CN114453189A - Automatic extrusion composite molding process and molding device for waterproof coiled material - Google Patents

Abstract

The invention discloses an automatic extrusion composite molding process and a molding device for a waterproof coiled material. The asphalt conveying device is characterized in that a base capable of containing asphalt is arranged, a blocking part capable of blocking the asphalt is movably inserted and connected to the bottom of an inner cavity of the base, two anti-seepage parts capable of containing the asphalt are arranged on two outer sides of the base, and a sealing cover, an air pipe and an elastic plug cushion which are arranged on the top of the base are combined to realize siphon states of the asphalt in the base and the anti-seepage parts, so that the asphalt in the inner cavity of the base cannot be leaked from the insides of the two anti-seepage parts, and the slurry scraping mechanism is combined to integrally convey an inclined conveying tire body film belt and scrape and rub excessive asphalt, and accordingly the structure can treat the excessive asphalt on the tire body in a conveying state.

Description

Automatic extrusion composite molding process and molding device for waterproof coiled material

Technical Field

The invention relates to the technical field of waterproof coiled material production, in particular to an automatic extrusion composite molding process and a molding device for a waterproof coiled material.

Background

The waterproof coiled material is mainly used for treating building walls, roofs, tunnels, highways, refuse landfills and the like, can be curled into a roll-shaped flexible building material product for resisting external rainwater and underground water leakage, is used as a leakage-free connection between an engineering foundation and a building, is a waterproof first barrier of the whole engineering, and plays a vital role in the whole engineering.

One of them adopts pitch class or macromolecule class waterproof material to impregnate on the matrix, make waterproof material's product, and adopt pitch class waterproof material to carry out the flooding link to the matrix, the matrix passes through the transmission and the traction of a plurality of smooth rollers and finally submerges in the pond full of pitch in succession, but the matrix is led to the outside after from being full of in the pond of pitch, the pitch that is stained with in the matrix outside can receive gravity and the transmission of matrix to appear drippage in a large number, the seepage.

According to the above, how to solve the technical problem that the excessive asphalt is dropped or leaked out of the asphalt pool when the tire body passes through the asphalt pool and the tire body is reduced under the driving action is the technical difficulty to be solved by the invention.

Disclosure of Invention

The present invention has been made to solve one of the technical problems occurring in the prior art or the related art.

Therefore, the technical scheme adopted by the invention is as follows:

the automatic extrusion composite molding process and the molding device of the waterproof coiled material comprise a bearing base, a guide mechanism, a stock mechanism, a stability increasing mechanism, a slurry backflow mechanism and a slurry scraping mechanism, wherein a cavity is arranged in the bearing base, the guide mechanism is arranged outside the bearing base, the guide mechanism comprises an input part for dragging a matrix membrane strip, a derivation part, a traction part respectively arranged outside the derivation part, the stock mechanism arranged in the input part bearing base, the stock mechanism comprises a membrane strip pressure increasing part arranged in the cavity, anti-seepage parts connected to two sides outside the membrane strip pressure increasing part and a separation part movably arranged inside the membrane strip pressure increasing part, the membrane strip pressure increasing part comprises a base, a main limiting groove and an auxiliary part which are arranged in the base, a compression roller and a rotating shaft which are movably arranged in the main limiting groove, and the stability increasing mechanism arranged on the stock mechanism, and increase steady mechanism including connecting the sealed lid at base top, installing sealed trachea on covering and place in trachea inner chamber's elasticity stopper pad is installed thick liquids backward flow mechanism in the stock mechanism, and thick liquids backward flow mechanism is including installing inside safe pipe, mobile installation of base the inside transfer line of safe pipe and interior axle, mobile installation be in the upright section of thick bamboo and the mobile installation of safe socle portion are in the inside screw axis of upright section of thick bamboo, connect in thick liquids scratch mechanism on the thick liquids backward flow mechanism, and thick liquids scratch mechanism is including installing one the outside membrane area holder of prevention of seepage part and installing the outside thick liquids of membrane area holder strike off the piece, and the membrane area holder is including placing the inside frame of leading out the piece in and installing the inboard anchor clamps of frame, thick liquids strike off the piece including connecting the dustcoat, the place of frame outer end, The rotary rod is arranged in the outer cover, and the scraper, the trowelling piece and the rotary roller are movably arranged in the outer cover.

Through adopting above-mentioned technical scheme, it is inside with matrix membrane area compaction conduction to the base in advance to utilize the rotation of control rotation axis in main spacing inslot portion, exert decurrent thrust to the compression roller, the compression roller can compress tightly matrix membrane area in the bottom of base inner chamber this moment, it is inside to insert the base with the separation piece again after that, make the matrix membrane area that is compressed tightly be located the separation piece under, then run through matrix membrane area to membrane area holder and thick liquids strike off the piece in again, make the anchor clamps centre gripping in the both sides edge position of matrix membrane area, make matrix membrane area be in unsettled state can.

The present invention in a preferred example may be further configured to: the inside movable roller that installs of derivation piece, and the inside roller that slides of derivation piece is located under the dustcoat outer end notch.

By adopting the technical scheme, the inner cavity of the leading-out part is movably provided with the slide roller positioned right below the opening at the outer end of the outer cover, and after the carcass film belt wrapped with the processed slurry is conducted to the slide roller, the slurry scraped at the bottom surface of the carcass film belt can be compacted by the slide roller at the position.

The present invention in a preferred example may be further configured to: the input piece internally mounted has two sets of compression rollers that are the slope state and distribute, and the crack that forms between two sets of compression rollers is the symmetric distribution with input piece both sides notch.

Through adopting above-mentioned technical scheme, utilize the inner chamber movable mounting of input piece two sets of compression rollers, combine the location and the restriction of two sets of inclined state's compression roller to matrix membrane area to this can make matrix membrane area receive behind the thick liquids parcel can obtain effectual support.

The present invention in a preferred example may be further configured to: two arc bulges are arranged at the bottom end of the inner cavity of the base, and arc sliding grooves matched with the blocking pieces are formed in the arc bulges.

Through adopting above-mentioned technical scheme, utilize at the protruding interior movable mounting separation piece of chemistry of base inner chamber bottom, combine the control of separation piece to base inner chamber bottom clearance to this volume that can make thick liquids flow in to two dovetail grooves.

The present invention in a preferred example may be further configured to: two trapezoidal grooves protruding outwards are formed in the two sides of the bottom of the base, and the top of each trapezoidal groove is provided with a notch adaptive to the circular air hood at the bottom end of the air pipe.

Through adopting above-mentioned technical scheme, utilize and set up outside bellied dovetail groove in the both sides of base bottom, combine dovetail groove to further dredge the amount of thick liquids to this can make the parcel can flow back to base inside fast after the unnecessary thick liquids of matrix membrane area are struck off.

The present invention in a preferred example may be further configured to: the elastic plug pad is formed by combining a circular pad piece, a spring and a solid pad piece, and the solid pad piece is positioned in the trapezoidal groove.

Through adopting above-mentioned technical scheme, utilize the inner chamber of trachea top and bottom installs ring shape pad respectively to installation spring between ring shape pad and solid pad, so as to make inside and its bottom dovetail groove thick liquids of base can maintain stable condition, avoid the seepage of thick liquids.

The present invention in a preferred example may be further configured to: two gears are installed at one end, far away from the base, of the transmission rod, and a gear located at the outer end of the transmission rod is connected to a motor at the top of the guide-out piece through chain transmission.

Through adopting above-mentioned technical scheme, utilize the gear that two punishments of installation connect motor and respectively at the outer end of transfer line to make things convenient for this mechanism to use the whole continuity of time quota.

The present invention in a preferred example may be further configured to: cylindrical transverse holes which are symmetrically distributed are formed in the two sides of the top of the vertical cylinder, and the height of the cylindrical transverse holes in the vertical cylinder is flush with the height of a rotating disc at the top of the spiral shaft.

Through adopting above-mentioned technical scheme, utilize and set up cylindrical cross bore opposite direction and upwards surge the mediation of thick liquids in the both sides at upright section of thick bamboo top to this can make the thick liquids that are located the base inside can carry out the inner loop and surge, avoids the solidification of surface thick liquids.

The present invention in a preferred example may be further configured to: the fixture comprises semi-cylindrical fixture blocks, sub-rods, a female rod and a spring, and a crack for restraining the carcass membrane strip is formed between every two adjacent semi-cylindrical fixture blocks.

By adopting the technical scheme, the two clamps which are vertically distributed are arranged on the inner side of the outer frame, and the two clamps are combined to restrain the two sides of the edge of the tire body membrane strip, so that the tire body membrane strip sizing agent can be kept stable when being processed conveniently.

By adopting the technical scheme, the invention has the beneficial effects that:

1. according to the invention, as the prefabricated membrane belt is required to be driven to the inside of the pool filled with asphalt by the combined sliding roller for the preparation of the waterproof coiled material at present, after the asphalt is wrapped on the outside of the membrane belt, the excessive asphalt can be driven to the sliding roller close to the asphalt pool by the carcass membrane belt, and the excessive asphalt can be conducted to the outside of the asphalt pool by the carcass membrane belt, so that unnecessary waste is caused, therefore, the base capable of containing the asphalt is arranged, the blocking member capable of blocking the asphalt is movably inserted at the bottom of the inner cavity of the base, the two anti-seepage members capable of containing the asphalt are arranged on the two sides of the outside of the base, and the sealing cover, the air pipe and the elastic plug cushion arranged on the top of the base are combined to keep the asphalt in the base and the anti-seepage members in a siphon state, so that the asphalt in the inner cavity of the base can not leak out from the two anti-seepage members, and the slurry scraping mechanism is combined to integrally convey the inclined conveying tire body membrane belt and scrape and rub the redundant asphalt, so that the structure can treat the excessive asphalt on the tire body in a conveying state, and the excessive asphalt solidified on the tire body is prevented from leaking to the outside of an asphalt pool.

2. According to the invention, as the tire body membrane belt passes through the inner cavity of the base, asphalt can be wrapped outside the tire body membrane belt, and the curing effect of excessive asphalt on the tire body membrane belt is slow in a longer space passing through a membrane belt clamping piece and a slurry scraping piece link, the outer frame and the clamp are movably arranged on the inner side of the membrane belt clamping piece, and meanwhile, the outer cover arranged at the outer end of the outer frame and the movably arranged rotary rod, scraper, leveling piece and rotary roller in the outer frame are combined to level and scrape the excessive asphalt on the tire body membrane belt, so that the asphalt leveled on the tire body membrane belt can be rapidly cured in the process of orderly cleaning the excessive asphalt wrapped on the tire body membrane belt, and the curing speed of the asphalt on the tire body membrane belt is further improved.

3. In the invention, according to the above description, since the polymer material such as asphalt in the inner cavity of the base is in a high temperature state during the use of the mechanism, and the partial asphalt surface exposed in the air has a local layer solidification problem, when the asphalt remains, the locally solidified asphalt on the surface layer is difficult to quickly adhere to the carcass film belt, and after the adhesion, the asphalt surface layer becomes hard, therefore, by installing the safety pipe in the base, and movably installing the transmission rod and the plurality of inner shafts in the safety pipe, the chain transmission rod and the plurality of inner shafts are utilized, and the transmission screw shaft rotates in the vertical cylinder in turn, at this time, the asphalt slurry in the base is sucked from the bottom end of the vertical cylinder to the interior thereof and gushes out from the top hole thereof, so as to realize the internal speltering state of the polymer material such as asphalt with high viscosity, thereby avoiding the problem of local solidification caused by the standing of the asphalt slurry in the operation link of the device.

Drawings

FIG. 1 is a schematic diagram of one embodiment of the present invention;

FIG. 2 is a schematic diagram of a dispersion and partial cross-section thereof according to an embodiment of the present invention;

FIG. 3 is a schematic internal dispersion view of FIG. 2 in accordance with one embodiment of the present invention;

FIG. 4 is a schematic diagram of the dispersion and partial cross-section of FIG. 3 according to one embodiment of the present invention;

FIG. 5 is a schematic cross-sectional view of the internal dispersion of FIG. 3 according to one embodiment of the present invention;

FIG. 6 is a schematic cross-sectional view of the internal dispersion of FIG. 5 according to one embodiment of the present invention;

FIG. 7 is a schematic partial dispersion and cross-sectional view of FIG. 6 in accordance with one embodiment of the present invention;

FIG. 8 is a partial schematic view of FIG. 7 in accordance with one embodiment of the present invention.

Reference numerals:

100. a load bearing base;

200. a guide mechanism; 210. an input member; 220. a lead-out member; 230. a traction member;

300. a material storage mechanism; 310. a film strip plenum; 311. a base; 312. a primary limit groove; 313. an accessory; 314. a compression roller; 315. a rotating shaft; 320. a barrier; 330. a barrier;

400. a stability augmentation mechanism; 410. a sealing cover; 420. an air tube; 430. an elastic plug pad;

500. a slurry return mechanism; 510. a safety tube; 520. a transmission rod; 530. an inner shaft; 540. erecting a cylinder; 550. a screw shaft;

600. a slurry scraping mechanism; 610. a membrane strip holder; 611. an outer frame; 612. a clamp; 620. a slurry scraping member; 621. a housing; 622. rotating the rod; 623. a scraper; 624. a floating piece; 625. and (5) rotating the roller.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

It is to be understood that this description is made only by way of example and not as a limitation on the scope of the invention.

The following describes an automatic extrusion composite molding process and a molding device for a waterproof roll, which are provided by some embodiments of the invention, with reference to the accompanying drawings.

The first embodiment is as follows:

referring to fig. 1-8, the automatic extrusion composite molding process and molding apparatus for waterproof coiled material provided by the present invention includes a bearing base 100, a guiding mechanism 200, a stock mechanism 300, a stability increasing mechanism 400, a slurry backflow mechanism 500 and a slurry scraping mechanism 600, wherein the guiding mechanism 200 is installed in the bearing base 100, the stock mechanism 300 is installed in the bearing base 100, the stability increasing mechanism 400 is installed on the stock mechanism 300, the slurry backflow mechanism 500 is connected in the stock mechanism 300, and the slurry scraping mechanism 600 is installed in the guiding mechanism 200 and the stock mechanism 300.

The guiding mechanism 200 comprises an input member 210, a lead-out member 220 and a traction member 230, the stock mechanism 300 comprises a film belt pressurizing member 310, a blocking member 320 and a seepage-proofing member 330, the film belt pressurizing member 310 further comprises a base 311, a main limiting groove 312, an auxiliary member 313, a compression roller 314 and a rotating shaft 315, the stabilizing mechanism 400 comprises a sealing cover 410, an air pipe 420 and a spring plug pad 430, the slurry backflow mechanism 500 comprises a safety pipe 510, a transmission rod 520, an inner shaft 530, a vertical cylinder 540 and a spiral shaft 550, the slurry scraping mechanism 600 comprises a film belt clamping member 610 and a slurry scraping member 620, the film belt clamping member 610 further comprises an outer frame 611 and a clamp 612, and the slurry scraping member 620 further comprises an outer cover 621, a rotary rod 622, a scraper 623, a leveling member 624 and a rotary roller 625.

Specifically, the carcass film belt is compacted and transmitted to the inside of the base 311, and the rotation of the rotating shaft 315 in the main limiting groove 312 is controlled to apply a downward thrust to the pressing roller 314, at this time, the pressing roller 314 presses the carcass film belt to the bottom of the inner cavity of the base 311, then the blocking member 320 is inserted into the base 311, so that the pressed carcass film belt is located under the blocking member 320, then the carcass film belt penetrates into the film belt clamping member 610 and the slurry scraping member 620, so that the clamping members 612 are clamped at the two side edges of the carcass film belt, so that the carcass film belt is in a suspended state, the bearing base 100 is internally provided with a cavity, the guiding mechanism 200 is installed outside the bearing base 100, and the guiding mechanism 200 comprises an input member 210 for drawing the carcass film belt, a guiding member 220, a drawing member 230 respectively installed outside the input member 210 and the guiding member 220, and a material storage mechanism 300 installed in the bearing base 100, the stock mechanism 300 comprises a film belt pressurizing member 310 arranged in the cavity, impervious pieces 330 connected to two sides of the outside of the film belt pressurizing member 310, and a barrier piece 320 movably arranged in the film belt pressurizing member 310, the film belt pressurizing member 310 comprises a base 311, a main limiting groove 312 and an auxiliary piece 313 arranged in the base 311, a compression roller 314 and a rotating shaft 315 movably arranged in the main limiting groove 312, a stabilizing mechanism 400 arranged on the stock mechanism 300, the stabilizing mechanism 400 comprises a sealing cover 410 connected to the top of the base 311, an air pipe 420 arranged on the sealing cover 410, an elastic plug pad 430 arranged in the inner cavity of the air pipe 420, a slurry backflow mechanism 500 arranged in the stock mechanism 300, the slurry backflow mechanism 500 comprises a safety pipe 510 arranged in the base 311, a transmission rod 520 and an inner shaft 530 movably arranged in the safety pipe 510, a vertical cylinder 540 movably arranged at the bottom of the safety pipe 510, and a spiral shaft 550 movably arranged in the vertical cylinder 540, the slurry scraping mechanism 600 is connected to the slurry backflow mechanism 500, and the slurry scraping mechanism 600 includes a film belt clamping member 610 installed outside one anti-seepage member 330 and a slurry scraping member 620 installed outside the film belt clamping member 610, and the film belt clamping member 610 includes an outer frame 611 built inside the leading-out member 220 and a clamp 612 installed inside the outer frame 611, and the slurry scraping member 620 includes an outer cover 621 connected to the outer end of the outer frame 611, a rotating rod 622 installed inside the outer cover 621, a scraper 623 movably installed inside the outer cover 621, a smoothing member 624 and a rotating roller 625.

Example two:

in the above embodiment, as shown in fig. 2 and 8, the slide roller located right below the outer end opening of the outer cover 621 is movably installed in the inner cavity of the leading-out member 220, after the carcass film belt wrapped with the processed slurry is conducted to the slide roller, the slurry scraped from the bottom surface of the carcass film belt is compacted by the slide roller, and the two sets of oblique press rollers are combined to position and limit the carcass film belt, so that the carcass film belt can be effectively supported after being wrapped by the slurry, one slide roller is movably installed in the leading-out member 220, the slide roller in the leading-out member 220 is located right below the outer end notch of the outer cover 621, two sets of oblique press rollers are installed in the input member 210, and a gap formed between the two sets of press rollers and the notches at two sides of the input member 210 are symmetrically distributed.

Example three:

as shown in fig. 3, 4 and 5, in the above embodiment, the blocking member 320 is movably installed in the chemical protrusion at the bottom of the inner cavity of the base 311, and the blocking member 320 is used to control the gap at the bottom of the inner cavity of the base 311, so that the slurry can flow into the two trapezoidal grooves, and the trapezoidal grooves are used to further dredge the amount of the slurry, so that the excess slurry wrapped on the carcass film belt can quickly flow back to the inside of the base 311 after being scraped, two arc protrusions are formed at the bottom end of the inner cavity of the base 311, and arc chutes adapted to the blocking member 320 are formed in the arc protrusions, two trapezoidal grooves protruding outwards are formed at two sides of the bottom of the base 311, and notches adapted to the circular air hood at the bottom end of the air pipe 420 are formed at the tops of the trapezoidal grooves.

Example four:

in the above embodiments, as shown in fig. 2, 4, 5, 6 and 8, the spring is installed between the circular cushion and the solid cushion, so that the slurry inside the base 311 and the trapezoidal groove at the bottom thereof can be maintained in a stable state, and the slurry is prevented from leaking, the gear which is connected with the motor and the rotating rod 622 at two places is installed at the outer end of the transmission rod 520, so that the whole continuity of the mechanism during use is facilitated, the slurry inside the base 311 can be turned over internally and circularly by dredging the upward turning of the slurry by forming the cylindrical transverse holes at two sides of the top of the vertical cylinder 540, so that the curing of the surface slurry is prevented, the fixture 612 is combined with the constraints at two sides of the edge of the carcass membrane, so that the slurry on the carcass membrane can be maintained stably when being processed, the resilient plug 430 is formed by combining the circular cushion, the spring and the solid cushion, the solid pad is positioned in the trapezoidal groove, two gears are installed at one end of the transmission rod 520 far away from the base 311, one gear positioned at the outer end of the transmission rod 520 is connected to a motor at the top of the leading-out part 220 through chain transmission, cylindrical transverse holes are symmetrically distributed on two sides of the top of the vertical cylinder 540, the height of each cylindrical transverse hole in the vertical cylinder 540 is flush with the height of a rotating disc at the top of the spiral shaft 550, the clamp 612 is composed of semi-cylindrical clamping blocks, sub-rods, a female rod and a spring, and a clamping seam for restraining the carcass film belt is formed between every two adjacent semi-cylindrical clamping blocks.

The working principle and the using process of the invention are as follows:

before use: because the asphalt pool is contacted with the air in the external environment in a large area and the existing slide roller is used for rolling and removing the asphalt on the tire body membrane belt in the production of the tire body dipping waterproof coiled material aiming at the asphalt or polymer melting base material, the excessive asphalt wrapped on the tire body membrane belt can be continuously dredged to the outside of the asphalt pool through the slide roller, so that the working area is polluted, meanwhile, the problems that the asphalt is thrown out and is stressed to splash can be caused by the repeated use and rotation of the slide roller, and the asphalt pool and part of mechanisms are polluted in an attached manner;

before use: an operator needs to penetrate the carcass membrane strip from one anti-seepage member 330 in the traction member 230 to the inner cavity of the base 311 in advance, at the moment, the operator needs to control the rotating shaft 315 to drive the pressing roller 314 to pressurize the carcass membrane strip positioned in the inner cavity of the base 311, so that the carcass membrane strip is positioned below the arc-shaped bulge at the bottom of the inner cavity of the base 311, then the blocking member 320 is horizontally inserted into the base 311, so that the blocking member 320 is positioned right above the carcass membrane strip, and then the carcass membrane strip is transferred from one anti-seepage member 330 positioned in the leading-out member 220 to the membrane strip clamping member 610 and the slurry scraping member 620;

when in use: when sufficient asphalt or polymer molten slurry is injected into the base 311, the input member 210 needs to be installed on the top of the base 311, and the multiple sets of the guide-out members 220 installed on the two sides of the input member 210 are clamped on the two sides of the base 311, so that the bottom ends of the guide-out members 220 are located in the trapezoidal protrusions on the two sides of the outside of the base 311, and then the servo motor on the top of the guide-out members 220 is controlled to operate, the transmission rod 520 is utilized to respectively drive the inner shaft 530 and the screw shaft 550 to rotate in a directional manner, at this time, slurry in the inner cavity of the base 311 will be turned over from bottom to top, and at the same time, under the transmission action of the gear pair rotating rod 622 at the outer end of the transmission rod 520, the two scrapers 623 located in the inner cavity of the outer cover 621 will move to the inner side of the outer frame 611, at this time, between the L-shaped clamp block in the scrapers 623 and the adjacent two half-cylindrical clamp blocks, when more slurry appears on the carcass film belt and passes through the two L-shaped clamp plates, excessive slurry on the carcass membrane belt can be repaired and scraped, and the surface of the carcass membrane belt is leveled by combining with the leveling piece 624, so that the slurry on the carcass membrane belt can be quickly cured after being corrected, and the waste of the slurry is avoided.

In the present invention, the term "plurality" means two or more unless explicitly defined otherwise. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

It will be understood that when an element is referred to as being "mounted to," "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (9)

1. Automatic extrusion composite molding process and forming device of waterproofing membrane, its characterized in that includes:

the bearing base (100), wherein a cavity is arranged in the bearing base (100);

a guiding mechanism (200) mounted outside the carrying base (100), and the guiding mechanism (200) comprises an input member (210) for drawing the carcass membrane strip, a derivation member (220) and a drawing member (230) respectively mounted outside the input member (210) and the derivation member (220);

the material storage mechanism (300) is arranged in the bearing base (100), the material storage mechanism (300) comprises a film belt pressurizing piece (310) arranged in a cavity, anti-seepage pieces (330) connected to two sides of the outer portion of the film belt pressurizing piece (310) and a blocking piece (320) movably arranged in the film belt pressurizing piece (310), and the film belt pressurizing piece (310) comprises a base (311), a main limiting groove (312) and a secondary piece (313) which are arranged in the base (311), and a pressing roller (314) and a rotating shaft (315) which are movably arranged in the main limiting groove (312);

the stability augmentation mechanism (400) is arranged on the material storage mechanism (300), and the stability augmentation mechanism (400) comprises a sealing cover (410) connected to the top of the base (311), an air pipe (420) arranged on the sealing cover (410) and an elastic plug pad (430) arranged in the inner cavity of the air pipe (420);

the slurry backflow mechanism (500) is installed in the stock mechanism (300), and the slurry backflow mechanism (500) comprises a safety pipe (510) installed inside the base (311), a transmission rod (520) and an inner shaft (530) which are movably installed inside the safety pipe (510), a vertical cylinder (540) which is movably installed at the bottom of the safety pipe (510), and a spiral shaft (550) which is movably installed inside the vertical cylinder (540);

connect in thick liquids scraping mechanism (600) on thick liquids backward flow mechanism (500), and thick liquids scraping mechanism (600) including installing one prevent seepage part (330) outside membrane area holder (610) and install the outside thick liquids of membrane area holder (610) scrape off piece (620), and membrane area holder (610) including place in inside frame (611) of derivation piece (220) and install frame (611) inboard anchor clamps (612), thick liquids scrape off piece (620) including connecting outer frame (621) of frame (611) outer end, install inside swing arm (622), mobile installation of outer cover (621) scraper (623) inside, trowelling piece (624) and revolve roller (625).

2. The automatic extrusion composite molding process and molding device for waterproof coiled materials as claimed in claim 1, wherein a sliding roller is movably mounted inside the leading-out member (220), and the sliding roller inside the leading-out member (220) is located right below the notch at the outer end of the outer cover (621).

3. The automatic extrusion and composite molding process and molding device for waterproof coiled material as claimed in claim 1, wherein two sets of pressure rollers are installed inside the input member (210) and are distributed in an inclined state, and a gap formed between the two sets of pressure rollers is symmetrically distributed with notches on two sides of the input member (210).

4. The automatic extrusion composite molding process and molding device for waterproof rolls according to claim 1, wherein two arc-shaped protrusions are formed at the bottom end of the inner cavity of the base (311), and arc-shaped sliding grooves adapted to the blocking members (320) are formed inside the arc-shaped protrusions.

5. The automatic extrusion composite molding process and molding device for waterproof coiled materials as claimed in claim 1, wherein two sides of the bottom of the base (311) are provided with two trapezoidal grooves protruding outwards, and the top of the trapezoidal groove is provided with a notch adapted to the circular air hood at the bottom end of the air pipe (420).

6. The automatic extrusion and composite molding process and molding device for waterproof coiled material as claimed in claim 5, wherein the resilient plug (430) is formed by combining a circular pad, a spring and a solid pad, and the solid pad is located inside the trapezoidal groove.

7. The automatic extrusion composite molding process and molding device for waterproof coiled material as claimed in claim 1, wherein two gears are installed at one end of the transmission rod (520) far away from the base (311), and one gear located at the outer end of the transmission rod (520) is connected to the motor at the top of the leading-out member (220) through chain transmission.

8. The automatic extrusion composite molding process and molding device for waterproof coiled materials as claimed in claim 1, wherein the two sides of the top of the vertical cylinder (540) are provided with symmetrically distributed cylindrical transverse holes, and the height of the cylindrical transverse holes on the vertical cylinder (540) is flush with the height of the top rotating disc of the screw shaft (550).

9. The automatic extrusion composite molding process and molding device of waterproof coiled material as claimed in claim 1, wherein the fixture (612) is composed of semi-cylindrical fixture blocks, sub-rods, female rods and springs, and a gap for restraining the carcass membrane belt is formed between two adjacent semi-cylindrical fixture blocks.

Images