CN116927427A - Method for manufacturing reaction bonding type wet-laid waterproof coiled material - Google Patents

Abstract

The invention relates to the technical field of building roof waterproofing, in particular to a method for manufacturing a reaction bonding type wet-laid waterproof coiled material, which comprises the following steps: executing a preset analysis strategy, manufacturing a first waterproof layer and a second waterproof layer, filling preset functional materials in a filling layer in a preset filling mode, manufacturing a marking layer connected with the first waterproof layer according to the structure of the first waterproof layer, and sequentially arranging the second waterproof layer, the filling layer, the first waterproof layer and the marking layer at key waterproof positions.

Description

Method for manufacturing reaction bonding type wet-laid waterproof coiled material

Technical Field

The invention relates to the technical field of waterproof coiled materials, in particular to a method for manufacturing a reaction bonding type wet-laid waterproof coiled material.

Background

In construction engineering, a waterproof roll is a commonly used material for preventing moisture from penetrating into a building structure. There are various types of waterproof rolls on the market at present, one common type is a reaction-bonded wet-laid waterproof roll.

Chinese patent application publication No.: CN101899889B discloses a waterproof coiled material for resisting plant root puncture and a manufacturing method thereof, comprising a base layer, wherein the upper surface and the lower surface of the base layer are modified asphalt chemical root inhibitor waterproof layers, the outer surface of the modified asphalt chemical root inhibitor waterproof layers, which is far away from the base layer, is an isolation layer, and the modified asphalt chemical root inhibitor waterproof layers are structures prepared by mechanically stirring and blending asphalt, chemical root inhibitor, resin, filler and auxiliary agent at 195 ℃. The invention has the advantages that: the mildew-proof performance of the waterproof coiled material is enhanced, the waterproof coiled material has no toxin effect on plants, and the waterproof coiled material can also effectively prevent plant roots from puncturing from the joints of the coiled material. Is beneficial to realizing automatic assembly line operation, and can greatly reduce the production cost under the condition of equal plant root puncture resistance, thereby being suitable for wide-range application.

However, in the application of the existing waterproof coiled material on a flat roof, the problems of difficult fault tracing and untimely water leakage phenomenon discovery exist.

Disclosure of Invention

Therefore, the invention provides a method for manufacturing a reaction bonding type wet-laid waterproof coiled material. The waterproof coiled material is used for solving the problems of difficult fault tracing and untimely water leakage discovery in the prior art, and further improving the waterproof effect of the waterproof coiled material.

In order to achieve the above purpose, the invention provides a method for manufacturing a reaction bonding type wet-laid waterproof coiled material, which comprises the following steps:

step S1, executing a preset analysis strategy, manufacturing a first waterproof layer and a second waterproof layer according to an analysis result, and determining a key waterproof position;

step S2, filling a preset functional material in a preset filling mode in the filling layer;

s3, manufacturing a marking layer connected with the first waterproof layer according to the first waterproof layer;

step S4, sequentially arranging the second waterproof layer, the filling layer, the first waterproof layer and the marking layer at the key waterproof position;

the preset analysis strategy comprises determining the thickness of the filling layer according to the roof drainage gradient and the thicknesses of the first waterproof layer and the second waterproof layer, wherein the preset filling mode is to adjust the proportion of the preset functional materials according to the rainfall and the PH value of the rainwater, and the key waterproof positions are positions and/or a plurality of special-shaped positions which are simulated by a simulator and are used for simulating that when rainfall with the preset rainfall, a plurality of rainfall flows are higher than a rainfall flow threshold and a water accumulation threshold;

the mark layer is arranged at the water leakage position of the second waterproof layer or the water leakage position of the first waterproof layer.

Further, the filling layer executes expansion water stop alarm action when the second waterproof layer is water-permeable or the first waterproof layer is water-permeable;

the expansion water stop alarm action is that the preset functional material expands when meeting water and limits the flow of water between the first waterproof layer and the second waterproof layer and/or limits the water penetrating into the second waterproof layer to flow into the first waterproof layer.

Further, the step S1 further includes:

step S11, preparing a first base material corresponding to the first waterproof layer and a second base material corresponding to the second waterproof layer, and reserving grooves on the bottom surface of the first base material and the top surface of the second base material layer respectively to form a filling cavity for filling the filling layer;

step S12, coating waterproof materials on the top surfaces of the first base material and the second base material;

wherein, when laying waterproofing membrane, the bottom surface of second waterproof layer is connected with the basic unit of construction position.

Further, in the step S1, the preset analysis strategy includes determining a thickness of the filling cavity according to a roof drainage gradient and thicknesses of the first substrate and the second substrate;

wherein the thickness T of the filling cavity is calculated according to formula (1);

wherein T1 is the thickness of the first substrate, T2 is the thickness of the second substrate, α is a slope angle and α is less than 3 °.

Further, in the step S2, the preset filling mode is to adjust the proportion of the preset functional material according to the average rainfall and the rainwater PH value in the history period of the application area.

Further, in the step S2, the preset functional material includes a working material and a protecting material, the lower layer of the filling layer is the working material, the upper layer is the protecting material, wherein the protecting material covers the surface of the working material and is located between the working material and the first waterproof layer, and an isolation block for taking out the protecting material is arranged on the first waterproof layer;

wherein the protective material is provided with a preparation state, a working state and a working completion state;

the preparation state is a state that the protective material does not absorb water and the isolation block is closed, the working state is a state that the protective material limits the working material to contact with water and absorb water, and the working completion state is a state that the isolation block is opened and the protective material absorbs water.

Further, in the step S4, when the protecting material is in the working completion state, detecting the volume of the protecting material after the protecting material reaction by using a laser scanner;

if the volume of the protective material is smaller than or equal to the preset volume, opening the isolation block, taking out the protective material, filling waterproof filler, and sealing the isolation block after filling;

if the volume change is larger than the preset volume, opening the isolation block, taking out the protective material, respectively filling the working material and the waterproof filler with preset areas, and sealing the isolation block after filling is finished;

the preset volume is related to the initial volume of the protective material.

Further, in the step S4, the marking layer is disposed on the second waterproof layer and the marking layer includes a normal state and a marking state;

the conventional state is that the marking layer, the first waterproof layer and the second waterproof layer jointly waterproof the layout position;

the marking state is a position for assisting in prompting execution of the expansion water stop alarm action and/or assisting in tracing the position of a fault source when the marking layer executes the expansion water stop alarm action by the preset functional material.

Further, the preset analysis strategy further comprises determining the shape of the filling cavity according to the drainage direction of the corresponding key waterproof position, and for the first waterproof layer and the second waterproof layer in unit area, the position of the filling cavity is in a preset range;

the preset range is a position which is more than a preset distance from each side of the first waterproof layer and the second waterproof layer in a unit area, and the first waterproof layer, the second waterproof layer and the filling layer can be cut according to the shape of the corresponding key waterproof position.

Further, in the step S3, the top surface of the marking layer is coated with a plurality of materials including a waterproof material and a paint of a preset color is coated at a position where the marking layer is connected to the spacer of the first waterproof layer.

Compared with the prior art, the waterproof coiled material has the beneficial effects that by filling the preset working materials, after the waterproof coiled material is manufactured and enters a working state, the working materials react with water and expand when water leaks or seeps, the expanded working materials can jack up the uppermost marking layer, when the waterproof materials leak water or leak water, most of the working materials can be found when the influence is caused or the water leakage is obvious, the waterproof coiled material can prompt the water leakage position and effectively stop water when the water leakage is not obvious, and when the water leakage or the water seepage occurs, the shapes of the working materials in different directions are different, the water leakage or the water seepage direction can be analyzed through analyzing the shapes of the working materials, so that the source of the water leakage can be found under the condition that a plurality of areas leak water, and the fault maintenance efficiency and the waterproof capability are improved.

Further, the preset analysis strategy of the invention determines the thickness of the filling cavity according to the roof drainage gradient and the thicknesses of the first substrate and the second substrate, the thicker the thicknesses of the first substrate and the second substrate, the larger the usage amount of the working materials is required when the working materials are expanded, the thicker the thickness of the filling cavity is, the larger the drainage gradient is, the better the drainage effect is, so fewer working materials are filled, the accurate control of the thickness is realized, the function of the working materials can be accurately exerted, and the waterproof capability is further improved while the fault maintenance efficiency is improved.

Furthermore, the filling layer is filled in a preset filling mode, the larger the average rainfall and the PH value of rainwater in the historical period of the application area are considered, the higher the duty ratio of the corresponding material which swells when meeting water in the preset functional material is, and the influence of the PH value of the rainwater on the reaction of the corresponding material which swells when meeting water is considered, so that the fault maintenance efficiency is improved, and the waterproof capability is further improved.

Furthermore, the waterproof coiled material is higher in manufacturing cost compared with the common waterproof coiled material, so that the waterproof coiled material is only arranged at key waterproof positions, wherein the key waterproof positions are positions and/or special-shaped positions which are simulated by using a simulator and are at a position where a plurality of rainfall flows are higher than a rainfall flow threshold and a water accumulation threshold when rainfall is performed by a preset rainfall, the waterproof pertinence is improved, the material consumption is reduced, and the waterproof capability is further improved while the fault maintenance efficiency is improved.

Furthermore, the protective material provided by the invention is covered on the surface of the working material and is positioned between the working material and the first waterproof layer, and the first waterproof layer is provided with the isolation block for taking out the protective material, so that the protective material can effectively prevent the working material from contacting with water in the construction process.

Further, the outermost layer of the waterproof material is a marking layer, the marking layer has a marking state, the marking layer assists in prompting the position for executing the expansion water stop alarm action and/or assists in tracing the position of a fault source when the preset functional material executes the expansion water stop alarm action, and the waterproof capability is further improved while the fault maintenance efficiency is improved.

Furthermore, the position where the marking layer is connected with the isolation block of the first waterproof layer is coated with the paint with the preset color, so that water leakage or water seepage can be reminded remarkably, and the waterproof capability is further improved while the fault maintenance efficiency is improved.

Drawings

Fig. 1 is a schematic flow chart of a method for manufacturing a reaction bonding type wet-laid waterproof coiled material;

fig. 2 is a cross-sectional view of a reaction-bonded wet-laid waterproof roll according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a reaction-bonded wet-laid waterproof roll according to an embodiment of the present invention;

in the figure: 1, protecting materials; 2, marking the layer; 3, a first waterproof layer; 4, a second waterproof layer; 5, working materials; 6. the layer coating areas are marked.

Detailed Description

In order that the objects and advantages of the invention will become more apparent, the invention will be further described with reference to the following examples; it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that, in the description of the present invention, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.

Referring to fig. 1, a flow chart of an energy hub optimization method based on distributed energy according to the present invention includes:

step S1, executing a preset analysis strategy and manufacturing a first waterproof layer and a second waterproof layer according to an analysis result;

step S2, filling a preset functional material in a preset filling mode in the filling layer;

s3, manufacturing a marking layer connected with the first waterproof layer according to the first waterproof layer;

step S4, sequentially arranging a second waterproof layer, a filling layer, a first waterproof layer and a marking layer at the key waterproof position;

through filling preset working materials, after the waterproof coiled material is manufactured and enters a working state, the working materials react with water and expand when water leaks or seeps, the expanded working materials can jack up the uppermost marking layer, when the waterproof material seeps or leaks, most of the working materials can be found when the influence is caused or the water leakage is obvious, the waterproof coiled material can prompt the water leakage position and effectively stop water when the water leakage is not obvious, and when the water leakage or seeps, the shapes of the working materials in different directions are different, the water leakage or seepage directions can be analyzed through analyzing the shapes of the working materials, so that the water leakage source can be found under the condition that a plurality of areas leak, and the fault maintenance efficiency and the waterproof capability are improved.

The method comprises the steps that a preset analysis strategy comprises determining the thickness of a filling layer according to the roof drainage gradient and the thicknesses of a first waterproof layer and a second waterproof layer;

according to the invention, the preset analysis strategy is used for determining the thickness of the filling cavity according to the roof drainage gradient and the thicknesses of the first base material and the second base material, the thicker the thicknesses of the first base material and the second base material are, the larger the consumption of working materials is required in expansion, the thicker the thickness of the filling cavity is, the larger the drainage gradient is, the better the drainage effect is, so that fewer working materials are filled, and through accurate control of the thickness, the effect of the working materials can be exerted more accurately according to local conditions, and the waterproof capability is further improved while the fault maintenance efficiency is improved.

The preset filling mode is to adjust the proportion of the preset functional materials according to the rainfall and the PH value of the rainwater;

the key waterproof positions are positions and/or a plurality of special-shaped positions which are simulated by the simulator and are higher than a rainfall flow threshold and a water accumulation threshold when rainfall is performed with preset rainfall;

preferably, the preset rainfall is the historical maximum rainfall of the waterproof coiled material application area, and the rainfall threshold meets the condition that the waterproofness of the conventional rainfall plate is affected when the surface rainfall reaches the rainfall threshold; the threshold value of water accumulation is the same; the special-shaped positions comprise parapet walls, water falling mouths, pipe roots, cornices, yin and yang corners and other detailed positions;

compared with the common waterproof coiled material, the waterproof coiled material is higher in manufacturing cost, so that the waterproof coiled material is only arranged at key waterproof positions, wherein the key waterproof positions are positions and/or special-shaped positions, which are simulated by using a simulator, of a plurality of rainfall flows higher than a rainfall flow threshold and a water accumulation threshold when rainfall occurs at a preset rainfall, so that the waterproof pertinence is improved, the material consumption is reduced, and the waterproof capability is further improved while the fault maintenance efficiency is improved.

The mark layer is arranged at the water leakage position of the second waterproof layer or the water leakage position of the first waterproof layer.

Specifically, the filling layer executes expansion water stop alarm action when the second waterproof layer leaks water or the first waterproof layer leaks water;

the expansion water stop alarm acts as that the preset functional material expands when meeting water and limits the flow of water between the first waterproof layer and the second waterproof layer and/or limits the water penetrating into the second waterproof layer to flow into the first waterproof layer.

Specifically, step S1 further includes:

step S11, preparing a first base material corresponding to the first waterproof layer and a second base material corresponding to the second waterproof layer, and reserving grooves on the bottom surface of the first base material and the top surface of the second base material layer respectively to form a filling cavity for filling the filling layer;

step S12, coating waterproof materials on the top surfaces of the first base material and the second base material;

wherein, when laying waterproofing membrane, the bottom surface of second waterproof layer is connected with the basic unit of construction position.

Referring to fig. 2 in conjunction with fig. 3, fig. 2 is a cross-sectional view of a reaction bonded type wet-laid waterproof roll according to an embodiment of the present invention, fig. 3 is a schematic structural diagram of the reaction bonded type wet-laid waterproof roll according to an embodiment of the present invention, and fig. 2 sequentially includes, from bottom to top, a second waterproof layer 4, a working material 5 in a filling layer, a protective material 1 in the filling layer, a first waterproof layer 3, and a marking layer 2;

specifically, in step S1, the preset analysis strategy includes determining the thickness of the filling cavity according to the roof drainage slope and the thicknesses of the first and second substrates;

wherein the thickness T of the filling cavity is calculated according to formula (1);

wherein T1 is the thickness of the first substrate, T2 is the thickness of the second substrate, alpha is the slope angle and alpha is less than 3 degrees;

wherein, the slope angle is the acute angle that the roofing drainage slope formed with the horizontal plane, it can be understood that the roofing in this embodiment is the flat roof.

Specifically, in step S2, the preset filling mode is to adjust the proportion of the preset functional material according to the average rainfall and the rainwater PH value in the history period of the application area.

According to the invention, the filling layer is filled in a preset filling mode, the average rainfall and the PH value of rainwater in the historical period of an application area are considered, the larger the average rainfall is, the higher the proportion of the corresponding material which swells when meeting water in the preset functional material is, and the influence of the PH value of the rainwater on the reaction of the corresponding material which swells when meeting water is considered, so that the fault maintenance efficiency is improved, and the waterproof capability is further improved.

Specifically, in step S2, the preset functional materials include a working material and a protective material, wherein the lower layer of the filling layer is the working material, and the upper layer is the protective material, and the protective material covers the surface of the working material and is located between the working material and the first waterproof layer, and an isolation block for taking out the protective material is arranged on the first waterproof layer;

wherein the protective material is provided with a preparation state, a working state and a working completion state;

the preparation state is the state that the protective material does not absorb water and the isolation block is closed, the working state is the state that the protective material limits the contact of the working material and water and absorbs water, and the working completion state is the state that the isolation block is opened and the protective material absorbs water.

Optionally, the protective material is water material, and the working material is mixture of quicklime and flour;

optionally, the protecting material is quicklime, and the working material is a mixture of potato powder and alum powder;

optionally, the protective material is a PN water-swelling water stop bar, and the working material is a mixture of rubber, inorganic water-absorbing material and high-viscosity tree rubber material;

specifically, in step S4, when the protective material is in a work completion state, detecting the volume of the protective material after the reaction of the protective material by using a laser scanner;

if the volume of the protective material is smaller than or equal to the preset volume, opening the isolation block, taking out the protective material, filling waterproof filler, and sealing the isolation block after filling;

if the volume change is larger than the preset volume, opening the isolation block, taking out the protective material, respectively filling the working material and the waterproof filler with preset areas, and sealing the isolation block after the filling is finished;

the preset volume is related to the initial volume of the protective material.

The protective material is covered on the surface of the working material and is positioned between the working material and the first waterproof layer, and the isolation block for taking out the protective material is arranged on the first waterproof layer, so that the protective material can effectively prevent the working material from contacting with water in the construction process.

Specifically, in step S4, the marking layer is laid on the second waterproof layer and the marking layer includes a normal state and a marking state;

the conventional state is that the marking layer, the first waterproof layer and the second waterproof layer jointly waterproof the layout position;

the marking state is a position of the marking layer for assisting in prompting execution of the expansion water stop alarming action and/or assisting in tracing the position of the fault source when the expansion water stop alarming action is executed by the preset functional material.

Preferably, the elastic modulus of the isolation block on the first waterproof layer is smaller than the elastic modulus of the first waterproof layer and the second waterproof layer, and the elastic modulus of the joint of the marking layer and the isolation block is smaller than the elastic modulus of the isolation block, so that the corresponding position of the marking layer can be effectively deformed when the working material expands.

Preferably, the marking layer assists in tracing the position of the fault source, specifically, tracing the source according to the linear change trend of the deformation quantity when a plurality of waterproof materials expand and deform.

Referring to fig. 3, a schematic structural diagram of a reaction-bonding type wet-laid waterproof coiled material according to an embodiment of the present invention is shown, and optionally, a graphene coating layer is formed on an outer surface of a coating region 6 of a marking layer at a position corresponding to a working material, where the graphene coating layer can display different colors according to deformation, and the different colors correspond to different water seepage amounts.

Specifically, the preset analysis strategy further comprises determining the shape of the filling cavity according to the drainage direction of the corresponding key waterproof position, and for the first waterproof layer and the second waterproof layer in unit area, the position of the filling cavity is in a preset range;

the preset range is a position which is more than a preset distance from each side of the first waterproof layer and the second waterproof layer in a unit area, and the first waterproof layer, the second waterproof layer and the filling layer can be cut according to the shape of the corresponding key waterproof position.

Specifically, in step S3, the top surface of the marking layer is coated with a number of materials including a waterproof material and a paint of a preset color is coated at a position where the marking layer is connected to the spacer of the first waterproof layer.

Optionally, the preset color is any one of yellow, green and red.

The outermost layer of the waterproof material is a marking layer, the marking layer is provided with a marking state, the marking layer assists in prompting the position for executing the expansion water stop alarm action and/or assisting in tracing the position of a fault source when the expansion water stop alarm action is executed by the preset functional material, and the waterproof capability is further improved while the fault maintenance efficiency is improved.

The position that the mark layer links to each other with the spacer of first waterproof layer scribbles the coating of preset colour, can be striking reminds leaking or infiltration, has further improved waterproof ability when having improved trouble maintenance efficiency.

Thus far, the technical solution of the present invention has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present invention is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present invention, and such modifications and substitutions will be within the scope of the present invention.

The foregoing description is only of the preferred embodiments of the invention and is not intended to limit the invention; various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The manufacturing method of the reaction bonding type wet-laid waterproof coiled material is characterized by comprising the following steps of:

step S1, executing a preset analysis strategy, manufacturing a first waterproof layer and a second waterproof layer according to an analysis result, and determining a key waterproof position;

step S2, filling a preset functional material in a preset filling mode in the filling layer;

s3, manufacturing a marking layer connected with the first waterproof layer according to the first waterproof layer;

step S4, sequentially arranging the second waterproof layer, the filling layer, the first waterproof layer and the marking layer at the key waterproof position;

the preset analysis strategy comprises determining the thickness of the filling layer according to the roof drainage gradient and the thicknesses of the first waterproof layer and the second waterproof layer, wherein the preset filling mode is to adjust the proportion of the preset functional materials according to the rainfall and the PH value of the rainwater, and the key waterproof positions are positions and/or a plurality of special-shaped positions which are simulated by a simulator and are used for simulating that when rainfall with the preset rainfall, a plurality of rainfall flows are higher than a rainfall flow threshold and a water accumulation threshold;

the mark layer is arranged at the water leakage position of the second waterproof layer or the water leakage position of the first waterproof layer.

2. The method for manufacturing a reaction-bonded wet-laid waterproof roll according to claim 1, wherein the filling layer performs an expansion water-stop alarm action when the second waterproof layer is water-permeable or the first waterproof layer is water-permeable;

the expansion water stop alarm action is that the preset functional material expands when meeting water and limits the flow of water between the first waterproof layer and the second waterproof layer and/or limits the water penetrating into the second waterproof layer to flow into the first waterproof layer.

3. The method for manufacturing a reaction-bonded wet-laid waterproof roll according to claim 2, wherein the step S1 further comprises:

step S11, preparing a first base material corresponding to the first waterproof layer and a second base material corresponding to the second waterproof layer, and reserving grooves on the bottom surface of the first base material and the top surface of the second base material layer respectively to form a filling cavity for filling the filling layer;

step S12, coating waterproof materials on the top surfaces of the first base material and the second base material;

wherein, when laying waterproofing membrane, the bottom surface of second waterproof layer is connected with the basic unit of construction position.

4. The method of manufacturing a reaction-bonded wet-laid waterproof roll according to claim 3, wherein in the step S1, the preset analysis strategy includes determining the thickness of the filling cavity according to the roof drainage gradient and the thicknesses of the first substrate and the second substrate;

wherein the thickness of the filling cavity is proportional to the thickness of the first substrate and the thickness of the second substrate and inversely proportional to the roof drainage slope.

5. The method of manufacturing a reaction-bonded wet-laid waterproof roll according to claim 4, wherein in the step S2, the preset filling mode is to adjust the proportion of the preset functional material according to the average rainfall and the rainwater PH value in the history period of the application area.

6. The method according to claim 5, wherein in the step S2, the preset functional material includes a working material and a protective material, the lower layer of the filling layer is the working material, the upper layer is the protective material, the protective material covers the surface of the working material and is located between the working material and the first waterproof layer, and a separation block for taking out the protective material is arranged on the first waterproof layer;

wherein the protective material is provided with a preparation state, a working state and a working completion state;

the preparation state is a state that the protective material does not absorb water and the isolation block is closed, the working state is a state that the protective material limits the working material to contact with water and absorb water, and the working completion state is a state that the isolation block is opened and the protective material absorbs water.

7. The method of manufacturing a wet-laid waterproof roll of reaction-bonding type according to claim 6, wherein in the step S4, when the protective material is in the work completion state, the volume of the protective material after the protective material reaction is detected by a laser scanner;

if the volume of the protective material is smaller than or equal to the preset volume, opening the isolation block, taking out the protective material, filling waterproof filler, and sealing the isolation block after filling;

if the volume change is larger than the preset volume, opening the isolation block, taking out the protective material, respectively filling the working material and the waterproof filler with preset areas, and sealing the isolation block after filling is finished;

the preset volume is related to the initial volume of the protective material.

8. The method of producing a reaction-bonded wet-laid waterproof roll according to claim 7, wherein in the step S4, the marking layer is laid on the second waterproof layer and the marking layer includes a normal state and a marking state;

the conventional state is that the marking layer, the first waterproof layer and the second waterproof layer jointly waterproof the layout position;

the marking state is a position for assisting in prompting execution of the expansion water stop alarm action and/or assisting in tracing the position of a fault source when the marking layer executes the expansion water stop alarm action by the preset functional material.

9. The method for manufacturing a reaction-bonded wet-laid waterproof roll according to claim 8, wherein the preset analysis strategy further comprises determining a shape of a filling cavity according to a drainage direction of a corresponding key waterproof position, and the position of the filling cavity is in a preset range for the first waterproof layer and the second waterproof layer of a unit area;

the preset range is a position which is more than a preset distance from each side of the first waterproof layer and the second waterproof layer in a unit area, and the first waterproof layer, the second waterproof layer and the filling layer can be cut according to the shape of the corresponding key waterproof position.

10. The method of manufacturing a wet-laid waterproof roll according to claim 9, wherein in the step S3, the top surface of the marking layer is coated with a plurality of materials including a waterproof material and a paint of a predetermined color is coated at a position where the marking layer is connected to the spacer of the first waterproof layer.