CN112252207B

CN112252207B - Processing and treating system for bridge building reinforcing fiber net

Info

Publication number: CN112252207B
Application number: CN202011110536.0A
Authority: CN
Inventors: 黄艳梅; 胡可
Original assignee: 辽宁交通建设集团有限公司
Current assignee: Liaoning Communications Construction Group Co ltd
Priority date: 2020-10-16
Filing date: 2020-10-16
Publication date: 2022-04-15
Anticipated expiration: 2040-10-16
Also published as: CN112252207A

Abstract

The invention relates to a processing system for a bridge building reinforcing fiber net, which comprises a base and a processing device, wherein the processing device is arranged on the upper surface of the base. The invention can solve the following problems when the bridge building reinforcing fiber net is processed at present: according to the requirements of a construction site, a large piece of fiber net is cut into a required size, and then the cut fiber net pieces are subjected to glue coating one by one, so that time and labor are wasted, the production efficiency of the fiber net with a proper size is reduced, the construction requirement is difficult to meet, the cut fiber net pieces need to be moved to the construction site to be glued and then pasted to the surface of concrete, the fiber net pieces are not suitable for glue coating in the construction site environment, dust is easily attached to the surface of the glued fiber net to influence the viscosity of the glued fiber net pieces, and the using effect of the fiber net is reduced.

Description

Processing and treating system for bridge building reinforcing fiber net

Technical Field

The invention relates to the technical field of building reinforcement, in particular to a processing system for a bridge building reinforcement fiber net.

Background

The reinforcing fiber net for bridge building is used in reinforcing and repairing concrete structure, and is adhered to the surface of concrete with adhesive to reinforce the structure and resist earthquake. When the bridge building reinforcing fiber net is used, a large sheet of produced fiber net needs to be cut, then gluing is carried out, and then the glued fiber net is moved to a place needing construction to be pasted on the surface of concrete.

When the reinforcing fiber net for the bridge building is treated at present, the following problems exist: according to the requirements of a construction site, a large piece of fiber net is cut into a required size, and then the cut fiber net pieces are subjected to glue coating one by one, so that time and labor are wasted, the production efficiency of the fiber net with a proper size is reduced, the construction requirement is difficult to meet, the cut fiber net pieces need to be moved to the construction site to be glued and then pasted to the surface of concrete, the fiber net pieces are not suitable for glue coating in the construction site environment, dust is easily attached to the surface of the glued fiber net to influence the viscosity of the glued fiber net pieces, and the using effect of the fiber net is reduced.

Disclosure of Invention

The invention aims to provide a processing and treating system for a bridge building reinforcing fiber net, which aims to solve the problems in the background technology.

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

a processing system for a bridge building reinforcing fiber net comprises a base and a processing device, wherein the processing device is arranged on the upper surface of the base; wherein:

the processing device comprises a processing frame body, a first winding roller, a processing unit, a second winding roller, a guide roller, a collecting unit, a processing grooved wheel, a processing shifting wheel and a processing motor, wherein the processing frame body is arranged on the upper surface of the base, the first winding roller, the processing unit and the second winding roller are sequentially arranged above the processing frame body from left to right, the guide roller is arranged between the first winding roller and the processing unit and between the processing unit and the second winding roller, the collecting unit is arranged right below the processing unit, the processing grooved wheels are symmetrically arranged at two ends of the second winding roller, the processing shifting wheel is arranged above the processing grooved wheel, the processing grooved wheel is in intermittent fit contact with the processing shifting wheel, the processing motor is arranged right above the second winding roller, and the processing shifting wheel is in transmission connection with the output end of the processing motor through a belt;

the treatment unit comprises a treatment chute, a treatment slide block, a treatment frame, a treatment bracket, a treatment cut-off knife, a treatment cylinder, a gluing brush head, a treatment support plate and a treatment top block, wherein the front inner side wall and the rear inner side wall of the treatment frame are symmetrically provided with the treatment chute, the treatment chute is internally provided with the treatment slide block in a sliding manner through a support spring, the treatment frame is arranged between the treatment slide blocks, the treatment frame is uniformly provided with a plurality of rectangular through grooves along the length direction of the treatment frame, the treatment bracket is arranged between the rectangular through grooves in a sliding manner through the support spring, the lower surface of the treatment bracket is uniformly provided with the rectangular treatment cut-off knife along the length direction, the treatment cut-off knife is in sliding fit with the inner walls of the rectangular through grooves, the lower surface of the upper wall of the treatment frame is provided with the treatment cylinder, the output end of the treatment cylinder is provided with a treatment disc in a sliding manner through the support spring, and the upper surface of the treatment bracket is contacted with the top of the output end of the treatment cylinder, be located and be provided with the rubber coating cylinder on handling the framework upper wall lower surface directly over the rectangular through groove, rubber coating cylinder output is provided with the rubber coating brush head, handles to be provided with between the spout bottom and handles the extension board, handles the extension board upper surface and extends its length direction and evenly be provided with a plurality of and handle the kicking block, the rectangular through groove with handle the kicking block one-to-one.

As a further scheme of the invention: the collecting unit is including collecting the slide, collect the slider, collect the cylinder, collect the riser, collect the rack, collect branch, collect the gear and collect the extension board, it has seted up and has collected the slide to handle spout left side below, it is provided with the collection slider to slide in the collection slide, and collect the slide bottom and be provided with the collection cylinder, it is connected with collection cylinder output to collect the slider, it is provided with the collection riser on the collection slider to collect, be provided with on the collection riser and collect the rack, it is provided with and collects branch to handle the extension board left side, it is provided with the collection gear to collect branch both ends symmetry, it is connected with collection gear engagement to collect the rack, it evenly is provided with a plurality of collection extension board to prolong its length direction on the branch to collect the branch, handle the kicking block and collect the extension board one-to-one.

As a further scheme of the invention: the gluing brush head is of an oval saccular structure, and capillary brush tubes are fully distributed on the surface of the gluing brush head.

As a further scheme of the invention: collect and be provided with toggle shaft pole under the branch, toggle shaft pole both ends symmetry is provided with toggle gear, collects the rack and is connected with toggle gear meshing, and toggle shaft pole both ends symmetry is provided with the poking rod, it is elastic scalable structure and one end be hook-like structure to stir the poking rod, the symmetry has been seted up around the base upper surface and has been stirred the slide, stirs and slides and be provided with in the slide and stir the slider, stirs and is provided with between the slider and stir the support, stirs the support upper surface back both ends all and extend its length direction and evenly be provided with a plurality of arc wall, stirs the one end and the arc wall cooperation of poking rod and is connected, stirs and evenly is provided with a plurality of collection framework from the front to the back on the support, prolongs its length direction and evenly is provided with a plurality of collecting vat in the collection framework.

As a further scheme of the invention: stir its length direction of internal extension of slide and evenly be provided with the semi-circular spacing draw-in groove of a plurality of, stir and seted up spacing spout on the slider, have spacing fixture block through spacing spring slidable mounting in the spacing spout, spacing draw-in groove and spacing fixture block cooperation contact.

As a further scheme of the invention: the collecting frame body is rotatably connected with the collecting tank through a pin shaft, a worm wheel is arranged at one end of the pin shaft, the worm wheel is connected with the collecting tank through a worm, a supporting roller is uniformly arranged on one side wall in the collecting tank through a supporting spring, and needle-shaped supporting rods are fully distributed on the surface of the supporting roller.

Compared with the prior art, the invention has the following advantages:

can solve the following problems when the fiber net for reinforcing the bridge building is processed at present: according to the requirements of a construction site, a large piece of fiber net is cut into a required size, and then the cut fiber net pieces are subjected to glue coating one by one, so that time and labor are wasted, the production efficiency of the fiber net with a proper size is reduced, the construction requirement is difficult to meet, the cut fiber net pieces need to be moved to the construction site for glue coating and then are adhered to the surface of concrete, the fiber net pieces are not suitable for glue coating in the construction site environment, dust is easily adhered to the surface of the fiber net after glue coating, the viscosity of the fiber net pieces is influenced, and the using effect of the fiber net pieces is reduced;

when the device is used for processing a bridge building reinforcing fiber net, a large piece of fiber net intermittently passes through the processing unit under the driving of the processing motor through the processing grooved wheel and the processing shifting wheel, then the processing unit presses, coats and cuts the fiber net, and the fiber net after coating and cutting is collected by the collecting unit, so that the processing efficiency of the fiber net can be effectively improved, the fiber net after coating and cutting can be well stored in the collecting unit, when the device is required to be used, the collecting frame body is moved to a construction site, and the problem caused by coating on the construction site is avoided.

According to the invention, the supporting roller is designed in the collecting tank, and the needle-shaped supporting rods are fully distributed on the surface of the supporting roller, so that the surface of the fiber net coated with glue can not be in contact with the inner wall of the collecting tank, the surface glue surface is polluted and loses viscosity, and the needle-shaped supporting rods are fully distributed on the surface of the supporting roller, so that the fiber net can be supported, and excessive contact with the glue surface can be avoided.

Drawings

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

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic cross-sectional view taken along line B-B of FIG. 2 in accordance with the present invention;

FIG. 5 is a schematic cross-sectional view taken at C-C of FIG. 2 in accordance with the present invention;

FIG. 6 is a schematic cross-sectional view of a collection frame of the present invention;

FIG. 7 is a cross-sectional view of the base of the present invention;

FIG. 8 is a schematic cross-sectional view of a collection trough of the present invention.

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 explained with reference to fig. 1 to 8.

A processing system for a bridge building reinforcing fiber net comprises a base 1 and a processing device 2, wherein the processing device 2 is arranged on the upper surface of the base 1; wherein:

the processing device 2 comprises a processing frame body 20, a first winding roller 21, a processing unit 22, a second winding roller 23, a guide roller 24, a collecting unit 25, a processing grooved wheel 26, a processing thumb wheel 27 and a processing motor 28, the upper surface of the base 1 is provided with a processing frame body 20, a first winding roller 21, a processing unit 22 and a second winding roller 23 are sequentially arranged above the processing frame body 20 from left to right, guide rollers 24 are respectively arranged between the first winding roller 21 and the processing unit 22 and between the processing unit 22 and the second winding roller 23, a collecting unit 25 is arranged under the processing unit 22, processing grooved wheels 26 are symmetrically arranged at two ends of the second winding roller 23, a processing dial wheel 27 is arranged above the processing grooved wheels 26, the processing grooved wheels 26 are in intermittent fit contact with the processing dial wheel 27, a processing motor 28 is arranged above the second winding roller 23, and the processing dial wheel 27 is in belt transmission connection with the output end of the processing motor 28;

during specific work, a large piece of produced fiber web is wound on the first winding roller 21, one end of the fiber web enters the processing unit 22 through the guide roller 24, then is connected with the second winding roller 23 through the guide roller 24, then the processing motor 28 is started to drive the processing shifting wheel 27 to rotate through belt transmission, then the processing shifting wheel 27 intermittently shifts the processing grooved wheel 26 to rotate the processing unit 22 which drives the fiber web to pass through one section by one section, the processing unit presses and fixes the passing fiber web, glue is coated on the surface of the fiber web, after the glue is coated, the fiber web is cut at the glue-coated position, and then the fiber web is collected and stored by the collecting unit 25, so that the large piece of fiber web can be cut into small pieces of fiber web which accord with the size according to construction requirements, the glue coating and cutting of the fiber web can be continuously performed, and the production efficiency of the fiber web is effectively improved, the guide rollers 24 may move the web horizontally into the processing unit 22 and horizontally out of the processing unit 22.

The processing unit 22 comprises a processing chute 220, a processing slide block 221, a processing frame 222, a processing bracket 223, a processing cutter 224, a processing cylinder 225, a gluing cylinder 226, a gluing brush 227, a processing support plate 228 and a processing top block 229, wherein the front inner side wall and the rear inner side wall of the processing frame body 20 are symmetrically provided with the processing chute 220, the processing slide block 221 is slidably installed in the processing chute 220 through a support spring, the processing frame 222 is arranged between the processing slide blocks 221, a plurality of rectangular through grooves are uniformly arranged on the processing frame body 20 along the length direction of the processing frame body, the processing bracket 223 is slidably arranged between the rectangular through grooves through the support spring, the rectangular processing cutter 224 is uniformly arranged on the lower surface of the processing bracket 223 along the length direction of the processing bracket, the processing cutter 224 is slidably attached to the inner wall of the rectangular through groove, the processing cylinder 225 is arranged on the lower surface of the upper wall of the processing frame body 20, the output end of the processing cylinder 225 is slidably provided with a processing disk through the support spring, the upper surface of the processing bracket 223 is contacted with the top of the output end of the processing cylinder 225, the lower surface of the upper wall of the processing frame 20 right above the rectangular through groove is provided with a gluing cylinder 226, the output end of the gluing cylinder 226 is provided with a gluing brush head 227, a processing support plate 228 is arranged between the bottom ends of the processing chutes 220, the upper surface of the processing support plate 228 is uniformly provided with a plurality of processing top blocks 229 along the length direction, and the rectangular through grooves are in one-to-one correspondence with the processing top blocks 229;

in operation, when the web passes between the processing frame 222 and the processing top block 229, the processing cylinder 225 extends to push the processing frame 222 downwards through the processing disc, so that the processing frame 222 and the processing top block 229 press and fix the web, then the gluing cylinder 226 extends to push the gluing brush 227 to apply glue on the surface of the web, after the gluing is finished, the processing cylinder 225 extends continuously to push the processing bracket 223 to move downwards in the processing frame 222, so that the processing cutter 224 cuts off the glued part of the web, at this time, the processing frame 222 and the processing top block 229 can always press the web because the output end of the processing cylinder 225 passes through the processing disc slidably arranged by the supporting spring, so that the cut web surface has a flat surface with smaller dimensional error, after the processing of the web is finished, the processing cylinder 225 is shortened, the processing frame 222 and the processing top block 229 are separated, then the processing motor 28 drives the processing dial wheel 27 to rotate through belt transmission, and then the processing dial wheel 27 intermittently drives the processing grooved wheel 26 to rotate to carry out gluing and cutting one by one on the fiber web.

The gluing brush head 227 is of an oval bag-shaped structure, and capillary brush tubes 2270 are fully distributed on the surface of the gluing brush head; in operation, when glue cylinder 226 is extended to push glue head 227 to apply glue to the surface of the web, the oval bladder-like structure of glue head 227 is collapsed so that the glue in glue head 227 can be applied through capillary 2270 to the web compressed between processing frame 222 and processing top block 229 and can be applied entirely to the web compressed between processing frame 222 and processing top block 229.

The collecting unit 25 comprises a collecting slide way 250, a collecting slide block 251, a collecting cylinder 252, a collecting vertical plate 253, a collecting rack 254, a collecting support rod 255, a collecting gear 256 and a collecting support plate 257, the collecting slide way 250 is arranged at the lower left of the processing slide way 220, the collecting slide block 251 is arranged in the collecting slide way 250 in a sliding manner, the collecting cylinder 252 is arranged at the bottom of the collecting slide way 250, the collecting slide block 251 is connected with the output end of the collecting cylinder 252, the collecting vertical plate 253 is arranged on the collecting slide block 251, the collecting rack 254 is arranged on the collecting vertical plate 253, the collecting support plate 255 is arranged at the left of the processing support plate 228, the collecting gear 256 is symmetrically arranged at the two ends of the collecting support rod 255, the collecting rack 254 is meshed with the collecting gear 256, the collecting support rods 255 are uniformly provided with a plurality of collecting support plates 257 along the length direction, and the processing ejecting blocks 229 correspond to the collecting support plates 257 one by one;

during specific work, the cut fiber web falls on the collecting support plate 257, then the collecting cylinder 252 is started to push the collecting slide block 251 to move upwards in the collecting slide way 250, the collecting rack 254 drives the collecting gear 256 to rotate, the collecting support rod 255 drives the collecting support plate 257 to rotate, then one end of the collecting support plate 257 rotates to a certain inclination angle, and then the fiber web is taken down, so that the fiber web cut by gluing can be taken down conveniently and quickly.

A toggle shaft lever 2550 is arranged right below the collection support rod 255, toggle gears 2551 are symmetrically arranged at two ends of the toggle shaft lever 2550, the collection rack 254 is meshed with the toggle gears 2551, toggle lever 2552 is symmetrically arranged at two ends of the toggle shaft lever 2550, the toggle lever 2552 is of an elastic telescopic structure, one end of the toggle shaft 2552 is of a hook-shaped structure, toggle slideways 2553 are symmetrically arranged in front of and behind the upper surface of the base 1, toggle sliders 2554 are slidably arranged in the toggle slideways 2553, toggle supports 2555 are arranged between the toggle sliders 2554, a plurality of arc-shaped grooves are uniformly arranged at the front and rear ends of the upper surface of the toggle support 2555 along the length direction of the front and rear ends of the upper surface of the toggle support 2555, one end of the toggle lever 2552 is matched and connected with the arc-shaped grooves, a plurality of collection frame bodies 2556 are uniformly arranged on the toggle support collection groove 2555 from front to rear, and a plurality of collection frame bodies 2557 are uniformly arranged in the collection frame bodies 2556 along the length direction;

when the collecting cylinder 252 pushes the collecting slide block 251 to move upwards in the collecting slide 250, the collecting rack 254 also drives the toggle gear 2551 to rotate, so that the toggle shaft 2550 rotates to drive the toggle lever 2552 to slide in the arc-shaped groove, then one end of the hook-shaped structure of the toggle lever 2552 extends into the next arc-shaped groove, when the fiber nets on the collecting support plate 257 fall into the collecting groove 2557, the collecting cylinder 252 contracts, at the moment, the collecting rack 254 drives the toggle lever 2551 to rotate reversely, then the toggle lever 2552 pulls the toggle bracket 2555 to move in the toggle slide 2553, so that the next collecting groove 2557 is positioned at the position of the previous collecting groove 2557 and then is connected with the fiber nets sliding downwards on the collecting support plate 257, the collecting mode can be matched with the processing unit 22 to perform gluing and cutting once, and thus, the collecting 2557 can collect a plurality of fiber nets for subsequent use, therefore, the production efficiency of the fiber web with the same specification can be effectively improved.

A plurality of semicircular limiting clamping grooves 2558 are uniformly arranged in the poking slide way 2553 along the length direction of the poking slide way, a limiting slide groove 2559 is formed in the poking slide block 2554, a limiting clamping block 2560 is slidably arranged in the limiting slide groove 2559 through a limiting spring, and the limiting clamping grooves 2558 are in fit contact with the limiting clamping block 2560; during specific work, stir the driving lever 2552 and just can pull and stir support 2555 and when stirring the slide 2553 and remove, stir spacing fixture block 2560 on the slider 2554 can with stir the spacing draw-in groove 2558 cooperation contact in the slide 2553, stir like this support 2555 can be spacing by certain degree after removing at every turn, alright like this with the stability of guaranteeing to stir support 2555 for the collecting vat 2557 can not appear the problem of skew when connecing the fibre net.

The collecting frame body 2556 is rotatably connected with the collecting groove 2557 through a pin shaft, one end of the pin shaft is provided with a worm wheel 2561, the worm wheel 2561 is connected through a worm 2562, a supporting roller 2563 is uniformly arranged on one side wall in the collecting groove 2557 through a supporting spring, and the surface of the supporting roller 2563 is fully distributed with needle-shaped supporting rods; during specific work, it can make turbine 2561 rotate to rotate worm 2562, thereby adjust the angular position of collecting box 2557 in collecting framework 2556, make and collect extension board 257 and just cooperate with collecting box 2557 when rotating certain angle, the slip direction of fibre web just can be fixed like this, effectively guarantee the collection of fibre web stable, the surface of backing roll is covered with needle-shaped branch, can make the gummed one side of fibre web can not contact with the collecting box inner wall like this, the surface gluey face pollution loses viscidity, and the surface of backing roll is covered with needle-shaped branch and can still can not appear too much contact with the face of gluing when playing support fibre web.

The working principle of the invention is as follows:

the processing motor 28 drives the processing dial wheel 27 to rotate through belt transmission, then the processing dial wheel 27 intermittently dials the processing grooved wheel 26 to rotate to drive the fiber web to pass through the processing unit 22 one by one, then the processing cylinder 225 in the processing unit 22 extends to push the processing frame 222 downwards through the processing disc, so that the processing frame 222 and the processing top block 229 press and fix the fiber web, then the gluing cylinder 226 extends to push the gluing brush head 227 to coat glue on the surface of the fiber web, after the gluing is finished, the processing cylinder 225 extends continuously to push the processing bracket 223 to move downwards in the processing frame 222, so that the processing cutter 224 cuts off the glued part of the fiber web;

the cut fiber web falls on the collecting support plate 257, then the collecting cylinder 252 is started to push the collecting slide block 251 to move upwards in the collecting slide way 250, the collecting rack 254 drives the collecting gear 256 to rotate, the collecting support rod 255 drives the collecting support plate 257 to rotate, then one end of the collecting support plate 257 rotates to a certain inclination angle, after the fiber web falls into the collecting groove 2557, when the collecting cylinder 252 pushes the collecting slide block 251 to move upwards in the collecting slide way 250, the collecting rack 254 also drives the toggle gear 2551 to rotate, the toggle shaft 2550 rotates to drive the toggle shift lever 2552 to slide in the arc-shaped groove, then one end of the hook-shaped structure of the toggle shift lever 2552 extends into the next arc-shaped groove, the collecting cylinder 252 contracts, at this time, the collecting rack 254 drives the toggle shift lever 2551 to rotate reversely, then the toggle shift lever 2552 pulls the toggle support 2555 to move in the toggle slide way 2553, such that the next collection slot 2557 is in the position of the previous collection slot 2557, and the web is slid down collection strip 257.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. The utility model provides a bridge building reinforcement fibre web processing system, includes base (1) and processing apparatus (2), its characterized in that: the upper surface of the base (1) is provided with a processing device (2); wherein:

the processing device (2) comprises a processing frame body (20), a first winding roller (21), a processing unit (22), a second winding roller (23), a guide roller (24), a collecting unit (25), a processing grooved wheel (26), a processing thumb wheel (27) and a processing motor (28), wherein the processing frame body (20) is arranged on the upper surface of the base (1), the first winding roller (21), the processing unit (22) and the second winding roller (23) are sequentially arranged above the inside of the processing frame body (20) from left to right, the guide rollers (24) are respectively arranged between the first winding roller (21) and the processing unit (22) and between the processing unit (22) and the second winding roller (23), the collecting unit (25) is arranged under the processing unit (22), the processing grooved wheels (26) are symmetrically arranged at two ends of the second winding roller (23), the processing thumb wheel (27) is arranged above the processing grooved wheel (26), and the processing grooved wheel (26) is in intermittent fit contact with the processing thumb wheel (27), a processing motor (28) is arranged right above the second winding roller (23), and the processing thumb wheel (27) is in transmission connection with the output end of the processing motor (28) through a belt;

the treatment unit (22) comprises a treatment chute (220), a treatment sliding block (221), a treatment frame (222), a treatment bracket (223), a treatment cut-off knife (224), a treatment cylinder (225), a gluing cylinder (226), a gluing brush head (227), a treatment support plate (228) and a treatment top block (229), wherein the front inner side wall and the rear inner side wall of the treatment frame body (20) are symmetrically provided with the treatment chute (220), the treatment sliding block (221) is arranged in the treatment chute (220) in a sliding manner through a support spring, the treatment frame (222) is arranged between the treatment sliding blocks (221), the treatment frame body (20) is uniformly provided with a plurality of rectangular through grooves along the length direction thereof, the treatment bracket (223) is arranged between the rectangular through grooves in a sliding manner through the support spring, the rectangular treatment cut-off knife (224) is uniformly arranged on the lower surface of the treatment bracket (223) along the length direction thereof, and the treatment cut-off knife (224) is in sliding fit with the inner walls of the rectangular through grooves, the lower surface of the upper wall of the processing frame body (20) is provided with a processing cylinder (225), the output end of the processing cylinder (225) is provided with a processing disc in a sliding manner through a supporting spring, the upper surface of a processing bracket (223) is contacted with the top of the output end of the processing cylinder (225), the lower surface of the upper wall of the processing frame body (20) right above a rectangular through groove is provided with a gluing cylinder (226), the output end of the gluing cylinder (226) is provided with a gluing brush head (227), a processing support plate (228) is arranged between the bottom ends of processing chutes (220), the upper surface of the processing support plate (228) is uniformly provided with a plurality of processing top blocks (229) along the length direction thereof, and the rectangular through grooves correspond to the processing top blocks (229) one to one;

the collecting unit (25) comprises a collecting slide way (250), a collecting slide block (251), a collecting cylinder (252), a collecting vertical plate (253), a collecting rack (254), a collecting support rod (255), a collecting gear (256) and a collecting support plate (257), the collecting slide way (250) is arranged at the lower left of the processing slide way (220), the collecting slide block (251) is arranged in the collecting slide way (250) in a sliding manner, the collecting cylinder (252) is arranged at the bottom of the collecting slide way (250), the collecting slide block (251) is connected with the output end of the collecting cylinder (252), the collecting vertical plate (253) is arranged on the collecting slide block (251), the collecting rack (254) is arranged on the collecting vertical plate (253), the collecting support rod (255) is arranged at the left of the processing support plate (228), the collecting gear (256) is symmetrically arranged at two ends of the collecting support rod (255), and the collecting rack (254) is meshed with the collecting gear (256), a plurality of collecting support plates (257) are uniformly arranged on the collecting support rod (255) along the length direction of the collecting support rod, and the processing top blocks (229) correspond to the collecting support plates (257) one by one;

a toggle shaft lever (2550) is arranged under the collecting support rod (255), toggle gears (2551) are symmetrically arranged at two ends of the toggle shaft lever (2550), collecting racks (254) are meshed with the toggle gears (2551) and connected, toggle shift levers (2552) are symmetrically arranged at two ends of the toggle shaft lever (2550), the toggle shift levers (2552) are of an elastic telescopic structure, one end of each toggle slide way (2553) is of a hook-shaped structure, toggle slide ways (2553) are symmetrically arranged in the front and at the back of the upper surface of the base (1), toggle slide blocks (2554) are slidably arranged in the toggle slide ways (2553), toggle supports (2555) are arranged between the toggle slide blocks (2554), a plurality of arc-shaped grooves are uniformly arranged at the front and back ends of the upper surface of the toggle supports (2555) along the length direction of the toggle supports, one end of each toggle lever (2552) is connected with the arc-shaped grooves in a matched manner, a plurality of collecting frame bodies (2556) are uniformly arranged on the toggle supports (2555) from front to back, a plurality of collecting grooves (2557) are uniformly arranged in the collecting frame body (2556) along the length direction;

a plurality of semicircular limiting clamping grooves (2558) are uniformly formed in the poking slide way (2553) along the length direction of the poking slide way, a limiting slide groove (2559) is formed in the poking slide block (2554), a limiting clamping block (2560) is slidably mounted in the limiting slide groove (2559) through a limiting spring, and the limiting clamping grooves (2558) are in fit contact with the limiting clamping block (2560);

collect between framework (2556) and collecting vat (2557) and rotate through the round pin axle and be connected, the one end of round pin axle is provided with worm wheel (2561), connects through worm (2562) between worm wheel (2561), evenly be provided with backing roll (2563) through supporting spring on the collecting vat (2557) interior lateral wall, needle-like branch is covered with on backing roll (2563) surface.

2. The bridge building reinforcement fiber web processing system of claim 1, wherein: the gluing brush head (227) is of an oval saccular structure, and capillary brush tubes (2270) are fully distributed on the surface of the gluing brush head.