CN116945652B - NBR homogeneous permeable floor coiled material production equipment - Google Patents

Abstract

The invention discloses a production process and equipment of an NBR homogeneous permeable floor coiled material, and relates to the technical field of production of homogeneous permeable floor coiled materials; the invention comprises extrusion equipment, wherein a discharge end of the extrusion equipment is provided with a connecting box, and the bottom end of the connecting box is provided with a transport assembly; the connecting box is internally connected with a baffle plate which separates the interior of the connecting box into a grain cutting area and a maintenance area; a grain cutting assembly is arranged in the grain cutting area; when the grain cutter moves to the maintenance area, cleaning and maintenance are carried out in the maintenance area; a flattening and transferring assembly is arranged below the conveying assembly and is used for transferring materials in batches so as to uniformly flatten the materials on the conveying belt; the product of the invention has stronger wear resistance and various patterns, the material particles of the product are mutually embedded in a transparent mode, penetrate from the surface layer to the bottom layer, are not easy to fall off, have good practicability, simple production process and low manufacturing cost, and are beneficial to industrial production.

Description

NBR homogeneous permeable floor coiled material production equipment

Technical Field

The invention relates to the technical field of production of homogeneous permeable flooring coiled materials, in particular to production equipment of an NBR homogeneous permeable flooring coiled material.

Background

The homogeneous permeable coiled material floor refers to a coiled material floor in which particles with the diameter approximately the same as the thickness of the coiled material floor are embedded, and the colors can permeate from the surface layer to the bottom layer; compared with the common coiled material floor, the NBR homogeneous permeable coiled material has stronger wear resistance, and the homogeneous permeable coiled material has a plurality of patterns, such as carpet lines, dan Caiwen, wood floor lines and the like, and has lifelike lines and rich colors; this is due to the fact that the various monochromatic particles of the homogeneous, concentric web are mutually embedded in a transparent form, i.e. penetrate from one end of the web to the other; the existing plastic homogeneous core-penetrating floor coiled material has many defects in the production process, so that the appearance and quality of the product are poor, the processing method of the material particles is obviously insufficient, namely, the existing homogeneous core-penetrating floor coiled material is subjected to pattern scattering processing on the finished coiled material, namely, the particles with various colors are scattered on the surface of the finished product, the particles are not fused through, the surface lines of the coiled material are uneven, the material particles which are not embedded into the interior are easy to scrape off, pits appear on the surface of the coiled material, the appearance is influenced, and the wear resistance is also reduced.

On one hand, the inventor combines practical experience, in order to make up the defect of the existing coiled material floor, a coiled material floor with material particles embedded in a transparent way is developed, the process flow is simple, the manufacturing cost is low, the operation is easy, in the granule scattering and laying flow of the material particles, the material particles of various colors can be mutually embedded and laid, so that the formed coiled material floor has good wear resistance and attractive surface texture, and the coiled materials with different textures are obtained by combining and matching the material particles of various colors according to the requirement; the formed coiled material floor has the advantages that the condition that particles are scraped off does not exist, the practicability is high, and the defects of the existing coiled material floor are overcome; on the other hand, according to the production flow of the floor coiled material, the inventor aims to make up the defects of the existing equipment, namely, the existing equipment is inconvenient to maintain the internal granulating equipment; when the granules are spread and paved, the material granules cannot be uniformly flattened, and the later-stage forming is affected; the coil production equipment capable of solving the technical problems is convenient to maintain equipment in a granulating process, and material particles can be uniformly flattened.

Chinese patent publication No. CN101614068A discloses PVC homogeneous core coiled material floor, and method and apparatus for preparing the same; from technical scheme, this patent is through technological processes such as first coating, spill colored granule of plastic on PVC transparent paste, can make the granule unrestrained, and not imbed each other in penetrating form between the granule, and the shaping back surface decorative pattern line is not pleasing to the eye, and the material granule is scraped easily through spreading colored granule of plastic on PVC transparent paste, process flows such as first coating, spill colored cooling, second coating, heating plasticization, cooling rolling.

Disclosure of Invention

The material particles of the product are embedded into the coiled material floor in a penetrating way, the material particles cannot be scraped off, the texture is attractive, the process flow is simple, the manufacturing cost is low, and the operation is easy; the production equipment is convenient for maintaining equipment in a granulating process, and can uniformly flatten material particles.

The technical scheme adopted by the invention is as follows: the NBR homogeneous permeable floor coiled material production equipment comprises extrusion equipment, wherein a connecting box is arranged at the discharge end of the extrusion equipment, and a transport assembly is arranged at the bottom end of the connecting box; the connecting box is internally connected with a baffle plate, the baffle plate isolates the inside of the connecting box into a grain cutting area and a maintenance area, and the discharge end of the extrusion equipment is communicated with the grain cutting area; a hole site is arranged on the partition board; the grain cutting area is provided with a grain cutting assembly, the grain cutting assembly comprises a sliding disc, the end part of the sliding disc is provided with a grain cutting knife, and when the sliding disc is matched with the hole site, the grain cutting area and the maintenance area are separated; when the grain cutter moves to the maintenance area, cleaning and maintenance are carried out in the maintenance area; the maintenance area is provided with a maintenance component, the maintenance component comprises a movable frame, the movable frame is connected with a scraping plate, and the scraping plate radially slides and is matched with the grain cutter to scrape the residual materials on the grain cutter; a flattening and transferring assembly is arranged below the conveying assembly and comprises a transferring cylinder, the bottom end of the transferring cylinder is connected with a releasing cylinder, a through groove is formed between the bottom end of the transferring cylinder and the top end of the releasing cylinder, and a vibration baffle is rotatably arranged in the transferring cylinder so as to transfer materials in batches; a feeding groove barrel is rotatably arranged in the release barrel, a vibration frame is arranged on the inner side of the feeding groove barrel so that materials are flattened on the feeding groove barrel, a discharging groove is formed in the bottom of the release barrel, and a scraping strip for scraping the materials is arranged on the outer side of the release barrel.

Further, the conveying assembly comprises a conveying cylinder, the conveying cylinder is communicated with the bottom end of the grain cutting area in the connecting box, a conveying shaft is rotatably arranged in the conveying cylinder, and a conveying motor is arranged at one end of the conveying cylinder and used for driving the conveying shaft; the other end of the transport cylinder is movably connected with a delivery pipe.

Further, the delivery pipe is slidably mounted on the top of the transfer cylinder, a movable screw rod is rotatably mounted on the top of the transfer cylinder, and a movable motor for driving the movable screw rod is arranged to enable the delivery pipe to slide and conduct dispersed feeding.

Further, the flattening and transferring assembly comprises a transferring motor arranged at one end of the transferring cylinder, and the transferring motor is used for driving the vibration partition plate; one end of the release cylinder is provided with a discharging motor which is used for driving the feeding cylinder; the below of release section of thick bamboo is provided with the transportation piece for transport material, the transportation piece includes the transportation belt, and is used for driving the transportation motor of transportation belt.

Further, the vibration partition plate comprises a vibration cylinder II, the vibration cylinder II is provided with a transfer vibration plate in circular array arrangement, and a vibration motor I is arranged in the vibration cylinder II so as to enable the transfer vibration plate to vibrate; the vibration frame comprises a vibration cylinder I, wherein the vibration cylinder I is provided with flattening vibration plates in circular array arrangement, and a vibration motor II is arranged in the vibration cylinder I so that the flattening vibration plates vibrate.

Further, the grain cutting assembly comprises a grain cutting motor arranged at the outer side of the connecting box, a connecting disc is connected to an output shaft of the grain cutting motor, a sliding shaft is fixedly connected to the connecting disc, and the sliding shaft penetrates through the grain cutting area and the maintenance area; the slide plate is slidably mounted on the slide shaft.

Further, a movable electric cylinder is arranged on the connecting disc and used for driving the sliding disc to slide.

Further, the maintenance assembly comprises a driving motor arranged on the outer side of the connecting box, a driving gear is connected to an output shaft of the driving motor, a gear ring is rotatably arranged in the maintenance area, and an extrusion wheel is connected to the end part of the gear ring; the movable frame is fixedly connected with a pressing rod, and the pressing wheel pushes the pressing rod through pressing so as to enable the movable frame and the scraping plate to slide; the baffle is connected with a mounting ring, the movable frame is in sliding connection with the outer side of the mounting ring, and a spring for providing elasticity is connected between the movable frame and the mounting ring.

Compared with the prior art, the invention has the beneficial effects that: (1) The separator is connected in the connecting box, the separator separates the inside of the connecting box into a grain cutting area and a maintenance area, the discharging end of the extrusion equipment is communicated with the grain cutting area, and when the grain cutting knife moves to the maintenance area, cleaning and maintenance can be carried out in the maintenance area; (2) When the feeding device is used for feeding, the movable motor works, the movable screw rod rotates to enable the feeding pipe to move so as to carry out movable feeding, so that particles are dispersed into the transfer cylinder, and later flattening treatment is facilitated; (3) According to the invention, the material particles fall onto the conveying belt from the bottom of the release cylinder in a uniform strip shape through the flattening and transferring assembly, are uniformly distributed on the conveying belt, and are further uniformly flattened through the scraping effect of the scraping strip, so that the later-stage forming quality is ensured; (4) The product of the invention has stronger wear resistance and various patterns, and the material particles of the product are mutually embedded in a transparent mode, penetrate from the surface layer to the bottom layer, are not easy to fall off, have good practicability, simple production process and low manufacturing cost, and are beneficial to industrial production.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic view of a pellet assembly of the present invention.

FIG. 3 is a schematic view of a maintenance assembly of the present invention.

Fig. 4 is a schematic view of a flattening transfer assembly of the present invention.

FIG. 5 is a schematic view of a vibrating diaphragm and a feed chute barrel of the present invention.

Fig. 6 is a cross-sectional view of a feed chute according to the invention.

Fig. 7 is a cross-sectional view of a shock baffle of the present invention.

FIG. 8 is a schematic front view of an NBR homogeneous through-center coil.

FIG. 9 is a schematic back view of an NBR homogenous core web.

FIG. 10 is a schematic side view of an NBR homogeneous through-center coil.

Reference numerals: 1-an extrusion device; 2-connecting boxes; 201-a separator; 3-a transport cylinder; 4-a delivery tube; 5-a transfer drum; 6-a release cartridge; 7-a transportation motor; 8-a conveyor belt; 9-driving a motor; 10-a drive gear; 11-a granulating motor; 12-a granulating cutter; 13-a slide plate; 14-sliding shaft; 15-moving an electric cylinder; 16-connecting discs; 17-gear ring; 18-squeezing wheels; 19-a mounting ring; 20-moving a frame; 21-a compression bar; 22-scraping plate; 23-springs; 24-a conveying motor; 25-a conveying shaft; 26-moving a screw rod; 27-a mobile motor; 28-a transfer motor; 29-a discharging motor; 30-scraping strips; 31-transferring vibration plate; 32-a feeding groove drum; 33-flattening the vibration plate; 34-shake the first tube; 35-vibration cylinder II.

Description of the embodiments

The invention will be described in detail with reference to the accompanying drawings, in which: as shown in fig. 1 to 7, a discharge end of the extrusion apparatus 1 is provided with a connection box 2, a transport assembly is provided at a bottom end of the connection box 2, the transport assembly comprises a transport cylinder 3, the transport cylinder 3 is communicated with a bottom end of a grain cutting area in the connection box 2, a transport shaft 25 is rotatably installed in the transport cylinder 3, and a transport motor 24 is installed at one end of the transport cylinder 3, and the transport motor 24 is used for driving the transport shaft 25; the other end of the transport cylinder 3 is movably connected with a delivery pipe 4; a flattening and transferring assembly is arranged below the conveying assembly and comprises a transferring cylinder 5, the bottom end of the transferring cylinder 5 is connected with a releasing cylinder 6, and a through groove is formed between the bottom end of the transferring cylinder 5 and the top end of the releasing cylinder 6; the delivery pipe 4 is slidably mounted on the top of the transfer drum 5, and a moving screw 26 is rotatably mounted on the top of the transfer drum 5, and a moving motor 27 for driving the moving screw 26 is provided to slide the delivery pipe 4 and perform dispersion feeding.

The flattening and transferring assembly further comprises a transferring motor 28 arranged at one end of the transferring cylinder 5, and the transferring motor 28 is used for driving the vibration partition plate; one end of the release cylinder 6 is provided with a discharging motor 29, and the discharging motor 29 is used for driving a feeding cylinder 32; a transport member is arranged below the release cylinder 6 and used for transporting materials, and comprises a transport belt 8 and a transport motor 7 used for driving the transport belt 8; a vibration baffle is rotatably arranged in the transfer cylinder 5 to transfer materials in batches; a feeding trough barrel 32 is rotatably arranged in the release barrel 6, a vibration frame is arranged on the inner side of the feeding trough barrel 32 so that materials are flattened on the feeding trough barrel 32, a discharging trough is arranged at the bottom of the release barrel 6, and a scraping strip 30 for scraping the materials is arranged on the outer side of the release barrel 6; the vibration partition plate comprises a second vibration cylinder 35, the second vibration cylinder 35 is provided with a transfer vibration plate 31 in circular array arrangement, and a first vibration motor is arranged in the second vibration cylinder 35 so as to vibrate the transfer vibration plate 31; the vibration frame comprises a first vibration cylinder 34, the first vibration cylinder 34 is provided with flattening vibration plates 33 in circular array arrangement, and a second vibration motor is arranged inside the first vibration cylinder 34 so that the flattening vibration plates 33 vibrate.

As shown in fig. 2 and 3, a partition 201 is connected in the connection box 2, the partition 201 separates the interior of the connection box 2 into a grain cutting area and a maintenance area, and the discharge end of the extrusion equipment 1 is communicated with the grain cutting area; a hole site is formed on the partition 201; a dicing assembly is arranged in the dicing area, the dicing assembly comprises a sliding disc 13, a dicing cutter 12 is arranged at the end part of the sliding disc 13, and the dicing area and a maintenance area are separated when the sliding disc 13 is matched with a hole site; when the dicing blade 12 moves to the maintenance area, cleaning maintenance is performed in the maintenance area; the maintenance area is provided with a maintenance component, the maintenance component comprises a movable frame 20, a scraper 22 is connected to the movable frame 20, and the scraper 22 slides radially and is matched with the grain cutter 12 so as to scrape the residual materials on the grain cutter 12; the granulating assembly further comprises a granulating motor 11 arranged at the outer side of the connecting box 2, a connecting disc 16 is connected to an output shaft of the granulating motor 11, a sliding shaft 14 is fixedly connected to the connecting disc 16, and the sliding shaft 14 penetrates through the granulating area and the maintenance area; the slide plate 13 is slidably mounted on the slide shaft 14; a movable electric cylinder 15 is arranged on the connecting disc 16, and the movable electric cylinder 15 is used for driving the sliding disc 13 to slide; the maintenance assembly further comprises a driving motor 9 arranged outside the connecting box 2, a driving gear 10 is connected to an output shaft of the driving motor 9, a gear ring 17 is rotatably arranged in the maintenance area, and an extrusion wheel 18 is connected to the end part of the gear ring 17; a pressing rod 21 is fixedly connected to the movable frame 20, and the pressing wheel 18 pushes the pressing rod 21 through pressing so as to enable the movable frame 20 and the scraping plate 22 to slide; a mount ring 19 is connected to the partition 201, a moving frame 20 is slidably connected to the outside of the mount ring 19, and a spring 23 for providing elastic force is connected between the moving frame 20 and the mount ring 19.

Working principle: firstly, processing monochromatic raw materials, namely metering the monochromatic raw materials, performing secondary open mill in an open mill in the banburying process, feeding, performing calendaring sheet discharging through a calendar, performing cooling treatment on sheets, and crushing the sheets into particle sheets of 2-4mm; after the particle raw materials with different colors are subjected to the flow process, the particles with different colors are mixed; the mixed particles are extruded in extrusion equipment 1 and enter a connecting box 2, and in a granulating area, a granulating motor 11 works to drive a connecting disc 16 and a sliding shaft 14 to rotate, namely a sliding disc 13 and a granulating cutter 12 to perform granulating; the slide plate 13 is matched with a hole position on the baffle 201 at the moment so as to separate a grain cutting area and a maintenance area; the particles fall from the bottom of the granulating area to the conveying assembly and work through the conveying motor 24, the conveying shaft 25 conveys the particles into the transfer cylinder 5, the moving motor 27 works, the moving screw rod 26 rotates to enable the feeding pipe 4 to move so as to carry out movable feeding, and the particles are dispersed into the transfer cylinder 5 during feeding; the transfer motor 28 works, the second vibration cylinder 35 and the transfer vibration plate 31 rotate, the second vibration cylinder 35 vibrates the transfer vibration plate 31, the material particles on the transfer vibration plate 31 are vibrated and flattened, the material particles enter the release cylinder 6 from the bottom and fall onto the feeding cylinder 32, the discharging motor 29 works to enable the feeding cylinder 32 to rotate, the first vibration cylinder 34 vibrates the flattening vibration plate 33, and then the material particles on the feeding cylinder 32 are flattened on the feeding cylinder 32; finally, the material particles fall onto the conveying belt 8 from the bottom of the release cylinder 6 in a uniform strip shape, are uniformly distributed on the conveying belt 8, and are further uniformly flattened by the scraping effect of the scraping strips 30; during dicing, materials are adhered to the dicing cutter 12, and the dicing effect is affected due to untimely cleaning and maintenance, so that the sliding plate 13 and the dicing cutter 12 are controlled by the moving electric cylinder 15 to move to a maintenance area, the driving motor 9 works, the gear ring 17 rotates under the transmission of a gear, the compression rod 21 slides under the extrusion action of the extrusion wheel 18, and the moving frame 20 and the scraping plate 22 slide; scraper 22 cooperates with the cutter 12 in a radial direction to effect scraping of residual material from the cutter 12.

Conveying the well-paved material particles to a drum vulcanizer for vulcanization treatment, cooling the formed coiled material, carrying out surface UV wear-resistant treatment, eliminating stress on the coiled material by using an oven, wherein the temperature in the oven is 80 ℃, and then carrying out secondary water cooling treatment, and the water temperature is 10 ℃; and carrying out surface processing treatment on the coiled material, namely trimming and polishing by a special back polisher.

Claims (7)

1. The utility model provides a NBR homogeneity passes through heart floor coiled material production facility, includes extrusion equipment (1), and the discharge end of extrusion equipment (1) is provided with junction box (2), is provided with transportation subassembly, its characterized in that in the bottom of junction box (2): a partition board (201) is connected in the connecting box (2), the partition board (201) isolates the inside of the connecting box (2) into a grain cutting area and a maintenance area, and the discharge end of the extrusion equipment (1) is communicated with the grain cutting area; a hole site is arranged on the baffle plate (201); the granulating area is provided with a granulating assembly, the granulating assembly comprises a sliding disc (13), the end part of the sliding disc (13) is provided with a granulating cutter (12), and the sliding disc (13) is matched with a hole site to separate the granulating area from a maintenance area; when the grain cutter (12) moves to a maintenance area, cleaning and maintenance are carried out in the maintenance area; the maintenance area is provided with a maintenance component, the maintenance component comprises a movable frame (20), a scraping plate (22) is connected to the movable frame (20), and the scraping plate (22) radially slides and is matched with the grain cutter (12) to scrape the residual materials on the grain cutter (12); a flattening and transferring assembly is arranged below the conveying assembly, the flattening and transferring assembly comprises a transferring barrel (5), the bottom end of the transferring barrel (5) is connected with a releasing barrel (6), a through groove is formed between the bottom end of the transferring barrel (5) and the top end of the releasing barrel (6), and a vibration partition plate is rotatably arranged in the transferring barrel (5) to transfer materials in batches; a feeding trough barrel (32) is rotatably arranged in the release barrel (6), a vibration frame is arranged on the inner side of the feeding trough barrel (32) so that materials are flattened on the feeding trough barrel (32), a discharging trough is arranged at the bottom of the release barrel (6), and a scraping strip (30) for scraping the materials is arranged on the outer side of the release barrel (6);

the maintenance assembly comprises a driving motor (9) arranged on the outer side of the connecting box (2), a driving gear (10) is connected to an output shaft of the driving motor (9), a gear ring (17) is rotatably arranged in the maintenance area, and an extrusion wheel (18) is connected to the end part of the gear ring (17); a pressing rod (21) is fixedly connected to the movable frame (20), and the pressing wheel (18) pushes the pressing rod (21) through pressing so as to enable the movable frame (20) and the scraping plate (22) to slide; the baffle (201) is connected with a mounting ring (19), the movable frame (20) is connected with the outer side of the mounting ring (19) in a sliding manner, and a spring (23) for providing elasticity is connected between the movable frame (20) and the mounting ring (19).

2. An apparatus for producing an NBR homogeneous permeable flooring web according to claim 1, wherein: the conveying assembly comprises a conveying cylinder (3), the conveying cylinder (3) is communicated with the bottom end of the granulating area in the connecting box (2), a conveying shaft (25) is rotatably arranged in the conveying cylinder (3), a conveying motor (24) is arranged at one end of the conveying cylinder (3), and the conveying motor (24) is used for driving the conveying shaft (25); the other end of the transport cylinder (3) is movably connected with a delivery pipe (4).

3. An apparatus for producing an NBR homogeneous permeable flooring web according to claim 2, wherein: the delivery pipe (4) is slidably arranged at the top of the transfer cylinder (5), a movable screw rod (26) is rotatably arranged at the top of the transfer cylinder (5), and a movable motor (27) for driving the movable screw rod (26) is arranged to enable the delivery pipe (4) to slide and perform dispersed feeding.

4. An apparatus for producing an NBR homogeneous permeable flooring web according to claim 1, wherein: the flattening and transferring assembly comprises a transferring motor (28) arranged at one end of the transferring cylinder (5), and the transferring motor (28) is used for driving the vibration partition plate; one end of the release cylinder (6) is provided with a discharging motor (29), and the discharging motor (29) is used for driving the feeding cylinder (32); the lower part of the release cylinder (6) is provided with a conveying part for conveying materials, the conveying part comprises a conveying belt (8) and a conveying motor (7) for driving the conveying belt (8).

5. An apparatus for producing an NBR homogeneous permeable flooring web according to claim 4, wherein: the vibration partition plate comprises a vibration cylinder II (35), the vibration cylinder II (35) is provided with a transfer vibration plate (31) in circular array arrangement, and a vibration motor I is arranged in the vibration cylinder II (35) so as to enable the transfer vibration plate (31) to vibrate; the vibration frame comprises a vibration cylinder I (34), the vibration cylinder I (34) is provided with flattening vibration plates (33) in circular array arrangement, and a vibration motor II is arranged in the vibration cylinder I (34) so that the flattening vibration plates (33) vibrate.

6. An apparatus for producing an NBR homogeneous permeable flooring web according to claim 1, wherein: the granulating assembly comprises a granulating motor (11) arranged at the outer side of the connecting box (2), a connecting disc (16) is connected to an output shaft of the granulating motor (11), a sliding shaft (14) is fixedly connected to the connecting disc (16), and the sliding shaft (14) penetrates through the granulating area and the maintenance area; the slide plate (13) is slidably mounted on the slide shaft (14).

7. The apparatus for producing an NBR homogeneous permeable flooring web according to claim 6, wherein: the connecting disc (16) is provided with a moving electric cylinder (15), and the moving electric cylinder (15) is used for driving the sliding disc (13) to slide.