CN115180437B - Waterproof coiled material heat dissipation coiling mechanism - Google Patents

Abstract

The invention relates to the field of waterproof coiled materials, in particular to a waterproof coiled material heat dissipation winding device. The problems to be solved are: a large amount of heat is generated in the rolling process of the waterproof coiled material, so that the oxidation and aging of the material are accelerated, and meanwhile, dislocation and offset are easy to occur. The technical implementation scheme of the invention is as follows: a waterproof coiled material heat dissipation winding device comprises a mounting plate, a micro-buffering component and the like; the middle part of the upper surface of the mounting plate is provided with a micro-buffering component. When the waterproof coiled material is rolled, the first cleaner and the second cleaner clean impurities on the surface of the waterproof coiled material, the first cleaner and the second cleaner primarily dissipate heat through wet sponge, then the air-cooled heat dissipation is carried out through the air outlet pipes, the first drainage plate, the second drainage plate, the third drainage plate and the fourth drainage plate guide air flow carrying heat to prevent the waterproof coiled material from being heated secondarily or accumulating in the rolled material, the two detectors detect the deviation condition of the material in real time, and the first pressing plate and the second pressing plate prevent the deviation amount of the waterproof coiled material from being increased continuously.

Description

Waterproof coiled material heat dissipation coiling mechanism

Technical Field

The invention relates to the field of waterproof coiled materials, in particular to a waterproof coiled material heat dissipation winding device.

Background

The waterproof coiled material is a waterproof material commonly used in building waterproof systems or other waterproof systems, is widely favored by builders because of the excellent waterproof property, and for convenient use, the existing waterproof coiled material is generally in a roll shape according to Chinese patent: (CN 210103052U) waterproofing membrane rolling machine, this rolling machine is tight with waterproofing membrane through compression roller and positioning roller, prevent that it from taking place not hard up, and to its accurate positioning, and then make things convenient for the rolling, but because waterproofing membrane is when the rolling, need pass through a series of transmission processes, this in-process, waterproofing membrane and various transmission roller contact, and friction produces a large amount of heats, because waterproofing membrane gas permeability is generally relatively poor, these heats are inside the waterproofing membrane rolling after the waterproofing membrane rolling, lead to the inside material structure of waterproofing membrane to change, accelerate the oxidation ageing of waterproofing membrane, increase waterproofing membrane simultaneously, lead to waterproofing membrane life to shorten by a wide margin, and before the waterproofing membrane rolling, certain waste material and granule impurity can be adhered to on the surface, after the rolling, easily cause the damage to the waterproofing membrane, and in-process waterproofing membrane takes place dislocation skew easily, cause waterproofing membrane after the rolling to be untidy, influence follow-up transmission treatment, need to roll again, it consumes manpower and materials.

Therefore, aiming at the problems, a waterproof coiled material heat dissipation winding device is provided.

Disclosure of Invention

The invention provides a heat dissipation winding device for a waterproof coiled material, which aims to overcome the defects that a large amount of heat is generated in the winding process of the waterproof coiled material, oxidation aging of the material is accelerated, and dislocation and offset of the material are easy to occur.

The technical implementation scheme of the invention is as follows: a waterproof coiled material heat dissipation winding device comprises a mounting plate, a micro-buffering assembly, a positioning assembly, a transfer roller, a servo motor and a winding roller; the middle part of the upper surface of the mounting plate is provided with a micro-buffering component for buffering and decompressing tension changes generated by vibration when the waterproof coiled material is wound; the right side of the upper surface of the mounting plate is provided with a positioning component; a servo motor is fixedly connected to the rear side of the positioning assembly; the output end of the servo motor is provided with a winding roller for winding the waterproof coiled material; the position adjusting component is used for adjusting the position of the winding roller and enhancing the adaptability of the winding roller; a transfer roller is arranged in the middle of the micro-buffering assembly; the air flow guide device also comprises a heat dissipation assembly and an air flow guide assembly; a heat radiation component for performing air cooling heat radiation on the surface of the waterproof coiled material is arranged on the rear side of the upper surface of the mounting plate; the heat radiation component is provided with an air flow guiding component for guiding and dredging the air flow carrying heat; the air flow guiding component is connected with the mounting plate.

More preferably, the micro-buffering component comprises a round rod and a first elastic piece; two round rods which are symmetrical in front and back are fixedly connected in the middle of the upper surface of the mounting plate; the middle part of the upper surface of the mounting plate is fixedly connected with two first elastic pieces which are symmetrical in front-back direction, and the two first elastic pieces are respectively sleeved on the outer sides of the adjacent round rods; a transfer roller is fixedly connected between the upper sides of the two first elastic pieces; the transfer roller is simultaneously connected with the two round bars in a sliding way.

More preferably, the positioning assembly comprises a first electric sliding rail and a first sliding block; a first electric sliding rail is arranged on the right side of the upper surface of the mounting plate; the first electric sliding rail is connected with a first sliding block in a sliding way; the rear side of the upper surface of the first sliding block is fixedly connected with a servo motor through a mounting block; the front side of the upper surface of the first sliding block is rotationally connected with a winding roller through a connecting block.

More preferably, the heat radiation component comprises a fixed plate, a fan, an air inlet pipe, a supporting plate and an air outlet pipe; a fixed plate is fixedly connected to the upper side of the transfer roller; the right side surface of the fixed plate is fixedly connected with a supporting plate; the right side surface of the transfer roller is fixedly connected with another supporting plate; a fan is fixedly connected to the rear side of the upper surface of the mounting plate; an air inlet pipe is communicated with the fan; the upper side and the lower side of the air inlet pipe are respectively communicated with a plurality of air outlet pipes which are arranged from front to back.

More preferably, the airflow guiding component comprises a first drainage plate, a second drainage plate, a third drainage plate and a fourth drainage plate; the opposite sides of the two support plates are fixedly connected with a first drainage plate and a second drainage plate respectively, and the two second drainage plates are respectively positioned at the left side of the adjacent first drainage plates; the right side surfaces of the two support plates are fixedly connected with a third drainage plate respectively through a connecting plate; the right side of the upper surface of the mounting plate is fixedly connected with two fourth drainage plates at the same time through a connecting rod; the fourth drainage plate below is positioned at the right lower part of the adjacent third drainage plate; the fourth drainage plate above is positioned at the upper right of the adjacent third drainage plate.

More preferably, the cleaning device further comprises a cleaning assembly, wherein the cleaning assembly comprises a first cleaner, a guide-out rack and a second cleaner; the left side surface of the fixed plate is fixedly connected with a first cleaner; the left side of the transfer roller is fixedly connected with a second cleaner; the left side surface of the first cleaner is fixedly connected with a guiding-out frame.

More preferably, the device also comprises a dislocation detection assembly, wherein the dislocation detection assembly comprises a driving assembly, a detector, an arc hollow ring, a voltage transformation ring and an air pressure detector; the inner side of the upper part of the transfer roller is provided with a driving component; the front side and the rear side of the driving component are respectively and movably connected with a detector through torsion spring rotating shafts; the front side and the rear side of the driving component are fixedly connected with an arc hollow ring respectively through a connecting frame; the front side and the rear side of the driving assembly are respectively provided with an air pressure detector through a connecting frame; the lower parts of the separated sides of the two detectors are fixedly connected with a variable-pressure ring respectively; the two voltage transformation rings are respectively connected with the adjacent arc hollow rings in a sliding way; more preferably, the device further comprises a locking component, wherein the locking component comprises a first pressurizing plate, a second pressurizing plate and a ventilation component; the driving component is provided with a ventilation component; two first pressurizing plates are arranged on the ventilation assembly; two second pressurizing plates are arranged on the ventilation assembly; the ventilation assembly is connected with the fixed plate.

More preferably, the driving assembly comprises a second electric sliding rail and a second sliding block; two second electric sliding rails which are bilaterally symmetrical are arranged on the inner side of the upper part of the transfer roller; the front side and the rear side of the interior of the two second electric sliding rails are respectively connected with a second sliding block in a sliding way; the two second sliding blocks positioned in front are movably connected with the adjacent detectors through the torsion rotating shaft; two second sliding blocks positioned at the rear are movably connected with the adjacent detectors through torsion rotating shafts; the four second sliding blocks are all connected with the ventilation assembly through the connecting frame.

More preferably, the ventilation assembly comprises a first hollow plate, a second elastic piece, a third elastic piece, a first air pipe and a second air pipe; a first hollow plate is fixedly connected between the two second sliding blocks positioned in front through a connecting frame; another first hollow plate is fixedly connected between the two second sliding blocks positioned at the rear through a connecting frame; three second elastic pieces are fixedly connected inside the two first hollow plates; three third elastic pieces are fixedly connected inside the two second hollow plates; the upper ends of the three second elastic pieces positioned in front are fixedly connected with the adjacent first pressing plates; the upper ends of the three second elastic pieces positioned at the rear are fixedly connected with the adjacent first pressing plates; the two first pressing plates are respectively connected with the adjacent first hollow plates in a sliding way; the lower ends of the three third elastic pieces positioned in front are fixedly connected with the adjacent second pressing plates; the lower ends of the three third elastic pieces positioned at the rear are fixedly connected with the adjacent second pressing plates; the two second pressing plates are respectively connected with the adjacent second hollow plates in a sliding way; a first air pipe is communicated between the arc-shaped hollow ring positioned at the front and the first hollow plate positioned at the rear; another first air pipe is communicated between the arc-shaped hollow ring positioned at the rear and the first hollow plate positioned at the front; a second air pipe is communicated between the arc-shaped hollow ring positioned at the front and the second hollow plate positioned at the rear; and another second air pipe is communicated between the arc-shaped hollow ring positioned at the rear and the second hollow plate positioned at the front.

The beneficial effects of the invention are as follows: according to the invention, when the waterproof coiled material is coiled, impurities on the surface of the waterproof coiled material are cleaned through the first cleaner and the second cleaner, the waterproof coiled material is subjected to primary heat dissipation through the wet sponge, then the waterproof coiled material is subjected to air cooling heat dissipation through the plurality of air outlet pipes, meanwhile, the first drainage plate, the second drainage plate, the third drainage plate and the fourth drainage plate are used for guiding airflow carrying heat, so that the waterproof coiled material is prevented from being heated for the second time or accumulated in the coiled waterproof coiled material, the service life of the waterproof coiled material is prolonged, the deflection condition of the waterproof coiled material is detected in real time by utilizing the two detectors, the deflection of the waterproof coiled material is effectively prevented from being increased continuously through the first pressurizing plate and the second pressurizing plate by utilizing the air pressure change, and then the waterproof coiled material after deflection is corrected through the first sliding block, so that the waterproof coiled material is ensured to be coiled in order, the coiling efficiency is effectively improved, and the labor is saved.

Drawings

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

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic perspective view of a first portion of the present invention;

FIG. 4 is a schematic perspective view of a cleaning assembly according to the present invention;

FIG. 5 is a schematic view of a second partial perspective view of the present invention;

FIG. 6 is an enlarged view of area A of the present invention;

FIG. 7 is a schematic perspective view of a third portion of the present invention;

FIG. 8 is an enlarged view of zone B of the present invention;

fig. 9 is an enlarged view of region C of the present invention.

Wherein the above figures include the following reference numerals: the device comprises a support leg, a mounting plate, a 3-collecting frame, a round rod, a 202-first elastic piece, a 203-transfer roller, a 204-servo motor, a 205-winding roller, a 301-fixing plate, a 302-first electric sliding rail, a 303-first sliding block, a 304-fan, a 305-air inlet pipe, a 306-supporting plate, a 307-air outlet pipe, a 401-first cleaner, a 402-guiding frame, a 403-second cleaner, a 501-second electric sliding rail, a 502-second sliding block, a 503-detector, a 504-arc-shaped hollow ring, a 505-pressure changing ring, a 506-air pressure detector, a 601-first hollow plate, a 602-second hollow plate, a 603-second elastic piece, a 604-third elastic piece, a 605-first air pipe, a 606-second air pipe, a 607-first pressing plate, a 608-second pressing plate, a 701-first drainage plate, a 702-second drainage plate, a 703-third drainage plate and a 704-fourth drainage plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

1-9, the waterproof coiled material heat dissipation winding device comprises a mounting plate 2, a micro-buffering component, a positioning component, a transfer roller 203, a servo motor 204 and a winding roller 205; a micro-buffering component is arranged in the middle of the upper surface of the mounting plate 2; the right side of the upper surface of the mounting plate 2 is provided with a positioning component; the rear side of the positioning component is connected with a servo motor 204 through bolts; the output end of the servo motor 204 is provided with a wind-up roller 205; the middle part of the micro-buffering component is provided with a transfer roller 203;

the air flow guide device also comprises a heat dissipation assembly and an air flow guide assembly; a heat dissipation component is arranged on the rear side of the upper surface of the mounting plate 2; the heat dissipation component is provided with an airflow guiding component; the air flow guide assembly is connected to the mounting plate 2.

The micro-buffering component comprises a round rod 201 and a first elastic piece 202; two round rods 201 which are symmetrical in front-back are fixedly connected in the middle of the upper surface of the mounting plate 2; the middle part of the upper surface of the mounting plate 2 is fixedly connected with two first elastic pieces 202 which are symmetrical in front-back direction, and the two first elastic pieces 202 are respectively sleeved on the outer sides of the adjacent round rods 201; a transfer roller 203 for adjusting and transferring the position of the waterproof coiled material before rolling is fixedly connected between the upper sides of the two first elastic pieces 202; the transfer roller 203 is simultaneously slidably connected to the two round bars 201.

The first elastic member 202 is a spring.

The device also comprises a support leg 1 and a collecting frame 3; four corners of the lower surface of the mounting plate 2 are fixedly connected with a supporting foot 1 respectively; the left side bolted connection of mounting panel 2 upper surface has the collection frame 3 that is used for collecting waste impurity.

The positioning assembly comprises a first electric sliding rail 302 and a first sliding block 303; a first electric sliding rail 302 is arranged on the right side of the upper surface of the mounting plate 2; a first sliding block 303 is slidably connected to the first electric sliding rail 302; the rear side of the upper surface of the first sliding block 303 is connected with the servo motor 204 through a mounting block bolt; the front side of the upper surface of the first slider 303 is rotatably connected with a wind-up roller 205 through a connecting block.

The heat dissipation assembly comprises a fixed plate 301, a fan 304, an air inlet pipe 305, a support plate 306 and an air outlet pipe 307; a fixed plate 301 is welded on the upper side of the transfer roller 203; a supporting plate 306 is welded on the right side surface of the fixed plate 301; the right side surface of the middle rotary roller 203 is welded with another supporting plate 306, and a plurality of air outlets are arranged on both supporting plates 306; the rear side of the upper surface of the mounting plate 2 is connected with a fan 304 through bolts; an air inlet pipe 305 is communicated with the fan 304; the upper side and the lower side of the air inlet pipe 305 are respectively communicated with a plurality of air outlet pipes 307 which are arranged from front to back, and the air outlet pipes 307 and the waterproof coiled materials form a certain inclination angle when being transported.

The air flow guiding assembly comprises a first drainage plate 701, a second drainage plate 702, a third drainage plate 703 and a fourth drainage plate 704; two support plates 306 are welded with a first drainage plate 701 and a second drainage plate 702 on opposite sides thereof, and two second drainage plates 702 are respectively positioned on the left side of the adjacent first drainage plates 701; the right side surfaces of the two support plates 306 are respectively welded with a third drainage plate 703 through a connecting plate, and the two third drainage plates 703 are respectively arranged at angles in opposite directions with the adjacent first drainage plates 701 and second drainage plates 702; two fourth drainage plates 704 are welded on the right side of the upper surface of the mounting plate 2 through a connecting rod; the lower fourth drainage plate 704 is positioned at the right lower part of the adjacent third drainage plate 703; the upper fourth drainage plate 704 is located at the upper right of the adjacent third drainage plate 703.

The first flow guiding plate 701, the second flow guiding plate 702, the third flow guiding plate 703 and the fourth flow guiding plate 704 are all provided as arc-shaped plates.

Also included is a cleaning assembly comprising a first cleaner 401, a lead-out rack 402, and a second cleaner 403; a first cleaner 401 for cleaning the upper surface of the waterproof coiled material is welded on the left side surface of the fixed plate 301; a second cleaner 403 for cleaning the lower surface of the waterproof coiled material is welded on the left side of the transfer roller 203; a lead-out rack 402 for leading out accumulated waste impurities is welded to the left side surface of the first cleaner 401.

The first cleaner 401 and the second cleaner 403 are provided with a plurality of openings for discharging waste materials and impurities, and wet sponges are adhered to the left sides of the first cleaner 401 and the second cleaner 403.

The device also comprises a dislocation detection assembly, wherein the dislocation detection assembly comprises a driving assembly, a detector 503, an arc hollow ring 504, a voltage transformation ring 505 and a gas pressure detector 506; a driving component is arranged on the inner side of the upper part of the transfer roller 203; the front side and the rear side of the driving component are respectively and movably connected with a detector 503 through a torsion spring rotating shaft; the front and rear sides of the drive assembly are each welded with an arcuate hollow ring 504 via a connecting bracket; the front side and the rear side of the driving assembly are respectively provided with an air pressure detector 506 for detecting the air pressure value inside the two arc hollow rings 504 through the connecting frame; a transformer ring 505 is welded to the lower part of the separated sides of the two detectors 503; two transformer rings 505 are respectively connected with adjacent arc hollow rings 504 in a sliding way; by sliding the two respective arcuate hollow rings 504 adjacent to each other, the air pressure value inside the two arcuate hollow rings 504 is changed.

The two air pressure detectors 506 are connected with the first electric slide rail 302 through a control center, and then the first electric slide rail 302 is controlled to work through the change of air pressure values of the two air pressure detectors 506.

Also included is a locking assembly comprising a first pressure plate 607, a second pressure plate 608, and a vent assembly; the driving component is provided with a ventilation component; two first pressurizing plates 607 are mounted on the ventilation assembly; two second pressurizing plates 608 are mounted on the venting assembly; the vent assembly is connected to the fixed plate 301; the two first pressurizing plates 607 and the second pressurizing plates 608 are controlled through the ventilation assembly, so that the two first pressurizing plates 607 and the second pressurizing plates 608 lock and limit the waterproof coiled material.

The driving assembly comprises a second electric sliding rail 501 and a second sliding block 502; two second electric sliding rails 501 which are symmetrical left and right are arranged on the inner side of the upper part of the transfer roller 203; a second slider 502 is slidably connected to the front side and the rear side of the interior of the two second electric sliding rails 501 respectively; the two second sliding blocks 502 positioned in front are movably connected with the adjacent detectors 503 through torsion rotating shafts; the two second sliding blocks 502 positioned at the rear are movably connected with the adjacent detectors 503 through torsion rotating shafts; the four second sliding blocks 502 are all connected with the ventilation assembly through connecting frames; the relative positions of the two detectors 503 are adjusted through the second electric sliding rail 501 and the second sliding block 502, so that waterproof coiled materials with different widths are adapted.

The ventilation assembly comprises a first hollow plate 601, a second hollow plate 602, a second elastic piece 603, a third elastic piece 604, a first air pipe 605 and a second air pipe 606; a first hollow plate 601 is welded between the two second sliding blocks 502 positioned in front through a connecting frame; another first hollow plate 601 is welded between the two second sliding blocks 502 positioned at the rear through a connecting frame; three second elastic pieces 603 are fixedly connected inside the two first hollow plates 601; three third elastic pieces 604 are fixedly connected inside the two second hollow plates 602; the upper ends of the three second elastic pieces 603 positioned in front are fixedly connected with the adjacent first pressurizing plates 607; the upper ends of the three second elastic pieces 603 positioned at the rear are fixedly connected with the adjacent first pressurizing plates 607; the two first pressing plates 607 are respectively connected with the adjacent first hollow plates 601 in a sliding way; the lower ends of the three third elastic pieces 604 positioned at the front are fixedly connected with the adjacent second pressurizing plates 608; the lower ends of the three third elastic pieces 604 positioned at the rear are fixedly connected with the adjacent second pressurizing plates 608; two second pressurizing plates 608 are respectively connected with the adjacent second hollow plates 602 in a sliding way; a first air pipe 605 is communicated between the arc-shaped hollow ring 504 positioned at the front and the first hollow plate 601 positioned at the rear; another first air pipe 605 is communicated between the arc-shaped hollow ring 504 positioned at the rear and the first hollow plate 601 positioned at the front; a second air pipe 606 is communicated between the arc-shaped hollow ring 504 positioned at the front and the second hollow plate 602 positioned at the rear; another second air pipe 606 is communicated between the arc-shaped hollow ring 504 positioned at the rear and the second hollow plate 602 positioned at the front; the air pressure inside the two arc-shaped hollow rings 504 is changed, so that the air pressure inside the two first hollow plates 601 and the two second hollow plates 602 is changed, and the locking limit of the waterproof coiled material is realized through the two first pressurizing plates 607 and the two second pressurizing plates 608.

The second elastic member 603 and the third elastic member 604 are each springs.

When the waterproofing membrane rolling starts the rolling, the staff makes waterproofing membrane's one end after transfer roller 203, twine at the wind-up roll 205 surface, after the processing is accomplished, control servo motor 204 begins work, drive wind-up roll 205 through servo motor 204 and rotate, and then roll up waterproofing membrane, because waterproofing membrane is before the rolling, after a series of transmission, friction produces a large amount of heats, and waterproofing membrane gas tightness is poor, lead to its heat-sinking capability also relatively poor, therefore, there is a large amount of heats between the waterproofing membrane of rolling together, cause waterproofing membrane internal material structure to change, accelerate waterproofing membrane oxidation ageing, and lead to the waterproofing membrane brittleness increase, at the same time, the easy emergence breaks, in the wind-up roll 205 carries out the rolling in-process to waterproofing membrane, waterproofing membrane receives the pulling dynamics of wind-up roll 205 also to increase to some extent, in order to reduce the waterproofing membrane during the rolling, the pulling force is to its influence, and then buffer adjustment is carried out to waterproofing membrane through two first elastic component 202.

Before the waterproofing membrane is rolled, because there are some stickness waste material and granule impurity on waterproofing membrane surface, if there is sharp place, receive the extrusion force that produces after the waterproofing membrane rolling, probably cause the waterproofing membrane to take place to damage, therefore, before the waterproofing membrane is rolled, the waterproofing membrane surface needs to be cleared up, the staff makes the waterproofing membrane pass through between first cleaner 401 and the second cleaner 403, pass through transfer roller 203 again, then be rolled up by wind-up roller 205 again, the waterproofing membrane is when passing between first cleaner 401 and the second cleaner 403, clean its upper surface and lower surface through first cleaner 401 and second cleaner 403 respectively, simultaneously, because all adhere to wet sponge at first cleaner 401 and second cleaner 403 left surface, and then carry out primary cooling through wet sponge to the waterproofing membrane surface, after the impurity that is located the lower surface is cleared up by second cleaner 403, and the impurity that is located the upper surface is behind first cleaner 401 is piled up gradually, and be led out from leading-out a plurality of fluting of seting on leading-out frame 402 and be extruded, and only need to pile up the staff regularly to carry out on the surface can be piled up on the surface only to clear up 402.

The cleaned and primarily cooled waterproof roll continues to be transmitted rightward, when passing between the plurality of air outlet pipes 307, the fan 304 is controlled to start working, the air inlet pipe 305 is conveyed by the fan 304, and then the air is transmitted to the plurality of air outlet pipes 307 by the air inlet pipe 305, and then the air on the upper surface and the lower surface of the waterproof roll is circulated by the plurality of air outlet pipes 307, and then the upper surface and the lower surface of the waterproof roll are radiated, meanwhile, in order to guide the airflow carrying heat, the airflow is prevented from continuously heating the waterproof roll, and meanwhile, the airflow is prevented from moving to the position where the winding roller 205 winds the waterproof roll, so that part of heat remains inside the wound waterproof roll, therefore, when the airflow carrying heat moves leftwards and rightwards through the obstruction of the waterproof roll, both the first drainage plate 701 and the second drainage plate 702 are arranged as arc plates, after the air flow moving leftwards passes through the drainage of the first drainage plate 701 and the second drainage plate 702, the air flow moves leftwards and downwards automatically respectively, and then is discharged from the air outlets formed in the two support plates 306, so that the air flow carrying heat leftwards is prevented from heating the waterproof coiled material, and heat is remained on the waterproof coiled material, meanwhile, since the third drainage plate 703 is arranged as an arc plate, after the air flow moving rightwards passes through the drainage of the third drainage plate 703, the air flow moving rightwards automatically moves rightwards and downwards respectively, since the winding roller 205 is positioned on the right side of the third drainage plate 703, in order to prevent the air flow carrying heat from moving to the position where the winding roller 205 winds the waterproof coiled material, the two fourth drainage plates 704 are arranged as arc plates, and the two fourth drainage plates 704 are respectively positioned on the right upper side and the right lower side of the adjacent third drainage plate 703, and then carries out secondary drainage to the air current through two fourth drainage plates 704, ensures that it can not heat the waterproofing membrane in the rolling process, and then dispels the heat to the waterproofing membrane.

In the process of rolling the waterproof coiled material, the waterproof coiled material may have dislocation problem, namely, the left and right ends of the waterproof coiled material after rolling are not orderly, larger dislocation exists, the waterproof coiled material needs to be rolled again, therefore, in the process of rolling, the dislocation situation of the waterproof coiled material needs to be detected and corrected in real time, so as to ensure that the waterproof coiled material is rolled smoothly, according to the width between the front distance and the rear distance of the waterproof coiled material, the two second electric sliding rails 501 are controlled to start working, the four second sliding rails 501 are used for starting working, the four second sliding blocks 502 are used for driving the two detectors 503 to move in the left direction respectively through the four second sliding blocks 502, the two detectors 503 are respectively moved to be contacted with the front side and the rear side of the waterproof coiled material, the waterproof coiled material is limited for the first time, when the waterproof coiled material is misplaced in the process, namely, the front position and the rear position of the waterproof coiled material is deviated, the offset waterproof roll automatically extrudes the detector 503, so that the detector 503 rotates around the torsion spring rotating shaft, when the detector 503 rotates, the adjacent transformer ring 505 is synchronously driven to rotate, so that the transformer ring 505 extrudes air in the adjacent arc-shaped hollow ring 504, if the waterproof roll is dislocated in a forward moving way, the air in the front arc-shaped hollow ring 504 is extruded, and then the air pressure in the first hollow plate 601 and the second hollow plate 602 positioned at the rear is increased through the first air pipe 605 and the second air pipe 606, namely the first pressurizing plate 607 and the second pressurizing plate 608 positioned at the rear slide out of the adjacent first hollow plate 601 and the second hollow plate 602 to move towards each other, contact the rear side of the waterproof roll, tightly press the rear side of the waterproof roll, prevent the waterproof roll from continuously moving forward and offsetting, lead to continuously increasing the dislocated amount, meanwhile, detect the inside atmospheric pressure of adjacent arc hollow ring 504 through the atmospheric pressure detector 506 that is located the place ahead, and two atmospheric pressure detectors 506 all are connected with first electronic slide rail 302 through control center, change control first electronic slide rail 302 work through two atmospheric pressure detector 506 atmospheric pressure value changes, the atmospheric pressure detector 506 in place ahead detects that the inside atmospheric pressure value of adjacent arc hollow ring 504 changes, and when the change value constantly increases, start working through control center synchronous control first electronic slide rail 302, make first slider 303 slide backward through first electronic slide rail 302, because the waterproofing membrane shifts forward, and its rear side is compressed tightly by the first pressboard 607 of rear and second pressboard 608 of applying pressure, when first slider 303 slides backward, first slider 303 synchronous drive servo motor 204 and wind-up roll 205 slide backward, make the waterproofing membrane be pulled backward and removed, and then correct the adjustment to the dislocation that produces its forward movement, along with the dislocation of waterproofing membrane is corrected, the detector 503 in front of waterproofing membrane stops pressing, make the detector under the elasticity effect of torsion spring, make first slider 303 slide backward slide, and make first slider 303 slide forward slide rail is made to slide forward by the first pressboard 608 of applying forward, and then the normal position is corrected to the inside pressboard is recovered, and normal data is recovered when the normal position is corrected to the side of the first electronic slide rail is corrected, and normal position is recovered, the normal data is recovered when the normal position is corrected to the synchronous to the position is corrected to the control side of the inside the waterproofing membrane is recovered, and the normal pressure is recovered.

It will be appreciated by persons skilled in the art that the above embodiments are not intended to limit the invention in any way, and that all technical solutions obtained by means of equivalent substitutions or equivalent transformations fall within the scope of the invention.

Claims (9)

1. A waterproof coiled material heat dissipation winding device comprises a mounting plate (2), a micro-buffering assembly, a positioning assembly, a transfer roller (203), a servo motor (204) and a winding roller (205); the middle part of the upper surface of the mounting plate (2) is provided with a micro-buffering component for buffering and reducing tension changes generated by vibration when the waterproof coiled material is wound; the right side of the upper surface of the mounting plate (2) is provided with a positioning component; a servo motor (204) is fixedly connected to the rear side of the positioning assembly; a winding roller (205) for winding the waterproof coiled material is arranged at the output end of the servo motor (204); the positioning component is used for adjusting the position of the winding roller (205) and enhancing the adaptability of the winding roller (205); the middle part of the micro-buffering component is provided with a transfer roller (203); the method is characterized in that: the air flow guide device also comprises a heat dissipation assembly and an air flow guide assembly; a heat radiation component for performing air cooling heat radiation on the surface of the waterproof coiled material is arranged at the rear side of the upper surface of the mounting plate (2); the heat radiation component is provided with an air flow guiding component for guiding and dredging the air flow carrying heat; the airflow guiding component is connected with the mounting plate (2);

the device also comprises a dislocation detection assembly, wherein the dislocation detection assembly comprises a driving assembly, a detector, an arc hollow ring, a voltage transformation ring and an air pressure detector; the inner side of the upper part of the transfer roller (203) is provided with a driving component; the front side and the rear side of the driving component are respectively and movably connected with a detector (503) through torsion spring rotating shafts; the front side and the rear side of the driving component are fixedly connected with an arc hollow ring (504) respectively through a connecting frame; the front side and the rear side of the driving assembly are respectively provided with an air pressure detector (506) through a connecting frame; the lower parts of the two detectors (503) at the opposite sides are fixedly connected with a variable-pressure ring (505) respectively; the two transformer rings (505) are respectively connected with the adjacent arc-shaped hollow rings (504) in a sliding way.

2. The waterproof roll heat dissipation winding device as set forth in claim 1, wherein: the micro-buffering component comprises a round rod (201) and a first elastic piece (202); two round rods (201) which are symmetrical in front-back are fixedly connected in the middle of the upper surface of the mounting plate (2); the middle part of the upper surface of the mounting plate (2) is fixedly connected with two first elastic pieces (202) which are symmetrical in front-back direction, and the two first elastic pieces (202) are respectively sleeved on the outer sides of the adjacent round rods (201); a transfer roller (203) is fixedly connected between the upper sides of the two first elastic pieces (202); the transfer roller (203) is simultaneously connected with the two round rods (201) in a sliding way.

3. The waterproof roll heat dissipation winding device as set forth in claim 1, wherein: the positioning assembly comprises a first electric sliding rail (302) and a first sliding block (303); a first electric sliding rail (302) is arranged on the right side of the upper surface of the mounting plate (2); a first sliding block (303) is connected in a sliding way on the first electric sliding rail (302); the rear side of the upper surface of the first sliding block (303) is fixedly connected with a servo motor (204) through a mounting block; the front side of the upper surface of the first sliding block (303) is rotationally connected with a wind-up roll (205) through a connecting block.

4. The waterproof roll heat dissipation winding device as set forth in claim 1, wherein: the heat radiation component comprises a fixed plate (301), a fan (304), an air inlet pipe (305), a supporting plate (306) and an air outlet pipe (307); a fixed plate (301) is fixedly connected to the upper side of the transfer roller (203); a supporting plate (306) is fixedly connected to the right side surface of the fixing plate (301); the right side surface of the transfer roller (203) is fixedly connected with another supporting plate (306); a fan (304) is fixedly connected to the rear side of the upper surface of the mounting plate (2); an air inlet pipe (305) is communicated with the fan (304); the upper side and the lower side of the air inlet pipe (305) are respectively communicated with a plurality of air outlet pipes (307) which are arranged from front to back.

5. The waterproof roll heat dissipation winding device as set forth in claim 1, wherein: the air flow guide assembly comprises a first drainage plate (701), a second drainage plate (702), a third drainage plate (703) and a fourth drainage plate (704); a first drainage plate (701) and a second drainage plate (702) are fixedly connected to opposite sides of the two support plates (306), and the two second drainage plates (702) are respectively positioned at the left sides of the adjacent first drainage plates (701); the right side surfaces of the two support plates (306) are fixedly connected with a third drainage plate (703) through a connecting plate respectively; two fourth drainage plates (704) are fixedly connected on the right side of the upper surface of the mounting plate (2) through a connecting rod; the lower fourth drainage plate (704) is positioned at the right lower part of the adjacent third drainage plate (703); the upper fourth flow guiding plate (704) is positioned at the upper right of the adjacent third flow guiding plate (703).

6. The waterproof roll heat dissipation winding device as set forth in claim 1, wherein: the cleaning device also comprises a cleaning assembly, wherein the cleaning assembly comprises a first cleaner (401), a guide-out rack (402) and a second cleaner (403); the left side surface of the fixed plate (301) is fixedly connected with a first cleaner (401); a second cleaner (403) is fixedly connected to the left side of the transfer roller (203); the left side surface of the first cleaner (401) is fixedly connected with a guiding-out frame (402).

7. The waterproof roll heat dissipation winding device as set forth in claim 1, wherein: the device also comprises a locking component, wherein the locking component comprises a first pressurizing plate (607), a second pressurizing plate (608) and a ventilation component; the driving component is provided with a ventilation component; two first pressurizing plates (607) are arranged on the ventilation assembly; two second pressurizing plates (608) are arranged on the ventilation assembly; the ventilation assembly is connected with the fixed plate (301).

8. The waterproof roll heat dissipation winding device as defined in claim 7, wherein: the driving assembly comprises a second electric sliding rail (501) and a second sliding block (502); two second electric sliding rails (501) which are symmetrical left and right are arranged on the inner side of the upper part of the transfer roller (203); the front side and the rear side inside the two second electric sliding rails (501) are respectively connected with a second sliding block (502) in a sliding way; two second sliding blocks (502) positioned in front are movably connected with the adjacent detectors (503) through torsion rotating shafts; two second sliding blocks (502) positioned at the rear are movably connected with the adjacent detectors (503) through torsion rotating shafts; the four second sliding blocks (502) are all connected with the ventilation assembly through the connecting frame.

9. The waterproof roll heat dissipation winding device as defined in claim 7, wherein: the ventilation assembly comprises a first hollow plate (601), a second hollow plate (602), a second elastic piece (603), a third elastic piece (604), a first air pipe (605) and a second air pipe (606); a first hollow plate (601) is fixedly connected between the two second sliding blocks (502) positioned in front through a connecting frame; another first hollow plate (601) is fixedly connected between the two second sliding blocks (502) positioned at the rear through a connecting frame; three second elastic pieces (603) are fixedly connected inside the two first hollow plates (601); three third elastic pieces (604) are fixedly connected inside the two second hollow plates (602); the upper ends of the three second elastic pieces (603) positioned in front are fixedly connected with the adjacent first pressurizing plates (607); the upper ends of the three second elastic pieces (603) positioned at the rear are fixedly connected with the adjacent first pressurizing plates (607); the two first pressurizing plates (607) are respectively connected with the adjacent first hollow plates (601) in a sliding way; the lower ends of the three third elastic pieces (604) positioned in front are fixedly connected with the adjacent second pressurizing plates (608); the lower ends of the three third elastic pieces (604) positioned at the rear are fixedly connected with the adjacent second pressurizing plates (608); two second pressurizing plates (608) are respectively connected with the adjacent second hollow plates (602) in a sliding way; a first air pipe (605) is communicated between the arc-shaped hollow ring (504) positioned at the front and the first hollow plate (601) positioned at the rear; another first air pipe (605) is communicated between the arc-shaped hollow ring (504) positioned at the rear and the first hollow plate (601) positioned at the front; a second air pipe (606) is communicated between the arc-shaped hollow ring (504) positioned at the front and the second hollow plate (602) positioned at the rear; a second air pipe (606) is communicated between the arc-shaped hollow ring (504) positioned at the rear and the second hollow plate (602) positioned at the front.