CN113828482B - High-strength foam aluminum multilayer composite board compounding device - Google Patents

Abstract

The invention belongs to the technical field of composite board production equipment, and particularly relates to a compounding device of a high-strength foamed aluminum multilayer composite board, which comprises: the device comprises a plate placing platform, a transverse driving component, a push rod, a sliding mechanism and a dispensing block; the transverse driving component drives the push rod to move transversely so as to drive the sliding mechanism and the glue dispensing block on the sliding mechanism to move towards the outer side wall of the aluminum frame, namely, after the glue dispensing block is pushed to be in contact with the outer side wall of the aluminum frame, the glue dispensing block dispenses glue in a contact area with the outer side wall of the aluminum frame; inserting a foam plate into the aluminum frame and then bonding the foam plate with another aluminum frame to form a foam aluminum multilayer composite plate; according to the invention, the glue dispensing block is driven to directly dispense glue on the outer side wall of the aluminum frame placed on the plate placing platform under the linkage action of the transverse driving part, the push rod and the sliding mechanism, two composite plates can be directly bonded together to form the foamed aluminum multilayer composite plate, the structure is simple, and the production cost of the foamed aluminum multilayer composite plate is low.

Description

High-strength foam aluminum multilayer composite board compounding device

Technical Field

The invention belongs to the technical field of composite board production equipment, and particularly relates to a compounding device of a high-strength foamed aluminum multilayer composite board.

Background

In the production process of the composite board, a plurality of boards are required to be combined together to form the composite board.

However, the traditional composite board production equipment directly adopts hot-press forming, and because each board needs a metal frame to insert a foam board, the board can be crushed by direct hot-pressing, and the cost of the foam aluminum multilayer composite board is too high.

Therefore, it is necessary to develop a new high-strength aluminum foam multi-layer composite board combining device to solve the above problems.

Disclosure of Invention

The invention aims to provide a compounding device of a high-strength foamed aluminum multilayer composite board.

In order to solve the above technical problems, the present invention provides a high strength aluminum foam multilayer composite board compositing apparatus, which comprises: the device comprises a plate placing platform, a transverse driving component, a push rod, a sliding mechanism and a dispensing block; the movable part of the transverse driving part is connected with one end of a push rod, the other end of the push rod is connected with a sliding mechanism, and the glue dispensing block is fixed on the sliding mechanism; when the aluminum frame is placed on the plate placing platform, the transverse driving part is suitable for driving the pushing rod to transversely move so as to drive the sliding mechanism and the glue dispensing block on the sliding mechanism to move towards the outer side wall of the aluminum frame, namely after the glue dispensing block is pushed to be in contact with the outer side wall of the aluminum frame, the glue dispensing block dispenses glue on a contact area of the glue dispensing block and the outer side wall of the aluminum frame; and after the foam plate is inserted into the aluminum material frame, the foam plate is bonded with another aluminum material frame inserted with the foam plate through the corresponding glue dispensing area to form the foamed aluminum multilayer composite plate.

Further, at least one side edge of the plate placing platform is provided with a corresponding baffle, namely, when the aluminum frame is placed on the plate placing platform, the baffle abuts against the aluminum frame.

Further, the slide mechanism includes: a sliding block and a sliding guide rail; the bottom of the sliding block is provided with a sliding groove, and the sliding groove is matched with the sliding guide rail; the sliding block is arranged on the sliding guide rail through the sliding groove; the end of the push rod is connected to the sliding block, the glue block is fixed on the sliding block, namely the transverse driving part is suitable for driving the push rod to move transversely so as to drive the sliding block to move along the sliding guide rail, and further drive the glue block to move towards the outer side wall of the aluminum frame or reversely keep away from the outer side wall of the aluminum frame.

Further, the sliding mechanism further includes: an elastic sheet; one end of the elastic piece is connected to the sliding block, and the other end of the elastic piece is connected to the fixed frame; the elastic piece is used for limiting the sliding block to prevent the sliding block from being separated from the sliding guide rail.

Further, a glue dispensing channel is arranged in the glue dispensing block, and a glue inlet hole and a glue outlet hole which are communicated with the glue dispensing channel are formed in the glue dispensing block; the glue inlet hole is connected with a glue injector, glue sequentially passes through the glue inlet hole, the glue dispensing channel and the glue outlet hole to advance, namely, after the glue dispensing block is pushed to be in contact with the outer side wall of the aluminum frame, the glue is dispensed in a contact area with the outer side wall of the aluminum frame through the glue outlet hole.

Further, a hollow dispensing rod is arranged in the glue outlet; the glue dispensing block is in contact with the outer side wall of the aluminum frame through the hollow glue dispensing rod.

Further, after one of the outer side walls of the aluminum frame is glued, the aluminum frame is turned to be placed on the plate placing platform again, namely, the other outer side wall of the aluminum frame is glued, and accordingly the aluminum frame correspondingly inserted with the foam plate is respectively bonded on the two outer side walls of the aluminum frame to form the foamed aluminum multilayer composite plate.

Further, the transverse driving part, the push rod, the sliding mechanism and the glue dispensing block are all installed on the transverse moving plate, the transverse moving plate moves through the driving cylinder, namely the transverse driving part is matched with the driving cylinder to drive the glue dispensing block to form an XY-axis moving surface, and glue is dispensed at the corresponding position of the outer side wall of the aluminum material frame.

Further, the compound device further comprises: the glue dispensing mechanism, the glue injection mechanism and the driving mechanism are arranged on the base; wherein the plate placing platform is provided with a supporting part and a spot gluing part; a plurality of glue storage cavities are formed in the glue dispensing part, and the glue dispensing mechanism is movably arranged in the corresponding glue storage cavities; the glue injection mechanism is positioned above the glue dispensing mechanism, presses downwards towards the glue dispensing mechanism to enter the corresponding glue storage cavity, and injects glue into the glue storage cavity; the driving mechanism is movably connected in each glue storage cavity; when the aluminum frame is placed on the upper frame of the plate placing platform, the glue dispensing mechanism is pressed down by the aluminum frame to open the corresponding glue storage cavity, and the driving mechanism pushes glue in the glue storage cavity to be extruded out along the glue dispensing mechanism to be dispensed in a contact area with the aluminum frame; and actuating mechanism supports after the mechanism is glued to the point, actuating mechanism promotes the mechanism upward movement of gluing in order to jack up the aluminum product frame, until the mechanism is glued corresponding storage and is glued the chamber and seal to make the aluminum product frame of jack-up take place the slope, the glue of point on the aluminum product frame promptly along with the department that corresponds position orientation and supporting part correspond the position and flow in the point to insert the cystosepiment formation foamed aluminium multilayer composite board after gluing to the whole face of aluminum product frame.

Further, the glue dispensing mechanism includes: at least one dispensing assembly; each glue dispensing assembly is movably arranged in the corresponding glue storage cavity; when the aluminum frame is placed on the upper frame of the plate placing platform, each glue dispensing assembly is pressed down by the aluminum frame to open the corresponding glue storage cavity, and the driving mechanism pushes glue in the glue storage cavity to be extruded out along the corresponding glue dispensing assembly so as to be dispensed in a contact area with the aluminum frame; after the driving mechanism props against the adhesive components at each point, the driving mechanism pushes the corresponding adhesive components to move upwards so as to jack up the aluminum frame until the adhesive components seal the corresponding adhesive storage cavities, so that the jacked aluminum frame is inclined; the dispensing part is provided with a plurality of glue through holes, and each glue through hole is communicated with the corresponding glue storage cavity; the dispensing assembly comprises: dispensing a glue stick, a plugging block and a spring sleeve; the glue dispensing rod is fixed on the top of the blocking block so as to slide in the corresponding glue through hole; the plugging blocks are positioned in the corresponding glue storage cavities, the bottoms of the plugging blocks are movably connected to the bottoms of the corresponding glue storage cavities through sleeve springs, and the tops of the glue dispensing rods are exposed out of the corresponding glue through holes; when the aluminum frame props against the glue dispensing rod, the blocking block and the sleeve spring to be pressed downwards, the sleeve spring is extruded to drive the glue dispensing rod and the blocking block to fall down, so that the corresponding glue through hole opens the corresponding glue storage cavity, and glue in the corresponding glue storage cavity is pushed by the driving mechanism to be extruded along the glue dispensing rod and is dispensed in a contact area of the glue dispensing rod and the aluminum frame; after actuating mechanism supported the sprue, actuating mechanism promoted sprue upward movement through the inclined plane cooperation with the sprue, so that the stick of gluing is with aluminum product frame jack-up, until the sprue is stopped up corresponding logical gluey hole to the aluminum product frame that makes the jack-up takes place the slope, the glue of point on the aluminum product frame promptly along with the stick of gluing contact area orientation flows with the supporting part corresponding position.

The invention has the advantages that the transverse driving component, the pushing rod and the sliding mechanism are linked to drive the glue dispensing block to directly dispense glue on the outer side wall of the aluminum frame placed on the plate placing platform, so that two composite plates can be directly bonded together to form the foamed aluminum multilayer composite plate, the structure is simple, and the production cost of the foamed aluminum multilayer composite plate is low.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a block diagram of a compounding device of the present invention;

FIG. 2 is a block diagram of the dispensing block of the present invention;

FIG. 3 is a self-contained view of the compound device of the present invention;

FIG. 4 is a partial block diagram of a compound device of the present invention;

FIG. 5 is a block diagram of the sheet placement platform of the present invention;

FIG. 6 is an initial state diagram of the dispensing mechanism of the present invention;

FIG. 7 is a state view of the dispensing mechanism of the present invention when an aluminum frame is erected;

FIG. 8 is a diagram illustrating a dispensing state of the dispensing mechanism of the present invention;

FIG. 9 is a view showing a state where the glue dispensing mechanism of the present invention jacks up an aluminum frame;

FIG. 10 is a block diagram of the glue injection mechanism of the present invention;

FIG. 11 is a block diagram of the drive mechanism of the present invention;

FIG. 12 is an initial state diagram of the operational components of the present invention;

fig. 13 is a state diagram of the operating assembly of the present invention when depressed.

In the figure:

the plate placing platform 1, the supporting part 100, the glue dispensing part 110, the glue storage cavity 111, the glue through hole 112 and the baffle 120;

a transverse driving member 2;

a push rod 3;

a slide mechanism 4, a slide block 400, a slide guide 410, and an elastic piece 420;

a glue dispensing block 5, a glue inlet hole 500 and a hollow glue dispensing rod 510;

a traverse plate 6;

a driving cylinder 7;

a Z-axis cylinder 8;

the glue dispensing mechanism 9, the glue dispensing rod 900, the blocking block 910, the sleeve spring 920, the sleeve 921, the movable column 922 and the limiting spring 923;

The glue injection mechanism 10, the transverse cylinder 1000, the longitudinal cylinder 1010, the glue injection block 1020 and the glue injection hollow rod 1030;

the device comprises a driving mechanism 11, an operating assembly 1100, a moving plate 1101, a moving guide rail 1102, a positioning spring 1103, a straight hinge bar 1104, a bent hinge bar 1105, a connecting rod assembly 1110, a glue-extruding assembly 1120 and a glue-extruding block 1121.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

In this embodiment, as shown in fig. 1 to 13, the present embodiment provides a high-strength aluminum foam multilayer composite board compositing apparatus, which includes: the plate placing platform 1, the transverse driving component 2, the push rod 3, the sliding mechanism 4 and the spot gluing block 5; the movable part of the transverse driving part 2 is connected with one end of a push rod 3, the other end of the push rod 3 is connected with a sliding mechanism 4, and the glue dispensing block 5 is fixed on the sliding mechanism 4; when an aluminum frame is placed on the plate placing platform 1, the transverse driving part 2 is suitable for driving the pushing rod 3 to transversely move so as to drive the sliding mechanism 4 and the glue dispensing block 5 on the sliding mechanism 4 to move towards the outer side wall of the aluminum frame, namely after the glue dispensing block 5 is pushed to be in contact with the outer side wall of the aluminum frame, the glue dispensing block 5 dispenses glue on a contact area of the glue dispensing block 5 and the outer side wall of the aluminum frame; and after the foam plate is inserted into the aluminum material frame, the foam plate is bonded with another aluminum material frame inserted with the foam plate through the corresponding glue dispensing area to form the foamed aluminum multilayer composite plate.

Plate placing platform 1

The plate placing platform 1 mainly plays a bearing role, so that the glue dispensing block 5 abuts against the aluminum frame on the plate placing platform 1 for dispensing.

Transverse drive component 2

The transverse driving component 2 mainly plays a driving role, and the transverse driving component 2 adopts an air cylinder to realize pushing.

Push rod 3

The push rod 3 mainly plays a role of a connecting piece, can prolong the connecting distance and improves the structural stability.

Sliding mechanism 4

The sliding mechanism 4 mainly plays a role in installation and synergy, and the sliding mechanism 4 can drive the dispensing block 5 to move towards the outer side wall of the aluminum material frame, so that the dispensing block 5 is in contact with the outer side wall of the aluminum material frame.

Dispensing block 5

The glue dispensing block 5 mainly plays a role in dispensing glue on the outer side wall of the aluminum frame.

In this embodiment, this embodiment drives dispensing block 5 through horizontal drive unit 2, catch bar 3, 4 linkage effects of slide mechanism and directly glues the lateral wall point of placing the aluminum product frame on panel place platform 1, can directly bond two composite sheets and form foamed aluminum multilayer composite sheet together, and simple structure just is low in production cost to foamed aluminum multilayer composite sheet.

In this embodiment, at least one side of the plate placing platform 1 is provided with a corresponding baffle 120, that is, when an aluminum frame is placed on the plate placing platform 1, the baffle 120 abuts against the aluminum frame.

In this embodiment, can prevent through setting up baffle 120 that the aluminum product frame from rocking, the displacement, can promote the stability of gluing, avoid the point to glue and cause the aluminum product frame to shift.

In the present embodiment, the slide mechanism 4 includes: a slide block 400 and a slide rail 410; the bottom of the sliding block 400 is provided with a sliding groove, and the sliding groove is matched with the sliding guide rail 410; the sliding block 400 is mounted on the sliding guide 410 through a sliding groove; the end part of the push rod 3 is connected to the sliding block 400, the glue block 5 is fixed on the sliding block 400, namely, the transverse driving part 2 is suitable for driving the push rod 3 to transversely move so as to drive the sliding block 400 to move along the sliding guide rail 410, and further drive the glue block 5 to move towards the outer side wall of the aluminum frame or to reversely keep away from the outer side wall of the aluminum frame.

In this embodiment, the sliding block 400 and the sliding rail 410 cooperate to realize a displacement function, so as to drive the dispensing block 5 to move.

In this embodiment, the sliding mechanism 4 further includes: an elastic sheet 420; one end of the elastic piece 420 is connected to the sliding block 400, and the other end of the elastic piece 420 is connected to the fixed frame; the elastic piece 420 limits the sliding block 400 to prevent the sliding block 400 from being separated from the sliding guide 410.

In this embodiment, the elastic piece 420 can prevent the sliding block 400 from separating from the sliding guide 410, thereby improving the structural stability of the composite device.

In this embodiment, a dispensing channel is disposed in the dispensing block 5, and a dispensing hole 500 and a dispensing hole communicating with the dispensing channel are disposed on the dispensing block 5; the glue inlet 500 is connected with a glue injector, glue sequentially passes through the glue inlet 500, the glue dispensing channel and the glue outlet to advance, namely, when the glue dispensing block 5 is pushed to be in contact with the outer side wall of the aluminum frame, the glue is dispensed in a contact area with the outer side wall of the aluminum frame through the glue outlet.

In this embodiment, the glue outlet is provided with a hollow glue dispensing rod 510; the dispensing block 5 is contacted with the outer side wall of the aluminum frame through a hollow dispensing rod 510.

In this embodiment, the hollow dispensing rod 510 is used for dispensing, so that the dispensing can be accurately performed at one point of the outer side wall of the aluminum frame, thereby improving the bonding firmness.

In this embodiment, after one of the outer sidewalls of the aluminum frame is dispensed, the aluminum frame is turned to be re-placed on the plate placement platform 1, that is, another outer sidewall of the aluminum frame is dispensed, so that the two outer sidewalls of the aluminum frame are respectively bonded with the aluminum frames correspondingly inserted with the foam boards to form the foamed aluminum multi-layer composite plate, the structure is simple and efficient, and double-sided dispensing of the aluminum frame is realized.

In this embodiment, the transverse driving component 2, the push rod 3, the sliding mechanism 4 and the dispensing block 5 are all installed on the transverse moving plate 6, and the transverse moving plate 6 moves through the driving cylinder 7, that is, the transverse driving component 2 cooperates with the driving cylinder 7 to drive the dispensing block 5 to form an XY-axis moving surface, so as to dispense glue at a corresponding position on the outer side wall of the aluminum frame.

In this embodiment, sideslip board 6 drives through a Z axle cylinder 8 simultaneously, and then can realize the 5 triaxial motions of point gluey piece to glue in the lateral wall optional position department of aluminum product frame, carry out pertinence point and glue and promote the bonding fastness.

In this embodiment, the compound device further includes: the glue dispensing mechanism 9, the glue injection mechanism 10 and the driving mechanism 11; wherein a supporting part 100 and a dispensing part 110 are arranged on the plate placing platform 1; a plurality of glue storage cavities 111 are formed in the glue dispensing part 110, and the glue dispensing mechanism 9 is movably arranged in the corresponding glue storage cavities 111; the glue injection mechanism 10 is positioned above the glue dispensing mechanism 9, the glue injection mechanism 10 is pressed downwards towards the glue dispensing mechanism 9 to enter the corresponding glue storage cavity 111, and glue is injected into the glue storage cavity 111; the driving mechanism 11 is movably connected in each glue storage cavity 111; when an aluminum frame is placed on the upper frame of the plate placing platform 1, the glue dispensing mechanism 9 is pressed down by the aluminum frame to open the corresponding glue storage cavity 111, and the driving mechanism 11 pushes glue in the glue storage cavity 111 to be extruded out along the glue dispensing mechanism 9 so as to be dispensed in a contact area with the aluminum frame; and after the driving mechanism 11 props against the glue dispensing mechanism 9, the driving mechanism 11 pushes the glue dispensing mechanism 9 to move upwards so as to jack up the aluminum frame until the glue dispensing mechanism 9 seals the corresponding glue storage cavity 111, so that the jacked aluminum frame is inclined, namely glue dispensed on the aluminum frame flows towards the position corresponding to the supporting part 100 along the position corresponding to the glue dispensing part 110, so that the foam board is inserted into the whole surface of the aluminum frame after glue dispensing to form the foamed aluminum multilayer composite board.

In this embodiment, the dispensing mechanism 9 includes: at least one dispensing assembly; each dispensing component is movably arranged in the corresponding glue storage cavity 111; when the aluminum frame is placed on the upper frame of the plate placing platform 1, each glue dispensing assembly is pressed down by the aluminum frame to open the corresponding glue storage cavity 111, and the driving mechanism 11 pushes glue in the glue storage cavity 111 to be extruded out along the corresponding glue dispensing assembly so as to be dispensed in a contact area with the aluminum frame; after the driving mechanism 11 abuts against the adhesive dispensing assemblies of each point, the driving mechanism 11 pushes the corresponding adhesive dispensing assemblies to move upwards so as to jack up the aluminum frame until the adhesive dispensing assemblies seal the corresponding adhesive storage cavities 111, so that the jacked aluminum frame is inclined; the dispensing part 110 is provided with a plurality of glue through holes 112, and each glue through hole 112 is communicated with the corresponding glue storage cavity 111; the dispensing assembly comprises: a glue dispensing rod 900, a block 910 and a spring 920; the glue dispensing rod 900 is fixed on top of the block 910 to slide in the corresponding glue through hole 112; the blocking block 910 is positioned in the corresponding glue storage cavity 111, the bottom of the blocking block 910 is movably connected to the bottom of the corresponding glue storage cavity 111 through a sleeve spring 920, and the top of the glue dispensing rod 900 is exposed out of the corresponding glue through hole 112; when the aluminum frame is pressed against the glue dispensing rod 900, the blocking block 910 and the sleeve spring 920, the sleeve spring 920 is pressed to drive the glue dispensing rod 900 and the blocking block 910 to fall down, so that the corresponding glue through hole 112 opens the corresponding glue storage cavity 111, and glue in the corresponding glue storage cavity 111 is pushed by the driving mechanism 11 to be extruded out along the glue dispensing rod 900 and is dispensed in a contact area between the glue dispensing rod 900 and the aluminum frame; after the driving mechanism 11 supports the blocking block 910, the driving mechanism 11 and the blocking block 910 push the blocking block 910 to move upwards through the slope fit, so that the aluminum frame is jacked up by the glue dispensing rod 900 until the blocking block 910 blocks the corresponding glue through hole 112, and the jacked aluminum frame is inclined, that is, glue dispensed on the aluminum frame flows towards the position corresponding to the supporting part 100 along the contact area of the glue dispensing rod 900.

In this embodiment, this embodiment can make the aluminum product frame take place the slope after the point is glued through dispensing mechanism 9 and actuating mechanism 11 cooperation, thereby realizes that glue from a little to the face scatter, is favorable to promoting the area of contact of aluminum product frame, cystosepiment and glue, can strengthen compound effect, structural strength, simultaneously through actuating mechanism 11, dispensing mechanism 9, store up and glue the chamber 111 cooperation and can control the glue extrusion capacity, simple structure and high efficiency.

Plate placing platform 1

Panel place the platform 1 mainly plays a bearing role, be provided with baffle 120 in the below of supporting part 100, baffle 120 not only can fix a position the aluminum product frame, can also carry on spacingly to the aluminum product frame, when the aluminum product frame was placed on panel place the platform 1, the side of aluminum product frame supported baffle 120 and fixes a position, the aluminum product frame takes place the slope back simultaneously, baffle 120 can stop the aluminum product frame from supporting part 100 landing.

Glue dispensing mechanism 9

The glue dispensing mechanism 9 mainly plays a role in glue dispensing, can dispense glue on the aluminum frame at one point by point and surface gluing, and then disperses the glue into a surface by the point by supporting the inclination of the aluminum frame, so that a good glue dispensing effect is realized, and meanwhile, the glue dispensing mechanism 9 is in a state change under the cooperation of the driving mechanism 11, so that the glue dispensing on the aluminum frame or the inclination of the aluminum frame is realized.

Glue injection mechanism 10

The glue injection mechanism 10 mainly plays a role in glue injection, can realize automatic operation, and realizes glue injection of the glue storage cavity 111.

Drive mechanism 11

Actuating mechanism 11 mainly plays the pushing action, and actuating mechanism 11 can promote to store up and glue in the chamber 111 glue water and extrude with the point along point gum machine construct 9 with the aluminum product frame contact area to after gluing aluminum product frame point, continue to push away some gum machine constructs 9 with aluminum product frame jack-up, thereby realize that glue from some to the face disperses to come.

In this embodiment, be provided with a plurality of some glue subassemblies, can realize that the glue of a plurality of points diverges from some to the face, really realizes gluing the whole face of aluminum product frame.

In this embodiment, the aluminum frame is half mouth shape frame and puts on panel place the platform 1 to the realization is the rubber coating on the aluminum frame inner wall, conveniently inserts the cystosepiment and forms foamed aluminum multilayer composite board.

In this embodiment, the glue dispensing rod 900 mainly plays a role of guiding glue to be dispensed on the aluminum frame, and when the aluminum frame is pressed against the glue dispensing rod 900, the blocking block 910 and the spring 920, since the glue in the glue storage cavity 111 is in a balanced state, the glue in the glue storage cavity 111 can be pushed by the driving mechanism 11 to be dispensed on the aluminum frame along the glue dispensing rod 900.

In this embodiment, the blocking block 910 not only can control the opening or closing of the glue storage cavity 111, but also can displace to realize the glue extrusion.

In this embodiment, the cover spring 920 plays a role in limiting, and can ensure that the dispensing rod 900 and the blocking block 910 both move longitudinally, thereby playing a positive role in controlling the extrusion amount of glue.

In this embodiment, the horizontal position of the supporting portion 100 is higher than that of the dispensing portion 110, and when the aluminum frame is erected on the plate placing platform 1, the top of the dispensing rod 900 is flush with the horizontal plane of the supporting portion 100; the diameter of the glue dispensing rod 900 is smaller than that of the glue through hole 112, so that glue in the glue storage cavity 111 flows between the glue dispensing rod 900 and the gap of the glue through hole 112.

In this embodiment, the horizontal position of the supporting portion 100 is higher than the horizontal position of the dispensing portion 110, so that the fluidity of the glue dispensed on the aluminum frame by the dispensing rod 900 can be ensured, and the flow of the glue after the aluminum frame is inclined is facilitated.

In this embodiment, when the aluminum frame is placed on the upper frame of the board placement platform 1, the top of the dispensing rod 900 is flush with the horizontal plane of the support portion 100, so that the dispensing rod 900 can be attached to the aluminum frame, and the glue can be completely dispensed on the aluminum frame.

In this embodiment, the set spring 920 includes: the sleeve 921, the movable column 922 movably arranged in the sleeve 921 and the limit spring 923; the top of the movable column 922 is fixed with the block 910, and the bottom of the movable column 922 is movably connected to the bottom of the sleeve 921 through a limiting spring 923; the movable column 922 is pushed downwards by the blocking block 910 or pushed upwards by the driving mechanism 11 and is matched with the limiting spring 923 to move longitudinally in the sleeve 921.

In the present embodiment, the drive mechanism 11 includes: an operating assembly 1100, a linkage assembly 1110, and a paste ejection assembly 1120; the glue squeezing assembly 1120 is movably arranged in each glue storage cavity 111; the operating assembly 1100 is triggered to push the connecting rod assembly 1110 to move transversely, so as to drive the glue-extruding assembly 1120 to push glue in the glue storage cavity 111 to extrude along the corresponding glue-dispensing assembly so as to be dispensed in a contact area with the aluminum frame; and after the glue-extruding components 1120 abut against the glue-dispensing components at each point, the operating component 1100 continues to drive the connecting rod assembly 1110 to move, so that the glue-extruding components 1120 push the corresponding glue-dispensing components to move upwards to jack up the aluminum frame until the glue-dispensing components seal the corresponding glue-storing cavities 111 and tilt the jacked aluminum frame.

In this embodiment, the operation component 1100 includes: a moving plate 1101, a moving guide 1102, a positioning spring 1103, a straight hinge bar 1104 and a bent hinge bar 1105; the moving plate 1101 is movably arranged on a moving guide rail 1102, and the moving plate 1101 is movably connected to a fixed frame through a positioning spring 1103; one end of the straight hinge bar 1104 is hinged with a connecting rod assembly 1110, the other end of the straight hinge bar 1104 is hinged with a bent hinge bar 1105, and the other end of the bent hinge bar 1105 is hinged with a movable plate 1101; the bent hinge bar 1105 is arranged at an obtuse angle, and the bent hinge bar 1105 is provided with an operation part and a moving part; the operating portion is pressed downwards to drive the connecting rod assembly 1110 to move transversely, so as to drive the glue squeezing assembly 1120 to push glue in the glue storage cavity 111 to be squeezed out along the corresponding glue dispensing assembly so as to be in a contact area with the aluminum frame, until the straight hinge strip 1104 and the moving portion are in a straight line, the glue squeezing assembly 1120 props against each glue dispensing assembly, namely, the moving plate 1101 squeezes the positioning spring 1103 to continue moving on the moving guide rail 1102 so as to drive the connecting rod assembly 1110 and the glue squeezing assembly 1120 to move, so as to push the corresponding glue dispensing assembly to move upwards so as to jack up the aluminum frame until each glue dispensing assembly seals the corresponding glue storage cavity 111.

In this embodiment, the moving plate 1101 can be positioned by the positioning spring 1103, the amount of glue extrusion can be controlled by the straight hinge bar 1104 and the bent hinge bar 1105, the structure is simple and efficient, and the amount of movement between the straight hinge bar 1104 and the bent hinge bar 1105 is adjustable, i.e., the amount of glue extrusion is also adjustable.

In this embodiment, the positioning spring 1103 can bring the moving plate 1101 to return.

In this embodiment, the connecting rod assembly 1110 includes a plurality of connecting rods and a limiting plate, and the corresponding connecting rods pass through the limiting plate, so as to realize the linkage between the operating assembly 1100 and the glue-extruding assembly 1120.

In this embodiment, the paste ejection assembly 1120 includes: a corresponding glue-squeezing block 1121 fixed on the connecting rod assembly 1110 and movably arranged in each glue storage cavity 111; each of the glue-extruding blocks 1121 is disposed in a wedge-shaped block, and each of the glue-extruding blocks 1121 is matched with the corresponding inclined surface of the block 910, that is, the glue in the corresponding glue storage cavity 111 is pushed by the glue-extruding block 1121 to be extruded along the glue-dispensing rod 900; after the rubber extrusion block 1121 props against the block 910, the rubber extrusion block 1121 is in inclined plane fit with the block 910 under the pushing action of the connecting rod assembly 1110 to push the block 910 to move upward.

In the present embodiment, the rubber-extruding block 1121 cooperates with the block 910 to achieve different functions of the block 910 in different states by a simple structure.

In this embodiment, the glue injection mechanism 10 includes: the glue injection device comprises a transverse cylinder 1000, a longitudinal cylinder 1010, a glue injection block 1020 and a glue injection hollow rod 1030; the movable part of the transverse cylinder 1000 is connected with a longitudinal cylinder 1010, and the movable part of the longitudinal cylinder 1010 is connected with a glue injection block 1020; the glue injection block 1020 is provided with a glue injection hole, one end of the glue injection hole is connected with a glue injection machine, and the other end of the glue injection hole is connected with a glue injection hollow rod 1030; the transverse cylinder 1000 pushes the longitudinal cylinder 1010 to move transversely so as to drive the longitudinal cylinder 1010, the glue injection block 1020 and the glue injection hollow rod 1030 to move transversely, so that the glue injection hollow rod 1030 is aligned to the corresponding glue through hole 112; the longitudinal cylinder 1010 pushes the glue injection block 1020 to move longitudinally so as to drive the glue injection block 1020 and the glue injection hollow rod 1030 to move longitudinally, so that the glue injection hollow rod 1030 is inserted into the corresponding glue through hole 112, and glue is injected into the corresponding glue storage cavity 111.

In conclusion, the transverse driving component, the pushing rod and the sliding mechanism are linked to drive the dispensing block to directly dispense glue on the outer side wall of the aluminum frame placed on the plate placing platform, so that two composite plates can be directly bonded together to form the foamed aluminum multilayer composite plate, the structure is simple, and the production cost of the foamed aluminum multilayer composite plate is low.

The components (components without specific structures) selected for use in the present application are all common standard components or components known to those skilled in the art, and the structures and principles thereof can be known to those skilled in the art through technical manuals or through routine experimental methods.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. The utility model provides a set composite of foam aluminium multilayer composite board of high strength which characterized in that includes:

the device comprises a plate placing platform, a transverse driving component, a push rod, a sliding mechanism and a dispensing block; wherein

The movable part of the transverse driving part is connected with one end of a push rod, the other end of the push rod is connected with a sliding mechanism, and the glue dispensing block is fixed on the sliding mechanism;

when the aluminum frame is placed on the upper frame of the plate placing platform, the transverse driving part is suitable for driving the pushing rod to transversely move so as to drive the sliding mechanism and the glue dispensing block on the sliding mechanism to move towards the outer side wall of the aluminum frame, namely the glue dispensing block on the sliding mechanism moves towards the outer side wall of the aluminum frame

After the glue dispensing block is pushed to be in contact with the outer side wall of the aluminum frame, glue is dispensed in a contact area of the glue dispensing block and the outer side wall of the aluminum frame; and

Inserting a foam plate into the aluminum material frame, and then bonding the foam plate with another aluminum material frame inserted with the foam plate through a corresponding glue dispensing area to form a foam aluminum multilayer composite plate;

the compound device further comprises: the glue dispensing mechanism, the glue injection mechanism and the driving mechanism are arranged on the base; wherein

The plate placing platform is provided with a supporting part and a spot gluing part;

a plurality of glue storage cavities are formed in the glue dispensing part, and the glue dispensing mechanism is movably arranged in the corresponding glue storage cavities;

the glue injection mechanism is positioned above the glue dispensing mechanism, presses downwards towards the glue dispensing mechanism to enter the corresponding glue storage cavity, and injects glue into the glue storage cavity;

the driving mechanism is movably connected in each glue storage cavity;

when the aluminum frame is placed on the upper frame of the plate placing platform, the glue dispensing mechanism is pressed down by the aluminum frame to open the corresponding glue storage cavity, and the driving mechanism pushes glue in the glue storage cavity to be extruded out along the glue dispensing mechanism to be dispensed in a contact area with the aluminum frame; and

after the driving mechanism butts against the glue dispensing mechanism, the driving mechanism pushes the glue dispensing mechanism to move upwards so as to jack up the aluminum frame until the glue dispensing mechanism seals the corresponding glue storage cavity, so that the jacked aluminum frame is inclined, namely

And the glue which is dotted on the aluminum material frame flows towards the position corresponding to the supporting part along the position corresponding to the glue dispensing part so as to insert the foam board after the glue is dispensed on the whole surface of the aluminum material frame to form the foamed aluminum multilayer composite board.

2. The composite structure of high strength foamed aluminum multilayer composite panel according to claim 1,

at least one side edge of the plate placing platform is provided with a corresponding baffle plate, namely

When the aluminum frame is placed on the plate placing platform, the baffle abuts against the aluminum frame.

3. The composite structure of high strength foamed aluminum multilayer composite panel according to claim 1,

the slide mechanism includes: a sliding block, a sliding guide;

the bottom of the sliding block is provided with a sliding groove, and the sliding groove is matched with the sliding guide rail;

the sliding block is arranged on the sliding guide rail through the sliding groove;

the end of the push rod is connected with a sliding block, and a glue dispensing block is fixed on the sliding block, namely

The transverse driving component is suitable for driving the push rod to move transversely so as to drive the sliding block to move along the sliding guide rail, and further drive the dispensing block to move towards the outer side wall of the aluminum frame or reversely keep away from the outer side wall of the aluminum frame.

4. The composite structure of high strength foamed aluminum multilayer composite panel according to claim 3,

the sliding mechanism further includes: an elastic sheet;

one end of the elastic piece is connected to the sliding block, and the other end of the elastic piece is connected to the fixed frame;

the elastic piece is used for limiting the sliding block to prevent the sliding block from being separated from the sliding guide rail.

5. The composite structure of high strength foamed aluminum multilayer composite panel according to claim 1,

a glue dispensing channel is arranged in the glue dispensing block, and a glue inlet hole and a glue outlet hole which are communicated with the glue dispensing channel are formed in the glue dispensing block;

the glue inlet hole is connected with a glue injection machine, and the glue sequentially passes through the glue inlet hole, the glue dispensing channel and the glue outlet hole, namely

When the glue dispensing block is pushed to be in contact with the outer side wall of the aluminum frame, glue is dispensed in a contact area with the outer side wall of the aluminum frame through the glue outlet hole.

6. The composite structure of high strength foamed aluminum multilayer composite panel according to claim 5,

the glue outlet hole is provided with a hollow glue dispensing rod;

the glue dispensing block is in contact with the outer side wall of the aluminum frame through the hollow glue dispensing rod.

7. The composite structure of high strength foamed aluminum multilayer composite panel according to claim 1,

When one of the outer side walls of the aluminum frame is glued, the aluminum frame is turned to the direction and then put on the plate placing platform again, namely

And dispensing the other outer side wall of the aluminum frame, and bonding the aluminum frames correspondingly inserted with the foam boards on the two outer side walls of the aluminum frame respectively to form the foamed aluminum multilayer composite board.

8. The composite structure of high strength foamed aluminum multilayer composite panel according to claim 1,

the transverse driving component, the push rod, the sliding mechanism and the spot gluing block are all arranged on the transverse moving plate, and the transverse moving plate moves through the driving cylinder, namely

The transverse driving component is matched with the driving cylinder to drive the glue dispensing block to form an XY-axis moving surface so as to dispense glue at corresponding positions on the outer side wall of the aluminum frame.

9. The composite structure of high strength foamed aluminum multilayer composite panel according to claim 1,

the point gum machine constructs includes: at least one dispensing assembly;

each glue dispensing assembly is movably arranged in the corresponding glue storage cavity;

when the aluminum frame is placed on the upper frame of the plate placing platform, each glue dispensing assembly is pressed down by the aluminum frame to open the corresponding glue storage cavity, and the driving mechanism pushes glue in the glue storage cavity to be extruded out along the corresponding glue dispensing assembly so as to be dispensed in a contact area with the aluminum frame; and

After the driving mechanism props against the adhesive components at each point, the driving mechanism pushes the corresponding adhesive components to move upwards so as to jack up the aluminum frame until the adhesive components seal the corresponding adhesive storage cavities, so that the jacked aluminum frame is inclined;

the dispensing part is provided with a plurality of glue through holes, and each glue through hole is communicated with the corresponding glue storage cavity;

the dispensing assembly comprises: dispensing a glue stick, a plugging block and a sleeve spring;

the glue dispensing rod is fixed on the top of the blocking block so as to slide in the corresponding glue through hole;

the plugging blocks are positioned in the corresponding glue storage cavities, the bottoms of the plugging blocks are movably connected to the bottoms of the corresponding glue storage cavities through sleeve springs, and the tops of the glue dispensing rods are exposed out of the corresponding glue through holes;

when the aluminum frame props against the glue dispensing rod, the blocking block and the sleeve spring are pressed downwards, the sleeve spring is extruded to drive the glue dispensing rod and the blocking block to fall down, so that the corresponding blocking block opens the corresponding glue through hole, glue in the corresponding glue storage cavity is pushed by the driving mechanism to be extruded out along the glue dispensing rod and is dispensed in a contact area of the glue dispensing rod and the aluminum frame;

after the driving mechanism supports the plugging block, the driving mechanism and the plugging block are matched through an inclined plane to push the plugging block to move upwards so that the glue dispensing rod jacks up the aluminum frame until the plugging block plugs up a corresponding glue through hole and tilts the jacked aluminum frame, namely the jacked aluminum frame is inclined

And the glue on the aluminum frame flows towards the position corresponding to the supporting part along the contact area of the glue and the glue dispensing rod.

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