CN112440521B - High-efficient glue attaching equipment - Google Patents

Abstract

The utility model relates to a high efficiency attaches gluey equipment, it includes the frame, be provided with the plummer in the frame, the top lift that the frame is located the plummer is provided with the lift seat, be provided with the adsorption apparatus who is used for adsorbing corrugated container board on the lift seat and construct, it is provided with the perforated plate to slide along vertical direction on the lift seat, the downside of the vertical direction of perforated plate is provided with the penetrating needle of the vertical downward setting of a plurality of syringe needles, the below that the lift seat is located the perforated plate is slided along the horizontal direction and is provided with rubber coating mechanism. This application utilizes adsorption mechanism to realize the operation of piling up of corrugated container board to carry out the perforation operation to corrugated container board, later utilize rubber coating mechanism to carry out the rubber coating operation at corrugated container board's upper surface, make liquid adhesive glue except scribbling the surface of attaching at corrugated container board, still permeate to next corrugated container board through the through hole on, realize fixed with the bonding between the next layer corrugated container board, and then strengthened the bonding effect between two adjacent corrugated container boards.

Description

High-efficient glue attaching equipment

Technical Field

The application relates to the field of corrugated paper glue attaching equipment, in particular to efficient glue attaching equipment.

Background

At present, with the enhancement of the public awareness of environmental protection, more and more people begin to choose paper-made environmental protection products. For example, as shown in fig. 6, in the related art, a paper seat is formed by adhering a plurality of corrugated cardboards having different sections.

When the paper sofa is processed, the general processing technology comprises the following steps: sequentially brushing glue on the same side of each corrugated board, then sequentially stacking, adhering and fixing each corrugated board by using mechanical equipment to form a block structure, and then cutting the block structure to form the paper sofa; however, in this way, the adhesive between adjacent corrugated boards is in surface contact, so the adhesive effect is weak, and there is a place to be improved.

Disclosure of Invention

In order to strengthen the bonding effect between two adjacent corrugated container boards, this application provides a high efficiency attaches gluey equipment.

The application provides a high efficiency attaches gluey equipment adopts following technical scheme:

the utility model provides a high efficiency attaches gluey equipment, includes the frame, be provided with the plummer in the frame, the top lift that the frame is located the plummer is provided with the lift seat, be provided with the adsorption apparatus who is used for adsorbing corrugated container board on the lift seat, it is provided with the perforated plate to slide along vertical direction on the lift seat, the downside of the vertical direction of perforated plate is provided with the through needle of the vertical downward setting of a plurality of syringe needles, the below that the lift seat is located the perforated plate is slided along the horizontal direction and is provided with rubber coating mechanism.

By adopting the technical scheme, the corrugated board is firstly adsorbed to the bearing platform by the adsorption mechanism to serve as a base paper, the upper surface of the corrugated board is coated with a layer of liquid adhesive glue by the glue coating mechanism, then the first corrugated board is adsorbed to the first corrugated board by the adsorption mechanism, then the perforated board vertically slides downwards, a plurality of through holes are arranged on the second corrugated board by the penetrating needle on the perforated board, then the perforated board vertically slides upwards, the penetrating needle is separated from the corrugated board under the action that the vacuum suction nozzle is kept in butt joint with the corrugated board, then the glue coating mechanism is used for coating glue on the corrugated board, at the moment, the liquid adhesive glue on the corrugated board is not only coated on the upper surface of the corrugated board, but also falls into the through holes on the corrugated board to realize the bonding and fixing with the next layer of corrugated board, and the steps are repeated, the liquid adhesive between two adjacent corrugated boards can be mutually permeated, and the bonding effect of the bonding effect between two adjacent corrugated boards is further enhanced.

Preferably, the adsorption mechanism comprises a plurality of vacuum suction nozzles and a vacuum pump, wherein the plurality of vacuum suction nozzles are arranged on the lifting seat in an array and have downward openings, and any vacuum suction nozzle is connected with the vacuum pump through a connecting pipe.

Through adopting above-mentioned technical scheme, during actual absorption, utilize the vacuum pump to realize negative pressure absorption on the vacuum suction nozzle, specifically realized the absorption operation to corrugated container board.

Preferably, the fixed pressing cylinder that is provided with on the lift seat, pressing cylinder is fixed to be set up on the lift seat, just pressing cylinder's piston rod is vertical downward setting, the fixed tip that sets up at pressing cylinder piston rod of perforated plate level, offer the hole of dodging that is used for dodging vacuum suction nozzle on the perforated plate.

Through adopting above-mentioned technical scheme, utilize and press the cylinder drive perforated plate to carry out the lift removal, then specifically realized the elevating movement of perforated plate, and utilized the hole of dodging on the perforated plate for vacuum nozzle does not influence the motion of perforated plate, helps saving space.

Preferably, rubber coating mechanism is including supporting horizontal pole, drive block and rubber coating piece, it is provided with two, two to support the horizontal pole fixed setting on the seat that goes up and down and erect the both sides at the perforated plate, the drive block slides and sets up on supporting the horizontal pole and slide along its length direction, the rubber coating piece goes up and down to set up on the drive block, rubber coating mechanism still includes the ascending storage of opening and glues the box, the fixed setting of box is glued between two support horizontal poles and is located the below of rubber coating piece in storage.

By adopting the technical scheme, in actual use, after the perforation operation is completed, the gluing block performs lifting motion on the driving block, so that the bottom of the gluing block is adhered with the adhesive, and then the gluing operation is performed on the upper surface of the corrugated board under the driving action of the driving block.

Preferably, it is arbitrary to support horizontal pole length direction's both ends and all rotate and be provided with driving pulley, and arbitrary support and all overlap on two driving pulley of horizontal pole and be equipped with the drive belt, two support the horizontal pole and all be coaxially fixed with the transmission shaft between the driving pulley with one side, one of them it is fixed with driving motor to support on the horizontal pole, and one of them driving pulley is coaxial to be fixed on driving motor's output shaft, the fixed guide block that is provided with of upside of the vertical direction of drive block, the guide block is provided with two, two the guide block is fixed respectively on two driving belts and forms the cooperation of sliding with supporting the horizontal pole.

Through adopting above-mentioned technical scheme, in the in-service use, utilize driving motor to drive two drive belts and carry out the belt drive, and then drive the guide block with support the horizontal pole under the butt effect, specifically realize the reciprocating motion of drive block along the horizontal direction.

Preferably, the bearing table is provided with a conveying roller.

Through adopting above-mentioned technical scheme, utilize the conveying roller that sets up on the plummer, will bond fashioned massive structure and move back the material and carry, realize automatic material returned operation promptly, improve the degree of automation of whole device.

Preferably, the frame is provided with a feeding platform for loading corrugated board raw materials in a reciprocating sliding manner along the horizontal direction.

Through adopting above-mentioned technical scheme, in-service use, the staff can place corrugated container board on feeding platform, then feeding platform along the below of horizontal direction sliding movement to adsorption apparatus, adsorption apparatus descends to carry out the adsorption operation and adsorb to a take the altitude to corrugated container board on the feeding platform, later, feeding platform resets to primary position in order to accept next corrugated container board, and then realizes corrugated container board's semi-automatic feeding.

Preferably, one side of the driving block, which is close to the glue storage box, is provided with a hot air knife, an air port of the hot air knife faces the glue attaching surface of the corrugated board, an air heater is arranged on the driving block, and the hot air knife is connected with an output port of the air heater.

Through adopting above-mentioned technical scheme, in the in-service use, utilize the air heater to provide hot-blast to the hot-blast sword in to with the help of the hot-blast sword, with hot-blast transmission to corrugated container board attach the face of gluing, on the one hand, when the drive block drive attaches the piece of gluing and attaches the glue, realize attaching the heat diffusion effect of gluing the face, furthest increases attaches the gluey area, on the other hand for during liquid adhesive permeates the through hole on corrugated container board more fast.

In summary, the present application includes at least one of the following beneficial technical effects:

utilize adsorption device to realize the operation of piling up of corrugated container board to carry out the perforation operation to corrugated container board, later utilize rubber coating mechanism to carry out the rubber coating operation at corrugated container board's upper surface, make liquid adhesive glue except scribbling to attach on corrugated container board's surface, still permeate to next corrugated container board through the through-hole on, realize with the bonding between the next layer corrugated container board fixed, and then strengthened the bonding effect between two adjacent corrugated container boards.

Besides the perforation operation, the perforation plate can also be used for pressing the corrugated board.

Drawings

FIG. 1 is a schematic axial view of an embodiment of the present application, which mainly shows the overall structure of a high-efficiency glue-adhering apparatus;

fig. 2 is a schematic view mainly showing a structure of a feeding platform in the embodiment of the present application;

FIG. 3 is a schematic diagram of an embodiment of the present disclosure, which mainly shows an adsorption mechanism and a perforated plate structure;

FIG. 4 is a schematic view of a glue applying mechanism according to an embodiment of the present disclosure;

FIG. 5 is a schematic view of the hot air knife and the hot air blower according to the embodiment of the present application;

fig. 6 is a schematic structural view of a paper seat in the related art.

Reference numerals: 1. a frame; 11. a first mounting bracket; 111. a feeding cylinder; 2. a bearing table; 21. a conveying roller; 3. a driving cylinder; 4. a lifting seat; 41. a mounting seat; 411. a pressing cylinder; 5. an adsorption mechanism; 51. a vacuum suction nozzle; 52. a vacuum pump; 6. a perforated plate; 61. a penetrating needle; 62. avoiding holes; 7. a gluing mechanism; 71. a support rail; 711. a drive pulley; 712. a transmission belt; 713. a drive shaft; 714. a drive motor; 72. a drive block; 721. a guide block; 722. a lifting cylinder; 73. gluing blocks; 74. a glue storage box; 8. a feeding platform; 9. a hot air knife; 10. an air heater.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses high-efficient glue equipment that attaches.

Referring to fig. 1, the efficient glue attaching equipment comprises a frame 1, a bearing table 2 is fixed at the bottom of the frame 1, a plurality of conveying rollers 21 arranged side by side are arranged on the bearing table 2 through a bearing rotating frame, a driving cylinder 3 is fixed above the bearing table 2 on the frame 1, a piston rod of the driving cylinder 3 is arranged vertically downwards, a lifting seat 4 is fixed at the end part of the piston rod of the driving cylinder 3, an adsorption mechanism 5 for adsorbing corrugated boards is arranged on the lifting seat 4, a perforated plate 6 is also arranged on the lifting seat 4 in a sliding manner along the vertical direction, a plurality of penetrating needles 61 arranged in a rectangular array are integrally formed on the lower side surface of the perforated plate 6 in the vertical direction, and the needle heads, namely sharp ends, of any penetrating needle 61 are arranged vertically downwards; the lifting seat 4 is positioned below the perforated plate 6 and is provided with a glue coating mechanism 7 which is arranged in a sliding manner along the horizontal direction; the frame 1 is provided with a feeding platform 8 for loading corrugated board raw materials in a reciprocating sliding manner along the horizontal direction.

In actual use, a worker places a first corrugated board on the feeding platform 8, and then the feeding platform 8 slides along the horizontal direction, so that the corrugated board is positioned below the adsorption mechanism 5, and further semi-automatic feeding of the corrugated board is realized; then, the adsorption mechanism 5 adsorbs the corrugated boards, the feeding platform 8 resets to the original position, then the driving cylinder 3 drives the adsorption mechanism 5 to move downwards to adsorb the first corrugated board onto the bearing table 2, and the gluing mechanism 7 is used for gluing the upper surface of the first corrugated board; then, in the same manner as above, a second corrugated board is adsorbed to the first corrugated board, then the perforated plate 6 vertically slides downwards, the penetrating needle 61 on the perforated plate 6 is utilized to penetrate through a plurality of through holes on the second corrugated board, then the perforated plate 6 vertically slides upwards, the penetrating needle 61 is separated from the corrugated board under the action that the vacuum suction nozzle 51 keeps being abutted against the corrugated board, then the glue spreading mechanism 7 is utilized to perform glue spreading operation on the corrugated board, at the moment, the liquid adhesive glue on the corrugated board can fall into the through holes on the corrugated board besides being spread on the upper surface of the corrugated board, and the adhesive fixation between the corrugated board and the next layer is realized; and repeating the steps to finally form the blocky corrugated board structure.

Referring to fig. 1 and 2, a first mounting frame 11 is fixed on one side of the top of the rack 1 in the horizontal direction, so that the first mounting frame 11 does not affect the lifting operation of the adsorption mechanism 5; feeding platform 8 slides through two linear rails that set up side by side and sets up on first mounting bracket 11, and the equal level in both sides of 11 width direction of first mounting bracket is fixed with feeding cylinder 111, the piston rod of two feeding cylinder 111 is the level setting, feeding platform 8 fixes the tip at two feeding cylinder 111 piston rods, in-service use, the staff places corrugated container board on feeding platform 8, along with the drive of two feeding cylinder 111, drive feeding platform 8 and slide to adsorption mechanism 5 below, realize corrugated container board's semi-autoloading operation.

Referring to fig. 1 and 3, the adsorption mechanism 5 includes a plurality of vacuum nozzles 51 and a vacuum pump 52, in this embodiment, there are four vacuum nozzles 51, four rectangular arrays of the vacuum nozzles 51 are fixed at four corners of the lifting base 4, and an opening of any vacuum nozzle 51 is vertically arranged downward; the vacuum pumps 52 are two, the two vacuum pumps 52 are symmetrically fixed at the top of the lifting seat 4, the four vacuum suction nozzles 51 form a group in pairs, and the two vacuum suction nozzles 51 in any group are connected with one vacuum pump 52 through a connecting pipe, so that the corrugated board is adsorbed.

Referring to fig. 1 and 3, the upper side walls of the four included angles of the lifting seat 4 are outwards extended and fixed with mounting seats 41, the four mounting seats 41 are all fixed with pressing cylinders 411, and the piston rods of the four pressing cylinders 411 are vertically arranged downwards and distributed in a rectangular array; the perforated plate 6 is fixed at the end of the piston rod of the four pressing cylinders 411 and is horizontally arranged, and for the adsorption operation without influencing the four vacuum nozzles 51, the avoidance holes 62 are formed in the perforated plate 6 corresponding to the positions and the number of the four vacuum nozzles 51, so that the lifting motion of the perforated plate 6 does not influence the adsorption operation of the vacuum nozzles 51.

In actual use, when the corrugated board is transported to abut against another corrugated board by using the driving air cylinder 3 and the four vacuum suction nozzles 51, the corrugated board is contacted with the adsorption operation of the four vacuum suction nozzles 51 and the abutting action of the four vacuum suction nozzles 51 on the corrugated board is kept, at the moment, the four pressing air cylinders 411 synchronously operate, the perforated board 6 is driven to vertically move downwards, the corrugated board is perforated, after the perforation operation is completed, under the abutting action of the four vacuum suction nozzles 51, the four pressing air cylinders 411 drive the perforated board 6 to vertically move upwards, so that the penetrating needle 61 is separated from the corrugated board, and the perforation operation is further realized.

Referring to fig. 1 and 4, the glue coating mechanism 7 includes two support crossbars 71, two support crossbars 71 are provided, two support crossbars 71 are symmetrically fixed on two sides of the lifting seat 4 through L-shaped connecting frames and are erected on two opposite sides of the perforated plate 6, and two support crossbars 71 are located on the lower side of the perforated plate 6; two ends of any supporting cross bar 71 in the length direction are rotatably connected with driving belt wheels 711 through bearings, two driving belt wheels 711 on any supporting cross bar 71 are sleeved with driving belts 712, a transmission shaft 713 is coaxially fixed between the two driving belt wheels 711 on the same side of the two supporting cross bars 71, and belt transmission is formed among the four driving belt wheels 711, the two driving belts 712 and the two transmission shafts 713; a driving motor 714 is fixed on the supporting cross bar 71 far away from one side of the driving cylinder 3, and a driving belt pulley 711 far away from one side of the feeding platform 8 of the supporting cross bar 71 is coaxially fixed on an output shaft of the driving motor 714; as the driving motor 714 is driven, two belts 712 are driven.

Referring to fig. 4 and 5, the glue coating mechanism 7 further includes a driving block 72, two guide blocks 721 are integrally formed on the upper side of the driving block 72 in the vertical direction, the two guide blocks 721 are respectively fixed on the lower portions of the two transmission belts 712, and a sliding fit is formed between the upper side of the two guide blocks 721 in the vertical direction and the lower side wall of the support cross bar 71 in the vertical direction, so that the driving block 72 is driven to move in the horizontal direction by the transmission of the two transmission belts 712.

Referring to fig. 4 and 5, the glue coating mechanism 7 further includes a glue coating block 73, the two sides of the driving block 72 in the length direction are both fixed with lifting cylinders 722, the piston rods of the two lifting cylinders 722 are both vertically arranged downwards, and the glue coating block 73 is fixed at the end parts of the piston rods of the two lifting cylinders 722; the glue coating mechanism 7 further comprises a glue storage box 74 with an upward opening, the glue storage box 74 is fixed on one side of the end portions of the two support cross rods 71 through L-shaped rods and is positioned below the glue coating block 73, and liquid adhesive glue is contained in the glue storage box 74. In practical use, the driving block 72 and the gluing block 73 are initially located above the glue storage box 74, when gluing is needed, the two lifting cylinders 722 drive the gluing block 73 to move up and down, so that gluing of the gluing block 73 is achieved, and then the driving block 72 and the gluing block 73 are driven to move in the horizontal direction along with operation of the driving motor 714, so that gluing is performed on the upper surface of the corrugated board.

Referring to fig. 4 and 5, a hot air knife 9 is fixed on one side of the driving block 72 close to the feeding platform 8, an air opening of the hot air knife 9 faces the adhesive surface of the corrugated board, a hot air blower 10 is further fixed on the driving block 72, the volume of the hot air blower 10 is smaller, and the hot air knife 9 is connected with an output port of the hot air blower 10 through a connecting pipe. Utilize hot-blast fan 10 to provide hot-blast in hot-blast sword 9 to with the help of hot-blast sword 9, with hot-blast transmission to the attached gluey face of corrugated container board, improve the diffusion effect of liquid adhesive glue, furthest increases attaches gluey area, and makes liquid adhesive glue permeate the through-hole on the corrugated container board more fast.

The implementation principle of the high-efficiency adhesive attaching equipment in the embodiment of the application is as follows:

in actual use, a worker places a first corrugated board on the feeding platform 8, and then the two feeding cylinders 111 drive the feeding platform 8 to slide along the horizontal direction, so that the corrugated board is positioned below the four vacuum suction nozzles 51, and further semi-automatic feeding of the corrugated board is realized; then, the corrugated board is subjected to negative pressure adsorption operation through a vacuum pump 52 and four vacuum suction nozzles 51, and the feeding platform 8 is reset to the original position under the action of the two feeding cylinders 111;

then, the driving cylinder 3 drives the lifting seat 4 to move downwards to adsorb the first corrugated board onto the bearing table 2, and the adsorption effect of the four vacuum suction nozzles 51 is removed; the two lifting cylinders 722 drive the gluing block 73 to move up and down, so that gluing operation of the gluing block 73 is realized, then the driving block 72 and the gluing block 73 are driven to move in the horizontal direction along with operation of the driving motor 714, so that gluing is performed on the upper surface of the corrugated board, after the gluing operation is completed, the driving block 72 and the gluing block 73 are reset to the position above the glue storage box 74, and in the gluing process, the hot air knife 9 performs hot air diffusion operation on the glue-attached surface of the corrugated board;

then, in the same manner as above, the second corrugated cardboard is adsorbed to the first corrugated cardboard, at this time, the four pressing cylinders 411 drive the perforated plate 6 to vertically slide downwards, a plurality of through holes are formed in the second corrugated cardboard by using the penetrating needles 61 on the perforated plate 6, and meanwhile, the corrugated cardboard is pressed; after the completion, the four driving cylinders 3 vertically slide upwards to enable the penetrating needle 61 to be separated from the corrugated board under the action that the vacuum suction nozzle 51 is kept in abutting connection with the corrugated board, then, the gluing mechanism 7 is used for gluing the corrugated board, at the moment, the liquid adhesive on the corrugated board is not only coated on the upper surface of the corrugated board, but also falls into the penetrating hole on the corrugated board, and the adhesion and fixation between the corrugated board and the next layer of corrugated board are realized;

finally, repeating the gluing operation, and performing hot air blowing operation while gluing on the second corrugated board, so that the liquid adhesive between two adjacent corrugated boards can be mutually permeated, and the adhesive effect between the two adjacent corrugated boards is further enhanced;

and repeating all the steps, wherein when the uppermost corrugated board is bonded, the upper surface of the corrugated board does not need to be perforated and glued, and after the operations, the blocky corrugated board structure is finally formed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (1)

1. The utility model provides a high-efficient attaches gluey equipment which characterized in that: the corrugated board packaging machine comprises a rack (1), wherein a bearing table (2) is arranged on the rack (1), a lifting seat (4) is arranged on the rack (1) and is lifted above the bearing table (2), an adsorption mechanism (5) for adsorbing corrugated boards is arranged on the lifting seat (4), a perforated plate (6) is arranged on the lifting seat (4) in a sliding mode along the vertical direction, a plurality of penetrating needles (61) with vertically downward needle heads are arranged on the lower side of the perforated plate (6) in the vertical direction, and a gluing mechanism (7) is arranged on the lifting seat (4) below the perforated plate (6) in a sliding mode along the horizontal direction;

the adsorption mechanism (5) comprises a plurality of vacuum suction nozzles (51) with downward openings and a vacuum pump (52) which are arranged on the lifting seat (4) in an array manner, and any vacuum suction nozzle (51) is connected with the vacuum pump (52) through a connecting pipe;

a pressing cylinder (411) is fixedly arranged on the lifting seat (4), the pressing cylinder (411) is fixedly arranged on the lifting seat (4), a piston rod of the pressing cylinder (411) is vertically and downwards arranged, the perforated plate (6) is horizontally and fixedly arranged at the end part of the piston rod of the pressing cylinder (411), and an avoiding hole (62) for avoiding the vacuum suction nozzle (51) is formed in the perforated plate (6);

the gluing mechanism (7) comprises two supporting cross rods (71), two driving blocks (72) and two gluing blocks (73), the two supporting cross rods (71) are fixedly arranged on the lifting seat (4) and erected on two sides of the perforated plate (6), the driving blocks (72) are arranged on the supporting cross rods (71) in a sliding mode and slide along the length direction of the supporting cross rods, the gluing blocks (73) are arranged on the driving blocks (72) in a lifting mode, the gluing mechanism (7) further comprises a glue storage box (74) with an upward opening, and the glue storage box (74) is fixedly arranged between the two supporting cross rods (71) and located below the gluing blocks (73);

two ends of any one support cross rod (71) in the length direction are respectively provided with a transmission belt wheel (711) in a rotating mode, two transmission belt wheels (711) of any one support cross rod (71) are respectively sleeved with a transmission belt (712), a transmission shaft (713) is coaxially fixed between the transmission belt wheels (711) on the same side of the two support cross rods (71), one support cross rod (71) is fixedly provided with a driving motor (714), one transmission belt wheel (711) is coaxially fixed on an output shaft of the driving motor (714), the upper side of the driving block (72) in the vertical direction is fixedly provided with two guide blocks (721), the two guide blocks (721) are arranged, and the two guide blocks (721) are respectively fixed on the two transmission belts (712) and form sliding fit with the support cross rods (71);

a hot air knife (9) is arranged on one side, close to the glue storage box (74), of the driving block (72), an air opening of the hot air knife (9) faces to the glue attaching surface of the corrugated board, an air heater (10) is arranged on the driving block (72), and the hot air knife (9) is connected with an output opening of the air heater (10);

a conveying roller (21) is arranged on the bearing table (2);

the frame (1) is provided with a feeding platform (8) used for loading corrugated board raw materials in a reciprocating sliding manner along the horizontal direction.

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