CN108978358B - Pulp molding device - Google Patents

Abstract

The invention provides a pulp molding device, which comprises a molding mechanism and a conveying mechanism, wherein the molding mechanism is arranged at the left side of the conveying mechanism, the molding mechanism comprises a fixed rod, an upper cover plate, a baffle plate, an outer corrugated plate, a lower die holder, a base plate, a top pipe, a motor, a first screw rod, a push plate, a water storage cavity, a first water outlet tank, a first filter plate, an upper pressing die, a pull rope, a reel, a threaded rod, a pressing plate and a spring, and the conveying mechanism comprises a limit rod, a support frame, a mixing box, a conveying inclined pipe, an inclined plate, a supporting box body, a second filter plate, a sealing plate, a stirring shaft, stirring blades, a hollow pipe, a first circular gear, a second screw rod and a floating plate, and compared with the prior art, the pulp molding device has the following advantages: the rapid water squeezing function is realized, the die casting precision is improved, the forming and anti-counterfeiting effects are good, the rapid mixing and stirring function is also realized, and the conveying quantity control precision is high.

Description

Pulp molding device

Technical Field

The invention relates to a pulp molding device, and belongs to the field of pulp molding equipment.

Background

The pulp molding process includes mixing cane pulp and bamboo pulp in certain proportion, soaking in water, stirring to disperse pulp, grinding, diluting with water, conveying to pulp feeding system, vacuum sucking pulp with mold, extrusion to dewater, hot press to form, cutting and other steps.

The color difference of the raw materials of the pulp molding product is small, and the product processing technology is similar, so that the appearance color of the manufactured product is similar; the information of the product carved on the mould is not obvious and is difficult to be distinguished correctly through the hot press molding process.

Disclosure of Invention

In view of the shortcomings of the prior art, the present invention is directed to a pulp molding device, which solves the problems set forth in the background art.

In order to achieve the above object, the present invention is realized by the following technical scheme: the pulp molding device comprises a molding mechanism and a conveying mechanism, wherein the molding mechanism comprises a water inlet, a baffle plate, an outer corrugated plate, a push plate, an upper pressing die and a pressing plate, pulp enters a molding cavity from the water inlet, the pressing plate is pressed down to drive the outer corrugated plate and the upper pressing die to move downwards for pulp molding, and after molding, the push plate moves upwards to eject pulp molding products.

The more specific technical scheme is as follows: the utility model provides a paper pulp molding device, includes forming mechanism and conveying mechanism, forming mechanism sets up in conveying mechanism left side, forming mechanism includes dead lever, upper cover plate, baffle, outer stupefied board, die holder, bed plate, push pipe, motor, lead screw one, push pedal, water storage chamber, play basin, filter plate one, go up moulding-die, stay cord, reel, threaded rod, clamp plate and spring, conveying mechanism includes gag lever post, support frame, mixing box, conveying inclined tube, swash plate, supporting box body, filter plate two, closing plate, (mixing) shaft, stirring vane, hollow tube, circular gear one, circular gear two, lead screw two and kickboard.

Further, in the forming mechanism, the dead lever passes the upper cover plate, the clamp plate passes through the fix with screw in the dead lever upside, the clamp plate downside has the spring through the screw connection, the spring passes through the fix with screw in the upper cover plate upside, and the spring suit is on the dead lever, the dead lever passes through the fix with screw in the lower extreme in the upper die, upper portion border position is fixed with the outer stupefied board in upper die lateral surface upper portion, the baffle is all fixed with in edge position about the outer stupefied board up end, outer stupefied board and cope mold all set up in the die holder inside, the upper cover plate passes through four supporting legs and fixes in the die holder upper end, the die holder passes through four supporting legs and fixes in the bed plate upper end, the motor passes through the fix with screw in the die holder upper end intermediate position, lead screw one is welded in the motor up end, the cover is in a lead screw annular side upper portion, the push pedal lateral surface passes through the fix with screw, the push pedal setting is in the lower die holder, the upper end passes through the lower die holder and the side is fixed with the push pedal, the reel is fixed with the water storage reel side, the reel passes through the top of the water storage tank, the top is set up at the side, the reel is passed through the top of the water storage tank.

Further, the water flow hole has been seted up to the die holder upper right side, and the water flow hole left side is provided with the baffle, the through-hole has been seted up to the upper cover plate upper end, and passes stay cord and dead lever on the through-hole respectively, the processing of dead lever annular side front side has the scale mark, the processing of reel annular side upper end has the screw hole, and is provided with the threaded rod on the screw hole, the threaded rod sets up in U type frame upside, and when in actual use, uses the personnel to hold the threaded rod to drive the reel and go on the rotation, thereby twine the stay cord, and then drive outer stupefied board upward movement, outer stupefied board upward movement drives baffle and last moulding-die upward simultaneously, and then drives the dead lever upward movement, and then drives the clamp plate upward movement, and then stretches to the spring, thereby the water flow hole is opened to the baffle upward movement, then uses the personnel to inject the paper pulp into the die holder through the water flow hole, after the paper pulp is injected completely, and then the use personnel carries out slow reversal to the reel, then realizes being in the relaxation state, then the dead lever moves down under the effect of spring, and then drives the upper stupefied board and the outer stupefied board and the movement of upper cover plate and the upper cover plate upward movement, thereby the moulding-die is moved down by the guard, thereby the guard is moved down to the paper pulp, and then moves down the scale mark downward, and then moves down, and then the person is kept away from the moulding down.

Further, the step groove has been seted up to the push pedal upper end, and be provided with filter plate one on the step groove, screw mandrel one is connected with the push pipe through ball nut pair, the motor is connected with external power supply through the wire, and be connected with the switch on the wire, when in actual use, use personnel's switch on, thereby realize the circuit switch-on between motor and the external power supply, then motor operation drives screw mandrel one and rotate, then ball nut pair becomes the rectilinear motion of push pipe with the rotation operation of screw mandrel one, and then lead to the push pipe to upwards move, the push pipe upwards moves and drives push pedal and filter plate one upwards move, then water in the paper pulp passes through filter plate one, and store in the water storage chamber, then filter plate one then filters paper pulp, and then realize squeezing the paper pulp, and carry out shaping processing, then after the paper pulp shaping, use personnel upwards moves upward moulding die, paper pulp and push pedal simultaneously, thereby realize that the paper pulp product takes out from the die holder, then use personnel moves down again, when the push pedal moves down to the downside in the die holder, water in the water storage chamber leaves through the play basin.

Further, in conveying mechanism, lead screw two connects on support frame up end intermediate position, the gag lever post slides and sets up on support frame up end left and right sides two parts, the support frame passes through the fix with screw on the mixing box upper end, the transport chute is fixed in mixing box left side below, and carries chute and water hole to be linked together, the mixing box passes through the fix with screw at support box up end, the swash plate is fixed in support box upper left side, and swash plate and play basin are linked together, filter plate two passes through the lug setting in support box upper portion, the closing plate sets up on support box right side, mixing box upper portion is provided with the kickboard, the hollow tube passes through the bearing connection on kickboard up end intermediate position, circular gear two is fixed on the hollow tube, circular gear lateral surface is provided with circular gear one, circular gear one is fixed on stirring collar shape side upper portion, circular gear one and circular gear two all set up in the board upside, the stirring axle passes through the bearing connection in support frame upper and lower side, the kickboard is connected with the left side through the kickboard, the kickboard passes down end is connected to the left side and right side, the kickboard is connected with the left side and right side.

Further, lead screw two is connected with the support frame through ball nut pair, lead screw two lower extreme is fixed with T type metal piece, cavity pipe ring shape side upper edge is fixed with annular magnet ring, cavity pipe axis and lead screw two axis are in same vertical straight line, circular gear one carries out gear engagement with circular gear two, in the time of actual use, the user is with paper pulp and anti-fake fiber all through the cavity pipe injection mixing box in, then use the person to rotate lead screw two, then lead screw two will rotate the operation under the effect of ball nut pair and become the straight line operation, and then lead screw two moves down along the support frame, and then drive T type metal piece and move down, thereby contact annular magnet ring down, and then drive annular magnet ring down and rotate, annular magnet ring rotates and drives the hollow tube and rotate, and then drives stirring vane and rotate, thereby carry out mixing treatment to paper pulp and anti-fake fiber, and simultaneously the hollow tube rotates and drives circular gear one and rotates, and then drives the stirring axle and rotate, thereby, and simultaneously the stirring range has been enlarged, and the hollow tube moves down moves along the support frame and moves down along the support frame, and then drives T type metal piece down to move down to the moving along the support frame, and then moves down to the anti-fake fiber, and the mixture is down in order to be carried down to the mixing box when the anti-fake fiber is down, and the anti-fake fiber is down to the bottom down mixed with the bottom down.

Further, support frame upper end symmetry processing has two round holes, and all is provided with the gag lever post on the round hole, gag lever post annular side front end processing has the scale mark, the screw hole has all been seted up to the support frame left and right sides, and install the locking bolt on the screw hole, and the locking bolt sets up in the gag lever post outside, when in actual use, use personnel move the gag lever post downwards along the round hole, then use personnel hold the distance of gag lever post downwardly moving through observing the scale mark, then use personnel fix the gag lever post through rotating the locking bolt, then use personnel pour into the mixing box with paper pulp and anti-fake fibre through the hollow tube, thereby drive the kickboard upwards movement, thereby contact with the gag lever post downside, and then hinder kickboard upwards movement, thereby realize stopping pouring into paper pulp and anti-fake fibre, realized carrying out accurate control to the paper pulp of mixing box and anti-fake fibre's content.

Further, the filter plate I is the same with the second specification of the filter plate, two limiting blocks are symmetrically fixed on the lower right side of the mixing box, the two limiting blocks are symmetrically arranged on the front side and the rear side of the sealing plate, the lug plates are fixed on the lower right side of the supporting box body, the sealing plate is arranged at the upper end of the lug plates, two air bag strips are symmetrically inlaid on the right side of the supporting box body, the air bag strips are arranged on the right side of the sealing plate, a limiting groove is formed in the supporting box body, a protruding block is arranged on the limiting groove, when the filter plate I is actually used, water flows out of the water outlet groove and flows into the inclined plate, then water enters the supporting box body, then water passes through the second filter plate and falls on the lower end in the supporting box body, then a user upwards moves the sealing plate along the limiting blocks, so that water is taken out, the functions of collecting and recycling water are achieved, then the second filter plate is taken out by a user, paper pulp at the upper end of the second filter plate is cleaned by the user, the second filter plate is placed on the stepped groove on the push plate, the first filter plate is overturned, and then the first filter plate is overturned by 180 degrees and then the first filter plate is placed in the supporting box, and the second filter plate I is cleaned by the user, and the second filter plate is circularly used, and the second filter plate is cleaned by the second filter plate is placed in the first filter plate is achieved.

The invention also claims a use method of the pulp molding pad printing device, which comprises the following steps: firstly, a baffle plate, an outer corrugated plate and an upper pressing die move upwards, and paper pulp enters a forming cavity from a water inlet; then the pressing plate is pressed down to drive the baffle plate, the outer corrugated plate and the upper pressing die to move downwards, the baffle plate seals the water inlet, and the outer corrugated plate and the upper pressing die are pressed down to perform pulp molding; after molding, the push plate moves upward to eject the pulp molded product.

According to the invention, the anti-counterfeiting fiber is added during slurry mixing, and a specific mark is formed on the surface of a pulp molding product by utilizing a pad printing technology, so that not only can an exquisite printing effect be realized, but also the production information of the product can be tracked and traced by utilizing the specificity of printing content.

The anti-counterfeiting effect is achieved by utilizing the characteristics of anti-counterfeiting fiber such as color change, color combination mode, color change condition, appearance and the like, and the anti-counterfeiting fiber has a unique appearance effect so as to achieve the anti-counterfeiting purpose.

The anti-counterfeiting characteristic specifically comprises:

1. color and color change mode: common color (visible under natural light), colorless, colored to the same color system color, colored to other colors;

2. the color combination mode is as follows: single color, single double color, single multicolor, random color spectrum, front-back heterochromatic, etc.;

3. color change conditions: sunlight, long wave ultraviolet light, short wave ultraviolet light, temperature, angle, etc.;

4. appearance: round, flat, straight, curved, arcuate, wavy, etc. By combining the above characteristics (such as single double-fluorescent round curved anti-counterfeiting short fiber, positive and negative abnormal fluorescent flat wave anti-counterfeiting short fiber, colored-to-colorless temperature-to-fluorescent straight and flat anti-counterfeiting short fiber and the like) on one fiber, the copying difficulty can be set to be very high, and a good anti-counterfeiting effect can be achieved.

The invention can be realized by the following steps: firstly, according to the product requirement, color and color changing modes are formulated, the color is visible under natural light or ultraviolet light, and then, the color can be combined according to the customer requirement: single color, single double color, single multicolor, random color spectrum, front-back heterochromatic and the like, and then according to the color changing conditions: sun light, long wave ultraviolet light, short wave ultraviolet light, temperature, angle and the like are developed, then selected anti-counterfeiting fibers are injected into a mixing box through a hollow tube, then a screw rod II is rotated, the screw rod II is rotated under the action of a ball nut pair to change the rotation operation into linear operation, the screw rod II is further led to move downwards along a supporting frame, then a T-shaped metal block is driven to move downwards, the T-shaped metal block moves downwards to contact an annular magnet ring, then the annular magnet ring is driven to move downwards and rotate, the annular magnet ring rotates to drive the hollow tube to rotate, then a stirring blade is driven to rotate, pulp and anti-counterfeiting fibers are subjected to mixing treatment, meanwhile, the hollow tube rotates to drive a round gear II to rotate, then a round gear I is driven to rotate, then a stirring shaft is driven to rotate, the stirring range is enlarged, meanwhile, the hollow tube moves downwards to drive a floating plate to move downwards, the pulp and the anti-counterfeiting fibers are extruded, and then the mixture of the pulp and the anti-counterfeiting fibers is injected into a lower die holder through a conveying inclined tube.

The invention has the beneficial effects that: according to the invention, through adding the fixing rod, the upper cover plate, the baffle, the outer corrugated plate, the lower die holder, the base plate, the jacking pipe, the motor, the screw rod I, the push plate, the water storage cavity, the water outlet groove, the filter plate I, the upper pressing die, the pull rope, the reel, the threaded rod, the pressing plate and the spring, the rapid water squeezing function is realized, the die casting precision is improved, and the molding and anti-counterfeiting effects are good.

According to the invention, through adding the limiting rod, the supporting frame, the mixing box, the conveying inclined pipe, the inclined plate, the supporting box body, the second filter plate, the sealing plate, the stirring shaft, the stirring blade, the hollow pipe, the first circular gear, the second screw rod and the floating plate, the rapid mixing and stirring function is realized, and the conveying quantity control precision is high.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic view of a pulp molding device according to the present invention;

FIG. 2 is a schematic cross-sectional view of a molding mechanism of a pulp molding apparatus according to the present invention;

FIG. 3 is a schematic cross-sectional elevation view of a conveyor mechanism in a pulp molding apparatus according to the present invention;

FIG. 4 is a schematic top sectional view of a conveyor mechanism in a pulp molding apparatus according to the present invention;

in the figure: 1-forming mechanism, 2-conveying mechanism, 101-fixed rod, 102-upper cover plate, 103-baffle, 104-outer corrugated plate, 105-lower die holder, 106-base plate, 107-top pipe, 108-motor, 109-screw first, 110-push plate, 111-water storage cavity, 112-water outlet groove, 113-filter plate first, 114-upper press die, 115-pull rope, 116-reel, 117-threaded rod, 118-press plate, 119-spring, 201-limit rod, 202-support frame, 203-mixing box, 204-conveying inclined pipe, 205-inclined plate, 206-support box body, 207-filter plate second, 208-sealing plate, 209-stirring shaft, 210-stirring blade, 211-hollow pipe, 212-circular gear first, 213-circular gear second, 214-screw second and 215-floating plate.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Referring to fig. 1-4, the present invention provides a technical solution: the pulp molding device comprises a molding mechanism 1 and a conveying mechanism 2, wherein the molding mechanism 1 is arranged on the left side of the conveying mechanism 2, the molding mechanism 1 comprises a fixed rod 101, an upper cover plate 102, a baffle plate 103, an outer corrugated plate 104, a lower die holder 105, a base plate 106, a jacking pipe 107, a motor 108, a first screw rod 109, a push plate 110, a water storage cavity 111, a water outlet groove 112, a first filter plate 113, an upper pressing die 114, a pull rope 115, a reel 116, a threaded rod 117, a pressing plate 118 and a spring 119, and the conveying mechanism 2 comprises a limiting rod 201, a supporting frame 202, a mixing box 203, a conveying inclined pipe 204, an inclined plate 205, a supporting box body 206, a second filter plate 207, a sealing plate 208, a stirring shaft 209, stirring blades 210, a hollow pipe 211, a first circular gear 212, a second circular gear 213, a second screw rod 214 and a floating plate 215.

In the forming mechanism 1, a fixing rod 101 passes through an upper cover plate 102, a pressing plate 118 is fixed on the upper side of the fixing rod 101 through screws, a spring 119 is connected on the lower side of the pressing plate 118 through screws, the spring 119 is fixed on the upper side of the upper cover plate 102 through screws, the spring 119 is sleeved on the fixing rod 101, the fixing rod 101 is fixed on the inner lower end of an upper pressing die 114 through screws, an outer edge plate 104 is fixed on the upper edge position of the outer side surface of the upper pressing die 114, a baffle plate 103 is fixed on the left and right edge positions of the upper end surface of the outer edge plate 104, the baffle plate 103, the outer edge plate 104 and the upper pressing die 114 are arranged in a lower die holder 105, the upper cover plate 102 is fixed on the upper end of the lower die holder 105 through four supporting legs, the lower die holder 105 is fixed on a base plate 106 through four supporting legs, a motor 108 is inlaid in the middle position of the upper end of the base plate 106 through screws, the first lead screw 109 is welded on the upper end face of the motor 108, the jacking pipe 107 is sleeved on the upper part of the annular side face of the first lead screw 109, the jacking pipe 107 is fixed on the lower side face of the push plate 110 through screws, the push plate 110 is arranged on the inner lower side of the lower die holder 105, the upper end of the jacking pipe 107 penetrates through the lower die holder 105 to be fixed with the push plate 110, the water storage cavity 111 is arranged inside the upper end of the push plate 110, the outer side face of the first filter plate 113 is fixed on the upper part of the water storage cavity 111 through a convex block, the water outlet groove 112 is arranged on the right lower side of the lower die holder 105, the pull rope 115 is fixed on the upper side face of the outer corrugated plate 104 through screws, the reel 116 is sleeved on a U-shaped frame, the U-shaped frame is fixed on the upper side of the upper cover plate 102, the upper end of the pull rope 115 penetrates through the upper cover plate 102 and is wound on the reel 116, and the left part of the upper end of the annular side face of the reel 116 is provided with a threaded rod 117.

In the conveying mechanism 2, a second screw 214 is connected to the middle position of the upper end face of a supporting frame 202, a limiting rod 201 is slidably arranged on the left and right parts of the upper end face of the supporting frame 202, the supporting frame 202 is fixed to the upper end of a mixing box 203 through screws, a conveying inclined tube 204 is fixed to the left lower side of the mixing box 203, the conveying inclined tube 204 is communicated with a water flow hole, the mixing box 203 is fixed to the upper end face of a supporting box 206 through screws, a sloping plate 205 is fixed to the left upper side of the supporting box 206, the sloping plate 205 is communicated with a water outlet groove 112, a second filter plate 207 is arranged on the upper inner part of the supporting box 206 through a bump, a sealing plate 208 is arranged on the right side of the supporting box 206, a floating plate 215 is arranged on the upper part of the mixing box 203, a hollow tube 211 is connected to the middle position of the upper end face of the floating plate 215 through a bearing, a second round gear 213 is fixed to the hollow tube 211, a first round gear 212 is arranged on the outer side face of the round gear 213, the first round gear 212 is fixed to the upper part of the annular side face of a stirring shaft 209, the first round gear 212 and the second round gear 213 is arranged on the upper side of the plate 215, the upper side of the round gear 215 is connected to the upper end face of the stirring shaft 215 through the bearing 215, the upper end face of the first round gear 215 is connected to the upper end face of the stirring shaft 215 and the upper end of the stirring shaft 215 is connected to the lower end of the floating plate 215, and penetrates the upper end of the floating plate 215, and the upper end of the hollow plate 215 is arranged on the upper end of the floating plate 215 and penetrates through the hollow plate 215.

As an embodiment of the present invention: the upper right side of die holder 105 has seted up the water flow hole, and the water flow hole left side is provided with baffle 103, the through-hole has been seted up to upper cover plate 102 upper end, and pass stay 115 and dead lever 101 on the through-hole respectively, dead lever 101 annular side front side processing has the scale mark, reel 116 annular side upper end processing has the screw hole, and be provided with threaded rod 117 on the screw hole, threaded rod 117 sets up in U type frame upside, in actual use, use personnel hold threaded rod 117, and drive reel 116 and go on the rotation, thereby twine stay 115, and then drive outer stupefied board 104 upward movement, outer stupefied board 104 upward movement drives baffle 103 and upper die 114 upward movement simultaneously, and then drive dead lever 101 upward movement drives clamp plate 118 upward movement, and then stretch to spring 119, thereby baffle 103 upward movement and open the water flow hole, then the paper pulp is poured into die holder 105 through the water flow hole into, after the paper pulp is poured into completely into, the reel 116 is slowly reversed by the user, and then realize 115 is in the state, then, the dead lever 101 moves down under the effect of spring 119, and drives the baffle 103 upward movement, and then moves down the scale mark to the upper cover plate 114, and then moves down by the control plate 114, thereby the outer stupefied board 104 is moved down, and then the guard plate is moved down, and then the upper cover plate 114 is moved down, thereby the guard plate is moved down, and the upper plate is moved down, thereby, and the guard plate is moved down by the guard plate is moved down, and the upper by the upper plate is moved, and the upper by the guard plate is moved down, and the upper plate is moved down, and is stretched.

As an embodiment of the present invention: the upper end of the push plate 110 is provided with a step groove, the step groove is provided with a first filter plate 113, the first screw rod 109 is connected with the top pipe 107 through a ball nut pair, the motor 108 is connected with an external power supply through a wire, and a switch is connected to the wire, when the push plate is actually used, a user turns on the switch, so that a circuit between the motor 108 and the external power supply is switched on, then the motor 108 works to drive the first screw rod 109 to rotate, the ball nut pair changes the rotation operation of the first screw rod 109 into the linear motion of the top pipe 107, the top pipe 107 moves upwards to drive the push plate 110 and the first filter plate 113 to move upwards, then water in pulp passes through the first filter plate 113 and enters into the water storage cavity 111 to be stored, then the first filter plate 113 filters the pulp, so that the pulp is squeezed, and then the pulp is molded, after the pulp is molded, the user moves the upper press die 114, the pulp and the push plate 110 upwards, so that the pulp product is taken out from the lower die holder 105, and then the user moves the push plate 110 downwards, when the push plate 110 moves downwards to the lower die holder 105, the water leaves the water storage cavity 111 through the water storage cavity 111.

As an embodiment of the present invention: the screw rod II 214 is connected with the support frame 202 through the ball nut pair, a T-shaped metal block is fixed at the lower end of the screw rod II 214, an annular magnet ring is fixed at the upper edge of the annular side surface of the hollow tube 211, the central axis of the hollow tube 211 and the central axis of the screw rod II 214 are positioned on the same longitudinal straight line, the round gear I212 is meshed with the round gear II 213 in a gear way, when in actual use, a user injects paper pulp and anti-counterfeiting fiber into the mixing box 203 through the hollow tube 211, then the user rotates the screw rod II 214, then the screw rod II 214 changes the rotation operation into the linear operation under the action of the ball nut pair, the screw rod II 214 is further caused to move downwards along the support frame 202, the T-shaped metal block is further driven to move downwards, the T-shaped metal block moves downwards to contact the annular magnet ring, and further the annular magnet ring is driven to move downwards and rotate, the annular magnet ring rotates to drive the hollow tube 211 to rotate and then drive the stirring blade 210 to rotate, so that pulp and anti-counterfeiting fiber are mixed, meanwhile, the hollow tube 211 rotates to drive the circular gear II 213 to rotate and then drive the circular gear I212 to rotate and then drive the stirring shaft 209 to rotate, so that the stirring range is enlarged, meanwhile, the hollow tube 211 moves downwards to drive the floating plate 215 to move downwards, the floating plate 215 moves downwards to squeeze the pulp and the anti-counterfeiting fiber, then the mixture of the pulp and the anti-counterfeiting fiber is injected into the lower die holder 105 through the conveying inclined tube 204, and meanwhile, when the baffle 103 blocks a water flow hole, the rest pulp and the anti-counterfeiting fiber mixture fall back into the mixing box 203 along the conveying inclined tube 204, and when the stirring shaft 209 moves downwards to be in contact with the bottom end of the mixing box 203, the rotation of the screw rod II 214 is stopped.

As an embodiment of the present invention: two round holes are symmetrically machined in the upper end of the supporting frame 202, a limit rod 201 is arranged on each round hole, scale marks are machined in the front end of the annular side surface of the limit rod 201, threaded holes are formed in the left side and the right side of the supporting frame 202, locking bolts are installed on the threaded holes, the locking bolts are arranged on the outer side of the limit rod 201, when the anti-fake device is in actual use, a user downwards moves the limit rod 201 along the round holes, then holds the downwards moving distance of the limit rod 201 by observing the scale marks, then the user fixes the limit rod 201 by rotating the locking bolts, then the user injects paper pulp and anti-fake fibers into the mixing box 203 through a hollow tube 211, so that a floating plate 215 is driven to upwards move, the floating plate 215 is contacted with the lower side of the limit rod 201, and further the floating plate 215 is prevented from upwards moving, and therefore accurate control of paper pulp injection into the mixing box 203 and the content of the anti-fake fibers is achieved.

As an embodiment of the present invention: the specification of the first filter plate 113 is the same as that of the second filter plate 207, two limiting blocks are symmetrically fixed on the right lower side of the mixing box 203, the two limiting blocks are symmetrically arranged on the front side and the rear side of the sealing plate 208, an ear plate is fixed on the right lower side of the supporting box 206, a sealing plate 208 is arranged at the upper end of the ear plate, two air bag strips are symmetrically inlaid on the right side of the supporting box 206, the air bag strips are arranged on the right side of the sealing plate 208, a limiting groove is formed in the supporting box 206, a protruding block is arranged on the limiting groove, when in actual use, water leaves the water outlet groove 112 and flows into the inclined plate 205, then water enters the supporting box 206, then water passes through the second filter plate 207 and falls on the lower end in the supporting box 206, then a user moves the sealing plate 208 upwards along the limiting blocks, so that water is taken out, the functions of collecting and recycling water are achieved, then the second filter plate 207 is taken out by the user, the paper pulp at the upper end of the second filter plate 207 is overturned 180 degrees by the user, the user is placed on the stepped groove on the push plate 110, when the first filter plate 207 is overturned, the first filter plate 180 is overturned, the first filter plate 113 is placed in the supporting box 180, and the second filter plate 113 is washed by the user, and the second filter plate 113 is cleaned by the user, and the user is then the second filter plate 113 is cleaned.

As an embodiment of the present invention: the method comprises the following steps: firstly, a color and a color changing mode are formulated according to the requirements of products, the color is seen under natural light or ultraviolet light, and then, the colors are combined according to the requirements of customers: single color, single double color, single multicolor, random color spectrum, front-back heterochromatic and the like, and then according to the color changing conditions: sun light, long wave ultraviolet light, short wave ultraviolet light, temperature, angle and the like are developed, then selected anti-counterfeiting fibers are injected into the mixing box 203 through the hollow tube 211, then the screw rod II 214 is rotated, the screw rod II 214 is changed into linear operation under the action of the ball nut pair, the screw rod II 214 is further caused to move downwards along the supporting frame 202, the T-shaped metal block is further caused to move downwards to contact with the annular magnet ring, the annular magnet ring is further caused to move downwards and rotate, the hollow tube 211 is driven to rotate through the rotation of the annular magnet ring, the stirring blade 210 is further driven to mix paper pulp and anti-counterfeiting fibers, meanwhile, the hollow tube 211 is driven to rotate to drive the circular gear II 213 to rotate to further drive the circular gear I212 to rotate, the stirring shaft 209 is further driven to expand the stirring range, meanwhile, the hollow tube 211 moves downwards to drive the plate 215 to move downwards, the paper pulp and the anti-counterfeiting fibers are extruded, and then the mixture of the anti-counterfeiting fibers is injected into the lower die holder 105 through the conveying inclined tube 204, and in the preparation process, the anti-counterfeiting fibers are well copied by different profile characteristics, and the anti-counterfeiting effect is well achieved.

While the fundamental and principal features of the invention and advantages of the invention have been shown and described, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is intended to include only a single embodiment, and that this description is for clarity only, and that the skilled artisan should recognize that the embodiments of the disclosure as a whole, and that the embodiments of the embodiments may be combined as appropriate to form other embodiments that will be understood by those skilled in the art.

Claims (5)

1. A pulp molding device, includes forming mechanism and conveying mechanism, its characterized in that: the forming mechanism comprises a fixed rod, an upper cover plate, a baffle, an outer corrugated plate, a lower die holder, a base plate, a jacking pipe, a motor, a first screw rod, a push plate, a water storage cavity, a water outlet groove, a first filter plate, an upper die, a pull rope, a reel, a threaded rod, a pressing plate and a spring, wherein paper pulp enters a forming cavity from the water flow hole, the pressing plate is pressed down to drive the outer corrugated plate and the upper die to move downwards for paper pulp molding, and after forming, the push plate moves upwards to eject a paper pulp molded product;

in the forming mechanism, the fixing rod penetrates through the upper cover plate, the pressing plate is fixed on the upper side of the fixing rod through a screw, the lower side of the pressing plate is connected with a spring through a screw, the spring is fixed on the upper side of the upper cover plate through a screw, the spring is sleeved on the fixing rod, the fixing rod is fixed on the inner lower end of the upper pressing die through a screw, an outer corrugated plate is fixed at the edge position of the upper part of the outer side surface of the upper pressing die, and baffles are fixed at the left edge position and the right edge position of the upper end surface of the outer corrugated plate;

the baffle, the outer corrugated plate and the upper pressing die are all arranged in the lower die holder, the upper cover plate is fixed at the upper end of the lower die holder through four supporting legs, the lower die holder is fixed at the upper end of the base plate through four supporting legs, the motor is inlaid at the middle position of the upper end of the base plate through screws, the first screw rod is welded on the upper end face of the motor, the jacking pipe is sleeved on the upper part of the annular side face of the first screw rod, the jacking pipe is fixed on the lower side face of the pushing plate through screws, the pushing plate is arranged on the lower side in the lower die holder, the upper end of the jacking pipe penetrates through the lower die holder to be fixed with the pushing plate, and the water storage cavity is formed in the upper end of the pushing plate;

the outer side surface of the filter plate is fixed at the upper part in the water storage cavity through a convex block, a water outlet groove is formed in the lower right side of the lower die holder and is arranged at the right side of the water storage cavity, the pull rope is fixed at the upper side surface of the outer corrugated plate through a screw, the reel is sleeved on the U-shaped frame, the U-shaped frame is fixed at the upper side of the upper cover plate, the upper end of the pull rope penetrates through the upper cover plate and is wound on the reel, and a threaded rod is arranged at the left part of the upper end of the annular side surface of the reel;

the upper right side of the lower die holder is provided with a water flow hole, the left side of the water flow hole is provided with a baffle, the upper end of the upper cover plate is provided with a through hole, the through hole is respectively penetrated by a pull rope and a fixed rod, the front side of the annular side surface of the fixed rod is provided with scale marks, the upper end of the annular side surface of the reel is provided with a threaded hole, the threaded hole is provided with a threaded rod, and the threaded rod is arranged on the upper side of the U-shaped frame;

the conveying mechanism comprises a limiting rod, a supporting frame, a mixing box, a conveying inclined pipe, an inclined plate, a supporting box body, a second filter plate, a sealing plate, a stirring shaft, stirring blades, a hollow pipe, a first circular gear, a second screw rod and a floating plate;

in the conveying mechanism, a second screw rod is connected to the middle position of the upper end face of a supporting frame, a limiting rod is arranged on the left part and the right part of the upper end face of the supporting frame in a sliding mode, the supporting frame is fixed to the upper end of a mixing box through screws, a conveying inclined pipe is fixed to the left lower portion of the mixing box and communicated with a water flow hole, the mixing box is fixed to the upper end face of a supporting box body through screws, an inclined plate is fixed to the left upper portion of the supporting box body and communicated with a water outlet groove, a second filter plate is arranged on the upper portion in the supporting box body through a protruding block, a sealing plate is arranged on the right side of the supporting box body, and a floating plate is arranged on the upper portion in the mixing box body;

the hollow pipe is connected to the middle position of the upper end surface of the floating plate through a bearing, and paper pulp and anti-counterfeiting fibers are injected into the mixing box through the hollow pipe;

the second round gear is fixed on the hollow pipe, the first round gear is arranged on the outer side face of the round gear, the first round gear is fixed on the upper portion of the annular side face of the stirring shaft, the first round gear and the second round gear are both arranged on the upper side of the floating plate, the stirring shaft is connected to the lower end face of the floating plate through bearings, the upper end of the stirring shaft penetrates through the floating plate to be connected with the first round gear, stirring blades are fixed on the left side and the right side of the lower portion of the annular side face of the hollow pipe, the stirring blades are arranged on the lower side of the floating plate, and the lower end of the limiting rod penetrates through the supporting frame and is arranged on the upper side of the floating plate.

2. A pulp moulding device according to claim 1, characterized in that: the push plate is characterized in that a stepped groove is formed in the upper end of the push plate, a first filter plate is arranged on the stepped groove, the first screw rod is connected with the push pipe through a ball nut pair, the motor is connected with an external power supply through a wire, and a switch is connected to the wire.

3. A pulp moulding device according to claim 2, characterized in that: the second screw rod is connected with the support frame through the ball nut pair, a T-shaped metal block is fixed at the lower end of the second screw rod, an annular magnet ring is fixed at the upper edge of the annular side surface of the hollow tube, the central axis of the hollow tube and the central axis of the second screw rod are positioned on the same longitudinal straight line, and the first circular gear is in gear engagement with the second circular gear.

4. A pulp moulding device according to claim 3, characterized in that: two round holes are symmetrically machined in the upper end of the support frame, limiting rods are arranged on the round holes, scale marks are machined in the front end of the annular side face of each limiting rod, threaded holes are formed in the left side and the right side of the support frame, locking bolts are arranged on the threaded holes, and the locking bolts are arranged on the outer sides of the limiting rods.

5. A pulp moulding apparatus as claimed in claim 4, wherein: the first filter plate is the same as the second filter plate in specification.