CN111361267A

CN111361267A - Compound building insulation board shaping processing lines

Info

Publication number: CN111361267A
Application number: CN202010254559.2A
Authority: CN
Inventors: 王炯炜
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-02
Filing date: 2020-04-02
Publication date: 2020-07-03

Abstract

The invention provides a composite building insulation board forming and processing production line which comprises a hoisting mechanism, an adhesion mechanism and an execution mechanism, wherein the execution mechanism is installed at the left side of the upper end of the adhesion mechanism, the hoisting mechanism is arranged in the right side direction of the execution mechanism, the hoisting mechanism is installed on the adhesion mechanism, and the hoisting mechanism is positioned right above the adhesion mechanism and the execution mechanism; the invention solves the problems of improving the waterproof property and the heat preservation effect of the heat preservation plate, and usually a layer of group partition plates are adhered to the inner side and the outer side of the heat preservation plate to meet the use requirement quality.

Description

Compound building insulation board shaping processing lines

Technical Field

The invention relates to the technical field of building insulation board pasting and forming, in particular to a composite type building insulation board forming and processing production line.

Background

The heat-insulating board is a rigid foam plastic board which is made by taking polystyrene resin as a raw material, adding other raw auxiliary materials and polymer, heating, mixing, injecting a catalyst, extruding and molding, has the moisture-proof and waterproof properties, and can reduce the thickness of an outer enclosure structure of a building so as to increase the indoor use area;

in order to improve the waterproof property and the heat preservation effect of the heat preservation plate, a layer of group partition plates are usually adhered to the inner side and the outer side of the heat preservation plate to meet the use requirement quality, the existing adhering mode is that a special binder is manually brushed, then the separation pasting plate is hoisted to the heat preservation plate through hoisting equipment to be adhered, then turnover is carried out for adhering again, the mode cannot guarantee the regularity of the adhered opposite sides, and the independent hoisting equipment is required to be overturned for adhering again, so that the whole working process is complicated, the efficiency is low, and the economic cost is enhanced;

therefore, the invention provides a composite building insulation board forming and processing production line in order to improve the working efficiency, simple operation, good processing effect and improve the bonding neatness of the insulation board.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the following technical scheme that the composite building insulation board forming and processing production line comprises a hoisting mechanism, a bonding mechanism and an actuating mechanism, wherein the actuating mechanism is arranged at the left side of the upper end of the bonding mechanism, the hoisting mechanism is arranged in the right side direction of the actuating mechanism, the hoisting mechanism is arranged on the bonding mechanism, and the hoisting mechanism is positioned right above the bonding mechanism and the actuating mechanism;

the lifting mechanism comprises a lifting support, a stepping motor, a transmission screw rod, a square sliding frame, a displacement sliding rod, a lifting cylinder, a lifting support, a lifting sucker and a telescopic shaft lever; the lifting support is arranged on the bonding mechanism, a stepping motor is arranged on the outer wall of the lifting support through a motor base, the output shaft of the stepping motor is connected with a transmission screw rod through a coupler, the transmission screw rod is arranged on the inner wall of the lifting bracket in a movable connection mode, the square sliding frame is arranged on the transmission screw rod in a spiral matching mode, the displacement sliding rods are symmetrically arranged on the inner wall of the hanging high bracket, the displacement slide bar penetrates through the square sliding frame, the lifting cylinder is arranged on the bottom wall of the square sliding frame through a cylinder seat, the output shaft of the lifting cylinder is provided with a lifting support through flange connection, lifting suckers are uniformly arranged at the bottom end of the lifting support, the telescopic shaft lever is uniformly arranged on the square sliding frame, and the sliding shaft head position of the telescopic shaft lever is connected with the lifting bracket; the moving distance of the square sliding frame is controlled by rotating the transmission screw rod through the stepping motor, the friction resistance is reduced by the aid of the displacement slide rod to move, the lifting support is driven by the lifting cylinder to move up and down in a reciprocating mode, the telescopic shaft rod assists in moving up and down, and finally the lifting sucker is used for adsorbing the flitch.

The bonding mechanism comprises a vertical plate support, a sliding roller, a transmission belt, a rotating motor, a placing platform, a direct-push cylinder, a squeezing plate, a positioning plate, a turnover sliding plate, a cylinder support, an execution cylinder and a bearing suction disc frame; the vertical plate support is uniformly provided with sliding rollers through bearings, the uniformly arranged sliding rollers are mutually connected in a rolling manner through a transmission belt arranged on an outer ring, a rotating motor is arranged on the outer wall of the vertical plate support through a motor base, an output shaft of the rotating motor is connected with one of the sliding rollers on the vertical plate support through a coupling, a placing platform is arranged on the vertical plate support, a direct pushing cylinder is arranged on the bottom wall of the placing platform through a cylinder base, an extruding plate is connected and arranged with the output shaft of the direct pushing cylinder, positioning plates are respectively arranged on the left side and the right side of the extruding plate, the positioning plates are arranged on the vertical plate support, a turnover sliding plate is arranged on the positioning plates in a hinging manner, the cylinder support is arranged on the inner wall of the vertical plate support, and an executing cylinder is arranged on the cylinder support through a cylinder base, the output shaft of the execution cylinder is connected to a bearing suction disc frame, and the bearing suction disc frame is arranged on a cylinder bracket; concentrate through place the platform and place the flitch, the flitch of bottom is placed to rethread bearing suction disc frame, comes the position correction to the flitch through the locating plate, and rethread actuating cylinder carries out the lift to the heated board that the laminating is good, then drives the crowded push pedal through the straight push cylinder and goes out the heated board propelling movement, makes the upset slide remove the level through thrust and forms the slide, then the propelling movement carries out next step operation on the transmission band.

The actuating mechanism comprises a fixed support, a linkage shaft lever, a parallel bevel gear, a rocking wheel, a lifting screw rod, a transmission bevel gear, a lifting frame, a twisting and flattening roller and a vibration pressing unit; the lifting mechanism comprises fixing supports, a lifting screw rod, a vibration pressing unit, a binding mechanism, a lifting mechanism, a rolling mechanism and a rolling mechanism, wherein the fixing supports are symmetrically arranged on the binding mechanism, a linkage shaft rod is arranged between the two fixing supports through a bearing, shaft heads at two ends of the linkage shaft rod are respectively provided with a parallel bevel gear, the rolling mechanism is arranged on the parallel bevel gear at the right end of the linkage shaft rod, the lifting screw rod is symmetrically arranged on the fixing supports, a transmission bevel gear is arranged at the top shaft end; the parallel bevel gears at the two ends of the linkage shaft lever are controlled to rotate by the rocking wheel and rotate in a meshed manner with the transmission bevel gears, then the lifting frame is controlled by the lifting screw to slide and move on the fixed support, and the flatness treatment is fully carried out by the twisting flat roller.

The vibration pressing unit comprises a connecting bracket, a motor, a connecting shaft lever, a cam, a pulley, a reciprocating shaft lever, a vibration pressing shaft lever and a vibration pressing plate; the connecting supports are symmetrically arranged on the actuating mechanism, the motor is arranged on the outer wall of one connecting support through a motor base, an output shaft of the motor is connected with the connecting shaft rod through a coupler, the connecting shaft rod is arranged on the inner wall of the connecting support through a bearing, the cam is symmetrically arranged on the connecting shaft rod, a pulley is arranged right above the cam, the pulley is arranged on the bottom shaft end of the reciprocating shaft rod in a movable connection mode, the pulley and the cam are mutually abutted and rotated, the reciprocating shaft rod is arranged on the connecting supports in a sliding fit mode, a vibration pressing shaft rod is arranged on the outer ring of the reciprocating shaft rod, and a vibration pressing plate is arranged at the bottom end of the vibration pressing shaft rod; the connecting shaft rod is driven to rotate by the motor, the cam rotates and is abutted to the pulley to realize the up-and-down reciprocating movement of the reciprocating shaft rod, and the vibrating pressing plate is lifted by the vibrating pressing shaft rod to perform reciprocating extrusion hammering.

Preferably; the lifting sucker is designed into a three-layer nesting design, so that the lifting sucker is good in buffering performance and strong in suction force when contacting the flitch, can be suitable for larger height difference in the horizontal direction, can perform long-distance conveying action, and prevents rebound shaking of the flitch.

Preferably; the locating plate for wide mouthful landslide design, will the locating plate establish to wide mouthful landslide design, be convenient for with the flitch from the wide entry landing to the space of location for the flitch is unanimous with the position level of pasting of heat preservation, improves and is stained with the accuracy of closing, has guaranteed the pleasing to the eye degree of abundant laminating.

The invention has the beneficial effects that:

the invention increases the movable distance through the lifting mechanism, avoids increasing a lifting device, reduces the use of mechanical parts, integrates translation and height adjustment, avoids manual carrying of flitch plates, and improves the efficiency of integral production work.

The turnover sliding plate is used for realizing translational sliding, the attached heat insulation plate is pushed to the next step, and then the turnover sliding plate is hinged and rebounded to form a vertical included angle with the positioning plate, so that a positioning opening for the attachment plate is formed, and the positioning effect is enhanced.

The laminated heat-insulating plate is repeatedly hit by the actuating mechanism, so that the laminating glue is fully laminated and contacted with the pasting plate and the heat-insulating layer, the contact area is increased, and the redundant glue is removed, so that the flatness of the heat-insulating plate is uniform and complete, the heat-insulating plate is fully laminated, the laminating condition of local subsidence cannot exist, the overall quality of lamination is improved, the heat-insulating plate can be freely and correspondingly adjusted according to the thickness of the heat-insulating plate, heat-insulating plates with different thicknesses can be processed, and the economic benefit is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of the present invention in a primary viewing position;

FIG. 2 is a perspective view of the present invention in a rear-view position;

FIG. 3 is a schematic view of a partial half-section perspective of the primary viewing position of the present invention;

FIG. 4 is an enlarged view of a portion of the invention at A in FIG. 1;

FIG. 5 is an enlarged view of a portion of the invention at B in FIG. 3;

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further described below by combining with the specific drawings, and it is to be noted that the embodiments and the features in the embodiments can be combined with each other in the application without conflict.

As shown in fig. 1 to 5, a composite building insulation board molding processing production line includes a lifting mechanism 1, an adhesive mechanism 2 and an executing mechanism 3, and the specific method for molding the composite building insulation board by using the molding processing equipment is as follows:

an actuating mechanism 3 is arranged at the left side position of the upper end of the bonding mechanism 2, a lifting mechanism 1 is arranged in the right side direction of the actuating mechanism 3, the lifting mechanism 1 is arranged on the bonding mechanism 2, and the lifting mechanism 1 is positioned right above the bonding mechanism 2 and the actuating mechanism 3;

the lifting mechanism 1 comprises a lifting support 10, a stepping motor 11, a transmission screw 12, a square sliding frame 13, a displacement sliding rod 14, a lifting cylinder 15, a lifting support 16, a lifting sucker 17 and a telescopic shaft lever 18; the lifting support 10 is arranged on the bonding mechanism 2, a stepping motor 11 is arranged on the outer wall of the lifting support 10 through a motor base, the output shaft of the stepping motor 11 is connected with a transmission screw rod 12 through a coupler, the transmission screw rod 12 is arranged on the inner wall of the lifting support 10 through a movable connection mode, a square sliding frame 13 is arranged on the transmission screw rod 12 through a spiral matching mode, displacement sliding rods 14 are symmetrically arranged on the inner wall of the lifting support 10, the displacement sliding rods 14 penetrate through the square sliding frame 13, a lifting air cylinder 15 is arranged on the bottom wall of the sliding frame 13 through an air cylinder base, the output shaft of the square lifting air cylinder 15 is connected with a lifting support 16 through a flange, lifting suction cups 17 are uniformly arranged at the bottom end of the lifting support 16, and the lifting suction cups 17 are of a three-layer overlapping design, the lifting sucker 17 is designed into a nested three-layer design, so that the lifting sucker has good buffering performance and strong suction force when contacting the flitch, can be suitable for larger height difference in the horizontal direction, can perform long-distance conveying action and prevents rebound and jitter of the flitch; the telescopic shaft lever 18 is uniformly arranged on the square sliding frame 13, and the position of a sliding shaft head of the telescopic shaft lever 18 is mutually connected with the lifting bracket 16; the moving distance of a square sliding frame 13 is controlled by rotating a transmission screw rod 12 through a stepping motor 11, the friction resistance is reduced by the auxiliary movement of a displacement slide rod 14, a lifting support 16 is driven by a lifting air cylinder 15 to move up and down in a reciprocating manner and move up and down by the aid of a telescopic shaft lever 18, and finally a lifting sucker 17 is used for sucking a flitch.

The bonding mechanism 2 comprises a vertical plate support 20, a sliding roller 21, a conveying belt 22, a rotating motor 23, a placing platform 24, a straight pushing cylinder 25, a squeezing pushing plate 26, a positioning plate 27, a turnover sliding plate 28, a cylinder support 29, an execution cylinder 29A and a bearing suction disc support 29B; the vertical plate support 20 is uniformly provided with sliding rollers 21 through bearings, the uniformly arranged sliding rollers 21 are mutually connected in a rolling manner through a transmission belt 22 arranged on an outer ring, the rotating motor 23 is arranged on the outer wall of the vertical plate support 20 through a motor base, an output shaft of the rotating motor 23 is connected with one of the sliding rollers 21 on the vertical plate support 20 through a coupling, the placing platform 24 is arranged on the vertical plate support 20, a direct pushing cylinder 25 is arranged on the bottom wall of the placing platform 24 through a cylinder base, an output shaft of the direct pushing cylinder 25 is connected with a pushing plate 26, positioning plates 27 are respectively arranged on the left side and the right side of the pushing plate 26, the positioning plates 27 are arranged on the vertical plate support 20, the overturning slide plate 28 is arranged on the positioning plates 27 in a hinged manner, and the positioning plates 27 are designed as wide-mouth sliding slopes, the positioning plate 27 is designed to be a wide-opening landslide design, so that the flitch can conveniently slide into a positioning space from a wide entrance, the sticking positions of the flitch and the heat-insulating layer are horizontally consistent, the sticking accuracy is improved, and the attractiveness of full sticking is ensured; the cylinder bracket 29 is arranged on the inner wall of the vertical plate bracket 20, an execution cylinder 29A is arranged on the cylinder bracket 29 through a cylinder seat, an output shaft of the execution cylinder 29A is connected to a bearing suction disc frame 29B, and the bearing suction disc frame 29B is arranged on the cylinder bracket 29; concentrate through place the platform 24 and place the flitch, the flitch of bottom is placed to rethread bearing suction disc frame 29B, comes the position correction to the flitch through locating plate 27, and rethread execution cylinder 29A carries out the lift to the heated board of laminating, then drives extrusion board 26 through straight push cylinder 25 and with the heated board propelling movement, makes upset slide 28 remove the level through thrust and forms the slide, then the propelling movement carries out next step operation on the transmission band 22.

The actuating mechanism 3 comprises a fixed bracket 30, a linkage shaft lever 31, a parallel bevel gear 32, a rocking wheel 33, a lifting screw 34, a transmission bevel gear 35, a lifting frame 36, a twisting flat roller 37 and a vibration pressing unit 38; the fixing supports 30 are symmetrically arranged on the bonding mechanism 2, a linkage shaft lever 31 is arranged between the two fixing supports 30 through a bearing, parallel bevel gears 32 are respectively arranged at the shaft heads of the two ends of the linkage shaft lever 31, the rocking wheel 33 is arranged on the parallel bevel gear 32 arranged at the right end of the linkage shaft lever 31, the lifting screw 34 is symmetrically arranged on the fixing supports 30, a transmission bevel gear 35 is arranged at the shaft end of the top of the lifting screw 34, the transmission bevel gear 35 and the parallel bevel gears 32 are mutually meshed and rotate, the lifting frame 36 is arranged on the lifting screw 34 in a screw fit mode, a twisting flat roller 37 is arranged on the lifting frame 36 through a bearing, and the vibration pressing unit 38 is arranged on the outer wall of the lifting frame 36; the parallel bevel gears 32 at the two ends of the linkage shaft lever 31 are controlled to rotate by the rocking wheel 33 and to rotate in a mutually meshed manner with the transmission bevel gear 35, and then the lifting frame 36 is controlled to perform sliding displacement on the fixed bracket 30 by the lifting screw rod 34, and the sufficient flatness treatment is performed by the twisting flat roller 37.

The vibration and compression unit 38 comprises a connecting bracket 381, a motor 382, a connecting shaft 383, a cam 384, a pulley 385, a reciprocating shaft 386, a vibration and compression shaft 387 and a vibration and compression plate 388; the connecting supports 381 are symmetrically arranged on the actuating mechanism 3, a motor 382 is arranged on the outer wall of one of the connecting supports 381 through a motor base, the output shaft of the motor 382 is connected with a connecting shaft rod 383 through a shaft coupling, the connecting shaft rod 383 is arranged on the inner wall of the connecting support 381 through a bearing, the cam 384 is symmetrically arranged on the connecting shaft rod 383, a pulley 385 is arranged right above the cam 384, the pulley 385 is arranged on the bottom shaft end of a reciprocating shaft rod 386 in a movable connection mode, the pulley 385 and the cam 384 are mutually abutted and rotated, the reciprocating shaft rod 386 is arranged on the connecting supports 381 through a sliding fit mode, a vibration pressure shaft rod 387 is arranged on the outer ring of the reciprocating shaft rod 386, and a vibration pressure plate 388 is arranged at the bottom end of the vibration pressure shaft rod 387; the coupling shaft 383 is driven to rotate by the motor 382, so that the cam 384 rotates to abut against the pulley 385 to enable the reciprocating shaft 386 to reciprocate up and down, and then the vibrating pressure plate 388 is lifted by the vibrating pressure shaft 387 to carry out reciprocating extrusion hammering.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a compound building insulation board contour machining production line, includes handling mechanism (1), adhesion mechanism (2) and actuating mechanism (3), its characterized in that: an actuating mechanism (3) is installed at the left side of the upper end of the bonding mechanism (2), a lifting mechanism (1) is arranged in the right side direction of the actuating mechanism (3), the lifting mechanism (1) is installed on the bonding mechanism (2), and the lifting mechanism (1) is located right above the bonding mechanism (2) and the actuating mechanism (3);

the lifting mechanism (1) comprises a lifting support (10), a stepping motor (11), a transmission screw rod (12), a square sliding frame (13), a displacement sliding rod (14), a lifting cylinder (15), a lifting support (16), a lifting sucker (17) and a telescopic shaft lever (18); the lifting support (10) is arranged on the bonding mechanism (2), a stepping motor (11) is arranged on the outer wall of the lifting support (10) through a motor base, the output shaft of the stepping motor (11) is connected with a transmission lead screw (12) through a coupler, the transmission lead screw (12) is arranged on the inner wall of the lifting support (10) in a movable connection mode, a square sliding frame (13) is arranged on the transmission lead screw (12) in a spiral matching mode, displacement sliding rods (14) are symmetrically arranged on the inner wall of the lifting support (10), the displacement sliding rods (14) penetrate through the inside of the square sliding frame (13), a lifting cylinder (15) is arranged on the bottom wall of the square sliding frame (13) through a cylinder base, and a lifting support (16) is arranged on the output shaft of the lifting cylinder (15) through flange connection, lifting suckers (17) are uniformly arranged at the bottom end of the lifting support (16), the telescopic shaft lever (18) is uniformly arranged on the square sliding frame (13), and the sliding shaft head position of the telescopic shaft lever (18) is connected with the lifting support (16);

the bonding mechanism (2) comprises a vertical plate support (20), a sliding roller (21), a conveying belt (22), a rotating motor (23), a placing platform (24), a direct-push cylinder (25), a squeezing plate (26), a positioning plate (27), a turnover sliding plate (28), a cylinder support (29), an execution cylinder (29A) and a bearing suction disc frame (29B); the vertical plate support (20) is uniformly provided with sliding rollers (21) through bearings, the uniformly arranged sliding rollers (21) are mutually connected in a rolling manner through a transmission belt (22) arranged on an outer ring, a rotating motor (23) is arranged on the outer wall of the vertical plate support (20) through a motor base, an output shaft of the rotating motor (23) is connected with one of the sliding rollers (21) on the vertical plate support (20) through a coupler, a placing platform (24) is arranged on the vertical plate support (20), a direct pushing cylinder (25) is arranged on the bottom wall of the placing platform (24) through a cylinder base, an output shaft of the direct pushing cylinder (25) is connected with an extruding plate (26), positioning plates (27) are respectively arranged on the left side and the right side of the extruding plate (26), and the positioning plates (27) are arranged on the vertical plate support (20), the turnover sliding plate (28) is mounted on the positioning plate (27) in a hinged mode, the air cylinder support (29) is mounted on the inner wall of the vertical plate support (20), an execution air cylinder (29A) is mounted on the air cylinder support (29) through an air cylinder seat, an output shaft of the execution air cylinder (29A) is connected to a bearing suction disc frame (29B), and the bearing suction disc frame (29B) is arranged on the air cylinder support (29);

the actuating mechanism (3) comprises a fixed support (30), a linkage shaft lever (31), a parallel bevel gear (32), a rocking wheel (33), a lifting screw rod (34), a transmission bevel gear (35), a lifting frame (36), a twisting and flattening roller (37) and a vibration pressing unit (38); the fixing supports (30) are symmetrically arranged on the bonding mechanism (2), a linkage shaft lever (31) is arranged between the two fixing supports (30) through a bearing, the shaft heads at the two ends of the linkage shaft lever (31) are respectively provided with a parallel bevel gear (32), the rocking wheel (33) is arranged on a parallel bevel gear (32) positioned at the right end of the linkage shaft lever (31), the lifting screw rod (34) is symmetrically arranged on the fixed bracket (30), a transmission bevel gear (35) is arranged at the top shaft end of the lifting screw rod (34), the transmission bevel gear (35) and the parallel bevel gear (32) are meshed with each other to rotate, the lifting frame (36) is arranged on the lifting screw rod (34) in a screw fit mode, a twisting flat roller (37) is arranged on the lifting frame (36) through a bearing, the vibration and compression unit (38) is arranged on the outer wall of the lifting frame (36).

2. The composite building insulation board forming and processing production line of claim 1, characterized in that: the vibration and compression unit (38) comprises a connecting bracket (381), a motor (382), a connecting shaft rod (383), a cam (384), a pulley (385), a reciprocating shaft rod (386), a vibration and compression shaft rod (387) and a vibration and compression plate (388); the connecting supports (381) are symmetrically arranged on the actuating mechanism (3), a motor (382) is arranged on the outer wall of one connecting support (381) through a motor base, the output shaft of the motor (382) is connected with a connecting shaft rod (383) through a shaft coupling, the connecting shaft rod (383) is arranged on the inner wall of the connecting support (381) through a bearing, the cam (384) is symmetrically arranged on the connecting shaft rod (383), a pulley (385) is arranged right above the cam (384), the pulley (385) is arranged on the bottom shaft end of the reciprocating shaft rod (386) in a movable connection mode, the pulley (385) and the cam (384) are in mutual abutting connection and rotation, the reciprocating shaft rod (386) is arranged on the connecting support (381) in a sliding fit mode, and a vibration and pressure shaft rod (387) is arranged on the outer ring of the reciprocating shaft rod (386), the bottom end of the vibrating pressure shaft rod (387) is provided with a vibrating pressure plate (388).

3. The composite building insulation board forming and processing production line of claim 1, characterized in that: the lifting sucker (17) is designed into a three-layer overlapping mode.

4. The composite building insulation board forming and processing production line of claim 1, characterized in that: the positioning plate (27) is designed to be a wide-opening landslide.