阅读说明：本技术 一种复合土工布生产工艺 (Production process of composite geotextile ) 是由 黄乐基 于 2020-08-06 设计创作，主要内容包括：本发明涉及一种复合土工布生产工艺,主要包括以下步骤：设备检查、布料安装、布料降温和布料收卷,复合土工布冷却传输装置包括安装架、牵引套件和冷却套件,安装架上安装有牵引套件,牵引套件内侧设置有冷却套件,本发明可以解决现有的复合土工布在进行生产时存在的以下问题a：现有的复合土工布在生产出来时,常会出现布料和塑料直接结合不紧密的现象发生,极易发现复合土工布贴合面之间分离的现象,极大的影响产品品质；b：现有的复合土工布在生产出来后本身存在这移动的高温,极易出现员工烫伤的情况发生,存在这一定的安全隐患,且因复合土工布自身温度较高,员工们不能及时对复合土工布进行处理,极大的拖慢了生产效率。(The invention relates to a production process of a composite geotextile, which mainly comprises the following steps: the composite geotextile cooling and conveying device comprises a mounting frame, a traction external member and a cooling external member, wherein the traction external member is mounted on the mounting frame, and the cooling external member is arranged on the inner side of the traction external member. When the existing composite geotextile is produced, the phenomenon that the cloth and the plastic are not tightly combined directly often occurs, the phenomenon that the bonding surfaces of the composite geotextile are separated is easily found, and the product quality is greatly influenced; b: the existing composite geotextile has the moving high temperature after being produced, so that the situation that workers are scalded is easy to occur, certain potential safety hazard exists, and the workers cannot timely treat the composite geotextile due to the fact that the temperature of the composite geotextile is high, and the production efficiency is greatly slowed down.)

1. The utility model provides a compound geotechnological cloth production technology, its has used a compound geotechnological cloth cooling transmission device, and this compound geotechnological cloth cooling transmission device includes mounting bracket (1), pulls external member (2) and cooling external member (3), its characterized in that: the concrete method for producing the composite geotextile by adopting the composite geotextile cooling and conveying device is as follows:

the method comprises the following steps: equipment inspection: before the composite geotextile cooling and conveying device is started to cool and convey the composite geotextile, the operation of the equipment is checked;

step two: cloth installation: the produced composite geotextile is manually installed on a winding roller (25) through a gap between a pulling material fixing rod (22) and a movable sliding rod and a cooling box (33), so that the purpose of installing the geotextile is achieved;

step three: cloth cooling: after the cloth installation operation in the step two is completed, the motor II starts to work, the fan blade plates (32) are driven to work under the action of the rotating shaft sleeve (31) to perform primary cooling treatment on the composite geotextile under the action of air flow, and meanwhile, the cooling box (33) works to perform secondary cooling treatment on the composite geotextile, so that the cloth cooling purpose is achieved;

step four: cloth rolling: after the cloth cooling operation in the third step is completed, the first motor works to drive the winding roller (25) to rotate, so that the cooled composite geotextile is driven to be wound on the winding roller (25), and meanwhile, the cooling sleeve plate (26) on the outer side continuously cools the composite geotextile, so that the cooling effect of the produced composite geotextile is greatly improved, and the purpose of winding the cloth is achieved;

a traction external member (2) is arranged on the mounting frame (1), and a cooling external member (3) is arranged on the inner side of the traction external member (2);

the traction external member (2) comprises a support column (21), a pulling material fixing rod (22), a movable sliding block (23), rolling rods (24), a winding roller (25), a first motor, a cooling sleeve plate (26) and a hand pulling frame (27), wherein the support column (21) is uniformly arranged on the lower end surface of the mounting frame (1) in a welding mode, the pulling material fixing rod (22) is arranged on the mounting frame (1) in a welding mode, the movable sliding block (23) is arranged under the pulling material fixing rod (22), the movable sliding blocks (23) are symmetrically arranged on the mounting frame (1) in a sliding connection mode, the rolling rods (24) are arranged on the inner side of the movable sliding block (23) in a welding mode, the winding roller (25) is arranged at the right end of the rolling rods (24), the winding roller (25) is arranged on the mounting frame (1) in a bearing connection mode, and the winding roller (25) is connected with an output, the first motor is installed on the installation frame (1) through a motor base, a cooling sleeve plate (26) is arranged on the outer side of the winding roller (25), the cooling sleeve plate (26) is installed on the installation frame (1) in a sliding connection mode, and a hand-pulling frame (27) is installed on the cooling sleeve plate (26) in a welding mode;

cooling external member (3) include No. two motors, rotate axle sleeve (31), fan blade board (32) and cooler bin (33), No. two motors pass through the motor cabinet and install on mounting bracket (1) outer wall, install on the output shaft of No. two motors and rotate axle sleeve (31), rotate axle sleeve (31) and go up and evenly install fan blade board (32) through sliding connection's mode along its axial direction, fan blade board (32) right-hand member is provided with cooler bin (33), cooler bin (33) are installed on mounting bracket (1) through the welded mode.

2. The composite geotextile cooling and conveying device of claim 1, wherein: install spring lug (241) through spring coupling's mode on rolling rod (24), lean on spring lug (241) lower terminal surface to have interior line rack (242), interior line rack (242) are installed on rolling rod (24) inner wall through sliding connection's mode, interior line rack (242) outside is provided with roller gear (243) that mutually support and use, the roller gear (243) outside is provided with last pinion rack (244) that mutually supports and use, go up pinion rack (244) and install on rolling rod (24) through sliding connection's mode, go up and install extrusion arc board (245) through the welded mode on pinion rack (244).

3. The composite geotextile cooling and conveying device of claim 1, wherein: cooling lagging (26) cooling lagging (26) are kettle-shaped structure, install double compression roller post (261) through the mode that the bearing is connected on cooling lagging (26), and inside being provided with spiral water pipe (262) of cooling lagging (26), inlet tube (263) are installed through threaded connection's mode to the play water end of spiral water pipe (262) and the end of intaking.

4. The composite geotextile cooling and conveying device of claim 1, wherein: the fan blade plate (32) is uniformly provided with rolling columns (321) in a bearing connection mode, the rolling columns (321) are of a cavity structure, and cooling liquid is filled in the rolling columns (321).

5. The composite geotextile cooling and conveying device of claim 1, wherein: a material passing groove A is formed in the cooling box (33), the material passing groove A is of a two-section structure, a rubber pressing plate (331) is installed on the upper end face and the lower end face of the left side of the material passing groove A in a spring connection mode, a cavity is formed in the lower end of the interior of the cooling box (33), liquid water is filled in the cavity, a cooling shaft roller (332) is evenly installed in the cooling box (33) in a bearing connection mode, the lower end of the cooling shaft roller (332) is located in the cavity of the cooling box (33), a water scraping plate (333) which is matched with the cooling shaft roller (332) for use is arranged on the outer side of the cooling shaft roller (332), the water scraping plate (333) is installed on the cooling box (33) in a rotating connection mode, sliding scraping plates (334) are evenly arranged right above the cooling shaft roller (332), the sliding scraping plates (334) are installed on sliding blocks (335), and the sliding blocks (335, annular slide bar (336) are installed on cooler bin (33) inner wall, and annular slide bar (336) central point department is provided with rotating turret (337), and sliding block (335) are passed in rotating turret (337), and rotating turret (337) are installed on the output shaft of No. three motors, and No. three motors pass through the motor cabinet and install on cooler bin (33) outer wall.

6. The composite geotextile cooling and conveying device of claim 5, wherein: the surface of the cooling shaft roller (332) is uniformly provided with mound-shaped convex blocks, the cooling shaft roller (332) is of a hollow structure, and cooling liquid is filled in the cooling shaft roller (332).

Technical Field

The invention relates to the technical field of production of composite geotextiles, in particular to a production process of a composite geotextile.

Background

The composite geotextile is one of large families of geosynthetics, is widely used in the aspects of highway, railway, water conservancy, large-scale building, ash dam construction of power plants, nonferrous metal tailing treatment, environmental protection engineering, water and soil conservation and the like, has high physical and mechanical property indexes such as tensile strength, tear resistance, bursting and the like, has the characteristics of high strength, better extensibility, large deformation modulus, acid and alkali resistance, corrosion resistance, aging resistance, good seepage-proofing property and the like, can meet the civil engineering requirements of seepage-proofing, isolating, reinforcing, crack-proofing and reinforcing and the like in the construction of water conservancy, municipal administration, building, traffic, subway, tunnel and engineering, can be used in an unconventional temperature environment and is commonly used for the seepage-proofing treatment of dams and drainage ditches and the antifouling treatment of a waste material field because the composite geotextile is made of a high polymer material and the anti-aging agent is added in the production process, and the temperature of the existing composite geotextile is high in, therefore, the conveying and wrapping treatment is carried out after the cooling treatment is carried out, and the steps of equipment inspection, cloth installation, cloth cooling, cloth rolling and the like are usually carried out after the production of the existing composite geotextile is finished.

The prior composite geotextile has the following problems in production: when the existing composite geotextile is produced, the phenomenon that the cloth and the plastic are not tightly combined directly often occurs, the phenomenon that the bonding surfaces of the composite geotextile are separated is easily found, and the product quality is greatly influenced; b: the existing composite geotextile has the moving high temperature after being produced, so that the situation that workers are scalded is easy to occur, certain potential safety hazard exists, and the workers cannot timely treat the composite geotextile due to the fact that the temperature of the composite geotextile is high, and the production efficiency is greatly slowed down.

Disclosure of Invention

In order to solve the problems, the invention provides a composite geotextile production process, which uses a composite geotextile cooling and conveying device and can solve the problems of the composite geotextile during production.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a production process of a composite geotextile mainly comprises the following steps:

the method comprises the following steps: equipment inspection: before the composite geotextile cooling and conveying device is started to cool and convey the composite geotextile, the operation of the equipment is checked;

step two: cloth installation: manually passing the produced composite geotextile through a gap between the pulling material fixing rod and the movable sliding rod and a cooling box to be installed on a winding roller, thereby achieving the purpose of installing the geotextile;

step three: cloth cooling: after the cloth installation operation in the step two is completed, the motor II starts to work, the fan blade plates are driven to work through the action of the rotating shaft sleeve, primary cooling treatment is carried out on the composite geotextile through the air flowing action, and meanwhile, the cooling box works to carry out secondary cooling treatment on the composite geotextile, so that the cloth cooling purpose is achieved;

step four: cloth rolling: after the cloth cooling operation in the third step is completed, the first motor works to drive the winding roller to rotate, so that the cooled composite geotextile is driven to be wound on the winding roller, and meanwhile, the cooling sleeve plate on the outer side continuously cools the composite geotextile, so that the cooling effect of the produced composite geotextile is greatly improved, and the purpose of winding the cloth is achieved;

the composite geotextile cooling and conveying device used in the steps comprises a mounting frame, a traction external member and a cooling external member, wherein the traction external member is mounted on the mounting frame, and the cooling external member is arranged on the inner side of the traction external member.

The traction external member comprises a support column, a pulling material fixing rod, a movable sliding block, a rolling rod, a winding roller, a first motor, a cooling sleeve plate and a hand-pulling frame, wherein the support column is uniformly arranged on the lower end surface of the mounting frame in a welding mode, the pulling material fixing rod is arranged on the mounting frame in a welding mode, the movable sliding block is arranged under the pulling material fixing rod and symmetrically arranged on the mounting frame in a sliding connection mode, the rolling rod is arranged on the inner side of the movable sliding block in a welding mode, the winding roller is arranged at the right end of the rolling rod and arranged on the mounting frame in a bearing connection mode, the winding roller is connected with an output shaft of the first motor, the first motor is arranged on the mounting frame through a motor base, the cooling sleeve plate is arranged on the outer side of the winding roller and arranged on the mounting frame in a sliding connection mode, and the hand-pulling frame is, during operation, the composite geotextile produced by the manual work passes through the material receiving fixing rod and the rolling rod and passes through the cooling sleeve fixed on the winding roller, so that the purpose of cloth installation is achieved, and then the winding roller is driven to rotate through the work of a motor, so that the purpose of cloth winding is achieved.

The cooling external member includes No. two motors, the rotation axle sleeve, fan blade board and cooler bin, No. two motors pass through the motor cabinet and install on the mounting bracket outer wall, install the rotation axle sleeve on the output shaft of No. two motors, evenly install fan blade board along its axial direction on the rotation axle sleeve through sliding connection's mode, fan blade board right-hand member is provided with the cooler bin, the cooler bin is installed on the mounting bracket through the welded mode, No. two motor work drive rotate the axle sleeve and rotate and then drive fan blade board and rotate, blow off cold wind, thereby carry out the first heat dissipation to the compound geotechnological cloth that produces, later compound geotechnological cloth is because of a motor work, move in the cooler bin, cooler bin work carries out the secondary heat dissipation to compound geotechnological cloth, thereby reach the mesh of cloth cooling.

The spring lug is installed through spring coupling's mode on the roll bar, lean on the terminal surface under the spring lug to have the capable rack in, the capable rack in passes through sliding connection's mode and installs on the roll bar inner wall, the capable rack in outside is provided with the rolling gear that mutually supports and use, the rolling gear outside is provided with the last pinion rack that mutually supports and use, go upward the pinion rack and install on the roll bar through sliding connection's mode, go upward and install the extrusion arc board through the welded mode on the pinion rack.

The cooling sleeve plate is of a kettle-shaped structure, the double-pressing roller column is installed on the cooling sleeve plate in a bearing connection mode, the spiral water pipe is arranged inside the cooling sleeve plate, and the water inlet pipe is installed at the water outlet end and the water inlet end of the spiral water pipe in a threaded connection mode.

The fan blade plate is uniformly provided with rolling columns in a bearing connection mode, the rolling columns are of a cavity structure, and cooling liquid is filled in the rolling columns.

The cooling box is provided with a material passing groove A which is of a two-section structure, the upper end face and the lower end face of the left side of the material passing groove A are provided with rubber pressing plates in a spring connection mode, the lower end inside the cooling box is provided with a cavity, liquid water is filled in the cavity, the cooling box is uniformly provided with cooling shaft rollers in a bearing connection mode, the lower ends of the cooling shaft rollers are positioned inside the cavity of the cooling box, the outer side of each cooling shaft roller is provided with a water scraping plate which is matched with the cooling shaft rollers for use, the water scraping plate is arranged on the cooling box in a rotation connection mode, sliding scraping plates are uniformly arranged right above the cooling shaft rollers and are arranged on sliding blocks, the sliding blocks are arranged on annular sliding rods in a sliding connection mode, the annular sliding rods are arranged on the inner wall of the cooling box, a rotating frame is arranged at the central position of the annular sliding rods, and the third motor is arranged on the outer wall of the cooling box through a motor base.

The cooling beam barrel surface evenly is provided with hilly lug, and the cooling beam barrel is hollow structure, and cooling beam barrel is inside to be filled with the coolant liquid.

1. The invention can solve the following problems in the production of the existing composite geotextile: a: when the existing composite geotextile is produced, the phenomenon that the cloth and the plastic are not tightly combined directly often occurs, the phenomenon that the bonding surfaces of the composite geotextile are separated is easily found, and the product quality is greatly influenced; b: the existing composite geotextile has the moving high temperature after being produced, so that the situation that workers are scalded is easy to occur, certain potential safety hazard exists, and the workers cannot timely treat the composite geotextile due to the fact that the temperature of the composite geotextile is high, and the production efficiency is greatly slowed down.

2. According to the invention, a traction external member is designed, the composite geotextile manually penetrates through the pulling fixing rod and the rolling rod and is installed on the winding roller, the rolling rod is driven to roll due to friction under the action of a motor, meanwhile, the spring soil block is driven to move towards the inner side due to the extrusion action, the inner-going rack is driven to move, the upper toothed plate is driven to move upwards through gear meshing, the extrusion protecting plate is driven to extrude the lower surface of the composite geotextile, and the pulling fixing rod action and the double-sided extrusion action are matched, so that the composite geotextile is combined more closely, and the quality of the composite geotextile is improved.

3. According to the invention, the cooling external member is designed, the motor II works to drive the rotating shaft sleeve to rotate, and further the fan blade plate is driven to rotate, so that cold air is blown out through air flow, the produced composite geotextile is subjected to primary heat dissipation, then the composite geotextile works due to the motor I and moves in the cooling box, the cooling box works to perform secondary heat dissipation on the composite geotextile, and therefore the purpose of cloth cooling is achieved, the phenomenon that workers are scalded due to overhigh temperature of the produced composite geotextile is greatly avoided, the safety during production is improved, the operation is convenient at low temperature, and the production efficiency is greatly improved.

Drawings

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

FIG. 1 is a flow chart of the operation of the present invention;

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

FIG. 3 is a side view of a schematic of the structure of the present invention;

FIG. 4 is a top view of a schematic of the structure of the present invention;

FIG. 5 is a schematic cross-sectional view A-A of FIG. 3 of the present invention;

FIG. 6 is an enlarged schematic view of region A of FIG. 3 of the present invention;

FIG. 7 is a schematic cross-sectional view of the roll bar of the present invention;

FIG. 8 is a schematic cross-sectional view of a cooling jacket plate of the present invention;

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 8, a production process of a composite geotextile mainly comprises the following steps:

the method comprises the following steps: equipment inspection: before the composite geotextile cooling and conveying device is started to cool and convey the composite geotextile, the operation of the equipment is checked;

step two: cloth installation: the produced composite geotextile passes through the gap between the pulling material fixing rod 22 and the movable sliding rod and passes through the cooling box 33 to be installed on the wind-up roll 25, so that the purpose of installing the geotextile is achieved;

step three: cloth cooling: after the cloth installation operation in the step two is completed, the motor II starts to work, the fan blade plates 32 are driven to work through the action of the rotating shaft sleeve 31, primary cooling treatment is carried out on the composite geotextile through the air flowing action, and meanwhile, the cooling box 33 works to carry out secondary cooling treatment on the composite geotextile, so that the cloth cooling purpose is achieved;

step four: cloth rolling: after the cloth cooling operation in the third step is completed, the first motor works to drive the winding roller 25 to rotate, so that the cooled composite geotextile is driven to be wound on the winding roller 25, and meanwhile, the cooling sleeve plate 26 on the outer side continuously cools the composite geotextile, so that the cooling effect of the produced composite geotextile is greatly improved, and the purpose of cloth winding is achieved;

the composite geotextile cooling and conveying device used in the steps comprises an installation frame 1, a traction sleeve 2 and a cooling sleeve 3, wherein the traction sleeve 2 is installed on the installation frame 1, and the cooling sleeve 3 is arranged on the inner side of the traction sleeve 2.

The traction kit 2 comprises a support column 21, a material pulling fixing rod 22, a movable sliding block 23, a rolling rod 24, a winding roller 25, a first motor, a cooling sleeve plate 26 and a hand pulling frame 27, wherein the support column 21 is uniformly installed on the lower end surface of the installation frame 1 in a welding mode, the material pulling fixing rod 22 is installed on the installation frame 1 in a welding mode, the movable sliding block 23 is arranged under the material pulling fixing rod 22, the movable sliding blocks 23 are symmetrically installed on the installation frame 1 in a sliding connection mode, the rolling rod 24 is installed on the inner side of each movable sliding block 23 in a welding mode, the winding roller 25 is arranged at the right end of each rolling rod 24, the winding roller 25 is installed on the installation frame 1 in a bearing connection mode, the winding roller 25 is connected with an output shaft of the first motor together, the first motor is installed on the installation frame 1 through a motor base, the cooling sleeve plate 26 is arranged on the outer side of the winding roller 25, install hand-pulling frame 27 through the welded mode on the cooling lagging 26, concrete during operation, artifical composite geotechnological cloth that will produce passes and draws material dead lever 22 and rolling rod 24 to pass cooling kit 3 and install on wind-up roll 25, thereby reach the purpose of cloth installation, later a motor work, drive composite geotechnological cloth and pass through cooling kit 3 and roll up on wind-up roll 25, thereby reach the purpose of cloth rolling, cooling lagging 26 work when the rolling, cool down the processing to the composite geotechnological cloth after the rolling.

The spring convex block 241 is installed on the rolling rod 24 in a spring connection mode, the lower end face of the spring convex block 241 is abutted against the inner rack 242, the inner rack 242 is installed on the inner wall of the rolling rod 24 in a sliding connection mode, the outer side of the inner rack 242 is provided with a rolling gear 243 which is matched with each other for use, the outer side of the rolling gear 243 is provided with an upper toothed plate 244 which is matched with each other for use, the upper toothed plate 244 is installed on the rolling rod 24 in a sliding connection mode, the upper toothed plate 244 is provided with an extrusion arc plate 245 in a welding mode, during specific work, when the composite geotextile moves under the action of a single motor, the rolling rod 24 is driven to roll under the action of friction force, and meanwhile, the spring soil block 241 is driven to move inwards to drive the inner rack 242 to, thereby drive the motion of roll gear 243, and then drive the upward motion of going toothed plate 244, drive extrusion backplate 245 extrusion composite geotechnological cloth lower surface, the cooperation draws the effect of material dead lever 22, the two-sided extrusion effect of form to make the inseparabler that combines between the composite geotechnological cloth, and then improved the quality of composite geotechnological cloth.

Cooling jacket board 26 is kettle-shaped structure, install repressing roller 261 through the mode of bearing connection on the cooling jacket board 26, cooling jacket board 26 is inside to be provided with spiral water pipe 262, inlet tube 263 is installed through threaded connection's mode to the play water end of spiral water pipe 262 and the end of intaking, concrete during operation, when working because of a motor, drive wind-up roll 25 and rotate, the compound geotechnological cloth of rolling, compound geotechnological cloth passes through cooling jacket board 26 before the rolling, thereby repressing roller 261 effect on the cooling jacket board 26, carry out the secondary extrusion to compound geotechnological cloth, thereby improve the associativity between the compound geotechnological cloth, inlet tube 263 leads to water simultaneously, form in the inside spiral water pipe 262 of cooling jacket board 26 and flow, thereby reach the cooling effect, and then reach the purpose of cooling for compound geotechnological board.

The cooling external member 3 comprises a second motor, a rotating shaft sleeve 31, a fan blade plate 32 and a cooling box 33, the second motor is arranged on the outer wall of the mounting frame 1 through a motor base, the rotating shaft sleeve 31 is arranged on an output shaft of the second motor, the fan blade plate 32 is uniformly arranged on the rotating shaft sleeve 31 along the axial direction in a sliding connection mode, the cooling box 33 is arranged at the right end of the fan blade plate 32, the cooling box 33 is arranged on the mounting frame 1 in a welding mode, when the cooling external member works, the second motor works to drive the rotating shaft sleeve 31 to rotate, and then the fan blade plate 32 is driven to rotate, so that cold air is blown out through air flow, the produced composite geotextile is subjected to primary heat dissipation, and then the composite geotextile works due to the operation of a first motor, move in the cooling box 33, and the cooling box 22 works to carry out secondary heat dissipation on the composite geotextile, thereby achieving the purpose of cloth cooling.

Rolling post 321 is evenly installed through the mode that the bearing is connected on the fan leaf board 32, and rolling post 321 is the cavity structure, and the inside packing of rolling post 321 has the coolant liquid, and concrete during operation, fan leaf board 32 rotates because of No. two motor effects, and then blows out cold wind, has the coolant liquid because of filling in fan leaf board 32 for have air conditioning in the air, very big improvement the cooling effect of compound geotechnological cloth.

The cooling box 33 is provided with a material passing groove A which is of a two-section structure, the upper end face and the lower end face of the left side of the material passing groove A are provided with rubber pressing plates 331 in a spring connection mode, the lower end inside the cooling box 33 is provided with a cavity, liquid water is filled in the cavity, the cooling box 33 is uniformly provided with cooling shaft rollers 332 in a bearing connection mode, the lower ends of the cooling shaft rollers 332 are positioned inside the cavity of the cooling box 33, the outer side of the cooling shaft rollers 332 is provided with water scraping plates 333 which are matched with the cooling shaft rollers 332 for use, the water scraping plates 333 are arranged on the cooling box 33 in a rotating connection mode, sliding scraping plates 334 are uniformly arranged right above the cooling shaft rollers 332, the sliding scraping plates 334 are arranged on sliding blocks 335, the sliding blocks 335 are arranged on annular sliding rods 336 in a sliding connection mode, the annular sliding rods 336 are arranged on the inner wall of the cooling box, the rotating frame 337 penetrates the sliding block 335, the rotating frame 337 is mounted on the output shaft of the third motor, the third motor is mounted on the outer wall of the cooling box 33 through a motor base, when the composite geotextile is conveyed in the cooling box 33 under the action of the first motor during specific work, secondary extrusion on the composite geotextile is realized under the action of the rubber pressing plate 331 at the front end of the cooling box 33, the binding property between the composite geotextile is greatly improved, meanwhile, when the composite geotextile is conveyed in the cooling box 33, the cooling shaft roller 332 is driven to rotate under the action of friction force and contacts with the cooling liquid at the lower end, meanwhile, the water scraping plate 333 is used for scraping the redundant cooling liquid on the surface of the cooling shaft roller, so that the secondary cooling effect is achieved during the transportation of the composite geotextile, and the third motor is used for driving the rotating frame 337 to move, so as to drive the sliding block 335 to move on the annular sliding rod 336, thereby driving the sliding scraper 334 to move on the surface of the composite geotextile, thereby achieving the purposes of pulling the composite geotextile and preventing the occurrence of material blocking.

Cooling beam barrel 332 surface evenly is provided with hillock form lug, cooling beam barrel 332 is hollow structure, cooling beam barrel 332 inside packing has the coolant liquid, specific during operation, cooling beam barrel 332 moves because of compound geotechnological cloth frictional force effect, the hillock form lug on cooling beam barrel 332 surface has increased and compound geotechnological cloth between the friction effect, the phenomenon of preventing skidding takes place, cooling beam barrel 332 inside packing has the coolant liquid simultaneously, very big increase compound geotechnological cloth's cooling effect, cold cut speed has been promoted.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.