阅读说明：本技术 一种室内建筑地面铺设卷材及其加工装置 (Coiled material is laid on indoor building ground and processingequipment thereof ) 是由 肖青云 于 2020-07-15 设计创作，主要内容包括：一种室内建筑地面铺设卷材,包括：PVC橡胶层,表层成形有网格状凸起,内设有钢丝网；防菌层,粘连于PVC橡胶层的内侧,由壳聚糖制成；阻燃层,粘连于防菌层内侧,为内附着有氢氧化镁与氢氧化铝混合物的纤维编织物；防潮层,粘连于阻燃层内侧,为沥青油毡；聚酯纤维层,粘连于防潮层内侧；钢丝网热压成形于PVC橡胶层内,防菌层通过环氧树脂胶粘连于PVC橡胶层,阻燃层通过环氧树脂胶粘连于防菌层,防潮层通过环氧树脂胶粘连于阻燃层,聚酯纤维层通过环氧树脂胶粘连于防潮层。提高复合卷材的抗菌性,提高复合卷材的防潮性,提高卷材的强度,方便复合卷材的制备,提高复合卷材的生产效率,具有较强的实用性。(An indoor building floor laying coil comprising: the surface layer of the PVC rubber layer is provided with grid-shaped bulges, and a steel wire mesh is arranged in the PVC rubber layer; the antibacterial layer is adhered to the inner side of the PVC rubber layer and is made of chitosan; the flame-retardant layer is adhered to the inner side of the antibacterial layer and is a fiber braided fabric with a mixture of magnesium hydroxide and aluminum hydroxide attached inside; the damp-proof layer is adhered to the inner side of the flame-retardant layer and is asphalt felt; the polyester fiber layer is adhered to the inner side of the moisture-proof layer; wire net thermoforming is in the PVC rubber layer, and the antibacterial layer passes through epoxy adhesive and links in the PVC rubber layer, and flame retardant coating passes through epoxy adhesive and links in the antibacterial layer, and the dampproof course passes through epoxy adhesive and links in flame retardant coating, and the polyester fiber layer passes through epoxy adhesive and links in the dampproof course. The antibacterial property of the composite coiled material is improved, the moisture resistance of the composite coiled material is improved, the strength of the coiled material is improved, the preparation of the composite coiled material is facilitated, the production efficiency of the composite coiled material is improved, and the antibacterial composite coiled material has strong practicability.)

1. The utility model provides an indoor building ground laying coiled material which characterized in that includes:

the PVC rubber layer (10) is provided with grid-shaped bulges (100) on the surface layer and is internally provided with a steel wire mesh (101);

the antibacterial layer (11) is adhered to the inner side of the PVC rubber layer (10) and is made of chitosan;

the flame-retardant layer (12) is adhered to the inner side of the antibacterial layer (11) and is a fiber braided fabric with a mixture of magnesium hydroxide and aluminum hydroxide attached inside;

the moisture-proof layer (13) is adhered to the inner side of the flame-retardant layer (12) and is asphalt felt;

a polyester fiber layer (14) adhered to the inner side of the moisture-proof layer (13);

wire net (101) thermoforming is in PVC rubber layer (10), and antibacterial layer (11) are through epoxy adhesive bond in PVC rubber layer (10), and flame retardant coating (12) are through epoxy adhesive bond in antibacterial layer (11), and dampproof course (13) are through epoxy adhesive bond in flame retardant coating (12), and polyester fiber layer (14) are through epoxy adhesive bond in dampproof course (13).

2. An indoor building floor laying coil processing apparatus for preparing an indoor building floor laying coil as claimed in claim 1, comprising:

the steel wire mesh conveying unit (2) comprises a pair of placing assemblies (20), wherein the upper ends of the placing assemblies (20) are provided with coil placing assemblies (21), the placing assemblies (20) are used for supporting two ends of the coil placing assemblies (21), and the coil placing assemblies (21) are used for placing steel wire mesh coils;

rubber layer forming unit (3), including locating the supporting component (30) of placing subassembly (20) one end a pair of, be equipped with between supporting component (30) conveying component (31), supporting component (30) one end is equipped with upper limit subassembly (32), the other end of supporting component (30) is equipped with compaction subassembly (33), be equipped with hot melt subassembly (34) between upper limit subassembly (32) and compaction subassembly (33), be equipped with between hot melt subassembly (34) and compaction subassembly (33) and strickle off subassembly (35), hot melt subassembly (34) and strickle off subassembly (35) and all locate supporting component (30), upper limit subassembly (32) are used for the upside when wire net is carried spacing, compaction subassembly (33) are used for the compaction of PVC rubber layer (10), hot melt subassembly (34) are used for storing and carrying fused PVC rubber, strickle off subassembly (35) and are used for strickleing off of the top layer of PVC rubber layer (10), the conveying component (31) is used for conveying the PVC rubber layer (10) during forming;

the embossing and cooling unit (4) comprises a water cooling assembly (40) positioned at the other end of the supporting assembly (30), an embossing assembly (41) is arranged in the water cooling assembly (40), the water cooling assembly (40) is used for cooling the PVC rubber layer (10), and the embossing assembly (41) is used for forming grid-shaped bulges (100) on the surface layer of the PVC rubber layer (10) and conveying the PVC rubber layer (10) during embossing;

the coiling unit (5) comprises a pair of upper supporting components (50) positioned at one end of a water cooling component (40), wherein a guide component (51) is arranged at the upper end of each upper supporting component (50), a conveying component (52) is arranged at one end of one upper supporting component (50), a steering component (53) is arranged right above the conveying component (52), the guide component (51) extends upwards and is sequentially provided with a first epoxy resin glue placing component (54B), an antibacterial material placing component (54A), an antibacterial layer laminating component (55A), a second epoxy resin glue placing component (54C), a flame-retardant layer placing component (56A), a flame-retardant layer laminating component (55B), a third epoxy resin glue placing component (54D), a moisture-proof layer placing component (56B), a moisture-proof layer laminating component (55C), a fourth epoxy resin glue placing component, a polyester fiber layer placing component and a polyester fiber layer laminating component, subassembly (54A) is placed to fungi-proofing material, subassembly (54B) is placed to first epoxy glue, subassembly (54C) is placed to second epoxy glue, subassembly (54D) is placed to third epoxy glue, the fourth epoxy glue is placed the subassembly structure the same, fungi-proofing layer lamination subassembly (55A), fire-retardant layer lamination subassembly (55B), dampproof layer lamination subassembly (55C), polyester fiber layer lamination subassembly structure is the same, subassembly (56A) is placed on fire-retardant layer, subassembly (56B) is placed on the dampproof layer, the subassembly structure is placed on the polyester fiber layer the same, the one end of going up subassembly (50) is equipped with into roll subassembly (57).

3. The indoor building floor laying coiled material processing device according to claim 2, characterized in that the placing component (20) comprises a bottom plate (203), the bottom plate (203) is provided with a vertical plate (202) extending upwards, the upper end of the vertical plate (202) is provided with an arc plate (204), a concave groove (205) is formed in the arc plate (204), three rollers (206) are uniformly distributed in the concave groove (205), a limiting convex ring (207) is formed on the outer wall of the roller (206), a mounting plate (201) is arranged on one side of the vertical plate (202), an extension plate (200) is arranged on the mounting plate (201) extending outwards, and the other end of the extension plate (200) is mounted on the supporting component (30);

put a roll subassembly (21) including locating rotation head (210) between gyro wheel (206) a pair of, rotation head (210) arc wall all takes shape spacing groove (211), spacing flange (207) all block locate spacing groove (211) in, and tangent with the tank bottom of spacing groove (211), it puts the rolling rod to rotate to be equipped with between head (210), puts the rolling rod outside cladding and has the inflatable membrane book, when the inflatable membrane book is aerifyd, fixes the steel wire net book.

4. An indoor building floor laying coil processing device according to claim 2, characterized in that the supporting component (30) comprises two rows of supporting support plates (300) in an equally spaced array, the lower ends of the supporting support plates (300) are respectively provided with a base plate (301), a reinforcing plate (302) which is mutually crossed is arranged between each pair of supporting support plates (300), the upper ends of the supporting support plates (300) which are positioned on the same side are provided with a side plate (303), both ends of the side plates (303) are respectively provided with an assembling plate (304), and the outer side of the supporting support plates (300) which are positioned on the same side are provided with an outer reinforcing plate (305).

5. An indoor building floor laying coil processing device according to claim 4, characterized in that the conveying component (31) comprises bearing seats (310) which are all installed on the outer side of the assembling plate (304), bearings (311) are arranged in the bearing seats (310), a rotating shaft (312) is arranged in each pair of inner rings of the bearings (311), one end of each rotating shaft (312) is connected with a conveying motor (318), each rotating shaft (312) is provided with an inner rotating ring, the inner rotating rings are circumferentially arrayed and provided with arc-shaped plates (313), the arc-shaped plates (313) are provided with outer rotating rings (314), two ends of each outer rotating ring (314) are provided with guard rings (315), the outer rotating rings (314) are wound with conveying belts (316), two sides of each conveying belt (316) are provided with guard plates (317), the guard plates (317) are located between the guard rings (315), and the conveying belts (316) are made of.

6. An indoor building ground laying coiled material processing device according to claim 5, characterized in that the upper limit component (32) comprises a pair of upper extending plates (320) which are installed on the assembling plate (304) and extend upwards, a rotating plate (321) is arranged at the upper end of the upper extending plate (320), an upper limit rotating rod (322) is arranged on the rotating plate (321), an upper limit inner ring (323) is arranged on the upper limit rotating rod (322), the upper limit inner ring (323) is positioned between the rotating plates (321), upper limit support plates (324) are arranged on the outer wall of the upper limit inner ring (323) in a circumferential array, and an upper limit outer ring (325) is arranged at the other end of the upper limit support plate (324);

compaction subassembly (33) including upwards extending install in last backup pad (330) a pair of another a pair of equipment board (304), it all is equipped with assembly plate (331) all to go up backup pad (330) upper end, assembly plate (331) are equipped with compaction pole (332), compaction pole (332) are equipped with compaction circle (333), compaction circle (333) outer wall is being equipped with compaction extension board (334) of circumference array, compaction extension board (334) other end is equipped with compaction circle (335), compaction circle (335) are located between assembly plate (331).

7. An indoor building floor laying coil processing device according to claim 6, characterized in that the hot melting assembly (34) comprises two pairs of mounting feet (340) which are mounted on the outer reinforcing plate (305), the mounting feet (340) positioned on the same side are provided with concave supporting plates (341) extending upwards, the middle positions of the upper ends of the concave supporting plates (341) are provided with hot melting supporting plates (342) extending upwards, the upper ends of the hot melting supporting plates (342) are provided with assembly frames (343), two pairs of extension mounting plates (344) are mounted in the assembly frames (343), the other ends of the extension mounting plates (344) are provided with fixing rings (345), and the fixing rings (345) are internally provided with molten rubber throwing assemblies (346);

molten rubber puts in subassembly (346) including installing placing bucket (3460) in retainer plate (345), it is equipped with hourglass hopper-shaped piece (3461) of letting down to place bucket (3460) lower extreme, it has down to leak hopper-shaped piece (3461) lower extreme intercommunication and has down to prolong pipe (3462), it has conveyer pipe (3463) to prolong pipe (3462) lower extreme intercommunication, conveyer pipe (3463) lower extreme intercommunication is fixed with distributing pipe (3465), distributing pipe (3465) downwardly extending just is the intercommunication of equidistant array and has distribution branch pipe (3466), conveyer pipe (3463) are equipped with valve (3464), distribution branch pipe (3466) are located the directly over of conveyer belt (316).

8. An indoor building ground laying coil processing device according to claim 7, characterized in that the scraping component (35) comprises two pairs of assembling plates (350) distributed on both sides of the conveying belt (316), the assembling plates (350) at the lower end are mounted on the outer reinforcing plate (305), a plurality of guide rods (351) are arranged between the assembling plates (350) at the same side, screw rods (352) are arranged between the assembling plates (350) at the same side, the upper ends of the screw rods (352) are connected with lifting motors (354), the screw rods (352) are screwed with lifting plates (353), lifting connecting plates (355) are arranged between the lifting plates (353), the lifting connecting plates (355) extend downwards and are provided with scraping plates (356), the scraping plates (356) are obliquely arranged on the lifting connecting plates (355), and the lower ends of the scraping plates (356) are inclined towards the compacting component (33).

9. An indoor building ground laying coiled material processing device according to claim 2, characterized in that the water cooling assembly (40) comprises a water tank (400), the water tank (400) is communicated with a water outlet pipe (401), the other end of the water outlet pipe (401) is communicated with a booster (402), the booster (402) is connected with a booster motor (403), the booster (402) extends upwards and is communicated with two water pipes (404), the other end of each water pipe (404) is communicated with a water spray pipe, the water spray pipes are both positioned in the water tank (400), both sides of the water tank (400) are both provided with conveying members (405) extending outwards, and conveying cavities (406) are formed in the conveying members (405);

embossing assembly (41) is including installing in the rotation equipment seat (410) two pairs of water tank (400) both sides wall, it all is equipped with equipment seat connecting plate (411) to be located between the rotation equipment seat (410) of homonymy, equipment seat connecting plate (411) are all installed in water tank (400) lateral wall, be equipped with embossing rod (412) between rotation equipment seat (410) that are located the upper end, the one end of embossing rod (412) is connected with embossing motor (414), be equipped with between rotation equipment seat (410) that are located the lower extreme and carry bull stick (413), the one end of carrying bull stick (413) is connected with carries driving motor (415), embossing rod (412) are equipped with embossing roll (416), embossing roll (416) are the shaping of circumference array and have shaping groove (417), carry bull stick (413) and be equipped with conveying roller (418).

10. An indoor building floor laying coil processing device according to claim 2, characterized in that the upper supporting component (50) comprises two pairs of upward extending supporting plates (500), a middle connecting plate (502) is installed between each pair of upward extending supporting plates (500) in an equally spaced array, and an upper connecting plate (501) is installed at the upper end of each pair of upward extending supporting plates (500);

the guide assembly (51) comprises a conveying plate (510) arranged on the upper connecting plate (501), and two sides of the conveying plate (510) are provided with protection plates (511);

the conveying assembly (52) comprises a pair of front extension plates (520) which are arranged on the inner walls of a pair of upper extension supporting plates (500), the other ends of the front extension plates (520) are respectively provided with a front extension assembling plate (521), a conveying shaft lever (522) is arranged between the front extension assembling plates (521), and the conveying shaft lever (522) is provided with a front conveying roller (523);

the steering assembly (53) comprises a pair of front extending plates (530) arranged on the inner walls of a pair of upper extending support plates (500), the other ends of the front extending plates (530) are respectively provided with a front extending assembling plate (531), a steering rod (532) is arranged between the front extending assembling plates (531), the steering rod (532) is provided with a steering roller (533), the steering roller (533) is arranged between the front extending assembling plates (531), and the steering roller (533) is positioned right above the front conveying roller (523);

the antibacterial material placing assembly (54A) comprises a pair of side mounting plates (540) arranged on two sides of a protection plate (511), the upper ends of the side mounting plates (540) are provided with inner extending plates (541) extending inwards, the other ends of the inner extending plates (541) are provided with inner safety plates (542), an upper extending frame (543) is arranged between the inner safety plates (542), the upper extending frame (543) is provided with a contraction frame (544) extending downwards, the lower end of the contraction frame (544) is provided with a lower leakage frame (545), the lower leakage frame (545) is positioned right above the conveying plate (510), one side of the upper extending frame (543) is provided with a safety scraping plate (546), the safety scraping plate (546) is provided with an L-shaped scraping plate (547), and the lower end of the L-shaped scraping plate (547) is of a wedge;

the antibacterial layer pressing assembly (55A) comprises a pair of upward extending rotating seats (550) arranged on the protection plate (511), a pressing rod (551) is arranged between the upward extending rotating seats (550), one end of the pressing rod (551) is connected with a pressing motor, and the pressing rod (551) is provided with a pressing roller (552);

the flame-retardant layer placing assembly (56A) comprises a pair of upper supporting plates (560) which extend upwards and are arranged on the protection plate (511), a U-shaped groove (561) is formed at the upper end of each upper supporting plate (560), assembling rods (563) are arranged in each U-shaped groove (561), outer disks (562) are arranged at the outer side ends of the assembling rods (563), inner disks (564) are arranged at the inner side ends of the assembling rods (563), and hanging rods (565) are arranged between the inner disks (564);

the coiling assembly (57) comprises rear extension plates (570) which are installed on an upper extension supporting plate (500) in pairs, the other ends of the rear extension plates (570) are vertically and upwards provided with upper extension arms (571), the upper ends of the upper extension arms (571) are respectively provided with a U-shaped placing groove (572), placing rods (577) are respectively arranged in the U-shaped placing grooves (572), outer side ends of the placing rods (577) are respectively provided with an outer turnplate (576), the inner side ends of the placing rods (577) are respectively provided with an inner limiting plate (578), coiling rods (579) are arranged between the inner limiting plates (578), the outer turnplate (576) positioned at one end is provided with a gap (5760), the upper ends of the upper extension arms (571) are provided with a plurality of fixing screw rods (573), a coiling motor (574) is installed at the other end of the fixing screw rods (573), an output shaft of the coiling motor (574) is provided with a rotating plate (575), and the rotating plate (.

Technical Field

The invention relates to the technical field related to building material processing equipment, in particular to a coiled material for paving an indoor building ground and a processing device thereof.

Background

Along with the improvement of personage's quality of life standard, the space travelling comfort requirement to daily life is also higher and higher, especially to fungi-proofing performance and sound-proofing performance, the requirement of sound-proofing environment mainly reflects in the aspect of making an uproar falls, and the reduction noise belongs to the environmental protection category, and the requirement of fungi-proofing performance mainly reflects in the isolated of wall body and subaerial thallus, reduces breeding of bacterium, provides an environment that is not suitable for the thallus to breed, reduces the diffusion and the excessive growth of thallus in the living space through this kind of environment.

The existing composite coiled material for buildings usually meets the requirements of living space by virtue of the antibacterial property, the flame retardance and the sound absorption of polyester fibers, and then the polyester fibers are bonded on the PVC rubber layer.

Conventional composite coiled material simple structure only makes convenient processing by two-layer, and when the number of piles of composite coiled material increased, the production of the inconvenient realization composite coiled material of current device, and production efficiency is lower.

Disclosure of Invention

The invention provides a coiled material for paving indoor building ground and a processing device thereof, aiming at solving the defects of the prior art, improving the antibacterial property of a composite coiled material, improving the moisture resistance of the composite coiled material, improving the strength of the coiled material, facilitating the preparation of the composite coiled material, improving the production efficiency of the composite coiled material and having stronger practicability.

In order to achieve the purpose of the invention, the following technology is adopted:

an indoor building floor laying coil comprising:

the surface layer of the PVC rubber layer is provided with grid-shaped bulges, and a steel wire mesh is arranged in the PVC rubber layer;

the antibacterial layer is adhered to the inner side of the PVC rubber layer and is made of chitosan;

the flame-retardant layer is adhered to the inner side of the antibacterial layer and is a fiber braided fabric with a mixture of magnesium hydroxide and aluminum hydroxide attached inside;

the damp-proof layer is adhered to the inner side of the flame-retardant layer and is asphalt felt;

the polyester fiber layer is adhered to the inner side of the moisture-proof layer;

wire net thermoforming is in the PVC rubber layer, and the antibacterial layer passes through epoxy adhesive and links in the PVC rubber layer, and flame retardant coating passes through epoxy adhesive and links in the antibacterial layer, and the dampproof course passes through epoxy adhesive and links in flame retardant coating, and the polyester fiber layer passes through epoxy adhesive and links in the dampproof course.

The utility model provides an indoor building ground laying coiled material processingequipment, includes:

the steel wire mesh conveying unit comprises a pair of placing assemblies, wherein the upper ends of the placing assemblies are provided with coil placing assemblies, the placing assemblies are used for supporting two ends of the coil placing assemblies, and the coil placing assemblies are used for placing steel wire mesh coils;

the rubber layer forming unit comprises a pair of supporting components arranged at one end of the placing component, a conveying component is arranged between the supporting components, an upper limit component is arranged at one end of each supporting component, a compacting component is arranged at the other end of each supporting component, a hot melting component is arranged between each upper limit component and the corresponding compacting component, a strickling component is arranged between each hot melting component and the corresponding compacting component, the hot melting components and the strickling components are both arranged on the supporting components, the upper limit components are used for upper limit during steel wire mesh conveying, the compacting components are used for compacting the PVC rubber layer, the hot melting components are used for storing and conveying molten PVC rubber, the strickling components are used for strickling the surface layer of the PVC rubber layer;

the embossing and cooling unit comprises a water cooling assembly positioned at the other end of the supporting assembly, an embossing assembly is arranged in the water cooling assembly, the water cooling assembly is used for cooling the PVC rubber layer, and the embossing assembly is used for forming latticed bulges on the surface layer of the PVC rubber layer and conveying the PVC rubber layer during embossing;

the coiling unit comprises a pair of upper supporting components positioned at one end of the water cooling component, a guide component is arranged at the upper end of the upper supporting component, one end of one upper supporting component is provided with a conveying component, a steering component is arranged right above the conveying component, the guide component upwards extends to be sequentially provided with an antibacterial material placing component, a first epoxy resin glue placing component, an antibacterial layer laminating component, a second epoxy resin glue placing component, a flame-retardant layer laminating component, a third epoxy resin glue placing component, a moisture-proof layer laminating component, a fourth epoxy resin glue placing component, a polyester fiber layer placing component and a polyester fiber layer laminating component, the antibacterial material placing component, the first epoxy resin glue placing component, the second epoxy resin glue placing component, the third epoxy resin glue placing component and the fourth epoxy resin glue placing component have the same structure, the antibacterial layer laminating assembly, the flame-retardant layer laminating assembly, the moisture-proof layer laminating assembly and the polyester fiber layer laminating assembly are identical in structure, the flame-retardant layer placing assembly, the moisture-proof layer placing assembly and the polyester fiber layer placing assembly are identical in structure, and one end of the upper supporting assembly is provided with the coiling assembly.

Furthermore, the placing assembly comprises a bottom plate, a vertical plate is arranged on the bottom plate in an upward extending mode, an arc plate is arranged at the upper end of the vertical plate, a concave groove is formed in the arc plate, three rollers are uniformly distributed in the concave groove, a limiting convex ring is formed on the outer wall of each roller, an installation plate is arranged on one side of the vertical plate, an extension plate is arranged on the installation plate in an outward extending mode, and the other end of the extension plate is installed on the supporting assembly;

put a roll subassembly including locating the first a pair of rotation between the gyro wheel, it all takes shape to rotate the first arc wall and has a spacing groove, spacing flange all blocks and locates the spacing inslot, and tangent with the tank bottom of spacing groove, is equipped with the system book pole between the rotation head, puts the cladding of book pole outside and has aerifyd the membrane book, when aerifing the membrane book and aerifing, fixes the steel wire net book.

Furthermore, the supporting component comprises two rows of supporting support plates in an equal-interval array, the lower ends of the supporting support plates are provided with base plates, each pair of supporting support plates are provided with reinforcing plates which are crossed, the upper ends of the supporting support plates on the same side are provided with side plates, the two ends of each side plate are provided with assembling plates, and the outer side of each supporting support plate on the same side is provided with an outer reinforcing plate.

Further, the conveying assembly comprises a bearing seat which is installed on the outer side of the assembling plate, a bearing is arranged in the bearing seat, each pair of bearing inner rings is provided with a rotating shaft, one end of the rotating shaft is connected with a conveying motor, each rotating shaft is provided with an inner rotating ring, the inner rotating rings are provided with arc-shaped plates in a circumferential array, the arc-shaped plates are provided with outer rotating rings, the two ends of each outer rotating ring are provided with protective rings, the outer rotating rings are wound with conveying belts, protective plates are arranged on two sides of each conveying belt, the protective plates are located between the protective rings, and the conveying belts are.

Furthermore, the upper limit assembly comprises a pair of upper extension plates which are arranged on the assembly plate and extend upwards, the upper ends of the upper extension plates are provided with rotating plates, the rotating plates are provided with upper limit rotating rods, the upper limit rotating rods are provided with upper limit inner rings, the upper limit inner rings are positioned between the rotating plates, the outer walls of the upper limit inner rings are provided with upper limit support plates in a circumferential array, and the other ends of the upper limit support plates are provided with upper limit outer rings;

the compaction subassembly is including upwards extending install in a pair of backup pad on another a pair of equipment board, goes up the backup pad upper end and all is equipped with the assembly plate, and the assembly plate is equipped with the compaction pole, and the compaction pole is equipped with the compaction circle, and the compaction circle outer wall is being equipped with the compaction extension board of circumference array, and the compaction extension board other end is equipped with the compaction circle, and the compaction circle is located between the assembly plate.

Furthermore, the hot melting assembly comprises two pairs of mounting feet which are mounted on the outer reinforcing plate, the mounting feet positioned on the same side are provided with concave supporting plates which extend upwards, the middle positions of the upper ends of the concave supporting plates are provided with hot melting supporting plates which extend upwards, the upper ends of the hot melting supporting plates are provided with assembly frames, two pairs of epitaxial mounting plates are mounted in the assembly frames, the other ends of the epitaxial mounting plates are provided with fixing rings, and molten rubber throwing assemblies are arranged in the fixing rings;

the molten rubber feeding assembly comprises a placing barrel installed in a fixing ring, a funnel-shaped lower discharging piece is arranged at the lower end of the placing barrel, the lower end of the funnel-shaped lower discharging piece is communicated with a lower extension pipe, the lower end of the lower extension pipe is communicated with a conveying pipe, the lower end of the conveying pipe is communicated with a distributing pipe, the distributing pipe extends downwards and is provided with distributing branch pipes in an equal interval array mode, the conveying pipe is provided with valves, and the distributing branch pipes are located right above the conveying belt.

Further, strickle the subassembly including distributing in the dull and stereotyped two pairs of assembly of conveyer belt both sides, the assembly flat board that is located the lower extreme is installed in outer gusset plate, it is a plurality of to be equipped with the guide bar between the assembly flat board that is located the homonymy, it all is equipped with the lead screw to be located between the assembly flat board of homonymy, the lead screw upper end all is connected with elevator motor, the lead screw has all revolved the lifter plate, be equipped with the lift connecting plate between the lifter plate, the lift connecting plate downwardly extending be equipped with the scraper blade, the lift connecting plate is.

Further, the water cooling assembly comprises a water tank, the water tank is communicated with a water outlet pipe, the other end of the water outlet pipe is communicated with a supercharger, the supercharger is connected with a supercharging motor, the supercharger extends upwards and is communicated with two water conveying pipes, the other end of each water conveying pipe is communicated with a water spraying pipe, the water spraying pipes are located in the water tank, conveying pieces are installed on two sides of the water tank and extend outwards, and conveying cavities are formed in the conveying pieces;

the impressed watermark subassembly is including installing in the rotation equipment seat two pairs of water tank both sides wall, it all is equipped with equipment seat connecting plate to be located between the rotation equipment seat of homonymy, equipment seat connecting plate is all installed in the water tank lateral wall, be located and be equipped with the impressed watermark pole between the rotation equipment seat of upper end, the one end of impressed watermark pole is connected with the impressed watermark motor, be located and be equipped with the transport bull stick between the rotation equipment seat of lower extreme, the one end of carrying the bull stick is connected with carries driving motor, the impressed watermark pole is equipped with the embossing roller, the embossing roller is the shaping of circumference array and has the.

Furthermore, the upper support component comprises two pairs of upper extending support plates, a middle connecting plate is arranged between each pair of upper extending support plates in an equally spaced array, and an upper connecting plate is arranged at the upper end of each pair of upper extending support plates;

the guide assembly comprises a conveying plate arranged on the upper connecting plate, and two sides of the conveying plate are provided with protection plates;

the conveying assembly comprises a pair of front extension plates arranged on the inner walls of a pair of upper extension supporting plates, the other ends of the front extension plates are provided with front extension assembling plates, a conveying shaft lever is arranged between the front extension assembling plates, and the conveying shaft lever is provided with a front conveying roller;

the steering assembly comprises a pair of front extending plates arranged on the inner walls of a pair of upper extending support plates, the other ends of the front extending plates are provided with front extending assembling plates, a steering rod is arranged between the front extending assembling plates and provided with a steering roller, the steering roller is arranged between the front extending assembling plates and is positioned right above the front conveying roller;

the antibacterial material placing assembly A comprises a pair of side mounting plates arranged on two sides of a protection plate, inner extension plates are arranged at the upper ends of the side mounting plates and extend inwards, inner mounting plates are arranged at the other ends of the inner extension plates, an upper extension frame is arranged between the inner mounting plates, a contraction frame is arranged at the upper extension frame in a downward extending mode, a lower discharging frame is arranged at the lower end of the contraction frame and is located right above the conveying plate, a scraping plate is arranged on one side of the upper extension frame, an L-shaped scraping plate is arranged on the scraping plate, and the lower end of the L-shaped scraping plate is of a wedge-shaped structure;

the antibacterial layer laminating assembly A comprises a pair of upper extension rotating seats arranged on the protection plate, a laminating rod is arranged between the upper extension rotating seats, one end of the laminating rod is connected with a laminating motor, and the laminating rod is provided with a laminating roller;

the flame-retardant layer placing assembly A comprises a pair of upper supporting plates which extend upwards and are arranged on the protection plate, a U-shaped groove is formed at the upper end of each upper supporting plate, assembling rods are arranged in the U-shaped grooves, outer discs are arranged at the outer side ends of the assembling rods, inner discs are arranged at the inner side ends of the assembling rods, and a hanging rod is arranged between the inner discs;

the lapping subassembly is including installing in pairs and extending the board after extending the backup pad, the equal perpendicular ascending arm that extends that is equipped with of the back extension board other end, it has all formed the U-shaped standing groove to extend the arm upper end, all be equipped with in the U-shaped standing groove and place the pole, it all is equipped with the outward turning disc to place the pole outside end, it all is equipped with interior limit dish to place the pole medial extremity, be equipped with into the rolling rod between the interior limit dish, the outward turning disc that is located one end is formed with the opening, it installs fixed lead screw a plurality of to extend the arm upper end, the lapping motor is installed to the fixed lead screw other end, the output shaft of lapping motor is equipped with the commentaries on classi.

The technical scheme has the advantages that:

1. when the composite coiled material is constructed, the coiled material is required to be placed on a prefabricated wall body or ground, then a cement layer is prepared on the surface of the composite coiled material, wherein, in order to improve the connecting effect of the cement layer and the coiled material, corresponding grid-shaped bulges are arranged on the surface of the PVC rubber layer, and simultaneously, in order to improve the strength of the PVC rubber layer, the PVC rubber layer is hot-melted on a steel wire mesh, meanwhile, the existence of the steel wire mesh is also convenient for connecting and fixing two adjacent composite coiled materials, wherein the PVC rubber is a non-crystalline material, a stabilizer, a lubricant, an auxiliary processing agent, a pigment, an impact resistance agent and other additives are added into the PVC rubber, the PVC rubber has the advantages of difficult combustibility, high strength, weather resistance and excellent geometric stability, and has strong resistance to an oxidant, a reducing agent and strong acid, and the PVC rubber layer is used on the surface layer due to the existence, the coiled material has the advantages of improving the impact resistance, reducing the flammability, improving the service time of the coiled material and the like, and the steel wire mesh is arranged in the coiled material to enhance the strength of the PVC rubber layer. The antibacterial layer adhered in the PVC rubber layer can improve the antibacterial property of the whole composite coiled material, and the antibacterial material consists of flaky chitosan. The flame-retardant layer adhered to the antibacterial layer can improve the flame retardance of the composite coiled material, and in order to improve the flame retardance of the composite coiled material, a fiber braided fabric made of a mixture of magnesium hydroxide and aluminum hydroxide which is not burnt and does not generate toxic gas at high temperature is selected, and the flame retardance of the composite coiled material is improved through the fiber braided fabric made of the mixture of the magnesium hydroxide and the aluminum hydroxide. The adhesion can prevent the circulation of steam at the dampproof course on fire-retardant layer, and the dampproof course comprises the better asphalt felt of water barrier property. The polyester fiber layer adhered to the moisture-proof layer further utilizes the characteristics of the polyester fiber layer to improve the flame retardance, antibacterial property and sound absorption of the composite coiled material.

2. The preparation device of the composite coiled material comprises a steel wire mesh conveying unit, a rubber layer forming unit, an embossing and cooling unit and a coiling unit, wherein the steel wire mesh conveying unit conveys a steel wire mesh to the rubber layer forming unit, the rubber layer forming unit presses a hot-melt PVC rubber layer on the steel wire mesh, then the embossing and cooling unit is used for pressing and arranging latticed bulges and cooling the PVC rubber layer, then an antibacterial layer, a flame-retardant layer, a moisture-proof layer and a polyester fiber layer are adhered on the PVC rubber layer through the coiling unit, a coil placing assembly is used for placing a steel wire mesh coil, an upper limit assembly is used for upper side limiting when the steel wire mesh is conveyed, a compaction assembly is used for compacting the PVC rubber layer, the hot melting assembly is used for storing and conveying the molten PVC rubber, the flat scraping assembly is used for scraping the surface layer of the PVC rubber layer, the conveying assembly is used for conveying when the PVC rubber layer is, the impressed watermark subassembly is used for the netted bellied shaping of PVC rubber layer top layer, and the transport during the impressed watermark of PVC rubber layer, conveying subassembly and the subassembly that turns to mutually support and be used for PVC rubber layer to carry and upwards overturn the PVC rubber layer, form the book subassembly, make banded coiled material wind into roll shape, and place the subassembly through the antibacterial material before the book, the subassembly is placed to first epoxy glue, the subassembly is placed to antibacterial layer laminating, the subassembly is placed to second epoxy glue, the subassembly is placed to fire-retardant layer, fire-retardant layer laminating subassembly, the subassembly is placed to third epoxy glue, the subassembly is placed to the dampproof course, the subassembly is placed to dampproof course laminating, the subassembly is placed to fourth epoxy glue, the subassembly is placed to polyester fiber layer and polyester fiber layer laminating subassembly will prevent bacterial course in proper order, fire-retardant layer, the dampproof course, the polyester fiber layer.

3. Wire net conveying unit, be used for placing the wire net book, wherein place the subassembly and be used for supporting and fix and put a roll subassembly, it is used for placing of wire net book to put a roll subassembly, wherein for the convenience of the transport of wire net book consequently set up corresponding concave groove on the cambered plate, simultaneously even distribution has the gyro wheel in the concave groove, and the spacing flange that sets up on the gyro wheel is used for the restriction to put the position of rolling up the subassembly, and the gyro wheel makes things convenient for the rotation when the wire net book is carried, and the rotation head that puts a roll subassembly sets up on the gyro wheel, simultaneously with spacing flange cooperation in the spacing groove in the rotation head, and the inflation film book that sets up on putting the rolling rod is used for fixed wire net book, thereby prevent that the wire net book from taking place relative motion with putting the rolling rod when carrying, thereby improve the stability that the wire net rolled up and carry.

4. The rubber layer forming unit can pour the PVC rubber layer on the steel wire mesh, wherein the conveying belt on the conveying assembly can conveniently convey the steel wire mesh, when in conveying, the two conveying motors are started, the outer rotating ring rotates under the driving of the conveying motors, the rotation of the outer rotating ring drives the conveying belt to rotate, so as to drive the steel wire mesh to convey forwards, the guard plates arranged at two sides of the conveying belt facilitate the forming of the PVC rubber layer, the guard rings arranged at two ends of the outer rotating ring are used for limiting the position of the conveying belt, the upper limiting ring of the upper limiting assembly limits the conveying upper end of the steel wire mesh, the compacting ring in the compacting assembly compacts the PVC rubber layer, and in the preparation process, the hot-melted PVC rubber is conveyed to the distribution pipe through the conveying pipe from the placing barrel and finally thrown to the conveying belt through the distribution branch pipe, and the hot-melted PVC rubber thrown to the conveying belt is scraped to be flat through the scraping assembly, thereby make PVC rubber layer form a smooth panel, then, carry out the compaction to the PVC rubber layer through the compaction circle, when strickleing, strickle the subassembly and can adjust according to specific PVC rubber layer thickness, during the adjustment, start elevator motor, under elevator motor's drive, the lifter plate carries out elevating movement, and the elevating movement of lifter plate will drive the elevating movement of lift connecting plate, and the elevating movement of lift connecting plate will drive the elevating movement of scraper blade, and in order to improve the strickle effect of strickleing off of scraper blade, consequently, set the scraper blade into the state of slope.

5. Impressed watermark and cooling unit, can be on PVC rubber layer top layer shaping latticed arch, then, wherein the booster compressor among the water-cooling subassembly is under the drive of booster motor, make the cooling water pass through the raceway with the high-speed mode of high pressure and carry to the spray pipe in, then the spray pipe sprays the cooling water to the PVC rubber layer on, and the transport cavity of the transport piece of setting on the water tank conveniently carries out the transport on PVC rubber layer, under impressed watermark motor and transport driving motor's drive, impressed watermark roller and transport roller are carried forward, when PVC rubber layer is carried, the shaping groove has shaped latticed arch on PVC rubber layer top layer on the impressed watermark roller.

6. The PVC rubber layer that the impressed watermark was accomplished passes the delivery board and carries to forward, and make the PVC rubber layer carry forward on the one hand through defeated roller before and turn to the roller, overturn the PVC rubber layer simultaneously, thereby make latticed arch down, and smooth one side up, carry along the delivery board, in transportation process, at first place the subassembly from first epoxy glue and put epoxy glue to the PVC rubber layer, then from antibacterial material place the subassembly to putting on chitosan, antibacterial layer places the subassembly and pressfitting it, then loop through second epoxy glue and places the subassembly, fire-retardant layer laminating subassembly, third epoxy glue places the subassembly, the subassembly is placed to the dampproof course, fourth epoxy glue places the subassembly, the subassembly is placed to the polyester fiber layer and the subassembly is placed to the polyester fiber layer, antibacterial material places the subassembly, The subassembly is placed to first epoxy glue, the subassembly is placed to second epoxy glue, the subassembly is placed to third epoxy glue, fourth epoxy glue is placed the subassembly and will be fire-retardant layer, the dampproof course, polyester fiber layer pressfitting is on the PVC rubber layer in proper order, then, the winding of pressfitting end is on becoming the winding stem, will change the board and insert and locate in the opening simultaneously, make the lapping motor drive into the winding stem and rotate, finally make composite coiled material, accomplish the back, take off the lapping stem follow upper end that the lapping was accomplished in the lapping, and take off composite coiled material from the lapping stem, carry out the lapping operation next time after that.

7. The invention improves the antibacterial property of the composite coiled material, improves the moisture resistance of the composite coiled material, improves the strength of the coiled material, facilitates the preparation of the composite coiled material, improves the production efficiency of the composite coiled material and has stronger practicability.

Drawings

Fig. 1 shows a first three-dimensional structure of one of the indoor floor laying rolls.

Fig. 2 shows a three-dimensional structure diagram of one of the indoor building floor laying coils.

Fig. 3 shows a first three-dimensional structure diagram of a coil processing device for paving indoor building ground.

Fig. 4 shows a second three-dimensional structure of the processing device for laying coiled materials on the indoor building ground.

Fig. 5 shows a first three-dimensional structure diagram of the steel wire mesh conveying unit.

Fig. 6 shows a three-dimensional structure diagram of a steel wire mesh conveying unit.

Fig. 7 shows a perspective view of the rubber layer forming unit.

Fig. 8 shows a perspective view of the rubber layer forming unit.

Fig. 9 shows a first three-dimensional structure of the embossing and cooling unit.

Fig. 10 shows a second perspective view of the embossing and cooling unit.

Fig. 11 shows a perspective view of the first rolling unit.

Fig. 12 shows a perspective view of the rolling unit.

Fig. 13 shows a three-dimensional structure view of the rolling unit.

Fig. 14 shows a partial enlarged view at a.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or the orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

The terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

The terms "parallel", "perpendicular", etc. do not require that the components be absolutely parallel or perpendicular, but may be slightly inclined. For example, "parallel" merely means that the directions are more parallel relative to "perpendicular," and does not mean that the structures are necessarily perfectly parallel, but may be slightly tilted.

Furthermore, the terms "substantially", and the like are intended to indicate that the relative terms are not necessarily strictly required, but may have some deviation. For example: "substantially equal" does not mean absolute equality, but because absolute equality is difficult to achieve in actual production and operation, certain deviations generally exist. Thus, in addition to absolute equality, "substantially equal" also includes the above-described case where there is some deviation. In this case, unless otherwise specified, terms such as "substantially", and the like are used in a similar manner to those described above.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 14, an indoor floor laying coil includes:

the PVC rubber layer 10 is provided with grid-shaped bulges 100 on the surface layer and a steel wire mesh 101 in the surface layer. And the antibacterial layer 11 is adhered to the inner side of the PVC rubber layer 10 and is made of chitosan. And the flame-retardant layer 12 is adhered to the inner side of the antibacterial layer 11 and is a fiber braided fabric with a mixture of magnesium hydroxide and aluminum hydroxide attached inside. And the moisture-proof layer 13 is adhered to the inner side of the flame-retardant layer 12 and is asphalt felt. And the polyester fiber layer 14 is adhered to the inner side of the moisture-proof layer 13. Wire net 101 thermoforming is in PVC rubber layer 10, and antibacterial layer 11 is through epoxy adhesive bond in PVC rubber layer 10, and fire-retardant layer 12 is through epoxy adhesive bond in antibacterial layer 11, and dampproof course 13 is through epoxy adhesive bond in fire-retardant layer 12, and polyester fiber layer 14 is through epoxy adhesive bond in dampproof course 13.

When the composite coiled material is constructed, the coiled material is required to be placed on a prefabricated wall body or ground, then a cement layer is prepared on the surface of the composite coiled material, wherein, in order to improve the connecting effect of the cement layer and the coiled material, the corresponding grid-shaped bulges 100 are arranged on the surface of the PVC rubber layer 10, and simultaneously, in order to improve the strength of the PVC rubber layer 10, the PVC rubber layer 10 is hot-melted on a steel wire mesh 101, meanwhile, the existence of the steel wire mesh 101 also facilitates the connection and the fixation between two adjacent composite coiled materials, wherein, the PVC rubber is a non-crystalline material, a stabilizer, a lubricant, an auxiliary processing agent, a pigment, an impact resistance agent and other additives are added into the PVC rubber, the PVC rubber has the advantages of difficult combustibility, high strength, weather resistance and excellent geometric stability, and has strong resistance to an oxidant, a reducing agent and a strong acid, and the PVC rubber layer is used on the surface layer, the coiled material has the advantages of improving the impact resistance, reducing the flammability, improving the service time of the coiled material and the like, and the steel wire mesh 101 is arranged in the coiled material to enhance the strength of the PVC rubber layer. The antibacterial layer 11 adhered in the PVC rubber layer 10 can improve the antibacterial property of the whole composite coiled material, and the antibacterial material is composed of flaky chitosan. The flame retardant layer 12 adhered to the antibacterial layer 11 can improve the flame retardancy of the composite coil, and in order to improve the flame retardancy of the composite coil, a woven or knitted fabric of a mixture of magnesium hydroxide and aluminum hydroxide, which is non-combustible and does not generate toxic gas at high temperature, is selected, and the flame retardancy of the composite coil is improved by the woven or knitted fabric of a mixture of magnesium hydroxide and aluminum hydroxide. The moisture-proof layer 13 adhered to the flame-retardant layer 12 can prevent the circulation of water vapor, and the moisture-proof layer 13 is composed of asphalt felt with good water-resisting property. The polyester fiber layer adhered to the moisture-proof layer 13 further improves the flame retardancy, antibacterial property and sound absorption property of the composite coil material by utilizing the characteristics thereof.

The utility model provides an indoor building ground laying coiled material processingequipment, includes: wire net conveying unit 2 is including placing subassembly 20 a pair of, places the subassembly 20 upper end and is equipped with and puts a roll subassembly 21, places subassembly 20 and is used for putting the both ends of rolling up subassembly 21 and supports, puts a roll subassembly 21 and is used for placing the wire net book. Rubber layer forming unit 3, including locating the supporting component 30 of placing subassembly 20 one end a pair of, be equipped with conveying component 31 between the supporting component 30, supporting component 30 one end is equipped with upper limit subassembly 32, the other end of supporting component 30 is equipped with compaction subassembly 33, be equipped with hot melt assembly 34 between upper limit subassembly 32 and the compaction subassembly 33, be equipped with between hot melt assembly 34 and the compaction subassembly 33 and strickle off subassembly 35, hot melt assembly 34 and strickle off subassembly 35 and all locate supporting component 30, upper limit subassembly 32 is used for upside spacing when the wire net is carried, compaction subassembly 33 is used for the compaction of PVC rubber layer 10, hot melt assembly 34 is used for storing and carrying fused PVC rubber, strickle off subassembly 35 and be used for strickleing off of the top layer of PVC rubber layer 10, conveying component 31 is used for the transportation when PVC rubber layer 10 takes shape. The embossing and cooling unit 4 comprises a water cooling assembly 40 positioned at the other end of the supporting assembly 30, an embossing assembly 41 is arranged in the water cooling assembly 40, the water cooling assembly 40 is used for cooling the PVC rubber layer 10, and the embossing assembly 41 is used for forming the grid-shaped bulges 100 on the surface layer of the PVC rubber layer 10 and conveying the PVC rubber layer 10 during embossing. The coiling unit 5 comprises a pair of upper supporting components 50 positioned at one end of the water cooling component 40, wherein the upper end of each upper supporting component 50 is provided with a guide component 51, one end of one upper supporting component 50 is provided with a conveying component 52, a steering component 53 is arranged right above the conveying component 52, the guide component 51 extends upwards and is sequentially provided with an antibacterial material placing component 54A, a first epoxy resin glue placing component 54B, an antibacterial layer laminating component 55A, a second epoxy resin glue placing component 54C, a flame-retardant layer placing component 56A, a flame-retardant layer laminating component 55B, a third epoxy resin glue placing component 54D, a moisture-proof layer placing component 56B, a moisture-proof layer laminating component 55C, a fourth epoxy resin glue placing component, a polyester fiber layer placing component and a polyester fiber layer laminating component, the antibacterial material placing component 54A, the first epoxy resin glue placing component 54B, the second epoxy resin glue placing component 54C, Third epoxy glue is placed subassembly 54D, fourth epoxy glue and is placed the subassembly structure the same, and fungi-proofing layer lamination subassembly 55A, fire-retardant layer lamination subassembly 55B, dampproof course lamination subassembly 55C, polyester fiber layer lamination subassembly structure are the same, and fire-retardant layer is placed subassembly 56A, the dampproof course is placed subassembly 56B, the polyester fiber layer is placed the subassembly structure the same, and the one end of going up subassembly 50 is equipped with into roll subassembly 57.

The preparation device of the composite coiled material comprises a steel wire mesh conveying unit 2, a rubber layer forming unit 3, an embossing and cooling unit 4 and a coiling unit 5, wherein the steel wire mesh conveying unit 2 conveys a steel wire mesh 101 to the rubber layer forming unit 3, the rubber layer forming unit 3 presses a hot-melt PVC rubber layer 10 on the steel wire mesh 101, then the embossing and cooling unit 4 is used for pressing and arranging latticed bulges 100 and cooling the PVC rubber layer 10, then a coiling unit 5 is used for adhering an antibacterial layer 11, a flame-retardant layer 12, a moisture-proof layer 13 and a polyester fiber layer 14 on the PVC rubber layer 10, a coiling component 21 is arranged for placing a steel wire mesh coil, an upper limit component 32 is used for limiting the upper side when the steel wire mesh is conveyed, a compacting component 33 is used for compacting the PVC rubber layer 10, a hot-melt component 34 is used for storing and conveying the molten PVC rubber, a scraping component 35 is used for scraping the surface layer of the PVC rubber, the conveying component 31 is used for conveying the PVC rubber layer 10 during forming, the water cooling component 40 is used for cooling the PVC rubber layer 10, the embossing component 41 is used for forming grid-shaped protrusions 100 on the surface layer of the PVC rubber layer 10 and conveying the PVC rubber layer 10 during embossing, the conveying component 52 and the steering component 53 are matched with each other for conveying the PVC rubber layer 10 and turning the PVC rubber layer 10 upwards to form a coil component 57, so that the strip-shaped coil is wound into a coil shape, and before coiling, the antibacterial material placing component 54A, the first epoxy resin glue placing component 54B, the antibacterial layer laminating component 55A, the second epoxy resin glue placing component 54C, the flame retardant layer placing component 56A, the flame retardant layer laminating component 55B, the third epoxy resin glue placing component 54D, the moisture-proof layer placing component 56B, the moisture-proof layer laminating component 55C, the fourth epoxy resin glue placing component, the polyester fiber layer placing component and the polyester fiber layer laminating component sequentially enable the antibacterial layer 11, the moisture-proof layer to be formed, and, A flame retardant layer 12, a moisture-proof layer 13 and a polyester fiber layer 14 are prepared on the PVC rubber layer 10.

Placing assembly 20 includes bottom plate 203, and bottom plate 203 upwards extends be equipped with riser 202, and riser 202 upper end is equipped with arc 204, and it has concave groove 205 to take shape in the arc 204, and the even distribution in the concave groove 205 has 206 three rollers, and the outer wall of roller 206 takes shape to have spacing protruding circle 207, and riser 202 one side is equipped with mounting panel 201, and mounting panel 201 outwards extends be equipped with extension plate 200, and the other end of extension plate 200 is installed in supporting component 30. Put a roll subassembly 21 including locating the rotation head 210 between the gyro wheel 206 a pair of, rotate the first 210 arc wall and all take shape spacing groove 211, spacing flange 207 all blocks locates in the spacing groove 211, and tangent with the tank bottom of spacing groove 211, is equipped with the system book pole between the rotation head 210, puts the cladding of book pole outside and has aerifys the membrane and roll up, when aerifing the membrane book and aerifing, fixes the steel wire net book.

The steel wire mesh conveying unit 2 is used for placing a steel wire mesh 101 roll, wherein the placing assembly 20 is used for supporting and fixing the roll placing assembly 21, the roll placing assembly 21 is used for placing the steel wire mesh 101 roll, a corresponding concave groove 205 is formed in an arc plate 204 in order to facilitate conveying of the steel wire mesh 101 roll, rollers 206 are uniformly distributed in the concave groove 205, a limiting convex ring 207 arranged on the roller 206 is used for limiting the position of the roll placing assembly 21, the roller 206 facilitates rotation of the steel wire mesh 101 roll during conveying, a rotating head 210 of the roll placing assembly 21 is arranged on the roller 206, the limiting convex ring 207 is matched in a limiting groove 211 in the rotating head 210, an inflatable film roll arranged on a roll placing rod is used for fixing the steel wire mesh 101 roll, and therefore relative movement of the steel wire mesh 101 roll and the roll placing rod during conveying is prevented, and stability of conveying of the steel wire mesh 101 roll is improved.

The support assembly 30 comprises two rows of support plates 300 in an equally spaced array, a base plate 301 is mounted at the lower end of each support plate 300, a reinforcing plate 302 which is mutually crossed is mounted between each pair of support plates 300, a side plate 303 is mounted at the upper end of each support plate 300 positioned on the same side, assembling plates 304 are arranged at two ends of each side plate 303, and an outer reinforcing plate 305 is mounted at the outer side of each support plate 300 positioned on the same side. The conveying assembly 31 comprises bearing seats 310 which are installed on the outer side of the assembling plate 304, bearings 311 are arranged in the bearing seats 310, rotating shafts 312 are arranged on inner rings of each pair of bearings 311, one end of each rotating shaft 312 is connected with a conveying motor 318, each rotating shaft 312 is provided with an inner rotating ring, the inner rotating rings are provided with arc-shaped plates 313 in a circumferential array mode, the arc-shaped plates 313 are provided with outer rotating rings 314, two ends of each outer rotating ring 314 are provided with guard rings 315, each outer rotating ring 314 is wound with a conveying belt 316, guard plates 317 are arranged on two sides of each conveying belt 316, the guard plates 317 are located between the guard rings 315, and each conveying belt 316. The upper limit assembly 32 comprises a pair of upper extending plates 320 which are installed on the assembly plate 304 and extend upwards, the upper ends of the upper extending plates 320 are provided with rotating plates 321, the rotating plates 321 are provided with upper limit rotating rods 322, the upper limit rotating rods 322 are provided with upper limit inner rings 323, the upper limit inner rings 323 are located between the rotating plates 321, the outer walls of the upper limit inner rings 323 are provided with upper limit support plates 324 in a circumferential array, and the other ends of the upper limit support plates 324 are provided with upper limit outer rings 325. The compacting assembly 33 comprises a pair of upper supporting plates 330 which extend upwards and are mounted on another pair of assembling plates 304, the upper ends of the upper supporting plates 330 are respectively provided with a mounting plate 331, the mounting plate 331 is provided with a compacting rod 332, the compacting rod 332 is provided with a compacting turn ring 333, the outer wall of the compacting turn ring 333 is provided with compacting support plates 334 in a circumferential array, the other ends of the compacting support plates 334 are provided with compacting turns 335, and the compacting turns 335 are positioned between the mounting plates 331. The hot melt assembly 34 comprises two pairs of mounting feet 340 which are mounted on the outer reinforcing plate 305, the mounting feet 340 located on the same side extend upwards to form a concave supporting plate 341, the middle position of the upper end of the concave supporting plate 341 extends upwards to form a hot melt supporting plate 342, an assembly frame 343 is mounted at the upper end of the hot melt supporting plate 342, two pairs of extension mounting plates 344 are mounted in the assembly frame 343, the other end of the extension mounting plate 344 is provided with a fixing ring 345, and a molten rubber throwing assembly 346 is arranged in the fixing ring 345. The molten rubber feeding assembly 346 comprises a placing barrel 3460 arranged in the fixing ring 345, a funnel-shaped lower drain 3461 is arranged at the lower end of the placing barrel 3460, a lower extension pipe 3462 is communicated with the lower end of the funnel-shaped lower drain 3461, a conveying pipe 3463 is communicated with the lower end of the lower extension pipe 3462, a distribution pipe 3465 is communicated and fixed at the lower end of the conveying pipe 3463, a distribution branch pipe 3466 is communicated with the distribution pipe 3465, the distribution branch pipe 3466 extends downwards and is in an equally spaced array, a valve 3464 is arranged on the conveying pipe 3463, and the distribution branch pipe 3466 is positioned. The scraping component 35 comprises two pairs of assembling flat plates 350 distributed on two sides of the conveying belt 316, the assembling flat plates 350 located at the lower end are installed on the outer reinforcing plate 305, a plurality of guide rods 351 are arranged between the assembling flat plates 350 located at the same side, screw rods 352 are arranged between the assembling flat plates 350 located at the same side, the upper ends of the screw rods 352 are connected with lifting motors 354, lifting plates 353 are screwed on the screw rods 352, lifting connecting plates 355 are arranged between the lifting plates 353, scraping plates 356 extend downwards and are provided with scraping plates 356, the scraping plates 356 are obliquely arranged on the lifting connecting plates 355, and the lower ends of the scraping plates 356 are inclined towards the compacting.

The rubber layer forming unit 3 can pour the PVC rubber layer 10 on the steel wire mesh 101, wherein the conveying belt 316 on the conveying assembly 31 can facilitate the conveying of the steel wire mesh 101, during the conveying, two conveying motors 318 are started, under the driving of the conveying motors 318, the outer rotating ring 314 rotates, the rotation of the outer rotating ring 314 drives the rotation of the conveying belt 316, so as to drive the steel wire mesh 101 to convey forwards, the guard plates 317 arranged at two sides of the conveying belt 316 facilitate the forming of the PVC rubber layer 10, the guard rings 315 arranged at two ends of the outer rotating ring 314 are used for limiting the position of the conveying belt 316, the upper limiting ring 325 of the upper limiting assembly 32 limits the conveying upper end of the steel wire mesh 101, the compacting ring 335 in the compacting assembly 33 compacts the PVC rubber layer 10, and during the preparation process, the hot-melted PVC rubber is conveyed from the placing barrel 3460 to the distribution pipe 3465 through the conveying pipe 3463, and finally is poured onto the conveying belt 316 through the distribution branch pipe 3466, and put into the hot melt rubber on the conveyer belt 316 and strickle off the PVC rubber layer through strickleing off subassembly 35, thereby make PVC rubber layer 10 form a smooth panel, then, carry out the compaction to PVC rubber layer 10 through compaction circle 335, when strickleing off, strickle off subassembly 35 and can adjust according to specific PVC rubber layer thickness, during the adjustment, start elevator motor 354, under elevator motor 354's drive, elevator plate 353 carries out elevating movement, and elevator plate 353's elevating movement will drive elevator movement of elevator web 355, and elevator web 355's elevating movement will drive the elevating movement of scraper 356, and in order to improve scraper 356's strickle off the effect, consequently set up scraper 356 into the state of slope.

The water cooling assembly 40 comprises a water tank 400, the water tank 400 is communicated with a water outlet pipe 401, the other end of the water outlet pipe 401 is communicated with a booster 402, the booster 402 is connected with a booster motor 403, the booster 402 extends upwards and is communicated with two water conveying pipes 404, the other end of each water conveying pipe 404 is communicated with a water spraying pipe, the water spraying pipes are located in the water tank 400, two sides of the water tank 400 extend outwards and are provided with conveying parts 405, and conveying cavities 406 are formed in the conveying parts 405. The embossing assembly 41 comprises two pairs of rotating assembly seats 410 arranged on two side walls of the water tank 400, assembly seat connecting plates 411 are arranged between the rotating assembly seats 410 on the same side, the assembly seat connecting plates 411 are arranged on the side walls of the water tank 400, an embossing rod 412 is arranged between the rotating assembly seats 410 on the upper end, one end of the embossing rod 412 is connected with an embossing motor 414, a conveying rotating rod 413 is arranged between the rotating assembly seats 410 on the lower end, one end of the conveying rotating rod 413 is connected with a conveying driving motor 415, the embossing rod 412 is provided with an embossing roller 416, the embossing roller 416 is formed into a forming groove 417 in a circumferential array, and the conveying rotating rod 413 is provided with a conveying roller 418.

The embossing and cooling unit 4 can form the grid-shaped protrusions 100 on the surface layer of the PVC rubber layer 10, then, the booster 402 in the water cooling assembly 40 is driven by the booster motor 403 to convey cooling water to the water spray pipe through the water pipe 404 in a high-pressure and high-speed manner, then the water spray pipe sprays the cooling water onto the PVC rubber layer 10, the conveying cavity 406 of the conveying piece 405 arranged on the water tank 400 facilitates the conveying of the PVC rubber layer 10, the embossing roller 416 and the conveying roller 418 are driven by the embossing motor 414 and the conveying driving motor 415 to convey forwards, and when the PVC rubber layer 10 is conveyed, the forming grooves 417 on the embossing roller 416 form the grid-shaped protrusions 100 on the surface layer of the PVC rubber layer 10.

The upper supporting assembly 50 comprises two pairs of upward extending supporting plates 500, a middle connecting plate 502 is arranged between each pair of upward extending supporting plates 500 in an equally spaced array, and an upper connecting plate 501 is arranged at the upper end of each pair of upward extending supporting plates 500. The guide assembly 51 includes a conveying plate 510 installed on the upper connecting plate 501, and protection plates 511 are provided at both sides of the conveying plate 510. The conveying assembly 52 comprises a pair of front extending plates 520 mounted on the inner walls of the pair of upper extending support plates 500, the other ends of the front extending plates 520 are respectively provided with a front extending assembling plate 521, a conveying shaft 522 is arranged between the front extending assembling plates 521, and the conveying shaft 522 is provided with a front conveying roller 523. The steering assembly 53 comprises a pair of front extending plates 530 mounted on the inner walls of the pair of upper extending support plates 500, the other ends of the front extending plates 530 are respectively provided with a front extending assembling plate 531, a steering rod 532 is arranged between the front extending assembling plates 531, the steering rod 532 is provided with a steering roller 533, the steering roller 533 is arranged between the front extending assembling plates 531, and the steering roller 533 is positioned right above the front conveying roller 523. Subassembly 54A is placed to fungi-proofing material is including installing the side mounting panel 540 a pair in guard plate 511 both sides, the side mounting panel 540 upper end all inwards extends be equipped with interior extension board 541, interior extension board 541 other end all is equipped with interior ampere of board 542, be equipped with between interior ampere of board 542 and extend frame 543, it is equipped with shrink frame 544 to extend frame 543 downwardly extending, shrink frame 544 lower extreme is equipped with and leaks frame 545 down, it is located directly over transport plate 510 to leak frame 545 down, it installs and scrapes ampere of board 546 to extend frame 543 one side on going up, it is equipped with L shape scraper blade 547 to scrape ampere of board 546, L shape scraper blade 547 lower extreme is the wedge structure. The anti-bacterial layer pressing assembly 55A comprises a pair of upward extending rotating seats 550 arranged on the protection plate 511, a pressing rod 551 is arranged between the upward extending rotating seats 550, one end of the pressing rod 551 is connected with a pressing motor, and the pressing rod 551 is provided with a pressing roller 552. The flame-retardant layer placing assembly 56A comprises a pair of upper supporting plates 560 which extend upwards and are installed on the protection plate 511, a U-shaped groove 561 is formed in the upper end of each upper supporting plate 560, an assembling rod 563 is arranged in each U-shaped groove 561, an outer disk 562 is arranged at the outer side end of each assembling rod 563, an inner disk 564 is arranged at the inner side end of each assembling rod 563, and a hanging rod 565 is arranged between the inner disks 564. The coiling assembly 57 comprises rear extension plates 570 which are installed on the upper extension supporting plate 500 in pairs, upper extension arms 571 are vertically and upwards arranged at the other ends of the rear extension plates 570, U-shaped placing grooves 572 are formed at the upper ends of the upper extension arms 571, placing rods 577 are arranged in the U-shaped placing grooves 572, outer rotating discs 576 are arranged at the outer ends of the placing rods 577, inner limiting discs 578 are arranged at the inner ends of the placing rods 577, coiling rods 579 are arranged between the inner limiting discs 578, notches 5760 are formed in the outer rotating discs 576 at one end, a plurality of fixing screw rods 573 are installed at the upper ends of the upper extension arms 571, a coiling motor 574 is installed at the other end of the fixing screw rods 573, a rotating plate 575 is arranged on an output shaft of the coiling motor 574, and the rotating plate 575 is inserted into the notches.

The embossed PVC rubber layer 10 is conveyed forwards through the conveying plate 510, on one hand, the PVC rubber layer 10 is conveyed forwards through the front conveying roller 523 and the steering roller 533, and the PVC rubber layer 10 is turned over, so that the latticed protrusions 100 face downwards and the flat side faces upwards, and the PVC rubber layer 10 is conveyed along the conveying plate 510, in the conveying process, firstly, epoxy resin glue is put into the PVC rubber layer 10 from the first epoxy resin glue placing component 54B, then, chitosan is put into the antibacterial material placing component 54A, the antibacterial layer laminating component 55A performs laminating on the PVC rubber layer, and then, the second epoxy resin glue placing component 54C, the flame retardant layer placing component 56A, the flame retardant layer laminating component 55B, the third epoxy resin glue placing component 54D, the moisture-proof layer placing component 56B, the moisture-proof layer laminating component 55C, the fourth epoxy resin glue placing component, the polyester fiber layer placing component and the polyester fiber layer laminating component are sequentially arranged, subassembly 54A is placed to the fungi-proofing material, subassembly 54B is placed to first epoxy glue, subassembly 54C is placed to second epoxy glue, subassembly 54D is placed to third epoxy glue, subassembly will fire-retardant layer 12 is placed to fourth epoxy glue, dampproof course 13, polyester fiber layer 14 pressfitting is in proper order on PVC rubber layer 10, then, the laminating end twines on becoming winding rod 579, insert the commentaries on classics board 575 simultaneously in locating opening 5760, make coiling motor 574 drive into the rotation of winding rod 579, make composite coiled material finally, after accomplishing, take off the coiling rod 579 that the lapping was accomplished from last extension arm 571 upper end, and take off composite coiled material from coiling rod 579, carry out the lapping operation next time after that.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and it is apparent that those skilled in the art can make various changes and modifications to the present invention without departing from the spirit and scope of the present invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.