CN117048091A - Production method of composite waterproof coiled material - Google Patents

Production method of composite waterproof coiled material Download PDF

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Publication number
CN117048091A
CN117048091A CN202311071374.8A CN202311071374A CN117048091A CN 117048091 A CN117048091 A CN 117048091A CN 202311071374 A CN202311071374 A CN 202311071374A CN 117048091 A CN117048091 A CN 117048091A
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CN
China
Prior art keywords
coiled material
cutting
waterproof coiled
fixedly connected
composite waterproof
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Pending
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CN202311071374.8A
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Chinese (zh)
Inventor
周久小
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Individual
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Individual
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Priority to CN202311071374.8A priority Critical patent/CN117048091A/en
Publication of CN117048091A publication Critical patent/CN117048091A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D7/00Producing flat articles, e.g. films or sheets

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Laminated Bodies (AREA)

Abstract

The invention relates to a waterproof coiled material, in particular to a production method of a composite waterproof coiled material, which comprises the following steps: s1: cutting the two sides of the waterproof matrix to form buckling grooves on the two sides of the waterproof matrix; s2: asphalt is smeared on the upper side and the lower side of the waterproof matrix to form an asphalt layer; s3: wrapping the isolating paper on the outer side of the asphalt layer to form an isolating layer; the cutting of the two sides of the waterproof substrate comprises the following steps: s11: placing the waterproof matrix between a plurality of driving rollers, and driving the waterproof matrix to move through the driving rollers; s12: the waterproof substrate sequentially passes through a cutting tool I, a cutting tool II and a cutting tool III; s13: cutting the side edges of the waterproof substrate by the cutting tool I, the cutting tool II and the cutting tool III to form buckling grooves; can prepare the composite waterproof coiled material with convenient installation and good waterproof property.

Description

Production method of composite waterproof coiled material
Technical Field
The invention relates to a waterproof coiled material, in particular to a production method of a composite waterproof coiled material.
Background
The waterproof coiled material is mainly used for building walls and roofs, tunnels, highways, landfill sites and the like, plays a roll-shaped flexible building material product for resisting external rainwater and groundwater leakage, is used as a non-leakage connection between an engineering foundation and a building, is a first waterproof barrier of the whole engineering, and plays a vital role in the whole engineering; in the prior art, when the construction is carried out on the waterproof coiled materials, the first waterproof coiled material is laid on a building in advance, and then the second waterproof coiled material is placed on the side edge of the first waterproof coiled material, so that a certain gap exists between the waterproof coiled materials, and the waterproof effect is not ideal; or the second waterproof roll is pressed on the side edge of the first waterproof roll, so that the connection part between the waterproof roll and the waterproof roll is convex, which is not attractive, and the convex part is more easily damaged, thus a composite waterproof roll with convenient installation and good waterproof property is needed.
Disclosure of Invention
The invention aims to provide a production method of a composite waterproof coiled material, which can prepare the composite waterproof coiled material with convenient installation and good waterproof property.
The aim of the invention is achieved by the following technical scheme:
the production method of the composite waterproof coiled material comprises the following steps:
s1: cutting the two sides of the waterproof matrix to form buckling grooves on the two sides of the waterproof matrix;
s2: asphalt is smeared on the upper side and the lower side of the waterproof matrix to form an asphalt layer;
s3: wrapping the isolating paper on the outer side of the asphalt layer to form an isolating layer;
the cutting of the two sides of the waterproof substrate comprises the following steps:
s11: placing the waterproof matrix between a plurality of driving rollers, and driving the waterproof matrix to move through the driving rollers;
s12: the waterproof substrate sequentially passes through a cutting tool I, a cutting tool II and a cutting tool III;
s13: cutting the side edges of the waterproof substrate by the cutting tool I, the cutting tool II and the cutting tool III to form buckling grooves;
the construction method of the composite waterproof coiled material comprises the following steps:
s1: tearing off an isolating layer coated on the outer side of an asphalt layer of the composite waterproof coiled material A, and paving the asphalt layer on the ground;
s2: tearing off the isolating layer coated on the outer side of the asphalt layer of the composite waterproof coiled material B, and inverting the composite waterproof coiled material B on the side edge of the composite waterproof coiled material A;
s3: and the buckling groove of the composite waterproof coiled material B and the buckling groove of the composite waterproof coiled material A are buckled with each other.
The composite waterproof coiled material comprises a waterproof substrate, wherein asphalt layers are arranged on the upper side and the lower side of the waterproof substrate, isolation layers are arranged on the outer sides of the two asphalt layers, buckling grooves are formed in the two sides of the waterproof substrate, and the waterproof substrate can be mutually buckled and connected through the buckling grooves;
the device comprises a device bracket, screw rods are rotatably connected to the front end and the rear end of the device bracket, threads at the two ends of the screw rods are opposite in rotation direction, a power mechanism I for driving the screw rods to rotate is fixedly connected to the device bracket, the power mechanism I is preferably a servo motor, four sliding blocks are slidably connected to the device bracket and are respectively connected to the two ends of the two screw rods through threads, driving rollers are rotatably connected to each sliding block, a power mechanism II for driving the driving rollers to rotate is fixedly connected to the sliding blocks, and the power mechanism II is preferably a servo motor;
a support plate is fixedly connected to the sliding block at the lower end of the rear side, and two support rollers are rotatably connected to the support plate;
the device bracket is fixedly connected with two telescopic mechanisms I, the telescopic end of each telescopic mechanism I is fixedly connected with a telescopic mechanism II, the telescopic end of each telescopic mechanism II is rotationally connected with a cutting tool I, the telescopic end of each telescopic mechanism II is fixedly connected with a power mechanism III for driving the cutting tool I to rotate, the power mechanism III is preferably a servo motor, and the two cutting tools I are positioned on the upper side of a supporting roller;
the device bracket is fixedly connected with two telescopic mechanisms III, the telescopic end of each telescopic mechanism III is fixedly connected with a telescopic mechanism IV, the telescopic end of each telescopic mechanism IV is rotatably connected with a cutting wheel I, the telescopic end of each telescopic mechanism IV is fixedly connected with a power mechanism IV for driving the cutting wheel I to rotate, the power mechanism IV is preferably a servo motor, the cutting wheel I is fixedly connected with a plurality of cutting tools II, the cutting wheel I is slidably connected with a cutting wheel II, the cutting wheel II is fixedly connected with a plurality of cutting tools III, the plurality of cutting tools II and the plurality of cutting tools III are arranged in a staggered manner, and the two cutting wheels I and the two cutting wheels II are positioned on the upper side of the other supporting roller;
the cutting wheel I is connected with a plurality of adjusting screws through threads, and the adjusting screws are all rotationally connected to the cutting wheel II;
the device comprises a device bracket, wherein an smearing bracket is fixedly connected with the device bracket, two telescopic mechanisms V are fixedly connected with the upper end and the lower end of the smearing bracket, smearing rollers are rotatably connected between the telescopic ends of the two telescopic mechanisms V on the two sides of the upper side, a plurality of smearing holes are formed in the two smearing rollers, telescopic mechanisms VI are fixedly connected with the telescopic ends of each telescopic mechanism V, pulling plates are fixedly connected with the telescopic ends of each telescopic mechanism VI, injection pipelines are rotatably connected with each pulling plate, baffle plates are fixedly connected with each injection pipeline, and four baffle plates are respectively and slidably connected with the two sides inside the two smearing rollers;
the device support is fixedly connected with an isolation support, and the isolation support is rotationally connected with two isolation rollers.
Drawings
The invention will be described in further detail with reference to the accompanying drawings and detailed description.
Fig. 1 is a schematic view of a production method of a composite waterproof roll of the present invention;
fig. 2 is a schematic diagram of a production method of the composite waterproof roll of the present invention;
fig. 3 is a schematic view of a construction method of the composite waterproof coiled material of the present invention;
fig. 4 is a schematic structural view of the composite waterproof roll of the present invention;
fig. 5 is a schematic view of the connection structure of the composite waterproof roll of the present invention;
fig. 6 is a schematic view of the connection structure of the composite waterproof roll of the present invention;
fig. 7 is a schematic structural view of a production device of the composite waterproof coiled material of the present invention;
FIG. 8 is a schematic view of the device holder structure of the present invention;
FIG. 9 is a schematic view of the structure of the cutting tool I of the present invention;
FIG. 10 is a schematic view of the structure of the cutting tool II of the present invention;
FIG. 11 is a schematic view of the structure of the cutting tool II of the present invention;
FIG. 12 is a schematic view of the structure of the cutting tool III of the present invention;
fig. 13 is a schematic view of the structure of the smearing bracket of the present invention;
FIG. 14 is a schematic view of the applicator roll structure of the present invention;
fig. 15 is a schematic view of the isolation mount structure of the present invention.
In the figure:
a waterproof base 11; an asphalt layer 12; an isolation layer 13; a buckling groove 14;
a device holder 21; a screw 22; a slider 23; a driving roller 24; a support plate 25; a support roller 26;
a telescopic mechanism I31; a telescopic mechanism II 32; a cutting tool I33;
telescoping mechanism III 41; a telescopic mechanism IV 42; cutting wheel I43; cutting tool II 44; cutting wheel ii 45; cutting tool III 46; an adjustment screw 47;
a painting support 51; a telescopic mechanism v 52; a smearing roller 53; a telescopic mechanism VI 54; pulling the plate 55; an injection line 56; a baffle 57;
a spacer support 61; and a separator roller 62.
Detailed Description
The invention is described in further detail below with reference to the accompanying drawings.
As shown in fig. 1 to 3, the steps and functions of a composite waterproof roll production method are described in detail below;
the production method of the composite waterproof coiled material comprises the following steps:
s1: cutting both sides of the waterproof substrate 11 so that buckling grooves 14 are formed on both sides of the waterproof substrate 11;
s2: asphalt is smeared on the upper side and the lower side of the waterproof substrate 11 to form an asphalt layer 12;
s3: wrapping the isolating paper on the outer side of the asphalt layer 12 to form an isolating layer 13;
the cutting of both sides of the waterproof substrate 11 includes the steps of:
s11: placing the waterproof substrate 11 between a plurality of driving rollers 24, and driving the waterproof substrate 11 to move by the driving rollers 24;
s12: so that the waterproof substrate 11 passes through the cutting tool I33, the cutting tool II 44 and the cutting tool III 46 in sequence;
s13: cutting tool I33, cutting tool II 44 and cutting tool III 46 cut the side edge of waterproof substrate 11 to form buckling groove 14;
the construction method of the composite waterproof coiled material comprises the following steps:
s1: tearing off the isolating layer 13 coated on the outer side of the asphalt layer 12 of the composite waterproof coiled material A, and paving the asphalt layer 12 on the ground;
s2: tearing off the isolation layer 13 coated on the outer side of the asphalt layer 12 of the composite waterproof coiled material B, and inverting the composite waterproof coiled material B on the side edge of the composite waterproof coiled material A;
s3: the buckling groove 14 of the composite waterproof coiled material B and the buckling groove 14 of the composite waterproof coiled material A are buckled with each other.
As shown in fig. 4 to 6, the structure and function of a composite waterproof roll will be described in detail;
the composite waterproof coiled material comprises a waterproof substrate 11, wherein asphalt layers 12 are arranged on the upper side and the lower side of the waterproof substrate 11, isolation layers 13 are arranged on the outer sides of the two asphalt layers 12, buckling grooves 14 are formed in the two sides of the waterproof substrate 11, and the waterproof substrate 11 can be mutually buckled and connected through the buckling grooves 14;
when the waterproof roll is used, as shown in fig. 4, which is a structure of the composite waterproof roll when not in use, and as shown in fig. 6, which is a structure of the composite waterproof roll and the composite waterproof roll after being spliced and laid, wherein the contact positions of the composite waterproof roll and the composite waterproof roll are mutually buckled through the buckling grooves 14, as the buckling grooves 14 are in a ladder shape, after the buckling grooves 14 and the buckling grooves 14 are buckled, the connection positions of the composite waterproof roll and the composite waterproof roll can form a flow stopping bulge, thereby ensuring the waterproof effect of the connection parts of the composite waterproof roll and the composite waterproof roll, meanwhile, as the buckling grooves 14 and the buckling grooves 14 are mutually buckled, the connection surfaces of the composite waterproof roll and the composite waterproof roll are in a plane after the composite waterproof roll and the composite waterproof roll are connected, the waterproof roll is more attractive, and the waterproof roll is convenient to construct, namely the waterproof substrate 11 and the waterproof substrate 11 are buckled mutually, and the calibration of the positions is not needed;
as shown in fig. 7 to 15, in order to facilitate the implementation of a composite waterproof roll production method, a composite waterproof roll production apparatus is designed, and the structure and function of the composite waterproof roll production apparatus are described in detail below;
the utility model provides a compound waterproofing membrane apparatus for producing, including device support 21, the front and back both ends of device support 21 all rotate and are connected with lead screw 22, the screw thread at lead screw 22 both ends revolves to opposite directions, fixedly connected with drive lead screw 22 carries out pivoted power unit I on the device support 21, power unit I is preferably servo motor, sliding connection has four sliders 23 on the device support 21, four sliders 23 are respectively through threaded connection at the both ends of two lead screws 22, all rotate on every slider 23 and be connected with drive roller 24, fixedly connected with drive roller 24 carries out pivoted power unit II on the slider 23, power unit II is preferably servo motor;
a support plate 25 is fixedly connected to the sliding block 23 at the lower end of the rear side, and two support rollers 26 are rotatably connected to the support plate 25;
the device bracket 21 is fixedly connected with two telescopic mechanisms I31, the telescopic end of each telescopic mechanism I31 is fixedly connected with a telescopic mechanism II 32, the telescopic end of each telescopic mechanism II 32 is rotationally connected with a cutting tool I33, the telescopic end of each telescopic mechanism II 32 is fixedly connected with a power mechanism III for driving the cutting tool I33 to rotate, the power mechanism III is preferably a servo motor, and the two cutting tools I33 are positioned on the upper side of one supporting roller 26;
the device bracket 21 is fixedly connected with two telescopic mechanisms III 41, the telescopic end of each telescopic mechanism III 41 is fixedly connected with a telescopic mechanism IV 42, the telescopic end of each telescopic mechanism IV 42 is rotatably connected with a cutting wheel I43, the telescopic end of each telescopic mechanism IV 42 is fixedly connected with a power mechanism IV for driving the cutting wheel I43 to rotate, the power mechanism IV is preferably a servo motor, the cutting wheel I43 is fixedly connected with a plurality of cutting tools II 44, the cutting wheel I43 is slidably connected with a cutting wheel II 45, the cutting wheel II 45 is fixedly connected with a plurality of cutting tools III 46, the plurality of cutting tools II 44 and the plurality of cutting tools III 46 are arranged in a staggered manner in a crossing manner, and the two cutting wheels I43 and the two cutting wheels II 45 are positioned on the upper side of the other supporting roller 26;
the cutting wheel I43 is connected with a plurality of adjusting screws 47 through threads, and the adjusting screws 47 are all rotatably connected to the cutting wheel II 45;
the device bracket 21 is fixedly connected with an smearing bracket 51, the upper end and the lower end of the smearing bracket 51 are fixedly connected with two telescopic mechanisms V52, smearing rollers 53 are rotatably connected between the telescopic ends of the two telescopic mechanisms V52 on the two sides of the upper side, a plurality of smearing holes are formed in the two smearing rollers 53, telescopic mechanisms VI 54 are fixedly connected to the telescopic ends of each telescopic mechanism V52, pulling plates 55 are fixedly connected to the telescopic ends of each telescopic mechanism VI 54, injection pipelines 56 are rotatably connected to each pulling plate 55, baffle plates 57 are fixedly connected to each injection pipeline 56, and four baffle plates 57 are slidably connected to the two sides inside the two smearing rollers 53 respectively;
the device bracket 21 is fixedly connected with a separation bracket 61, and the separation bracket 61 is rotatably connected with two separation rollers 62;
when the waterproof base body 11 to be processed is placed between the two driving rollers 24 on the front side and the rear side, the waterproof base body 11 can be made of waterproof materials commonly used in the prior art, the power mechanism I is started, the output shaft of the power mechanism I starts to rotate, the output shaft of the power mechanism I drives the screw rod 22 to rotate, and the screw rod 22 drives the two sliding blocks 23 to approach each other through threads when rotating, so that the two driving rollers 24 are driven to approach each other, and the driving rollers 24 are contacted with the waterproof base body 11;
starting a power mechanism II, wherein an output shaft of the power mechanism II starts to rotate, and the output shaft of the power mechanism II drives a driving roller 24 to rotate, and when the driving roller 24 rotates, the driving roller 24 pushes the waterproof substrate 11 to move, so that the waterproof substrate 11 continuously passes through two cutting tools I33, two cutting wheels I43 and two cutting wheels II 45;
the power mechanism III is started in advance, an output shaft of the power mechanism III starts to rotate, the output shaft of the power mechanism III drives the cutting tool I33 to rotate, the telescopic mechanism I31 and the telescopic mechanism II 32 are started, the telescopic mechanism I31 and the telescopic mechanism II 32 can be hydraulic cylinders or electric push rods, the telescopic ends of the telescopic mechanism I31 and the telescopic mechanism II 32 drive the cutting tool I33 to move, the cutting position of the cutting tool I33 is adjusted, the cutting tool I33 cuts the side edge of the waterproof substrate 11, the buckling groove 14 is in a stepped shape, the buckling groove 14 is formed by two grooves, and the cutting tool I33 cuts the side edge of the waterproof substrate 11 to form a groove outside the buckling groove 14;
the power mechanism IV is started in advance, an output shaft of the power mechanism IV starts to rotate, the output shaft of the power mechanism IV drives the cutting wheel I43 and the cutting wheel II 45 to rotate, the cutting wheel I43 and the cutting wheel II 45 drive the cutting tool II 44 and the cutting tool III 46 to rotate, and the cutting tool II 44 and the cutting tool III 46 cut the side edge of the waterproof substrate 11 when moving, so that a groove on the inner side of the buckling groove 14 is formed;
further, the telescopic mechanism III 41 and the telescopic mechanism IV 42 are started, the telescopic mechanism III 41 and the telescopic mechanism IV 42 can be hydraulic cylinders or electric push rods, and telescopic ends of the telescopic mechanism III 41 and the telescopic mechanism IV 42 drive the cutting tools II 44 and III 46 to move so as to adjust cutting positions of the cutting tools II 44 and III 46;
further, the adjusting screw 47 is rotated, and when the adjusting screw 47 rotates, the cutting wheel II 45 is driven to move through threads, so that the dislocation distance between the cutting tool II 44 and the cutting tool III 46 is adjusted, the machining width of the inner groove of the buckling groove 14 is adjusted, and different use requirements are met;
further, asphalt raw materials are introduced into the injection pipeline 56 in advance, the telescopic mechanism V52 is started, the telescopic mechanism V52 can be a hydraulic cylinder or an electric push rod, the telescopic end of the telescopic mechanism V52 drives the smearing roller 53 to move, so that the smearing roller 53 is contacted with the waterproof substrate 11, a plurality of smearing holes are formed in the smearing roller 53, and asphalt in the smearing roller 53 is smeared on the waterproof substrate 11 to form an asphalt layer 12;
a power mechanism VII for driving the smearing roller 53 to rotate is fixedly connected to the telescopic end of the telescopic mechanism V52, and an output shaft of the power mechanism VII drives the smearing roller 53 to rotate so as to smear asphalt in the smearing roller 53 on the waterproof substrate 11;
further, the telescopic mechanism vi 54 is started, the telescopic mechanism vi 54 can be a hydraulic cylinder or an electric push rod, the telescopic end of the telescopic mechanism vi 54 drives the pulling plate 55 to move, the pulling plate 55 drives the injection pipeline 56 and the baffle 57 to move, the sliding position of the baffle 57 in the coating roller 53 is further adjusted, the coating width of the coating roller 53 is further adjusted, and different processing requirements are met;
further, a release paper is wound around the release roller 62 in advance, the release paper is placed on the outer side of the asphalt layer 12, and is passed between the two driving rollers 24 located on the front side together with the waterproof substrate 11, and then processed to form a composite waterproof roll as shown in fig. 4.

Claims (10)

1. A production method of a composite waterproof coiled material is characterized by comprising the following steps: the method comprises the following steps:
s1: cutting two sides of the waterproof substrate (11) to form buckling grooves (14) on two sides of the waterproof substrate (11);
s2: asphalt is smeared on the upper side and the lower side of the waterproof substrate (11) to form an asphalt layer (12);
s3: and wrapping the asphalt layer (12) with release paper to form a release layer (13).
2. The method for producing the composite waterproof coiled material according to claim 1, wherein the method comprises the following steps: the cutting of the two sides of the waterproof substrate (11) comprises the following steps:
s11: placing the waterproof substrate (11) between a plurality of driving rollers (24), and driving the waterproof substrate (11) to move through the driving rollers (24);
s12: so that the waterproof substrate (11) passes through the cutting tool I (33), the cutting tool II (44) and the cutting tool III (46) in sequence;
s13: the cutting tool I (33), the cutting tool II (44) and the cutting tool III (46) cut the side edge of the waterproof substrate (11) to form the buckling groove (14).
3. The method for producing the composite waterproof coiled material according to claim 1, wherein the method comprises the following steps: the construction method of the composite waterproof coiled material comprises the following steps:
s1: tearing off an isolating layer (13) coated on the outer side of an asphalt layer (12) of the composite waterproof coiled material A, and paving the asphalt layer (12) on the ground;
s2: tearing off an isolation layer (13) coated on the outer side of an asphalt layer (12) of the composite waterproof coiled material B, and inverting the composite waterproof coiled material B on the side edge of the composite waterproof coiled material A;
s3: the buckling groove (14) of the composite waterproof coiled material B and the buckling groove (14) of the composite waterproof coiled material A are buckled with each other.
4. The method for producing the composite waterproof coiled material according to claim 1, wherein the method comprises the following steps: the composite waterproof coiled material comprises a waterproof substrate (11), wherein asphalt layers (12) are arranged on the upper side and the lower side of the waterproof substrate (11), isolation layers (13) are arranged on the outer sides of the two asphalt layers (12), buckling grooves (14) are formed in the two sides of the waterproof substrate (11), and the waterproof substrate (11) can be mutually buckled and connected through the buckling grooves (14).
5. The method for producing the composite waterproof coiled material according to claim 2, wherein the method comprises the following steps: the driving rollers (24) are arranged, the four driving rollers (24) are respectively connected to the four sliding blocks (23) in a rotating mode, the four sliding blocks (23) are respectively connected to the device support (21) in a sliding mode, screw rods (22) are respectively connected to the front end and the rear end of the device support (21) in a rotating mode, threads at the two ends of the screw rods (22) are opposite in rotation direction, and the four sliding blocks (23) are respectively connected to the two ends of the two screw rods (22) through threads.
6. The method for producing the composite waterproof coiled material according to claim 5, wherein the method comprises the following steps: the sliding block (23) positioned at the lower end of the rear side is fixedly connected with a supporting plate (25), and two supporting rollers (26) are rotatably connected to the supporting plate (25).
7. The method for producing the composite waterproof coiled material according to claim 6, wherein the method comprises the following steps: two telescopic machanism I (31) of fixedly connected with on device support (21), all fixedly connected with telescopic machanism II (32) on the flexible end of every telescopic machanism I (31), all rotate on the flexible end of every telescopic machanism II (32) and be connected with cutting tool I (33), two cutting tool I (33) all are located the upside of a backing roll (26).
8. The method for producing the composite waterproof coiled material according to claim 7, wherein: two telescopic machanism III (41) of fixedly connected with on device support (21), all fixedly connected with telescopic machanism IV (42) on the flexible end of every telescopic machanism III (41), all rotate on the flexible end of every telescopic machanism IV (42) and be connected with cutting wheel I (43), fixedly connected with a plurality of cutting tools II (44) on cutting wheel I (43), sliding connection has cutting wheel II (45) on cutting wheel I (43), fixedly connected with a plurality of cutting tools III (46) on cutting wheel II (45), a plurality of cutting tools II (44) and a plurality of cutting tools III (46) intercrossing dislocation set, two cutting wheels I (43) and two cutting wheels II (45) all are located the upside of another backing roll (26).
9. The method for producing the composite waterproof coiled material according to claim 8, wherein the method comprises the following steps: the cutting wheel I (43) is connected with a plurality of adjusting screws (47) through threads, and the adjusting screws (47) are all rotationally connected to the cutting wheel II (45).
10. The method for producing the composite waterproof coiled material according to claim 9, wherein: the device comprises a device support (21), wherein a smearing support (51) is fixedly connected to the device support (21), two telescopic mechanisms V (52) are fixedly connected to the upper end and the lower end of the smearing support (51), smearing rollers (53) are rotatably connected between the telescopic ends of the two telescopic mechanisms V (52) on the two sides, a plurality of smearing holes are formed in the two smearing rollers (53), telescopic mechanisms VI (54) are fixedly connected to the telescopic ends of the telescopic mechanisms V (52), pulling plates (55) are fixedly connected to the telescopic ends of the telescopic mechanisms VI (54), injection pipelines (56) are rotatably connected to the pulling plates (55), baffle plates (57) are fixedly connected to the injection pipelines (56), the four baffle plates (57) are slidably connected to the two sides inside the two smearing rollers (53), an isolation support (61) is fixedly connected to the device support (21), and two isolation rollers (62) are rotatably connected to the isolation support (61).
CN202311071374.8A 2023-08-24 2023-08-24 Production method of composite waterproof coiled material Pending CN117048091A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202311071374.8A CN117048091A (en) 2023-08-24 2023-08-24 Production method of composite waterproof coiled material

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202311071374.8A CN117048091A (en) 2023-08-24 2023-08-24 Production method of composite waterproof coiled material

Publications (1)

Publication Number Publication Date
CN117048091A true CN117048091A (en) 2023-11-14

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202311071374.8A Pending CN117048091A (en) 2023-08-24 2023-08-24 Production method of composite waterproof coiled material

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Country Link
CN (1) CN117048091A (en)

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