CN208501400U - The first product forming machine of service plate - Google Patents

Abstract

The utility model discloses a kind of service plate just product forming machine, including wet blank forming machine structure, wet base mechanism for picking, rack, heating dry body upper die mechanism, heating dry body lower die mechanism and the first driver are to third driver.For wet blank forming machine structure loaded in rack, wet base mechanism for picking is sliding in rack and right above wet blank forming machine structure along short transverse；First driver is loaded on rack and wet base mechanism for picking is driven to do the movement toward or away from wet blank forming machine structure；Heating dry body lower die mechanism is along its length or width direction is slidedly arranged on rack, the position that the second driver is loaded in rack and heating dry body lower die mechanism is driven to slide to or slip away between wet blank forming machine structure and wet base mechanism for picking；Heating dry body upper die mechanism is slidedly arranged on rack along short transverse and is located at the surface of heating dry body lower die mechanism, and third driver is loaded on rack and heating dry body upper die mechanism is driven to do the movement toward or away from heating dry body lower die mechanism；Realize the purpose that slurries automatic moulding is gone out to service plate first product.

Description

The first product forming machine of service plate

Technical field

The utility model relates to a kind of service plate manufacturing field more particularly to a kind of the slurries automatic moulding of plant fiber is gone out The first product forming machine of the service plate of service plate first product.

Background technique

With the continuous development of economy and being constantly progressive for science and technology, substance extremely abundant is provided for people's lives The consumer goods, service plate are exactly many one of material consumer goods.

It is well known that be unableing to do without the wet base forming step of service plate in service plate production process, carrying out wet base after molding It is dry to form dry body (referred to as service plate first product) the step of and by dry body trimming to form service plate the step of.Wherein, in service plate The forming process of first product, since existing service plate first product molding equipment designs unreasonable and leads to the wet base for molding wet base Molding machine and dry body molding machine for wet base to be dried are two mutually independent machines, are separately mounted to different ground Side, so that disk meal first product molding equipment is formed in wet base and processed to wet base to form the continuity between dry body Difference, therefore have the defects that service plate first product Forming Quality difference and service plate first product shaping efficiency.

Therefore, it is necessary to provide a kind of service plate first product Forming Quality is good and service plate first product shaping efficiency is high service plate first product at Type machine overcomes above-mentioned defect.

Utility model content

It is good the purpose of this utility model is to provide a kind of service plate first product Forming Quality and service plate first product shaping efficiency is high The first product forming machine of service plate.

To achieve the above object, the technical solution of the utility model are as follows: provide a kind of first product forming machine of service plate, being applicable in will slurry Liquid molds service plate first product, including wet blank forming machine structure, wet base mechanism for picking, rack, heating dry body upper die mechanism, heating dry body Lower die mechanism, the first driver, the second driver and third driver.The wet blank forming machine structure is mounted on the rack, The wet base mechanism for picking is slidedly arranged in the rack along the short transverse of the rack, and the wet base mechanism for picking is also located at institute State the surface of wet blank forming machine structure；First driver is installed in the rack and for driving the wet base pickup machine Structure does the cooperative movement toward or away from the wet blank forming machine structure；Length of the heating dry body lower die mechanism along the rack Direction or width direction are slidedly arranged on the rack, and second driver is installed on the rack, and second driver is used for The position for driving the heating dry body lower die mechanism to slide to or slip away between the wet blank forming machine structure and the wet base mechanism for picking It sets；The heating dry body upper die mechanism is slidedly arranged on the rack along the short transverse of the rack and is located under the heating dry body The surface of mold mechanism, the third driver are installed on the rack and for driving the heating dry body upper die mechanism to move To or be moved away from it is described heating dry body lower die mechanism cooperative movement.

Preferably, the length direction of the heating dry body lower die mechanism and heating dry body upper die mechanism respectively along the rack is in The arrangement on one the first from left right side, the wet base mechanism for picking are located between the heating dry body upper die mechanism of the left and right, the wet base Shaping mechanism is located between the heating dry body lower die mechanism of the left and right.

Preferably, the width direction of the heating dry body lower die mechanism and heating dry body upper die mechanism respectively along the rack is in Arrangement one in front and one in back, the wet base mechanism for picking are located between the heating dry body upper die mechanism of front and back, the wet base Shaping mechanism is located between the heating dry body lower die mechanism of front and back.

Preferably, the wet blank forming machine structure includes that stock tank, stock inlet pipeline and wet base shaping mould, the stock tank are mounted on In the rack, the stock tank offers accommodating cavity, the slurry inlet of the accommodating cavity is flowed into for slurries and supplies the accommodating cavity Interior slurries waste water flows out the slurries wastewater outlet of the accommodating cavity, and the accent of the accommodating cavity is upwardly disposed, the stock inlet Pipe installing communicates on the stock tank and with the slurry inlet, and the wet base shaping mould is installed on the stock tank and is located at In the accommodating cavity, the wet base shaping mould also covers the slurries wastewater outlet, and the wet base shaping mould has outline The filtering shaping mold core unit of service plate shape；The wet base mechanism for picking includes that vacuum cavity and wet base pick up mould, the vacuum The vacuum port that cavity has vacuum chamber and is connected to the vacuum chamber, the vacuum chamber are formed in the inside of the vacuum cavity, The vacuum port is formed in the outside of the vacuum cavity, and the output end of first driver is connect with the vacuum cavity, The wet base picks up mould and is installed at the bottom end of the vacuum cavity, and the wet base, which picks up mold, the matching filtering shaping The wet base of mold core unit picks up mold core unit, and the wet base picks up mold core unit and offers the vacuum communicated with the vacuum chamber Hole.

Preferably, the stock tank has the separation plate being located in the accommodating cavity, the separation plate is by the accommodating Chamber is separated out accommodating cavity and lower accommodating cavity, and the separation plate offers avoiding space, and the avoiding space is connected on described Accommodating cavity and lower accommodating cavity, the wet base shaping mould are installed on the separation plate and cover the avoiding space, and described Filtering shaping mold core unit, which is stretched, to be placed in the avoiding space, and the slurry inlet is communicated with the upper accommodating cavity, the slurries Wastewater outlet is communicated with the lower accommodating cavity.

Preferably, the slurry inlet is located at the separation plate, the slurries wastewater outlet is located at the lower accommodating At the bottom of chamber.

Preferably, the heating dry body upper die mechanism includes upper cavity and heating dry body upper mold, the upper cavity is described in The short transverse of rack is slidedly arranged in the rack, and the output end of the third driver is connect with the upper cavity, described to add Hot dry body upper mold, which is installed at the bottom end of the upper cavity and has, matches the wet base that the wet blank forming machine structure is molded Upper surface upper mold core unit.

It is formed in the intracorporal upper vacuum chamber of the epicoele preferably, the upper cavity has and is formed in outside the upper cavity And the upper vacuum port communicated with the upper vacuum chamber, the upper mold core unit offer the upper vacuum communicated with the upper vacuum chamber Hole；The heating dry body upper mold has the upper heating chamber being formed in the heating dry body upper mold, is formed in the heating dry body Upper mold is outer and the upper heated inlet connector that is communicated with the upper heating chamber and be formed in outside the heating dry body upper mold and with it is described The upper heating exit connector that upper heating chamber communicates.

Preferably, the heating dry body lower die mechanism includes lower chamber and heating dry body lower die, the lower chamber is described in Rack level direction is slidedly arranged in the rack, and the output end of second driver is connect with the lower chamber, the heating Dry body lower die be installed at the top end part of the lower chamber and have match wet base that the wet blank forming machine structure is molded it The lower die core unit of lower surface.

It is formed in the intracorporal lower vacuum chamber of the cavity of resorption preferably, the lower chamber has and is formed in outside the lower chamber And the lower vacuum port communicated with the lower vacuum chamber, the lower die core unit offer the lower vacuum communicated with the lower vacuum chamber Hole；The heating dry body lower die has the lower heating chamber being formed in the heating dry body lower die, is formed in the heating dry body Lower die is outer and the lower heated inlet connector that is communicated with the lower heating chamber and be formed in outside the heating dry body lower die and with it is described The lower heating exit connector that lower heating chamber communicates.

Compared with prior art, the slurries of plant fiber are molded into wet base by wet blank forming machine structure；Then by first Driver drives wet base mechanism for picking to shift to wet blank forming machine structure and does molding cooperation with wet blank forming machine structure, to be picked up by wet base Mechanism is taken to pick up the wet base at wet blank forming machine structure, and so that picking up has the wet base of wet base to pick up under the driving of the first driver Mechanism is taken to move upward away from wet blank forming machine structure；Then, by the second driver drive heating dry body lower die mechanism slide onto wet base at Position between type mechanism and wet base mechanism for picking, the heating dry body lower die mechanism in the position are located at wet base mechanism for picking Underface, and it is located at the just only square of wet blank forming machine structure；And then, the wet base of pickup is placed in heating dry body by wet base mechanism for picking At lower die mechanism, the heating dry body lower die mechanism equipped with wet base is driven to slide onto heating dry body upper die mechanism again by the second driver Underface, finally, by third driver drive heating dry body upper die mechanism shift to heating dry body lower die mechanism and with heating it is dry Base lower die mechanism does conjunction cooperation, to be positioned and be clamped wet together with heating dry body upper die mechanism by heating dry body lower die mechanism Base, then positioning and the wet base clamped are thermally dried, so that wet base is heated to form dry body i.e. service plate first product, thus mention The Forming Quality of high service plate first product.Wherein, heating dry body lower die mechanism with heating dry body upper die mechanism together with to wet base positioning, Clamp and heating process in, do not interfere with wet blank forming machine structure and the work of wet base and wet molded to the slurries of plant fiber Base mechanism for picking is picked up work to wet base, and therefore, just product forming machine can improve service plate first product to the service plate of the utility model Shaping efficiency.

Detailed description of the invention

Fig. 1 is the schematic perspective view of the first product forming machine of service plate of the utility model.

Fig. 2 is the planar structure schematic diagram of the first product forming machine of service plate in main view direction of the utility model.

Fig. 3 is the schematic perspective view of the wet blank forming machine structure in the first product forming machine of service plate of the utility model.

Fig. 4 is schematic perspective view of the wet blank forming machine structure shown in Fig. 3 after hiding wet base shaping mould.

Fig. 5 is the stereochemical structure signal of wet one angle of base mechanism for picking in the first product forming machine of service plate of the utility model Figure.

Fig. 6 is the stereochemical structure signal of wet another angle of base mechanism for picking in the first product forming machine of service plate of the utility model Figure.

Fig. 7 is that the stereochemical structure of one angle of heating dry body upper die mechanism in the first product forming machine of service plate of the utility model is shown It is intended to.

Fig. 8 is the stereochemical structure of heating another angle of dry body upper die mechanism in the first product forming machine of service plate of the utility model Schematic diagram.

Fig. 9 is that the stereochemical structure of one angle of heating dry body lower die mechanism in the first product forming machine of service plate of the utility model is shown It is intended to.

Figure 10 is the three-dimensional knot of heating another angle of dry body lower die mechanism in the first product forming machine of service plate of the utility model Structure schematic diagram.

Specific embodiment

The embodiments of the present invention are described referring now to the drawings, similar element numbers represent similar member in attached drawing Part.

Fig. 1 and Fig. 2 is please referred to, just product forming machine 100 is used to form in the slurries of plant fiber the service plate of the utility model Service plate first product out carries out trimming processing to service plate first product for subsequent to form service plate finished product.Wherein, the service plate of the utility model First product forming machine 100 includes wet blank forming machine structure 10, wet base mechanism for picking 20, rack 30, heating dry body upper die mechanism 40, heating Dry body lower die mechanism 50, the first driver 60, the second driver 70 and third driver 80.Wet blank forming machine structure 10 is mounted on machine On frame 30, wet base mechanism for picking 20 is slidedly arranged in rack 30 along the short transverse (i.e. double-head arrow C direction) of rack 30, so that Wet base mechanism for picking 20 can opposite rack 30 do sliding up and down, wet base mechanism for picking 20 be also located at wet blank forming machine structure 10 just on Side, in order to which the relatively wet blank forming machine structure 10 of wet base mechanism for picking 20 does die open/close movement.First driver 60 is installed on rack It on 30 and is used to that wet base mechanism for picking 20 to be driven to do the cooperative movement toward or away from wet blank forming machine structure 10, is preferably, the One driver 60 is located at the surface of wet base mechanism for picking 20, drive of more conducively the first driver 60 to wet base mechanism for picking 20 Make, certainly, is located at the lower section of wet base mechanism for picking 20 according to actual needs, the first driver 60 need to be with wet base pickup machine at this time Structure 20 is staggered, with prevent the first driver 60 be in wet base mechanism for picking 20 underface and to wet base mechanism for picking 20 up and down Movement causes to stop, and for example, the first driver 60 is selected as oil cylinder to provide bigger power, certainly, according to practical need It wants and is selected as cylinder or other hydraulic cylinders, therefore be not limited.Dry body lower die mechanism 50 is heated along the length direction of rack 30 (i.e. double-head arrow A is signified) is slidedly arranged in rack 30, certainly, according to actual needs and along the width direction of rack 30 (i.e. double-head arrow B It is signified) it is slidedly arranged in rack 30, therefore be not limited.Second driver 70 is installed on rack 30, and the second driver 70 is for driving Make to heat the position that dry body lower die mechanism 50 is slided to or slipped away between wet blank forming machine structure 10 and wet base mechanism for picking 20, so that place Heating dry body lower die mechanism 50 in the position is located at the surface of wet base mechanism for picking 20, is also located at wet blank forming machine structure 10 Surface is preferably that the second driver 70 is selected as oil cylinder to provide bigger power, certainly, is selected according to actual needs It is selected as cylinder or other hydraulic cylinders.Heating dry body upper die mechanism 40 is slidedly arranged on rack 30 and is located at along the short transverse of rack 30 to be added The surface of hot dry body lower die mechanism 50 cooperates in order to heat the opposite heating dry body lower die mechanism 30 of dry body upper die mechanism 40 and do Die open/close movement.Third driver 80 be installed on rack 30 and for drive heating dry body upper die mechanism 40 do toward or away from The cooperative movement for heating dry body lower die mechanism 50 is preferably that third driver 80 is being located at heating dry body upper die mechanism 40 just Top, more conducively 80 pairs of third driver are heated driving for dry body upper die mechanism 40, certainly, are located at heating according to actual needs The lower section of dry body upper die mechanism 40, third driver 80 need to be staggered with heating dry body upper die mechanism 40 at this time, to prevent third from driving Dynamic device 80 is in the underface of heating dry body upper die mechanism 40 and causes to stop to moving up and down for dry body upper die mechanism 40 of heating, For example, third driver 80 is selected as oil cylinder to provide bigger power, certainly, is selected as cylinder according to actual needs Or other hydraulic cylinders, therefore be not limited.

In order to further improve the working efficiency of product forming machine 100 at the beginning of the service plate of the utility model, dry body lower die is heated Mechanism 50 and heating dry body upper die mechanism 40 are respectively in the arrangement on the first from left right side, wet base mechanism for picking 20 along the length direction of rack 30 Between the heating dry body upper die mechanism 40 of the left and right, wet blank forming machine structure 10 is located at the heating dry body of the left and right It between lower die mechanism 50, is preferably the corresponding third driver 80 of each heating dry body upper die mechanism 40, it is each to realize Heat the independently moving of dry body upper die mechanism 40, corresponding second driver 70 of each heating dry body lower die mechanism 50, with reality The now independently moving of each heating dry body lower die mechanism 50.It will be appreciated that according to actual needs, heating dry body lower die mechanism 50 And heating dry body upper die mechanism 40 can also be respectively along the width direction of rack 30 in arrangement one in front and one in back, wet base mechanism for picking 20 Between the heating dry body upper die mechanism 40 of front and back, wet blank forming machine structure 10 is located at the heating dry body of front and back Between lower die mechanism 50, therefore it is not limited.More specifically, as follows:

As shown in Figures 3 and 4, wet blank forming machine structure 10 includes stock tank 11, stock inlet pipeline 12 and wet base shaping mould 13；Slurry Pond 11 is mounted in rack 30, and stock tank 11 offers accommodating cavity 111, the slurry inlet 112 of accommodating cavity 111 is flowed into for slurries and is supplied The slurries wastewater outlet 113 of slurries waste water outflow accommodating cavity 111 in accommodating cavity 111；The accent of accommodating cavity 111 is upwardly disposed； Stock inlet pipeline 12 is mounted on stock tank 11, is preferably, stock inlet pipeline 12 is located at the bottom end of stock tank 11, in this way can be effective Ground gets up the bottom end space utilization of stock tank 11, prevents stock inlet pipeline 12 from causing lateral ruler because being installed on the side wall of stock tank 11 Very little increase, but not limited to this；Stock inlet pipeline 12 is also communicated with slurry inlet 112.Wet base shaping mould 13 is installed on stock tank 11 And be located in accommodating cavity 111, wet base shaping mould 13 also covers slurries wastewater outlet 113, and wet base shaping mould 13 has outline The filtering shaping mold core unit 131 of service plate shape is preferably that filtering shaping mold core unit 131 is disk-shaped, as disc without It is limited to this, the slurries wastewater outlet so that the slurries in accommodating cavity 111 just flow back after the filtering of filtering shaping mold core unit 131 At 113.Specifically, stock tank 11 has the separation plate 14 being located in accommodating cavity 111, separates plate 14 and separates accommodating cavity 111 Upper accommodating cavity 111a and lower accommodating cavity 111b out separates plate 14 and offers avoiding space 141, holds in the connection of avoiding space 141 Chamber 111a and lower accommodating cavity 111b are set, i.e., upper accommodating cavity 111a is connected by avoiding space 141 with lower accommodating cavity 111b；Wet base Shaping mould 13, which is installed on, separates on plate 14 and covers avoiding space 141, and filtering shaping mold core unit 131 is stretched and is placed in evacuation sky Between in 141, slurry inlet 112 is communicated with upper accommodating cavity 111a, and slurries wastewater outlet 113 is communicated with lower accommodating cavity 111b, thus by By separation plate 14, the upper accommodating cavity 111a that the two connection is realized by avoiding space 141 that accommodating cavity 111 is separated out is under Accommodating cavity 111b, therefore after slurries flow into upper accommodating cavity 111a by slurry inlet 112, then filtering shaping mold core unit 131 is flowed to, It is filtered by the slurries that filtering shaping mold core unit 131 carrys out upper accommodating cavity 111a stream, so that remaining after being filtered in slurries Waste water flow into lower accommodating cavity 111b, and the plant fiber that cannot be filtered in slurries is just slowly deposited on filtering shaping mold core Formation wet blank in unit 131；The remaining waste water flowed into lower accommodating cavity 111b flows out stock tank 11 by slurries wastewater outlet 113 again With recycling, therefore, lower accommodating cavity 111b first can temporarily be stored waste water, correspondingly extend filtering shaping mold core unit The filtration time of 131 pairs of slurries, to improve the Forming Quality of wet base, but not limited to this.More specifically, such as Fig. 3 and Fig. 4 Shown, slurry inlet 112, which is located at, to be separated at plate 14, and slurries wastewater outlet 113 is located at the bottom of lower accommodating cavity 111b, in this way Design can effectively extend the flowing time of slurries, to promote the Forming Quality of wet base.Specifically, avoiding space 141 is along slurry The length direction in pond 11 is arranged in rows, and certainly, according to actual needs and the width direction along stock tank 11 is arranged in rows, therefore not with this It is limited；And filtering shaping mold core unit 131 is in downwardly projecting arrangement, is more reliably contained in avoiding space 141, but unlimited In this.

Wherein, during wet blank forming machine structure 10 is molding to wet base, extraneous slurries are along 12 He of stock inlet pipeline Slurry inlet 112 flows into accommodating cavity 111, then is filtered into after pattern core unit 131 filters and flows to slurries wastewater outlet 113, It is recycled by slurries wastewater outlet 113 to by the waste water in slurries, and the plant fiber not filtered in slurries is just slowly It is deposited at filtering shaping mold core unit 131 to mold wet base, thus it is good to improve wet base Forming Quality；Just due to wet base at Type mechanism 10 can mold wet base by the cooperation of stock tank 11, stock inlet pipeline 12 and wet base shaping mould 13, therefore also have knot The simple advantage of structure.

As shown in Figures 5 and 6, wet base mechanism for picking 20 includes that vacuum cavity 21 and wet base pick up mould 22；Vacuum cavity 21 With vacuum chamber and the vacuum port being connected to vacuum chamber 211, vacuum chamber is formed in the inside of vacuum cavity 21,211 shape of vacuum port At in the outside of vacuum cavity 21, in order to which vacuum cavity 21 is connected to external vacuum generating device (such as vacuum pump)；First The output end of driver 60 is connect to drive vacuum cavity 21 to move up and down with vacuum cavity 21；Wet base picks up mould 22 and is installed on very At the bottom end of cavity body 21, wet base picks up mould 22, and there is the wet base of matching filtering shaping mold core unit 131 to pick up mold core unit 221, it is preferably that wet base pickup mold core unit 221 is disk-shaped, and as without being limited thereto such as disc, wet base picks up mold core unit 221 Offer the vacuum hole communicated with vacuum chamber；Therefore at filtering shaping mold core unit 131 wet base pick up when, at this time first Driver 60 drives the wet base on vacuum cavity 21 and vacuum cavity 21 to pick up mold core unit 22 and shifts to filtering shaping mold core together Unit 131, until wet base, which picks up mold core unit 221, to be bonded with the wet base on filtering shaping mold core unit 131, at this point, outside Boundary's vacuum generating device work, so that wet base, which picks up, forms negative pressure at mold core unit 221, to be picked up by the wet base of formation negative pressure Mold core unit 221 catches away wet base from filtering shaping mold core unit 131, realizes wet base mechanism for picking 20 by wet blank forming machine structure 10 The purpose that the wet base at place picks up.

As shown in Figures 7 and 8, heating dry body upper die mechanism 40 includes upper cavity 41 and heating dry body upper mold 42.Upper cavity 41 are slidedly arranged in rack 30 along the short transverse of rack 30, enable upper cavity 41 with respect to 30 oscilaltion of rack；Specifically, on The surrounding corner on the top of cavity 41 is respectively equipped with along guide post 43 up and down of the short transverse arrangement of rack 30, and rack 30 is corresponding Ground is equipped with guide sleeve 31 up and down, and upper and lower guide post 43 is in being slidably placed through in guide sleeve 31 up and down, so that four round angles of upper cavity 41 Support of the place by rack 30 is fallen, so that upper cavity 41 can be suspended in more stable and reliablely in rack 30, improves upper cavity The reliability of about 41 slidings, but not limited to this.The output end of third driver 80 is connect with upper cavity 41, is preferably, the Three drivers 80 are surrounded by the guide post up and down 43 of the surrounding corner on the top of upper cavity 41 from surrounding, and third driver 80 selects Be oil cylinder to provide bigger power, certainly, be selected as cylinder or other hydraulic cylinder according to actual needs, thus not as Limit.Heating dry body upper mold 42 is installed at the bottom end of upper cavity 41 and is molded with the wet blank forming machine structure 10 of matching wet The upper mold core unit 421 of surface profile on base.Specifically, upper cavity 41 have the upper vacuum chamber that is formed in upper cavity 41 and It is formed in the upper vacuum port 411 that upper cavity 41 is outer and communicates with upper vacuum chamber, upper mold core unit 421 offers and upper vacuum chamber phase Logical upper vacuum hole, to make upper mold core unit by upper vacuum port 411 and extraneous vacuum generating device (such as vacuum pump) Negative pressure is formed at 421 upper vacuum hole, therefore can carry out vacuum suction to the upper surface of wet base in wet base heating process, into one Prevent wet base from deforming in heating process to step, accordingly ensure that wet base is transformed into the quality of dry body, but not limited to this；Meanwhile Heating dry body upper mold 42 have the upper heating chamber being formed in heating dry body upper mold 42, be formed in heating dry body upper mold 42 it is outer and with Upper heated inlet connector 422 that upper heating chamber communicates and be formed in outer heating dry body upper mold 42 and communicated with upper heating chamber upper plus Hot outlet connection 423, with by the cooperation of upper heating chamber, upper heated inlet connector 422 and upper heating exit connector 423, so that Heating oil in upper heating chamber adds hot-oil circulation to get up with extraneous, so as to continuously provide heating dry body upper mold 42 Heating energy source improves the speed and efficiency of wet base conversion dry body, and but not limited to this.

As shown in FIG. 9 and 10, heating dry body lower die mechanism 50 includes lower chamber 51 and heating dry body lower die 52；Lower chamber 51 are slidedly arranged in rack 30 along 30 horizontal direction of rack, enable lower chamber 51 with respect to the horizontal sliding of rack 30；Second driving The output end of device 70 is connect with lower chamber 51, is preferably, the second driver 70 is oil cylinder to provide bigger power, certainly, It is selected as cylinder or other hydraulic cylinders according to actual needs, therefore is not limited.Heating dry body lower die 52 is installed on cavity of resorption At the top end part of body 51 and there is the lower die core unit for matching surface profile under the wet base that wet blank forming machine structure 10 is molded 521.Specifically, lower chamber 51 there is the lower vacuum chamber that is formed in lower chamber 51 and be formed in lower chamber 51 it is outer and with lower vacuum The lower vacuum port 511 that chamber communicates, lower die core unit 521 offers the lower vacuum hole communicated with lower vacuum chamber, by lower vacuum Mouthfuls 511 with extraneous vacuum generating device (such as vacuum pump) and to form negative pressure at the lower vacuum hole of lower die core unit 521, therefore Vacuum suction can be carried out to the lower surface of wet base in wet base heating process, further prevent wet base from becoming in heating process Shape, accordingly ensure that wet base is transformed into the quality of dry body (i.e. service plate first product), but not limited to this.Meanwhile heating dry body lower die 52 With the lower heating chamber being formed in heating dry body lower die 52, it is formed in what heating dry body lower die 52 communicated outside and with lower heating chamber Lower heated inlet connector 522 and it is formed in the lower heating exit connector 523 that heating dry body lower die 52 is outer and communicates with lower heating chamber, With by the cooperation of lower heating chamber, lower heated inlet connector 522 and lower heating exit connector 523 so that in lower heating chamber plus Hot oil adds hot-oil circulation to get up with extraneous, so as to continuously provide heating energy source to heating dry body lower die 25, improves The speed and efficiency of wet base conversion dry body, but not limited to this.

Wherein, by the cooperation of heating dry body upper die mechanism 40 and heating dry body lower die mechanism 50, therefore to wet base During heat drying is to form dry body, driving heating dry body lower die mechanism 50 to slide by the second driver 70 picks up wet base The wet base of mechanism 20 picks up mold core unit 221 and heats the 521 face position of lower die core unit of dry body lower die mechanism 50, then by the One driver 60, which drives wet base mechanism for picking 20 to slide onto downwards, makes wet base pick up mold core unit 221 and 521 phase of lower die core unit The position of molding, at this time extraneous vacuum generating device break-off lose so that wet base be made to pick up mold core unit 221 to wet base Vacuum suction and be carried on wet base at lower die core unit 521；When wet base is carried at lower die core unit 521, at this time One driver 60, which drives wet base mechanism for picking 20 to slide onto upwards, makes wet base pick up mold core unit 221 and 521 phase of lower die core unit Until separation, then, driving heating dry body lower die mechanism 50 to slide by the second driver 70 makes lower die core unit 521 and upper mold 421 face position of core unit, at this point, driving heating dry body upper die mechanism 40 to slide onto downwards by third driver 80 makes upper mold core Until unit 421 is molded with 521 phase of lower die core unit, realization determines wet base by upper mold core unit 421 and lower die core unit 521 Position and clamping action；At the same time, when upper mold core unit 421 and lower die core unit 521 are positioned and clamped, by upper vacuum port 411 with extraneous vacuum generating device (such as vacuum pump) and to form negative pressure at the upper vacuum hole of upper mold core unit 421, with right The upper surface of wet base carries out vacuum suction and positions, by upper heating chamber, upper heated inlet connector 422 and upper heating exit connector 423 cooperation is heated with the upper surface of wet base；Equally, (such as by lower vacuum port 511 and extraneous vacuum generating device Vacuum pump) and to form negative pressure at the lower vacuum hole of lower die core unit 521, with the lower surface progress vacuum suction to wet base Positioning, by lower heating chamber, the cooperation of lower heated inlet connector 522 and lower heating exit connector 523, with the lower surface of wet base into Row heating.

Compared with prior art, the slurries of plant fiber are molded into wet base by wet blank forming machine structure 10；Then by One driver 60 drives wet base mechanism for picking 20 to shift to wet blank forming machine structure 10 and does molding cooperation with wet blank forming machine structure 10, from And the wet base of wet blank forming machine structure 10 is picked up by wet base mechanism for picking 20, and so that picking up under the driving of the first driver 60 The wet base mechanism for picking 20 of wet base is taken to move upward away from wet blank forming machine structure 10；Then, drive heating dry by the second driver 70 Base lower die mechanism 50 slides onto the position between wet blank forming machine structure 10 and wet base mechanism for picking 20, and the heating in the position is dry Base lower die mechanism 50 is located at the underface of wet base mechanism for picking 20, and is located at the just only square of wet blank forming machine structure 10；And then, wet The wet base of pickup is placed at heating dry body lower die mechanism 50 by base mechanism for picking 20, is driven again by the second driver 70 equipped with wet base Heating dry body lower die mechanism 50 slide onto heating dry body upper die mechanism 40 underface, finally, being driven by third driver 80 Heating dry body upper die mechanism 40 shifts to heating dry body lower die mechanism 50 and does conjunction cooperation with heating dry body lower die mechanism 50, thus by Heating dry body lower die mechanism 50 positions together and clamps wet base with heating dry body upper die mechanism 40, then to positioning and the wet base clamped It is thermally dried, so that wet base is heated to form dry body i.e. service plate first product, thus improves the Forming Quality of service plate first product.Its In, wet base is positioned together with heating dry body upper die mechanism 40, in clamping and heating process in heating dry body lower die mechanism 50, no Work and wet base mechanism for picking 20 that wet blank forming machine structure 10 molds wet base to the slurries of plant fiber are influenced to wet base It is picked up work, therefore, just product forming machine 100 can improve the shaping efficiency of service plate first product to the service plate of the utility model.

The person of being worth noting, when product forming machine 100 and a controller 90 are electrically connected at the beginning of the service plate of the utility model, by controlling Device 90 processed removes control service plate just product forming machine 100, the mesh of the automated job of product forming machine 100 at the beginning of to realize service plate by programming 's.

Upper disclosed is only the preferred embodiment of the utility model, cannot limit the utility model certainly with this Interest field, therefore equivalent variations made according to the patent scope of the utility model still belongs to what the utility model was covered Range.

Claims (10)

1. a kind of first product forming machine of service plate, is applicable in slurries molding service plate first product, which is characterized in that the service plate first product molding Machine includes wet blank forming machine structure, wet base mechanism for picking, rack, heating dry body upper die mechanism, heating dry body lower die mechanism, the first drive Dynamic device, the second driver and third driver, the wet blank forming machine structure are mounted on the rack, the wet base mechanism for picking Short transverse along the rack is slidedly arranged in the rack, and the wet base mechanism for picking is also located at the wet blank forming machine structure Surface, first driver are installed in the rack and for driving the wet base mechanism for picking to do toward or away from institute The cooperative movement of wet blank forming machine structure is stated, the heating dry body lower die mechanism is sliding along the length direction or width direction of the rack Set on the rack, second driver is installed on the rack, and second driver is for driving the heating dry body The position that lower die mechanism is slided to or slipped away between the wet blank forming machine structure and the wet base mechanism for picking, on the heating dry body Mold mechanism is slidedly arranged on the rack along the short transverse of the rack and is located at the surface of the heating dry body lower die mechanism, institute It states third driver and is installed on the rack and for driving the heating dry body upper die mechanism to do toward or away from the heating The cooperative movement of dry body lower die mechanism.

2. the first product forming machine of service plate according to claim 1, which is characterized in that the heating dry body lower die mechanism and heating Dry body upper die mechanism respectively along the length direction of the rack be in a first from left right side arrangement, the wet base mechanism for picking be located at left with Between the heating dry body upper die mechanism of right, the wet blank forming machine structure be located at the left and right heating dry body lower die mechanism it Between.

3. the first product forming machine of service plate according to claim 1, which is characterized in that the heating dry body lower die mechanism and heating Dry body upper die mechanism respectively along the width direction of the rack in arrangement one in front and one in back, the wet base mechanism for picking be located at front with Between the heating dry body upper die mechanism at rear, the wet blank forming machine structure be located at front and back heating dry body lower die mechanism it Between.

4. service plate according to claim 1 just product forming machine, which is characterized in that the wet blank forming machine structure include stock tank, Stock inlet pipeline and wet base shaping mould, the stock tank are mounted on the rack, and the stock tank offers accommodating cavity, for slurry stream Enter the slurry inlet of the accommodating cavity and flow out the slurries wastewater outlet of the accommodating cavity for the slurries waste water in the accommodating cavity, The accent of the accommodating cavity is upwardly disposed, and the stock inlet Pipe installing communicates on the stock tank and with the slurry inlet, The wet base shaping mould is installed on the stock tank and is located in the accommodating cavity, and the wet base shaping mould also covers the slurries Wastewater outlet, the wet base shaping mould have the filtering shaping mold core unit of outline service plate shape；The wet base pickup machine Structure is comprising vacuum cavity and wet base pickup mould, the vacuum port that the vacuum cavity has vacuum chamber and is connected to the vacuum chamber, The vacuum chamber is formed in the inside of the vacuum cavity, and the vacuum port is formed in the outside of the vacuum cavity, and described The output end of one driver is connect with the vacuum cavity, and the wet base picks up the bottom end that mould is installed on the vacuum cavity Place, the wet base, which picks up mold, has the wet base for matching the filtering shaping mold core unit to pick up mold core unit, and the wet base picks up Mold core unit offers the vacuum hole communicated with the vacuum chamber.

5. the first product forming machine of service plate according to claim 4, which is characterized in that the stock tank, which has, is located at the accommodating cavity The accommodating cavity is separated out upper accommodating cavity and lower accommodating cavity by interior separation plate, the separation plate, and the separation plate is opened Equipped with avoiding space, the avoiding space is connected to the upper accommodating cavity and lower accommodating cavity, and the wet base shaping mould is installed on described Separate on plate and cover the avoiding space, and the filtering shaping mold core unit is stretched and is placed in the avoiding space, it is described Slurry inlet is communicated with the upper accommodating cavity, and the slurries wastewater outlet is communicated with the lower accommodating cavity.

6. the first product forming machine of service plate according to claim 5, which is characterized in that the slurry inlet is located at the demarcation plate At block, the slurries wastewater outlet is located at the bottom of the lower accommodating cavity.

7. the first product forming machine of service plate according to claim 1, which is characterized in that the heating dry body upper die mechanism includes upper Cavity and heating dry body upper mold, the upper cavity are slidedly arranged in the rack along the short transverse of the rack, and the third is driven The output end of dynamic device is connect with the upper cavity, and the heating dry body upper mold is installed at the bottom end of the upper cavity and has Match the upper mold core unit of the upper surface for the wet base that the wet blank forming machine structure is molded.

8. the first product forming machine of service plate according to claim 7, which is characterized in that the upper cavity, which has, to be formed on described The intracorporal upper vacuum chamber of chamber and it is formed in the upper vacuum port that the upper cavity is outer and communicates with the upper vacuum chamber, the upper mold core Unit offers the upper vacuum hole communicated with the upper vacuum chamber；The heating dry body upper mold is formed in the heating dry body Upper heating chamber in upper mold is formed in the upper heated inlet connector that the heating dry body upper mold is outer and communicates with the upper heating chamber And it is formed in the upper heating exit connector that the heating dry body upper mold is outer and communicates with the upper heating chamber.

9. the first product forming machine of service plate according to claim 1, which is characterized in that under the heating dry body lower die mechanism includes Cavity and heating dry body lower die, the lower chamber are slidedly arranged in the rack along the rack level direction, second driving The output end of device is connect with the lower chamber, the heating dry body lower die be installed at the top end part of the lower chamber and have The lower die core unit of the lower surface of the wet base molded with the wet blank forming machine structure.

10. the first product forming machine of service plate according to claim 9, which is characterized in that the lower chamber is described with being formed in The intracorporal lower vacuum chamber of cavity of resorption and it is formed in the lower vacuum port that the lower chamber is outer and communicates with the lower vacuum chamber, the lower die Core unit offers the lower vacuum hole communicated with the lower vacuum chamber；The heating dry body lower die is dry with the heating is formed in Lower heating chamber in base lower die is formed in that the heating dry body lower die is outer and the lower heated inlet that communicates with the lower heating chamber connects Head and it is formed in the lower heating exit connector that the heating dry body lower die is outer and communicates with the lower heating chamber.