CN115805256B - Splicing production process of aluminum veneer and corrugated board in building and combined application thereof - Google Patents

Splicing production process of aluminum veneer and corrugated board in building and combined application thereof Download PDF

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CN115805256B
CN115805256B CN202211465169.5A CN202211465169A CN115805256B CN 115805256 B CN115805256 B CN 115805256B CN 202211465169 A CN202211465169 A CN 202211465169A CN 115805256 B CN115805256 B CN 115805256B
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roller
corrugated
base
plate
aluminum
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CN115805256A (en
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陆晏
文曲
朱培捷
朱雅娟
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Jixiang Aluminum Changxing Co ltd
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Jixiang Aluminum Changxing Co ltd
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Abstract

The invention discloses a splicing production process of an aluminum veneer and a corrugated board in a building, which adopts the process flows of uncoiling, degreasing, lacquering, cutting, corrugated board preparation, aluminum veneer preparation and splicing installation, realizes the combined application of the aluminum veneer and the corrugated board on the building, can meet the flatness requirement and the modeling requirement on the building, ensures that the design concept of a designer can be realized, enables the perfection of key projects and large projects to be better presented, and enables the smooth surface to have radian with small curvature, thereby meeting the requirement of the radian of a large plane and simultaneously ensuring the strength.

Description

Splicing production process of aluminum veneer and corrugated board in building and combined application thereof
Technical Field
The invention relates to the technical field of building curtain walls, in particular to a splicing production process of aluminum veneers and corrugated boards in a building and combined application thereof.
Background
The construction industry is always a very large consumption field of aluminum, and because of the limitation of the strength of an aluminum veneer, the aluminum veneer can be applied to a large plane of a building curtain wall to generate a relatively uneven technical problem, namely, the aluminum veneer used for the large plane is a large-area whole plate, part of the area can be raised or bent due to insufficient strength of the aluminum veneer, and if a corrugated plate is adopted to solve the technical problem of uneven whole plate, in the modeling process, the modeling requirement cannot be met because the corrugated plate is strong and is not easy to bend, so that the flatness can be met and the modeling requirement can be met in the building, and the technical problem to be solved is urgently needed at present;
the invention provides a technical means for combining and applying aluminum veneers and composite corrugated boards on a building, but the problem of assembly chromatic aberration of different products and how to enable the corrugated boards with high strength to present radian with small curvature to meet the radian requirement of a large plane are always a heart disease of the industry, so the technical difficulty prevents the realization of the design concept of a designer, enables important projects and large projects not to be perfectly presented, and ensures that the comprehensive cost of a building curtain wall is high.
Therefore, there is a need for a combined application of aluminum veneers and composite corrugated boards in construction and a production process thereof.
Disclosure of Invention
The invention provides a splicing production process of aluminum veneers and corrugated boards in a building and combined application thereof for solving the technical problems.
A splicing production process of aluminum veneers and corrugated boards in a building comprises the following specific steps:
s1: uncoiling, namely opening the aluminum coiled material through the rotary operation of an uncoiler, and establishing the tension of the strip and centering the strip in the operation process;
s2: degreasing: placing the aluminum plate into a degreasing device, and cleaning and drying the aluminum plate after degreasing;
s3: painting, namely performing painting treatment on the aluminum coiled material;
s4: cutting, namely cutting the aluminum coiled material subjected to the lacquering in the step S3 into required sizes, namely an aluminum single plate blank plate, an upper composite blank plate, a corrugated blank plate and a lower composite blank plate;
s5: preparing a corrugated board 1, and compounding an upper compound blank, a corrugated board and a lower compound blank through a corrugated board production integrated machine to prepare the required corrugated board 1;
s6: preparing an aluminum veneer 2, namely bending and forming the aluminum veneer blank in a bending machine to prepare the required aluminum veneer 2;
s7: and (3) splicing and installing, namely installing the light steel keel bracket, wherein the corrugated board 1 prepared in the step (S5) is used for large-plane installation, the bent aluminum veneer 2 is used for installing a modeling area, and the joint of the corrugated board 1 and the aluminum veneer 2 is tightly spliced.
Specifically, the specific steps in the step S5 are as follows:
i: forming a corrugated core plate, namely putting the corrugated blank plate in the step S4 into a corrugated plate production integrated machine for press forming to obtain a corrugated core plate 3;
II: gluing, namely gluing the corrugated core plate in the step S5 up and down in a corrugated board production integrated machine;
III: forming an upper composite aluminum plate and a lower composite aluminum plate, and respectively pressing the upper composite blank plate and the lower composite blank plate into required curved surfaces, wherein the upper composite aluminum plate and the lower composite aluminum plate are respectively;
IV: and (3) compounding, namely bending the glued corrugated core plate into a required curved surface radian in a corrugated plate production integrated machine, and then placing an upper composite aluminum plate and a lower composite aluminum plate above and below the corrugated core plate for composite molding to complete the preparation of the corrugated plate 1.
Specifically, the corrugated board production all-in-one machine comprises a rack, wherein a feeding device b1, a forming device b2, a double-sided gluing device b3 and a curved surface compounding device b4 are sequentially fixed on the rack according to the production process of the rack.
Specifically, the forming device comprises an upper corrugated roller and a lower corrugated roller which are rotatably connected to a frame, the roller teeth of the upper corrugated roller and the roller teeth of the lower corrugated roller are in meshed transmission, and a rotary motor is fixed at one end of the lower corrugated roller.
Specifically, the double-sided gluing device comprises an upper gluing mechanism and a lower gluing mechanism, the upper gluing mechanism comprises an upper glue outlet roller, the upper glue outlet roller is communicated with a glue storage tank through a first metering pump, the upper glue outlet roller comprises a hollow glue storage space, a first glue outlet is formed in the bottom of the upper glue outlet roller, the lower gluing mechanism comprises a lower glue outlet roller, the lower glue outlet roller is communicated with the glue storage tank through a second metering pump, a second glue outlet is formed above the lower glue outlet, the distance between the second glue outlet and the first glue outlet is the vertical distance H between the wave crest and the wave trough on the corrugated core plate, the second glue outlet is a strip-shaped core plate, and the first glue outlet consists of a plurality of round glue outlets which are distributed in parallel and are in round shapes.
Specifically, be equipped with blocking mechanism on going up the rubber roll, blocking mechanism is including blocking board and the jam actuating mechanism of drive blocking board motion, the blocking board is including the plate body, be fixed with a plurality of blocks up the portion on the plate body, block up the portion and be the cylinder form, its size shape with the circular play glue mouth of first play glue mouth cooperatees, it is including articulating the jam base of being connected in last rubber roll both sides to block up actuating mechanism, it is fixed with the sliding column to block up the base and keep away from its articulated end, sliding column sliding connection is in last arc wall of rubber roll, be fixed with flexible push rod on going up the rubber roll, flexible push rod's active end is fixed in on the jam base, through flexible push rod drive jam base around its articulated end arc removal, the lower extreme sliding connection of jam base has the jam board, be fixed with vertical flexible push rod on the jam base, vertical flexible push rod's active end is fixed in on the jam board.
Specifically, the curved surface compounding device comprises a curved surface positioning device, an upper compounding device and a lower compounding device which are respectively positioned above and below the curved surface positioning device.
Specifically, the curved surface positioning device comprises an auxiliary feeding roller group positioned at the conveying starting end, a curved surface positioning plate and a positioning traction mechanism for drawing the corrugated core plate into the curved surface positioning plate;
the auxiliary feeding roller group is a feeding roller arranged up and down;
the curved surface positioning plates are symmetrically arranged on two sides of the frame, curved surface grooves which are matched with the shape to be formed of the corrugated plate are formed in the curved surface positioning plates, the curved surface grooves penetrate through one side, close to the auxiliary feeding roller group, of the curved surface positioning plates, the other corresponding side is a closed end, the curved surface positioning plates are detachably fixed on the frame through screws, and limiting grooves which are consistent with the bending radian of the curved surface grooves are formed in the curved surface positioning plates, located above the curved surface grooves;
the positioning traction mechanism comprises a positioning roller group and a traction roller group which can transversely slide along the radian of the curved surface groove;
the utility model provides a corrugated thread rod, including arranging about and mutually supporting's first clamp roller and second clamp roller, first clamp roller rotates and connects on first slider, the second clamp roller rotates and connects on first base, first slider sliding connection is on first base, just be equipped with first elastic component between first slider and the first base, all the shaping has a plurality of corrugated strips that are the circumference and arrange on the outer circumference of first clamp roller and second clamp roller, pull the clamping driving mechanism that the roller group removed including clamping part and drive clamping part, clamping part is including arranging from top to bottom and mutually supporting's last clamp roller and lower clamp roller, go up clamp roller rotation and connect on the second slider, down clamp roller rotation is connected on the second base, second slider sliding connection is on the second base, just be equipped with the second elastic component between second slider and the second base, it has a plurality of corrugated strips that are the circumference and arrange on the outer circumference of first clamp roller and second clamp roller, the drive threaded rod has the screw rod to drive the screw thread rod in the screw hole in the drive sliding connection, the screw hole in the drive screw hole is driven by the screw hole in the drive base, the drive screw hole.
Specifically, go up composite device and carry out compound actuating mechanism of laminating type removal including compound roller and drive compound roller and follow the upper surface of going up compound blank, compound roller rotates and connects on the center roller, the spacing inslot is all worn to locate at the both ends of center roller, be equipped with heating device in the compound roller, the both ends vertical fixation of center roller has the slide bar, slide bar sliding connection is in compound slider, compound slider sliding connection is on last compound actuating mechanism, go up compound actuating mechanism including last threaded rod and the rotatory last rotating electrical machines of drive last threaded rod, offer threaded hole on the compound slider and with go up threaded rod threaded connection.
Specifically, compound device slides and sets up in curved surface positioner below down, and it is including compound base and the compound mechanism down of horizontal sliding connection on compound base down, compound mechanism is including first base and the second base of vertical slip on first base down, be fixed with the lift cylinder on the first base, the mobile terminal of lift cylinder is fixed in the second base, second base top is densely covered has a plurality of adaptation clamping units, adaptation clamping unit is through the adjustment of each high position mode that the face was collected into with the point, is used for adapting to compound base shape down, adaptation clamping unit is including being fixed in the flexible actuating mechanism on the second base, be fixed with centre gripping adaptation portion on flexible actuating mechanism's the mobile terminal, centre gripping adaptation portion is including adaptation base, adaptation base inside shaping has the arc sliding tray, the sliding connection has a first semicircle base, the height of first semicircle base is higher than the height of arc sliding tray, the first semicircle base is equipped with two and has the second arc-shaped groove, the second is equipped with the second semicircle base is connected to the second arc-shaped groove, and the second is equipped with the second arc-shaped groove.
The corrugated board is used for splicing and installing large planes on a building, the aluminum veneer is used for splicing and installing modeling parts on the building, the joint of the composite corrugated board and the aluminum veneer is tightly spliced, the large planes comprise flat surfaces and curved surfaces with small curvatures, and the modeling parts comprise curved surfaces with large curvatures and transitional connection curved surfaces between the two large planes.
The invention has the beneficial effects that:
(1) The invention discloses a splicing production process of an aluminum veneer and a corrugated board in a building, which adopts the process flows of uncoiling, degreasing, lacquering, cutting, corrugated board preparation, aluminum veneer preparation and splicing installation, realizes the combined application of the aluminum veneer and the corrugated board on the building, can meet the flatness requirement and the modeling requirement on the building, ensures that the design concept of a designer can be realized, enables the perfection of key projects and large projects to be better presented, and enables the smooth surface to have radian with small curvature, thereby meeting the requirement of the radian of a large plane and simultaneously ensuring the strength.
(2) The invention discloses a splicing production process of an aluminum veneer and a corrugated board in a building, wherein the corrugated board prepared in the step S5 is formed by firstly bending an upper composite aluminum plate, a corrugated core plate and a lower composite aluminum plate in a required radian and then compounding, so that the requirement of the radian of the curved surface of the corrugated board is ensured, the strength and the quality of the corrugated board are also ensured, and if the existing corrugated board with a flat surface is bent, the corrugated board is high in strength, time and labor are wasted in bending, and meanwhile, even if the corrugated board is forced to bend, each layer is easy to degum due to the action of internal stress, so that the quality of the corrugated board is poor.
(3) The invention discloses a splicing production process of aluminum veneers and corrugated boards in a building, which comprises a corrugated board production integrated machine, wherein the corrugated board production integrated machine comprises a rack, a feeding device, a forming device, a double-sided gluing device and a curved surface compounding device are sequentially fixed on the rack according to the production process of the corrugated board production integrated machine.
(4) The invention discloses a splicing production process of aluminum veneers and corrugated boards in a building, which comprises a double-sided gluing device, wherein the double-sided gluing device is characterized in that glue is very viscous and poor in fluidity, after being quantitatively pumped out, the glue is respectively positioned at a second glue outlet and a first glue outlet, in the conveying process of a corrugated core board, contact gluing is realized, namely only the trough of the double-sided gluing device is just contacted with the crest of the double-sided gluing device, and other parts of the double-sided gluing device cannot be contacted with the glue, so that the glue is not glued, and when the next crest or trough of the double-sided gluing device does not come, the glue just to be smeared is fed, so that a small amount of glue is uniformly and effectively glued, meanwhile, only needed glue-spreading parts (the crest or the trough) are glued, and the rest parts are not glued, so that the double-sided gluing device is environment-friendly and saves the glue and avoids unnecessary waste.
(5) The invention discloses a splicing production process of an aluminum veneer and a corrugated board in a building, wherein a first glue outlet consists of a plurality of circular glue outlets which are distributed in parallel, as an upper glue outlet roller is positioned above, glue dripping phenomenon can occur if the width dimension is too large, glue adhesion phenomenon at the caliber can occur if the width dimension is small, glue is not uniformly discharged, extruded glue flows out from a non-blocking adhesion area, one end of the glue is coated, the other end of the glue is not coated, and the compound effect of a later corrugated board is affected.
(6) The invention discloses a splicing production process of an aluminum veneer and a corrugated board in a building, wherein a blocking mechanism is arranged on an upper glue outlet roller, and a first glue outlet is automatically closed through the blocking mechanism under the condition that equipment maintenance and the like need to stop normal operation through the arrangement of the blocking mechanism, so that environmental protection is realized, glue is saved, manpower and material resources are saved, the working efficiency is improved, the waste of the glue caused by glue dripping is avoided, and meanwhile, the surrounding environment is polluted due to the glue dripping, so that a large amount of manpower and material resources are needed to be input for cleaning.
(7) The invention discloses a splicing production process of an aluminum veneer and a corrugated board in a building, which comprises a curved surface positioning device, wherein a driving base is slidably connected in a driving chute, a threaded rod is driven to rotate by a driving rotating motor, the threaded rod rotates to drive the driving base to horizontally slide in the driving chute, so as to drive a clamping part to horizontally slide, and a forward traction force is generated on a corrugated core board in the process of horizontally sliding the clamping part.
(8) The invention discloses a splicing production process of aluminum veneers and corrugated boards in a building, which comprises a lower composite device, wherein the lower composite device is used for meeting the requirements of different radians of lower composite aluminum boards by adapting to the adjustment of the height position of a clamping unit and adopting the principle of converging into a plane, and the lower composite device can be matched with the shape of the lower composite aluminum boards through the adjustment of the height position according to the lower composite aluminum boards with different shapes, so that the applicability and the practicability are stronger.
(9) The invention discloses a splicing production process of an aluminum veneer and a corrugated board in a building, which is characterized in that through the arrangement of a clamping adaptation part and the adjustment of the position angles of a first semicircular base, a second semicircular base and a clamping head in a corresponding arc-shaped sliding groove, a first arc-shaped sliding groove and a second arc-shaped sliding groove, the clamping head is finally attached to the surface of a lower composite aluminum plate, the supporting effect is better, the displacement of the lower composite aluminum plate can not occur in the process of compositing a corrugated core plate, and the compositing effect is improved.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic diagram of a corrugated board production integrated machine of the present invention;
FIG. 2 is a schematic view of a part of the structure of the double-sided adhesive coating device of the present invention;
fig. 3 is a perspective view of the double-sided adhesive applicator of the present invention;
FIG. 4 is a schematic view of a first glue outlet according to the present invention;
FIG. 5 is a schematic view of a second glue outlet according to the present invention;
FIG. 6 is a perspective view of the upper take-off roller of the present invention;
FIG. 7 is a perspective view of a curved surface compounding device of the present invention;
FIG. 8 is a cross-sectional view of a curved surface compounding device of the present invention
FIG. 9 is a schematic view of a portion of a curved surface compounding device of the present invention;
FIG. 10 is a schematic perspective view of a lower complex apparatus of the present invention;
FIG. 11 is a schematic view of the working state structure of the lower composite device of the present invention;
FIG. 12 is a schematic perspective view of a clamping adapter of the present invention;
FIG. 13 is an enlarged schematic view of FIG. 11B in accordance with the invention;
FIG. 14 is a schematic view of the construction of a roof of the present invention;
FIG. 15 is a schematic view of the construction of a roof II of the present invention;
fig. 16 is a schematic structural view of the support column of the present invention.
Detailed Description
For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.
A splicing production process of aluminum veneers and corrugated boards in a building comprises the following specific steps:
s1: uncoiling, namely opening the aluminum coiled material through the rotary operation of an uncoiler, and establishing the tension of the strip and centering the strip in the operation process;
s2: degreasing: placing the aluminum plate into a degreasing device, and cleaning and drying the aluminum plate after degreasing;
s3: the method comprises the steps of (1) painting, namely, painting an aluminum coiled material, and drying the aluminum coiled material after the painting, wherein the painting is performed in a roller painting mode which is beneficial to continuous painting procedures and has high efficiency and better uniformity compared with a painting mode;
s4: cutting, namely cutting the aluminum coiled material subjected to the lacquering in the step S3 into required sizes, namely an aluminum single plate blank plate, an upper composite blank plate, a corrugated blank plate and a lower composite blank plate;
s5: preparing a corrugated board 1, and compounding an upper compound blank, a corrugated board and a lower compound blank through a corrugated board production integrated machine to prepare the required corrugated board 1;
s6: preparing an aluminum veneer 2, namely bending and forming the aluminum veneer blank in a bending machine to prepare the aluminum veneer 2 with a required shape;
s7: splicing and installing, namely installing a light steel keel bracket, wherein the corrugated board 1 prepared in the step S5 is used for installing a large plane, the bent aluminum veneer 2 is used for installing a modeling area, and the joint of the corrugated board 1 and the aluminum veneer 2 is tightly spliced;
The invention adopts the technological processes of uncoiling, degreasing, lacquering, cutting, preparing the corrugated board 1, preparing the aluminum veneer 2 and splicing and installing, realizes the combined application of the aluminum veneer 2 and the corrugated board 1 on the building, can meet the flatness requirement and the modeling requirement on the building, enables the design concept of a designer to be realized, enables important projects and large projects to be better represented perfectly, and enables the corrugated board 1 prepared in the step S5 to be a flat surface and also to have radian with small curvature, thereby meeting the requirement of the radian of a large plane and simultaneously guaranteeing the strength requirement, and adopts the technological method of firstly unifying lacquering and then cutting the aluminum coiled material into the required size for preparing the corrugated board 1 and the aluminum veneer 2, thereby guaranteeing the color uniformity and solving the technical problem of assembly chromatic aberration when the two kinds of combined application.
Specifically, the specific steps in the step S5 are as follows:
i: forming a corrugated core plate, namely putting the corrugated blank plate in the step S4 into a corrugated plate production integrated machine for press forming to obtain a corrugated core plate 3;
II: gluing, namely gluing the corrugated core plate in the step S5 up and down in a corrugated board production integrated machine;
III: forming an upper composite aluminum plate and a lower composite aluminum plate, and respectively pressing the upper composite blank plate and the lower composite blank plate into required curved surfaces (including flat surfaces) respectively, wherein the curved surfaces are the upper composite aluminum plate and the lower composite aluminum plate;
III: the corrugated core plate after being glued is bent into a required curved surface radian (including a flat surface) in the corrugated plate production integrated machine, then the upper composite aluminum plate and the lower composite aluminum plate are placed above and below the corrugated core plate for composite molding, the corrugated plate 1 is prepared, the curved surface radian requirement of the corrugated plate 1 is guaranteed by a mode that each plate body of the corrugated plate 1 is bent in a required radian and then is compounded, meanwhile, the strength and the quality of the corrugated plate 1 are guaranteed, if the corrugated plate 1 with the existing flat surface is bent, the bending cost is time-consuming due to the fact that the strength of the corrugated plate is high, and meanwhile, even if the corrugated plate is forcedly bent, due to the effect of internal stress, each layer is easy to come off, and the quality of the corrugated plate 1 is poor.
The aluminum veneer and corrugated board are combined in the building, the corrugated board 1 is used for splicing and installing large planes on the building, the aluminum veneer 2 is used for splicing and installing modeling parts on the building, the joint of the composite corrugated board 1 and the aluminum veneer 2 is tightly spliced, the large planes comprise flat surfaces and curved surfaces with small curvatures, and the modeling parts comprise curved surfaces with large curvatures and transitional connection curved surfaces between the two large planes.
First embodiment: splice mounting for roof one (as shown in FIG. 14)
The large plane of the roof is a flat plane (namely, curvature is 0), cornice on two sides of the large plane is a modeling area, after the light steel keel bracket is installed, the corrugated board 1 is installed on the large plane, an aluminum veneer with modeling is used for installing the modeling area after bending, the joint of the corrugated board 1 and the aluminum veneer 2 is tightly spliced, the flatness requirement and the modeling requirement can be met in the building through the combined application of the aluminum veneer 2 and the corrugated board 1, the design concept of a designer can be realized, and key projects and large projects can be perfectly presented better.
Specific embodiment II: splice mounting for roof two (as shown in FIG. 15)
The large plane of the roof II is a small curvature curved surface, the cornice on two sides of the large plane is a modeling area, after the light steel keel bracket is installed, the corrugated board 1 with the required small curvature curved surface is installed on the large plane, the aluminum veneer with the modeling after bending is used for installing the modeling area, the joint of the corrugated board 1 and the aluminum veneer 2 is tightly spliced, the corrugated board 1 is installed on the large plane with the small curvature through the combined application of the aluminum veneer 2 and the corrugated board 1 on the building, the radian requirement of the small curvature can be met under the requirement of high strength, the flatness requirement can be met and the modeling requirement can be met through the combined application of the corrugated board and the aluminum veneer 2, so that the design concept of a designer can be realized, and the perfection of key projects and large projects can be better represented.
Third embodiment: splice mounting for support post (as shown in FIG. 16)
The support column is oval, and the cambered surface of the relative little camber in its both sides is installed by corrugated board 1, to the part between the cambered surface of this little camber by aluminium veneer 2 installation, through the combination application of aluminium veneer 2 and corrugated board 1 on the support column of building, has both satisfied the holistic planarization of support column, has guaranteed required radian shape simultaneously again.
Specifically, the corrugated board production integrated machine comprises a rack, wherein a feeding device b1, a forming device b2, a double-sided gluing device b3 and a curved surface compounding device b4 are sequentially fixed on the rack according to the production process of the rack, the corrugated core board is automatically fed through the feeding device b1, then the corrugated core board is pressed into a corrugated shape through the forming device b2, gluing of the upper surface and the lower surface is carried out, and finally the pressed upper compound blank board and the pressed lower compound blank board are respectively placed above and below the corrugated core board to be bonded and compounded, so that the corrugated board 1 is formed.
Specifically, the feeding device b1 is a conveying roller, and the conveying roller is conventional equipment in the field, so that a description thereof is omitted. The forming device b2 comprises an upper corrugated roller and a lower corrugated roller which are rotatably connected to the frame, the roller teeth of the upper corrugated roller and the roller teeth of the lower corrugated roller are in meshed transmission, a rotating motor is fixed at one end of the lower corrugated roller, and the forming device b2 performs compression forming in a roller-meshing rolling forming mode, which is conventional equipment in the field, so that redundant description is omitted.
Specifically, the double-sided gluing device b3 comprises an upper gluing mechanism and a lower gluing mechanism, the upper gluing mechanism comprises an upper glue outlet roller a1, the upper glue outlet roller a1 is communicated with a glue storage tank through a first metering pump, glue is quantitatively pumped into the upper glue outlet roller through the first metering pump, the upper glue outlet roller comprises a hollow glue storage space, a first glue outlet a3 is formed in the bottom of the upper glue outlet roller, the lower gluing mechanism comprises a lower glue outlet roller a2, the lower glue outlet roller a2 is communicated with the glue storage tank through a second metering pump, the glue is quantitatively pumped into the lower glue outlet roller a2 through the second metering pump, a second glue outlet a4 is formed above the lower glue outlet roller a2, the distance between the second glue outlet a4 and the first glue outlet a3 is a vertical distance H between the upper wave crest and the wave trough of the corrugated core plate, as shown in the figure 2, due to the characteristics of very viscous glue and poor fluidity, when the glue is quantitatively pumped out, the glue at the second glue outlet a4 is distributed at the second glue outlet a4 in an upward arc shape, the glue at the first glue outlet a3 is distributed at the first glue outlet a3 in a downward arc shape, in the process of conveying the corrugated core board, the glue is coated after the trough below the corrugated core board is just contacted with the glue at the second glue outlet a4, the glue is coated after the crest above the corrugated core board is just contacted with the glue at the first glue outlet a3, the part of the lower surface between the two troughs and the part of the upper surface between the two crests can not be contacted with the glue, therefore, no glue is coated, and in the time of no glue coating, the just-coated glue is fed in, not only a small amount, even and effective glue coating is realized, but also only the needed glue coating part (the crest or the trough) is coated, the rest parts are not coated with the glue, not only is environment-friendly, but also saves glue and avoids unnecessary waste.
Specifically, baffles are fixed on two sides of the lower rubber roll a2 and used for preventing the ground from being polluted by glue dripping;
the second glue outlet a4 is in a strip shape, the width of the second glue outlet a4 is not smaller than 3mm, the first glue outlet a3 is formed by a plurality of circular glue outlets which are distributed in parallel, the second glue outlet is positioned below, so that the phenomenon of glue dripping is not caused by large-width points, the problem of glue adhesion can be solved by adjusting the width dimension, the first glue outlet a3 positioned above is not caused by the fact that the glue dripping is caused by the fact that the first glue outlet a3 adopts a rectangular structure, the phenomenon of glue dripping is caused by overlarge width dimension, if the width dimension is small, the phenomenon of glue adhesion at the caliber is caused, glue is not uniformly caused, extruded glue flows out from a blocking adhesion area, and the adhesion place at the place is only more viscous, so that one end is glued, the other end of the glue is not glued, and the compound procedure of a corrugated board at the later stage is affected;
The upper rubber outlet roller a1 is provided with a blocking mechanism, the blocking mechanism comprises a blocking plate a5 and a blocking driving mechanism for driving the blocking plate a5 to move, the blocking plate a5 comprises a plate body, a plurality of blocking parts are fixed on the plate body, the blocking parts are cylindrical, the size and shape of the blocking parts are matched with those of the round rubber outlet of the first rubber outlet a3, the blocking driving mechanism comprises blocking bases hinged to two sides of the upper rubber outlet roller a1, sliding columns are fixed on the blocking bases far away from the hinged ends of the blocking bases, the sliding columns are slidably connected in arc grooves of the upper rubber outlet roller a1, the arc grooves not only can be used for sliding guide, but also can play a limiting role, when the blocking plate a5 is positioned right below the first rubber outlet a3, the sliding columns are positioned at the end points of the lowest ends of the arc grooves, telescopic push rods a6 are fixed on the upper rubber outlet roller a1, the movable end of the telescopic push rod a6 is fixed on the blocking base, the blocking base is driven to move in an arc shape around the hinged end of the blocking base by the telescopic push rod a6, the lower end of the blocking base is connected with a blocking plate a5 in a sliding manner, the blocking base is fixedly provided with a longitudinal telescopic push rod a7, the movable end of the longitudinal telescopic push rod a7 is fixed on the blocking plate a5, in the specific operation process, when equipment such as equipment maintenance needs to stop normal operation, the telescopic push rod a6 contracts, the blocking base is driven to move to the position right below the first glue outlet a3, the longitudinal telescopic push rod a7 contracts, the blocking plate a5 is driven to move to the first glue outlet a3, finally the first glue outlet a3 is blocked, through the setting of a blocking mechanism, under the condition that the equipment such as equipment maintenance needs to stop normal operation, the first glue outlet a3 is automatically blocked by the blocking mechanism, not only avoiding the glue to drop and causing the waste of glue, can making dirty surrounding environment simultaneously to throw into unnecessary manpower and materials and wash.
Specifically, the curved surface compounding device b4 includes a curved surface positioning device c1, an upper compounding device c2, a lower compounding device c3 and a cutting device, which are respectively located above and below the curved surface positioning device c 1.
Specifically, the curved surface positioning device c1 comprises an auxiliary feeding roller group c11 positioned at the conveying starting end, a curved surface positioning plate c12 and a positioning traction mechanism c13 for drawing the corrugated core plate 3 into the curved surface positioning plate c 12;
the auxiliary feeding roller sets c11 are feeding rollers which are arranged up and down, the number of the auxiliary feeding roller sets is 2, the corrugated core plate 3 is driven by the feeding rollers to move towards the curved surface positioning plate c12, the feeding rollers are driving wheels and are driven by a rotating motor (not shown) to rotate, so that feeding is realized, and the auxiliary feeding roller sets are conventional in the field, so that redundant description is omitted;
the curved surface positioning plates c12 are symmetrically arranged on two sides of the frame, curved surface grooves c121 which are matched with the shape to be formed of the corrugated plate 1 are formed in the curved surface positioning plates c12, the curved surface grooves c121 penetrate through one side, close to the auxiliary feeding roller group c11, of the curved surface positioning plates c121 so as to facilitate feeding, the corresponding other side is a closed end, positioning of the corrugated core plate 3 is facilitated, the curved surface positioning plates c12 are detachably fixed on the frame through screws so as to meet the requirements of different curved surface radians of the corrugated plate 1 to be manufactured, and limiting grooves c23 which are consistent with the curved radians of the curved surface grooves c121 are formed in the curved surface positioning plates c12, wherein the limiting grooves c23 are positioned above the curved surface grooves c 121;
The positioning traction mechanism c13 comprises a positioning roller group c131 and a traction roller group c132 which can transversely slide along the radian of the curved surface groove c 121;
the positioning roller set c131 comprises first clamping rollers and second clamping rollers which are arranged up and down and matched with each other, the first clamping rollers are rotationally connected to the first sliding block c1311, the second clamping rollers are rotationally connected to the first base, the first sliding block c1311 is slidably connected to the first base, a first elastic piece c1312 is arranged between the first sliding block c1311 and the first base, the distance between the first clamping rollers and the second clamping rollers can be adjusted through the arrangement of the first elastic piece c1312, so that the thickness of the entering corrugated core plate 3 is adapted, the clamping force is formed, a plurality of corrugated strips which are circumferentially arranged are formed on the outer circumferences of the first clamping rollers and the second clamping rollers and used for improving the clamping force on the corrugated core plate 3, and the two sides of the front end of the corrugated core plate 3 are clamped in the compounding process.
The traction roller set c132 comprises a clamping part and a clamping driving mechanism for driving the clamping part to move, the clamping part comprises an upper clamping roller and a lower clamping roller which are arranged up and down and are matched with each other, the upper clamping roller is rotationally connected to a second sliding block c1321, the lower clamping roller is rotationally connected to a second base c1322, the second sliding block c1321 is slidably connected to the second base c1322, a second elastic piece c1323 is arranged between the second sliding block c1321 and the second base c1322, the distance between the upper clamping roller and the lower clamping roller can be adjusted through the arrangement of the second elastic piece c1323, so that the thickness of the corrugated core plate 3 is adapted to be met, clamping force is formed for the corrugated core plate 3, a plurality of core plate strips which are circumferentially arranged are formed on the outer circumference of the upper clamping roller and the lower clamping roller, the second base c1322 is slidably connected to the driving base, a third elastic piece c1324 is fixedly arranged between the second base c1322 and the driving base, a sliding groove c 4 is rotatably arranged in the driving base, and the sliding groove is rotatably driven by the sliding groove 1325 is formed in the sliding groove, and the sliding groove is rotatably driven by the sliding groove 132 c 4 and the sliding groove is rotatably driven by the driving groove.
Specifically, go up compound device c2 including compound roller c21 and drive compound roller c21 carries out the last compound actuating mechanism of laminating removal along the upper surface of going up compound blank, in order to guarantee that compound roller c21 is moved along the upper surface of going up compound blank to the lower surface of compound roller c2 and the position department that the last compound blank of putting on corrugated core 3 contacted, compound roller c21 rotates and connects on the center roller, the both ends of center roller all wear to locate in spacing groove c23, be equipped with heating device in the compound roller c21, heating device is including heating wire and temperature detect switch, makes the compound roller intensification through the heating wire, and is used for controlling the temperature range of intensification through temperature detect switch for the conventional setting in this field, so not add more repeatedly the slide bar c22 are fixed perpendicularly at the both ends of center roller, c22 sliding connection is in the compound slider, compound slider sliding connection is on last compound actuating mechanism, compound actuating mechanism is including last rotatory upper rotary threaded rod and drive motor, thereby the compound threaded rod is gone up and the compound slider is gone up the compound roller c is located in order to the compound roller c 3 and is realized in the compound groove of the compound roller c 3 and is located in order to the compound roller c is realized to the compound groove of the level, thereby the compound roller c is equipped with the compound roller c is realized in the compound roller c 3 and the groove of the level of the groove of the side by the side of sliding movement of the roller.
Specifically, the lower compound device c3 is slidably disposed below the curved surface positioning device c1, and comprises a lower compound base and a lower compound mechanism horizontally slidably connected to the lower compound base, the lower compound mechanism comprises a first base and a second base c31 longitudinally sliding on the first base, a lifting cylinder is fixed on the first base, the movable end of the lifting cylinder is fixed on the second base c31, a plurality of adaptive clamping units c32 are densely distributed above the second base c31, the adaptive clamping units c32 form a complete required curved surface in a manner of converging into a surface through the adjustment of the respective height positions, so as to adapt to the shape of the lower compound blank, the adaptive clamping units c32 comprise telescopic driving mechanisms which can be telescopic push rods or cylinders, the movable ends of the telescopic driving mechanisms are fixedly provided with clamping adaptive parts, the clamping adaptation part comprises an adaptation base c33, wherein an arc-shaped sliding groove is formed in the adaptation base c33, a first semicircular base c34 is connected in the arc-shaped sliding groove in a sliding way, the first semicircular base c34 is higher than the arc-shaped sliding groove, two first arc-shaped sliding grooves are formed in the upper surface of the first semicircular base c34, a second semicircular base c35 is connected in the two first arc-shaped sliding grooves in a sliding way, the second semicircular base c35 is higher than the first arc-shaped sliding groove, two second arc-shaped sliding grooves are formed in the upper surface of the second semicircular base c35, clamping heads c36 are connected in the two second arc-shaped sliding grooves in a sliding way, the height of each clamping head c36 is higher than the height of each second arc-shaped sliding groove, a heating device is arranged in each clamping head c36, the lower composite aluminum plate forming device comprises an electric heating wire and a temperature control switch, wherein the clamping head c36 is heated through the electric heating wire, and the temperature range for controlling the temperature rise through the temperature control switch, the heating device is arranged in the conventional way in the field, so that details are not added, the specific operation process is that when a lower composite blank plate is pressed into a lower composite aluminum plate with a required shape on forming equipment, the lower composite device c3 is controlled by a main control system to adapt to the position height of the clamping unit c32, so that the lower composite aluminum plate forms an radian consistent with the shape of the lower composite aluminum plate, and after the lower composite aluminum plate is placed on the lower composite device c3, the first semicircular base c34, the second semicircular base c34 and the clamping head c36 slide in corresponding arc-shaped sliding grooves, the first arc-shaped sliding grooves and the second arc-shaped sliding grooves to adjust angles, and finally the clamping head c36 is attached to the surface of the lower composite aluminum plate, as shown in fig. 13. According to the invention, through the arrangement of the lower composite device c3 and the adjustment of the height position of the clamping unit c32, the principle of converging the points into the surface is adopted, so that the requirements of different radians of the lower composite aluminum plate are met, and the applicability and the practicability are stronger. Meanwhile, through the arrangement of the clamping adaptation part and the adjustment of the position angles of the first semicircular base c34, the second semicircular base c35 and the clamping head c36 in the corresponding arc-shaped sliding groove, the first arc-shaped sliding groove and the second arc-shaped sliding groove, the clamping head is finally attached to the surface of the lower composite aluminum plate, the supporting effect is better, displacement can not occur in the process of compositing the corrugated core plates, and the compositing effect is improved.
Specifically, the cutting device comprises a cutting knife and a cutting driving mechanism for driving the cutting knife to slide along the horizontal direction, the cutting driving mechanism can be a linear guide rail, the cutting knife is fixed on a sliding block of the linear guide rail, and the cutting device is conventional equipment in the field, so that redundant description is not needed. And the number of the cutting devices is 2, and the cutting devices are positioned on the inner side wall of the curved surface positioning plate c 12.
The specific operation process comprises the following steps: the corrugated blank plate is automatically fed through a feeding device b1, then is pressed and formed through a forming device b2 in a rolling mode to form a corrugated core plate, the upper surface and the lower surface of the corrugated core plate are glued in the process of continuously conveying the corrugated core plate forwards, after the gluing is finished, a curved surface positioning device works, a driving base is slidably connected in a driving chute, a threaded rod is driven to rotate through a driving rotating motor, the threaded rod is driven to rotate to drive the driving base to horizontally slide in the driving chute, so that a clamping part is driven to horizontally slide, a forward traction force is generated for the corrugated core plate in the process of horizontally sliding the clamping part, and the second base can float up and down due to the action of a third elastic piece, so that the corrugated core plate is driven to penetrate through a curved surface groove and be limited in the curved surface groove to form a required curved surface radian requirement, and meanwhile, the lower composite device controls the position height of the adaptive clamping unit c32 through the main control system to form radian consistent with the shape of the lower composite aluminum plate, the lower composite aluminum plate with the required shape is placed on the lower composite device through a mechanical arm and the like, then the lower composite aluminum plate is driven by the lower composite device to move to the position right below the corrugated core plate 3 and then move upwards, so that the lower composite aluminum plate is attached to the corrugated core plate 3, the upper composite aluminum plate pressed into the required shape is placed on the corrugated core plate 3 through the mechanical arm and the like, then a heating device in the upper composite device and a heating device in the lower composite device are both started to heat, the pressing and the compositing are carried out along with the movement of the upper composite device, finally a cutting device is started to cut two sides of the composite formed corrugated plate 1, the automatic production of the corrugated plate is realized through the corrugated plate production integrated machine, the automatic degree is high and high-efficient, and the corrugated board of production has both guaranteed the demand of intensity, has also solved the technical problem that current corrugated board is difficult to crooked into curved surface simultaneously, even forced bending is curved surface but the phenomenon that comes unstuck very easily because of the effect of inside stress.
The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, and various modifications and variations may be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A splicing production process of aluminum veneers and corrugated boards in a building is characterized by comprising the following steps of: the method comprises the following specific steps:
s1: uncoiling, namely opening the aluminum coiled material through the rotary operation of an uncoiler, and establishing the tension of the strip and centering the strip in the operation process;
s2: degreasing: degreasing the aluminum coiled material, cleaning and drying the aluminum coiled material after degreasing;
s3: painting, namely performing painting treatment on the aluminum coiled material;
s4: cutting, namely cutting the aluminum coiled material subjected to the lacquering in the step S3 into required sizes, namely an aluminum single plate blank plate, an upper composite blank plate, a corrugated blank plate and a lower composite blank plate;
s5: preparing a corrugated board (1), and compounding an upper compound blank, a corrugated blank and a lower compound blank through a corrugated board production integrated machine to prepare the required corrugated board (1);
s6: preparing an aluminum veneer (2), and bending and forming the aluminum veneer blank plate in a bending machine to prepare the required aluminum veneer (2);
S7: and (3) splicing and installing the light steel keel bracket, wherein the corrugated board (1) prepared in the step (S5) is used for large-plane installation, the bent aluminum veneer (2) is used for installation of a modeling area, and the joint of the corrugated board (1) and the aluminum veneer (2) is tightly spliced.
2. The splicing production process of aluminum veneers and corrugated boards in a building according to claim 1, wherein the splicing production process comprises the following steps: the specific steps in the step S5 are as follows:
i: forming a corrugated core plate, and putting the corrugated blank plate in the step S4 into a corrugated plate production integrated machine;
II: gluing, namely gluing the corrugated core plate in the step S5 up and down in a corrugated board production integrated machine;
III: forming an upper composite aluminum plate and a lower composite aluminum plate, and respectively pressing the upper composite blank plate and the lower composite blank plate into required curved surfaces, wherein the upper composite aluminum plate and the lower composite aluminum plate are respectively;
III: and (3) compounding, namely bending the glued corrugated core plate into a required curved surface radian in a corrugated plate production integrated machine, and then placing an upper composite aluminum plate and a lower composite aluminum plate above and below the corrugated core plate for composite molding to complete the preparation of the corrugated plate (1).
3. The splicing production process of aluminum veneers and corrugated boards in a building according to claim 1, wherein the splicing production process comprises the following steps: the corrugated board production integrated machine comprises a frame, wherein a feeding device (b 1), a forming device (b 2), a double-sided gluing device (b 3) and a curved surface compounding device (b 4) are sequentially fixed on the frame according to the production process of the corrugated board production integrated machine.
4. A process for splicing aluminum veneers and corrugated boards in a building according to claim 3, wherein: the forming device comprises an upper corrugated roller and a lower corrugated roller which are rotatably connected to the frame, wherein the roller teeth of the upper corrugated roller and the roller teeth of the lower corrugated roller are in meshed transmission, and a rotary motor is fixed at one end of the lower corrugated roller;
the double-sided gluing device (b 3) comprises an upper gluing mechanism and a lower gluing mechanism, the upper gluing mechanism comprises an upper glue outlet roller (a 1), the upper glue outlet roller (a 1) is communicated with a glue storage tank through a first metering pump, the upper glue outlet roller comprises a hollow glue storage space, a first glue outlet (a 3) is formed in the bottom of the upper glue outlet roller, the lower gluing mechanism comprises a lower glue outlet roller (a 2), the lower glue outlet roller (a 2) is communicated with the glue storage tank through a second metering pump, a second glue outlet (a 4) is formed above the lower glue outlet (a 2), the distance between the second glue outlet (a 4) and the first glue outlet (a 3) is the vertical distance H between the upper wave crest and the wave trough of the corrugated core plate, the second glue outlet (a 4) is long-strip-shaped, and the first glue outlet (a 3) is formed by a plurality of circular glue outlets which are distributed in parallel.
5. The splicing production process of aluminum veneers and corrugated boards in a building according to claim 4, wherein the splicing production process comprises the following steps: the utility model provides a glue discharging device, including last glue discharging roller (a 1) on be equipped with blocking mechanism, blocking mechanism is including blocking board (a 5) and the jam actuating mechanism of drive blocking board (a 5) motion, blocking board (a 5) are including the plate body, be fixed with a plurality of blocks up the portion on the plate body, block up the portion and be the cylinder form, its size shape with the circular glue outlet of first glue outlet (a 3) cooperatees, blocking actuating mechanism is including the shutoff base of articulated connection in last glue discharging roller (a 1) both sides, the shutoff base is kept away from its articulated end and is fixed with the sliding column, sliding column sliding connection is in the arc wall of last glue discharging roller (a 1), be fixed with telescopic push rod (a 6) on going up glue discharging roller (a 1), telescopic push rod (a 6) the mobile end is fixed in on the shutoff base, and the arc is done around its articulated end through telescopic push rod (a 6) drive shutoff base, the lower extreme sliding connection of shutoff base has blocking board (a 5), be fixed with on the longitudinal push rod (a 7) telescopic push rod (a) fixed in the longitudinal direction on the telescopic push rod (a 5).
6. A process for splicing aluminum veneers and corrugated boards in a building according to claim 3, wherein: the curved surface compounding device (b 4) comprises a curved surface positioning device (c 1), an upper compounding device (c 2), a lower compounding device (c 3) and a cutting device, wherein the upper compounding device (c 2), the lower compounding device (c 3) and the cutting device are respectively arranged above and below the curved surface positioning device.
7. The splicing production process of aluminum veneers and corrugated boards in a building according to claim 6, wherein the splicing production process comprises the following steps: the curved surface positioning device (c 1) comprises an auxiliary feeding roller group (c 11) positioned at the conveying starting end, a curved surface positioning plate (c 12) and a positioning traction mechanism (c 13) for drawing the corrugated core plate (3) into the curved surface positioning plate (c 12);
the auxiliary feeding roller group (c 11) is a feeding roller arranged up and down;
the curved surface positioning plates (c 12) are symmetrically arranged on two sides of the frame, curved surface grooves (c 121) which are matched with the shape to be formed of the corrugated plate (1) are formed in the curved surface positioning plates (c 12), the curved surface grooves (c 121) penetrate through one side, close to the auxiliary feeding roller group (c 11), of the curved surface positioning plates, the corresponding other side is a closed end, the curved surface positioning plates (c 12) are detachably fixed on the frame through screws, and limiting grooves (c 23) which are consistent with the bending radians of the curved surface grooves (c 121) are formed in the curved surface positioning plates (c 12) and are located above the curved surface grooves (c 121);
The positioning traction mechanism (c 13) comprises a positioning roller group (c 131) and a traction roller group (c 132) which can transversely slide along the radian of the curved surface groove (c 121);
the positioning roller group (c 131) comprises a first clamping roller and a second clamping roller which are arranged up and down and are matched with each other, the first clamping roller is rotationally connected to a first sliding block (c 1311), the second clamping roller is rotationally connected to a first base, the first sliding block (c 1311) is slidingly connected to the first base, a first elastic piece (c 1312) is arranged between the first sliding block (c 1311) and the first base, a plurality of corrugated strips which are circumferentially arranged are formed on the outer circumferences of the first clamping roller and the second clamping roller, the traction roller group (c 132) comprises a clamping part and a clamping driving mechanism which drives the clamping part to move, the clamping part comprises an upper clamping roller and a lower clamping roller which are vertically arranged and are matched with each other, the upper clamping roller is rotationally connected to a second sliding block (c 1321), the lower clamping roller is rotationally connected to a second base (c 1322), the second sliding block (c 1321) is slidingly connected to the second base (c 1321), a plurality of corrugated strips which are circumferentially arranged on the second base (c 1321), a threaded rod (1322) is rotationally connected to the second base (1322), one end of the second base (132) is fixedly provided with the threaded rod (c) and one end of the threaded rod (132) is rotatably arranged on the threaded base (4), the driving base is slidably connected in the driving chute (c 1325), the driving rotary motor drives the threaded rod to rotate, and the threaded rod rotates to drive the driving base to horizontally slide in the driving chute (c 1325).
8. The splicing production process of aluminum veneers and corrugated boards in a building according to claim 6, wherein the splicing production process comprises the following steps: the upper compound device (c 2) comprises a compound roller (c 21) and an upper compound driving mechanism for driving the compound roller (c 21) to move in a laminating manner along the upper surface of an upper compound blank, the compound roller (c 21) is rotationally connected to a central roller shaft, two ends of the central roller shaft are all penetrated into a limit groove (c 23), a heating device is arranged in the compound roller (c 21), two ends of the central roller shaft are vertically fixed with a sliding rod (c 22), the sliding rod (c 22) is slidingly connected in a compound sliding block, the compound sliding block is slidingly connected to the upper compound driving mechanism, the upper compound driving mechanism comprises an upper threaded rod and an upper rotating motor for driving the upper threaded rod, and the upper threaded rod is provided with a threaded hole and is in threaded connection with the upper threaded rod.
9. The splicing production process of aluminum veneers and corrugated boards in a building according to claim 6, wherein the splicing production process comprises the following steps: the lower compound device (c 3) is arranged below the curved surface positioning device (c 1) in a sliding way, and comprises a lower compound base and a lower compound mechanism which is horizontally and slidably connected to the lower compound base, the lower compound mechanism comprises a first base and a second base (c 31) which is longitudinally and slidably arranged on the first base, a lifting cylinder is fixed on the first base, the movable end of the lifting cylinder is fixed on the second base (c 31), a plurality of adaptive clamping units (c 32) are densely distributed above the second base (c 31), the adaptive clamping units (c 32) form a complete arc surface in a manner of converging into a surface through the adjustment of the respective height positions, and are used for adapting the shape of a lower compound blank, the adaptive clamping units (c 32) comprise telescopic driving mechanisms which are fixed on the second base (c 31), clamping adaptive parts are fixed on the movable ends of the telescopic driving mechanisms, the clamping adaptive parts comprise adaptive bases (c 33), sliding grooves are formed inside the second base (c 31), the adaptive clamping units (c 32) are in sliding grooves, the first semicircular bases (c) are connected with the first semicircular grooves (c) and the second semicircular bases (c) are connected with the first semicircular grooves (35) in the height, the first semicircular bases (c) are connected with the second semicircular grooves (35) in the first semicircular grooves in the height, and the second semicircular bases (35) are in the first semicircular grooves and the second semicircular grooves are in the first semicircular grooves, two second arc sliding grooves are formed in the upper surface of the second semicircular base (c 35), clamping heads (c 36) are connected in the two second arc sliding grooves in a sliding mode, the height of each clamping head (c 36) is higher than that of each second arc sliding groove, and a heating device is arranged in each clamping head (c 36).
10. The combined application of the aluminum veneer and the corrugated board in the building is characterized in that: the corrugated board (1) is used for splicing and installing large planes on a building, the aluminum veneer (2) is used for splicing and installing modeling parts on the building, the joint of the corrugated board (1) and the aluminum veneer (2) is tightly spliced, the large planes comprise flat surfaces and curved surfaces with small curvatures, and the modeling parts comprise curved surfaces with large curvatures and transitional connection curved surfaces between the two large planes.
CN202211465169.5A 2022-11-22 2022-11-22 Splicing production process of aluminum veneer and corrugated board in building and combined application thereof Active CN115805256B (en)

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US4099359A (en) * 1976-06-24 1978-07-11 Sivachenko Eugene W High strength corrugated metal plate and method of fabricating same
AU6831590A (en) * 1990-12-20 1992-07-02 Renhurst Products Pty. Ltd. Apparatus and product
CN110777988B (en) * 2019-10-30 2021-07-09 中国建筑第八工程局有限公司 Complex large-scale sheet metal copper lotus petal artistic curtain wall structure and construction method thereof
CN112108541B (en) * 2020-09-10 2021-05-11 广东同兴盛达建材有限公司 Bending forming processing technology for stone-like aluminum veneer
CN113187170A (en) * 2021-04-08 2021-07-30 山东龙标幕墙建材股份有限公司 Green environmental protection type aluminium veneer building materials
CN115351134B (en) * 2022-10-24 2022-12-30 山东大华日鑫铝业有限公司 Curtain wall aluminum single plate edge bending device capable of achieving rapid positioning

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