CN110195376B - Efficient digital thermal transfer paper production process - Google Patents

Abstract

The invention relates to the field of printing paper production, in particular to a high-efficiency digital thermal transfer paper production process, which uses high-efficiency digital thermal transfer paper production equipment comprising a supporting table, a uniformly mixing mechanism, a connecting mechanism, a crushing mechanism, a cleaning mechanism, a filtering mechanism and a discharging mechanism; mixing mechanism is installed to crushing mechanism's one end, mixing mechanism passes through coupling mechanism intercommunication crushing mechanism's both ends, when crushing mechanism smashes the papermaking raw materials, mixing mechanism drives paper pulp at crushing mechanism's inside motion, mixing mechanism makes magma move or from the bottom up in crushing mechanism's inside from the top down, make the magma drive great raw materials and crushing mechanism contact, avoid great papermaking raw materials to deposit in crushing mechanism's inside, make the inside material of papermaking magma even, make things convenient for people further to process.

Description

Efficient digital thermal transfer paper production process

Technical Field

The invention relates to the field of printing paper production, in particular to a production process of high-efficiency digital thermal transfer printing paper.

Background

The thermal transfer printing is also called thermal sublimation, and is a special printing method for printing any pictures such as various patterns, LOGO, portrait, landscape and the like on thermal transfer paper by thermal transfer ink through a printer, and transferring the image colors on the paper to the surfaces of porcelain cups, porcelain plates, clothes, metals and other materials vividly at high temperature and high pressure through corresponding thermal transfer printing equipment.

In the process of manufacturing the high-efficiency digital thermal transfer paper, some larger plant fibers are deposited at the bottom end of the production equipment, and a part of the larger plant fibers are not crushed and mixed in the paper pulp, so that the struck paper pulp is not uniform, and the quality of the thermal transfer paper is influenced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a high-efficiency digital thermal transfer paper production process, wherein one end of a crushing mechanism is provided with a blending mechanism, the blending mechanism is communicated with two ends of the crushing mechanism through a connecting mechanism, when crushing mechanism smashes the paper making raw materials, mixing mechanism drives the inside motion of paper pulp at crushing mechanism, mixing mechanism makes magma move or from the bottom up in crushing mechanism's inside from the top down, make the magma drive great raw materials and crushing mechanism contact, avoid great paper making raw materials to deposit in crushing mechanism's inside, make the inside material of paper making magma even, make things convenient for people to further process, coupling mechanism and crushing mechanism's junction installation filter mechanism, filter mechanism fixes great paper making raw materials in crushing mechanism's inside, avoid the inside great paper making raw materials of crushing mechanism inside to get into mixing mechanism's inside, make things convenient for crushing mechanism to smash great paper making raw materials.

The technical scheme adopted by the invention for solving the technical problems is as follows: a production process of high-efficiency digital thermal transfer paper comprises the following steps:

s1, putting the papermaking raw materials into high-efficiency digital thermal transfer paper production equipment for pulp disintegration and pulping;

s2, pumping the beaten paper-making raw stock in the S1 into a mixing tank, and mixing the raw materials in the mixing tank in proportion;

s3, then sending the slurry prepared in the S2 to the next process for further processing;

the production equipment of the high-efficiency digital thermal transfer paper in the S1 comprises a supporting table, a uniformly mixing mechanism, a connecting mechanism, a crushing mechanism, a cleaning mechanism, a filtering mechanism and a discharging mechanism; the crushing mechanism is installed at one end of the top surface of the supporting table, the blending mechanism is installed at the other end of the top surface of the supporting table, and the discharging mechanism is installed at the bottom end of the blending mechanism; the connecting mechanism is arranged between the blending mechanism and the crushing mechanism, and two ends of the connecting mechanism are respectively communicated with the blending mechanism and the crushing mechanism; the filtering mechanism is arranged in the connecting mechanism and abuts against the crushing mechanism; the inner part of the crushing mechanism is rotatably connected with the cleaning mechanism, and the cleaning mechanism is slidably connected with the inner side wall of the crushing mechanism; the output shaft of the motor is connected with a first bevel gear, the first bevel gear is meshed with a second bevel gear arranged on the side wall of the crushing mechanism, a rotary disc is fixedly connected to the central shaft of the second bevel gear, and the rotary disc drives a rotating wheel arranged on the side wall of the box body to rotate through a belt.

The crushing mechanism comprises a feeding hopper, a crushing tank, a motor, a fixing rod and a blade, wherein the crushing tank is installed on the top surface of the supporting table, and the motor is installed in the middle of the top surface of the crushing tank; the feeding hopper is installed at the top end of the crushing tank, the fixing rod is rotatably connected inside the top end of the crushing tank, and the top end of the fixing rod is connected with the motor; the blades are respectively arranged at the middle part and one end of the bottom surface of the fixed rod, and the spiral blades are rotatably connected with the inside of the crushing tank; a guide plate is arranged between the box body and the crushing tank, and a bulge is arranged on the side wall of the crushing tank; in order to put the papermaking raw materials into the crushing tank conveniently through the feeding hopper, the motor drives the fixing rod to rotate inside the crushing tank, and the fixing rod drives the spiral blade to rotate inside the crushing tank, so that the blade crushes the papermaking raw materials inside the crushing tank.

Specifically, the blending mechanism further comprises a box body, a connecting rod and a pressing plate, the box body is mounted on the top surface of the supporting platform, and the connecting rod is mounted inside the box body; the inside wall sliding connection of box the clamp plate, just the outside center department of clamp plate rotates to be connected the connecting rod, for convenient the connecting rod work, the connecting rod drives the clamp plate is in the inside motion of box makes the clamp plate is hugged closely the inside wall motion of box makes the clamp plate extrusion or promotion the inside papermaking magma of box makes the inside papermaking magma of box gets into the inside of first connecting pipe. The side wall of the rotating wheel is rotatably connected with a connecting rod, the rotating wheel drives the connecting rod to move up and down so as to drive the pressing plate to reciprocate, the output shaft of the motor rotates for a circle, and the pressing plate reciprocates up and down for four strokes.

Specifically, coupling mechanism includes first connecting pipe and second connecting pipe, install respectively with the bottom the top of box first connecting pipe, the top surface is "U" shape the lateral wall of first connecting pipe is in the middle of and locates fixed connection and intercommunication the second connecting pipe, just install respectively with the bottom the top of broken jar the second connecting pipe, for convenient the inside papermaking magma of box runs through first connecting pipe with the second connecting pipe gets into the inside of broken jar, perhaps the inside papermaking magma of broken jar runs through the second connecting pipe with first connecting pipe gets into the inside of box makes the papermaking magma be in the box with the motion that the inside of broken jar was not stopped to make inside great plant fiber of papermaking magma and pivoted the blade contact makes the blade cuts up plant fiber.

Specifically, the filtering mechanism comprises a fixed block and a filtering screen, the middle part of the inside of the first connecting pipe is fixedly connected with the fixed block, and one end of the fixed block, the side walls of two ends of which are arc-shaped, extends into the inside of the second connecting pipe; second connecting pipe one end inside cleaning installation the filter screen, the bottom of filter screen is contradicted broken jar, just the inside bottom surface slope of broken jar sets up, works as the inside papermaking magma of broken jar gets into during the inside of box, broken jar sets up with the slope the filter screen contact, the filter screen blocks the plant fiber and gets into the inside of second connecting pipe makes great plant fiber cloth not get into the inside of box. The fixed plate is connected with the limiting plate through springs, and through holes are distributed in an array mode on the fixed plate. Just the inside papermaking magma of broken jar gets into during the inside of box, the papermaking magma is in the inside motion of first connecting pipe, papermaking magma and lateral wall are curved the fixed block contact, papermaking magma is in the lateral wall of fixed block slips the entering the inside of second connecting pipe avoids papermaking magma to be in the inside collision each other of first connecting pipe makes papermaking magma get into fast the inside of second connecting pipe with the filter screen contact, papermaking magma runs through the filter screen gets into the inside of broken jar, the magma will the inside papermaking magma of filter screen is washed into the inside of broken jar avoids the filter screen is blockked up.

Specifically, clearance mechanism includes mount, fixed plate and scraper blade, the other end fixed connection of dead lever the mount, the one end fixed connection of mount the fixed plate, the lateral wall is curved fixed plate both ends installation sectional area is semi-circular the scraper blade, just the fixed plate with the scraper blade with the inside wall sliding connection of broken jar, in order to pass through the mount will the fixed plate is fixed the lateral wall of dead lever makes the dead lever drives the fixed plate is in the inboard of broken jar slides, the fixed plate drives the scraper blade is in the inside wall of broken jar slides, makes the scraper blade will adsorb the papermaking raw materials of broken jar lateral wall is scraped, makes papermaking raw materials with the blade contact.

Specifically, it includes drain pipe and water valve to arrange the material mechanism, the bottom installation of box the drain pipe, the drain pipe is contradicted the inside bottom surface of box, just the lateral wall suit of drain pipe the water valve is for convenient opening the water valve to open the drain pipe will the inside papermaking magma of box is discharged.

The invention has the beneficial effects that:

(1) the production process flow is simple, the production efficiency is high, the cost is low, and the prepared thermal transfer paper has the advantages of good ink absorbability, high transfer rate and bright color; according to the invention, through AKD neutral sizing, the problems of paper brittleness, yellowing and the like caused by acid sizing are solved, the sizing effect is improved, the ink absorbability of paper is improved, and the development requirement of an ink-jet technology is met; after the film transfer sizing machine, a heat diverter and a hot air oven are used, and then the film transfer sizing machine enters a drying cylinder for drying, so that the problem of cylinder sticking during coating is solved.

(2) According to the production process of the high-efficiency digital thermal transfer paper, one end of the crushing mechanism is provided with the blending mechanism, the blending mechanism is communicated with two ends of the crushing mechanism through the connecting mechanism, when the crushing mechanism crushes the papermaking raw materials, the blending mechanism drives the paper pulp to move inside the crushing mechanism, the blending mechanism enables the raw pulp to move from top to bottom or from bottom to top inside the crushing mechanism, the raw pulp drives larger raw materials to contact the crushing mechanism, the larger papermaking raw materials are prevented from being deposited inside the crushing mechanism, the internal substances of the papermaking raw pulp are uniform, and further processing is facilitated for people.

(3) According to the production process of the high-efficiency digital thermal transfer paper, the filtering mechanism is arranged at the joint of the connecting mechanism and the crushing mechanism, and the filtering mechanism fixes larger papermaking raw materials inside the crushing mechanism, so that the larger papermaking raw materials inside the crushing mechanism are prevented from entering the inside of the uniformly mixing mechanism, and the crushing mechanism can conveniently crush the larger papermaking raw materials; the rotation through the motor drives the rotation of conical gear to realize the connecting rod and drive the up-and-down reciprocating motion of clamp plate, prevent the jam of filter screen at the broken in-process of paper pulp, can accelerate the crushing efficiency of paper pulp simultaneously.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a process flow diagram of the present invention;

FIG. 2 is a schematic structural diagram of a preferred embodiment of an apparatus for producing high-efficiency digital thermal transfer paper according to the present invention;

FIG. 3 is a schematic view of the internal structure of the kneading mechanism and the crushing mechanism shown in FIG. 2;

FIG. 4 is a cross-sectional view of the internal structure of the coupling mechanism shown in FIG. 2;

FIG. 5 is a schematic view of the cleaning mechanism shown in FIG. 3;

FIG. 6 is a schematic view of the connection of the pressure plate and the connecting rod shown in FIG. 2;

FIG. 7 is a schematic view of the motor drive shown in FIG. 2;

fig. 8 is an internal view of the fixing plate shown in fig. 5.

In the figure: 1. supporting table, 2, blending mechanism, 21, box body, 22, connecting rod, 23, pressing plate, 24, rotating wheel, 25, connecting rod, 26, rotating disc, 27, belt, 28, guide plate, 29, protrusion, 3, connecting mechanism, 31, first connecting pipe, 32, second connecting pipe, 4, crushing mechanism, 41, feeding funnel, 42, crushing tank, 43, motor, 44, fixing rod, 45, blade, 46, first conical gear, 47, second conical gear, 5, cleaning mechanism, 51, fixing frame, 52, fixing plate, 53, scraping plate, 54, limiting plate, 55, through hole, 56, spring, 6, filtering mechanism, 61, fixing block, 62, filter screen, 7, discharging mechanism, 71, drain pipe, 72 and water valve.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-8, the process for producing high-efficiency digital thermal transfer paper according to the present invention comprises the following steps:

s1, putting the papermaking raw materials into high-efficiency digital thermal transfer paper production equipment for pulp disintegration and pulping;

s2, pumping the beaten paper-making raw stock in the S1 into a mixing tank, and mixing the raw materials in the mixing tank in proportion;

s3, then sending the slurry prepared in the S2 to the next process for further processing;

the production equipment of the high-efficiency digital thermal transfer paper in the S1 comprises a support table 1, a blending mechanism 2, a connecting mechanism 3, a crushing mechanism 4, a cleaning mechanism 5, a filtering mechanism 6 and a discharging mechanism 7; the crushing mechanism 4 is installed at one end of the top surface of the supporting table 1, the blending mechanism 2 is installed at the other end of the top surface of the supporting table 1, and the discharging mechanism 7 is installed at the bottom end of the blending mechanism 2; the connecting mechanism 3 is arranged between the blending mechanism 2 and the crushing mechanism 4, and two ends of the connecting mechanism 3 are respectively communicated with the blending mechanism 2 and the crushing mechanism 4; the filtering mechanism 6 is arranged in the connecting mechanism 3, and the filtering mechanism 6 abuts against the crushing mechanism 4; the inner part of the crushing mechanism 4 is rotatably connected with the cleaning mechanism 5, and the cleaning mechanism 5 is slidably connected with the inner side wall of the crushing mechanism 4; a first bevel gear 46 is connected to an output shaft of the motor 43, the first bevel gear 46 is engaged with a second bevel gear 47 mounted on the side wall of the crushing mechanism 4, a rotating disc 26 is fixedly connected to a central shaft of the second bevel gear 47, and the rotating disc 26 drives a rotating wheel 24 mounted on the side wall of the box 21 to rotate through a belt 27.

Specifically, the crushing mechanism 4 comprises a feeding hopper 41, a crushing tank 42, a motor 43, a fixing rod 44 and a blade 45, the crushing tank 42 is mounted on the top surface of the supporting table 1, and the motor 43 is mounted in the center of the top surface of the crushing tank 42; the feeding hopper 41 is installed at the top end of the crushing tank 42, the fixing rod 44 is rotatably connected inside the top end of the crushing tank 42, and the top end of the fixing rod 44 is connected with the motor 43; the bottom surface of dead lever 44 is located and is installed respectively with one end in the middle the blade 45, the spiral the blade 45 rotates and connects the inside of broken jar 42, for the convenience pass through feed hopper 41 puts into paper making raw materials the inside of broken jar 42, just motor 43 drives dead lever 44 is in the inside of broken jar 42 rotates, dead lever 44 drives the spiral the blade 45 is in the inside of broken jar 42 rotates, makes the blade 45 will the paper making raw materials of broken jar 42 is minced.

Specifically, the blending mechanism 2 further comprises a box body 21, a connecting rod 22 and a pressing plate 23, the box body 21 is mounted on the top surface of the supporting platform 1, and the connecting rod 22 is mounted inside the box body 21; the inner side wall of the box body 21 is slidably connected with the pressing plate 23, the center of the outer side of the pressing plate 23 is rotatably connected with the connecting rod 22, in order to facilitate the work of the connecting rod 22, the connecting rod 22 drives the pressing plate 23 to move in the box body 21, so that the pressing plate 23 is tightly attached to the inner side wall of the box body 21 to move, the pressing plate 23 extrudes or lifts the papermaking raw stock in the box body 21, the papermaking raw stock in the box body 21 enters the first connecting pipe 31, the connecting rod 22 is rotatably connected to the side wall of the rotating wheel 24, the rotating wheel 24 drives the connecting rod 22 to move up and down, so that the pressing plate 23 is driven to reciprocate, the output shaft of the motor 43 rotates for one circle, and the pressing plate 23 reciprocates up and down for four strokes; the box 21 with install guide plate 28 between the broken jar 42, just install arch 29 on the lateral wall of broken jar 42, guide plate 28 that the arc set up can wash the floccule on the water pair blade 45 that returns backward, simultaneously, prevents that the filter screen from blockking up.

Specifically, coupling mechanism 3 includes first connecting pipe 31 and second connecting pipe 32, install respectively on the top and the bottom of box 21 first connecting pipe 31, the top surface is "U" shape the lateral wall of first connecting pipe 31 is fixed connection and intercommunication in the middle of the department the second connecting pipe 32, just the top and the bottom of broken jar 42 are installed respectively second connecting pipe 32, for convenient the inside paper making magma of box 21 runs through first connecting pipe 31 with second connecting pipe 32 gets into the inside of broken jar 42, perhaps the inside paper making magma of broken jar 42 runs through second connecting pipe 32 with first connecting pipe 31 gets into the inside of box 21 makes the paper making magma be in the box 21 with the motion that the inside of broken jar 42 does not stop to make the inside great plant fiber of paper making magma and pivoted blade 45 contact, the blade 45 is caused to chop the plant fibers.

Specifically, the filtering mechanism 6 includes a fixing block 61 and a filter screen 62, the middle part of the inside of the first connecting pipe 61 is fixedly connected to the fixing block 61, and one end of the fixing block 61, the side wall of which is arc-shaped at the two ends, extends into the inside of the second connecting pipe 32; second connecting pipe 32 one end inside cleaning installation filter screen 62, filter screen 62's bottom is contradicted broken jar 42, just the inside bottom surface slope of broken jar 42 sets up, works as the inside papermaking magma of broken jar 42 gets into during the inside of box 21, broken jar 42 sets up with the slope filter screen 62 contacts, filter screen 62 blocks the plant fiber and gets into the inside of second connecting pipe 32 makes great plant fiber cloth not get into the inside of box 21. Just the inside papermaking magma of broken jar 42 gets into during the inside of box 21, the papermaking magma is in the inside motion of first connecting pipe 31, papermaking magma is curved with the lateral wall fixed block 61 contacts, and the papermaking magma is in the lateral wall of fixed block 61 slides and gets into the inside of second connecting pipe 32 avoids the papermaking magma to be in the inside collision each other of first connecting pipe 31 makes the papermaking magma get into fast the inside of second connecting pipe 32 with the contact of filter screen 62, the papermaking magma runs through filter screen 62 gets into the inside of broken jar 42, the magma will the inside papermaking magma of filter screen 62 dashes into the inside of broken jar 42 avoids filter screen 62 is blockked up.

Specifically, the cleaning mechanism 5 includes a fixing frame 51, a fixing plate 52 and a scraper 53, the other end of the fixing rod 44 is fixedly connected to the fixing frame 51, one end of the fixing frame 51 is fixedly connected to the fixing plate 52, the scraper 53 with a semicircular cross section is installed at two ends of the fixing plate 52 with an arc-shaped side wall, and the fixing plate 52 and the scraper 53 are slidably connected to the inner side wall of the crushing tank 42, so that the fixing plate 51 is fixed to the side wall of the fixing rod 44 through the fixing frame 51, the fixing rod 44 drives the fixing plate 52 to slide on the inner side of the crushing tank 42, the fixing plate 52 drives the scraper 53 to slide on the inner side wall of the crushing tank 42, the scraper 53 scrapes off the papermaking raw material adsorbed on the side wall of the crushing tank 42, and the papermaking raw material is in contact with the cutter blade 45; the fixing plate 52 is connected to the stopper plates 54 through the springs 56, the through holes 55 are distributed in an array on the fixing plate 52, when the side walls of the fixing plate 52 abut against the stopper plates 54, the protrusions 29 compress the stopper plates 54, so that the stopper plates 54 contract inside the fixing plate 52, and the stopper plates 54 and the through holes 28 on the fixing plate 52 are displaced, thereby removing the floccules on the fixing plate 52.

Specifically, discharge mechanism 7 includes drain pipe 71 and water valve 72, the bottom installation of box 21 drain pipe 71, drain pipe 71 contradicts the inside bottom surface of box 21, just the lateral wall suit of drain pipe 71 water valve 72, for the convenience open water valve 72, thereby open drain pipe 71, will the inside papermaking magma of box 21 is discharged.

When the device is used, a power supply is connected, and papermaking raw materials are placed into the crushing tank 42 through the feeding hopper 41. Open motor 43, motor 43 drives the dead lever 44 is in the inside of broken jar 42 is rotated, the both ends of broken jar 42 are hollow cube structure in, the lateral wall of broken water jar 42 is lived and is the hollow cylindrical structure, dead lever 44 drives the spiral blade 45 is in the inside of broken jar 42 is rotated, makes blade 45 will the paper making raw materials of broken jar 42 is stirred up. When the motor 43 rotates, the connecting rod 22 is opened, and the connecting rod 22 drives the pressing plate 23 to move in the box 21. When the two pressing plates 23 move downwards in the box body 21 at the same time, the pressing plates 23 move downwards tightly attached to the inner side wall in the box body 21, the pressing plates 23 extrude the paper-making raw pulp at the bottom end of the box body 21, so that the paper-making raw pulp in the box body 21 passes through the first connecting pipe 31 and the second connecting pipe 32 at the bottom end of the box body 21 and enters the crushing tank 42, the paper-making raw pulp drives the paper-making fibers in the crushing tank 42 to move upwards, and the paper-making fibers at the top end of the water breaking pipe 42 pass through the second connecting pipe 32 and the first connecting pipe 31 at the top end of the box body 21 and enter the top end of the box body 21 again; when clamp plate 23 upward movement, clamp plate 23 promotes downwards the papermaking magma on box 21 top runs through the box 21 top first connecting pipe 31 with second connecting pipe 32 gets into inside the top of broken jar 42, paper making raw materials is in the inside downstream of broken jar 42 makes paper making raw materials downstream and pivoted blade 45 contacts, the papermaking magma at broken jar 42 bottom runs through broken jar 42 bottom second connecting pipe 32 with first connecting pipe 31 gets into again inside the bottom of box 21. Along with the pressing plate 23 moves in the box body 21, the paper making raw pulp moves continuously in the box body 21 and the crushing tank 42, so that the large plant fibers in the paper making raw pulp are in contact with the rotating blade 45, the blade 45 cuts the plant fibers into pieces, and the volume of the plant fibers is reduced. The inside papermaking magma of broken jar 42 gets into during the inside of box 21, broken jar 42 sets up with the slope filter screen 62 contacts, filter screen 62 blocks the plant fiber entering the inside of second connecting pipe 32 makes great plant fiber cloth not get into the inside of box 21. Just the inside papermaking magma of broken jar 42 gets into during the inside of box 21, the papermaking magma is in the inside motion of first connecting pipe 31, papermaking magma is curved with the lateral wall fixed block 61 contacts, and the papermaking magma is in the lateral wall of fixed block 61 slides and gets into the inside of second connecting pipe 32 avoids the papermaking magma to be in the inside collision each other of first connecting pipe 31 makes the papermaking magma get into fast the inside of second connecting pipe 32 with the contact of filter screen 62, the papermaking magma runs through filter screen 62 gets into the inside of broken jar 42, the magma will the inside papermaking magma of filter screen 62 dashes into the inside of broken jar 42 avoids filter screen 62 is blockked up. The dead lever 44 is in when the inside of broken jar 42 rotates, the fixed plate 52 drives mount 51 with scraper blade 53 is in the inside wall of broken jar 42 is located the slip between two parties, makes scraper blade 53 will adsorb the paper making raw materials of the department that the inside wall of broken jar 42 is located scrapes, makes paper making raw materials be in the inside motion of broken jar 42 with blade 45 contacts, makes blade 45 is with paper making raw materials breakage. After the box 21 with the inside papermaking magma of broken jar 42 is smashed, open water valve 72, open drain pipe 71 will the box 21 with the inside papermaking magma of broken jar 42 is discharged.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (1)

1. A production process of high-efficiency digital thermal transfer paper is characterized by comprising the following steps: the process comprises the following steps:

s1, putting the papermaking raw materials into high-efficiency digital thermal transfer paper production equipment for pulp disintegration and pulping;

s2, pumping the beaten paper-making raw stock in the S1 into a mixing tank, and mixing the raw materials in the mixing tank in proportion;

s3, then sending the slurry prepared in the S2 to the next process for further processing;

the production equipment of the high-efficiency digital thermal transfer paper in the S1 comprises a support table (1), a blending mechanism (2), a connecting mechanism (3), a crushing mechanism (4), a cleaning mechanism (5), a filtering mechanism (6) and a discharging mechanism (7); the crushing mechanism (4) is installed at one end of the top surface of the supporting table (1), the blending mechanism (2) is installed at the other end of the top surface of the supporting table (1), and the discharging mechanism (7) is installed at the bottom end of the blending mechanism (2); the connecting mechanism (3) is arranged between the blending mechanism (2) and the crushing mechanism (4), and two ends of the connecting mechanism (3) are respectively communicated with the blending mechanism (2) and the crushing mechanism (4); the filtering mechanism (6) is arranged in the connecting mechanism (3), and the filtering mechanism (6) is abutted against the crushing mechanism (4); the inner part of the crushing mechanism (4) is rotatably connected with the cleaning mechanism (5), and the cleaning mechanism (5) is slidably connected with the inner side wall of the crushing mechanism (4); a first bevel gear (46) is connected to an output shaft of the motor (43), the first bevel gear (46) is meshed with a second bevel gear (47) mounted on the side wall of the crushing mechanism (4), a rotary table (26) is fixedly connected to a central shaft of the second bevel gear (47), and the rotary table (26) drives a rotating wheel (24) mounted on the side wall of the box body (21) to rotate through a belt (27);

the crushing mechanism (4) comprises a feeding hopper (41), a crushing tank (42), a motor (43), a fixing rod (44) and a blade (45), the crushing tank (42) is installed on the top surface of the supporting table (1), and the motor (43) is installed in the middle of the top surface of the crushing tank (42); the feeding hopper (41) is installed at the top end of the crushing tank (42), the fixing rod (44) is rotatably connected inside the top end of the crushing tank (42), and the top end of the fixing rod (44) is connected with the motor (43); the blade (45) is respectively installed at the middle part and one end of the bottom surface of the fixed rod (44), and the spiral blade (45) is rotatably connected with the inside of the crushing tank (42);

the blending mechanism (2) further comprises a box body (21), a connecting rod (22) and a pressing plate (23), the box body (21) is installed on the top surface of the supporting platform (1), and the connecting rod (22) is installed inside the box body (21); the inner side wall of the box body (21) is connected with the pressing plate (23) in a sliding mode, and the center of the outer side of the pressing plate (23) is connected with the connecting rod (22) in a rotating mode; the side wall of the rotating wheel (24) is rotatably connected with a connecting rod (22), the rotating wheel (24) drives the connecting rod (22) to move up and down so as to drive the pressing plate (23) to reciprocate, the output shaft of the motor (43) rotates for a circle, and the pressing plate (23) reciprocates up and down for four strokes; a guide plate (28) is arranged between the box body (21) and the crushing tank (42), and a bulge (29) is arranged on the side wall of the crushing tank (42);

the connecting mechanism (3) comprises a first connecting pipe (31) and a second connecting pipe (32), the first connecting pipe (31) is respectively installed at the top end and the bottom end of the box body (21), the side wall of the first connecting pipe (31) with the U-shaped top surface is fixedly connected at the center and communicated with the second connecting pipe (32), and the second connecting pipe (32) is respectively installed at the top end and the bottom end of the crushing tank (42);

the filtering mechanism (6) comprises a fixed block (61) and a filtering net (62), the middle part of the inside of the first connecting pipe (31) is fixedly connected with the fixed block (61), and one end of the fixed block (61) with the side walls at two ends being arc-shaped extends into the inside of the second connecting pipe (32); the filter screen (62) is mounted at one end of the second connecting pipe (32) in an internally cleaning manner, the bottom end of the filter screen (62) is abutted against the crushing tank (42), and the inner bottom surface of the crushing tank (42) is obliquely arranged;

the cleaning mechanism (5) comprises a fixed frame (51), a fixed plate (52) and a scraper (53), the other end of the fixed rod (44) is fixedly connected with the fixed frame (51), one end of the fixed frame (51) is fixedly connected with the fixed plate (52), the two ends of the fixed plate (52) with arc-shaped side walls are provided with the scraper (53) with semicircular sectional areas, and the fixed plate (52) and the scraper (53) are in sliding connection with the inner side wall of the crushing tank (42); the inner part of the fixed plate (52) is connected with a limiting plate (54) through a spring (56), and through holes (55) are distributed on the fixed plate (52) in an array manner;

the discharging mechanism (7) comprises a water discharging pipe (71) and a water valve (72), the water discharging pipe (71) is installed at the bottom end of the box body (21), the water discharging pipe (71) abuts against the inner bottom surface of the box body (21), and the water valve (72) is sleeved on the side wall of the water discharging pipe (71);

when the two pressing plates (23) move downwards in the box body (21) at the same time, the pressing plates (23) cling to the inner side wall of the box body (21) to move downwards, the pressing plates (23) extrude the paper-making raw pulp at the bottom end of the box body (21), so that the paper-making raw pulp in the box body (21) penetrates through the first connecting pipe (31) and the second connecting pipe (32) at the bottom end of the box body (21) to enter the crushing tank (42), the paper-making raw pulp drives the paper-making fibers in the crushing tank (42) to move upwards, and the paper-making fibers at the top end of the crushing tank (42) penetrate through the second connecting pipe (32) and the first connecting pipe (31) at the top end of the crushing tank (42) to enter the top end of the box body (21) again; when the pressing plate (23) moves upwards, the pressing plate (23) pushes the papermaking raw pulp at the top end of the box body (21) downwards to penetrate through the first connecting pipe (31) and the second connecting pipe (32) at the top end of the box body (21) and enter the inside of the top end of the crushing tank (42), the papermaking raw material moves downwards in the crushing tank (42) to be contacted with the rotating blade (45) in a downward mode, and the papermaking raw pulp at the bottom end of the crushing tank (42) penetrates through the second connecting pipe (32) at the bottom end of the crushing tank (42) and the first connecting pipe (31) and enters the inside of the bottom end of the box body (21) again;

with the movement of the pressing plate (23) in the box body (21), the paper making raw pulp moves continuously in the box body (21) and the crushing tank (42), so that plant fibers in the paper making raw pulp are in contact with the rotating blade (45), the blade (45) cuts the plant fibers, and the volume of the plant fibers is reduced;

the inside papermaking magma of broken jar (42) gets into during the inside of box (21), broken jar (42) sets up with the slope filter screen (62) contact, filter screen (62) block the plant fiber and get into the inside of second connecting pipe (32), make the plant fiber not get into the inside of box (21).

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