CN204690510U - A kind of paper oar molding forming machine - Google Patents

A kind of paper oar molding forming machine Download PDF

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Publication number
CN204690510U
CN204690510U CN201520307978.2U CN201520307978U CN204690510U CN 204690510 U CN204690510 U CN 204690510U CN 201520307978 U CN201520307978 U CN 201520307978U CN 204690510 U CN204690510 U CN 204690510U
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CN
China
Prior art keywords
paper pulp
screw
patrix
vat
paper
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CN201520307978.2U
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Chinese (zh)
Inventor
王小建
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浙江舒康五金制品有限公司
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Priority to CN201520307978.2U priority Critical patent/CN204690510U/en
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Publication of CN204690510U publication Critical patent/CN204690510U/en

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Abstract

Paper oar molding forming machine disclosed in the utility model, comprises body and is located at the vat elevating mechanism on this body, transfer mold mechanism, counterdie travel mechanism, patrix screw-down and material receiving mechanism; Described vat elevating mechanism is for the formation of paper pulp box; Described transfer mold mechanism is used for the paper pulp box taken shape in vat elevating mechanism to be transferred to counterdie travel mechanism; Described counterdie travel mechanism is used for position paper pulp box being transferred to patrix screw-down place, and coordinates with patrix screw-down and carry out pressurization heat treatment to paper pulp box; Described patrix screw-down comprises upper die component and for driving lower mold assemblies to carry out the servo pressurized cylinder moved up and down, described servo pressurized cylinder is mechanically driver type structure.Which employs mechanical type to drive, it fundamentally solves the pollution problem in prior art existing for hydraulic-driven; Improve precision when this paper pulp model formation machine works and stability simultaneously, and reduce production cost while enhancing productivity.

Description

A kind of paper oar molding forming machine
Technical field
The utility model belongs to machinery manufacturing technology field, is specifically related to a kind of paper oar molding forming machine.
Background technology
Moulded paper pulp product utilizes mould to mould under paper pulp state, and it can be produced complex-shaped, accurate paper pulp box and be widely applied individual as packaging protective articles, has good development prospect.
At present, the existing equipment for taking shape in paper pulp box is all generally undertaken controlling by mechanical electronic hydraulic and pneumatic mode, and the control mode especially adopted for the control mode of pressurization sizing is all that hydraulic pressure or pneumohydraulic pressure-cylinder carry out driving.A lot of problem is there is in the paper pulp model formation machine that these two kinds of modes control in the use procedure used.
By the paper pulp model formation machine of hydraulic driving mode, because the paper pulp of existence to the operationally required preparation of this paper pulp model formation machine of hydraulic oil has the possibility causing and pollute.Particularly, paper pulp model formation machine is carry out work under the temperature environment of 150 DEG C ~ about 300 DEG C in pressurization sizing, can reduce the service life of seal, and then the leakage of initiation solution force feed is polluted.Like this paper pulp model formation machine of required manufacture food packaging articles is seemed particularly serious, there is serious environmental protection hidden danger.For this reason, need the measure carrying out narrow examination and restriction operation, make management cost high.
And the paper pulp model formation machine driven by pneumohydraulic pressure-cylinder, it needs the gas of at substantial in the process used, that is energy consumption is high, and owing to there being hydraulic oil in pressurized cylinder, also can there is hydraulic fluid leak, and then causes the preparation of pollution paper pulp; And pneumatic linear actuator is not easy to control, and a work step of needs, a work step carries out work successively, so just wastes the time, that is reduces the whole work efficiency of this paper pulp model formation machine.
Therefore, provide a kind of driving mechanism overcoming above-mentioned technical problem, pressurization sizing driving is carried out to paper pulp model formation machine and just seems particularly important.
Utility model content
The purpose of this utility model is to provide a kind of paper oar molding forming machine for solving the problems of the technologies described above.
A kind of paper oar molding forming machine, comprises body and is located at the vat elevating mechanism on this body, transfer mold mechanism, counterdie travel mechanism and patrix screw-down; Described vat elevating mechanism is for the formation of paper pulp box; Described transfer mold mechanism is used for the paper pulp box taken shape in vat elevating mechanism to be transferred to counterdie travel mechanism; Described counterdie travel mechanism is used for position paper pulp box being transferred to patrix screw-down place, and coordinates with patrix screw-down and carry out pressurization heat treatment to paper pulp box; Described patrix screw-down is mechanically driver type structure.
Preferably, described patrix screw-down comprises upper die component and servo pressurized cylinder, and described servo pressurized cylinder comprises cylinder body, the first ball-screw, screw, the first servomotor, the first reductor, the second servomotor and the second reductor; Described screw is connected with distance rod downwards by nut seat, and is connected with upper die component with this distance rod; The input of described first reductor is connected with the first servomotor, and output is connected with the first ball-screw, carries out rising or declining along the direction of the first ball-screw for driving distance rod; Described second servomotor is connected with described second reductor, and wherein, described second reductor is connected with the first reductor by clutch, moment of torsion when declining for increasing distance rod.
Preferably, described upper die component comprises the first guiding vent rod, pressure seat, upper heating plate and patrix; The distance rod that the side of described pressure seat is fixed in described servo pressurized cylinder is arranged, and opposite side and patrix fix; Described upper heating plate is arranged between described pressure seat and patrix, for heating patrix; Described first guiding vent rod is connected with pressure seat, upper heating plate and patrix downwards successively, and is undertaken capturing or putting down by inhaling the venting paper pulp box be opposite in patrix in the first guiding vent rod.
Preferably, described body comprises lathe bed, coupling bar and built-in beam, and described coupling bar is arranged perpendicular to lathe bed; Described built-in beam is arranged on described coupling bar one end away from described lathe bed, for shifting mold mechanism and patrix screw-down assembles.
Preferably, described vat elevating mechanism comprises vat, elevating mechanism and intermediate die, and described elevating mechanism is arranged on the both sides of vat by guide holder, moves up and down for driving vat; Described intermediate die is placed in vat and arranges, and can at the side on the surface shaping paper pulp box of this intermediate die away from vat.
Preferably, described transfer mold mechanism comprises servo screw-down, the second guiding vent rod, support, transfer die holder and transfer mould; Described servo screw-down is arranged on regularly by support on the built-in beam of described body, moves up and down for driving transfer die holder; Described transfer mould is arranged on the top of described vat elevating mechanism, and fixing on the bracket by transfer die holder; Described second guiding vent rod downwards successively with support, shift die holder and shift mould and be connected, and be opposite to by exitting toward suction in the second guiding vent rod the paper pulp box shifted in mould and carry out capturing or putting down.
Preferably, described counterdie travel mechanism comprises line slideway, servo deceleration machine, the second ball-screw, Mobile base, lower heating plate and counterdie; Described line slideway is arranged on the lathe bed of described body regularly; Described second ball-screw is connected with servo deceleration machine and Mobile base respectively, and drives Mobile base to move on line slideway by servo deceleration machine; Described Mobile base, lower heating plate and counterdie are connected and fixed successively.
Preferably, described paper oar molding forming machine comprises material receiving mechanism further, and described material receiving mechanism for accepting the paper pulp box via obtaining after patrix screw-down and the pressurization sizing of counterdie travel mechanism, and carries out discharging process to paper pulp box.
Preferably, described material receiving mechanism comprises material receiving, platform support, cylinder and hinged-support; Described material receiving is arranged on the Mobile base of described counterdie travel mechanism regularly by platform support, and outwards arranges relative to Mobile base; Described cylinder is connected with material receiving by hinged-support, and promotes material receiving by this cylinder and turn an angle, for carrying out discharging to paper pulp box.
Preferably, described paper pulp model formation machine comprises two groups of patrix screw-downs, counterdie travel mechanism and material receiving mechanism, and described two groups of patrix screw-downs, counterdie travel mechanism and material receiving mechanisms are arranged on the both sides of described vat elevating mechanism, be respectively used to carry out pressurization sizing and splicing, discharging process to paper pulp box.
Due to the application of technique scheme, the utility model has following beneficial effect:
Paper oar molding forming machine of the present utility model, by rational vibrational power flow, realizes the Mechanical Driven of this paper pulp model formation machine, so fundamentally solves the pollution problem in prior art existing for hydraulic-driven; Driven by servomotor simultaneously, improve precision when this paper pulp model formation machine complete machine works and stability, and reduce production cost while enhancing productivity.
Accompanying drawing explanation
Fig. 1 provides by the utility model preferred embodiment the structural representation of paper oar molding forming machine.
Fig. 2 is the structural representation of body in the utility model.
Fig. 3 is the structural representation of vat elevating mechanism in the utility model, and wherein said vat elevating mechanism is arranged on the middle inside of body lathe bed.
Fig. 4 is the structural representation of mould transfer device in the utility model, and wherein said mould transfer device is arranged on built-in beam, and is positioned at the top of vat elevating mechanism.
Fig. 5 is the structural representation of counterdie travel mechanism in the utility model, and wherein said counterdie travel mechanism is arranged on lathe bed.
Fig. 6 is the structural representation of patrix screw-down in the utility model, and wherein said patrix screw-down is arranged on built-in beam.
Fig. 7 is the structural representation of servo pressurized cylinder in Fig. 6.
Fig. 8 is the structural representation of material receiving mechanism in the utility model, and wherein said material receiving mechanism is arranged on the outside of counterdie travel mechanism.
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
In description of the present utility model, needs are understood, " the first servomotor " and " the second servomotor ", " the first reductor " and " the second reductor ", and " the first guiding vent rod " and " the second guiding vent rod ", and " the first ball-screw " and " the second ball-screw " is for ease of describing the utility model and simplified characterization, instead of refer to particular motor, reductor, guiding vent rod and ball-screw that this paper pulp model formation machine has.In addition, common saying " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.
Refer to Fig. 1, the paper oar molding forming machine 100 that the utility model preferred embodiment provides, comprise body 10 and be located at vat elevating mechanism 20 on this body 10, transfer mold mechanism 30, counterdie travel mechanism 40, patrix screw-down 50 and material receiving mechanism 60.
Refer to Fig. 2, described body 10 is the structural member of paper pulp model formation machine 100, and it comprises lathe bed 11, coupling bar 12 and built-in beam 13.Described coupling bar 12 is vertically arranged on lathe bed 11, and to be fixed with built-in beam 13 away from one end of lathe bed 11 at this coupling bar and to be connected, and is supported transfer mold mechanism 30 and patrix screw-down 50 by this built-in beam 13.Described lathe bed 11 is provided with vat elevating mechanism 20 and counterdie travel mechanism 40.
Be appreciated that; realize this paper pulp model formation machine 100 work schedule for obtaining paper pulp box; the present embodiment also can comprise a control system; and by this control system, vat elevating mechanism 20, transfer mold mechanism 30, counterdie travel mechanism 40, patrix screw-down 50 and material receiving mechanism 60 are controlled, paper pulp box is prepared in common cooperation realization.Particularly; described control system specifically can be set to numerical control operating platform (not shown); described numerical control operating platform is arranged on the side of described lathe bed regularly; and by man-machine interface automatically control vat elevating mechanism 20, transfer mold mechanism 30, counterdie travel mechanism 40, patrix screw-down 50 and material receiving mechanism 60 carry out work; realize the interlock between each mechanism, and then prepare and obtain paper pulp box.
Refer to Fig. 3, described vat elevating mechanism 20 is arranged on the middle part inside described lathe bed 11, for the formation of paper pulp box.Described vat elevating mechanism 20 comprises vat 21, elevating mechanism 22 and intermediate die 23, and described elevating mechanism 22 is arranged on the both sides of vat 21 by guide holder (not shown), moves up and down for driving vat 21; Described intermediate die 23 is placed in vat 21 and arranges.Described vat elevating mechanism 20 operationally, first can toward filling pulp liquor in vat 21, then by suction pump, the pulp liquor in vat 21 being drawn water process, specifically screen pack can being set to first drawing water from pulp liquor by the position be connected with vat 21 at suction pump; Pulp liquor in such vat 21 is after being drawn water, and the paper pulp contained in its pulp liquor will stick to the surface of the intermediate die 23 be placed in this vat 21, carries out defining paper pulp box.Be appreciated that, the concrete structure shape of described intermediate die 23 is equal to the paper pulp box shaped of required preparation when this paper pulp model formation machine 100 works, that is this paper pulp model formation machine 100 can prepare the paper pulp box of different structure shape by the intermediate die 23 of displacement different structure shape.
Described transfer mold mechanism 30 is arranged on the built-in beam 13 of described body 10 regularly; and this transfer mold mechanism 30 is specifically arranged on the top of described vat elevating mechanism 20, for the paper pulp box taken shape in vat elevating mechanism 20 is transferred to counterdie travel mechanism 40.
Refer to Fig. 4, described transfer mold mechanism 30 comprises servo screw-down 31, second guiding vent rod 32, support 33, transfer die holder 34 and transfer mould 35.Be appreciated that the profile of described transfer mould 35 is matched with paper pulp box and arranges, that is the intermediate die 23 in the profile of described transfer mould 35 and described vat elevating mechanism 20 matches and arranges.Described servo screw-down 31 is arranged on the built-in beam 13 of described body 10 regularly by support 33, moves up and down for driving transfer die holder 34.Be appreciated that; servo screw-down 31 in described transfer mold mechanism 30 specifically can be arranged on servomotor; the version of ball-screw, screw; under the driving of servomotor; specifically drive support 33 to move up and down by the transmission of ball-screw, screw, and then mobilization die holder 34 move up and down.Described transfer mould 35 is fixed on support 33 by transfer die holder 34; Described second guiding vent rod 32 downwards successively with support 33, shift die holder 34 and shift mould 35 and be connected, and be opposite to by exitting toward suction in the second guiding vent rod 32 the paper pulp box shifted in mould 35 and carry out capturing or putting down.
As from the foregoing, described second guiding vent rod 32 be the functional component that this transfer mold mechanism 30 pairs of paper pulp boxes specifically capture or put down, every root second lead vent rod 32 relative to paper pulp box be one act on fulcrum.In order to realize effective crawl of this transfer mold mechanism 30 pairs of paper pulp boxes or put down; the transfer mold mechanism 30 of the present embodiment includes many second guiding vent rods 32; and many second described guiding vent rods 32 are lived apart around servo screw-down 31; further; this transfer mold mechanism 30 includes 2 second guiding vent rods 32, and is symmetrical arranged relative to servo screw-down 31.
Refer to Fig. 5; described counterdie travel mechanism 40 is arranged on the lathe bed 11 of described body 10; for paper pulp box is transferred to the position at patrix screw-down 50 place from transfer mold mechanism 30, and coordinates with patrix screw-down 50 pressurization heat treatment is carried out to paper pulp box.
Refer to Fig. 5, described counterdie travel mechanism 40 comprises line slideway 41, servo deceleration machine 42, second ball-screw 43, Mobile base 44, lower heating plate 45 and counterdie 46.Described line slideway 41 is arranged on the lathe bed 11 of described body 10 regularly; Described second ball-screw 43 is connected with servo deceleration machine 42 and Mobile base 44 respectively, and drives Mobile base 44 to move on line slideway 41 by servo deceleration machine 42; Described Mobile base 44, lower heating plate 45 and counterdie 46 are connected and fixed successively, described lower heating plate 45 is for carrying out heat treated to counterdie 46, make this counterdie travel mechanism 40 operationally, drying and processing can be carried out to paper pulp box, and then reach the styling to paper pulp box.Be appreciated that described counterdie 46 is for accommodating paper pulp box, the formal structure shape of this counterdie 46 is matched with the setting of paper pulp box like this.
Refer to Fig. 6; described patrix screw-down 50 is arranged on the outside of described transfer mold mechanism 30; specifically be arranged on the built-in beam 13 of described body 10 regularly; and moving around up and down relative to counterdie travel mechanism 40 can be done; to coordinate with counterdie travel mechanism 40, realize the pressurization heat treatment to paper pulp box.
Described patrix screw-down 50 comprises and is matched with counterdie 46 in counterdie travel mechanism 40, to realize the upper die component 51 of pressurization sizing to paper pulp box, and carry out relative to counterdie travel mechanism 40 the servo pressurized cylinder 52 that moves up and down for driving lower mold assemblies 51 to do.
Be appreciated that, in order to realize the pressurization styling to paper pulp box, paper pulp model formation machine 100 of the present utility model requires that servo pressurized cylinder 52 is when driving lower mold assemblies 51 to carry out work, it not only will realize the rapid movement of lower mold assemblies 51, also will reach this lower mold assemblies 51 simultaneously and down move until contact the supercharging object can carrying out high pulling torque in counterdie travel mechanism 40 after counterdie 46.
Refer to Fig. 7, the servo pressurized cylinder 52 of the present embodiment is mechanically driver type structure, that is described servo pressurized cylinder 52 is the fast driving realizing lower mold assemblies 51 by machine driving, and the effect of high pulling torque supercharging.Particularly, described servo pressurized cylinder 52 comprises cylinder body 521, first ball-screw 522, screw 523, first servomotor 524, first reductor 525, second servomotor 526 and the second reductor 527.Wherein said screw 523 is connected with distance rod 529 downwards by nut seat 5231, and is connected with upper die component 51 with this distance rod 529, for specifically driving upper die component 51.The input of described first reductor 525 is connected with the first servomotor 524, output is connected with the first ball-screw 522, when this servo pressurized cylinder 52 works like this, under the drive of the first servomotor 524, by the transmission of the first ball-screw 522, screw 523, just can realize the driving to distance rod 529, realize distance rod 529 along the rising in the first ball-screw 522 direction or decline.To be appreciated that by the first servomotor 524 as power source is to drive rising or the decline of distance rod 529, just can to realize the rapid movement of this distance rod 524.Described second servomotor 526 is connected with described second reductor 527, wherein, described second reductor 527 is connected with the first reductor 527 by clutch 528, moment of torsion when declining for increasing distance rod 529, specifically for supercharging when this servo pressurized cylinder 52 works, when lower mold assemblies 51 is connected to patrix 46 in patrix travel mechanism 40, the second servomotor 526 can be opened, by the amalgamation of clutch 528, first servomotor 524 and the second servomotor 526 are acted on distance rod 529 jointly, and then achieve effect of high pulling torque supercharging of this servo pressurized cylinder 52.
Described upper die component 51 comprises the first guiding vent rod 511, pressure seat 512, upper heating plate 513 and patrix 514; The distance rod 528 that the side of described pressure seat 512 is fixed in described servo pressurized cylinder 52 is arranged, opposite side and patrix 514 fix, and described upper heating plate 513 is arranged between described pressure seat 512 and patrix 514, for heating patrix 514, make this upper die component 51 operationally, drying and processing can be carried out to paper pulp box, and then reach the styling to paper pulp box.Described first guiding vent rod 511 is connected with pressure seat 512, upper heating plate 513 and patrix 514 downwards successively, in such first guiding vent rod 511, the gas of institute's conducting just can directly act on the paper pulp box being placed in patrix 514, and is undertaken capturing or putting down by inhaling the venting paper pulp box be opposite in patrix in the first guiding vent rod 511.
Described material receiving mechanism 60 is arranged on the outside of counterdie travel mechanism 40 regularly, for accepting the paper pulp box via obtaining after patrix screw-down 40 and counterdie travel mechanism 50 pressurization sizing, and carries out discharging process to paper pulp box.
Refer to Fig. 8, described material receiving mechanism 60 material receiving 61, platform support 62, cylinder 63 and hinged-support 64; Described material receiving 61 is arranged on the Mobile base 44 of described counterdie travel mechanism 40 regularly by platform support 62, and outwards arranges relative to Mobile base 44, and wherein material receiving 61 and platform support 62 carry out hinged, and can rotate by opposed platforms support 62.This splicing structure 60 just can be followed counterdie travel mechanism 40 and moved around like this, and then realizes the paper pulp box that accepts in patrix screw-down 50, and the discharging from this paper pulp model formation machine 100 of paper pulp box is gone out.Described cylinder 63 is connected with material receiving 61 by hinged-support 64, this material receiving mechanism 60 is when carrying out work like this, can be turned an angle by the flexible material receiving 61 that promotes of this cylinder 63 expansion link, and the paper pulp being placed in material receiving 61 is due under gravity, meeting landing from material receiving 61, and then realize the discharging effect of this material receiving mechanism 60.
The paper pulp model formation machine 100 of the present embodiment operationally, first, perfusion pulp liquor in vat elevating mechanism 20 also makes pulp liquor not have intermediate die 23 in this vat elevating mechanism 20, by the pumping action of suction pump, the paper pulp contained in pulp liquor will adhere in intermediate die 23, and then defines paper pulp box.Being appreciated that paper pulp model formation machine 100 operationally, by carrying out different displacements to the structure of intermediate die 23, the different paper pulp boxes required for us can being prepared.Then, elevating mechanism 22 in described paper pulp elevating mechanism 20 will drive intermediate die 23 to rise, the transfer mold mechanism 30 be simultaneously assemblied in above this vat elevating mechanism 20 is started working, under the driving of servo screw-down 31, transfer mould 35 will decline until fit with the paper pulp box in intermediate die 23, then the second guiding vent rod 32 carries out work, by toward this second guiding vent rod 32 in air-breathing, achieve paper pulp box from the crawl intermediate die 23, then servo screw-down 31 drives transfer mould 35 to rise, realize the crawl effect to paper pulp box when this transfer mold mechanism 30 works.Afterwards; described counterdie travel mechanism 40 is under the driving of servo deceleration machine 42; Mobile base 44 is driven to move on line slideway 41; until be positioned at the below of transfer mold mechanism 30; then the decline operation that mold mechanism 30 repeats above-mentioned transfer mould 35 is shifted; the paper pulp box held is transferred on the counterdie 46 in counterdie travel mechanism 40, then by blowing in the second guiding vent rod 32, the paper pulp box inhaled on transfer mould 35 being blown and is placed on the counterdie 46 of counterdie travel mechanism 40.Then, the servo deceleration machine 42 in counterdie travel mechanism 40 works, and driving to put has the counterdie 46 of paper pulp box to move to the below of patrix screw-down 50.Then, the patrix 514 in patrix screw-down 50, under the driving of servo pressurized cylinder 52, coordinates the effect realizing shaping to the pressurization of paper pulp box with counterdie 46.Afterwards, in like manner in shifting the crawl of mold mechanism 30 pairs of paper pulp boxes or transferring, paper pulp box, by toward air-breathing in the first guiding vent rod 511, captures, then transfers on material receiving mechanism 60 by described patrix screw-down 50 from counterdie 46.Finally, received paper pulp box is carried out discharging process by material receiving mechanism 60.
In order to improve the operating efficiency of this paper pulp model formation machine 100 in concrete production process, paper pulp model formation machine 100 of the present utility model specifically can arrange two groups of patrix screw-downs 50 and material receiving mechanism 60, wherein often organize patrix screw-down 50 and material receiving mechanism 60 is lived apart in the both sides of vat elevating mechanism 20, and be equipped with a counterdie travel mechanism 40 to come paper pulp box mechanical energy pressurization sizing and splicing, discharging process.
Paper oar molding forming machine of the present utility model, by rational vibrational power flow, realize the Mechanical Driven of this paper pulp model formation machine, it fundamentally solves the pollution problem in prior art existing for hydraulic-driven; Driven by servomotor simultaneously, improve precision when this paper pulp model formation machine complete machine works and stability, and reduce production cost while enhancing productivity.
Be appreciated that, paper pulp model formation machine of the present utility model is in the process used, its vat elevating mechanism not necessarily will be arranged to lifting structure as above, can move down by adopting transfer mold mechanism, and by the mode of air-breathing, the paper pulp box taken shape in paper pulp elevating mechanism be taken out in paper pulp elevating mechanism, and counterdie travel mechanism as above not necessarily to be adopted to move horizontally for counterdie travel mechanism box patrix screw-down paper pulp box being carried out to pressurization sizing, patrix screw-down carries out the mode of lifting moving, also patrix travel mechanism can be adopted to carry out lifting moving, and patrix screw-down carries out the mode that moves horizontally, be appreciated that, can transfer in counterdie travel mechanism via transfer mold mechanism to make paper pulp box, transfer mold mechanism can be arranged to horizontal movable type structure adaptively, even transfer mold mechanism can be saved, the paper pulp box generated by paper pulp grass elevating mechanism is directly extracted by counterdie travel mechanism, then carry out pressurization with patrix screw-down machine to paper pulp box to shape.Of course, paper pulp model formation machine of the present utility model can omit material receiving mechanism, adopts artificial mode or transmission to bring and carries out splicing and discharging to paper pulp box.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a paper oar molding forming machine, is characterized in that: comprise body and be located at the vat elevating mechanism on this body, transfer mold mechanism, counterdie travel mechanism and patrix screw-down; Described vat elevating mechanism is for the formation of paper pulp box; Described transfer mold mechanism is used for the paper pulp box taken shape in vat elevating mechanism to be transferred to counterdie travel mechanism; Described counterdie travel mechanism is used for position paper pulp box being transferred to patrix screw-down place, and coordinates with patrix screw-down and carry out pressurization heat treatment to paper pulp box; Described patrix screw-down comprises upper die component and servo pressurized cylinder, and described servo pressurized cylinder is mechanically driver type structure, does moving up and down relative to counterdie travel mechanism for driving upper die component.
2. paper oar molding forming machine according to claim 1, is characterized in that: described servo pressurized cylinder comprises cylinder body, the first ball-screw, screw, the first servomotor, the first reductor, the second servomotor and the second reductor; Described screw is connected with distance rod downwards by nut seat, and is connected with upper die component with this distance rod; The input of described first reductor is connected with the first servomotor, and output is connected with the first ball-screw, carries out rising or declining along the direction of the first ball-screw for driving distance rod; Described second servomotor is connected with described second reductor, and wherein, described second reductor is connected with the first reductor by clutch, moment of torsion when declining for increasing distance rod.
3. the paper oar molding forming machine according to claims 1 or 2, is characterized in that: described upper die component comprises the first guiding vent rod, pressure seat, upper heating plate and patrix; The distance rod that the side of described pressure seat is fixed in described servo pressurized cylinder is arranged, and opposite side and patrix fix; Described upper heating plate is arranged between described pressure seat and patrix, for heating patrix; Described first guiding vent rod is connected with pressure seat, upper heating plate and patrix downwards successively, and is undertaken capturing or putting down by inhaling the venting paper pulp box be opposite in patrix in the first guiding vent rod.
4. paper oar molding forming machine according to claim 1, it is characterized in that: described body comprises lathe bed, coupling bar and built-in beam, described coupling bar is arranged perpendicular to lathe bed; Described built-in beam is arranged on described coupling bar one end away from described lathe bed, for shifting mold mechanism and patrix screw-down assembles.
5. paper oar molding forming machine according to claim 1, it is characterized in that: described vat elevating mechanism comprises vat, elevating mechanism and intermediate die, described elevating mechanism is arranged on the both sides of vat by guide holder, moves up and down for driving vat; Described intermediate die is placed in vat and arranges, and can at the side on the surface shaping paper pulp box of this intermediate die away from vat.
6. the paper oar molding forming machine according to claim 1 or 4, is characterized in that: described transfer mold mechanism comprises servo screw-down, the second guiding vent rod, support, transfer die holder and transfer mould; Described servo screw-down is arranged on regularly by support on the built-in beam of described body, moves up and down for driving transfer die holder; Described transfer mould is arranged on the top of described vat elevating mechanism, and fixing on the bracket by transfer die holder; Described second guiding vent rod downwards successively with support, shift die holder and shift mould and be connected, and be opposite to by exitting toward suction in the second guiding vent rod the paper pulp box shifted in mould and carry out capturing or putting down.
7. paper oar molding forming machine according to claim 1, is characterized in that: described counterdie travel mechanism comprises line slideway, servo deceleration machine, the second ball-screw, Mobile base, lower heating plate and counterdie; Described line slideway is arranged on described body regularly; Described second ball-screw is connected with servo deceleration machine and Mobile base respectively, and drives Mobile base to move on line slideway by servo deceleration machine; Described Mobile base, lower heating plate and counterdie are connected and fixed successively.
8. paper oar molding forming machine according to claim 7, it is characterized in that: described paper oar molding forming machine comprises material receiving mechanism further, described material receiving mechanism for accepting the paper pulp box via obtaining after patrix screw-down and the pressurization sizing of counterdie travel mechanism, and carries out discharging process to paper pulp box.
9. paper oar molding forming machine according to claim 8, is characterized in that: described material receiving mechanism comprises material receiving, platform support, cylinder and hinged-support; Described material receiving is arranged on the Mobile base of described counterdie travel mechanism regularly by platform support, and outwards arranges relative to Mobile base; Described cylinder is connected with material receiving by hinged-support, and promotes material receiving by this cylinder and turn an angle, for carrying out discharging to paper pulp box.
10. paper oar molding forming machine according to claim 1, it is characterized in that: described paper pulp model formation machine comprises two groups of patrix screw-downs, counterdie travel mechanism and material receiving mechanism, and described two groups of patrix screw-downs, counterdie travel mechanism and material receiving mechanisms are arranged on the both sides of described vat elevating mechanism, be respectively used to carry out pressurization sizing and splicing, discharging process to paper pulp box.
CN201520307978.2U 2015-05-12 2015-05-12 A kind of paper oar molding forming machine CN204690510U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104831590A (en) * 2015-05-12 2015-08-12 浙江舒康五金制品有限公司 Paper pulp molding forming machine
CN106049191A (en) * 2016-07-25 2016-10-26 佛山浩博环保制品有限公司 Integral overturning automat for molded pulp
WO2017165986A1 (en) * 2016-03-28 2017-10-05 诚宗环保科技(上海)有限公司 Automatic molding machine for molded product, manufacturing method, and finished product

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104831590A (en) * 2015-05-12 2015-08-12 浙江舒康五金制品有限公司 Paper pulp molding forming machine
CN104831590B (en) * 2015-05-12 2016-08-31 浙江舒康五金制品有限公司 A kind of paper pulp model formation machine
WO2017165986A1 (en) * 2016-03-28 2017-10-05 诚宗环保科技(上海)有限公司 Automatic molding machine for molded product, manufacturing method, and finished product
CN106049191A (en) * 2016-07-25 2016-10-26 佛山浩博环保制品有限公司 Integral overturning automat for molded pulp

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