CN115475734A - Waterproof coiled material and processing method thereof - Google Patents

Abstract

The invention relates to the field of waterproof coiled materials, in particular to a waterproof coiled material and a processing method thereof, wherein the waterproof coiled material comprises the following raw materials in parts by weight: 30-40 parts of asphalt, 3-5 parts of base oil, 25-30 parts of SBS rubber, 2-5 parts of polypropylene particles and 15-20 parts of talcum powder; the method comprises the following steps: s1, weighing raw materials in proportion; s2, putting the prepared asphalt into a reaction kettle, and heating to melt; s3, adding the rest raw materials into a reaction kettle, and fully mixing and stirring the mixture with asphalt to obtain an asphalt matrix; s4, coating the asphalt matrix on two side surfaces of the polyester tire base by using a processing device to obtain a waterproof coiled material; the processing device comprises two supporting leg frames used for supporting on the ground, and two supporting transverse columns fixed between the two supporting leg frames, wherein each supporting transverse column is connected with two connecting seats.

Description

Waterproof coiled material and processing method thereof

Technical Field

The invention relates to the field of waterproof coiled materials, in particular to a waterproof coiled material and a processing method thereof.

Background

The waterproof coiled material is mainly used for building walls, roofs, tunnels, highways, refuse landfills and other places. It is a flexible building material product that can be rolled up into rolls to resist the leakage of external rain and groundwater. As a leakage-free connection between an engineering foundation and a building, the waterproof material is a first barrier for waterproofing the whole engineering and plays a vital role in the whole engineering.

When the waterproof coiled material is processed, the existing processing method generally coats asphalt on one side of the base and then coats asphalt on the other side of the base, and the processing efficiency is low.

Disclosure of Invention

The invention aims to provide a waterproof coiled material and a processing method thereof, which can coat asphalt on two sides of a tire base simultaneously by using a processing device, thereby improving the processing efficiency.

The purpose of the invention is realized by the following technical scheme:

a waterproof roll processing method comprises the following steps:

s1, weighing raw materials in proportion;

s2, putting the prepared asphalt into a reaction kettle, and heating to melt;

s3, adding the rest raw materials into a reaction kettle, and fully mixing and stirring the mixture with asphalt to obtain an asphalt matrix;

and S4, coating the asphalt matrix on two side surfaces of the polyester tire base by using a processing device to obtain the waterproof roll.

The processing device comprises two supporting leg frames used for supporting the ground and two supporting transverse columns fixed between the two supporting leg frames, wherein each supporting transverse column is connected with two connecting seats, a center frame is connected between the two connecting seats on the same side, and two coating pipes are rotated on the two center frames.

Two-way screw rods are rotated between the two supporting leg frames, each two-way screw rod is in threaded connection with the two connecting seats on the same side, and the two-way screw rods are in transmission connection.

The waterproof coiled material processed by the waterproof coiled material processing method comprises the following raw materials in parts by weight: 30-40 parts of asphalt, 3-5 parts of base oil, 25-30 parts of SBS rubber, 2-5 parts of polypropylene particles and 15-20 parts of talcum powder.

Drawings

FIG. 1 is a schematic flow chart of a method for processing a waterproof roll;

fig. 2 and 3 are schematic views of the overall structure of the processing apparatus;

FIG. 4 is a schematic structural view of the leg rest;

FIG. 5 is a partial schematic view of the processing apparatus;

FIG. 6 is a schematic view of the structure of the cooling box;

FIG. 7 is a cross-sectional structural view of the cooling tank;

FIG. 8 is a schematic view of an embodiment of the adjustment of two collection tanks;

FIG. 9 is a schematic view of the structure of the collection tank;

FIG. 10 is a schematic view of the structure of a power roller;

fig. 11 is a schematic structural view of the elastic mechanism.

In the figure:

a leg rest 101; a support cross-post 102; a cross post 103; a bidirectional screw 104;

a pressure pipe 201; a cooling tank 202; a mounting ring 203; a connecting base 204; a communicating pipe 205;

a cutter 301; a collection bin 302; a bidirectional screw II 303;

a support shaft 401; a rubber roller 402; a support arm plate 403; a power shaft 404; a power roller 405;

a slider 501; a collar 502; a spring 503.

Detailed Description

As shown in fig. 1:

a waterproof roll processing method comprises the following steps:

s1, weighing raw materials in proportion;

s2, putting the prepared asphalt into a reaction kettle, and heating to melt;

s3, adding the rest raw materials into a reaction kettle, and fully mixing and stirring the mixture with asphalt to obtain an asphalt matrix;

and S4, coating the asphalt matrix on two side surfaces of the polyester tire base by using a processing device to obtain the waterproof roll.

As shown in fig. 2-11:

the processing device comprises a supporting leg frame 101, a supporting cross column 102, a coating pipe 201 and a connecting seat 204; two supporting leg frames 101 are used for supporting on the ground, two supporting cross columns 102 are fixed between the two supporting leg frames 101, each supporting cross column 102 is connected with two connecting seats 204, a center frame is connected between the two connecting seats 204 on the same side, and the two coating pipes 201 rotate on the two center frames respectively.

Because the coating pipes 201 are round pipes, an arc-shaped groove is formed between the two coating pipes 201, after the polyester tire base is vertically sent between the two coating pipes 201, the polyester tire base divides the arc-shaped groove formed by the two coating pipes 201 into two parts, then the asphalt matrix is added into the groove between the polyester tire base and the coating pipes 201, the polyester tire base is pulled downwards and the two coating pipes 201 are driven oppositely to rotate, along with the continuous downward movement of the polyester tire base, the rotating coating pipes 201 roll the asphalt matrix in the groove on the two side surfaces of the polyester tire base, so that the two side surfaces of the polyester tire base are continuously coated, and the waterproof coiled material is obtained below the two coating pipes 201.

As shown in fig. 2-11:

the two bidirectional screws 104 rotate between the two leg supports 101, the two connecting seats 204 on the same side are in threaded connection with two ends of one of the bidirectional screws 104, and the two bidirectional screws 104 are in transmission connection.

Through the transmission setting of two-way screw rods 104, rotate one of them two-way screw rod 104, another two-way screw rod 104 syntropy rotates to simultaneously to four connecting seats 204 screw transmission, make four connecting seats 204 drive two centre rests and be close to simultaneously or keep away from the removal, then make two pressure pipes 201 be close to simultaneously or keep away from the removal, thereby adjust the interval of two pressure pipes 201, then reach the regulation to coating pitch base member thickness.

As shown in fig. 2-11:

the steady rest comprises a cooling box 202 and a mounting ring 203; both ends of the cooling box 202 are connected to two connecting seats 204, respectively, and two mounting rings 203 are fixed to both ends of the cooling box 202, respectively.

A cavity is arranged in the cooling box 202 and is used for containing cooling liquid so as to cool the coating pipe 201 which is in contact with the cooling box 202; the cooling box 202 is arranged at the side wall of the coating position with the coating pipes 201, so that the cooling box 202 is formed to cool the asphalt matrix at the coating position, after the asphalt matrix is coated on the polyester base, the asphalt matrix is cooled by the cooling box 202 to be fixed on the polyester base, and therefore the waterproof coiled material is directly obtained below the two coating pipes 201; thereby achieving the purpose of cooling and forming while coating;

meanwhile, the cooling box 202 cools the asphalt matrix at the coating position through the pressure pipe 201, that is, the temperature of the pressure pipe 201 at the coating position is lower than that of the asphalt matrix at the coating position, so that the asphalt matrix coated on the polyester tire base can be separated from the outer side surface of the pressure pipe 201 efficiently, and the asphalt matrix is prevented from being continuously retained on the pressure pipe 201;

wherein both ends of the paint pipe 201 are respectively rotated on the two mounting rings 203.

Further:

two communication pipes 205 are provided at both ends of the cooling tank 202, respectively.

By providing the communication pipe 205, the communication pipe can be communicated with the coolant circulation pump, thereby circulating the coolant in the cooling tank 202, ensuring the cooling temperature of the cooling tank 202, and improving the cooling efficiency.

As shown in fig. 2-11:

supporting shafts 401 are respectively and rotatably arranged on two mounting rings 203 in the same coating tube 201, arm plates 403 are respectively and rotatably arranged at two ends of each supporting shaft 401, power shafts 404 are respectively and rotatably arranged at the lower ends of the two arm plates 403 connected to the same supporting shaft 401, power rollers 405 are fixed on the power shafts 404, and elastic mechanisms are connected between the arm plates 403 and the corresponding leg supports 101 to enable the two power rollers 405 to be mutually abutted.

After passing through the polyester tire base coated with the asphalt matrix, a waterproof coiled material is obtained below the two coating pipes 201, and after penetrating through the space between the two power rollers 405, the two power rollers 405 clamp the waterproof coiled material through the elasticity of the two elastic mechanisms;

the driving motor installed on the arm supporting plate 403 drives the power shafts 404, so that the two power shafts 404 drive the two power rollers 405 to rotate oppositely, thereby forming downward pulling on the waterproof coiled material, and further forming downward pulling on the polyester tire base.

As shown in fig. 2-11:

the elastic mechanism comprises a sliding block 501, a collar 502 and a spring 503, wherein the sliding block 501 slides on the arm plate 403, the collar 502 rotates on the sliding block 501, the collar 502 is in sliding connection with the corresponding support cross column 102, and the spring 503 is arranged between the collar 502 and the corresponding support leg 101.

Through the elasticity of the spring 503, the two lantern rings 502 are pushed to approach the supporting transverse column 102, and then the two sliding blocks 501 are driven to approach each other, so that the two supporting arm plates 403 approach and rotate by taking the two supporting shafts 401 as axes, and the two power rollers 405 are driven to tightly abut against each other, so that the waterproof coiled material is clamped, the waterproof coiled material drives the polyester tire base to be always in a tensioning state, the coating is facilitated, and meanwhile, the polyester tire base is ensured to be positioned in the centers of the two coating pipes 201, so that the thickness of the asphalt base coated on the two sides of the polyester tire base is ensured to be the same;

wherein, the arm supporting plate 403 is provided with a long hole for the sliding of the sliding block 501.

As shown in fig. 2-11:

the rubber roller 402 is fixed on the supporting shaft 401, the rubber roller 402 is contacted with the inner wall of the coating pipe 201, and the power shaft 404 at the same side is in transmission connection with the supporting shaft 401.

When two driving motor transmission two power rollers 405 opposite direction rotated, two back shaft 401 of transmission through two power shafts 404 simultaneously on collar 203 opposite direction rotated, drive two rubber roller 402 opposite direction rotations then, through rubber roller 402 and the contact of daubing pipe 201 inner wall to form the transmission to two daubing pipes 201, make two daubing pipes 201 opposite direction rotations, improve the coating efficiency to the polyester child base.

As shown in fig. 2-11:

the spreader 103 is fixed between two support spreaders 102, and two collecting box 302 symmetries slide on the spreader 103, and two-way screw II 303 rotates between two support spreaders 102, and two-way screw II 303 and two collecting box 302 threaded connection all are equipped with cutter 301 on two collecting box 302 inside walls that are located the below between two pressure pipes 201.

The two collecting boxes 302 are installed through the transverse arrangement of the transverse column 103 and the bidirectional screw II 303, so that the two collecting boxes 302 are both positioned below the two coating pipes 201;

the cutting of the edge of the formed waterproof coiled material is formed through the cutters 301 on the inner side walls, close to each other, of the two collecting boxes 302, so that the edge of the waterproof coiled material is clean and tidy, meanwhile, the two collecting boxes 302 can be simultaneously in threaded transmission through the rotation of the two-way screw II 303, the two collecting boxes 302 are close to or far away from each other, then the distance between the two cutters 301 is adjusted, and the width of the waterproof coiled material is adjusted;

when two coating pipes 201 are coated, in order to ensure that the polyester base can be fully coated with the asphalt base, the asphalt base at the two ends of the polyester base is rolled into asphalt plates by the two coating pipes 201, so that the asphalt plates at the two ends of the polyester base can be cut off by the arrangement of the cutter 301, and are recovered by the two collection boxes 302 so as to be reused.

Wherein the lower extreme of two collecting box 302 sets up for the slope to make the asphalt sheet can slide down in the lower extreme of collecting box 302 is automatic, thereby concentrate at the lower extreme opening part of two collecting box 302 and collect, improve collection efficiency.

The waterproof roll processed by the waterproof roll processing method comprises the following raw materials in parts by weight: 30-40 parts of asphalt, 3-5 parts of base oil, 25-30 parts of SBS rubber, 2-5 parts of polypropylene particles and 15-20 parts of talcum powder.

Claims (10)

1. A waterproof roll processing method is characterized in that: the method comprises the following steps:

s1, weighing raw materials in proportion;

s2, putting the prepared asphalt into a reaction kettle, and heating to melt;

s3, adding the rest raw materials into a reaction kettle, and fully mixing and stirring the mixture with asphalt to obtain an asphalt matrix;

and S4, simultaneously coating the asphalt matrix on two side surfaces of the polyester matrix by using a processing device to obtain the waterproof roll.

2. The waterproof roll processing method according to claim 1, characterized in that: the processing device comprises two supporting leg frames (101) used for being supported on the ground and two supporting transverse columns (102) fixed between the two supporting leg frames (101), wherein each supporting transverse column (102) is connected with two connecting seats (204), a center frame is connected between the two connecting seats (204) on the same side, and two coating pipes (201) are rotated on the two center frames.

3. The waterproof roll processing method according to claim 2, characterized in that: two-way screw rods (104) are arranged between the two leg supports (101) in a rotating mode, each two-way screw rod (104) is in threaded connection with the two connecting seats (204) on the same side, and the two-way screw rods (104) are in transmission connection.

4. A waterproof roll processing method according to claim 2, characterized in that: the center frame comprises a cooling box (202) and two mounting rings (203), wherein the two ends of the cooling box (202) are respectively connected to two connecting seats (204), and the two mounting rings (203) are fixed at the two ends of the cooling box (202).

5. The waterproof roll processing method according to claim 4, characterized in that: and both ends of the cooling box (202) are provided with communicating pipes (205).

6. The waterproof roll processing method according to claim 4, characterized in that: supporting shafts (401) are rotated on two mounting rings (203) positioned in the same coating pipe (201), support arm plates (403) are rotated at two ends of each supporting shaft (401), power shafts (404) are rotated at the lower ends of the two support arm plates (403), power rollers (405) are fixed on the power shafts (404), and elastic mechanisms are arranged between the support arm plates (403) and the support leg frames (101) on the corresponding sides to enable the two power rollers (405) to be mutually propped tightly.

7. The waterproof roll processing method according to claim 6, characterized in that: the elastic mechanism comprises a sliding block (501) sliding on the support arm plate (403), a lantern ring (502) is rotatably arranged on the sliding block (501), the lantern ring (502) slides on the corresponding support cross column (102), and a spring (503) is arranged between the lantern ring (502) and the corresponding support leg frame (101).

8. The waterproof roll processing method according to claim 6, characterized in that: the supporting shaft (401) is fixedly provided with a rubber roller (402), the rubber roller (402) is in contact with the inner wall of the coating pipe (201), and the power shaft (404) on the same side is in transmission connection with the supporting shaft (401).

9. The waterproof roll processing method according to claim 8, characterized in that: be fixed with between two support spreader (102) spreader (103), the symmetry slides on spreader (103) has two collecting box (302), rotates between two support spreaders (102) and has two-way screw rod II (303), two-way screw rod II (303) and two collecting box (302) threaded connection, all are equipped with cutter (301) on two collecting box (302) inside walls that are located the below between two coating pipe (201).

10. The waterproofing membrane processed by the waterproofing membrane processing method according to claim 1, characterized in that: the waterproof roll comprises the following raw materials in parts by weight: 30-40 parts of asphalt, 3-5 parts of base oil, 25-30 parts of SBS rubber, 2-5 parts of polypropylene particles and 15-20 parts of talcum powder.

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