CN111893743A

CN111893743A - Intelligent new spinning material cutting equipment for spinning

Info

Publication number: CN111893743A
Application number: CN202010807221.5A
Authority: CN
Inventors: 李龙泉
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-12
Filing date: 2020-08-12
Publication date: 2020-11-06

Abstract

The invention discloses intelligent new textile material cutting equipment for spinning, which structurally comprises a fixed seat, an unreeling device, a placing table, a cutting host, a motor and a stacking table, wherein the unreeling device is arranged at the right front end of the fixed seat, a rotating roller is tightly abutted against the surface of viscose cloth, a heating wire is heated to generate hot air while a roller body rotates, the viscose cloth is heated and dried, the strength and the wear resistance of the viscose cloth are improved, the viscose cloth is prevented from being torn in the cutting process, a linkage rod slides upwards in a sliding rail, one end of a pressing plate close to a cutter is upwards interlocked and offset, the pressing plates on two sides press the surface of the viscose cloth, the notch is kept smooth, meanwhile, a wiping block and a knife stone are in contact with the surface of the cutter, and the wiping block wipes water remaining on the surface of the cutter, and the rust blocks on the surface of the cutter are polished and removed by the knife stone, so that the cutter is ensured to be sharp.

Description

Intelligent new spinning material cutting equipment for spinning

Technical Field

The invention relates to the field of spinning, in particular to intelligent novel spinning material cutting equipment for spinning.

Background

Viscose is an artificial cellulose fiber, has the advantages of good dyeing property and good wearing comfort, belongs to one of new textile materials, viscose cloth needs to be cut into pieces with proper lengths by a cutter inside a cutting device in the production process, but the viscose is the strongest in moisture absorption in common chemical fibers, the stored viscose cloth piled for a long time easily absorbs moisture from the air, the strength and the wear resistance of the viscose cloth in a wet state are reduced, tearing is easily caused in the cutting process, meanwhile, the moisture absorbed by the viscose cloth is in long-time contact with the cutter, the cutter is easily rusted, and the cutting regularity of the viscose cloth by the cutter is reduced.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the intelligent new textile material cutting device for spinning structurally comprises a fixed seat, an unreeling device, a placing table, a cutting host, a motor and a stacking table, wherein the unreeling device is arranged at the right front end of the fixed seat, the unreeling device is arranged on the upper surface of the fixed seat and is positioned at the right lower end of the placing table, the upper end of the fixed seat is fixed with the bottom of the cutting host, the placing table is positioned below the cutting host, the motor is arranged inside the upper end of the cutting host, the stacking table is arranged at the left end of the fixed seat and is positioned on the same water surface as the placing table, the cutting host comprises a host box, a supporting plate, a propeller, an auxiliary plate, a sliding mechanism and a cutter mechanism, the bottom of the host box is fixedly arranged on the upper surface of the fixed seat, the supporting plate is welded inside the host box, the, the thruster is in transmission connection with the output end of the motor, the auxiliary board is arranged on the outer side of the thruster and fixedly installed inside the mainframe box, the sliding mechanism is fixedly installed inside the mainframe box and positioned above the placing table, the bottom of the thruster is fixedly provided with the cutter mechanism, the cutter mechanism is arranged above the placing table, and the sliding mechanism and the cutter mechanism are in the same vertical direction and are in a vertical state with the placing table.

As a further improvement of the invention, the sliding mechanism comprises an adjusting frame, spring rods, hinge frames and rotating rollers, the top of the adjusting frame is fixedly arranged in the main case, the spring rods are arranged in the adjusting frame, the lower ends of the spring rods are arranged in the upper end of the hinge frames in a clearance fit mode, the lower ends of the hinge frames are hinged with the axes of the rotating rollers, and the number of the spring rods is three and the spring rods are arranged in the upper end of the hinge frames at equal intervals.

As a further improvement of the invention, the rotating roller comprises a roller body, heating wires, hot air ports and sponge cushions, wherein the axis of the roller body is hinged with the lower end of the hinged frame, the heating wires are arranged inside the roller body, the hot air ports are arranged outside the roller body and communicated with the roller body, the sponge cushions are tightly attached to the outer surface of the roller body, the hot air ports are arranged inside the sponge cushions, the number of the hot air ports is eight, the hot air ports are of a structure with a wide inlet and a narrow outlet and are circularly distributed on the outer surface of the roller body, hot air is discharged from the hot air ports by heating of the heating wires, and the number of the sponge cushions is four and are distributed on the outer surface of.

As a further improvement of the invention, the cutter mechanism comprises a support rod, a slide rail, a flattening mechanism and a cutter, the top of the support rod is fixed with the bottom of the propeller, the slide rail is embedded in the outer surface of the support rod, the upper end of the flattening mechanism is slidably mounted in the slide rail, the flattening mechanism is positioned outside the cutter, the top of the cutter is fixed with the bottom of the support rod, four slide rails are arranged, two slide rails are in a group and are respectively arranged on the front side surface and the rear side surface of the support rod, and the flattening mechanism is provided with two slide rails which are respectively connected with the four.

As a further improvement of the invention, the flattening mechanism comprises a linkage rod, a flattening plate and a scraping mechanism, the upper end of the linkage rod is slidably mounted inside the sliding rail, the lower end of the linkage rod is hinged with the flattening plate, the scraping mechanism is mounted inside the flattening plate in a clearance fit manner, the scraping mechanism is positioned outside the cutter, and the flattening plate and the scraping mechanism are in an inclined structure in the initial direction.

As a further improvement of the invention, the scraping mechanism comprises an adjusting plate, a wiping block, a knife stone, a flexible hose and a nozzle, wherein the left end of the adjusting plate is arranged in the pressing plate in a clearance fit manner, the wiping block is fixedly arranged at the lower end of the right side of the adjusting plate, the knife stone is arranged at the upper end of the wiping block, the knife stone is fixedly arranged at the upper end of the right side of the adjusting plate, the flexible hose is arranged in the pressing plate, the right end of the flexible hose is fixed with the left end of the adjusting plate, the left end of the flexible hose is communicated with the lower end of the nozzle, the nozzle is embedded in the upper surface of the pressing plate, the wiping block is made of sponge material and has the characteristic of absorbing moisture, the flexible hose is of a fold-type structure.

The invention has the beneficial effects that:

1. through the elastic adjustment effect of spring beam for the articulated frame is in the inside altitude mixture control that carries on of alignment jig, ensures that live-rollers and viscose fiber cloth surface carry out closely contradicting, and the roll body heater strip heats production steam when carrying out the pivoted, and steam spouts through the hot gas port, heats the stoving to the viscose fiber cloth, improves the intensity and the wearability of viscose fiber cloth, ensures that the viscose fiber cloth can not take place to tear the in-process that cuts off.

2. When the cutter descends to the position of cutting off, the trace up slides in the slide rail is inside, at this moment, the one end that the pressure flat board is close to the cutter up carries out the interlock skew, the pressure flat board of at this moment both sides flattens the surface of glued fibre cloth, ensures that the incision keeps leveling, cleans piece and whetstone and cutter's surface simultaneously and contacts, cleans the remaining moisture in cutter surface at this moment and cleans to the whetstone is polished the rust block on cutter surface and is eradicated, ensures that the cutter keeps sharp.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent new spinning material cutting device for spinning.

Fig. 2 is a schematic side view of an internal structure of a cutting-off main unit according to the present invention.

Fig. 3 is a schematic view of the internal structure of a sliding mechanism according to the present invention.

FIG. 4 is a schematic side view of an internal structure of a rotatable roller according to the present invention.

Fig. 5 is a schematic structural diagram of a cutter mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a pressing mechanism according to the present invention.

Fig. 7 is a schematic view of the internal structure of a scraping mechanism according to the present invention.

In the figure: a fixed seat-1, an unreeling device-2, a placing table-3, a cutting host-4, a motor-5, a stacking table-6, a host cabinet-41, a supporting plate-42, a propeller-43, an auxiliary plate-44, a sliding mechanism-45, a cutter mechanism-46, an adjusting frame-451, a spring rod-452, a hinged frame-453, a rotating roller-454, a roller body-54 a, a heating wire-54 b, a hot air port-54 c, a sponge cushion-54 d, a supporting rod-461, a sliding rail-462, a flattening mechanism-463, a cutter-464, a linkage rod-63 a, a flattening plate-63 b, a scraping mechanism-63 c, an adjusting plate-c 1, a wiping block-c 2, a knife stone-c 3, a telescopic hose-c 4, a knife stone-c 4, Nozzle-c 5, viscose cloth-X.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 4:

the invention relates to intelligent new textile material cutting equipment for spinning, which structurally comprises a fixed seat 1, an unreeling device 2, a placing table 3, a cutting host machine 4, a motor 5 and a stacking table 6, wherein the unreeling device 2 is arranged at the right front end of the fixed seat 1, the unreeling device 2 is arranged on the upper surface of the fixed seat 1 and is positioned at the right lower end of the placing table 3, the upper end of the fixed seat 1 is fixed with the bottom of the cutting host machine 4, the placing table 3 is positioned below the cutting host machine 4, the motor 5 is arranged inside the upper end of the cutting host machine 4, the stacking table 6 is arranged at the left end of the fixed seat 1, the stacking table 6 and the placing table 3 are positioned on the same water surface, the cutting host machine 4 comprises a host machine box 41, a supporting plate 42, a propeller 43, an auxiliary plate 44, a sliding mechanism 45 and a cutter mechanism 46, the bottom of the host machine, the motor 5 is fixedly installed at the back of the supporting plate 42, the pusher 43 is arranged on the front surface of the supporting plate 42, the pusher 43 is in transmission connection with the output end of the motor 5, the auxiliary plate 44 is arranged outside the pusher 43, the auxiliary plate 44 is fixedly installed inside the main case 41, the sliding mechanism 45 is located above the placing table 3, the cutter mechanism 46 is fixedly installed at the bottom of the pusher 43, the cutter mechanism 46 is placed above the placing table 3, the sliding mechanism 45 and the cutter mechanism 46 are in the same vertical direction and are in a vertical state with the placing table 3, and smooth sliding interference and vertical cutting of the viscose fiber cloth X on the table surface of the placing table 3 are facilitated.

The sliding mechanism 45 includes an adjusting frame 451, a spring rod 452, a hinge frame 453, and a rotating roller 454, the top of the adjusting frame 451 is fixedly installed inside the main cabinet 41, the spring rod 452 is installed inside the adjusting frame 451, the lower end of the spring rod 452 is installed inside the upper end of the hinge frame 453 in a clearance fit manner, the lower end of the hinge frame 453 is hinged to the axis of the rotating roller 454, the number of the spring rods 452 is three, and the spring rods are installed inside the upper end of the hinge frame 453 at equal intervals, so that the hinge frame 453 is ensured to perform stable lifting adjustment inside the adjusting frame 451, and the rotating roller 454 is ensured to perform sliding interference with the surface of the viscose cloth X.

The rotating roller 454 comprises a roller body 54a, a heating wire 54b, hot air ports 54c and a sponge pad 54d, wherein the axis of the roller body 54a is hinged to the lower end of the hinge frame 453, the heating wire 54b is arranged inside the roller body 54a, the hot air ports 54c are arranged outside the roller body 54a and are communicated, the sponge pad 54d is tightly attached to the outer surface of the roller body 54a, the hot air ports 54c are arranged inside the sponge pad 54d, the hot air ports 54c are eight in number and are in a structure with a wide inlet and a narrow outlet and are circularly distributed on the outer surface of the roller body 54a, hot air is discharged from the hot air ports 54c by heating of the heating wire 54b, the pressure of the hot air is improved, the moisture inside the viscose fiber cloth X is dried by the hot air, the four sponge pads 54d are arranged and are distributed on the outer surface of the roller body 54a, and the moisture remaining on the surface of the viscose fiber cloth X is favorably, ensuring that the viscose cloth X remains dry.

The specific use mode and function of the embodiment are as follows:

in the invention, the viscose cloth material X is unreeled from the unreeling device 2, then the viscose cloth material X is transported on the placing table 3 and enters the main case 41, in the process of transportation, the height of the hinged frame 453 is adjusted in the adjusting frame 451 through the elastic adjusting function of the spring rod 452, so as to ensure that the rotating roller 454 is in close contact with the surface of the viscose cloth material X, the roller body 54a is heated by the heating wire 54b while rotating to generate hot air, the hot air is sprayed out through the hot air port 54c to heat and dry the viscose cloth material X, the moisture in the viscose cloth material X is removed, meanwhile, the residual moisture on the surface of the viscose cloth material X is removed through the sponge cushion 54d arranged outside the roller body 54a, and then the viscose cloth material X is transported to the lower part of the cutter mechanism 46 to be cut, the strength and the wear resistance of the viscose cloth are improved, and the viscose cloth X is ensured not to be torn in the cutting process.

Example 2:

as shown in fig. 5 to 7:

the cutter mechanism 46 includes a support rod 461, a slide rail 462, a pressing mechanism 463 and a cutter 464, the top of the support rod 461 is fixed to the bottom of the pusher 43, the slide rail 462 is embedded on the outer surface of the support rod 461, the upper end of the pressing mechanism 463 is slidably mounted inside the slide rail 462, the pressing mechanism 463 is located outside the cutter 464, the top of the cutter 464 is fixed to the bottom of the support rod 461, the number of the slide rails 462 is four, the two slide rails are a group and are respectively arranged on the front side surface and the rear side surface of the support rod 461, the pressing mechanism 463 is provided with two parts and is respectively connected with the four slide rails 462, so that the front end and the rear end of the two pressing mechanisms 463 are stably linked inside the four slide rails 462.

The flattening mechanism 463 comprises a linkage rod 63a, a pressing plate 63b and a scraping mechanism 63c, wherein the upper end of the linkage rod 63a is slidably mounted inside the sliding rail 462, the lower end of the linkage rod 63a is hinged with the pressing plate 63b, the scraping mechanism 63c is mounted inside the pressing plate 63b in a clearance fit mode, the scraping mechanism 63c is located outside the cutting knife 464, the pressing plate 63b and the scraping mechanism 63c are in an inclined structure in the initial direction, and the removal of moisture on the surface of the cutting knife 464 and the removal of rust blocks are improved.

Wherein, the scraping mechanism 63c includes an adjusting plate c1, a wiping block c2, a whetstone c3, a flexible hose c4 and a nozzle c5, the left end of the adjusting plate c1 is installed inside the pressing plate 63b by clearance fit, the lower end of the right side of the adjusting plate c1 is fixedly provided with a wiping block c2, the upper end of the wiping block c2 is provided with a whetstone c3, the whetstone c3 is fixedly provided with the upper end of the right side of the adjusting plate c1, the flexible hose c4 is installed inside the pressing plate 63b, the right end of the flexible hose c4 is fixed with the left end of the adjusting plate c1, the left end of the flexible hose c4 is communicated with the lower end of the nozzle c5, the nozzle c5 is embedded on the upper surface of the pressing plate 63b, the wiping block c2 is made of sponge material, has the characteristic of absorbing moisture, can better absorb the moisture remained on the surface of the cutting knife 464, the flexible hose c4 is of a fold type, the nozzle c5 has a structure with a wide inlet and a narrow outlet, so that the jetting capability to air pressure is improved, and the moisture on the surface of the cutting knife 464 is blown off better.

The specific use mode and function of the embodiment are as follows:

in the invention, in the process of cutting the viscose fiber cloth X, the pusher 43 pushes downwards to make the support rod 461 descend to drive the cutter 464 to descend so as to cut the viscose fiber cloth X, when the cutter 464 descends to the cutting position, the linkage rod 63a slides upwards in the slide rail 462, at this time, one end of the pressing plate 63b close to the cutter 464 moves upwards in a linkage manner so as to make the pressing plate 63b and the viscose fiber cloth X parallel to each other, at this time, the pressing plates 63b on both sides flatten the surface of the viscose fiber cloth X, ensure that the cut is kept flat when the cutter 464 cuts, and simultaneously, the adjusting plate c1 extrudes in the pressing plate 63b to make the wiping block c2 and the whetstone c3 contact with the surface of the cutter 464, at this time, the wiping block c2 wipes the water remaining on the surface of the cutter 464, and the flexible hose c4 contracts and conducts air pressure at the same time, the air pressure is finally sprayed out from the nozzle c5, the moisture on the surface of the cutting knife 464 is blown away, and the grinding wheel c3 grinds and scrapes the rust blocks on the surface of the cutting knife 464, so that the cutting knife 464 is ensured to be sharp.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a weaving is with intelligent new material cutting equipment that weaves, its structure includes fixing base (1), unreeling ware (2), places platform (3), cuts off host computer (4), motor (5), stacks platform (6), fixing base (1) right front end is equipped with unreeling ware (2) to surface mounting has unreeling ware (2) to be located and places platform (3) right lower extreme on fixing base (1), fixing base (1) upper end is fixed with cutting off host computer (4) bottom, and places platform (3) and be located and cut off host computer (4) below, cut off inside motor (5) that is equipped with in host computer (4) upper end, stack platform (6) and establish at fixing base (1) left end to stack platform (6) and place platform (3) and be located same surface of water, its characterized in that:

the cutting host (4) comprises a host case (41), a support plate (42), a propeller (43), an auxiliary plate (44), a sliding mechanism (45) and a cutter mechanism (46), wherein the bottom of the host case (41) is fixedly arranged on the upper surface of the fixed seat (1), the support plate (42) is welded inside the host case (41), the motor (5) is fixedly arranged on the back of the support plate (42), the propeller (43) is arranged on the front surface of the support plate (42), the propeller (43) is in transmission connection with the output end of the motor (5), the auxiliary plate (44) is arranged on the outer side of the propeller (43), the auxiliary plate (44) is fixedly arranged inside the host case (41), the sliding mechanism (45) is positioned above the placing table (3), and the cutter mechanism (46) is fixedly arranged at the bottom of the propeller (43), and the cutter mechanism (46) is arranged above the placing table (3).

2. The intelligent new material for spinning cutting equipment for spinning of claim 1, wherein: the sliding mechanism (45) comprises an adjusting frame (451), a spring rod (452), an articulated frame (453) and a rotating roller (454), the top of the adjusting frame (451) is fixedly installed inside the main case (41), the spring rod (452) is arranged inside the adjusting frame (451), the lower end of the spring rod (452) is installed inside the upper end of the articulated frame (453) in a clearance fit mode, and the lower end of the articulated frame (453) is articulated with the axis of the rotating roller (454).

3. The intelligent new material for spinning cutting equipment for spinning of claim 2, wherein: the rotating roller (454) comprises a roller body (54a), a heating wire (54b), a hot air port (54c) and a sponge cushion (54d), the axis of the roller body (54a) is hinged to the lower end of the hinged frame (453), the heating wire (54b) is arranged inside the roller body (54a), the hot air port (54c) is arranged outside the roller body (54a) and communicated with the roller body, the sponge cushion (54d) is tightly attached to the outer surface of the roller body (54a), and the hot air port (54c) is arranged inside the sponge cushion (54 d).

4. The intelligent new material for spinning cutting equipment for spinning of claim 1, wherein: cutter mechanism (46) include bracing piece (461), slide rail (462), flattening mechanism (463), cutter (464), bracing piece (461) top is fixed with propeller (43) bottom, slide rail (462) have been inlayed to bracing piece (461) surface to flattening mechanism (463) upper end slidable mounting is inside slide rail (462), flattening mechanism (463) are located the cutter (464) outside, and cutter (464) top is fixed with bracing piece (461) bottom.

5. The intelligent new material for spinning cutting equipment for spinning of claim 4, wherein: the flattening mechanism (463) comprises a linkage rod (63a), a pressing plate (63b) and a scraping mechanism (63c), wherein the upper end of the linkage rod (63a) is slidably mounted inside the sliding rail (462), the lower end of the linkage rod (63a) is hinged to the pressing plate (63b), the scraping mechanism (63c) is mounted inside the pressing plate (63b) in a clearance fit mode, and the scraping mechanism (63c) is located on the outer side of the cutting knife (464).

6. The intelligent new material for spinning cutting equipment for spinning of claim 5, wherein: the scraping mechanism (63c) comprises an adjusting plate (c1), a wiping block (c2), a knife stone (c3), a telescopic hose (c4) and a nozzle (c5), wherein the left end of the adjusting plate (c1) is installed inside the pressing plate (63b) in a clearance fit mode, the lower end of the right side of the adjusting plate (c1) is fixedly provided with the wiping block (c2), the upper end of the wiping block (c2) is provided with the knife stone (c3), the upper end of the right side of the adjusting plate (c1) is fixedly installed on the knife stone (c3), the telescopic hose (c4) is installed inside the pressing plate (63b), the right end of the telescopic hose (c4) is fixed to the left end of the adjusting plate (c1), the left end of the telescopic hose (c4) is communicated with the lower end of the nozzle (c5), and the nozzle (c5) is embedded in the upper surface of the pressing plate.