CN109680561A - The production method of high speed paper pulp model fully automatic forming machine - Google Patents

Abstract

The invention discloses a kind of production methods of high speed paper pulp model fully automatic forming machine, comprising the following steps: S1, slurry is input in the slurry pool of rack；S2, slurry pool is driven to move towards molded mechanism by lifting assembly；At least two molding bottom dies in S3, the molded mechanism successively immerse the liquid level of the slurry pool or less；Shaping upper tool in S4, the molded mechanism cooperates with the molding bottom die, the molding bottom die compression moulding to slurry is adsorbed with；S5, the workpiece of compression moulding is delivered to slurry pool side.The high speed paper pulp model fully automatic forming machine can be improved production efficiency.

Description

The production method of high speed paper pulp model fully automatic forming machine

Technical field

The invention belongs to Paper pulp machine technical fields, and in particular to a kind of producer of high speed paper pulp model fully automatic forming machine Method.

Background technique

Current Pulp forming machine in process of production, usually will contact vat in paper pulp model activity to vat Interior paper pulp, then paper pulp model is attached to paper pulp on model, will then be adsorbed with paper pulp by vacuumizing and adsorbing paper pulp Model compression moulding dries or finished product can be obtained after drying.Although this forming method is simple, process velocity is slow, effect Rate is low.Also have in the related technology and paper pulp model is arranged to turnover structure, paper pulp model is adsorbing the paper in vat It after slurry, is flipped up, then using press device by paper pulp compression moulding, but currently used equipment volume is larger, cost Height, and production efficiency is also to be improved.

Summary of the invention

The present invention is directed at least solve one of the technical problems existing in the prior art.

For this purpose, the present invention proposes a kind of production method of high speed paper pulp model fully automatic forming machine, the high speed paper pulp model Fully automatic forming machine can be improved production efficiency.

The production method of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention, comprising the following steps: S1, Slurry is input in the slurry pool of rack；S2, slurry pool is driven to move towards molded mechanism by lifting assembly； At least two molding bottom dies in S3, the molded mechanism successively immerse the liquid level of the slurry pool or less；It is S4, described Shaping upper tool in molded mechanism cooperates with the molding bottom die, to the molding bottom die pressure for being adsorbed with slurry Type is made；S5, the workpiece of compression moulding is delivered to slurry pool side.

The production method of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention, using rack, slurry pool, Molded mechanism, lifting assembly and blowing suction mechanism combine, and can not only realize paper pulp molding, additionally it is possible to reduce equipment Volume improves working efficiency.

According to an embodiment of the present invention, in the step S2, the lifting assembly is set to the rack and can drive The slurry pool is moved toward and away from the molded mechanism direction.

According to an embodiment of the present invention, in the step S3, the molded mechanism includes: lower die mounting portion, institute It states and at least two molding bottom dies for being spaced apart setting, the table of each molding bottom die is installed on lower die mounting portion Face is for molding type face, and the lower die mounting portion can drive each molding bottom die to immerse the liquid of the slurry pool Below face or liquid level described in emersion is simultaneously far from the slurry pool.

According to an embodiment of the present invention, in the step S3, the molded mechanism further include: at least two installations Plate, two mounting plates are respectively arranged on the both ends of the lower die mounting portion and connect with the molding bottom die.

According to an embodiment of the present invention, in the step S3, by vacuumizing suction with what the lower die mounting portion was connect Slurry is attached on the molding bottom die by random structure, and the mounting plate is vacuumized equipped with multiple with described along its thickness direction The through-hole of adsorbing mechanism connection.

According to an embodiment of the present invention, it in the step S3, is installed by the lower die being connect with the lower die mounting portion Portion's driving assembly drives the lower die mounting portion to rotate along its axis direction.

According to an embodiment of the present invention, in the step S5, at least part and the slurry of the lower die mounting portion Slot is oppositely arranged, and is equipped with upper mold mounting portion in the top of the lower die mounting portion, the upper mold mounting portion is equipped with shaping upper Tool, the upper mold mounting portion in the horizontal direction, up and down direction it is movable, at least part of the upper mold mounting portion vertically side To when moving downward, at least part of the upper mold mounting portion and at least part of the lower die mounting portion cooperate to align A shaping workpiece above the stock tank is once suppressed, and at least another part of the upper mold mounting portion is along the vertical direction It moves downward, at least another part of the upper mold mounting portion and at least another part of the lower die mounting portion cooperate to align Another shaping workpiece in the slurry pool side carries out secondary compacting.

According to an embodiment of the present invention, the lower die mounting portion includes: the first lower die mounting portion, the first lower die peace Dress portion is set to the rack and is oppositely arranged with the stock tank, and the first lower die mounting portion can immerse the liquid of the slurry pool Below face or liquid level described in emersion is simultaneously far from the slurry pool；Second lower die mounting portion, the second lower die mounting portion are set to The rack and the side for being located at the slurry pool；The upper mold mounting portion includes: the first upper mold mounting portion, first upper mold Mounting portion is set to the rack and is located at the top of the lower die mounting portion；Second upper mold mounting portion, the second upper mold installation Portion is set to the rack and is located at the top of the lower die mounting portion, and the first upper mold mounting portion is in first position and second Movable in the horizontal direction between setting, the second upper mold mounting portion in the horizontal direction may be used between the second position and the third place Movement, when first upper mold installation position is when the first position, the first upper mold mounting portion and first lower die Mounting portion cooperation one shaping workpiece is once suppressed, second upper mold installation position in the second position and with The second lower die mounting portion cooperation carries out secondary compacting to another shaping workpiece；When first upper mold installation position in When the second position, first upper mold installation position is above the second lower die mounting portion and by a shaping workpiece The second position is delivered to from the first position, and second upper mold installation position is in the third place and by another institute It states shaping workpiece and is delivered to the third place from the second position.

According to an embodiment of the present invention, in the step S5, by respectively with the first upper mold mounting portion and described The shaping workpiece is fixed during conveying workpieces and unclamped in the blowing suction mechanism of second upper mold mounting portion connection.

According to an embodiment of the present invention, the production method based on high speed paper pulp model fully automatic forming machine, also Include: S6, the rack two sides be respectively equipped with the feed zone being oppositely arranged and discharge zone, the slurry pool is located at the charging Area, by the way that splicing component is arranged to receive the shaping workpiece for being located at the third place in discharge zone.

Additional aspect and advantage of the invention will be set forth in part in the description, and will partially become from the following description Obviously, or practice through the invention is recognized.

Detailed description of the invention

Above-mentioned and/or additional aspect of the invention and advantage will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:

Fig. 1 is the flow diagram of the production method of the high speed paper pulp model fully automatic forming machine of the embodiment of the present invention；

Fig. 2 is the external structure schematic diagram of the high speed paper pulp model fully automatic forming machine of the embodiment of the present invention；

Fig. 3 is that the lifting assembly of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention is located at elongation state Structural schematic diagram；

Fig. 4 is that the lifting assembly of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention is located at contraction state Structural schematic diagram；

Fig. 5 is the structural schematic diagram of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention；

Fig. 6 be high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention lower die mounting portion driving assembly and The assembly structure diagram of molded mechanism；

Fig. 7 is the sectional view of Fig. 6；

Fig. 8 is the slurry pool and slurry pool mounting plate of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention Assembly structure diagram；

Fig. 9 is the structural representation of an angle of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention Figure；

Figure 10 is that the structure of another angle of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention is shown It is intended to.

Figure 11 is that the structure of the blowing suction mechanism of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention is shown It is intended to；

Figure 12 is the structural schematic diagram of an angle of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention；

Figure 13 is the structural representation of the another angle of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention Figure；

Figure 14 is the structural schematic diagram of an angle of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention；

Figure 15 is the structural representation of the another angle of high speed paper pulp model fully automatic forming machine according to an embodiment of the present invention Figure.

Appended drawing reference:

High speed paper pulp model fully automatic forming machine 1000；

Rack 100；Feed zone 101；Discharge zone 102；Sliding rail 103；Connecting plate 104；

Molded mechanism 200；Mounting plate 201；Accommodating chamber 202；Positioning plate 203；Lower die mounting portion 204；Upper mold installation Portion 205；First lower die mounting portion 206；Second lower die mounting portion 207；First upper mold mounting portion 208；Second upper mold mounting portion 209；

Slurry pool 300；Opening 301；Stock tank 302；Slurry pool ontology 303；Otic placode 304；Bottom wall 305；Side wall 306；Side plate 307；Ventilation component 308；

Lifting assembly 400；It is oriented to axle installing plate 401；Guiding axis 402；Support plate 403；

Slurry pool mounting plate 500；

Vacuumizing and adsorbing mechanism 600；

Lower die mounting portion driving assembly 700；Hydraulic cylinder 701；Driving plate 702；Rotary shaft 703；First screw thread 704；The Two screw threads 705；Mounting base 706；Support base 707；

Blowing suction mechanism 800；Vacuum generating assembly 801；Air blowing component 802；Pressure-vaccum feed channel 803；Admission air valve component 804；Air blowing valve component 805；Vacuum air inlet pipe 806；Compressed air inlet pipe 807；Control piper 808；Oil water separator 809；First pressure-vaccum gas branch pipe 810；Second pressure-vaccum gas branch pipe 811；Ventilation end 812；Ventilation connecting tube 813；

Driving assembly 900；First drives upside down component 901；Second drives upside down component 902；

The production method 2000 of high speed paper pulp model fully automatic forming machine.

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, and for explaining only the invention, and is not considered as limiting the invention.

In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " be orientation based on the figure or Positional relationship is merely for convenience of description of the present invention and simplification of the description, rather than the device or element of indication or suggestion meaning must There must be specific orientation, be constructed and operated in a specific orientation, therefore be not considered as limiting the invention.In addition, limit There is the feature of " first ", " second " to can explicitly or implicitly include one or more of the features surely.Of the invention In description, unless otherwise indicated, the meaning of " plurality " is two or more.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in invention.

As shown in Figure 1, the production method according to an embodiment of the present invention based on high speed paper pulp model fully automatic forming machine 2000, comprising the following steps: S1, slurry is input in the slurry pool 300 of rack 100；S2, pass through lifting assembly 400 Driving slurry pool 300 is moved towards molded mechanism 200；At least two molding bottom dies in S3, molded mechanism 200 Successively immerse the liquid level of slurry pool 300 or less；Shaping upper tool in S4, molded mechanism 200 cooperates with molding bottom die, Molding bottom die compression moulding to slurry is adsorbed with；S5, the workpiece of compression moulding is delivered to 300 side of slurry pool.

The production method 2000 according to an embodiment of the present invention based on high speed paper pulp model fully automatic forming machine can as a result, Effectively improve productivity.

According to one embodiment of present invention, in step S2, lifting assembly 400 is set to rack 100 and can drive slurry Pond 300 is moved toward and away from molded 200 direction of mechanism.

In certain specific embodiments of the invention, in step S3, molded mechanism 200 includes: lower die mounting portion 204, at least two molding bottom dies for being spaced apart setting, the surface of each molding bottom die are installed on lower die mounting portion 204 For for molding type face, lower die mounting portion 204 can drive each molding bottom die immerse the liquid level of slurry pool 300 or less or Person's emersion liquid level and separate slurry pool 300.

Further, in step S3, molded mechanism 200 further include: at least two mounting plates 201, two mounting plates 201 are respectively arranged on the both ends of lower die mounting portion 204 and connect with molding bottom die.

Optionally, in step S3, slurry is adhered to by the vacuumizing and adsorbing mechanism 600 being connect with lower die mounting portion 204 On molding bottom die, mounting plate 201 is equipped with multiple through-holes being connected to vacuumizing and adsorbing mechanism 600 along its thickness direction.

According to one embodiment of present invention, in step S3, pass through the lower die mounting portion connecting with lower die mounting portion 204 204 driving assemblies drive lower die mounting portion 204 to rotate along its axis direction.

In certain specific embodiments of the invention, in step S5, at least part and stock tank of lower die mounting portion 204 302 are oppositely arranged, and are equipped with upper mold mounting portion 205 in the top of lower die mounting portion 204, upper mold mounting portion 205 is equipped in molding Mold, upper mold mounting portion 205 in the horizontal direction, up and down direction it is movable, at least part of upper mold mounting portion 205 vertically side To when moving downward, at least part of upper mold mounting portion 205 and at least part of lower die mounting portion 204 cooperate with to being located at One shaping workpiece of 302 top of stock tank is once suppressed, and at least another part of upper mold mounting portion 205 is downward along the vertical direction Movement, at least another part of upper mold mounting portion 205 and at least another part of lower die mounting portion 204 cooperate to positioned at slurry Another shaping workpiece of 300 side of pond carries out secondary compacting, can carry out the different processes of multiple workpiece simultaneously, improve production Efficiency.

Further, lower die mounting portion 204 includes: the first lower die mounting portion 204 and the second lower die mounting portion 204, upper mold Mounting portion 205 includes: the first upper mold mounting portion 208 and the first upper mold mounting portion 209.

Specifically, the first lower die mounting portion 204 is set to rack 100 and is oppositely arranged with stock tank 302, the first lower die mounting portion 204 can immerse the liquid level of slurry pool 300 or less or emersion liquid level simultaneously far from slurry pool 300, and the second lower die mounting portion 204 is set In rack 100 and positioned at the side of slurry pool 300, the first upper mold mounting portion 208 is set to rack 100 and is located at lower die mounting portion 204 top, the first upper mold mounting portion 209 are set to rack 100 and are located at the top of lower die mounting portion 204, the installation of the first upper mold Portion 208 is movable in the horizontal direction between the first position and the second position, and the first upper mold mounting portion 209 is in the second position and It is movable in the horizontal direction between three positions, when the first upper mold mounting portion 208 is located at first position, the first upper mold mounting portion 208 once suppress a shaping workpiece with the cooperation of the first lower die mounting portion 204, and the first upper mold mounting portion 209 is located at second Position and secondary compacting is carried out to another shaping workpiece with the cooperation of the second lower die mounting portion 204；When the first upper mold mounting portion 208 When the second position, the first upper mold mounting portion 208 is located at 204 top of the second lower die mounting portion and by a shaping workpiece from first It sets and is delivered to the second position, the first upper mold mounting portion 209 is located at the third place and conveys another shaping workpiece from the second position To the third place.

Optionally, in step S5, pass through what is connect respectively with the first upper mold mounting portion 208 and the first upper mold mounting portion 209 Blowing suction mechanism 800 is fixed during conveying workpieces and unclamps shaping workpiece.

According to one embodiment of present invention, the production method 2000 based on high speed paper pulp model fully automatic forming machine, also Include: S6, rack 100 two sides be respectively equipped with the feed zone 101 and feed zone 102 being oppositely arranged, slurry pool 300 is located at charging Area 101 further increases production by the way that splicing component is arranged to receive the shaping workpiece for being located at the third place in feed zone 102 Efficiency.

High speed paper pulp model fully automatic forming machine 1000 according to an embodiment of the present invention is specifically described with reference to the accompanying drawing.

As shown in Fig. 2 to Figure 15, high speed paper pulp model fully automatic forming machine 1000 according to an embodiment of the present invention includes machine Frame 100, slurry pool 300, molded mechanism 200, lifting assembly 400 and blowing suction mechanism 800.

Specifically, slurry pool 300 is set to rack 100, define in slurry pool 300 stock tank 302 with opening 301 with It is filled with slurry；Molded mechanism 200 is set to rack 100 and is located at 300 top of slurry pool, installs in molded mechanism 200 There is molding bottom die and be located above molding bottom die and shaping upper engaged therewith has, molding bottom die can immerse slurry Below the liquid level in pond 300 or emersion liquid level and far from slurry pool 300, shaping upper tool can be to being adsorbed under the molding of slurry Mold compression moulding；Lifting assembly 400 is set to rack 100 and connect with slurry pool 300, and lifting assembly 400 can drive slurry Pond 300 is moved toward and away from molded 200 direction of mechanism, blowing suction mechanism 800 be set to rack 100 and with molding Upper mold connection, blowing suction mechanism 800 can be by being used for towards shaping workpiece air-breathing with blowing fixed and unclamping molding work Part.

High speed paper pulp model fully automatic forming machine 1000 according to an embodiment of the present invention as a result, passes through matching for multiple mechanisms It closes, the automated job of machine may be implemented, simple to operate, transmission and high production efficiency are small in size.

High speed paper pulp model fully automatic forming machine according to an embodiment of the present invention is specifically described in conjunction with attached drawing first below 1000 lifting slurry pool 300 certainly.

As shown in Figures 3 to 5, according to an embodiment of the present invention to have the high speed paper pulp model from lifting slurry pool full-automatic Molding machine 1000, comprising: rack 100, molded mechanism 200, slurry pool 300 and lifting assembly 400.

Specifically, molded mechanism 200 is set to rack 100, slurry pool 300 is set to rack 100 and is located at and is molded as The lower section of type mechanism 200 defines the stock tank 302 with opening 301 in slurry pool 300 to be filled with slurry, and lifting assembly 400 is set It is connect in rack 100 and with slurry pool 300, lifting assembly 400 can drive slurry pool 300 toward and away from molding forming machine The movement of 200 direction of structure.

In other words, according to an embodiment of the present invention to have from the high speed paper pulp model fully automatic forming machine for going up and down slurry pool 1000 are mainly made of rack 100, molded mechanism 200, slurry pool 300 and lifting assembly 400, are equipped in rack 100 Model forming mechanism 20 is equipped with slurry pool 300 with matching in the lower section of model forming mechanism 20, in slurry pool 300 With stock tank 302, the opening 301 of stock tank 302 is equipped with lifting assembly in the lower section of slurry pool 300 towards molded mechanism 200 400, slurry pool 300 is able to drive by lifting assembly 400 and is moved up and down, molded efficiency is improved.

It is according to an embodiment of the present invention as a result, to have from the high speed paper pulp model fully automatic forming machine 1000 for going up and down slurry pool The device combined using rack 100, molded mechanism 200, slurry pool 300 and lifting assembly 400, can effectively reduce and set Standby volume, reduces production cost.

According to one embodiment of present invention, have from the high speed paper pulp model fully automatic forming machine for going up and down slurry pool 1000, slurry pool 300 includes: slurry pool ontology 303 and otic placode 304, and stock tank 302 is defined in slurry pool ontology 303, opening 301 towards molded mechanism 200, and otic placode 304 is set to the outer peripheral surface of slurry pool ontology 303 and connect with lifting assembly 400, just In connection and installation.

Further, the side of rack 100 is equipped with feed zone 101, and the other side of rack 100 is equipped with discharge zone 102, otic placode 304 and lifting assembly 400 be respectively arranged on slurry pool ontology 303 and close to feed zone 101, it is compact-sized.

In certain specific embodiments of the invention, slurry pool ontology 303 includes bottom wall 305 and side wall 306, side wall 306 are set to the periphery of bottom wall 305 and with bottom wall 305 enclose stock tank 302, are respectively equipped on side wall 306 and are connected to stock tank 302 Stock inlet and grout outlet.

Further, slurry pool ontology 303 further include: side plate 307, side plate 307 are formed as hollow ring and are set to stock tank 302。

According to one embodiment of present invention, slurry pool 300 further include: ventilation component 308, ventilation component 308 are set to slurry Slot 302 prevents from precipitating can mix slurry for the slurry air-blowing into stock tank 302, can be with by side plate 307 The fixed ventilation component 308 of installation.

Optionally, ventilation component 308 includes: snorkel and inflatable component, and snorkel is outside stock tank 302, snorkel It is equipped with venthole week, inflatable component is connected to be used to convey gas into snorkel with snorkel, easy to use.

In certain specific embodiments of the invention, lifting assembly 400 includes: lifting motor, lifting motor and slurry The connection of pond 300 is for driving slurry pool 300 to move.

Further, have from the high speed paper pulp model fully automatic forming machine 1000 for going up and down slurry pool further include: slurry pool Mounting plate 500, slurry pool mounting plate 500 are set to rack 100 and are located at the lower section of slurry pool 300；Lifting assembly 400 further include: Axle installing plate 401 and two guiding axis 402 are oriented to, guiding axle installing plate 401 is formed as " Fang " shape, is oriented to axle installing plate 401 One end connect with slurry pool mounting plate 500, the other end of guiding axle installing plate 401 is located at the lower section of otic placode 304, and two are oriented to Axis 402 is located at the two sides of lifting motor, and one end of each guiding axis 402 connect with one end of guiding axle installing plate 401, leads To axis 402 the other end with guiding axle installing plate 401 the other end connect, have many advantages, such as it is compact-sized, it is easy for installation.

Optionally, lifting assembly 400 further include: two support plates 403, two support plates 403 are respectively arranged on lifting motor Two sides, one end of each support plate 403 connect with one end of guiding axle installing plate 401, the other end of each support plate 403 and It is oriented to the other end connection of axle installing plate 401, can be improved structural compactness.

It is according to an embodiment of the present invention as a result, to have from the high speed paper pulp model fully automatic forming machine for going up and down slurry pool 1000, by driving slurry pool 300 to move up and down, equipment volume is reduced, reduces cost, and improve production efficiency.

High speed paper pulp model fully automatic forming machine 1000 according to an embodiment of the present invention is specifically described with reference to the accompanying drawing Convertible molded mechanism.

As shown in Fig. 6 to Figure 10, the high speed paper pulp die according to an embodiment of the present invention with convertible molded mechanism Type fully automatic forming machine 1000, comprising: rack 100, slurry pool 300 and molded mechanism 200, molded mechanism 200 are wrapped Include lower die mounting portion 21.

Specifically, slurry pool 300 is set to rack 100, define in slurry pool 300 stock tank 302 with opening 301 with Be filled with slurry, molded mechanism 200 is set to rack 100 and is located at 300 top of slurry pool, be equipped on lower die mounting portion 21 to Few two are spaced apart the molding bottom die of setting, and the surface of each molding bottom die is for molding type face, lower die mounting portion 21 can drive each molding bottom die to immerse the liquid level of slurry pool 300 or less or emersion liquid level and far from slurry pool 300.

In other words, the high speed paper pulp model according to an embodiment of the present invention with convertible molded mechanism automatically at Type machine 1000, mainly by rack 100, slurry pool 300 and molded mechanism 200, molded mechanism 200 is installed including lower die Portion 21 forms, and slurry pool 300 is equipped in rack 100, stock tank 302 is defined in slurry pool 300, is filled in stock tank 302 Slurry, slurry pool 300 have opening 301, and opening 301 is equipped at least on lower die mounting portion 21 towards molded mechanism 200 Two molding bottom dies, at least two molding bottom dies are spaced apart setting, can be used for forming by the surface of molding bottom die, Each lower forming mould block can be driven to immerse in the liquid level of slurry pool 300 or emersion by lower die mounting portion 21, at least two A forming surface can be formed successively, be improved work efficiency.

High speed paper pulp model full-automatic molding according to an embodiment of the present invention with convertible molded mechanism as a result, The device that machine 1000 is combined using rack 100, slurry pool 300 and molded mechanism 200, molded mechanism 200 include Lower die mounting portion 21 cooperates equipped at least two and slurry pool 300 on lower die mounting portion 21 and installs for molding lower die Portion 21 can not only reduce equipment volume, additionally it is possible to improve working efficiency.

As shown in fig. 6, according to one embodiment of present invention, the high speed paper pulp model with convertible molded mechanism Fully automatic forming machine 1000 further include: vacuumizing and adsorbing mechanism 600, vacuumizing and adsorbing mechanism 600 are set to rack 100 and and lower die Mounting portion 21 connects so that slurry is attached on molding bottom die, improves adsorption efficiency.

Optionally, molded mechanism 200 further include: at least two mounting plates 201, two mounting plates 201 are respectively arranged on The both ends of lower die mounting portion 21 and connect with molding bottom die, mounting plate 201 along its thickness direction be equipped with it is multiple with vacuumize suction The through-hole that random structure 600 is connected to.

In certain specific embodiments of the invention, lower die mounting portion 21 is formed as cube, two molding bottom dies It is respectively arranged on the both ends of lower die mounting portion 21.

According to one embodiment of present invention, with the high speed paper pulp model full-automatic molding of convertible molded mechanism Machine 1000, further includes: lower die mounting portion driving assembly 700, lower die mounting portion driving assembly 700 connect with lower die mounting portion 21 with For driving lower die mounting portion 21 to rotate along its axis direction.

Further, lower die mounting portion driving assembly 700 includes: hydraulic cylinder 701, driving plate 702 and rotary shaft 703, One end of driving plate 702 is connect with hydraulic cylinder 701, and hydraulic cylinder 701 can drive driving plate 702 to transport along its axis direction Dynamic, the upper surface of driving plate 702 is equipped with the first screw thread 704, and one end of rotary shaft 703 is connect for driving with lower die mounting portion 21 Dynamic lower die mounting portion 21 is rotated along the axis direction of rotary shaft 703, and the other end of rotary shaft 703 is circumferentially with and the first spiral shell along it The second screw thread 705 that line 704 cooperates, the length of the circumference of the other end of rotary shaft 703 are not more than the upper surface of driving plate 702 Length convenient for control rotation, and occupies small in size.

Optionally, lower die mounting portion driving assembly 700 further include: mounting base 706 and support base 707, mounting base 706 and machine The connection of frame 100 and the lower section for being located at driving plate 702, mounting base 706 are equipped with hydraulic cylinder 701, and support base 707 is pacified set on lower die 21 side of dress portion and rotary shaft 703 is sheathed on to be used to support rotary shaft 703.

According to one embodiment of present invention, lower die mounting portion 21 is sheathed on rotary shaft 703, and the quantity of support base 707 is Two, two support bases 707 are respectively arranged on the two sides of lower die mounting portion 21.

In certain specific embodiments of the invention, accommodating chamber 202, rotary shaft 703 are defined in lower die mounting portion 21 One end protrude into accommodating chamber 202, lower die mounting portion 21 further include: positioning plate 203, positioning plate 203 is set to accommodating chamber 202, fixed One end of position plate 203 is connect with the inner wall of lower die mounting portion 21, the other end of positioning plate 203 and the outer peripheral surface of rotary shaft 703 Only support.

High speed paper pulp model full-automatic molding according to an embodiment of the present invention with convertible molded mechanism as a result, Machine 1000 can not only reduce equipment volume, additionally it is possible to improve working efficiency, reduce production cost.

High speed paper pulp model fully automatic forming machine 1000 according to an embodiment of the present invention is specifically described with reference to the accompanying drawing Compact pipeline arrangement.

As shown in Figure 11 to Figure 13, the high speed paper pulp die according to an embodiment of the present invention with compact pipeline arrangement Type fully automatic forming machine 1000, comprising: rack 100, slurry pool 300, molded mechanism 200 and blowing suction mechanism 800.

Specifically, slurry pool 300 is set to rack 100, define in slurry pool 300 stock tank 302 with opening 301 with It is filled with slurry, molded mechanism 200 is set to rack 100 and is located at 300 top of slurry pool, installs in molded mechanism 200 There is molding bottom die and be located above molding bottom die and shaping upper engaged therewith has, molding bottom die can immerse slurry Below the liquid level in pond 300 or emersion liquid level and far from slurry pool 300, shaping upper tool can be to being adsorbed under the molding of slurry Mold compression moulding, blowing suction mechanism 800 are set to rack 100 and have with shaping upper and connect, and blowing suction mechanism 800 can pass through Towards shaping workpiece air-breathing and blow for fixing and unclamping shaping workpiece.

In other words, the high speed paper pulp model according to an embodiment of the present invention with compact pipeline arrangement automatically at Type machine 1000 is mainly made of rack 100, slurry pool 300, molded mechanism 200 and blowing suction mechanism 800, in rack 100 Be equipped with slurry pool 300, define stock tank 302 in slurry pool 300, the opening of stock tank 302 towards molded mechanism 200, Filled with slurry in stock tank 302, molded mechanism 200 includes mutually matched shaping upper tool and molding bottom die, molding Lower mold can go deep into stock tank 302, by shaping upper tool and molding bottom die cooperate, can by slurry compression moulding, By the blowing suction mechanism 800 with shaping upper tool connection, workpiece can be adsorbed and be unclamped, convenient for workpiece to be delivered to Next process.

High speed paper pulp model full-automatic molding according to an embodiment of the present invention with compact pipeline arrangement as a result, The device that machine 1000 is combined using rack 100, slurry pool 300, molded mechanism 200 and blowing suction mechanism 800, is molding 200 side of shaping mechanism is equipped with blowing suction mechanism 800, realizes the fixation and release for workpiece by blowing suction mechanism 800, when Suction adsorption workpiece can be utilized when air-breathing, convenient for the fixation and transfer of workpiece, can be disappeared, be unclamped using suction when blowing Workpiece blows and improves the rate that workpiece is detached from, and blowing suction mechanism 800 can be cooperated with molded mechanism 200, and being convenient for will The workpiece handling of forming does not need multiple process components, reduces equipment volume to next station.

According to one embodiment of present invention, blowing suction mechanism 800 includes: vacuum generating assembly 801, air blowing component 802 With pressure-vaccum feed channel 803.

Specifically, vacuum generating assembly 801 is set to 100 side of rack to vacuumize the fixed-type workpiece of air-breathing, air blowing group Part 802 is set to rack 100 and to blow unclamps shaping workpiece, one end of pressure-vaccum feed channel 803 respectively with vacuum generating assembly 801 and Air blowing component 802 is connected to, and the other end of pressure-vaccum feed channel 803 is towards shaping workpiece.

Further, vacuum generating assembly 801 includes multiple admission air valve components 804, one end of admission air valve component 804 It is connect with one end of pressure-vaccum feed channel 803；Air blowing component 802 includes: multiple Air blowing valve components 805, multiple Air blowing valve groups Part 805 is corresponded with multiple admission air valve components 804 respectively, and each Air blowing valve component 805 is set to each admission air valve group One end of 804 side of part, Air blowing valve component 805 is connect with one end of pressure-vaccum feed channel 803, Air blowing valve component 805 and suction Air valve door component 804 does not open simultaneously；High speed paper pulp model fully automatic forming machine further include: control unit, control unit difference It is connect with admission air valve component 804 and Air blowing valve component 805 for controlling admission air valve component 804 and Air blowing valve component 805 opening and closing.

Optionally, vacuum generating assembly 801 further include: vacuum air inlet pipe 806, one end of vacuum air inlet pipe 806 and a gas Potential source connection, the other end of vacuum air inlet pipe 806 are connect with the other end of admission air valve component 804；Air blowing component 802 also wraps Include: compressed air inlet pipe 807, compressed air inlet pipe 807 be set to 806 side of vacuum air inlet pipe and with vacuum air inlet pipe 806 Be arranged side by side, one end of compressed air inlet pipe 807 is connect with another pneumatic supply, the other end of compressed air inlet pipe 807 and The other end of Air blowing valve component 805 connects.

In certain specific embodiments of the invention, control unit includes: control piper 808 and oil water separator 809, One end of control piper 808 is connected to compressed air inlet pipe 807, and oil water separator 809 is set to control piper 808, grease point One end from device 809 is connected to outside atmosphere, and oil water separator 809 and vacuum generating assembly 801 are located at the two of rack 100 Side.

According to one embodiment of present invention, with the high speed paper pulp model full-automatic molding of compact pipeline arrangement Machine 1000, further includes: vacuumizing and adsorbing mechanism 600, vacuumizing and adsorbing mechanism 600 be set to rack 100 and respectively with molding lower die Tool and the connection of blowing suction mechanism 800 are so that slurry is attached on molding bottom die, it should be noted that vacuumizing and adsorbing mechanism 600 can be connected to blowing suction mechanism 800.

In certain specific embodiments of the invention, molded mechanism 200 includes: lower die mounting portion 204 and upper mold Mounting portion 205, lower die mounting portion 204 are set to rack 100 and are equipped with molding bottom die, and at least one of lower die mounting portion 204 Divide and be oppositely arranged with stock tank 302, upper mold mounting portion 205 is set to rack 100 and is located at the top of lower die mounting portion 204, upper mold peace Dress portion 205 be equipped with shaping upper tool, upper mold mounting portion 205 in the horizontal direction, up and down direction it is movable, upper mold mounting portion 205 At least part when moving downward along the vertical direction, at least part of upper mold mounting portion 205 with lower die mounting portion 204 extremely Few a part cooperation once to be suppressed the shaping workpiece for being located at 302 top of stock tank, upper mold mounting portion 205 at least separately A part moves downward along the vertical direction, and at least another part of upper mold mounting portion 205 is at least another with lower die mounting portion 204 Part cooperation is to carry out secondary compacting, the other end of pressure-vaccum feed channel 803 to another shaping workpiece for being located at 300 side of slurry pool It is connect with upper mold mounting portion 205 for fixing and unclamping shaping workpiece.

Further, lower die mounting portion 204 includes: the first lower die mounting portion 206 and the second lower die mounting portion 207, upper mold Mounting portion 205 includes: the first upper mold mounting portion 208 and the second upper mold mounting portion 209.

Specifically, the first lower die mounting portion 206 is set to rack 100 and is oppositely arranged with stock tank 302, the first lower die mounting portion 206 can immerse the liquid level of slurry pool 300 or less or emersion liquid level simultaneously far from slurry pool 300, and the second lower die mounting portion 207 is set In rack 100 and positioned at the side of slurry pool 300, the first upper mold mounting portion 208 is set to rack 100 and is located at lower die mounting portion 204 top, the second upper mold mounting portion 209 are set to rack 100 and are located at the top of lower die mounting portion 204, the installation of the first upper mold Portion 208 is movable in the horizontal direction between the first position and the second position, and the second upper mold mounting portion 209 is in the second position and It is movable in the horizontal direction between three positions, when the first upper mold mounting portion 208 is located at first position, the first upper mold mounting portion 208 once suppress a shaping workpiece with the cooperation of the first lower die mounting portion 206, and the second upper mold mounting portion 209 is located at second Position and secondary compacting is carried out to another shaping workpiece with the cooperation of the second lower die mounting portion 207；When the first upper mold mounting portion 208 When the second position, the first upper mold mounting portion 208 is located at 207 top of the second lower die mounting portion and by a shaping workpiece from first It sets and is delivered to the second position, the second upper mold mounting portion 209 is located at the third place and conveys another shaping workpiece from the second position To the third place；

Pressure-vaccum feed channel 803 includes: the first pressure-vaccum gas branch pipe 810 and the second pressure-vaccum gas branch pipe 811, the first pressure-vaccum gas branch pipe 810 one end is connect with vacuum generating assembly 801 and air blowing component 802 respectively, the other end of the first pressure-vaccum gas branch pipe 810 and One upper mold mounting portion 208 connection, one end of the second pressure-vaccum gas branch pipe 811 respectively with vacuum generating assembly 801 and air blowing component 802 Connection, the other end of the second pressure-vaccum gas branch pipe 811 are connect with the second upper mold mounting portion 209.

According to one embodiment of present invention, vacuum generating assembly 801, air blowing component 802 are located at the same of rack 100 Side.

In certain specific embodiments of the invention, pressure-vaccum feed channel 803 includes: multiple ventilation ends 812 and ventilation Connecting tube 813, multiple ventilation ends 812 are spaced apart setting, and towards shaping workpiece, ventilation connects for one end of each ventilation end 812 One end of adapter tube 813 is connected to the other end of ventilation end 812, the other end and the pressure-vaccum feed channel 803 of ventilation connecting tube 813 Other end connection.

High speed paper pulp model full-automatic molding according to an embodiment of the present invention with compact pipeline arrangement as a result, Machine 1000 sets compact for the pipeline of blowing suction mechanism 800 and is arranged in rack 100, not only reduces equipment volume, and And easy to repair and control, it improves work efficiency.

Below with reference to the accompanying drawings it is complete certainly to specifically describe the high speed paper pulp model according to an embodiment of the present invention for improving working efficiency Dynamic molding machine 1000.

As shown in Figure 14 and Figure 15, it is according to an embodiment of the present invention improve working efficiency high speed paper pulp model automatically at Type machine 1000, comprising: rack 100, slurry pool 300, lower die mounting portion 204 and upper mold mounting portion 205.

Specifically, slurry pool 300 is set to rack 100, defining in slurry pool 300 has opening 301 and filled with slurry Stock tank 302, lower die mounting portion 204 be set to rack 100 and be equipped with shaping upper tool, at least one of lower die mounting portion 204 Divide and be oppositely arranged with stock tank 302, upper mold mounting portion 205 is set to rack 100 and is located at the top of lower die mounting portion 204, upper mold peace Dress portion 205 be equipped with shaping upper tool, upper mold mounting portion 205 in the horizontal direction, up and down direction it is movable, upper mold mounting portion 205 At least part when moving downward along the vertical direction, at least part of upper mold mounting portion 205 with lower die mounting portion 204 extremely Few a part cooperation once to be suppressed the shaping workpiece for being located at 302 top of stock tank, upper mold mounting portion 205 at least separately A part moves downward along the vertical direction, and at least another part of upper mold mounting portion 205 is at least another with lower die mounting portion 204 Part cooperation is to carry out secondary compacting to another shaping workpiece for being located at 300 side of slurry pool.

According to one embodiment of present invention, lower die mounting portion 204 includes: the first lower die mounting portion 206 and the second lower die Mounting portion 207, upper mold mounting portion 205 include the first upper mold mounting portion 208 and the second upper mold mounting portion 209.

Specifically, the first lower die mounting portion 206 is set to rack 100 and is oppositely arranged with stock tank 302, the first lower die mounting portion 206 can immerse the liquid level of slurry pool or less or emersion liquid level and separate slurry pool, and the second lower die mounting portion 207 is set on rack 100 and be located at slurry pool side, the first upper mold mounting portion 208 be set to rack 100 and be located at lower die mounting portion 204 top, Second upper mold mounting portion 209 is set to rack 100 and is located at the top of lower die mounting portion 204, and the first upper mold mounting portion 208 is first Movable in the horizontal direction between position and the second position, the second upper mold mounting portion 209 is between the second position and the third place It is movable in the horizontal direction, when the first upper mold mounting portion 208 is located at first position, under the first upper mold mounting portion 208 and first A shaping workpiece is once suppressed in the cooperation of mould mounting portion 206, and the second upper mold mounting portion 209 is located at the second position and with second The cooperation of lower die mounting portion 207 carries out secondary compacting to another shaping workpiece；When the first upper mold mounting portion 208 is located at the second position When, the first upper mold mounting portion 208 is located at the top of the second lower die mounting portion 207 and a shaping workpiece is delivered to the from first position Two positions, the second upper mold mounting portion 209 are located at the third place and another shaping workpiece are delivered to the third place from the second position.

According to one embodiment of present invention, the high speed paper pulp model fully automatic forming machine 1000 of working efficiency is improved, also It include: blowing suction mechanism 800, blowing suction mechanism 800 is set to rack 100 and respectively and on the first upper mold mounting portion 208 and second Mould mounting portion 209 connects, and blowing suction mechanism 800 is capable of fixing and unclamps shaping workpiece, can conveying workpieces, prevent workpiece defeated It pitches during sending.

Further, blowing suction mechanism 800 includes: vacuum generating assembly 801, air blowing component 802 and pressure-vaccum feed channel 803, vacuum generating assembly 801 is set to rack 100, and air blowing component 802 is set to rack 100, and one end of pressure-vaccum feed channel 803 is distinguished It is connected to vacuum generating assembly 801 and air blowing component 802, the other end of pressure-vaccum feed channel 803 is respectively facing the installation of the first upper mold Shaping workpiece in portion 208 and the second upper mold mounting portion 209 unclamps molding work when blowing with the adsorption forming workpiece in air-breathing Part.

In certain specific embodiments of the invention, the high speed paper pulp model fully automatic forming machine of working efficiency is improved 1000, further includes: driving assembly 900, driving assembly 900 are connect for driving upper mold mounting portion 205 with upper mold mounting portion 205 In the horizontal direction, up and down direction moves.

Further, the high speed paper pulp model fully automatic forming machine 1000 of working efficiency is improved, further includes: 103 He of sliding rail Connecting plate 104, driving assembly 900 drive upside down component 901 and second including horizontal drive component, first and drive upside down component 902。

Specifically, sliding rail 103 is set to the top of rack 100 and horizontally extending, and connecting plate 104 is set to rack 100 And connect with sliding rail 103, connecting plate 104 be equipped with upper mold mounting portion 205, horizontal drive component connect with connecting plate 104 with It moves in being drivingly connected plate 104 along the extending direction of sliding rail 103, first drives upside down component 901 set on connecting plate 104 and with the One upper mold mounting portion 208 is connected to drive the first upper mold mounting portion 208 to move along the vertical direction, and second drives upside down component 902 It is connect set on connecting plate 104 and with the second upper mold mounting portion 209 to drive the second upper mold mounting portion 209 to move along the vertical direction.

Optionally, the first upper mold mounting portion 208 and the second upper mold mounting portion 209 are respectively formed as rectangular-shaped piece, and about first Driving assembly 901 and second drive upside down component 902 quantity be five, first drive upside down component 901 and about second drive Dynamic component 902 is located at the centre of the first upper mold mounting portion 208 and the second upper mold mounting portion 209, in other four first Lower driving assembly 901 and second drives upside down component 902 and is located at the first upper mold mounting portion 208 and the second upper mold mounting portion 209 four vertex, can be selected according to workpiece situation.

In certain specific embodiments of the invention, the high speed paper pulp model fully automatic forming machine of working efficiency is improved 1000, further include heating component, heating component connect respectively with the first upper mold mounting portion 208 and the second upper mold mounting portion 209 with Shaping workpiece is heated, workpiece shaping efficiency is improved.

According to one embodiment of present invention, the high speed paper pulp model fully automatic forming machine 1000 of working efficiency is improved, also It include: splicing component, splicing component is set to the third place to receive the shaping workpiece for being located at the third place, further increases work Efficiency.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are included at least one embodiment or example of the invention.In the present specification, to above-mentioned term Schematic representation may not refer to the same embodiment or example.Moreover, specific features, structure, material or the spy of description Point can be combined in any suitable manner in any one or more of the embodiments or examples.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that: not A variety of change, modification, replacement and modification can be carried out to these embodiments in the case where being detached from the principle of the present invention and objective, this The range of invention is defined by the claims and their equivalents.

Claims (10)

1. a kind of production method based on high speed paper pulp model fully automatic forming machine, which comprises the following steps:

S1, slurry is input in the slurry pool of rack；

S2, slurry pool is driven to move towards molded mechanism by lifting assembly；

At least two molding bottom dies in S3, the molded mechanism successively immerse the liquid level of the slurry pool or less；

Shaping upper tool in S4, the molded mechanism cooperates with the molding bottom die, to being adsorbed with described in slurry Molding bottom die compression moulding；

S5, the workpiece of compression moulding is delivered to slurry pool side.

2. the production method according to claim 1 based on high speed paper pulp model fully automatic forming machine, which is characterized in that institute It states in step S2, the lifting assembly is set to the rack and the slurry pool can be driven to be molded as toward and away from described The movement of type mechanism direction.

3. the production method according to claim 1 based on high speed paper pulp model fully automatic forming machine, which is characterized in that institute It states in step S3, the molded mechanism includes:

Lower die mounting portion is equipped at least two molding bottom dies for being spaced apart setting on the lower die mounting portion, each The surface of the molding bottom die is for molding type face, and the lower die mounting portion can drive each molding bottom die Immerse liquid level described in the liquid level of the slurry pool or less or emersion and far from the slurry pool.

4. the production method according to claim 3 based on high speed paper pulp model fully automatic forming machine, which is characterized in that institute It states in step S3, the molded mechanism further include:

At least two mounting plates, two mounting plates be respectively arranged on the both ends of the lower die mounting portion and with the molding lower die Tool connection.

5. the production method according to claim 4 based on high speed paper pulp model fully automatic forming machine, which is characterized in that institute It states in step S3, slurry is attached to by the molding bottom die by the vacuumizing and adsorbing mechanism connecting with the lower die mounting portion On, the mounting plate is equipped with multiple through-holes with the vacuumizing and adsorbing mechanism connection along its thickness direction.

6. the production method according to claim 4 based on high speed paper pulp model fully automatic forming machine, which is characterized in that institute It states in step S3, drives the lower die mounting portion along it by the lower die mounting portion driving assembly connecting with the lower die mounting portion Axis direction rotation.

7. the production method according to claim 3 based on high speed paper pulp model fully automatic forming machine, which is characterized in that institute It states in step S5, at least part and the stock tank of the lower die mounting portion are oppositely arranged, in the upper of the lower die mounting portion Side is equipped with upper mold mounting portion, and the upper mold mounting portion is equipped with shaping upper tool, and the upper mold mounting portion is in the horizontal direction, up and down Direction is movable, and when at least part of the upper mold mounting portion moves downward along the vertical direction, the upper mold mounting portion is extremely Few a part and at least part of the lower die mounting portion cooperate to carry out to the shaping workpiece being located above the stock tank Primary compacting, at least another part of the upper mold mounting portion move downward along the vertical direction, and the upper mold mounting portion is at least At least another part of another part and the lower die mounting portion cooperates to another molding work for being located at the slurry pool side Part carries out secondary compacting.

8. the production method according to claim 7 based on high speed paper pulp model fully automatic forming machine, which is characterized in that institute Stating lower die mounting portion includes:

First lower die mounting portion, the first lower die mounting portion are set to and the rack and are oppositely arranged with the stock tank, and described the One lower die mounting portion can immerse liquid level described in the liquid level of the slurry pool or less or emersion and far from the slurry pool；

Second lower die mounting portion, the second lower die mounting portion are set to the rack and are located at the side of the slurry pool；

The upper mold mounting portion includes:

First upper mold mounting portion, the first upper mold mounting portion are set to the rack and are located at the top of the lower die mounting portion；

Second upper mold mounting portion, the second upper mold mounting portion are set to the rack and are located at the top of the lower die mounting portion, The first upper mold mounting portion is movable in the horizontal direction between the first position and the second position, the second upper mold mounting portion It is movable in the horizontal direction between the second position and the third place, when first upper mold installation position is in the first position When, the first upper mold mounting portion once suppresses a shaping workpiece with the first lower die mounting portion cooperation, institute The second upper mold installation position is stated to cooperate in the second position and with the second lower die mounting portion to another shaping workpiece Carry out secondary compacting；When first upper mold installation position is when the second position, first upper mold installation position is in institute It states above the second lower die mounting portion and a shaping workpiece is delivered to the second position from the first position, described the Two upper mold installation positions are delivered to the third from the second position in the third place and by another shaping workpiece Position.

9. the production method according to claim 8 based on high speed paper pulp model fully automatic forming machine, which is characterized in that institute It states in step S5, is existed by the blowing suction mechanism being connect respectively with the first upper mold mounting portion and the second upper mold mounting portion The shaping workpiece is fixed and unclamped during conveying workpieces.

10. the production method according to claim 8 based on high speed paper pulp model fully automatic forming machine, which is characterized in that Further include:

S6, the rack two sides be respectively equipped with the feed zone being oppositely arranged and discharge zone, the slurry pool is located at the charging Area, by the way that splicing component is arranged to receive the shaping workpiece for being located at the third place in discharge zone.