CN113322657B - Fiber cloth cutting device and cutting process - Google Patents

Abstract

The invention relates to a fiber cloth cutting device and a cutting process, which comprises a base plate, an adjusting mechanism, a cutting mechanism, a guide mechanism, a discharging mechanism and a positioning mechanism, wherein the adjusting mechanism is installed on the base plate, the cutting mechanism, the guide mechanism and the positioning mechanism are installed on the adjusting mechanism, and the discharging mechanism is installed at the right end of the base plate; 2. the radius of the cutting knife cannot be adjusted by the conventional cloth cutting equipment, so that the fiber cloth can only be cut into round surfaces with the same radius, and the cutting style is single.

Description

Fiber cloth cutting device and cutting process

Technical Field

The invention relates to the technical field of cloth cutting, in particular to a fiber cloth cutting device and a fiber cloth cutting process.

Background

The application aspect of the fiber cloth is deep and wide enough to influence various living surfaces of people, the fiber cloth is beneficial to being used for clothes, the surface of an equipment shell and even building materials, the fiber cloth has excellent water absorption, air permeability, sweat discharging performance and the like, so that the fiber cloth can become an excellent material for producing the clothes, and the fiber cloth is usually required to be cut into a round-surface-shaped material when producing the clothes, so that the clothes can be conveniently made.

However, when the conventional fiber cloth cutting equipment is used for cutting the fiber cloth, the cloth is smooth and stable positioning operation is not performed on the fiber cloth, so that the cloth is easy to wrinkle during cutting, the cutting quality of the cloth is directly affected, and the cloth is damaged during cutting; 2. the radius of the cutting knife cannot be adjusted by the conventional cloth cutting equipment, so that the fiber cloth can only be cut into round surfaces with the same radius, and the cutting style is single.

Disclosure of Invention

Technical problem to be solved

The invention provides a fiber cloth cutting device and a fiber cloth cutting process, which can solve the problems of the fiber cloth in cutting.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that the fiber cloth cutting and processing device comprises a bottom plate, an adjusting mechanism, a cutting mechanism, a guiding mechanism, a discharging mechanism and a positioning mechanism, wherein the adjusting mechanism is installed on the bottom plate, the cutting mechanism, the guiding mechanism and the positioning mechanism are installed on the adjusting mechanism, and the discharging mechanism is installed at the right end of the bottom plate.

Adjustment mechanism include U type frame, connecting rod, L template, a motor, positioning gear, location cylinder, locating piece, power rod, slip round bar and push rod, the bottom plate on the left and right sides symmetry install U type frame, the connecting rod is installed to upside front and back symmetry between the inner wall at both ends about the U type frame, logical groove has been seted up from left end to right-hand member on the connecting rod, logical inslot right side common sliding connection has the push rod, the propulsion groove has been seted up on the push rod, be located and install the L template on the U type frame on right side on the bottom plate, install a motor on the L template, a motor output passes the L template and installs positioning gear, power rod is installed to positioning gear lower extreme, the slip round bar is installed to the power rod lower extreme, and the slip round bar passes through sliding fit's mode and installs in advancing the inslot, install the location cylinder on the inner wall of L template left side, the locating piece is installed to location cylinder output, it facilitates cutting of fibre cloth.

The cutting mechanism include rectangular plate, square pole, sliding plate, back position board, no. two motors, adjusting threaded rod, L form pole, U form pole, no. three motors and power threaded rod, the connecting rod on lead to the common sliding connection in groove middle part and have the rectangular plate, the central point of rectangular plate right-hand member outer wall puts the department and installs the square pole, the square pole right-hand member is connected on pushing ram left side outer wall, from front end to rear end seted up the wear groove on the rectangular plate, wear the inslot and install the sliding plate through sliding fit's mode, the adjusting threaded groove has been seted up on the sliding plate left side, the back position board is installed to the front-back symmetry on the rectangular plate left end outer wall, the return plate front side outer wall that lies in front end on the rectangular plate installs No. two motors, no. two motor output pass the return plate and install adjusting threaded rod, adjusting threaded rod rear end installs on the back position board that lies in the rectangular plate upper end through sliding fit's mode, and adjusting threaded rod installs in adjusting threaded rod through screw fit's mode and install in adjusting threaded groove, the through the sliding plate sliding fit's mode, the through the U form pole installs the lower extreme and install the power threaded rod, the branch pole on the sliding plate, the through the power threaded rod, the through the center point of adjusting threaded rod installs the branch of the U form pole, the branch of the motor installs the branch of the U form pole, the branch is installed on the sliding plate, the motor installs the branch is installed on the U form of the sliding rod, the branch is installed on the motor, the adjusting threaded rod, the branch is installed on the motor, the branch of the power threaded rod.

The cutting branch chain comprises a positioning circular frame, a propping spring rod, a T-shaped circular ring, a fourth motor, a rotating rod, a T-shaped arc plate, a fifth motor, a sliding block, a cutting threaded rod and a cutting sharp knife, wherein the lower end of the L-shaped rod is provided with the positioning circular frame, the side wall of the lower end of the positioning circular frame is provided with a T-shaped annular groove along the circumferential direction, the inner wall of the lower side of the positioning circular frame is provided with the T-shaped annular groove, the T-shaped circular ring is arranged in the T-shaped annular groove in a sliding fit manner, the propping spring rod is uniformly arranged on the outer wall of the upper end of the T-shaped circular ring and positioned in the T-shaped annular groove along the circumferential direction, the upper end of the propping spring rod is connected onto the inner wall of the T-shaped annular groove, the positions of the circle centers of the inner wall of the lower end of the L-shaped rod and the positioning circular frame are provided with the propping spring rod, and the fourth motor is arranged on the inner wall of the groove, the rotary rod is installed to No. four motor output ends, rotary rod upper end mid-mounting has T form arc board, and T form arc board passes through the normal running fit's mode and installs in T form annular, the square groove is installed to the rotary rod lower extreme, the sliding block is installed through the normal running fit's mode in the square groove, it installs and cuts the sharp sword to lie in its central point department on the outer wall of sliding block lower extreme, seted up on the sliding block and cut the thread groove, install No. five motors on the inner wall of square groove right side, no. five motor output ends are installed and are cut the threaded rod, it installs on the inner wall of square groove left side through normal running fit's mode to cut the threaded rod left end, and cut the threaded rod and install through thread fit's mode and cut the thread groove, can adjust the radius that cuts the sharp sword, the pattern that cuts of fibre cloth has been increased.

The guide mechanism comprises a square plate, a tightening cylinder, a U panel, a tightening round rod, a tightening round roller, an auxiliary round rod and an auxiliary round roller, sliding grooves are symmetrically formed in the inner walls of the front end and the rear end of the U-shaped frame, the U panel is connected in the sliding grooves in a sliding mode, the tightening round rod is installed between the inner walls of the front end and the rear end of the U panel, the tightening round roller is installed on the tightening round rod in a rotating fit mode, the square plate is installed between the inner walls of the front end and the rear end of the U-shaped frame and located on the upper side of the sliding grooves, the tightening cylinder is installed in the center of the upper end of the square plate, the output end of the tightening cylinder penetrates through the square plate to be connected with the U panel, the tightening groove is formed in the left end of the bottom plate, the auxiliary round rod is installed between the inner walls of the front end and the rear end of the tightening groove and located on the lower side of the tightening round roller, the auxiliary round roller is installed on the auxiliary round rod in a rotating fit mode, and the auxiliary round roller and the tightening round roller are matched with each other, so that stable conveying operation can be carried out on fiber cloth.

According to a preferred technical scheme, the discharging mechanism comprises a flat plate, an L-shaped panel, a six-motor, a driving gear, a round discharging rod, round discharging rollers, a discharging belt, a driven gear, a round driven rod, a round driven roller and a driven belt, wherein a flat groove is formed in the right end of the bottom plate, the round discharging rods are symmetrically installed between the inner walls of the front end and the rear end of the flat groove in a left-right matching mode, the round discharging rollers are installed on the round discharging rods and connected through the discharging belt, the round discharging rod located on the left side in the flat groove penetrates through the inner wall of the rear side of the flat groove and is provided with the driving gear, the L-shaped panel is installed on the outer wall of the rear end of the bottom plate, the six-motor is installed on the L-shaped panel, the output end of the six-motor is connected to the driving gear, the flat plate is symmetrically installed on the front side and the rear side of the flat groove on the bottom plate, the round driven rod is installed on the left side and right side of the inner wall of the flat plate in a rotating matching mode, the round driven roller is installed on the driven roller, the driven roller and the driven roller is connected through the driven belt, the driven belt and the driven gear is matched with the driving gear, and the fiber can be used for stable fiber distribution operation.

According to a preferred technical scheme, the positioning mechanism comprises a top plate, a telescopic cylinder, an L-shaped rod, a clamping plate, a propulsion cylinder and a positioning plate, the top plate is mounted between the inner walls of the left end and the right end of the U-shaped frame, a long groove is formed in the top plate, a through hole is formed in the inner wall of the long groove, the L-shaped rod is mounted in the through hole in a sliding fit mode, the telescopic cylinder is mounted on the outer wall of the top plate and located on the right side of the through hole, the output end of the telescopic cylinder is connected to the L-shaped rod, the clamping plate is mounted on the L-shaped rod and located in the long groove, a clamping groove is formed in the outer wall of the lower end of the clamping plate, the propulsion cylinder is mounted at the center position of the inner wall of the upper end of the clamping groove, the positioning plate is mounted at the output end of the propulsion cylinder, and the positioning plate is mounted in the clamping groove in a sliding fit mode, so that the positioning plate can perform stable positioning operation on fiber cloth.

As a preferred technical scheme of the invention, the outer wall of the left end of the positioning block is provided with an arc surface groove, the inner wall of the arc surface groove is uniformly provided with tooth grooves along the circumferential direction, and the tooth grooves and the positioning gear are mutually matched for use, so that the positioning block can perform stable positioning operation on the positioning gear.

As a preferred technical scheme of the invention, the lower end of the bottom plate is uniformly provided with the supporting rods, so that a stable working environment is provided for cutting the fiber cloth.

As a preferred technical scheme of the invention, a guide round rod is arranged between the inner walls of the front end and the rear end of the abutting groove at the left end of the bottom plate and positioned at the left side of the auxiliary round roller, and the guide round rod is provided with the guide round roller in a rotating fit manner, so that convenience is provided for conveying fiber cloth.

In addition, the invention also provides a fiber cloth cutting processing technology, which comprises the following steps:

s1, manually unreeling fiber cloth to a position of a guide round roller through existing feeding equipment, manually drawing the fiber cloth to sequentially pass through a guide mechanism, a cutting mechanism and a discharging mechanism, and manually drawing the fiber cloth to a proper discharging position;

s2, when the fiber cloth penetrates through the space between the abutting round roller and the auxiliary round roller, the abutting air cylinder drives the U panel to move towards the lower end, the U panel drives the abutting round rod to move towards the lower end, and the abutting round rod drives the abutting round roller to move towards the lower end, so that the abutting round roller abuts the fiber cloth on the auxiliary round roller;

s3, after the fiber cloth is pulled to a proper cutting position, the telescopic cylinder drives the L-shaped rod to move, the L-shaped rod drives the clamping plate to move to the edge positions of the front end and the rear end of the fiber cloth, and the air cylinder is pushed to drive the positioning plate to move towards the lower end, so that the positioning plate performs positioning operation on the front side and the rear side of the fiber cloth;

s4, after the positioning operation of the positioning plate on the front side and the rear side of the fiber cloth is completed, a motor drives a positioning gear to rotate, the positioning gear drives a power rod to rotate, the power rod drives a sliding round rod to rotate, the sliding round rod slides in a pushing groove on a pushing rod, the sliding round rod drives the pushing rod to move to a proper cutting position, and a positioning cylinder drives a positioning block to move towards the left end, so that a tooth socket on the positioning block performs positioning operation on the positioning gear;

s5, after the positioning operation of a tooth groove on the positioning block on the positioning gear is completed, a second motor drives a regulating threaded rod to rotate, the regulating threaded rod drives a sliding plate to move to a proper cutting position in a thread matching mode, the sliding plate drives a positioning circular frame to move to a proper cutting position in an L-shaped rod, a fifth motor drives the cutting threaded rod to rotate, the cutting threaded rod drives a sliding block to move to take the proper cutting position in the thread matching mode, the sliding block drives a cutting sharp knife to move to take the proper cutting position, the rotating radius of the cutting sharp knife is adjusted, a third motor drives a power threaded rod to rotate, the power threaded rod drives an L-shaped rod to move towards the lower end in the thread matching mode, the L-shaped rod drives the positioning circular frame to move towards the lower end, the positioning circular frame drives the cutting sharp knife to abut against the fiber cloth through a rotating rod and the sliding block, meanwhile, the positioning circular frame drives an abutting spring rod to move through a T-shaped circular ring, the abutting spring rod is in a compression state, and the T-shaped circular ring is used for positioning operation on the fiber cloth;

s6, after the positioning operation of the fiber cloth is completed by the T-shaped circular ring, the fourth motor drives the rotary rod to rotate for one circle, the rotary rod drives the sliding block to rotate for one circle, and the sliding block drives the cutting sharp knife to rotate for one circle, so that the cutting sharp knife cuts the fiber cloth, cuts the fiber cloth into a circular shape, and can cut the fiber cloth;

s7, after the cutting operation of the fiber cloth is finished, the third motor drives the power threaded rod to rotate reversely, the power threaded rod drives the L-shaped rod to move towards the upper end in a thread matching mode, the L-shaped rod drives the positioning circular frame to move towards the upper end, the positioning circular frame drives the cutting sharp knife to move towards the upper end to the initial position through the rotating rod and the sliding block, the air propelling cylinder drives the positioning plate to move towards the upper end to the initial position, the telescopic cylinder drives the L-face rod to move, and the L-face rod drives the clamping plate to move to the initial position;

s8, after L face pole drives the cardboard and moves initial position department, no. six motors drive the driving gear and rotate, the driving gear drives ejection of compact round bar and rotates, ejection of compact round bar drives ejection of compact round roller and rotates, ejection of compact round roller drives ejection of compact area and rotates, and simultaneously, the driving gear passes through gear engagement' S mode and drives driven gear and rotate, driven gear drives driven round bar and rotates, driven round bar drives driven round roller and rotates, driven round roller drives driven belt and rotates, through the friction operation of driven area and ejection of compact area to the fibre cloth, make driven area and ejection of compact area can carry out ejection of compact operation to the fibre cloth, repeat above operation, can cut the operation to the fibre cloth in succession.

(III) advantageous effects

1. The invention can solve the following problems existing in the cutting of the existing fiber cloth, namely, when the traditional fiber cloth cutting equipment is used for cutting the fiber cloth, the cloth is smooth and stable positioning operation is not carried out on the fiber cloth, so that the cloth is easy to wrinkle during cutting, the cutting quality of the cloth is directly influenced, and the cloth is damaged during cutting; 2. the radius of the cutting knife cannot be adjusted by the conventional cloth cutting equipment, so that the fiber cloth can only be cut into round surfaces with the same radius, and the cutting style is single.

2. The adjusting mechanism, the cutting mechanism and the cutting branch chain drive the long strip plate to move to a proper cutting position through the sliding round rod and the pushing rod, drive the positioning round frame to move to the proper cutting position through the second motor and the third motor, can adjust the cutting position of the cutting sharp knife, drive the sliding block and the cutting sharp knife to move to a proper cutting radius through the fifth motor and the cutting threaded rod, can adjust the cutting position of the cutting sharp knife, increase the cutting style of fiber cloth, and improve the cutting quality of the fiber cloth through the positioning operation of abutting against the spring rod and the T-shaped ring to the fiber cloth, and the phenomenon of fiber cloth wrinkles cannot occur.

3. The guide mechanism, the discharging mechanism and the positioning mechanism are used for positioning the fiber cloth through the positioning plate, so that convenience is provided for cutting the fiber cloth, the conveying quality of the fiber cloth is improved through mutual abutting operation of the auxiliary round roller and the abutting round roller, and the fiber cloth is driven to discharge through the discharging belt and the driven belt, so that the cutting of the fiber cloth is facilitated.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a partial cross-sectional view (from front to back) of FIG. 1 of the present invention;

FIG. 3 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 2 in accordance with the present invention;

FIG. 5 is a cross-sectional view taken along line C-C of FIG. 2 of the present invention;

FIG. 6 is an enlarged schematic view taken at M of FIG. 2 in accordance with the present invention;

FIG. 7 is an enlarged schematic view taken at N of FIG. 3 in accordance with the present invention;

FIG. 8 is a partial schematic view (looking down and up) of the adjustment mechanism of the present invention;

fig. 9 is a partial structural schematic view of the cutting mechanism of the present invention;

FIG. 10 is a schematic view of a partial structure of a trimming branch of the present invention (viewed from below to above);

FIG. 11 is a partial schematic view of the discharge mechanism of the present invention;

fig. 12 is a schematic diagram of the operation of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 12, a fiber cloth cutting device comprises a base plate 1, an adjusting mechanism 2, a cutting mechanism 3, a guiding mechanism 4, a discharging mechanism 5 and a positioning mechanism 6, wherein the adjusting mechanism 2 is installed on the base plate 1, the cutting mechanism 3, the guiding mechanism 4 and the positioning mechanism 6 are installed on the adjusting mechanism 2, and the discharging mechanism 5 is installed at the right end of the base plate 1.

The guide mechanism 4 comprises a square plate 41, a tight abutting cylinder 42, a U-shaped panel 43, a tight abutting round rod 44, a tight abutting round roller 45, an auxiliary round rod 46 and an auxiliary round roller 47, sliding grooves are symmetrically formed in the inner walls of the front end and the rear end of the U-shaped frame 2a, the U-shaped panel 43 is connected in the sliding grooves in a sliding mode, the tight abutting round rod 44 is installed between the inner walls of the front end and the rear end of the U-shaped panel 43, the tight abutting round roller 45 is installed on the tight abutting round rod 44 in a rotating fit mode, the square plate 41 is installed between the inner walls of the front end and the rear end of the U-shaped frame 2a and located on the upper side of the sliding grooves, the tight abutting cylinder 42 is installed at the central position of the upper end of the square plate 41, the output end of the tight abutting cylinder 42 penetrates through the square plate 41 to be connected with the U-shaped panel 43, a tight abutting groove is formed in the left end of the bottom plate 1, the auxiliary round rod 46 is installed between the inner walls of the front end and the back end of the tight abutting round roller 45, the auxiliary round rod 46 is installed in a rotating fit mode, and the auxiliary round roller 47 is installed in a matching mode with the tight abutting round roller 45.

The inner walls of the front end and the rear end of the abutting groove at the left end of the bottom plate 1 are positioned between the inner walls of the front end and the rear end of the abutting groove and positioned on the left side of the auxiliary round roller 47, a guide round rod 11 is arranged, and a guide round roller 12 is arranged on the guide round rod 11 in a rotation fit mode.

The fiber cloth is manually unreeled to the position of the guide round roller 12 through the existing feeding equipment, the fiber cloth is manually pulled to sequentially pass through the guide mechanism 4, the cutting mechanism 3 and the discharging mechanism 5, and the fiber cloth is manually pulled to a proper discharging position.

When the fiber cloth penetrates between the abutting round roller 45 and the auxiliary round roller 47, the abutting air cylinder 42 drives the U-shaped panel 43 to move towards the lower end, the U-shaped panel 43 drives the abutting round rod 44 to move towards the lower end, and the abutting round rod 44 drives the abutting round roller 45 to move towards the lower end, so that the abutting round roller 45 abuts the fiber cloth on the auxiliary round roller 47.

The adjusting mechanism 2 comprises a U-shaped frame 2a, a connecting rod 2b, an L-shaped plate 2c, a first motor 2d, a positioning gear 2e, a positioning cylinder 2f, a positioning block 2g, a power rod 2h, a sliding round rod 2i and a push rod 2j, the U-shaped frame 2a is symmetrically installed on the left side and the right side of the bottom plate 1, the connecting rod 2b is symmetrically installed on the front side and the back side of the upper side of the inner wall of the left end and the right end of the U-shaped frame 2a, a through groove is formed in the connecting rod 2b from the left end to the right end, the push rod 2j is jointly connected to the right side in the through groove in a sliding mode, the L-shaped plate 2c is installed on the U-shaped frame 2a on the right side of the bottom plate 1, the first motor 2d is installed on the L-shaped plate 2c, the positioning gear 2e is installed at the output end of the first motor 2d after penetrating through the L-shaped plate 2c, the power rod 2h is installed at the lower end of the positioning gear 2e, the sliding round rod 2h is installed at the lower end of the sliding round rod 2i, the sliding round rod 2i is installed in the sliding round rod 2i, the positioning cylinder 2f is installed on the inner wall of the positioning cylinder 2c in a sliding fit mode, and the positioning block 2f is installed on the inner wall of the positioning cylinder 2g.

The outer wall of the left end of the positioning block 2g is provided with a cambered groove, the inner wall of the cambered groove is uniformly provided with tooth grooves along the circumferential direction, and the tooth grooves and the positioning gear 2e are matched with each other for use.

The lower end of the bottom plate 1 is uniformly provided with support rods.

The cutting mechanism 3 comprises a long strip plate 3a, a square rod 3b, a sliding plate 3c, a return plate 3d, a second motor 3e, an adjusting threaded rod 3f, an L-shaped rod 3g, a U-shaped rod 3h, a third motor 3i and a power threaded rod 3j, the middle part of a through groove on the connecting rod 2b is jointly connected with a strip plate 3a in a sliding manner, a square rod 3b is arranged at the central position of the outer wall of the right end of the strip plate 3a, the right end of the square rod 3b is connected with the outer wall of the left side of the push rod 2j, a through groove is arranged from the front end to the rear end of the strip plate 3a, a sliding plate 3c is arranged in the through groove in a sliding fit manner, an adjusting thread groove is arranged on the left side of the sliding plate 3c, return plates 3d are symmetrically arranged on the front and back of the outer wall of the left end of the strip plate 3a, a second motor 3e is arranged on the outer wall of the front side of the return plate 3d at the front end of the strip plate 3a, an output end of the second motor 3e penetrates through the return plate 3d to be provided with an adjusting threaded rod 3f, the rear end of the adjusting threaded rod 3f is arranged on the return plate 3d at the upper rear end of the strip plate 3a in a rotating fit manner, the adjusting threaded rod 3f is arranged in the adjusting threaded groove in a threaded fit mode, the center of the sliding plate 3c is provided with a through hole, the left end of the sliding plate 3c is provided with a U-shaped rod 3h, the inside of the U-shaped rod 3h is provided with an L-shaped rod 3g in a sliding fit mode, and the L-shaped rod 3g is arranged in the through hole in a sliding fit mode, the lower end of the L-shaped rod 3g is provided with a cutting branch chain 32, the L-shaped rod 3g is provided with a power thread groove, the central position of the outer wall of the upper end of the U-shaped rod 3h is provided with a third motor 3i, the output end of the third motor 3i penetrates through the U-shaped rod 3h to be provided with a power thread rod 3j, the lower end of the power thread rod 3j is arranged on the sliding plate 3c in a rotating fit mode, and the power thread rod 3j is arranged in the power thread groove in a thread fit mode.

Cutting branch chain 32 including location circle frame 32a, support tight spring bar 32b, T type ring 32c, no. four motor 32d, rotary rod 32e, T form arc board 32f, no. five motor 32g, sliding block 32h, cut threaded rod 32i and cut sharp sword 32j, L form pole 3g lower extreme install location circle frame 32a, seted up T type annular along its circumference direction on the lateral wall of location circle frame 32a lower extreme, seted up T form annular on the inboard wall of location circle frame 32a downside, install T type ring 32c through sliding fit's mode in the T type annular, T type ring 32c upper end outer wall is gone up and is located T type ring inslot and evenly installs along its circumference direction and support tight spring bar 32b, support tight spring bar 32b upper end and connect on T inslot wall, L form pole 3g lower extreme inner wall and location of the centre of circle position department of location circle frame 32a set up flutedly, install No. four motor 32d on the recess inner wall, no. four motor 32d output end installs rotary rod 32e, 32e upper end installs rotary rod 32f on the rotary rod, install the left side of the square groove 32h through the square groove 32h, install the sliding fit mode of cutting the square groove 32h, the sliding bar 32i, install the left side of cutting the square groove 32h and install the square groove 32e through the square groove 32h, the sliding fit mode of cutting the sliding fit of cutting the sliding bar 32i, the sliding block 32i, the sliding bar 32h, the sliding bar 32i installs the left side of cutting the square groove.

Positioning mechanism 6 include roof 61, telescopic cylinder 62, L face pole 63, cardboard 64, propulsion cylinder 65 and locating plate 66, U type frame 2a control between the inner wall at both ends the downside install roof 61, rectangular groove has been seted up on roof 61, seted up the perforation on the rectangular inslot wall, install L face pole 63 through sliding fit's mode in the perforation, telescopic cylinder 62 is installed on roof 61 outer wall and on being located the perforation right side, telescopic cylinder 62 output is connected on L face pole 63, L face pole 63 is gone up and is located rectangular inslot and install cardboard 64, the draw-in groove has been seted up on the outer wall of cardboard 64 lower extreme, the central point department of putting of draw-in groove upper end inner wall installs propulsion cylinder 65, propulsion cylinder 65 output is installed locating plate 66, and locating plate 66 installs in the draw-in groove through sliding fit's mode.

After the fiber cloth draws suitable cutting position department, telescopic cylinder 62 drives L face pole 63 motion, and L face pole 63 drives cardboard 64 and moves the marginal position department at both ends around the fiber cloth, impels cylinder 65 to drive the motion of locating plate 66 lower extreme for locating plate 66 fixes a position the operation to the front and back both sides of fiber cloth.

After the location operation of locating plate 66 to both sides around the fibre cloth is accomplished, a motor 2d drives positioning gear 2e and rotates, a motor 2d is the motor that just reverses, positioning gear 2e drives power rod 2h and rotates, power rod 2h drives slip round bar 2i and rotates, make slip round bar 2i slide in the propulsion inslot on propulsion pole 2j, make slip round bar 2i drive propulsion pole 2j and move suitable cutting position department, location cylinder 2f drives locating piece 2g left end motion, make the tooth's socket on the locating piece 2g carry out the location operation to positioning gear 2 e.

After the positioning operation of the tooth socket on the positioning block 2g on the positioning gear 2e is completed, the second motor 3e drives the adjusting threaded rod 3f to rotate, the second motor 3e is a forward and reverse rotating motor, the adjusting threaded rod 3f drives the sliding plate 3c to move to a proper cutting position in a thread fit mode, the sliding plate 3c drives the positioning circular frame 32a to move to a proper cutting position through the L-shaped rod 3g, the fifth motor 32g drives the cutting threaded rod 32i to rotate, the fifth motor 32g is a forward and reverse rotating motor, the cutting threaded rod 32i drives the sliding block 32h to move with a proper cutting position in a thread fit mode, the sliding block 32h drives the cutting sharp knife 32j to move with a proper cutting position, the rotating radius of the cutting sharp knife 32j is adjusted, the third motor 3i drives the power screw rod 3j to rotate, the third motor 3i is a forward and reverse rotating motor, the power screw rod 3j drives the L-shaped rod 3g to move downwards in a thread fit mode, the L-shaped rod 3g drives the positioning circular frame 32a to move downwards, the positioning circular frame 32a is in a cloth pressing state, and the sliding block 32b is in a cloth pressing state, and the fiber ring 32b, and the fiber ring is pressed by the positioning circular frame 32b, and the fiber ring pressing ring 32 b;

after the positioning operation of the fiber cloth is completed by the T-shaped ring 32c, the fourth motor 32d drives the rotating rod 32e to rotate for one circle, the rotating rod 32e drives the sliding block 32h to rotate for one circle, and the sliding block 32h drives the cutting tip 32j to rotate for one circle, so that the cutting tip 32j performs cutting operation on the fiber cloth, the fiber cloth is cut into a round shape, and the cutting operation can be performed on the fiber cloth.

Discharge mechanism 5 include dull and stereotyped 5a, L panel 5b, no. six motor 5c, driving gear 5d, ejection of compact round bar 5e, ejection of compact round roller 5f, ejection of compact area 5g, driven gear 5h, driven round bar 5i, driven round roller 5j and driven belt 5k, 1 right-hand member of bottom plate seted up the flat groove, install ejection of compact round bar 5e through normal running fit's mode bilateral symmetry around the flat groove between the inner wall of both ends, install ejection of compact round roller 5f on the ejection of compact round bar 5e, be connected through ejection of compact area 5g between the ejection of compact round roller 5f, be located left ejection of compact round bar 5e in the flat groove and pass flat groove rear side inner wall and install driving gear 5d, install L panel 5b on the outer wall of bottom plate 1 rear end, install No. six motor 5c on the L panel 5b, no. six motor 5c output are connected on driving gear 5d, dull and stereotyped 5a are installed to the bottom plate 1 bilateral symmetry around the flat groove through normal running fit's mode around the flat plate 5a, install driven round bar 5i on the driven round bar 5i, install driven round bar 5j on the driven round bar 5h, 5h and driven round roller 5h are located the driven belt 5h and are connected through the driven belt 5h and driven belt 5h, and use the driven gear 5a and driven belt 5h mutually.

After the cutting operation of the fiber cloth is finished, the third motor 3i drives the power threaded rod 3j to rotate reversely, the power threaded rod 3j drives the L-shaped rod 3g to move upwards in a thread matching mode, the L-shaped rod 3g drives the positioning circular frame 32a to move upwards, the positioning circular frame 32a drives the cutting sharp knife 32j to move upwards to the initial position through the rotating rod 32e and the sliding block 32h, the pushing cylinder 65 drives the positioning plate 66 to move upwards to the initial position, the telescopic cylinder 62 drives the L-face rod 63 to move, and the L-face rod 63 drives the clamping plate 64 to move to the initial position;

after L face pole 63 drove cardboard 64 and moved initial position department, no. six motors 5c drive driving gear 5d and rotate, driving gear 5d drives ejection of compact pole 5e and rotates, ejection of compact pole 5e drives ejection of compact round roller 5f and rotates, ejection of compact round roller 5f drives ejection of compact area 5g and rotates, and simultaneously, driving gear 5d drives driven gear 5h through gear engagement's mode and rotates, driven gear 5h drives driven round bar 5i and rotates, driven round bar 5i drives driven round roller 5j and rotates, driven round roller 5j drives driven area 5k and rotates, through the friction operation of driven area 5k and ejection of compact area 5g to the fibre cloth, make driven area 5k and ejection of compact area 5g can carry out ejection of compact operation to the fibre cloth, repeat above operation, can cut the operation to the fibre cloth in succession, the fibre cloth

In addition, the invention also provides a fiber cloth cutting process, which comprises the following steps:

s1, manually unreeling fiber cloth to a position of a guide round roller 12 through existing feeding equipment, manually drawing the fiber cloth to sequentially pass through a guide mechanism 4, a cutting mechanism 3 and a discharging mechanism 5, and manually drawing the fiber cloth to a proper discharging position;

s2, when the fiber cloth penetrates between the abutting round roller 45 and the auxiliary round roller 47, the abutting air cylinder 42 drives the U-shaped panel 43 to move towards the lower end, the U-shaped panel 43 drives the abutting round rod 44 to move towards the lower end, and the abutting round rod 44 drives the abutting round roller 45 to move towards the lower end, so that the abutting round roller 45 abuts the fiber cloth on the auxiliary round roller 47;

s3, after the fiber cloth is pulled to a proper cutting position, the telescopic cylinder 62 drives the L-shaped rod 63 to move, the L-shaped rod 63 drives the clamping plate 64 to move to the edge positions of the front end and the rear end of the fiber cloth, and the air propelling cylinder 65 drives the positioning plate 66 to move towards the lower end, so that the positioning plate 66 performs positioning operation on the front side and the rear side of the fiber cloth;

s4, after the positioning plate 66 completes positioning operation on the front side and the rear side of the fiber cloth, the first motor 2d drives the positioning gear 2e to rotate, the positioning gear 2e drives the power rod 2h to rotate, the power rod 2h drives the sliding round rod 2i to rotate, the sliding round rod 2i slides in a pushing groove in the pushing rod 2j, the sliding round rod 2i drives the pushing rod 2j to move to a proper cutting position, the positioning cylinder 2f drives the positioning block 2g to move to the left end, and tooth grooves in the positioning block 2g perform positioning operation on the positioning gear 2 e;

s5, after the positioning operation of a tooth socket on the positioning block 2g on the positioning gear 2e is completed, the second motor 3e drives the adjusting threaded rod 3f to rotate, the adjusting threaded rod 3f drives the sliding plate 3c to move to a proper cutting position in a thread matching mode, the sliding plate 3c drives the positioning circular frame 32a to move to a proper cutting position in a L-shaped rod 3g, the fifth motor 32g drives the cutting threaded rod 32i to rotate, the cutting threaded rod 32i drives the sliding block 32h to move to bring the proper cutting position in a thread matching mode, the sliding block 32h drives the cutting sharp knife 32j to move to bring the proper cutting position in a cutting mode, the rotating radius of the cutting sharp knife 32j is adjusted, the third motor 3i drives the power threaded rod 3j to rotate, the power threaded rod 3j drives the L-shaped rod 3g to move towards the lower end in a thread matching mode, the L-shaped rod 3g drives the positioning circular frame 32a to move towards the lower end, the positioning circular frame 32a drives the cutting sharp knife 32j to move towards the lower end through the rotating rod 32e and the positioning circular frame 32a to compress the sliding block 32b to be in a cloth-shaped ring-shaped cloth material-pressing operation state, and the sliding block 32b to be in a cloth-shaped ring pressing operation;

s6, after the positioning operation of the fiber cloth by the T-shaped ring 32c is completed, the fourth motor 32d drives the rotating rod 32e to rotate for one circle, the rotating rod 32e drives the sliding block 32h to rotate for one circle, and the sliding block 32h drives the cutting sharp knife 32j to rotate for one circle, so that the cutting sharp knife 32j performs cutting operation on the fiber cloth, the fiber cloth is cut into a round shape, and the cutting operation can be performed on the fiber cloth;

s7, after the cutting operation of the fiber cloth is completed, a third motor 3i drives a power threaded rod 3j to rotate reversely, the power threaded rod 3j drives an L-shaped rod 3g to move upwards in a threaded matching mode, the L-shaped rod 3g drives a positioning circular frame 32a to move upwards, the positioning circular frame 32a drives a cutting sharp knife 32j to move upwards to an initial position through a rotating rod 32e and a sliding block 32h, a pushing cylinder 65 drives a positioning plate 66 to move upwards to the initial position, a telescopic cylinder 62 drives an L-shaped face rod 63 to move, and the L-shaped face rod 63 drives a clamping plate 64 to move to the initial position;

s8, after L face pole 63 drove cardboard 64 and moved initial position department, no. six motors 5c drove driving gear 5d and rotate, driving gear 5d drove ejection of compact pole 5e and rotates, ejection of compact pole 5e drove ejection of compact round roller 5f and rotates, ejection of compact round roller 5f drove ejection of compact area 5g and rotates, and simultaneously, driving gear 5d drove driven gear 5h through gear engagement' S mode and rotates, driven gear 5h drove driven round bar 5i and rotates, driven round bar 5i drove driven round roller 5j and rotates, driven round roller 5j drove driven area 5k and rotates, through the friction operation of driven area 5k and ejection of compact area 5g to the fibre cloth, make driven area 5k and ejection of compact area 5g can carry out ejection of compact operation to the fibre cloth, repeat above operation, can cut the operation to the fibre cloth in succession.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a fibre cloth cuts processingequipment, includes bottom plate (1), adjustment mechanism (2), cuts mechanism (3), guide mechanism (4), discharge mechanism (5) and positioning mechanism (6), its characterized in that: the cutting device is characterized in that an adjusting mechanism (2) is installed on the bottom plate (1), a cutting mechanism (3), a guiding mechanism (4) and a positioning mechanism (6) are installed on the adjusting mechanism (2), and a discharging mechanism (5) is installed at the right end of the bottom plate (1); wherein:

the adjusting mechanism (2) comprises a U-shaped frame (2 a), a connecting rod (2 b), an L-shaped plate (2 c), a first motor (2 d), a positioning gear (2 e), a positioning cylinder (2 f), a positioning block (2 g), a power rod (2 h), a sliding round rod (2 i) and a push rod (2 j), the automatic feeding device is characterized in that U-shaped frames (2 a) are symmetrically arranged on the left side and the right side of a bottom plate (1), connecting rods (2 b) are symmetrically arranged on the front side and the back side of the upper side of the space between the inner walls of the left end and the right end of each U-shaped frame (2 a), through grooves are formed in the connecting rods (2 b) from the left end to the right end, a pushing rod (2 j) is jointly connected to the right side of each through groove in a sliding mode, a pushing groove is formed in each pushing rod (2 j), an L-shaped plate (2 c) is arranged on each U-shaped frame (2 a) on the right side of the bottom plate (1), a first motor (2 d) is arranged on each L-shaped plate (2 c), a positioning gear (2 e) is arranged at the output end of each first motor (2 d) after penetrating through each L-shaped plate (2 c), a power rod (2 h) is arranged at the lower end of each positioning gear (2 e), a sliding round rod (2 i) is arranged at the lower end of each power rod (2 h), the sliding round rod (2 i) is installed in the pushing groove in a sliding fit mode, a positioning cylinder (2 f) is installed on the inner wall of the left side of the L-shaped plate (2 c), and a positioning block (2 g) is installed at the output end of the positioning cylinder (2 f);

the cutting mechanism (3) comprises a long lath (3 a), a square rod (3 b), a sliding plate (3 c), a return plate (3 d), a second motor (3 e), an adjusting threaded rod (3 f), an L-shaped rod (3 g), a U-shaped rod (3 h), a third motor (3 i) and a power threaded rod (3 j), wherein the middle part of a through groove on the connecting rod (2 b) is jointly connected with the long lath (3 a) in a sliding manner, the central position of the outer wall of the right end of the long lath (3 a) is provided with the square rod (3 b), the right end of the square rod (3 b) is connected onto the outer wall of the left side of a pushing rod (2 j), the long lath (3 a) is provided with a through groove from the front end to the rear end, the sliding plate (3 c) is installed in the through a sliding fit manner, the left side of the sliding plate (3 c) is provided with the adjusting threaded groove, the outer wall of the left end of the long lath (3 a) is symmetrically provided with the return plate (3 d) from the front end, the outer wall of the front end of the long lath (3 d) is provided with the adjusting threaded rod (3 e) in a through hole, the adjusting threaded rod (3 e) is installed on the rear end of the adjusting threaded plate (3 d), the adjusting threaded rod (3 e) and the adjusting threaded plate (3 d), the adjusting threaded rod (3 d) is installed on the return plate (3 d), the return plate (3 d) in a through hole, and the adjusting threaded rod (3 d) through hole on the adjusting threaded rod (3 d) through the adjusting threaded rod (3 d) in a through the adjusting threaded plate (3 d) and the adjusting threaded rod (3 d) in a through the adjusting threaded plate (3 d) in a way, the adjusting threaded rod (3 d), u form pole (3 h) is installed to sliding plate (3 c) left end, install L form pole (3 g) through sliding fit's mode in U form pole (3 h), and L form pole (3 g) install in the through-hole through sliding fit's mode, L form pole (3 g) lower extreme is installed and is cut branch chain (32), the power thread groove has been seted up on L form pole (3 g), no. three motor (3 i) are installed to the central point department of putting of U form pole (3 h) upper end outer wall, no. three motor (3 i) output passes U form pole (3 h) and installs power threaded rod (3 j), power threaded rod (3 j) lower extreme is installed on sliding plate (3 c) through normal running fit's mode, and power threaded rod (3 j) are installed in the power thread groove through thread fit's mode.

2. A fiber cloth cutting processing device according to claim 1, characterized in that: the cutting branch chain (32) comprises a positioning circular frame (32 a), a abutting spring rod (32 b), a T-shaped circular ring (32 c), a fourth motor (32 d), a rotary rod (32 e), a T-shaped arc plate (32 f), a fifth motor (32 g), a sliding block (32 h), a cutting threaded rod (32 i) and a cutting sharp knife (32 j), wherein the positioning circular frame (32 a) is installed at the lower end of the L-shaped rod (3 g), a T-shaped annular groove is formed in the side wall of the lower end of the positioning circular frame (32 a) along the circumferential direction of the positioning circular frame, a T-shaped annular groove is formed in the inner wall of the lower side of the positioning circular frame (32 a), the T-shaped circular ring (32 c) is installed in the T-shaped annular groove in a sliding fit mode, the abutting spring rod (32 b) is evenly installed on the outer wall of the upper end of the T-shaped circular ring (32 c) and in the T-shaped annular groove along the circumferential direction of the T-shaped annular groove, support tight spring lever (32 b) upper end and connect on T type ring inslot wall, the centre of a circle position department of L form pole (3 g) lower extreme inner wall and location circle frame (32 a) is seted up flutedly, install No. four motor (32 d) on the recess inner wall, rotary rod (32 e) are installed to No. four motor (32 d) output, rotary rod (32 e) upper end mid-mounting has T form arc board (32 f), and T form arc board (32 f) install in T form annular through normal running fit's mode, the square groove is installed to rotary rod (32 e) lower extreme, sliding block (32 h) are installed through sliding fit's mode in the square groove, it installs and cuts sharp sword (32 j) to lie in its central position department on sliding block (32 h) lower extreme outer wall ) The cutting thread groove has been seted up on sliding block (32 h), has installed No. five motor (32 g) on the inner wall of square groove right side, and No. five motor (32 g) output is installed and is cut threaded rod (32 i), cuts threaded rod (32 i) left end and installs on the inner wall of square groove left side through normal running fit's mode, and cuts threaded rod (32 i) and install through screw-thread fit's mode in cutting the thread groove.

3. A fiber cloth cutting processing device according to claim 1, characterized in that: guide mechanism (4) including square plate (41), support tight cylinder (42), U panel (43), support tight round bar (44), support tight round roller (45), supplementary round bar (46) and supplementary round roller (47), U type frame (2 a) on the inner wall of both ends around the spout has symmetrically been seted up, common sliding connection has U panel (43) in the spout, install between the inner wall of both ends around U panel (43) and support tight round bar (44), support and install on tight round bar (44) and support tight round roller (45) through normal running fit's mode, just be located the spout upside between the inner wall at both ends around U type frame (2 a) and install square plate (41), square plate (41) upper end central point department installs and supports tight cylinder (42), support tight cylinder (42) output and pass square plate (41) and connect on U panel (43), bottom plate (1) left end has been seted up and has supported the groove tightly, support between the inner wall at both ends around the groove and be located and support tight round roller (45) downside and install supplementary round bar (46), supplementary round bar (47) are installed through normal running fit on the round roller (47) and use.

4. A fiber cloth cutting processing device according to claim 1, characterized in that: the discharging mechanism (5) comprises a flat plate (5 a), an L-shaped panel (5 b), a six-number motor (5 c), a driving gear (5 d), a discharging round rod (5 e), a discharging round roller (5 f), a discharging belt (5 g), a driven gear (5 h), a driven round rod (5 i), a driven round roller (5 j) and a driven belt (5 k), wherein a flat groove is formed in the right end of the bottom plate (1), the discharging round rod (5 e) is symmetrically installed on the inner walls of the front end and the rear end of the flat groove in a rotating and matching mode, the discharging round roller (5 f) is installed on the discharging round rod (5 e), the discharging round roller (5 f) is connected with the discharging round roller (5 f) through the discharging belt (5 g), the discharging round rod (5 e) on the left side in the flat groove penetrates through the inner wall of the rear side of the flat groove to be installed with the driving gear (5 d), the L-shaped panel (5 b) is installed on the outer wall of the rear end of the bottom plate (1), the L-shaped panel (5 b) is installed with the six-number motor (5 c), the output end of the six-number motor (5 c) is connected with the driving gear (5 d), the driven round roller (5 c) is installed on the flat groove (5 a) and the upper side of the flat groove (5 j), the flat groove, the driven round roller (5 j) is installed on the flat groove, the driven round roller (5 j) and the driven round roller (5 j) in a) and the driven round roller (5 j) connected with the driven round roller (5 j) through the driven round roller (5 j), and the driven belt (5 k) and the discharging belt (5 g) are mutually matched for use, the rear end of a driven round rod (5 i) positioned at the left end of the flat plate (5 a) penetrates through the flat plate (5 a) to be provided with a driven gear (5 h), and the driven gear (5 h) and the driving gear (5 d) are mutually matched for use.

5. A fiber cloth cutting processing device according to claim 1, characterized in that: positioning mechanism (6) including roof (61), telescopic cylinder (62), L face pole (63), cardboard (64), impel cylinder (65) and locating plate (66), U type frame (2 a) about between the inner wall at both ends roof (61) the downside install roof (61), rectangular groove has been seted up on roof (61), seted up on the rectangular inslot wall and perforated, install L face pole (63) through sliding fit's mode in the perforation, on roof (61) outer wall and be located the perforation right side and install telescopic cylinder (62), telescopic cylinder (62) output is connected on L face pole (63), on L face pole (63) and be located rectangular inslot and install cardboard (64), the draw-in groove has been seted up on cardboard (64) lower extreme outer wall, the central point department of putting of draw-in groove upper end inner wall installs impel cylinder (65), impel cylinder (65) output and install locating plate (66), and locating plate (66) install in the draw-in groove through sliding fit's mode.

6. A fiber cloth cutting processing device according to claim 1, characterized in that: the positioning block (2 g) is characterized in that an arc surface groove is formed in the outer wall of the left end of the positioning block (2 g), tooth grooves are uniformly formed in the inner wall of the arc surface groove along the circumferential direction of the arc surface groove, and the tooth grooves and the positioning gear (2 e) are matched with each other for use.

7. A fiber cloth cutting processing device according to claim 1, characterized in that: the lower end of the bottom plate (1) is uniformly provided with supporting rods.

8. A fiber cloth cutting processing device according to claim 3, characterized in that: the inner walls of the front end and the rear end of the abutting groove at the left end of the bottom plate (1) are positioned between the inner walls of the front end and the rear end of the abutting groove and positioned on the left side of the auxiliary circular roller (47), and a guide circular rod is arranged on the guide circular rod in a rotation fit mode.

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