 of the material guiding component 13; when the temperature of the surface of the article receiving box 8 rises, the state can be gradually broken, namely after the heat is transferred into the main shell 10 of the cooling component 9 as described above, the heat can float to the surface of the upper air bag 18, and under the action of the principle of expansion with heat and contraction with cold, the upper air bag is heated to expand, so that the buoyancy of the upper air bag is improved; then under the action of the lever principle, the upper air bag 18 drives the left groove 17 to rotate clockwise towards the upper left, and simultaneously, the right groove 16 rotates downwards, so that the head inlet at the right end of the right groove 16 is inserted into the cooling liquid in the V-shaped groove at the right lower end of the main shell 10; until the magnetic block 19 and the fixed plate 20 are mutually adsorbed to keep the left groove 17 and the right groove 16 in a static state, under the action of a siphon principle, the right groove 16 sucks cooling liquid from an inlet of the right groove and then leads the cooling liquid into the left groove 17, leads the cooling liquid into a V-shaped groove at the left lower end of the main shell 10 through an outlet at the tail part of the left end of the left groove 17, and flows out into the bottom shell 12 through a long and thin outlet of the V-shaped groove so as to trigger the material guide assembly 14 to movably deform to release another type of cooling material in the subsequent process; so in order to realize drawing forth of a kind of cooling material, be convenient for the cooling.

Example 3

Referring to fig. 2 and fig. 4-7, the embodiment of the present invention differs from embodiment 1 in that: the material guiding assembly 14 comprises:

a lower rotating shaft 21, wherein the lower rotating shaft 21 is rotatably mounted in the middle position of the top end inside the bottom shell 12 in the front-back horizontal direction, the front end and the rear end of the lower rotating shaft 21 are rotatably mounted in the middle position of the top ends of the front inner wall and the rear inner wall of the bottom shell 12, and the lower rotating shaft 21 is located in the middle position of the outer surface of the bottom side of the main shell 10;

a rotating plate 22 is fixedly arranged on the outer surface of the left side of the lower rotating shaft 21 in a surrounding manner, the rotating plate 22 is in a short straight plate shape, the rotating plate 22 is in a static balance state with a left lower part and a right higher part which form an included angle of 30 degrees with the upper vertical surface and the lower vertical surface under normal conditions, and the outer surface of the tail end of the bottom side of the left end of the rotating plate 22 is in static fit with the middle end surface of the left inner wall of the bottom shell 12 and is close to the slender outlet hole of the main shell 10 under normal conditions;

the rotating plate 22 is formed in a short flat plate shape, so that when the material guiding assembly 13 guides the cooling liquid out and flows to the tail end of the rotating plate 22 through the elongated outlet hole of the main shell 10, the rotating plate 22 rotates counterclockwise to the right, and the cooling liquid is guided into the bottom shell 12 and simultaneously the other type of cooling material is triggered to be guided out downwards by utilizing the lever principle.

In an embodiment of the present invention, the material guiding assembly 14 further includes:

the inserting plate 23 is fixedly arranged at the middle upper end of the outer surface of the right side of the rotating plate 22, and the inserting plate 23 is in an arc strip shape with a concave top and a convex bottom on a longitudinal section;

the inserting plate 23 is provided with an arc strip shape with a concave top and a convex bottom on a longitudinal section, so that the inserting plate is matched with the rotating plate 22 together, when the rotating plate 22 rotates anticlockwise to the right, the tail part of the right end of the inserting plate 23 is inserted into the inserting plate through a sliding hole in the supporting plate 24, and another type of cooling material is led out in time.

In an embodiment of the present invention, the material guiding assembly 14 further includes:

a support plate 24 is fixedly installed at the upper end of the right inner wall of the bottom shell 12, the appearance of the support plate 24 is in an inclined letter 'C' shape on a longitudinal section, the support plate 24 is located at the right end of the inserting plate 23, a left-right through sliding hole is formed in the middle upper end of the left end of the support plate 24, the sliding hole can be in butt joint with the inserting plate 23, the tail part of the right end of the inserting plate 23 is located at the left end inlet position of the sliding hole under normal conditions, and a vertical through outlet hole is formed in the middle end of the bottom of the right end of the support plate 24;

the support plate 24 is provided with an inclined letter "C" shape in a longitudinal section, so that the lower air bag 25 is convenient to accommodate and support, and another type of cooling material in the lower air bag 25 is triggered to be led out downwards through the outlet hole after the inserting plate 23 is inserted into the sliding hole of the lower air bag by forming the sliding hole and the outlet hole.

In an embodiment of the present invention, the material guiding assembly 14 further includes:

a lower air bag 25, wherein the lower air bag 25 is embedded between the inner wall of the supporting plate 24 and the right inner wall of the bottom shell 12, the appearance of the lower air bag 25 is in a semicircular shape with a left convex and a right straight on a longitudinal section, and ammonium nitrate powder is pre-installed in the inner position of the lower air bag 25;

a sealing plug 26 is slidably mounted at the bottom of the right end of the lower air bag 25, and the sealing plug 26 normally plugs the bottom outlet hole of the support plate 24;

the lower air bag 25 is provided with a semicircular shape which is convex left and straight right on a longitudinal section, so that the negative pressure principle is facilitated, when the tail part of the right end of the inserting plate 23 is inserted into the supporting plate 24, the left end surface of the lower air bag 25 is squeezed, air in the lower air bag is enabled to flow downwards into an outlet hole of the supporting plate 24, finally, the sealing plug 26 is sprayed downwards, and another type of cooling material with the components of sodium nitrate powder is led downwards into the bottom shell 12 to be converged, absorbed and cooled with the previously introduced cold area liquid.

According to the full-automatic printing equipment for the electrothermal film, the material guide assembly 14 is arranged, and by utilizing the lever and negative pressure principle, when the surface temperature of the material collecting box 8 is normal, the rotating plate 22 of the material guide assembly 14 is in a static balance state of left low and right high with an included angle of 30 degrees formed between the upper vertical surface and the lower vertical surface, and the outer surface of the tail end at the bottom end of the left end is statically attached to the middle end surface of the left inner wall of the bottom shell 12 and is close to the elongated outlet hole of the main shell 10; the tail part of the right end of the inserting plate 23 of the material guiding component 14 is positioned at the inlet position of the left end of the sliding hole of the supporting plate 24 of the material guiding component 14; the lower air bag 25 of the material guiding component 14 is in a natural expansion undeformed state, the ammonium nitrate powder in the lower air bag does not overflow, and the lower sealing plug 26 blocks the outlet hole at the bottom end of the supporting plate 24; however, when the temperature of the surface of the article receiving box 8 rises, the state is gradually broken, that is, when the cooling liquid flows out through the elongated hole of the main shell 10 as described above, the cooling liquid firstly flows to the tail part of the left end of the rotating plate 22, under the action of the lever principle, the rotating plate 22 rotates counterclockwise rightward, and simultaneously the tail part of the right end of the inserting plate 23 is driven to be inserted into the sliding hole of the supporting plate 24 rightward to extrude the surface of the left end of the lower air bag 25, and at this time, the cooling liquid falls to the bottom end area of the bottom shell 12; then under the action of a negative pressure principle, the left end of the lower air bag 25 is extruded, then the air in the lower air bag is rushed towards an outlet hole at the bottom end of the support plate 24, and the sealing plug 26 is sprayed downwards, so that another type of cooling material with the components of sodium nitrate powder in the lower air bag 25 is led outwards to the bottom end area of the bottom end 12 to be converged and mixed with the cooling liquid falling previously, and the cooling material and the cooling liquid absorb heat after contacting; so in order to realize the derivation to another kind of cooling material, be convenient for cool down.

Claims (10)

1. The utility model provides a full-automatic lithography apparatus of electric heat membrane which characterized in that: the method comprises the following steps:

the automatic winding and unwinding device comprises a printer main body (1), wherein a master control cabinet (2) is fixedly installed at the top end of the printer main body (1), a support frame (3) is fixedly installed at the lower portion of the front end of the printer main body (1), a winding roller (4) is rotatably installed at the upper portion of the front end inside the support frame (3), tensioning rollers (5) are rotatably installed at the middle portion of the front end inside the printer main body (1) and at the top portion of the front end, a driving roller (6) and a driven roller (7) are respectively rotatably installed at the upper portion of the front end inside the printer main body (1) from front to back, and an object collecting box (8) is placed at the bottom portion of the rear portion of the printer main body (1);

cooling assembly (9), it has a plurality of to reduce to receive four adjacent branch rows of surfaces such as longitudinal side surface of thing case (8) cooling assembly (9) of receiving thing case (8) surface temperature, the outward appearance of cooling assembly (9) is inside hollow totally closed triangle-shaped of falling, cooling assembly (9) including: the cooling device comprises a main shell (10), a top plate (11), a bottom shell (12), a material guiding assembly (13) and a material guiding assembly (14), wherein the material guiding assembly can lead out one type of cooling material, and the material guiding assembly can lead out the other type of cooling material;

a plurality of main shells (10) are fixedly mounted on the outer surfaces of the four longitudinal sides of the article receiving box (8) in an equal-adjacent split manner, the appearance of each main shell (10) is hollow on one longitudinal section and is in a letter W shape with an opening at the top end, the five sides of the front, the rear, the left and the right bottoms of each main shell (10) are in a fully-closed manner, the outer surface of the rear side of each main shell (10) is fixedly mounted on the outer surface of the longitudinal side of the article receiving box (8), a long and thin hole penetrating up and down is formed in the bottom of the left end of each main shell (10), each main shell (10) is made of copper, cooling liquid is pre-mounted in a V-shaped groove in the bottom of the right end of each main shell (10), and the pre-mounted amount of the cooling liquid is 5/6 of the inner volume of the V-shaped groove in the bottom of the right end of each main shell (10);

a top plate (11) is fixedly installed at the top end of the main shell (10), the appearance of the top plate (11) is in a horizontal long straight plate shape, and the top plate (11) seals the top end opening of the main shell (10);

a bottom shell (12) is fixedly installed at the bottom end position of the main shell (10), the combined appearance of the bottom shell (12) and the middle part of the bottom end of the main shell (10) is a rhombic groove with a hollow and totally-enclosed interior, the appearance of the lower end part of the bottom shell (12) is in a V shape with a hollow interior on a longitudinal section, the left and right inner walls of the upper end of the bottom shell (12) are the outer surfaces of the inverted V shape at the bottom side middle end of the main shell (10), the left and right outer surfaces of the lower end of the bottom shell (12) are respectively level with the left and right outer surfaces of the main shell (10), the folded angle position at the middle end of the left inner wall of the bottom shell (12) is close to the long and thin outlet hole of the main shell (10), and the bottom shell (12) is also made of copper;

a material guiding assembly (13) is movably arranged between the middle end and the right end in the main shell (10);

a material guide assembly (14) is movably mounted at the top end of the inner part of the bottom shell (12).

2. The full-automatic printing equipment for the electrothermal film according to claim 1, wherein: the material guiding component (13) comprises:

the middle position of the top end of the interior of the main shell (10) is rotatably provided with an upper rotating shaft (15) in the front-back horizontal direction, the front end and the back end of the upper rotating shaft (15) are rotatably arranged in the middle position of the top end of the front inner wall and the back inner wall of the main shell (10), and the upper rotating shaft (15) is positioned at the middle position of the outer surface of the bottom side of the top plate (11);

right groove (16), go up the surface right-hand member position slant fixed mounting of pivot (15) and have right groove (16), the outward appearance in right side groove (16) is the short straight plate shape that inside cavity, end to end run through, right side groove (16) are in under normal conditions and personally submit the static balanced state of the low slope in the high right side of 30 contained angles with the level, the right-hand member prelude entry of right side groove (16) is static laminating in under normal conditions in the inclined to one side upper end surface in the right inner wall of main casing (10).

3. The full-automatic printing equipment for the electrothermal film according to claim 2, wherein: the material guiding component (13) further comprises:

left side groove (17), the surface bottom fixed mounting who goes up pivot (15) has left groove (17), left side groove (17) with the combination outward appearance of right side groove (16) is inside cavity, interior angle that the head and the tail run through is 60 inclined letter "V" shape on a longitudinal section, left side groove (17) are vertical static balanced state about being in under normal conditions, the top prelude entry of left side groove (17) with the left end afterbody export of right side groove (16) runs through each other, the upper and lower length weak point in of left side groove (17) is in length about right side groove (16), the bottom afterbody export of left side groove (17) under normal conditions static laminating in the bottom middle part dog-ear inner wall surface of main casing (10), left side groove (17) with distance equals between the left and right sides inner wall of right side groove (16).

4. The full-automatic printing equipment for the electrothermal film according to claim 3, wherein: the material guiding component (13) further comprises:

go up gasbag (18), gasbag (18) are gone up to left side surface lower extreme position fixed mounting of left side groove (17), the outward appearance of going up gasbag (18) is left evagination, the vertical semicircle form in right side on a longitudinal section.

5. The full-automatic printing equipment for the electrothermal film according to claim 3, wherein: the material guiding component (13) further comprises:

the magnetic block (19) is fixedly mounted at the upper end of the outer surface of the left side of the left groove (17), and the left thickness and the right thickness of the magnetic block (19) are smaller than the distance between the left inner wall and the right inner wall of the left groove (17).

6. The full-automatic printing equipment for the electrothermal film according to claim 1, wherein: the material guiding component (13) further comprises:

the fixing plate (20) is fixedly installed at the position of the left end of the outer surface of the bottom side of the top plate (11) in a deviated mode, the fixing plate (20) is in an inclined arc strip shape with a convex left side and a concave right side on one longitudinal section in the appearance of the fixing plate (20), the fixing plate (20) is made of iron, and the outer surface of the bottom of the right end of the fixing plate (20) has a distance with the outer surface of the left side of the magnetic block (19) under the normal condition.

7. The full-automatic printing equipment for the electrothermal film according to claim 1, wherein: the material guide assembly (14) comprises:

the middle position of the top end of the inner part of the bottom shell (12) is rotatably provided with a lower rotating shaft (21) in the front-back horizontal direction, the front end and the back end of the lower rotating shaft (21) are rotatably arranged in the middle position of the top end of the front inner wall and the back inner wall of the bottom shell (12), and the lower rotating shaft (21) is positioned at the middle position of the outer surface of the bottom side of the main shell (10);

change board (22), the left side surface of pivot (21) encircles fixed mounting and has changes board (22) down, the outward appearance of changeing board (22) is short straight plate shape, change board (22) under normal conditions be in with vertical personally submit 30 contained angles about low high static balanced state in the right side, the static laminating in under normal conditions of left end bottom end tail end surface of changeing board (22) end surface and next-door neighbour in the left inner wall of drain pan (12) the slender hole of leaving of main casing (10).

8. The full-automatic printing equipment for the electrothermal film according to claim 7, wherein: the material guiding component (14) further comprises:

the outer surface of the right side of the rotating plate (22) is fixedly provided with the inserting plate (23) at the upper end part, and the appearance of the inserting plate (23) is in the shape of an arc strip with a concave top and a convex bottom on a longitudinal section.

9. The full-automatic printing equipment for the electrothermal film according to any one of claims 7 to 8, wherein: the material guiding component (14) further comprises:

backup pad (24), the right inner wall upper end fixed mounting of drain pan (12) has backup pad (24), the outward appearance of backup pad (24) is slope letter "C" shape on a longitudinal section, backup pad (24) are located the right-hand member position of picture peg (23), the slide opening that runs through about seted up to upper end position in the left end of backup pad (24) partially, the slide opening can with picture peg (23) butt joint, the right-hand member afterbody of picture peg (23) is located under the normal condition the left end entry position of slide opening, the hole that runs through from top to bottom is seted up to the right-hand member bottom middle-end position of backup pad (24).

10. The full-automatic printing equipment for the electrothermal film according to claim 9, wherein: the material guiding component (14) further comprises:

the lower air bag (25) is embedded between the inner wall of the supporting plate (24) and the right inner wall of the bottom shell (12), the appearance of the lower air bag (25) is in a semicircular shape with a left convex and a right straight on a longitudinal section, and ammonium nitrate powder is pre-installed in the inner position of the lower air bag (25);

the bottom of the right end of the lower air bag (25) is provided with a sealing plug (26) in a sliding mode, and the sealing plug (26) normally plugs the bottom end outlet hole of the supporting plate (24).

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