CN109516169A - Composite board manufacturing equipment, manufacture system and manufacturing process - Google Patents
Composite board manufacturing equipment, manufacture system and manufacturing process Download PDFInfo
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- CN109516169A CN109516169A CN201811420352.7A CN201811420352A CN109516169A CN 109516169 A CN109516169 A CN 109516169A CN 201811420352 A CN201811420352 A CN 201811420352A CN 109516169 A CN109516169 A CN 109516169A
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- composite board
- delivery interface
- manufacturing equipment
- conveying device
- board manufacturing
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/52—Devices for transferring articles or materials between conveyors i.e. discharging or feeding devices
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26D—CUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
- B26D11/00—Combinations of several similar cutting apparatus
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B37/00—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding
- B32B37/12—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by using adhesives
- B32B37/1284—Application of adhesive
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B38/00—Ancillary operations in connection with laminating processes
- B32B38/0004—Cutting, tearing or severing, e.g. bursting; Cutter details
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B38/00—Ancillary operations in connection with laminating processes
- B32B38/0036—Heat treatment
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/02—Devices for feeding articles or materials to conveyors
- B65G47/04—Devices for feeding articles or materials to conveyors for feeding articles
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26D—CUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
- B26D11/00—Combinations of several similar cutting apparatus
- B26D2011/005—Combinations of several similar cutting apparatus in combination with different kind of cutters, e.g. two serial slitters in combination with a transversal cutter
Abstract
The disclosure proposes a kind of composite board manufacturing equipment, manufacture system and manufacturing process.First conveying device of the first feeding mechanism of composite board manufacturing equipment has the first delivery interface upward.Second feeding mechanism includes the second conveying device being set to above the first conveying device at intervals, and the second conveying device has the second delivery interface directed downwardly.First delivery interface with it is positioned opposite above and below the second delivery interface, and first delivery interface feeding end and the feeding end of the second delivery interface be arranged in a staggered manner, the first platform area is defined in the part that the feeding end of the feeding end and the second delivery interface that make the first delivery interface is staggered.First platform area can be delivered on the first boundary material of the first platform area for core material.Shaping mechanism is set between the first delivery interface and the second delivery interface, and the first boundary material, second contact surface material and core material are fixed to composite board.
Description
Technical field
This disclosure relates to composite board manufacturing technology field more particularly to a kind of composite board manufacturing equipment, manufacture system
And manufacturing process.
Background technique
The continuous expansion of 65% new standard application range of rapid development and building energy conservation recently as construction industry, builds
It builds and is emerged one after another with all kinds of composite boards.The composite board of " sandwich " type belongs to a kind of modular design of existing composite board.
By taking composite board is three-decker as an example, upper layer and lower layer are with interface and protective effect, decoration function, insulation effect or fire prevention
The boundary layer of effect, intermediate one layer is the function material layer with specific function effect, such as insulating layer, fireprotection layer, waterproof layer
Deng.Wherein, function material layer can be simple function material and be also possible to multiple functions combination of materials, can be a whole knot
The function plate of structure is also possible to the combining form by having multiple bar shapeds or block-like functional material to be spliced.
The main production model of the composite board of the above-mentioned type includes batch process and continuity method, batch process equipment letter at present
Single, process is less, but production efficiency is lower, and product batches stability is poor.Continuity method is a kind of more advanced compared with batch process
Production technology, current continuous production processes are substantially the production that is carried out using traditional continuous composite plate line as carrier, due to
Its equipment is essentially common apparatus, and plate produced will receive more limitation in type and performance.
Summary of the invention
One main purpose of the disclosure is to overcome at least one defect of the above-mentioned prior art, and it is more to provide a kind of satisfaction
The composite board manufacturing equipment of the production technology demand of the composite board of kind type.
Another main purpose of the disclosure is to overcome at least one defect of the above-mentioned prior art, and providing one kind has
The composite board manufacture system of above-mentioned composite board manufacturing equipment.
Another main purpose of the disclosure is to overcome at least one defect of the above-mentioned prior art, provides a kind of satisfaction
The composite board manufacturing process of the production technology demand of the composite board of a variety of types.
To achieve the above object, the disclosure adopts the following technical scheme that
According to one aspect of the disclosure, a kind of composite board manufacturing equipment is provided.Wherein, the composite board manufacture is set
Standby includes the first feeding mechanism, the second feeding mechanism, third feeding mechanism and shaping mechanism.First feeding mechanism includes
First conveying device, first conveying device have the first delivery interface upward, with defeated using first delivery interface
Send the first boundary material.Second feeding mechanism includes the second conveying being set to above first conveying device at intervals
Device, second conveying device have the second delivery interface directed downwardly, to convey the second boundary using second delivery interface
Plane materiel material.First delivery interface with it is above and below second delivery interface positioned opposite, and first delivery interface enters
Material end and the feeding end of second delivery interface are arranged in a staggered manner, and make the feeding end and described second of first delivery interface
Define the first platform area in the part that the feeding end of delivery interface is staggered.First platform area is configured for core material and is delivered to institute
State the first boundary material or second contact surface material of the first platform area.The third feeding mechanism is configured as core material being delivered to
The first boundary material or second contact surface material positioned at first platform area.The shaping mechanism is set to first conveying circle
Between face and second delivery interface, the first boundary material, second contact surface material and core material are fixed to composite board.
According to one of embodiment of the disclosure, the length of first delivery interface in the conveying direction is greater than institute
The length of the second delivery interface in the conveying direction is stated, the feeding end of first delivery interface stretches out in second conveying circle
Below the feeding end in face, and make the part below the feeding end for stretching out in second delivery interface of first delivery interface
Define first platform area.
According to one of embodiment of the disclosure, first conveying device includes the first rack and is installed on described
First crawler belt of the first rack, first crawler belt define first delivery interface.Second conveying device includes second
Rack and the second crawler belt for being installed on second rack, second rack are set at intervals above first rack,
Second crawler belt defines second delivery interface.
According to one of embodiment of the disclosure, first rack two sides are equipped with multiple first support bases.It is described
Second rack two sides are equipped with multiple second support bases.Wherein, multiple first support bases are supported with multiple described second respectively
Seat is corresponding, and is connected with support column between first support base and opposite second support base, by described second
Rack is supported at intervals above first rack.
According to one of embodiment of the disclosure, first rack two sides are equipped with multiple first evenly and at intervals
Support seat.Second rack two sides are equipped with multiple second support bases evenly and at intervals.Wherein, between adjacent first support base
Away from the spacing for being equal to adjacent second support base, and the quantity of first support base is greater than the number of second support base
Amount, and keep the relative position of first rack and second rack adjustable along conveying direction.
According to one of embodiment of the disclosure, first boundary material and the second contact surface material are hard
Material;Alternatively, first boundary material and the second contact surface material are soft material;Alternatively, first interface
One of material and the second contact surface material are hard material, wherein another is soft material.
According to one of embodiment of the disclosure, first feeding mechanism further includes the first storage device.It is described
First storage device is adjacent to first conveying device, to store the first boundary material, and in first conveying device
The first boundary material is released in transmission process.
According to one of embodiment of the disclosure, first storage device be the first transfer gantry, described first
Transfer gantry is set to the feeding end side of first conveying device.First transfer gantry and first storage device it
Between be equipped with pressure roller, the pressure roller setting height be lower than first delivery interface setting height.Wherein, first interface
Material one end is connected to first transfer gantry, and the other end compresses via the pressure roller and accesses described first by feeding end
Delivery interface.
According to one of embodiment of the disclosure, second feeding mechanism further includes the second storage device.It is described
Second storage device is adjacent to second conveying device, to store second contact surface material, and in second conveying device
Second contact surface material is released in transmission process.
According to one of embodiment of the disclosure, second storage device is the second coiled material unreeling machine, described the
Two releasing coil machines are set to the top of second conveying device.Wherein, second contact surface material one end is connected to described
Two releasing coil machines, the other end access second delivery interface by feeding end.
According to one of embodiment of the disclosure, it is defeated that the discharge end of second delivery interface is aligned in described first
Below the discharge end for sending interface.
According to one of embodiment of the disclosure, it is defeated that the discharge end of first delivery interface stretches out in described second
It send below the discharge end at interface, and makes the stretching out in below the discharge end of second delivery interface of first delivery interface
Define the second platform area in part.
According to one of embodiment of the disclosure, the third feeding mechanism includes third conveying device.Described
Adjustable angle of three conveying devices relative to first delivery interface.Wherein, core material is conveyed via the third conveying device
To on the first boundary material of first platform area.
According to one of embodiment of the disclosure, the third conveying device is relative to first delivery interface
Angle of regulation range is 0 °~90 °.
According to one of embodiment of the disclosure, the composite board manufacturing equipment includes multiple third feedings
Mechanism.The discharge end of multiple third feeding mechanisms is on first platform area, respectively along first delivery interface
Conveying direction is spaced apart, and multiple core materials are sequentially delivered on the first boundary material of first platform area.
According to one of embodiment of the disclosure, the composite board manufacturing equipment further includes sizing mechanism, to divide
It is other that the upper surface of first boundary material and the upper surface of core material are glued.
According to one of embodiment of the disclosure, the sizing mechanism includes that sizing host and two sweep away cloth
Machine.Material distributing machine is swept away described in two and is connected to the sizing host, and is located at first conveying device side.Its
In the cloth discharge position of material distributing machine is swept away described in one, between the feeding end and the third feeding mechanism of first delivery interface
Between.The cloth discharge position that material distributing machine is swept away described in another one, between the third feeding mechanism and second conveying circle
Between the feeding end in face.
According to one of embodiment of the disclosure, the composite board manufacturing equipment further includes cutting mechanism, described
Cutting mechanism includes longitudinal cutting device, and the longitudinal cutting device is set to the discharge end side of first conveying device, in the first water
Composite board, the conveying direction phase of the first level cut direction and first conveying device are cut in flat cut direction
Together.And/or the composite board manufacturing equipment further includes cutting mechanism, the cutting mechanism includes infeed set-up, described crosscutting
Device is set to the discharge end side of first conveying device, described to cut composite board on the second horizontal resection direction
Second horizontal resection direction and the conveying direction of first conveying device are perpendicular.
According to another aspect of the disclosure, a kind of composite board manufacturing equipment is provided.Wherein, the composite board manufacture
Equipment includes the first feeding mechanism, the second feeding mechanism, auxiliary feeding mechanism and shaping mechanism.The first feeding mechanism packet
The first conveying device is included, first conveying device has the first delivery interface upward, to utilize first delivery interface
Convey the first boundary material.Second feeding mechanism include be set at intervals it is second defeated above first conveying device
Device is sent, second conveying device has the second delivery interface directed downwardly, to utilize second delivery interface conveying second
Boundary material.First delivery interface and above and below second delivery interface positioned opposite, and first delivery interface
Feeding end and the feeding end of second delivery interface are staggeredly arranged, and make the feeding end and described the of first delivery interface
The first platform area is defined in the part that the feeding end of two delivery interfaces is staggered, and first platform area is configured for core material and is delivered to
The first boundary material or second contact surface material of first platform area.The auxiliary feeding mechanism is configured as auxiliary operation person
Core material is delivered to the first boundary material or second contact surface material positioned at first platform area.The shaping mechanism is set to institute
It states between the first delivery interface and second delivery interface, the first boundary material, second contact surface material and core material is formed
For composite board.
According to another aspect of the disclosure, a kind of composite board manufacture system is provided.Wherein, the composite board manufacture
System includes composite board manufacturing equipment that multiple disclosure propose and described in the above-described embodiment, multiple described compound
Board manufacturing apparatus passes through sequence arrangement along conveying direction.
According to the another aspect of the disclosure, a kind of composite board manufacturing process is provided.Wherein, the composite board manufacture
Technique the following steps are included:
There is provided the first feeding mechanism and the second feeding mechanism, first feeding mechanism the first interface of surface transport on it
Material, second feeding mechanism convey second contact surface material in its lower surface;
Second feeding mechanism is set to above first feeding mechanism, and by the pan feeding of second feeding mechanism
End and the feeding end of first feeding mechanism are staggered in the conveying direction and define the first platform area;
Core material is inputted by first platform area;And
First boundary material, second contact surface material and core material are formed between the first feeding mechanism and the second feeding mechanism
Composite board is made.
As shown from the above technical solution, composite board manufacturing equipment, manufacture system and the manufacturing process that the disclosure proposes
It advantage and has the active effect that
The disclosure propose composite board manufacturing equipment, the first delivery interface with it is positioned opposite above and below the second delivery interface,
And first delivery interface feeding end and the feeding end of the second delivery interface be arranged in a staggered manner, and make the feeding end of the first delivery interface
The first platform area is defined in the part being staggered with the feeding end of the second delivery interface, and the first platform area can be delivered to first for core material
On first boundary material of platform area.By above-mentioned design, the delivery interface of two conveying devices is arranged in a staggered manner the disclosure, and
The operating platform for the input of other plates is defined with this, so that can adapt to different types of plate using the operating platform
Input demand accomplishes the de-stabilising effect that plate input is generated with composite molding organic linking without transitional facility, extends composite plate
The application range of material manufacturing equipment improves the production efficiency of equipment, optimizes the stability of product batches.
Detailed description of the invention
The detailed description of the following preferred embodiment to the disclosure, the various mesh of the disclosure are considered in conjunction with the accompanying drawings
Mark, feature and advantage will become apparent.Attached drawing is only the exemplary diagram of the disclosure, is not necessarily to draw in proportion
System.In the accompanying drawings, same appended drawing reference always shows same or similar component.Wherein:
Fig. 1 is a kind of structural schematic diagram of composite board manufacturing equipment shown according to an illustrative embodiments;
Fig. 2 is the side view of composite board manufacturing equipment shown in fig. 1;
Fig. 3 is the structural representation of the first conveying device and the second conveying device of composite board manufacturing equipment shown in fig. 1
Figure;
Fig. 4 is the first conveying device of composite board manufacturing equipment shown in fig. 1 and another structure of the second conveying device
Schematic diagram;
Fig. 5 is the top view of composite board manufacturing equipment shown in fig. 1;
Fig. 6 is the schematic diagram of the first feeding mechanism of composite board manufacturing equipment shown in fig. 1;
Fig. 7~Fig. 9 respectively illustrates the spread pattern of core material;
Figure 10 is the schematic diagram under a working condition of the third feeding mechanism of composite board manufacturing equipment shown in fig. 1;
Figure 11 is the signal under another working condition of the third feeding mechanism of composite board manufacturing equipment shown in fig. 1
Figure.
The reference numerals are as follows:
110. the first conveying device;
111. the first rack;
112. the first crawler belt;
113. the first support base;
114. support column;
120. the first transfer gantry;
130. pressure roller;
210. second conveying devices;
211. second racks;
212. second crawler belts;
213. second support bases;
220. second coiled material unreeling machines;
310. reclaiming plate;
410. sizing hosts;
421. first sweep away material distributing machine;
422. second sweep away material distributing machine;
510. longitudinal cutting device;
520. infeed set-up;
901. first boundary materials;
903. core material;
F0. conveying direction;
F1. first level cut direction;
F2. the second horizontal resection direction;
S1. the first delivery interface;
S2. the second delivery interface;
T1. the first platform area;
T2. the second platform area;
The inclination angle α.
Specific embodiment
The exemplary embodiments for embodying disclosure features and advantages will describe in detail in the following description.It should be understood that this
Open can have various variations in different embodiments, all not depart from the scope of the present disclosure, and it is therein illustrate and
Attached drawing is inherently illustrative, rather than to limit the disclosure.
It in being described below the different illustrative embodiments to the disclosure, is carried out referring to attached drawing, the attached drawing is formed
A part of this disclosure, and the exemplary knot of difference of many aspects of the achievable disclosure is wherein shown by way of example
Structure, system and step.It should be understood that other certain parties of component, structure, exemplary means, system and step can be used
Case, and structural and functional modification can be carried out without departing from disclosure range.Although moreover, can in this specification
Using term " on ", " under ", " between " etc. the different example features and element of the disclosure are described, but these terms
With in this article merely for convenient, for example, with reference to the accompanying drawings described in exemplary direction.Any content in this specification is not
The specific three dimensional direction for being interpreted as Structure of need is just fallen within the scope of the disclosure.
Composite board manufacturing equipment embodiment
Refering to fig. 1, the structural schematic diagram of disclosure proposition is representatively illustrated.In the illustrative embodiments,
The composite board manufacturing equipment that the disclosure proposes is illustrated for being applied to manufacture insulation board.Those skilled in the art
It is easily understood that for the relevant design of the disclosure to be applied in the manufacture or other techniques of other kinds of composite board,
And a variety of remodeling, addition, substitution, deletion or other variations are made to following specific embodiments, these variations are still in this public affairs
In the range of the principle of composite board manufacturing equipment for opening proposition.
As shown in Figure 1, in the present embodiment, the composite board manufacturing equipment that the disclosure proposes mainly includes the first feeding
Mechanism, the second feeding mechanism, third feeding mechanism, shaping mechanism, sizing mechanism and cutting mechanism.Cooperation is refering to Fig. 2 to figure
The side view that can embody the composite board manufacturing equipment of disclosure principle is representatively illustrated in 11, Fig. 2, wherein in order to
Convenient for attached drawing observation, eliminate part-structure in Fig. 2, for example, sizing mechanism sizing host 410, first sweep away material distributing machine 421
Material distributing machine 422 etc. is swept away with second, is illustrated hereby;The composite plate that can embody disclosure principle is representatively illustrated in Fig. 3
First conveying device 110 of material manufacturing equipment and the structural schematic diagram of the second conveying device 210;It is representatively illustrated in Fig. 4
Can embody the composite board manufacturing equipment of disclosure principle the first conveying device 110 and the second conveying device 210 it is another
Structural schematic diagram;The top view that can embody the composite board manufacturing equipment of disclosure principle is representatively illustrated in Fig. 5,
In, for the ease of attached drawing observation, part-structure, such as reclaiming plate 310, the second coiled material unreeling machine 220 etc. are eliminated in Fig. 5, it is special
This explanation;The first feeding mechanism that can embody the composite board manufacturing equipment of disclosure principle is representatively illustrated in Fig. 6
Schematic diagram;Fig. 7~Fig. 9 respectively illustrates the spread pattern of core material 903;This public affairs can be embodied by representatively illustrating in Figure 10
Schematic diagram under one working condition of the third feeding mechanism of the composite board manufacturing equipment of Kaiyuan reason;Typically show in Figure 11
The signal under another working condition of the third feeding mechanism of the composite board manufacturing equipment of disclosure principle is gone out to embody
Figure.Structure, connection below in conjunction with above-mentioned attached drawing, to each chief component of the composite board manufacturing equipment of disclosure proposition
Mode and functional relationship are described in detail.
As depicted in figs. 1 and 2, in the present embodiment, the first feeding mechanism includes at least the first conveying device 110, the
One conveying device 110 has the first delivery interface S1 upward, and the first conveying device 110 can be defeated using the first delivery interface S1
Send the first boundary material 901.Second feeding mechanism includes at least the second conveying device 210, and the second conveying device 210 has downward
The second delivery interface S2, the second conveying device 210 can using the second delivery interface S2 convey second contact surface material.Wherein,
For second conveying device 210 with the first conveying device 110 between the upper and lower every being oppositely arranged, i.e. the first delivery interface S1 and second conveys boundary
Face S2 is between the upper and lower every positioned opposite, and the second delivery interface S2 is located at the top of the first delivery interface S1 at intervals.Also, the
The length of one conveying device 110 is greater than the length of the second conveying device 210, i.e., the first delivery interface S1 is on conveying direction F0
Length is greater than length of the second delivery interface S2 on conveying direction F0, and the feeding end of the first delivery interface S1 stretches out in second
Below the feeding end of delivery interface S2.Part below the feeding end for stretching out in the second delivery interface S2 of first delivery interface S1
Define the first platform area T1.Third feeding mechanism is arranged on the first platform area T1, and third feeding mechanism can be by core material 903
It is delivered on the first boundary material 901 of the first platform area T1.Shaping mechanism is arranged in the first delivery interface S1 and second
Between delivery interface S2, shaping mechanism can be by the first boundary material 901, second contact surface material and core material 903 for example, by pressure
The processes such as conjunction, sizing, heating, conveying are fixed to composite board.Accordingly, two conveying devices are designed as in lower length by the disclosure
It is short, and the operating platform (i.e. the first platform area T1) for the input of other plates is defined with this, enable and utilizes the operating platform
The input demand of different types of core material is enough adapted to, the application range of composite board manufacturing equipment is extended.
It should be noted that being big with length of the first delivery interface S1 on conveying direction F0 in the present embodiment
It is illustrated for the length on conveying direction F0 in the second delivery interface S2, and is with the feeding end of the first delivery interface S1
It is illustrated for the displaced manner stretched out in below the feeding end of the second delivery interface S2.In other embodiments, it is based on
The design base that the first delivery interface S1 and the second delivery interface S2 for the composite board manufacturing equipment that the disclosure proposes are arranged in a staggered manner
Plinth, the first delivery interface S1 on conveying direction F0 length and length of the second delivery interface S2 on conveying direction F0 can be with
It is equal, also can for the first delivery interface S1 the length on conveying direction F0 less than the second delivery interface S2 on conveying direction F0
Length, be not limited with present embodiment.Furthermore the feeding end of the second delivery interface S2 is also extended in the first delivery interface
The top of the feeding end of S1, is not also limited with present embodiment.
Further, as shown in figure 3, the feeding end based on the first delivery interface S1 stretches out in entering for the second delivery interface S2
Expect the design below end, in the present embodiment, the discharge end of the second delivery interface S2 can preferably be aligned in the first conveying
Below the discharge end of interface S1.As shown in figure 4, in other embodiments, according to different process requirements, the first delivery interface
The discharge end of S1 is also extended below the discharge end of the second delivery interface S2, and makes the first delivery interface S1's to stretch out in second
Part below the discharge end of delivery interface S2 defines the second platform area T2.Wherein, when on the first delivery interface S1 while boundary
When making the first platform area T1 and the second platform area T2, the first platform area T1 can be preferably as operating platform, and second is flat
Platform area T2 can be preferably as delivery platform.
As depicted in figs. 1 and 2, in the present embodiment, the first conveying device 110 can preferably use tracked machine or class
Like structure, i.e. the first conveying device 110 mainly includes the first rack 111 and the first crawler belt 112 for being mounted on the first rack 111,
And first crawler belt 112 defines the first above-mentioned delivery interface S1.Similarly, the second conveying device 210 is also preferably adopted
With tracked machine or similar structures, and the second conveying device 210 mainly includes the second rack 211 and is mounted on the second rack 211
Second crawler belt 212.Wherein, the second rack 211 is set to 111 top of the first rack at intervals, and it is defeated that the second crawler belt 212 defines second
Send interface S2.In other embodiments, other conveying shapes may be selected in the first conveying device 110 and the second conveying device 210
Formula, such as roller, roll shaft or feed belt etc., are not limited with present embodiment.
It further, as depicted in figs. 1 and 2, include the design of the first rack 111 based on the first conveying device 110, simultaneously
Design based on the second conveying device 210 including the second rack 211, in the present embodiment, the two sides of the first rack 111 can be with
Multiple first support bases 113 are preferably provided with, and the two sides of the second rack 211 can be preferably provided with multiple second supports
Seat 213.Wherein, multiple first support bases 113 are corresponding with multiple second support bases 213 respectively, and the first support base 113 and phase
Pair the second support base 213 between be connected with support column 114, thus by the second rack 211 at intervals support be arranged first
The top of rack 111.In other embodiments, it is the top that the second rack 211 is arranged in the first rack 111, can also adopts
It is realized, is not limited with present embodiment with other support constructions.
Further, as depicted in figs. 1 and 2, the first support base 113, the second support base are passed through based on the second rack 211
213 and support column 114 be arranged in the first rack 111 top design, in the present embodiment, multiple first support bases 113
The two sides of first rack 111 can be preferably set using mode evenly and at intervals, that is, it is ipsilateral to be located at the first rack 111
The spacing of each two neighboring first support base 113 is equal.Correspondingly, between multiple second support bases 213 also preferably use
The two sides of the second rack 211 are set every equably mode, that is, are located at ipsilateral each two neighboring second of the second rack 211
The spacing of support seat 213 is equal.Wherein, the spacing of two neighboring first support base 113 is equal to two neighboring second support base 213
Spacing, and the quantity of the first support base 113 is greater than the quantity of the second support base 213, and makes the first rack 111 and the second rack
211 relative position is adjustable along conveying direction F0.Accordingly, only pass through a set of first support base 113,213 and of the second support base
Support column 114, i.e., freely adjustable setting position of second rack 211 on conveying direction F0 relative to the first rack 111 are full
Sufficient kinds of processes needs.
As shown in Figure 1, Figure 2 and shown in Fig. 5, in the present embodiment, the first feeding mechanism can also preferably include the first storage
Expect device.Specifically, the first storage device is adjacent to the first conveying device 110, the mode which sets may include it is neighbouring but
The setting at interval, also may include adjacent setting, and specific set-up mode can need to adjust according to different process.First storing dress
It sets to store the first boundary material 901, and releases the first boundary material 901 in the transmission process of the first conveying device 110.
It further, as shown in Figure 1, Figure 2 and shown in Fig. 5, include the design of the first storage device based on the first feeding mechanism,
In present embodiment, the first storage device can preferably use transfer gantry, i.e. the first transfer gantry 120.First conveying
The feeding end side of the first conveying device 110 is arranged in bracket 120.
Further, as shown in fig. 6, being the design of the first transfer gantry 120 based on the first storage device, in this implementation
In mode, pressure roller 130 is provided between the first transfer gantry 120 and the first storage device, such as be spaced on conveying direction F0
Two pressure rollers 130 being arranged, and the setting height of pressure roller 130 is lower than the setting height of the first delivery interface S1.Accordingly, the first boundary
901 one end of plane materiel material is connected to the first transfer gantry 120, and the other end compresses and via pressure roller 130 by feeding end access first
Delivery interface S1.
It should be noted that in the present embodiment, the first boundary material 901 is to be set to the first transfer gantry 120
It is illustrated for hard material, which is by organic material, inorganic material or to include at least above two material
The hard type interface sheet material that is prepared of combined material, it can be, for example, ceramic thin plate, cement fibre pressure plate, OSB plate etc.,
It also may be, for example, the material same or similar with core material with functions such as heat preservation, fire prevention, waterproofs.In other embodiments
In, the first boundary material 901 also can be other soft coiled materials, then need using other storage modes or store equipment, herein
It will not go into details.
As depicted in figs. 1 and 2, in the present embodiment, the second feeding mechanism can also preferably include the second storing dress
It sets.Specifically, the second storage device is adjacent to the second conveying device 210, the mode which sets may include neighbouring but be spaced
Setting, also may include adjacent setting, and be in the present embodiment using by the setting of the second feeding mechanism in the second conveying
210 top of device, specific set-up mode can need to adjust according to different process.Second storage device is to store second contact surface
Material, and second contact surface material is released in the transmission process of the second conveying device 210.
It further, as depicted in figs. 1 and 2, include the design of the second storage device based on the second feeding mechanism, in this reality
It applies in mode, the second storage device can be preferably releasing coil machine, i.e. the second coiled material unreeling machine 220, and second coiled material is put
The top of the second conveying device 210 is arranged in volume machine 220.Second contact surface material one end is connected to the second coiled material unreeling machine 220, separately
The second delivery interface S2 is accessed by the feeding end of the second delivery interface S2 in one end.
Further, as depicted in figs. 1 and 2, in the present embodiment, the second coiled material unreeling machine 220 can be adopted preferably
The top of the second conveying device 210 is placed on the high mode of frame, such arrangement can reduce by the second coiled material unreeling machine 220
The space of other equipment is stopped, the progress of production is facilitated, while reducing second contact surface material and entering the second conveying device
210 length, the problem of avoiding second contact surface material sideslip.
It should be noted that in the present embodiment, second contact surface material is the volume to be set to the second coiled material unreeling machine 220
It is illustrated for material (i.e. soft material), which is by organic material, inorganic material or including at least above-mentioned two
The soft interface coiled material that the combined material of kind material is prepared, it can be, for example, polyalcohol cement basis glass coiled material, polymerization
Object cement base non-woven fabric coiled material etc..In other embodiments, second contact surface material 902 also can be the plate of other hard, or
It may be, for example, the material same or similar with core material with functions such as heat preservation, fire prevention, waterproofs, then need using other storage sides
Formula or storage equipment, it will not be described here.
It should be noted that being with the first boundary material 901 for hard material and second contact surface material in the present embodiment
Material is is illustrated for soft material, therefore the first feeding mechanism includes transfer gantry and the second feeding mechanism includes that coiled material is put
Volume machine.In other embodiments, the first boundary material 901 also can be soft material and second contact surface material also can be hard material
Material, then the first feeding mechanism can correspondingly the conveying device or storing suitable for soft material including such as releasing coil machine fill
It sets, the second feeding mechanism can correspondingly include the conveying device or storage device suitable for hard material of such as transfer gantry.
Furthermore the first boundary material 901 also can be used and second contact surface material be hard material or be soft material design, then
First feeding mechanism and the second feeding mechanism can correspondingly include that the conveying suitable for hard material of such as transfer gantry fills
It sets or storage device, or can correspondingly equal conveying device or the storing dress for being suitable for soft material including such as releasing coil machine
It sets.
As depicted in figs. 1 and 2, in the present embodiment, third feeding mechanism mainly includes third conveying device and goes out
Flitch 310.Specifically, reclaiming plate 310 is arranged above the first platform area T1,310 one end of reclaiming plate is connected to third conveying
The discharge end of device, the other end extend on the first delivery interface S1.Wherein, reclaiming plate 310 is relative to the first delivery interface S1
Adjustable angle, core material 903 is delivered to via third conveying device and reclaiming plate 310 positioned at the first interface of the first platform area T1
On material 901.By above-mentioned design, can be arranged according to the different shape of core material 903, size and the station of operator flexible
Reclaiming plate 310 is adjusted relative to the inclination alpha of the first delivery interface S1 and conveying rack position, guarantees 903 energy of core material of different shapes
It is enough to stablize closely conveying splicing.In other embodiments, third feeding mechanism also can only include third conveying device, then and
Three feeding mechanisms are that core material is delivered to the first platform area T1 using third conveying device.Wherein, third conveying device relative to
The adjustable angle of first delivery interface S1.In addition, in other embodiments, other modes, such as manual operation also can be used,
Core material 903 is transported on the first boundary material 901 on the first platform area T1, is not limited with present embodiment.
Furthermore core material 903 in other embodiments, is transported to by setting for the first platform area T1 based on use manual operation
It counts, also settable auxiliary feed mechanism.Specifically, the auxiliary feed mechanism can be set in the first platform area T1, such as set
Set or neighbour be located in the first conveying device or the second conveying device that (such as auxiliary feed mechanism can be set in the first platform area
Top, the lower section of T1, can also be in its two sides or other positions), it is used in operator's During manual operation, to the defeated of core material
Auxiliary is sent to provide the combination of power-assisted, guiding, any function of carrying or multiple above-mentioned functions.For example, auxiliary feed mechanism
It can select with flowering structure or device, carry out relevant operation using infrared ray auxiliary positioning or alignment, and by artificial;Using
In the middle part of the first platform area T1 or the position kept to the side is arranged parallel to the limiting device of conveying direction F0, carries out auxiliary positioning,
And relevant operation is carried out by artificial;Using small-sized holding structure " midway unloading " raw material, convenient manually take is put.
For example, as shown in fig. 7, passing through the above-mentioned design of third feeding mechanism, when the arrangement mode of core material 903 uses
It, can be correspondingly by inclining between reclaiming plate 310 and the first delivery interface S1 when along the direction arrangement for being transversely to the conveying direction F0
Angle α is set as 0 °~15 °, may further be preferably 0 ° shown in Figure 10, i.e. horizontality.For another example, as shown in Figure 8 and Figure 9,
Correspondingly will by the above-mentioned design of third feeding mechanism when the arrangement mode of core material 903 is used along conveying direction F0 arrangement
Inclination alpha between reclaiming plate 310 and the first delivery interface S1 is set as 15 °~70 °, and can be spelled according to the monolithic of core material 903
Width of the jointed sheet material on conveying direction F0 is specifically chosen the angle of inclination alpha, and the angle of high inclination-angle α is preferably got over according to width
Spend smaller selection mode.It should be noted that in other embodiments, no matter the arrangement mode of core material 903 why, reclaiming plate
310 can be preferably fall between 0 °~90 ° relative to the angular range of the inclination alpha of the first delivery interface S1.In other implementations
In mode, when third feeding mechanism only includes third conveying device, third conveying device is relative to the first delivery interface S1's
The angular range at inclination angle is also preferably fallen between 0 °~90 °
In addition, in other embodiments, core material 903 also can be pulverulent material, solid granule or liquid etc. without fixation
The material of form.Correspondingly, when using third feeding mechanism conveying the above-mentioned type core material 903 when, third feeding mechanism or its
Third conveying device can be selected as structure or device of the suitable conveying such as tubulose, funnel-form without fixed form material.
In addition, in other embodiments, composite board manufacturing equipment may include multiple third feeding mechanisms, and not
It is limited to the design of a third feeding mechanism in present embodiment.Wherein, when composite board manufacturing equipment includes multiple thirds
When feeding mechanism, the discharge end of multiple third feeding mechanisms is on the first platform area T1, respectively along the defeated of the first delivery interface S1
It send direction F0 to be spaced apart, multiple core materials 903 is sequentially delivered to the first boundary material 901 positioned at the first platform area T1
On.Wherein, above-mentioned multiple core materials 903 are multiple core materials 903 for the first boundary material 901 is with second contact surface material
It can be identical core material 903, also can be the plate of different function material, arrangement mode, shape or size.
As shown in Figure 1 and Figure 5, in the present embodiment, composite board manufacturing equipment can also preferably include sizing applicator
Structure.The sizing mechanism can be glued in the upper surface to the first boundary material 901 and the upper surface of core material 903 respectively, thus by core
The lower surface of material 903 is Nian Jie with the upper surface of the first boundary material 901, and by the lower surface of second contact surface material and core material 903
Upper surface bonding.
Further, as shown in Figure 1 and Figure 5, each laminate is bonded by way of sizing based on composite board manufacturing equipment
The design of material, in the present embodiment, sizing mechanism can preferably include sizing host 410 and two are swept away material distributing machine (i.e.
First, which sweeps away material distributing machine 421 and second, sweeps away material distributing machine 422).Specifically, two are swept away material distributing machine and are connected to sizing master
Machine 410, and it is located at the side of the first conveying device 110.First sweeps away the cloth discharge position of material distributing machine 421, defeated between first
It send between the feeding end of interface S1 and third feeding mechanism.Second sweeps away the cloth discharge position of material distributing machine 422, between third feeder
Between structure and the feeding end of the second delivery interface S2.Accordingly, two sweep away material distributing machine can one-time continuous operation in complete it is more
The bonding of a surface layer and material, while space and equipment cost can be saved to greatest extent.
Further, in the present embodiment, being glued adhesive used in host 410 can include but is not limited to polyurethane
Adhesive, epoxy resin adhesive, acrylic acid adhesive.
As shown in Figure 1, Figure 2 and shown in Fig. 5, in the present embodiment, composite board manufacturing equipment can also be preferably included and be cut
Cutting mill structure.The cutting mechanism can preferably include at least one of longitudinal cutting device 510 and infeed set-up 520.It is specific and
The discharge end side of the first conveying device 110 is arranged in speech, longitudinal cutting device 510, and longitudinal cutting device 510 in first level to cut
Composite board is cut on the F1 of direction, and first level cut direction F1 is identical as the conveying direction F0 of the first conveying device 110.It is horizontal
Cutting apparatus 520 is set to the discharge end side of the first conveying device 110, and infeed set-up 520 is in the second horizontal resection direction
Composite board is cut on F2, and the second horizontal resection direction F2 and the conveying direction F0 of the first conveying device 110 are perpendicular.
It further, as depicted in figs. 1 and 2, include the design of cutting mechanism based on composite board manufacturing equipment, in this reality
It applies in mode, when cutting mechanism includes longitudinal cutting device 510, the cutting part type of longitudinal cutting device 510 can be used preferably
The design of annular saw.Also, the cutting part of longitudinal cutting device 510 can be designed as liftable structure.In other embodiments,
The cutting part of longitudinal cutting device 510 also may be selected to be other types, such as band saw etc. is not limited with present embodiment.
It further, include that the design of cutting mechanism works as cutting in the present embodiment based on composite board manufacturing equipment
When mechanism includes longitudinal cutting device 510, longitudinal cutting device 510 may include multiple annular saws (cutting part), these annular saws along perpendicular to
The direction of conveying direction F0 is alternatively arranged, and being located in the middle at least one annular saw may be implemented longitudinally cutting function to composite board
Can, the longitudinally cutting function to composite board then may be implemented in two annular saws positioned at two sides, or may be implemented to composite plate
The trimming function of material.
It should be noted here that shown in attached drawing and the composite board manufacturing equipment that describes in the present specification be only can
Using an example in many kinds of composite board manufacturing equipments of disclosure principle.It should be clearly understood that the original of the disclosure
Reason is only limitted to show in attached drawing absolutely not or any details or composite board of composite board manufacturing equipment described in this specification
Any part of manufacturing equipment.
For example, in the present embodiment, also settable several linked sets, these linked sets can preferably divide
It She Zhi not be between the first conveying device 110 and cutting mechanism, between infeed set-up 520 and longitudinal cutting device 510 and cutting machine
Between structure and downstream processing equipment, to realize smooth transition conveying of the composite board between each mechanism or device.
Composite board manufacture system embodiment
Based on the exemplary illustration of the above-mentioned composite board manufacturing equipment proposed to the disclosure, the disclosure will be proposed below
Illustrative embodiments of composite board manufacture system be illustrated.
In the present embodiment, the composite board manufacture system that the disclosure proposes may include it is that the multiple disclosure propose and
The composite board manufacturing equipment being described in detail in the above-described embodiment.Specifically, multiple composite board manufacturing equipments are edges
Conveying direction passes through sequence arrangement.Each composite board manufacturing equipment can be using different the first conveying device and the second conveying device
Design, to form different the first platform area or the second platform area, and each composite board manufacturing equipment may include inhomogeneity
The cutting mechanism of type, or do not include cutting mechanism, to meet different process needs.
It should be noted here that shown in attached drawing and the composite board manufacture system that describes in the present specification be only can
Using an example in many kinds of composite board manufacture systems of disclosure principle.It should be clearly understood that the original of the disclosure
Reason is only limitted to show in attached drawing absolutely not or any details or composite board of composite board manufacture system described in this specification
Any part of manufacture system.
Composite board manufacturing process embodiment
Based on it is above-mentioned to the disclosure propose composite board manufacturing equipment and composite board manufacture system exemplary illustration,
The composite board manufacturing process proposed to the disclosure is illustrated below.In the illustrative embodiments, this public affairs
The composite board manufacturing process for opening proposition is illustrated for being applied to the manufacturing process of manufacture insulation board.This field skill
The relevant design of the disclosure it is easily understood that be applied to the manufacture or other works of other kinds of composite board by art personnel
In skill, and a variety of remodeling, addition, substitution, deletion or other variations are made to following specific embodiments, these variations still exist
In the range of the principle for the composite board manufacturing process that the disclosure proposes.
In the present embodiment, the composite board manufacturing process that the disclosure proposes mainly comprises the steps that
There is provided the first feeding mechanism and the second feeding mechanism, the first feeding mechanism the first interface of surface transport material on it
Material, the second feeding mechanism convey second contact surface material in its lower surface, and the length of the first feeding mechanism is greater than the second feeding mechanism;
Second feeding mechanism is set to above the first feeding mechanism, and by the discharge end of the second feeding mechanism and the first feeding
The discharge end of mechanism is aligned, the first feeding mechanism upper surface between its feeding end and the feeding end of the second feeding mechanism
The first platform area is defined in part;
After first boundary material enters the first platform area by the feeding end of the first feeding mechanism, in the upper of the first boundary material
Top sizing;
Core material is delivered to the first platform area using third feeding mechanism, and falls in table on the first boundary material being glued
Face, then the upper surface of core material is glued in the first platform area;And
First boundary material and core material are delivered between the first feeding mechanism and the second feeding mechanism, shaping mechanism is utilized
Composite board is made in first boundary material, core material and second contact surface material shaping.
It should be noted here that shown in attached drawing and the composite board manufacturing process that describes in the present specification be only can
Using an example in many kinds of composite board manufacturing process of disclosure principle.It should be clearly understood that the original of the disclosure
Reason is only limitted to show in attached drawing absolutely not or any details or composite board of composite board manufacturing process described in this specification
Any step of manufacturing process.
Exemplary theory based on the above-mentioned composite board manufacturing equipment, manufacture system and manufacturing process proposed to the disclosure
It is bright, the processing technology of different types of composite board will illustrate to using above-mentioned manufacturing equipment or manufacturing process below
It is bright.
Process example one
In this process example, the disclosure propose composite board manufacturing equipment can be used for manufacturing one side be it is soft and
It is on one side the composite board of hard, i.e. one of the first boundary material and second contact surface material is hard, and wherein another
It is soft.
It for example, is illustrated so that composite board is heat insulating decorative board as an example in this process example, i.e. the first boundary
Plane materiel material can be the ceramic thin plate of hard, and second contact surface material can be soft polyalcohol cement basis glass coiled material, core material
It can be the thermal insulation materials such as vertical hair rock cotton sliver.Wherein, vertical hair rock cotton sliver can forward convey material-uploading style (with reference to Fig. 7 for strip
It is shown), third feeding mechanism can be preferably designed to 10 ° with respect to the angle of the first conveying device, and use longitudinal cutting device
Deburring in middle deep-sawing in deep-sawing group to manufactured composite board carry out in cutting cut.
Concrete technology flow process is as follows: ceramic thin plate can be placed on the first transfer gantry, and utilize the first conveying branch
Frame pushes to ceramic thin plate on the first platform area of the first conveying device, from the first conveying device drive ceramic thin plate together to
Preceding movement;Sweeping away material distributing machine by first, that adhesive is sprayed on ceramic thin plate is spare;Vertical hair rock cotton sliver is placed in third feeding
In mechanism, by third feeding mechanism, by vertical hair rock cotton sliver, forward conveying direction code is tight and pushes to and has been glued and is placed in first
Above ceramic thin plate on first platform area of conveying device;Material distributing machine is swept away by second be fed forward together with ceramic thin plate
Vertical hair rock cotton sliver on spray adhesive, then with the polyalcohol cement basis glass coiled material of the second coiled material unreeling machine uncoiling together into
Enter the space cavity that is collectively formed between the first conveying device and the second conveying device complete insulation and decoration boards half-finished product pressing,
The processes such as sizing, heating, conveying;The insulation and decoration boards half-finished product of compound completion is transported to such as deburring by connection transition roller table
In the longitudinal cutting device of middle deep-sawing group, complete relevant deburring and in cut open process, subsequently into the infeed set-up of such as cross saw
Complete the relevant cross-section cutting procedure of insulation and decoration boards half-finished product.
Process example two
In this process example, the disclosure propose composite board manufacturing equipment can be used for manufacturing one side be it is soft and
It is on one side the composite board of hard, i.e. one of the first boundary material and second contact surface material is hard, and wherein another
It is soft.
For example, in this process example, the first boundary material can be the cement fibre pressure plate of hard, the second boundary
Plane materiel material can be soft polyalcohol cement basis glass coiled material, and core material can be the thermal insulation materials such as vertical hair rock cotton sliver.Wherein, it erects
Silk rock cotton sliver can be strip lateral transfer material-uploading style (with reference to shown in Fig. 8), can be defeated by third feeding mechanism relatively first
The angle of device is sent to be preferably designed to 30 °, without using the middle deep-sawing in deep-sawing group in the deburring of longitudinal cutting device to manufactured multiple
Cutting is cut in the progress of plywood material.
Concrete technology flow process is as follows: cement fibre pressure plate can be placed on the first transfer gantry, and utilize first
Transfer gantry pushes to cement fibre pressure plate on the first platform area of the first conveying device, drives water by the first conveying device
Mud fibre pres plate travels forward together;Sweeping away material distributing machine by first, that adhesive is sprayed on cement fibre pressure plate is spare;It will
Vertical hair rock cotton sliver is placed on third feeding mechanism, tightly and is pushed away vertical hair rock cotton sliver lateral transfer direction code by third feeding mechanism
It send to the cement fibre pressure plate on the first platform area for being glued and being placed in the first conveying device;It is swept away by second
Material distributing machine sprays adhesive on the vertical hair rock cotton sliver being fed forward together with cement fibre pressure plate, then puts with the second coiled material
The polyalcohol cement basis glass coiled material of volume machine uncoiling, which enters together between the first conveying device and the second conveying device, to be collectively formed
Space cavity complete the processes such as pressing, sizing, heating, conveying of insulation and decoration boards half-finished product;The insulation and decoration of compound completion
Boards half-finished product is transported in deburring in the longitudinal cutting device of deep-sawing group by connection transition roller table, completes relevant trimming process step, so
Enter in the infeed set-up of such as cross saw afterwards and completes the relevant cross-section cutting procedure of insulation and decoration boards half-finished product.
Process example three
In this process example, the disclosure propose composite board manufacturing equipment can be used for manufacturing one side be it is soft and
It is on one side the composite board of hard, i.e. one of the first boundary material and second contact surface material is hard, and wherein another
It is soft.
For example, in this process example, the first boundary material can be the cement fibre pressure plate of hard, the second boundary
Plane materiel material can be soft polyalcohol cement basis glass coiled material, and core material can be vertical hair rock cotton sliver and polyphenyl lath interval cloth
It sets.Wherein, vertical hair rock cotton sliver and polyphenyl lath can be strip lateral transfer material-uploading style (with reference to shown in Fig. 9), can be by the
Three feeding mechanisms are preferably designed to 25 ° with respect to the angle of the first conveying device, without using deep-sawing group in the deburring of longitudinal cutting device
In middle deep-sawing to manufactured composite board carry out in cutting cut.
Concrete technology flow process is as follows: cement fibre pressure plate can be placed on the first transfer gantry, and utilize first
Transfer gantry pushes to cement fibre pressure plate on the first platform area of the first conveying device, drives water by the first conveying device
Mud fibre pres plate travels forward together;Sweeping away material distributing machine by first, that adhesive is sprayed on cement fibre pressure plate is spare;It will
It is placed on third feeding mechanism to vertical hair rock cotton sliver and polyphenyl lath arranged for interval, by third feeding mechanism by vertical hair rock cotton sliver
It is tight with polyphenyl lath lateral transfer direction code and push on the first platform area for being glued and being placed in the first conveying device
Cement fibre pressure plate above;Material distributing machine is swept away in the vertical hair rock wool being fed forward together with cement fibre pressure plate by second
Adhesive is sprayed on item and polyphenyl lath, then enters together with the cement base non-woven fabric coiled material of the second coiled material unreeling machine uncoiling
The space cavity being collectively formed between one conveying device and the second conveying device is completed the pressing of insulation and decoration boards half-finished product, is determined
The processes such as type, heating, conveying;The insulation and decoration boards half-finished product of compound completion is transported to deep-sawing in deburring by connection transition roller table
In the longitudinal cutting device of group, relevant trimming process step is completed, subsequently into completing relevant guarantor in the infeed set-up of such as cross saw
The temperature decoration cross-section cutting procedure of boards half-finished product.
Process example four
In this process example, the disclosure propose composite board manufacturing equipment can be used for manufacturing one side be it is soft and
It is on one side the composite board of hard, i.e. one of the first boundary material and second contact surface material is hard, and wherein another
It is soft.
For example, in this process example, the first boundary material can be the cement fibre pressure plate of hard, the second boundary
Plane materiel material can be soft above-mentioned all kinds of coiled materials, and core material can be styrofoam.Concrete technology flow process can refer to above-mentioned technique
The explanation of embodiment, it will not be described here.
Process example five
In this process example, the disclosure propose composite board manufacturing equipment can be used for manufacturing one side be it is soft and
It is on one side the composite board of hard, i.e. one of the first boundary material and second contact surface material is hard, and wherein another
It is soft.
For example, in this process example, the first boundary material can be the calcium silicate board of hard, second contact surface material
It can be soft above-mentioned all kinds of coiled materials, core material can be XPS plate.Concrete technology flow process can be with reference to above-mentioned process example
Illustrate, it will not be described here.
Process example six
In this process example, the disclosure propose composite board manufacturing equipment can be used for manufacturing one side be it is soft and
It is on one side the composite board of hard, i.e. one of the first boundary material and second contact surface material is hard, and wherein another
It is soft.
For example, in this process example, the first boundary material can be the thin stone material of hard, and second contact surface material can
Think that soft above-mentioned all kinds of coiled materials, core material can be styrofoam.Concrete technology flow process can be with reference to above-mentioned process example
Illustrate, it will not be described here.
It should be noted that being using the first boundary material as hard and second contact surface material in above-mentioned process example
Be it is soft for illustrate, in other words, be using by hard material as the first boundary material and by soft material as the second boundary
Illustrate for plane materiel material.It in other embodiments, is hard based on one of the first boundary material and second contact surface material
Matter, and wherein another is soft design, it also can be using hard material as second contact surface material and using soft material as first
Boundary material.
Process example seven
In this process example, it is soft that the composite board manufacturing equipment that the disclosure proposes, which can be used for manufacturing two sides,
Composite board, i.e. the first boundary material and second contact surface material are soft.
For example, in this process example, polymerization that the first boundary material and second contact surface material all can be soft
Object cement base glass coiled material, core material can be vertical hair rock cotton sliver.Wherein, vertical hair rock cotton sliver can forward convey feeding side for strip
Third feeding mechanism can be preferably designed to 10 ° with respect to the angle of the first conveying device, used by formula (with reference to shown in Fig. 7)
Middle deep-sawing in the deburring of longitudinal cutting device in deep-sawing group cuts cutting in the progress of manufactured composite board.
Concrete technology flow process is as follows: polyalcohol cement basis glass coiled material being placed on another releasing coil machine, and is utilized
Another releasing coil machine pushes to cement base glass coiled material on the first platform area of the first conveying device, is filled by the first conveying
It sets and polyalcohol cement basis glass coiled material is driven to travel forward together;Material distributing machine is swept away in polyalcohol cement basis glass coiled material by first
Upper spraying adhesive is spare;Vertical hair rock cotton sliver is placed on third feeding mechanism, by third feeding mechanism by vertical hair rock cotton sliver
Lateral transfer direction code is tight and pushes to the polymer water on the first platform area for being glued and being placed in the first conveying device
Above mud base glass coiled material;Material distributing machine is swept away in the vertical hair rock being fed forward together with polyalcohol cement basis glass coiled material by second
Adhesive is sprayed on sliver, it is defeated then to enter first together with the polyalcohol cement basis glass coiled material of the second coiled material unreeling machine uncoiling
It send the pressing of the space cavity being collectively formed between device and the second conveying device completion thermal insulating composite panel semi-finished product, sizing, add
The processes such as heat, conveying;The thermal insulating composite panel semi-finished product of compound completion are transported to deep-sawing group in deburring by connection transition roller table
In longitudinal cutting device, complete relevant deburring and in cut open process, it is relevant subsequently into being completed in the infeed set-up of such as cross saw
The cross-section cutting procedure of thermal insulating composite panel semi-finished product.
Process example eight
The done plate of the present embodiment is double soft face structures
In this process example, it is soft that the composite board manufacturing equipment that the disclosure proposes, which can be used for manufacturing two sides,
Composite board, i.e. the first boundary material and second contact surface material are soft.
For example, in this process example, polymerization that the first boundary material and second contact surface material all can be soft
Object cement base glass coiled material, core material can be blocky extruded sheet, can be by the folder of opposite first conveying device of third feeding mechanism
Angle is preferably designed to 0 °, without using the middle deep-sawing in deep-sawing group in the deburring of longitudinal cutting device in the progress of manufactured composite board
Cutting is cut.Concrete technology flow process can refer to the explanation of above-mentioned process example, and it will not be described here.
Process example nine
In this process example, it is soft that the composite board manufacturing equipment that the disclosure proposes, which can be used for manufacturing two sides,
Composite board, i.e. the first boundary material and second contact surface material are soft.
For example, in this process example, polymerization that the first boundary material and second contact surface material all can be soft
Object cement base non-woven fabric coiled material, core material can be vertical hair rock cotton sliver and polyphenyl lath arranged for interval, can be by third feeding mechanism
The angle of opposite first conveying device is preferably designed to 25 °, without using the middle deep-sawing in deep-sawing group in the deburring of longitudinal cutting device
Cutting in the progress of manufactured composite board is cut.Concrete technology flow process can refer to the explanation of above-mentioned process example, herein not
It gives and repeating.
It is with the first boundary material and second contact surface material is soft it should be noted that in above-mentioned process example
Illustrate for matter.It in other embodiments, can also be hard based on the first boundary material and second contact surface material.
In conclusion above and below the composite board manufacturing equipment that the disclosure proposes, the first delivery interface and the second delivery interface
It is positioned opposite, and the feeding end of the first delivery interface and the feeding end of the second delivery interface are opened up more and are set, and make the first conveying circle
Define the first platform area in the part that the feeding end in face and the feeding end of the second delivery interface are staggered.By above-mentioned design, the disclosure
The delivery interface of two conveying devices is arranged in a staggered manner, and the operating platform for the input of other plates is defined with this, makes to get profit
It can adapt to the input demand of different types of plate with the operating platform, extend the application range of composite board manufacturing equipment,
The production efficiency for improving equipment, optimizes the stability of product batches.
It is described in detail above and/or illustrates composite board manufacturing equipment, manufacture system and the manufacture of disclosure proposition
The illustrative embodiments of technique.But embodiment of the present disclosure is not limited to particular implementation as described herein, on the contrary, often
The component part and/or step of a embodiment can be independent with other component parts as described herein and/or step and be separated
It uses.Each component part of one embodiment and/or each step can also be with other component parts of other embodiment
And/or step is used in combination.Introduce it is described here and/or diagram element/component part/wait whens, term "one",
" one " and " above-mentioned " etc. to indicate there are one or more elements/component part/etc..Term "comprising", " comprising " and " tool
Have " to indicate the open meaning being included and refer to that the element/component part/in addition to listing can also deposit other than waiting
Other element/component part/etc..In addition, the term " first " and " second " etc. in claims and specification are only made
It is used for label, is not the numerical limit to its object.
Although the composite board manufacturing equipment, manufacture system and the system that have been proposed according to different specific embodiments to the disclosure
It makes technique to be described, but it will be recognized by those skilled in the art can be in the spirit and scope of the claims to the disclosure
Implementation be modified.
Claims (21)
1. a kind of composite board manufacturing equipment, it is characterised in that:
The composite board manufacturing equipment includes the first feeding mechanism, the second feeding mechanism, third feeding mechanism and forming machine
Structure;
First feeding mechanism includes the first conveying device, and first conveying device has the first delivery interface upward,
To convey the first boundary material using first delivery interface;
Second feeding mechanism includes the second conveying device being set to above first conveying device at intervals, and described the
Two conveying devices have the second delivery interface directed downwardly, to convey second contact surface material using second delivery interface;
First delivery interface and positioned opposite above and below second delivery interface, and the feeding end of first delivery interface
It is staggeredly arranged with the feeding end of second delivery interface, and conveys the feeding end of first delivery interface and described second
The first platform area is defined in the part that the feeding end at interface is staggered, and first platform area is configured for core material and is delivered to described
The first boundary material or second contact surface material of one platform area;
The third feeding mechanism is configured as core material being delivered to the first boundary material positioned at first platform area or
Second interface material;
The shaping mechanism be set between first delivery interface and second delivery interface, by the first boundary material,
Second contact surface material and core material are fixed to composite board.
2. composite board manufacturing equipment according to claim 1, which is characterized in that first delivery interface is in conveying side
Upward length is greater than the length of second delivery interface in the conveying direction, and the feeding end of first delivery interface stretches out
Below the feeding end of second delivery interface, and make second delivery interface that stretches out in of first delivery interface
Define first platform area in part below feeding end.
3. composite board manufacturing equipment according to claim 2, it is characterised in that:
First conveying device includes the first rack and the first crawler belt for being installed on first rack, first crawler belt circle
Fixed first delivery interface;
Second conveying device includes the second rack and the second crawler belt for being installed on second rack, the second rack phase
Compartment of terrain is set to above first rack, and second crawler belt defines second delivery interface.
4. composite board manufacturing equipment according to claim 3, it is characterised in that:
First rack two sides are equipped with multiple first support bases;
Second rack two sides are equipped with multiple second support bases;
Wherein, multiple first support bases are corresponding with multiple second support bases respectively, and first support base with
It is connected with support column between opposite second support base, second rack is supported in first machine at intervals
Above frame.
5. composite board manufacturing equipment according to claim 3, it is characterised in that:
First rack two sides are equipped with multiple first support bases evenly and at intervals;
Second rack two sides are equipped with multiple second support bases evenly and at intervals;
Wherein, the spacing of adjacent first support base is equal to the spacing of adjacent second support base, and first support
The quantity of seat is greater than the quantity of second support base, and makes the relative position of first rack and second rack along defeated
Send direction adjustable.
6. composite board manufacturing equipment according to claim 1, which is characterized in that first boundary material and described
Second interface material is hard material;Alternatively, first boundary material and the second contact surface material are soft material;Or
Person, one of first boundary material and the second contact surface material are hard material, wherein another is soft material.
7. composite board manufacturing equipment according to claim 1, it is characterised in that:
First feeding mechanism further includes the first storage device;
First storage device is adjacent to first conveying device, to store the first boundary material, and it is defeated in described first
It send and releases the first boundary material in the transmission process of device.
8. composite board manufacturing equipment according to claim 7, it is characterised in that:
First storage device is the first transfer gantry, and first transfer gantry is set to the pan feeding of first conveying device
Hold side;
Pressure roller is equipped between first transfer gantry and first storage device, the setting height of the pressure roller is lower than described
The setting height of first delivery interface;
Wherein, first boundary material one end is connected to first transfer gantry, and the other end is compressed via the pressure roller
And first delivery interface is accessed by feeding end.
9. composite board manufacturing equipment according to claim 2, it is characterised in that:
Second feeding mechanism further includes the second storage device;
Second storage device is adjacent to second conveying device, to store second contact surface material, and it is defeated in described second
Send releasing second contact surface material in the transmission process of device.
10. composite board manufacturing equipment according to claim 9, it is characterised in that:
Second storage device is the second coiled material unreeling machine, and the second coiled material unreeling machine is set to second conveying device
Top;
Wherein, second contact surface material one end is connected to the second coiled material unreeling machine, described in the other end is accessed as feeding end
Second delivery interface.
11. composite board manufacturing equipment according to claim 2, it is characterised in that:
The discharge end of second delivery interface is aligned in below the discharge end of first delivery interface.
12. composite board manufacturing equipment according to claim 2, it is characterised in that:
The discharge end of first delivery interface stretches out in below the discharge end of second delivery interface, and makes described first defeated
The part below the discharge end for stretching out in second delivery interface at interface is sent to define the second platform area.
13. composite board manufacturing equipment according to claim 2, it is characterised in that:
The third feeding mechanism includes third conveying device;
Adjustable angle of the third conveying device relative to first delivery interface;
Wherein, core material is delivered on the first boundary material of first platform area via the third conveying device.
14. composite board manufacturing equipment according to claim 13, it is characterised in that:
The third conveying device is 0 °~90 ° relative to the angle of regulation range of first delivery interface.
15. composite board manufacturing equipment according to claim 2, it is characterised in that:
The composite board manufacturing equipment includes multiple third feeding mechanisms;
The discharge end of multiple third feeding mechanisms is on first platform area, respectively along the defeated of first delivery interface
It send direction to be spaced apart, multiple core materials is sequentially delivered on the first boundary material of first platform area.
16. composite board manufacturing equipment according to claim 2, it is characterised in that:
The composite board manufacturing equipment further include sizing mechanism, with respectively to the first boundary material upper surface and core material it is upper
Top sizing.
17. composite board manufacturing equipment according to claim 16, it is characterised in that:
The sizing mechanism includes that sizing host and two sweep away material distributing machine;
Material distributing machine is swept away described in two and is connected to the sizing host, and is located at first conveying device side;
The cloth discharge position that material distributing machine is swept away described in one of them, feeding end and the third between first delivery interface are sent
Expect between mechanism;
The cloth discharge position that material distributing machine is swept away described in another one, between the third feeding mechanism and second delivery interface
Feeding end between.
18. composite board manufacturing equipment according to claim 1, it is characterised in that:
The composite board manufacturing equipment further includes cutting mechanism, and the cutting mechanism includes longitudinal cutting device, the longitudinal cutting device
Set on the discharge end side of first conveying device, to cut composite board in first level cut direction, described first
Horizontal resection direction is identical as the conveying direction of first conveying device;And/or
The composite board manufacturing equipment further includes cutting mechanism, and the cutting mechanism includes infeed set-up, the infeed set-up
Set on the discharge end side of first conveying device, to cut composite board on the second horizontal resection direction, described second
Horizontal resection direction and the conveying direction of first conveying device are perpendicular.
19. a kind of composite board manufacturing equipment, it is characterised in that:
The composite board manufacturing equipment includes the first feeding mechanism, the second feeding mechanism, auxiliary feeding mechanism and forming machine
Structure;
First feeding mechanism includes the first conveying device, and first conveying device has the first delivery interface upward,
To convey the first boundary material using first delivery interface;
Second feeding mechanism includes the second conveying device being set to above first conveying device at intervals, and described the
Two conveying devices have the second delivery interface directed downwardly, to convey second contact surface material using second delivery interface;
First delivery interface and positioned opposite above and below second delivery interface, and the feeding end of first delivery interface
It is staggeredly arranged with the feeding end of second delivery interface, and conveys the feeding end of first delivery interface and described second
The first platform area is defined in the part that the feeding end at interface is staggered, and first platform area is configured for core material and is delivered to described
The first boundary material or second contact surface material of one platform area;
The auxiliary feeding mechanism is configured as auxiliary operation person and core material is delivered to the first boundary positioned at first platform area
Plane materiel material or second contact surface material;
The shaping mechanism be set between first delivery interface and second delivery interface, by the first boundary material,
Second contact surface material and core material are fixed to composite board.
20. a kind of composite board manufacture system, it is characterised in that:
The composite board manufacture system includes the described in any item composite board manufacturing equipments of multiple claims 1~19, more
A composite board manufacturing equipment passes through sequence arrangement along conveying direction.
21. a kind of composite board manufacturing process, which comprises the following steps:
There is provided the first feeding mechanism and the second feeding mechanism, first feeding mechanism the first interface of surface transport material on it
Material, second feeding mechanism convey second contact surface material in its lower surface;
Second feeding mechanism is set to above first feeding mechanism, and by the feeding end of second feeding mechanism with
The feeding end of first feeding mechanism is staggered in the conveying direction and defines the first platform area;
Core material is inputted by first platform area;And
First boundary material, second contact surface material and core material are formed between the first feeding mechanism and the second feeding mechanism and are made
Composite board.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110228207A (en) * | 2019-07-09 | 2019-09-13 | 江苏博康特建材有限公司 | A kind of coiled material and plate hot pressing composite system |
CN110253742A (en) * | 2019-06-11 | 2019-09-20 | 广东友力智能科技有限公司 | A kind of integrated wallboard automatic production line |
CN111604993A (en) * | 2020-06-03 | 2020-09-01 | 李玲 | Die cutting process for manufacturing PVC plastic floor sheet |
CN114515860A (en) * | 2022-04-21 | 2022-05-20 | 四川航天职业技术学院(四川航天高级技工学校) | Metal screen processing equipment |
Citations (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003011234A (en) * | 2001-04-23 | 2003-01-15 | Sekisui Chem Co Ltd | Method and apparatus for producing laminated composite |
EP1561568A1 (en) * | 2001-04-23 | 2005-08-10 | Sekisui Chemical Co., Ltd. | Method and apparatus for producing laminated composite |
TW201414657A (en) * | 2012-10-09 | 2014-04-16 | Utechzone Co Ltd | Conveying device |
CN205238198U (en) * | 2015-10-21 | 2016-05-18 | 巨石集团有限公司 | Smooth and easy material feeding unit of saw material machine |
JP2016147070A (en) * | 2016-03-09 | 2016-08-18 | エスセーアー・ハイジーン・プロダクツ・アーベー | Method and device for cutting material from web |
CN106965261A (en) * | 2017-04-07 | 2017-07-21 | 南兴装备股份有限公司 | One kind cuts computer panel saw equipment in length and breadth |
DE102016116798A1 (en) * | 2016-09-08 | 2018-03-08 | Dieffenbacher GmbH Maschinen- und Anlagenbau | Tapelegevorrichtung and Tapelegeverfahren with pivoting cutting device |
CN207329786U (en) * | 2017-06-05 | 2018-05-08 | 美克国际家私加工(天津)有限公司 | A kind of high-frequency plate-splicing machine aids in loading and unloading connection system |
CN207807939U (en) * | 2017-12-12 | 2018-09-04 | 台州市意利欧机械有限公司 | A kind of crosscutting sawing machine of plate |
CN209306456U (en) * | 2018-11-26 | 2019-08-27 | 李万祥 | Composite board manufacturing equipment and manufacture system |
-
2018
- 2018-11-26 CN CN201811420352.7A patent/CN109516169A/en active Pending
Patent Citations (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003011234A (en) * | 2001-04-23 | 2003-01-15 | Sekisui Chem Co Ltd | Method and apparatus for producing laminated composite |
EP1561568A1 (en) * | 2001-04-23 | 2005-08-10 | Sekisui Chemical Co., Ltd. | Method and apparatus for producing laminated composite |
TW201414657A (en) * | 2012-10-09 | 2014-04-16 | Utechzone Co Ltd | Conveying device |
CN205238198U (en) * | 2015-10-21 | 2016-05-18 | 巨石集团有限公司 | Smooth and easy material feeding unit of saw material machine |
JP2016147070A (en) * | 2016-03-09 | 2016-08-18 | エスセーアー・ハイジーン・プロダクツ・アーベー | Method and device for cutting material from web |
DE102016116798A1 (en) * | 2016-09-08 | 2018-03-08 | Dieffenbacher GmbH Maschinen- und Anlagenbau | Tapelegevorrichtung and Tapelegeverfahren with pivoting cutting device |
CN106965261A (en) * | 2017-04-07 | 2017-07-21 | 南兴装备股份有限公司 | One kind cuts computer panel saw equipment in length and breadth |
CN207329786U (en) * | 2017-06-05 | 2018-05-08 | 美克国际家私加工(天津)有限公司 | A kind of high-frequency plate-splicing machine aids in loading and unloading connection system |
CN207807939U (en) * | 2017-12-12 | 2018-09-04 | 台州市意利欧机械有限公司 | A kind of crosscutting sawing machine of plate |
CN209306456U (en) * | 2018-11-26 | 2019-08-27 | 李万祥 | Composite board manufacturing equipment and manufacture system |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110253742A (en) * | 2019-06-11 | 2019-09-20 | 广东友力智能科技有限公司 | A kind of integrated wallboard automatic production line |
CN110228207A (en) * | 2019-07-09 | 2019-09-13 | 江苏博康特建材有限公司 | A kind of coiled material and plate hot pressing composite system |
CN110228207B (en) * | 2019-07-09 | 2024-04-12 | 江苏博康特建材有限公司 | Coiled material and panel hot pressing composite system |
CN111604993A (en) * | 2020-06-03 | 2020-09-01 | 李玲 | Die cutting process for manufacturing PVC plastic floor sheet |
CN111604993B (en) * | 2020-06-03 | 2021-08-24 | 北京康居倡导建材科技有限公司 | Die cutting process for manufacturing PVC plastic floor sheet |
CN114515860A (en) * | 2022-04-21 | 2022-05-20 | 四川航天职业技术学院(四川航天高级技工学校) | Metal screen processing equipment |
CN114515860B (en) * | 2022-04-21 | 2022-06-21 | 四川航天职业技术学院(四川航天高级技工学校) | Metal screen processing equipment |
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