CN115387034B - Metal fiber felt paving machine - Google Patents

Abstract

The invention discloses a metal fiber felt paving machine, which relates to the technical field of paving, and comprises a flattening component, a compacting component, a rolling component and a bottom plate, wherein the flattening component is arranged at the uppermost part of the bottom plate, the flattening component is used for stretching and releasing raw materials to a certain degree, and a plurality of groups of rotating rollers are matched for flattening and paving the raw materials more uniformly so as to control the quality of subsequent procedures; the compacting component is arranged between the flattening component and the rolling component, two different raw materials flattened in the previous working procedure are compacted and shaped, the tensioning and shaping are carried out, the metal fibers are guaranteed to be paved more symmetrically, the rolling component extrudes the two different raw material fibers, and meanwhile, the fibers are staggered by the various types of needles, so that final shaping and felt paving are realized, and the quality of products is guaranteed.

Description

Metal fiber felt paving machine

Technical Field

The invention relates to the technical field of felt paving, in particular to a metal fiber felt paving machine.

Background

The metal felt can be directly filtered at high temperature without complex cooling process, so that the energy consumption is low, and the waste heat can be recycled; meanwhile, downstream equipment can be protected, downstream products can be separated in a single phase, and a plurality of inseparable problems in chemical production are solved. The original metal fiber filter felt manufacturing process is complicated, firstly, metal fibers are pulled and cut or cut off, and then the fibers are placed in a dispersing machine to be dispersed into flocculent fibers, and then the flocculent fibers are sent into an air-flow felt spreading machine to be spread into metal fiber felts, wherein the flocculent metal fiber felts are easy to be unevenly distributed in the air-flow felt spreading machine, and the distribution of manufactured metal felt materials is uneven, so that the quality is affected.

The Chinese patent publication No. CN107090661A discloses a self-spraying metal fiber stretch-breaking felt paving machine, which comprises a pneumatic pressurizing mechanism, a stretch-breaking mechanism, a main transmission mechanism, a self-spraying mechanism and a felt paving mechanism. Although the invention solves the problems that the surface of the metal fiber is easy to be damaged and the generation of the microparticle fiber is easy to occur, the invention fails to solve the problem that the flocculent metal fiber felt is unevenly distributed in the felt laying process.

Disclosure of Invention

Aiming at the technical problems, the invention provides a machine which comprises a bottom plate, a smoothing assembly, a compacting assembly and a rolling assembly, wherein the smoothing assembly is used for smoothing raw materials firstly, then the raw materials enter the compacting assembly to be compacted and tensioned, and finally, metal fibers are mutually staggered and uniformly compacted through the rolling assembly through a plurality of different needles.

The technical scheme adopted by the invention is as follows: the metal fiber felt paving machine comprises a bottom plate, a flattening assembly, a compacting assembly, a rolling assembly and a rolling assembly, wherein the rolling assembly is rotationally arranged on the bottom plate, the rolling assembly comprises a rolling roller rotationally arranged on the bottom plate, a rolling cylinder is rotationally arranged in the rolling roller, a rolling extrusion wheel I and a rolling extrusion wheel II are fixedly arranged at two ends of the rolling cylinder, the rolling extrusion wheel I is movably matched with a rolling sliding column I, the rolling extrusion wheel I is movably matched with a rolling sliding column II, the rolling sliding column I is in sliding fit with a rolling roller fixing plate, the rolling sliding column II is in sliding fit with a rolling roller fixing plate, the rolling roller fixing plate is fixedly arranged on the rolling roller, and a rolling needle I, a rolling needle II, a rolling needle III and a rolling needle IV are slidingly arranged on the rolling roller; the rolling puncture needle IV is fixedly arranged on the rolling sliding column I and the rolling sliding column II.

Further, the first rolling extrusion wheel and the second rolling extrusion wheel are fixedly provided with rolling extrusion rods, one ends of the rolling extrusion rods are rotatably provided with rolling eccentric wheels, rolling extrusion gears are fixedly arranged on the rolling eccentric wheels, and one sides of the rolling extrusion gears are fixedly arranged on output shafts of the rolling motors.

Further, the compacting component comprises a compacting support fixedly arranged on the bottom plate, a compacting small roller turntable is rotationally arranged on the compacting support, a plurality of compacting small rollers symmetrically arranged are rotationally arranged on one side of the compacting small roller turntable, one side of the compacting small rollers is rotationally arranged on the compacting small gears, the compacting small gears are rotationally arranged on the compacting support, the compacting small gears are meshed with a compacting half gear fixedly arranged on a compacting roller II, a compacting large gear II is fixedly arranged on one side of the compacting half gear, a compacting large gear II is meshed with a compacting large gear I, a compacting roller I is fixedly arranged on one side of the compacting large gear I, and the compacting roller I and the compacting roller II are rotationally arranged on the compacting support.

Further, the compressing assembly is rotationally arranged on the bottom plate, one end of the bottom plate is fixedly provided with a flattening support, a flattening motor is fixedly arranged on the flattening support, a flattening Qu Zhoujia I is fixedly arranged on an output shaft of the flattening motor, a flattening Qu Zhoujia II is fixedly arranged on one side of the flattening crankshaft frame I, a flattening Qu Zhoujia III is fixedly arranged on the other side of the flattening crankshaft frame II, and a flattening hinged plate II is fixedly arranged on the flattening crankshaft frame III.

Further, a smoothing crankshaft connecting rod II is rotationally arranged between the smoothing crankshaft frame I and the smoothing crankshaft frame II, the smoothing crankshaft connecting rod II is rotationally arranged on a smoothing fixing support IV, the smoothing fixing support IV is fixedly arranged on a smoothing rotating column II, a smoothing fixing support III is fixedly arranged on the smoothing rotating column II, a smoothing roller II is movably arranged on the smoothing fixing support III, a smoothing rotating support II is movably arranged at one end of the smoothing roller II, and the smoothing rotating support II is rotationally arranged on the smoothing support.

Further, a first straightening crankshaft connecting rod is rotatably arranged between the second straightening crankshaft frame and the third straightening crankshaft frame, the other side of the first straightening crankshaft connecting rod is rotatably arranged on a second straightening fixing support, the second straightening fixing support is fixedly arranged on a first straightening rotating column, a first straightening fixing support is fixedly arranged on the first straightening rotating column, a first straightening roller is movably arranged on one side of the first straightening fixing support, a first straightening rotating support is movably arranged on the other side of the first straightening roller, and the first straightening rotating support is rotatably arranged on the first straightening support.

Further, one side of the second flat hinged plate is connected with a Ping Jiaojie column in a ball hinged manner, the other end of the second flat hinged column is connected to the first flat hinged plate in a ball hinged manner, a flat fixed shaft is fixedly arranged on the first flat hinged plate, and the flat fixed shaft is rotatably arranged on the bottom plate.

Further, the rolling components are symmetrically arranged in a plurality of groups.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the raw materials are relaxed and the raw materials are folded and unfolded to a certain degree by arranging the flattening component, and the raw materials are flattened and paved more uniformly by matching a plurality of groups of rotating rollers, so that the quality of the subsequent process is controlled; through setting up the subassembly that compresses tightly, with two kinds of different raw materials that the process was smoothed out the plane in the last step with the fingers and compress tightly the design, guarantee that metal fiber lays more symmetrically, roll even subassembly and extrude two kinds of different raw materials fibre, the felting needle of multiple different models is crisscross each other with the fibre simultaneously to realize final design and spread felt, guaranteed the quality of product.

Drawings

Fig. 1 is a schematic view (front view) of the whole structure of the present invention.

Fig. 2 is a schematic diagram (side view) of the overall structure of the present invention.

FIG. 3 is a schematic view of a part of the smoothing assembly according to the present invention.

Fig. 4 is a schematic view of a part of the compressing assembly according to the present invention.

Fig. 5 is a schematic diagram showing a partial structure of a compressing assembly according to the present invention.

Fig. 6 is a schematic view of a partial structure of a rolling assembly according to the present invention.

Fig. 7 is a schematic diagram of a partial structure of the rolling assembly according to the present invention.

Fig. 8 is a partial cross-sectional view of a roll-up assembly of the present invention.

Fig. 9 is a schematic diagram of a partial structure of the rolling assembly according to the present invention.

Fig. 10 is a schematic view of the overall structure of the pressing pinion of the present invention.

FIG. 11 is a schematic view of the overall structure of a smooth hinge plate of the present invention.

Reference numerals: 1-flattening out component; 2-a compacting assembly; 3-rolling the component; 4-a bottom plate; 101-flattening a motor; 102-flattening the bracket; 103-flattening the first rotating column; 104-flattening the roller I; 105-flattening the first rotating bracket; 106-flattening the first fixed support; 107-flattening the second fixed bracket; 108-flattening the second rotating bracket; 109-smoothening the first crankshaft frame; 110-flattening a second crankshaft frame; 111-flattening the first crankshaft connecting rod; 112-flattening the second roller; 113-flattening the fixing support III; 114-flattening the second rotating column; 115-flattening the second crankshaft connecting rod; 116-flattening the fixing support IV; 117-flattening the hinge post; 118-flattening the fixed shaft; 119-flattening the third crankshaft frame; 120-flattening the hinged plate I; 121-flattening the second hinged plate; 201, compacting a roller I; 202-compacting small rollers; 203-compacting the pinion; 204-pressing a first large gear; 205-compressing a second large gear; 206, compacting the second roller; 208-compacting the second belt; 209—compacting the half-gear; 210-pressing a small roller turntable; 211-pressing a bracket; 212-compacting belt three; 302, rolling uniformly; 303-rolling an eccentric wheel; 304, rolling and uniformly extruding a wheel I; 305-rolling the extrusion rod; 306-rolling a uniform extrusion wheel II; 307-rolling a roller; 308-rolling and uniformly extruding the gear; 309-rolling the first lancet; 310-rolling a second uniform puncture needle; 311-rolling the third puncture needle; 312-rolling the fourth puncture needle; 313-rolling a roller fixing plate; 314-rolling the sliding column I; 315-rolling a sliding column II; 316-rolling a motor; 317-rolling a uniform cylinder; 318-rolling to uniformly fix the disc.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 and 3, a metal fiber felt paving machine comprises a flattening component 1, a compacting component 2, a rolling component 3 and a bottom plate 4, wherein the flattening component 1 comprises a flattening bracket 102 fixedly arranged on the bottom plate 4, a flattening motor 101 is fixedly arranged on the flattening bracket 102, a flattening Qu Zhoujia I109 is fixedly arranged on an output shaft of the flattening motor 101, a flattening Qu Zhoujia II 110 is fixedly arranged on one side of the flattening crank frame I109, a flattening Qu Zhoujia III 119 is fixedly arranged on the other side of the flattening crank frame II 110, a flattening hinged plate II 121 is fixedly arranged on the flattening crank frame III 119, a flattening Ping Jiaojie post 117 is connected to one side spherical hinge of the flattening hinged plate II 121, the other end spherical hinge of the flattening Ping Jiaojie post 117 is connected to the flattening hinged plate I120, a flattening fixed shaft 118 is fixedly arranged on the flattening hinged plate I120, the flattening fixed shaft 118 is rotationally arranged on the bottom plate 4, and a plurality of posts are rotationally arranged on the flattening fixed shaft 118; a second straightening crankshaft connecting rod 115 is rotatably arranged between the first straightening crankshaft frame 109 and the second straightening crankshaft frame 110, the second straightening crankshaft connecting rod 115 is rotatably arranged on a fourth straightening fixing support 116, the fourth straightening fixing support 116 is fixedly arranged on a second straightening rotating column 114, a third straightening fixing support 113 is fixedly arranged on the second straightening rotating column 114, a second straightening roller 112 is movably arranged on the third straightening fixing support 113, a second straightening rotating support 108 is movably arranged at one end of the second straightening roller 112, and the second straightening rotating support 108 is rotatably arranged on the first straightening support 102; a first straightening crankshaft connecting rod 111 is rotatably arranged between a second straightening crankshaft frame 110 and a first straightening Qu Zhoujia and a third straightening crankshaft 119, the other side of the first straightening crankshaft connecting rod 111 is rotatably arranged on a second straightening fixing support 107, the second straightening fixing support 107 is fixedly arranged on a first straightening rotating column 103, a first straightening fixing support 106 is fixedly arranged on the first straightening rotating column 103, a first straightening roller 104 is slidably arranged on one side of the first straightening fixing support 106, a first straightening rotating support 105 is slidably arranged on the other side of the first straightening roller 104, and the first straightening rotating support 105 is rotatably arranged on the first straightening support 102.

As shown in fig. 4 and 5, the pressing assembly 2 includes a pressing bracket 211 fixedly arranged on the bottom plate 4, a pressing small roller turntable 210 is rotatably arranged on the pressing bracket 211, a plurality of symmetrically arranged pressing small rollers 202 are rotatably arranged on one side of the pressing small roller turntable 210, one side of the pressing small rollers 202 is rotatably arranged on a pressing small gear 203, the pressing small gear 203 is rotatably arranged on the pressing bracket 211, the pressing small gear 203 is meshed with a pressing half gear 209 fixedly arranged on a pressing roller two 206, a pressing large gear two 205 is fixedly arranged on one side of the pressing half gear 209, the pressing large gear two 205 is meshed with a pressing large gear one 204, a pressing roller one 201 is fixedly arranged on one side of the pressing large gear one 204, and the pressing roller one 201 and the pressing roller two 206 are rotatably arranged on the pressing bracket 211; one end of the second pressing belt 208 is in friction fit with the first pressing roller 201, and the other end of the second pressing belt 208 is in friction fit with the rolling fixing disc 318; one end of the third pressing belt 212 is in friction fit with the second pressing roller 206, and the other end of the third pressing belt 212 is in friction fit with the output shaft of the motor.

As shown in fig. 6, 7, 8 and 9, the leveling component 3 comprises a leveling roller 307 rotatably arranged on the bottom plate 4, a leveling cylinder 317 is rotationally arranged on the leveling roller 307, a leveling extrusion wheel 304 and a leveling extrusion wheel two 306 are fixedly arranged at two ends of the leveling cylinder 317, the leveling extrusion wheel one 304 is movably matched with a leveling sliding column one 314, the leveling extrusion wheel one 304 is movably matched with a leveling sliding column two 315, the leveling sliding column one 314 is slidably matched with a leveling roller fixing plate 313, the leveling sliding column two 315 is slidably matched with the leveling roller fixing plate 313, the leveling roller fixing plate 313 is fixedly arranged on the leveling roller 307, and a leveling spike one 309, a leveling spike two 310, a leveling spike three 311 and a leveling spike four 312 are slidably arranged on the leveling roller 307; the rolling needle IV 312 is fixedly arranged on the rolling sliding column I314 and the rolling sliding column II 315; the center of the first rolling extrusion wheel 304 and the center of the second rolling extrusion wheel 306 are fixedly provided with a rolling extrusion rod 305, one end, close to the first rolling extrusion wheel 304, of the rolling extrusion rod 305 is rotatably provided with a rolling eccentric wheel 303, a rolling extrusion gear 308 is fixedly arranged on the rolling eccentric wheel 303, one side of the rolling extrusion gear 308 is fixedly arranged on an output shaft of a rolling motor 316, and the rolling extrusion gear 308 and the rolling extrusion gears on the two groups of symmetrically arranged rolling assemblies 3 are meshed to work together. One end of the uniform extrusion rod 305, which is close to the second uniform extrusion wheel 306, is also rotatably provided with another uniform extrusion eccentric wheel 303, the uniform extrusion eccentric wheel 303 is rotatably arranged on a uniform extrusion fixed disc 318, and the uniform extrusion fixed disc 318 is fixedly connected with the uniform extrusion roller 307; the rolling fixing plate 318 is rotatably arranged on the bottom plate 4, and a gear fixedly arranged on the rolling fixing plate 318 is meshed with the rolling fixing plates on the two groups of symmetrically arranged rolling assemblies 3 to work together; the rolling extrusion gears 308 are meshed with the rolling extrusion gears on the two groups of symmetrically arranged rolling assemblies 3 to work together.

The invention discloses a metal fiber felt paving machine, which has the working principle that: firstly, two different raw materials are placed on a smoothing roller II 112 and a smoothing roller I104, and pass through a rotating column on a smoothing fixed shaft 118, then pass through a pressing roller I201 and a pressing roller II 206, pass through a plurality of groups of symmetrically arranged small pressing roller turntables 210, and finally pass through a symmetrically arranged rolling component 3.

Starting a flattening motor 101, wherein the flattening motor 101 drives a flattening crank frame I109, a flattening crank frame II 110 and a flattening crank frame III 119 to further drive a flattening hinged plate II 121, the flattening hinged plate II 121 drives a flattening hinged plate I120 to rotate back and forth around a flattening fixed shaft 118, raw materials are flattened, a flattening crank connecting rod II 115 and a flattening crank connecting rod I111 pull a flattening roller II 112 and a flattening roller I104 to move back and forth, and the flattening crank connecting rod II 111 are matched with a plurality of rotating columns on the flattening fixed shaft 118 to flatten the raw materials; starting a motor, enabling the smoothed raw materials to pass through the first compression roller 201 and the second compression roller 206 and pass through at least two small compression roller turntables 210 to enter the rolling assembly 3, meshing the first compression large gear 204 with the second compression large gear 205, driving the first compression roller 201 and the second compression roller 206 to rotate so as to compress different raw materials, and when the small compression gears 203 and the half compression gears 209 are meshed, the small compression gears 203 drive the small compression rollers 202 to rotate 180 degrees, so that the raw materials are tensioned, and the simultaneous tensioning and compression are realized.

After the pressed raw materials enter the rolling assembly 3, the pressing belt II 208 transmits power to the rolling assembly 3, the two groups of symmetrically arranged rolling assemblies 3 are meshed through gears fixedly arranged on the rolling drum 307 and work together to drive the rolling drum 307 to rotate, the rolling motor 316 is started, the rolling motor 316 drives the rolling eccentric wheel 303 to rotate to drive the rolling extrusion gear 308 to rotate, and the rolling extrusion gear 308 is meshed with the two groups of symmetrically arranged rolling extrusion gears on the rolling assemblies 3 and work together; and further drives the uniform extrusion rod 305 to rotate, the uniform extrusion rod 305 drives the uniform extrusion wheel I304, the uniform extrusion wheel II 306 and the uniform cylinder 317 to rotate, the uniform extrusion wheel I304 and the uniform extrusion wheel II 306 are movably matched with the uniform sliding column I314 and the uniform sliding column II 315, and further drive the uniform felting needles IV 312, the uniform felting needles III 311, the uniform felting needles II 310 and the uniform felting needles IV 309 to slide in the uniform roller 307, so that different raw material fibers are mutually staggered, and the felt laying work is completed.

Claims (1)

1. A metal fiber felt paving machine, comprising a bottom plate (4), characterized in that: the device comprises a base plate (4), a leveling assembly (1), a pressing assembly (2) and a leveling assembly (3), wherein the leveling assembly (3) is rotationally arranged on the base plate (4), the leveling assembly (3) comprises a leveling roller (307) rotationally arranged on the base plate (4), a leveling cylinder (317) is rotationally arranged in the leveling roller (307), a leveling extrusion wheel I (304) and a leveling extrusion wheel II (306) are fixedly arranged at two ends of the leveling cylinder (317), the leveling extrusion wheel I (304) is movably matched with a leveling sliding column I (314), the leveling extrusion wheel I (304) is movably matched with a leveling sliding column II (315), the leveling sliding column I (314) is in sliding fit with a leveling roller fixing plate (313), the leveling sliding column II (315) is in sliding fit with the leveling roller fixing plate (313), leveling puncture needles (313) are fixedly arranged on the leveling roller (307), and leveling puncture needles (309) and leveling puncture needles (312) are arranged on the leveling roller (307) in a sliding mode; the rolling puncture needle IV (312) is fixedly arranged on the rolling sliding column I (314) and the rolling sliding column II (315);

the center of the first rolling extrusion wheel (304) and the center of the second rolling extrusion wheel (306) are fixedly provided with rolling extrusion rods (305), one ends of the rolling extrusion rods (305) are rotatably provided with rolling eccentric wheels (303), the rolling eccentric wheels (303) are fixedly provided with rolling extrusion gears (308), and one sides of the rolling extrusion gears (308) are fixedly arranged on output shafts of the rolling motors (316);

the pressing assembly (2) comprises a pressing bracket (211) fixedly arranged on a bottom plate (4), a pressing small roller turntable (210) is rotatably arranged on the pressing bracket (211), a plurality of symmetrically arranged pressing small rollers (202) are rotatably arranged on one side of the pressing small roller turntable (210), one side of the pressing small rollers (202) is rotatably arranged on a pressing small gear (203), the pressing small gear (203) is rotatably arranged on the pressing bracket (211), the pressing small gear (203) is meshed with a pressing half gear (209) fixedly arranged on a pressing roller II (206), a pressing large gear II (205) is fixedly arranged on one side of the pressing half gear (209), the pressing large gear II (205) is meshed with a pressing large gear I (204), a pressing roller I (201) is fixedly arranged on one side of the pressing large gear I (204), and the pressing roller I (201) and the pressing roller II (206) are rotatably arranged on the pressing bracket (211);

the pressing assembly (2) is rotatably arranged on the bottom plate (4), a smoothing bracket (102) is fixedly arranged at one end of the bottom plate (4), a smoothing motor (101) is fixedly arranged on the smoothing bracket (102), a smoothing Qu Zhoujia I (109) is fixedly arranged on an output shaft of the smoothing motor (101), a smoothing Qu Zhoujia II (110) is fixedly arranged on one side of the smoothing crankshaft I (109), a smoothing Qu Zhoujia III (119) is fixedly arranged on the other side of the smoothing crankshaft I (110), and a smoothing hinge plate II (121) is fixedly arranged on the smoothing crankshaft I (119);

a second flattening crankshaft connecting rod (115) is rotationally arranged between the first flattening crankshaft frame (109) and the second flattening crankshaft frame (110), the second flattening crankshaft connecting rod (115) is rotationally arranged on a fourth flattening fixing support (116), the fourth flattening fixing support (116) is fixedly arranged on a second flattening rotating column (114), a third flattening fixing support (113) is fixedly arranged on the second flattening rotating column (114), a second flattening roller (112) is movably arranged on the third flattening fixing support (113), a second flattening rotating support (108) is movably arranged at one end of the second flattening roller (112), and the second flattening rotating support (108) is rotationally arranged on the second flattening support (102);

a first smoothing crank connecting rod (111) is rotatably arranged between the second smoothing crank frame (110) and the third smoothing crank frame (119), the other side of the first smoothing crank connecting rod (111) is rotatably arranged on a second smoothing fixed support (107), the second smoothing fixed support (107) is fixedly arranged on a first smoothing rotary column (103), a first smoothing fixed support (106) is fixedly arranged on the first smoothing rotary column (103), a first smoothing roller (104) is movably arranged on one side of the first smoothing fixed support (106), a first smoothing rotary support (105) is movably arranged on the other side of the first smoothing roller (104), and the first smoothing rotary support (105) is rotatably arranged on the first smoothing support (102);

one side of the straightening hinged plate II (121) is connected with a straightening Ping Jiaojie post (117) in a spherical hinge manner, the other end of the straightening Ping Jiaojie post (117) is connected to the straightening hinged plate I (120) in a spherical hinge manner, a straightening fixed shaft (118) is fixedly arranged on the straightening hinged plate I (120), and the straightening fixed shaft (118) is rotatably arranged on the bottom plate (4);

the rolling components (3) are symmetrically arranged in a plurality of groups.