CN110697467B - Coiling mechanism of multilayer geotechnique's cloth composite forming - Google Patents

Abstract

The invention relates to the field of geotextile production and processing, in particular to a winding device for multilayer geotextile composite molding, which comprises a bottom conveying frame, a discharging mechanism, a pressing mechanism and a winding mechanism, wherein the discharging mechanism comprises a bottom discharging component, a first gluing component, a middle discharging component, a second gluing component and a top discharging gluing component, the bottom discharging component is positioned at one end of the bottom conveying frame, the first gluing component is positioned above the bottom conveying frame close to the bottom discharging component, a laminated frame is arranged at the top of the bottom discharging gluing component, the middle discharging component, the second gluing component and the top discharging gluing component are respectively arranged above the laminated frame, the pressing mechanism comprises a composite leveling component, the winding mechanism comprises a winding driving component, the winding driving component is positioned at one end of the composite leveling component, and the equipment can automatically carry out composite molding on the multilayer geotextile, and can guarantee the roughness when the rolling, raise the efficiency and quality.

Description

Coiling mechanism of multilayer geotechnique's cloth composite forming

Technical Field

The invention relates to the field of geotextile production and processing, in particular to a winding device for multilayer geotextile composite molding.

Background

The geotextile, also called geotextile, it is a permeable geosynthetic material that is made by synthetic fiber through needling or weaving, the geotextile is one of the new materials geosynthetic material, the finished product is the cloth form, divide into woven geotextile and non-woven filament geotextile, the geotextile has the strong force, corrosion-resistant, the permeability is good, the antimicrobial property is good, construction convenience, characteristics such as the specification is complete, in the multilayer geotextile production process, need to carry on the bonding shaping of many geotextiles through the manual work, and then roll it, the operation is tedious, influence efficiency, and before rolling up, the bonded geotextile very easy to produce the pincher trees, make the multilayer geotextile surface of rolling up uneven, influence the quality, therefore, we have proposed a multilayer geotextile composite formed's rolling up device, in order to solve the above-mentioned problem.

Disclosure of Invention

The invention aims to provide a winding device for multilayer geotextile composite molding, which can automatically carry out composite molding on multilayer geotextile, can ensure the flatness while winding, and improves the efficiency and the quality.

In order to achieve the purpose, the invention adopts the following technical scheme:

provides a winding device for multilayer geotextile composite molding, which comprises a bottom conveying frame, a discharging mechanism, a pressing mechanism and a winding mechanism, the discharging mechanism comprises a bottom discharging component, a first gluing component, a middle discharging component, a second gluing component and a top discharging gluing component, the bottom discharging component is positioned at one end of a bottom conveying frame, the first gluing component is positioned above the bottom conveying frame close to the bottom discharging component, a laminated frame is arranged at the top of the bottom discharging gluing component, the middle discharging component, the second gluing component and the top discharging gluing component are respectively arranged above the laminated frame, the pressing mechanism comprises a composite leveling component, this compound subassembly that levels is located the bottom carriage and keeps away from the one end of bottom blowing rubber coating subassembly, and winding mechanism includes rolling drive assembly, and this rolling drive assembly is located the compound one end of leveling the subassembly.

Preferably, the bottom discharging component, the middle discharging component and the top discharging component are respectively provided with a discharging roller and a guiding roller, the discharging roller on the bottom discharging component is horizontally arranged at one end of the bottom conveying frame in a rotatable manner, the guiding roller on the bottom discharging component is horizontally arranged at one side of the discharging roller on the bottom discharging component in a rotatable manner, one end of the top of the laminated frame is provided with two first supports which are symmetrically arranged at intervals, the discharging roller on the middle discharging component is horizontally arranged between the two first supports in a rotatable manner, the guiding roller on the middle discharging component is horizontally arranged at one side of the discharging roller on the middle discharging component in a rotatable manner, the top of one end of the laminated frame far away from each first support is provided with two second supports which are symmetrically arranged at intervals, the discharging roller on the top discharging component is horizontally arranged between the two second supports in a rotatable manner, the material guide roller wheel on the top discharging assembly is horizontal and can be rotatably arranged on one side of the material guide roller wheel on the top discharging assembly.

Preferably, the first gluing component and the second gluing component have the same structure, the first gluing component is positioned on one side of the guide component on the bottom discharging component, the bottom of the first gluing component is fixedly connected with the top of the bottom conveying frame, the second gluing component is positioned on the top of the laminated frame, the second gluing component is positioned between the guide roller on the middle discharging component and the discharging roller on the top discharging component, the first gluing component and the second gluing component respectively comprise a horizontal bracket, a glue bin and a glue roller, the horizontal bracket is horizontally arranged, the glue bin is arranged on the horizontal bracket, the lower end of the glue bin is of an arc structure, the bottom of the glue bin is provided with a glue guide opening, the bottom of the glue bin is also provided with an arc block, the arc block is provided with a glue conveying opening corresponding to the guide opening, the glue roller is horizontally arranged in the arc block, the inside of the arc block is attached to the glue roller, the both ends of glue running roller are equipped with first bearing frame respectively, and the both ends of glue running roller can rotate the limit respectively and insert the inner circle of locating every first bearing frame and outwards extend, and the horizontal stand on the first rubber coating subassembly and every first bearing frame are fixed mounting respectively at the top of bottom carriage, and the horizontal stand on the second rubber coating subassembly and every first bearing frame are fixed mounting respectively at the top of stromatolite frame.

Preferably, a plurality of hairbrushes are uniformly arranged on the surface of each glue roller.

Preferably, the inside of each glue roller is of a hollow structure, the inside of each glue roller is respectively provided with a heating pipe which is horizontally arranged, and the heating pipes are fixedly arranged in the glue rollers.

Preferably, a material guiding and conveying frame is arranged on the stacking frame, and two sides of the material guiding and conveying frame are fixedly connected with the inner wall of the side wall of the stacking frame respectively.

Preferably, one end of the bottom conveying frame, which is close to the composite leveling assembly, is provided with a buffer pressing assembly, the buffer pressing assembly comprises two hollow first rectangular frames and two pressing rollers capable of contacting the geotextile, the two first rectangular frames are vertically and fixedly installed at one end of the bottom conveying frame, which is close to the composite leveling assembly, the two pressing rollers are horizontally arranged between the two first rectangular frames respectively, the two pressing rollers are arranged at intervals along the vertical direction, two ends of each pressing roller are respectively provided with a first bearing sleeve, one end of each pressing roller is rotatably inserted into an inner ring of each first bearing sleeve and extends outwards, each first bearing sleeve is respectively positioned inside each first rectangular frame, two sides of each pressing roller are respectively provided with extension plates, each extension plate is respectively provided with a through hole penetrating through the two surfaces, and a toggle column is respectively arranged in each through hole, every stir the one end of post respectively with first rectangular frame's inner wall fixed connection, every stir the post other end and pass every through-hole respectively and outwards extend, every extension end of stirring the post is equipped with the conflict post respectively, is equipped with the spring on every stirs the post respectively, and the both ends of every spring can be contradicted with first rectangular frame's inner wall and extension plate's surface respectively and set up.

Preferably, the composite leveling assembly comprises a leveling rolling frame, two hollow second rectangular frames and two leveling rollers, the leveling rolling frame is horizontally arranged at one end of the bottom conveying frame, one end of the leveling rolling frame is fixedly connected with one end of the bottom conveying frame, the two second rectangular frames are symmetrically arranged above the leveling rolling frame at intervals, the two second rectangular frames are vertically and horizontally movably arranged above the leveling rolling frame, the two leveling rollers are horizontally arranged between the two second rectangular frames respectively, the two leveling rollers are vertically arranged at intervals, two ends of each leveling roller are respectively provided with a second bearing sleeve, two ends of each leveling roller can be respectively and rotatably inserted into an inner ring of each second bearing sleeve, each second bearing sleeve is respectively arranged inside each second rectangular frame, one side of each second rectangular frame is respectively provided with a vertically arranged bidirectional screw rod transmission machine, the working end of each bidirectional screw rod transmission machine is provided with a material moving block respectively, one end of each material moving block extends towards the inside of the second rectangular frame respectively, one end of each material moving block is fixedly connected with one side of the second bearing sleeve respectively, the second rectangular frame is provided with a first notch for each material moving block to move, the other side of each second rectangular frame is provided with a hollow frame respectively, the inside of each hollow frame is provided with a limiting column which is vertically arranged respectively, the two ends of each limiting column are fixedly connected with the inner wall of the hollow frame respectively, each second bearing sleeve is provided with a limiting block which extends towards the inside of the hollow frame respectively, each limiting block is provided with a limiting hole for each limiting column to penetrate through, and each second rectangular frame is provided with a second notch for each limiting block to move.

Preferably, the composite leveling assembly further comprises a horizontal moving plate and a single-rod cylinder, the horizontal moving plate is horizontally arranged above the leveling winding frame, the bottoms of the two second rectangular frames are respectively fixedly connected with the top of the horizontal moving plate, two limiting rods which are horizontally arranged are respectively arranged at two ends of the lower portion of the horizontal moving plate, a cutting groove used for avoiding the movement of the horizontal moving plate is formed in the leveling winding frame, the two ends of each limiting rod are respectively fixedly connected with the inner wall of the cutting groove, two guide sleeves which are arranged at intervals are respectively arranged on two sides of the bottom of the horizontal moving plate, each guide sleeve can be respectively arranged on each limiting rod in a sliding mode, the single-rod cylinder is horizontally and fixedly installed at one end, far away from the cutting groove, of the leveling winding frame, the output end of the single-rod cylinder extends towards the center of one end of the horizontal moving plate, and the output end of the single-rod cylinder is fixedly connected with one end of the horizontal moving plate.

Preferably, rolling drive assembly includes rolling running roller and driving motor, levels the one end that the grooving was kept away from to the rolling frame and is equipped with two symmetries and the second bearing frame that the interval set up, the rolling running roller is the level and sets up between two second bearing frames, the both ends of rolling running roller can the pivoted respectively insert the inside circle of locating every second bearing frame and outwards extend, driving motor is one side that the level is located one of them second bearing frame of two second bearing frames, driving motor's output and the one end fixed connection of rolling running roller, driving motor passes through motor support and the lateral wall fixed connection who levels the rolling frame.

The invention has the beneficial effects that: a winding device for multi-layer geotextile composite molding is characterized in that before operation, geotextile needing composite molding is placed on material placing rollers on a bottom material placing component, a middle material placing component and a top material placing component respectively, one end of the geotextile on the bottom material placing component, the middle material placing component and the top material placing component passes through a composite leveling component and is connected with a winding roller through manpower, a driving motor is started at the moment, the driving motor drives the winding roller to rotate, the winding roller winds one end of the geotextile on the bottom material placing component, the middle material placing component and the top material placing component respectively, when the geotextile on the bottom material placing component, the middle material placing component and the top material placing component is discharged respectively, the geotextile on the bottom material placing component, the middle material placing component and the top material placing component is guided and conveyed through each material guiding roller, and the geotextile on the bottom material placing component, the middle material placing component and the top material placing component is guided and conveyed through each material guiding roller, When the discharging rollers on the middle discharging component and the top discharging component respectively discharge materials, the glue rollers on the first gluing component and the second gluing component contact the surface of each geotextile, each glue bin respectively conveys glue to the inside of the arc-shaped block through the glue guide opening and moves the glue to the glue rollers, the geotextile is in contact with the glue rollers, when the geotextile moves, the glue rollers are simultaneously driven to rotate to glue, so that the gluing is more uniform, the arranged hairbrush can enable each glue roller to contact the gluing more uniformly on the surface of each geotextile, when each glue roller conducts gluing, the glue rollers can be heated through the heating pipes, so that the glue adhered to the glue rollers is not easy to harden, the geotextile on the middle discharging component can be guided by the material guide conveying frame, and the bottom discharging component is manually and respectively conveyed, Before the geotextiles on the middle discharging component and the top discharging component are moved to the rolling driving component for connection, all geotextiles firstly pass through between two pressing rollers, when all geotextiles are collided by the two pressing rollers, all geotextiles are compounded, all contact posts and spring stirring posts are arranged to start the buffer action, when the two leveling rollers contact the top surface and the collision surface of the superposed geotextile, a single-rod cylinder is started, the single-rod cylinder drives a horizontal moving plate to horizontally move in opposite directions, the horizontal moving plate horizontally moves in opposite directions along a limiting rod through each guide sleeve, the horizontal moving plate simultaneously drives two second rectangular frames and two leveling rollers which are contacted with the superposed geotextile to horizontally move in opposite directions, and the geotextile which is superposed before rolling is more leveled through the two leveling rollers which move, this equipment can be automatic carry out composite forming with multilayer geotechnological cloth to can guarantee the roughness when the rolling, raise the efficiency and the quality.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below. It is obvious that the drawings described below are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic perspective view of a first embodiment of the present invention;

fig. 2 is a schematic perspective view illustrating a second embodiment of the present invention;

FIG. 3 is a front view of an embodiment of the present invention;

FIG. 4 is an enlarged view of the portion A of FIG. 3 according to an embodiment of the present invention;

FIG. 5 is a partial perspective view of an embodiment of the present invention;

FIG. 6 is a partially exploded view of a first glue assembly in accordance with one embodiment of the invention;

fig. 7 is a partial perspective view of a winding mechanism according to an embodiment of the invention;

FIG. 8 is an enlarged view at B of FIG. 7 in accordance with an embodiment of the present invention;

in the figure: a bottom conveying frame 1, a bottom discharging component 2, a first gluing component 3, a middle discharging component 4, a second gluing component 5, a top discharging gluing component 6, a lamination frame 7, a composite flattening component 8, a rolling driving component 9, a buffering pressing component 10, a discharging roller 11, a guide roller 12, a horizontal support 13, a glue bin 14, a glue roller 15, an arc-shaped block 16, a brush 17, a heating pipe 18, a guide conveying frame 19, a pressing roller 20, a first bearing sleeve 21, an extension plate 22, a toggle column 23, an abutting column 24, a spring 25, a flattening rolling frame 26, a first rectangular frame 27, a second rectangular frame 28, a flattening roller 29, a second bearing sleeve 30, a bidirectional screw rod transmission machine 31, a moving block 32, a hollow frame 33, a limiting column 34, a limiting block 35, a horizontal moving plate 36, a single-rod air cylinder 37, a limiting rod 38, a guide sleeve 39, a rolling roller 40 and a driving motor 41,

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if the terms "upper", "lower", "left", "right", "inner", "outer", etc. are used for indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not indicated or implied that the referred device or element must have a specific orientation, be constructed in a specific orientation and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limitations of the present patent, and the specific meanings of the terms may be understood by those skilled in the art according to specific situations.

In the description of the present invention, unless otherwise explicitly specified or limited, the term "connected" or the like, if appearing to indicate a connection relationship between the components, is to be understood broadly, for example, as being fixed or detachable or integral; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through one or more other components or may be in an interactive relationship with one another. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 8, the winding device for multi-layer geotextile composite molding comprises a bottom conveying frame 1, and further comprises a discharging mechanism, a pressing mechanism and a winding mechanism, wherein the discharging mechanism comprises a bottom discharging component 2, a first gluing component 3, a middle discharging component 4, a second gluing component 5 and a top discharging gluing component 6, the bottom discharging component 2 is positioned at one end of the bottom conveying frame 1, the first gluing component 3 is positioned above the bottom conveying frame 1 close to the bottom discharging component 2, a laminated frame 7 is arranged at the top of the bottom discharging gluing component, the middle discharging component 4, the second gluing component 5 and the top discharging gluing component 6 are respectively arranged above the laminated frame 7, the pressing mechanism comprises a composite leveling component 8, the composite leveling component 8 is positioned at one end of the bottom conveying frame 1 far away from the bottom discharging gluing component, the winding mechanism comprises a winding driving component 9, the rolling driving component 9 is positioned at one end of the composite flattening component 8.

The bottom discharging component 2, the middle discharging component 4 and the top discharging component are respectively provided with a discharging roller 11 and a guiding roller 12, the discharging roller 11 on the bottom discharging component 2 is horizontal and can be rotatably arranged at one end of the bottom conveying frame 1, the guiding roller 12 on the bottom discharging component 2 is horizontal and can be rotatably arranged at one side of the discharging roller 11 on the bottom discharging component 2, one end of the top of the lamination frame 7 is provided with two first brackets which are symmetrical and arranged at intervals, the discharging roller 11 on the middle discharging component 4 is horizontal and can be rotatably arranged between the two first brackets, the guiding roller 12 on the middle discharging component 4 is horizontal and can be rotatably arranged at one side of the discharging roller 11 on the middle discharging component 4, the top of one end of the lamination frame 7, which is far away from each first bracket, is provided with two second brackets which are symmetrical and arranged at intervals, blowing running roller 11 on the blowing subassembly of top is the level and setting that can rotate is between two second supports, guide running roller 12 on the blowing subassembly of top is the level and can rotatory setting guide running roller 12 one side on the blowing subassembly of top, bottom blowing subassembly 2, during blowing running roller 11 on middle part blowing subassembly 4 and the blowing subassembly of top carries out the blowing respectively, bottom blowing subassembly 2, geotechnological cloth on middle part blowing subassembly 4 and the blowing subassembly of top plays earlier and carries through every guide running roller 12 guide transport.

The first gluing component 3 and the second gluing component 5 are identical in structure, the first gluing component 3 is positioned on one side of a guide component on the bottom discharging component 2, the bottom of the first gluing component 3 is fixedly connected with the top of the bottom conveying frame 1, the second gluing component 5 is positioned on the top of the laminated frame 7, the second gluing component 5 is positioned between a guide roller 12 on the middle discharging component 4 and a discharging roller 11 on the top discharging component, the first gluing component 3 and the second gluing component 5 respectively comprise a horizontal bracket 13, a glue bin 14 and a glue roller 15, the horizontal bracket 13 is horizontally arranged, the glue bin 14 is arranged on the horizontal bracket 13, the lower end of the glue bin 14 is of an arc-shaped structure, a glue guide opening is arranged at the bottom of the glue bin 14, an arc-shaped block 16 is further arranged at the bottom of the glue bin 14, a glue conveying opening corresponding to the guide opening is arranged on the arc-shaped block 16, the glue roller 15 is horizontally arranged inside the arc-shaped block 16, the interior of the arc-shaped block 16 is attached to a glue roller 15, two ends of the glue roller 15 are respectively provided with a first bearing seat, two ends of the glue roller 15 can respectively rotate to be inserted into the inner ring of each first bearing seat and extend outwards, a horizontal support 13 on a first gluing component 3 and each first bearing seat are respectively and fixedly arranged at the top of the bottom conveying frame 1, a horizontal support 13 on a second gluing component 5 and each first bearing seat are respectively and fixedly arranged at the top of the laminated frame 7, when the bottom discharging component 2, the middle discharging component 4 and the discharging roller 11 on the top discharging component respectively discharge, the glue rollers 15 on the first gluing component 3 and the second gluing component 5 contact the surface of each geotextile, each glue bin 14 respectively conveys glue to the interior of the arc-shaped block 16 through a glue guide opening and moves the glue to the roller 15, because geotechnical cloth and glue running roller 15 contact, when geotechnical cloth removes, drive glue running roller 15 simultaneously and rotate and glue, make the rubber coating more even.

Every glue running roller 15's surface is even is provided with a plurality of brush 17, and the brush 17 that sets up can make every glue running roller 15 lie in that every geotechnological cloth surface contact rubber coating is more even.

Every glue running roller 15's inside is hollow structure, and every glue running roller 15's inside is equipped with the heating pipe 18 that is the level setting respectively, and heating pipe 18 fixed mounting can heat glue running roller 15 through heating pipe 18 in glue running roller 15's inside when every glue running roller 15 carries out the rubber coating, makes the difficult sclerosis of glue of adhesion on glue running roller 15.

The material guiding and conveying frame 19 is arranged on the laminated frame 7, two sides of the material guiding and conveying frame 19 are fixedly connected with the inner wall of the side wall of the laminated frame 7 respectively, and the geotextile on the middle discharging component 4 can be conveyed in a guiding mode through the material guiding and conveying frame 19.

The bottom conveying frame 1 is provided with a buffering pressing assembly 10 at one end close to the composite leveling assembly 8, the buffering pressing assembly 10 comprises two hollow first rectangular frames 27 and two pressing rollers 20 capable of contacting with geotextile, the two first rectangular frames 27 are vertically and fixedly installed at one end of the bottom conveying frame 1 close to the composite leveling assembly 8, the two pressing rollers 20 are horizontally arranged between the two first rectangular frames 27 respectively, the two pressing rollers 20 are arranged at intervals along the vertical direction, two ends of each pressing roller 20 are provided with first bearing sleeves 21 respectively, one end of each pressing roller 20 is rotatably inserted into an inner ring of each first bearing sleeve 21 and extends outwards, each first bearing sleeve 21 is arranged inside each first rectangular frame 27 respectively, two sides of each pressing roller 20 are provided with extension plates 22 respectively, each extension plate 22 is provided with a through hole penetrating through the two surfaces respectively, a toggle column 23 is respectively arranged in each through hole, one end of each toggle column 23 is respectively fixedly connected with the inner wall of the first rectangular frame 27, the other end of each toggle column 23 respectively penetrates through each through hole to extend outwards, the extending end of each toggle column 23 is respectively provided with a touch column 24, each toggle column 23 is respectively provided with a spring 25, two ends of each spring 25 can respectively abut against the inner wall of the first rectangular frame 27 and the surface of the extending plate 22, before the geotextiles on the bottom discharging component 2, the middle discharging component 4 and the top discharging component are respectively moved to the rolling driving component 9 for connection by manpower, all the geotextiles firstly pass through the two pressing rollers 20, when all geotechnical cloth is contradicted through two pressfitting running rollers 20 to compound all geotechnical cloth, all contact posts 24, the spring 25 that set up stir post 23 and start the cushioning effect.

The composite flattening assembly 8 comprises a flattening winding frame 26, two hollow second rectangular frames 28 and two flattening rollers 29, wherein the flattening winding frame 26 is horizontally arranged at one end of the bottom conveying frame 1, one end of the flattening winding frame 26 is fixedly connected with one end of the bottom conveying frame 1, the two second rectangular frames 28 are symmetrically arranged above the flattening winding frame 26 at intervals, the two second rectangular frames 28 are vertically and horizontally movably arranged above the flattening winding frame 26, the two flattening rollers 29 are horizontally arranged between the two second rectangular frames 28 respectively, the two flattening rollers 29 are vertically arranged at intervals, two ends of each flattening roller 29 are respectively provided with a second bearing sleeve 30, two ends of each flattening roller 29 are respectively rotatably inserted into an inner ring of each second bearing sleeve 30, each second bearing sleeve 30 is respectively arranged inside each second rectangular frame 28, a vertically arranged two-way screw rod transmission machine 31 is respectively arranged on one side of each second rectangular frame 28, a material moving block 32 is respectively arranged at the working end of each two-way screw rod transmission machine 31, one end of each material moving block 32 extends towards the inside of the second rectangular frame 28, one end of each material moving block 32 is fixedly connected with one side of each second bearing sleeve 30, a first notch for each material moving block 32 to move is arranged on the second rectangular frame 28, a hollow frame 33 is respectively arranged on the other side of each second rectangular frame 28, a vertically arranged limiting column 34 is respectively arranged inside each hollow frame 33, two ends of each limiting column 34 are respectively fixedly connected with the inner wall of each hollow frame 33, a limiting block 35 extending towards the inside of each hollow frame 33 is respectively arranged on each second bearing sleeve 30, a limiting hole for each limiting column 34 to pass through is respectively arranged on each limiting block 35, every second rectangular frame 28 is last to be equipped with the second incision that is used for supplying every stopper 35 to remove respectively, and compound all geotechnological cloth passes between two leveling rollers 29 again through between two leveling rollers 29, and two-way screw drive 31 can drive every second bearing housing 30 and two leveling rollers 29 according to the superimposed thickness of all geotechnological cloth and adjust, makes the top surface and the conflict surface of two leveling rollers 29 contact geotechnological cloth after the coincide.

The composite flattening assembly 8 further comprises a horizontal moving plate 36 and a single-rod cylinder 37, the horizontal moving plate 36 is horizontally arranged above the flattening winding frame 26, the bottoms of the two second rectangular frames 28 are respectively fixedly connected with the top of the horizontal moving plate 36, two horizontally arranged limiting rods 38 are respectively arranged at two ends below the horizontal moving plate 36, a cutting groove for avoiding the horizontal moving plate 36 to move is arranged on the flattening winding frame 26, the inner wall of the cutting groove is respectively fixedly connected with two ends of each limiting rod 38, two guiding sleeves 39 arranged at intervals are respectively arranged at two sides of the bottom of the horizontal moving plate 36, each guiding sleeve 39 is respectively arranged on each limiting rod 38 in a sliding manner, the single-rod cylinder 37 is horizontally and fixedly arranged at one end of the flattening winding frame 26 far away from the cutting groove, the output end of the single-rod cylinder 37 extends towards the center of one end of the horizontal moving plate 36, and the output end of the single-rod cylinder 37 is fixedly connected with one end of the horizontal moving plate 36, when the two leveling rollers 29 contact the top surface and the abutting surface of the superimposed geotextile, the single-rod cylinder 37 is started, the single-rod cylinder 37 drives the horizontal moving plate 36 to horizontally move in the opposite direction, the horizontal moving plate 36 horizontally moves in the opposite direction along the limiting rod 38 through each guide sleeve 39, the horizontal moving plate 36 simultaneously drives the two second rectangular frames 28 and the two leveling rollers 29 which are in contact with the superimposed geotextile to horizontally move in the opposite direction, and the superimposed geotextile is more smoothly compounded before being rolled through the two moved leveling rollers 29.

The rolling driving assembly 9 comprises a rolling roller 40 and a driving motor 41, two symmetrical second bearing seats which are arranged at intervals are arranged at one end, far away from a cutting groove, of the leveling rolling frame 26, the rolling roller 40 is horizontally arranged between the two second bearing seats, two ends of the rolling roller 40 can be respectively and rotatably inserted into inner rings of the second bearing seats to extend outwards, the driving motor 41 is horizontally arranged at one side of one of the second bearing seats, the output end of the driving motor 41 is fixedly connected with one end of the rolling roller 40, the driving motor 41 is fixedly connected with the side wall of the leveling rolling frame 26 through a motor support, before operation, geotextile needing composite forming is firstly respectively placed on the bottom discharging assembly 2, the middle discharging assembly 4 and the discharging roller 11 on the top discharging assembly, and then one ends of geotextile on the bottom discharging assembly 2, the middle discharging assembly 4 and the top discharging assembly respectively pass through the composite leveling assembly 8 and the rolling roller 11 through manpower The rollers 40 are connected, at this time, the driving motor 41 is started, the driving motor 41 drives the rolling roller 40 to rotate, and the rolling roller 40 rolls one end of the geotextile on the bottom discharging component 2, the middle discharging component 4 and the top discharging component respectively.

The working principle is as follows: before operation, firstly, placing geotextile to be compositely molded on the bottom discharging component 2, the middle discharging component 4 and the discharging roller 11 on the top discharging component respectively, then, respectively enabling one end of the geotextile on the bottom discharging component 2, the middle discharging component 4 and the top discharging component to pass through the composite flattening component 8 and be connected with the winding roller 40 through manual work, then, starting the driving motor 41, driving the winding roller 40 to rotate by the driving motor 41, winding the geotextile one end on the bottom discharging component 2, the middle discharging component 4 and the top discharging component respectively by the winding roller 40, when the discharging roller 11 on the bottom discharging component 2, the middle discharging component 4 and the top discharging component respectively discharges, guiding and conveying are carried out through each guiding roller 12 firstly by the geotextile on the bottom discharging component 2, the middle discharging component 4 and the top discharging component, when the bottom discharging component 2, the middle discharging component 4 and the discharging roller 11 on the top discharging component are respectively used for discharging, the glue roller 15 on the first gluing component 3 and the second gluing component 5 are contacted with the surface of each geotextile, each glue bin 14 is respectively used for conveying glue to the inside of the arc-shaped block 16 through the glue guide opening and moving the glue to the glue roller 15, as the geotextile is contacted with the glue roller 15, when the geotextile moves, the glue roller 15 is simultaneously driven to rotate for gluing, so that the gluing is more uniform, the arranged brush 17 can ensure that each glue roller 15 is more uniformly contacted and glued on the surface of each geotextile, when each glue roller 15 is used for gluing, the glue roller 15 can be heated through the heating pipe 18, so that the glue adhered on the glue roller 15 is not easy to harden, the geotextile on the middle discharging component 4 can be conveyed through the guide conveying rack 19, before manually moving the geotextiles on the bottom discharge component 2, the middle discharge component 4 and the top discharge component to the rolling driving component 9 for connection, firstly, all the geotextiles pass through the two pressing rollers 20, when all the geotextiles are collided by the two pressing rollers 20, all the geotextiles are compounded, all the contact posts 24 and the spring 25 toggle posts 23 arranged start the buffer action, when the two leveling rollers 29 contact the top surface and the collision surface of the superposed geotextile, the single-rod cylinder 37 is started, the single-rod cylinder 37 drives the horizontal moving plate 36 to horizontally move in opposite directions, the horizontal moving plate 36 horizontally moves in opposite directions along the limiting rod 38 through each guide sleeve 39, the horizontal moving plate 36 simultaneously drives the two second rectangular frames 28 and the two leveling rollers 29 which are contacted with the superposed geotextile) to horizontally move in opposite directions, the geotextile after being laminated is compounded to be more smooth before being rolled through the two movable leveling rollers 29.

It should be understood that the above-described embodiments are merely preferred embodiments of the invention and the technical principles applied thereto. It will be understood by those skilled in the art that various modifications, equivalents, changes, and the like can be made to the present invention. However, such variations are within the scope of the invention as long as they do not depart from the spirit of the invention. In addition, certain terms used in the specification and claims of the present application are not limiting, but are used merely for convenience of description.

Claims (7)

1. The utility model provides a coiling mechanism of multilayer geotechnological cloth composite forming which characterized in that: the automatic material-spreading and glue-spreading device comprises a bottom conveying frame (1), and further comprises a material-spreading mechanism, a pressing mechanism and a winding mechanism, wherein the material-spreading mechanism comprises a bottom material-spreading component (2), a first glue-spreading component (3), a middle material-spreading component (4), a second glue-spreading component (5) and a top material-spreading component (6), the bottom material-spreading component (2) is positioned at one end of the bottom conveying frame (1), the first glue-spreading component (3) is positioned above the bottom conveying frame (1) close to the bottom material-spreading component (2), a laminated frame (7) is arranged at the top of the bottom material-spreading and glue-spreading component, the middle material-spreading component (4), the second glue-spreading component (5) and the top material-spreading and glue-spreading component (6) are respectively arranged above the laminated frame (7), the pressing mechanism comprises a composite leveling component (8), and the composite leveling component (8) is positioned at one end of the bottom conveying frame (1) far away from the bottom material-spreading and glue-spreading component, the winding mechanism comprises a winding driving component (9), and the winding driving component (9) is positioned at one end of the composite flattening component (8);

the bottom conveying frame (1) is provided with a buffering pressing component (10) at one end close to the composite leveling component (8), the buffering pressing component (10) comprises two hollow first rectangular frames (27) and two pressing rollers (20) capable of contacting geotextile, the two first rectangular frames (27) are vertically and fixedly arranged at one end of the bottom conveying frame (1) close to the composite leveling component (8), the two pressing rollers (20) are horizontally arranged between the two first rectangular frames (27), the two pressing rollers (20) are arranged at intervals along the vertical direction, two ends of each pressing roller (20) are respectively provided with a first bearing sleeve (21), one end of each pressing roller (20) is respectively and rotatably inserted into an inner ring of each first bearing sleeve (21) to extend outwards, each first bearing sleeve (21) is respectively positioned inside each first rectangular frame (27), the two sides of each pressing roller (20) are respectively provided with an extension plate (22), each extension plate (22) is provided with a through hole penetrating through two surfaces, each through hole is internally provided with a toggle column (23), one end of each toggle column (23) is fixedly connected with the inner wall of a first rectangular frame (27), the other end of each toggle column (23) penetrates through each through hole to extend outwards, the extension end of each toggle column (23) is provided with a touch column (24), each toggle column (23) is provided with a spring (25), and two ends of each spring (25) can be respectively abutted against the inner wall of the first rectangular frame (27) and the surface of the extension plate (22);

the composite leveling assembly (8) comprises a leveling winding frame (26), two hollow second rectangular frames (28) and two leveling rollers (29), wherein the leveling winding frame (26) is horizontally arranged at one end of the bottom conveying frame (1), one end of the leveling winding frame (26) is fixedly connected with one end of the bottom conveying frame (1), the two second rectangular frames (28) are symmetrical and are arranged above the leveling winding frame (26) at intervals, the two second rectangular frames (28) are both vertically arranged above the leveling winding frame (26) in a horizontally moving manner, the two leveling rollers (29) are both horizontally arranged between the two second rectangular frames (28), the two leveling rollers (29) are arranged at intervals along the vertical direction, two ends of each leveling roller (29) are respectively provided with a second bearing sleeve (30), two ends of each leveling roller (29) can be respectively rotatably inserted into an inner ring of each second bearing sleeve (30), each second bearing sleeve (30) is respectively positioned inside each second rectangular frame (28), one side of each second rectangular frame (28) is respectively provided with a vertically-arranged two-way screw rod transmission machine (31), the working end of each two-way screw rod transmission machine (31) is respectively provided with a material moving block (32), one end of each material moving block (32) extends towards the inside of the second rectangular frame (28), one end of each material moving block (32) is fixedly connected with one side of each second bearing sleeve (30), the second rectangular frame (28) is provided with a first notch for each material moving block (32) to move, the other side of each second rectangular frame (28) is respectively provided with a hollow frame (33), the inside of each hollow frame (33) is respectively provided with a vertically-arranged limiting column (34), the two ends of each limiting column (34) are respectively fixedly connected with the inner wall of the hollow frame (33), each second bearing sleeve (30) is respectively provided with a limiting block (35) extending towards the inside of the hollow frame (33), each limiting block (35) is respectively provided with a limiting hole for each limiting column (34) to pass through, and each second rectangular frame (28) is respectively provided with a second notch for each limiting block (35) to move;

the composite leveling assembly (8) further comprises a horizontal moving plate (36) and a single-rod cylinder (37), the horizontal moving plate (36) is horizontally arranged above the leveling winding frame (26), the bottoms of the two second rectangular frames (28) are respectively fixedly connected with the top of the horizontal moving plate (36), two horizontally arranged limiting rods (38) are respectively arranged at two ends of the lower portion of the horizontal moving plate (36), a cutting groove for avoiding the horizontal moving plate (36) to move is formed in the leveling winding frame (26), the inner wall of the cutting groove is respectively fixedly connected with two ends of each limiting rod (38), two guide sleeves (39) which are arranged at intervals are respectively arranged at two sides of the bottom of the horizontal moving plate (36), each guide sleeve (39) is respectively slidably arranged on each limiting rod (38), and the single-rod cylinder (37) is horizontally and fixedly installed at one end, far away from the cutting groove, of the leveling winding frame (26), the output end of the single-rod cylinder (37) extends to the center of one end of the horizontal moving plate (36), and the output end of the single-rod cylinder (37) is fixedly connected with one end of the horizontal moving plate (36).

2. The winding device for multi-layer geotextile composite molding according to claim 1, wherein: the bottom discharging component (2), the middle discharging component (4) and the top discharging component are respectively provided with a discharging roller (11) and a guide roller (12), the discharging roller (11) on the bottom discharging component (2) is horizontal and can be rotatably arranged at one end of the bottom conveying frame (1), the guide roller (12) on the bottom discharging component (2) is horizontal and can be rotatably arranged at one side of the discharging roller (11) on the bottom discharging component (2), one end of the top of the laminated frame (7) is provided with two first brackets which are symmetrical and are arranged at intervals, the discharging roller (11) on the middle discharging component (4) is horizontal and can be rotatably arranged between the two first brackets, the guide roller (12) on the middle discharging component (4) is horizontal and can be rotatably arranged at one side of the discharging roller (11) on the middle discharging component (4), the one end top that every first support was kept away from in stromatolite frame (7) is equipped with two symmetries and the second support that the interval set up, and blowing running roller (11) on the blowing subassembly of top are the level and can rotatory setting between two second supports, and guide running roller (12) on the blowing subassembly of top are the level and can rotatory setting guide running roller (12) one side on the blowing subassembly of top.

3. The winding device for multilayer geotextile composite molding according to claim 2, wherein: the first gluing component (3) and the second gluing component (5) are identical in structure, the first gluing component (3) is positioned on one side of a material guide component on a bottom discharging component (2), the bottom of the first gluing component (3) is fixedly connected with the top of a bottom conveying frame (1), the second gluing component (5) is positioned on the top of a laminated frame (7), the second gluing component (5) is positioned between a material guide roller (12) on a middle discharging component (4) and a discharging roller (11) on the top discharging component, the first gluing component (3) and the second gluing component (5) respectively comprise a horizontal support (13), a glue bin (14) and a glue roller (15), the horizontal support (13) is horizontally arranged, the glue bin (14) is arranged on the horizontal support (13), the lower end of the glue bin (14) is of an arc-shaped structure, and a glue guide opening is arranged at the bottom of the glue bin (14), the bottom in glue storehouse (14) still is equipped with arc piece (16), be equipped with the defeated glue opening that corresponds with the guide opening on arc piece (16), glue running roller (15) are the inside that the level set up at arc piece (16), the inside and the laminating of glue running roller (15) of arc piece (16) set up, the both ends of glue running roller (15) are equipped with primary shaft bearing respectively, the both ends of glue running roller (15) can rotate the limit respectively and insert the inner circle of locating every primary shaft bearing and outwards extend, horizontal stand (13) and every primary shaft bearing on first rubber coating subassembly (3) are fixed mounting respectively at the top of bottom carriage (1), horizontal stand (13) and every primary shaft bearing on second rubber coating subassembly (5) are fixed mounting respectively at the top of folding frame (7).

4. The winding device for multi-layer geotextile composite molding, according to claim 3, is characterized in that: a plurality of hairbrushes (17) are uniformly arranged on the surface of each glue roller (15).

5. The winding device for multi-layer geotextile composite molding according to claim 4, wherein: every the inside of glue running roller (15) is hollow structure, and the inside of every glue running roller (15) is equipped with respectively and is the heating pipe (18) of level setting, and heating pipe (18) fixed mounting is in the inside of glue running roller (15).

6. The winding device for multi-layer geotextile composite molding according to claim 5, wherein: the material guide device is characterized in that a material guide conveying frame (19) is arranged on the laminated frame (7), two sides of the material guide conveying frame (19) are fixedly connected with the inner wall of the side wall of the laminated frame (7) respectively, and geotextile on the middle discharging assembly (4) can be conveyed in a guiding mode through the material guide conveying frame (19).

7. The winding device for multi-layer geotextile composite molding according to claim 1, wherein: rolling drive assembly (9) are including rolling running roller (40) and driving motor (41), level rolling frame (26) and keep away from the one end of grooving and be equipped with two symmetries and the second bearing seat that the interval set up, rolling running roller (40) are the level and set up between two second bearing seats, the both ends of rolling running roller (40) can be respectively the pivoted insert the inside circle of locating every second bearing seat and outwards extend, driving motor (41) are the level and are located one side of two one of them second bearing seats of second bearing seat, the output of driving motor (41) and the one end fixed connection of rolling running roller (40), driving motor (41) are through motor support and the lateral wall fixed connection who levels rolling frame (26).

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