CN109252354B - Cloth cutting device for lace - Google Patents

Abstract

The invention discloses a cutting device for lace cloth, which belongs to the technical field of cutting devices and comprises a conveying feeding part, a cutting bearing part and a positioning cutting part, wherein the positioning cutting part comprises a cutting driving component, a positioning linkage component and a movable cutting component, the positioning linkage component is installed at the output end of the cutting driving component, the positioning linkage component is in transmission connection with the movable cutting component, and in a working state, the cutting end of the movable cutting component faces downwards vertically and is in butt joint with the top of the conveying feeding part. According to the lace cutting device, the cutting driving assembly drives the positioning linkage assembly to achieve preliminary movement, large-distance position adjustment is achieved, the positioning linkage assembly drives the movable cutting assembly to achieve secondary position fine adjustment, accurate cutting operation of a lace fabric is achieved, the phenomenon that burrs occur on the cutting edge of the cut lace fabric can be avoided, the product quality of the fabric is improved, and better customer experience is achieved.

Description

Cloth cutting device for lace

Technical Field

The invention relates to the technical field of cutting devices, in particular to a cutting device for lace cloth.

Background

Laces are "ship-coming" and first appeared in italy in the 14 th century, and have been developed in europe for centuries. The lace of European countries has its unique features and forms a vivid style in our country. For example, french lace features delicate and delicate, italian lace is famous in the world and is enjoyed by people in the beauty of luxury and luxury. The profound culture deposition and the advanced lace production technology lead the foreign lace to be far ahead of the home in terms of convenient process technology and pattern design. The design level of foreign patterns is quite mature, and professional and authoritative research organizations regularly release the popular trend of the laces, so that the fashion trend of the laces in the world is influenced.

The transverse lace is a special kind of lace. Due to the particularity of the knitting structure, when the warp knitting machine is used for knitting, the thickness of the yarn of the eyelashes is the same as that of the yarn of the edges of the eyelashes, namely, no thickness difference exists between the edges of the eyelashes and the eyelashes, the machine cutting cannot be adopted, and only the manual hand cutting mode can be adopted, so that the full-width lace with the waste materials is hand cut into a single finished product with the eyelashes and without the waste materials.

Patent No. CN207405399U discloses a lace cutting device, which comprises a frame, wherein the upper ends of the front side and the rear side of the frame are respectively provided with a cloth lifting roller and a lower drawing roller, an operation table top is arranged between the cloth lifting roller and the lower drawing roller, a lace finishing roller is arranged on the inner wall of one side of the lower drawing roller in the middle of the frame, a plurality of lace laces with the same size are tiled on the cloth lifting roller, the lower drawing roller and the lace finishing roller, the upper end of the left side of the frame is provided with an electric scissors placing frame, a switch button is arranged on the electric scissors placing frame, the bottom end of the rear side of the frame is connected with a main motor, a lace placing box is arranged on the bottom side of the frame, although the shearing operation of the lace cloth to be automatically cut is realized, the device is a one-time shearing operation in the shearing process, the cutting effect is poor through the one-time cutting process, the product is sold, and the customer experience is influenced.

Disclosure of Invention

The invention aims to provide a cutting device for lace cloth, which aims to solve the problems in the background technology.

The technical scheme of the invention is as follows: including conveying material loading part, spaning and cutting the carrier member and installing the location cutting member on cutting the carrier member in conveying material loading part, location cutting member is including cutting drive assembly, location linkage subassembly and removal cutting assembly, location linkage unit mount is at the output end department that cuts drive assembly, location linkage subassembly is connected with removal cutting assembly transmission, under operating condition, the vertical butt joint down of cutting end that removes cutting assembly just with the top of conveying material loading part.

Furthermore, the conveying and feeding part comprises a conveying and feeding platform and two limiting assemblies which are symmetrically arranged at the top of the conveying and feeding platform, the conveying direction of the conveying and feeding platform is the same as the horizontal direction, and the extending direction of each limiting assembly is the same as the conveying direction of the conveying and feeding platform.

Further, cut the carrier part including connecting frame, extension backup pad and two symmetric distributions at the support bearing board of conveying material loading platform both sides, connecting frame's both ends respectively with two lateral wall fixed connection that support the bearing board, the one end of extending the backup pad and connecting frame's top fixed connection, the drive assembly that cuts is installed at the top of extending the backup pad and is the horizontality setting, the top of location linkage subassembly and the output fixed connection who cuts the drive assembly, the both sides of location linkage subassembly respectively with two support bearing board sliding fit, remove the output department at the location linkage subassembly of cutting the subassembly.

Further, cut drive assembly and include vertical stay tube, sliding connection post, respectively with sliding connection post transmission be connected cut linkage portion, cut drive division and two extension posts, vertical stay tube is vertical state setting and the top downwardly extending setting that the bottom runs through the extension backup pad, the setting that the sliding connection post can slide is in vertical stay tube, and two extension post settings are cutting linkage portion and cutting the drive division both sides, and every extension post all runs through the extension backup pad downwardly extending along vertical direction.

Further, the cutting linkage part comprises a first vertical plate, a first connecting rod and a second connecting rod, the first vertical plate is arranged at the top of the extending support plate, one end of the first connecting rod is hinged with the top end of the sliding connection column, one end of the second connecting rod is hinged with the other end of the first connecting rod, the other end of the second connecting rod is hinged with the first vertical plate, the cutting drive part comprises a second vertical plate, a third connecting rod, a fourth connecting rod, a drive support seat and a first motor, the second vertical plate and the first vertical plate are in the same arrangement state, one end of the third connecting rod is hinged with the top end of the sliding connection column and is simultaneously hinged with one end of the first connecting rod, one end of the fourth connecting rod is hinged with the other end of the third connecting rod, the other end of the fourth connecting rod extends to the side wall of the second vertical plate, the drive support seat is arranged at the other side of the second vertical plate, the first motor is installed on the driving support seat, and a main shaft of the first motor penetrates through the second vertical plate to be connected with the other end of the fourth connecting rod.

Further, the location linkage subassembly includes linkage installing frame, drive connecting plate, installs the fine adjustment portion of transferring in the linkage installing frame and two sliding guide who installs respectively in linkage installing frame both sides, every the lateral wall that supports the bearing board all is equipped with the joint groove with a sliding guide sliding fit, the drive connecting plate sets up the top at the linkage installing frame, fine adjustment portion is connected with removal cutting assembly transmission.

Further, the fine adjustment and movement part comprises a movement driving part, a first sliding part and a second sliding part which are respectively matched with the two ends of the movement driving part in a rotating mode, the movement driving part is installed on the upper half part of the inner side wall of the linkage installation frame, and the first sliding part and the second sliding part are respectively installed on two sides of the inner side wall of the linkage installation frame.

Further, the adjusting driving part comprises a second motor, a motor fixing seat, an adjusting vertical plate, a horizontal mounting plate, two mounting tooth plates and two special-shaped discs, the adjusting vertical plate, the horizontal mounting plate and the two mounting tooth plates are integrally formed, the motor fixing seat is mounted on the side wall of the linkage mounting frame, the second motor is mounted at the bottom of the motor fixing seat, the two special-shaped discs are mounted at the second motor and the driving connecting plate bracket, a spindle of the second motor penetrates through the adjusting vertical plate and the two special-shaped discs and is finally connected with the driving connecting plate in a rotating mode, the first sliding part comprises a first slide way and a first tooth-shaped slide way, the first tooth-shaped slide way can be mounted in the first slide way, one of the mounting tooth plates is meshed with the first tooth-shaped slide way, the second sliding part comprises a second slide way, a positioning rack, a positioning connecting seat, a first gear and a second tooth-shaped slide way, the positioning rack is slidably arranged in the second slide way, the positioning connecting seats are arranged on two sides of the second toothed slide rail, the first gear is respectively meshed with the second toothed slide rail and the positioning rack, and the other gear is meshed with the second toothed slide rail.

Further, remove cutting Assembly including location buffering portion, cutting connecting portion and removal cutting portion, location buffering portion installs in the bottom of second tooth type slide rail, the top of cutting connecting portion and the bottom fixed connection of linkage installing frame, the bottom of location buffering portion and the top fixed connection who removes cutting portion.

Furthermore, the movable cutting part comprises a cutting installation frame, an electric push rod, two cutting installation blocks and two cutters, the top of the cutting installation frame is provided with two rectangular grooves, the two cutting installation blocks respectively penetrate through the two rectangular grooves and are fixedly connected with the two cutters, the output end of the electric push rod is fixedly connected with one cutting installation block, a connecting plate is arranged between the two cutting installation blocks, the cutting connecting part comprises a plurality of supporting columns distributed in a matrix structure, the top end of each supporting column is fixedly connected with the bottom of the linkage installation frame, the bottom end of each supporting column is fixedly connected with the top of the cutting installation frame, the positioning buffering part comprises a first buffering plate, a second buffering plate and a plurality of buffering groups arranged between the first buffering plate and the second buffering plate, the first buffering plate is fixedly connected with a second toothed slide rail, and the second buffering plate is fixedly connected with the top of the cutting installation frame, each buffer group comprises a buffer connecting column and a buffer spring, and the buffer spring is sleeved outside the buffer connecting column.

Compared with the prior art, the invention has the beneficial effects that:

one of which, drive the location linkage subassembly through cutting drive assembly and remove along vertical direction, again because remove cutting assembly and install the output at the location linkage subassembly, at first cut drive assembly and drive the location linkage subassembly and realize preliminary removal, realize the position adjustment of large distance, rethread location linkage subassembly drives the position fine setting that removes cutting assembly and realize the second time, realize realizing the accurate operation of cutting to the cloth realization of bud silk lace, can avoid cutting the limit of cutting of bud silk lace and appear deckle edge phenomenon, the product quality of cloth has been improved, realize better customer experience. A

Secondly, the sliding connecting column is driven to slide in the vertical supporting tube through the synchronous driving of the cutting driving part and the cutting linkage part, and the cutting driving part and the cutting linkage part can realize the driving operation of the cyclic reciprocation of the positioning linkage component, so that the positioning linkage component can be quickly and continuously pressed down, and the cutting operation speed is improved; and because the sliding connecting column is in transmission connection with the positioning linkage assembly, the whole positioning linkage assembly can be driven to move along the vertical direction, and the preliminary pressing and cutting operation in a large distance is realized.

Third, drive first sliding part and second sliding part through transferring the drive division and realize local position adjustment in vertical direction, then realized the secondary drive operation to removing cutting assembly, and then accomplished and treated the bud silk lace cloth that cuts and realized the secondary and cut the operation, accomplished the accurate of piecemeal cloth and cut, avoid cutting the unedged appearance of department.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

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

FIG. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a schematic perspective view of a cut carrier and positioning cut component of the present invention;

FIG. 5 is a partial perspective view of a positioning and cutting member according to the present invention;

FIG. 6 is a schematic view of a second partial perspective structure of the positioning and cutting member of the present invention;

FIG. 7 is a third schematic view of a partial perspective structure of a positioning and cutting member according to the present invention;

FIG. 8 is a schematic partial perspective view of a cutting driving assembly according to the present invention;

FIG. 9 is a schematic partial perspective view of a second cutting driving assembly according to the present invention;

description of reference numerals:

a conveying feeding part 1, a conveying feeding platform 1a, a limiting component 1b, a cutting bearing component 2, a connecting frame 2a, an extending support plate 2b, a support bearing plate 2c, a clamping groove 2c1, a positioning cutting component 3, a cutting driving component 3a, a positioning linkage component 3b, a movable cutting component 3c, a vertical support tube 3d, a sliding connection column 3e, a cutting linkage part 3f, a first vertical plate 3f1, a first connecting rod 3f2, a second connecting rod 3f3, a cutting driving part 3g, a second vertical plate 3g1, a third connecting rod 3g2, a fourth connecting rod 3g3, a driving support seat 3g4, a first motor 3g5, an extending column 3h, a linkage mounting frame 3i, a driving connecting plate 3j, a micro-adjusting part 3k, a sliding guide rail 3m, an adjusting driving part 3n, a second motor 3n1, a motor fixing seat 3n2, an adjusting plate 3n3 and a transverse mounting plate 4, installation toothed plate 3n5, dysmorphism dish 3n6, first sliding part 3p, first slide 3p1, first tooth type slide 3p2, second sliding part 3r, second slide 3r1, location rack 3r2, location connecting seat 3r3, first gear 3r4, second tooth type slide 3r5, location buffer 3s, first buffer 3s1, second buffer 3s2, buffer group 3s3, buffer connecting column 3s4, buffer spring 3s5, cut connecting portion 3t, support column 3t1, remove cutting part 3u, cut mounting frame 3u1, electric putter 3u2, cut mounting block 3u3, cutter 3u4, rectangular groove 3u5, connecting plate 3u 6.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 9, an embodiment of the present invention provides a cutting device for lace fabric, including a feeding part 1, a cutting bearing part 2 crossing over the feeding part 1, and a positioning cutting part 3 mounted on the cutting bearing part 2, where the positioning cutting part 3 includes a cutting driving component 3a, a positioning linkage component 3b, and a moving cutting component 3c, the positioning linkage component 3b is mounted at an output end of the cutting driving component 3a, the positioning linkage component 3b is in transmission connection with the moving cutting component 3c, and in a working state, a cutting end of the moving cutting component 3c faces downward vertically and is in butt joint with a top of the feeding part 1.

The working principle is as follows: at first place the bud silk lace cloth of treating the shearing on conveying material loading part 1, will treat the continuous position conveying to the shearing end of bud silk lace cloth of shearing through conveying material loading part 1, rethread cutting drive assembly 3a drives location linkage assembly 3b and removes along vertical direction, install the output at location linkage assembly 3b because remove cutting assembly 3c again, at first cutting drive assembly 3a drives location linkage assembly 3b and realizes preliminary movement, realize the position adjustment of large distance, rethread location linkage assembly 3b drives and removes cutting assembly 3c and realize the position fine setting of second time, realize realizing the accurate operation of cutting to the cloth realization of bud silk lace.

Conveying material loading part 1 is including conveying material loading platform 1a and two spacing subassemblies 1b of symmetry at conveying material loading platform 1a top, conveying material loading platform 1 a's direction of transfer is the same with the horizontal direction, every spacing subassembly 1 b's extending direction all with conveying material loading platform 1 a's direction of transfer, and two spacing subassemblies 1b can avoid the cloth at the in-process of conveying, the condition that the cloth falls out conveying material loading platform 1a appears, can't realize the accurate conveying of cloth and treat the position department of cuting, improve the accuracy of material loading.

The cutting bearing part 2 comprises a connecting frame 2a, an extending support plate 2b and two support bearing plates 2c which are symmetrically distributed at two sides of the conveying feeding platform 1a, two ends of the connecting frame 2a are respectively and fixedly connected with the side walls of the two support bearing plates 2c, one end of the extending support plate 2b is fixedly connected with the top of the connecting frame 2a, the cutting driving component 3a is arranged at the top of the extending support plate 2b and is arranged in a horizontal state, the top of the positioning linkage component 3b is fixedly connected with the output end of the cutting driving component 3a, two sides of the positioning linkage component 3b are respectively in sliding fit with the two support bearing plates 2c, the movable cutting component 3c is arranged at the output end of the positioning linkage component 3b, and the arrangement of the two support bearing plates 2c realizes the installation operation of the extending support plate 2b, the positioning linkage component 3b and the movable cutting component 3c, the cutting operation of the cloth to be cut is realized.

The cutting driving component 3a comprises a vertical supporting tube 3d, a sliding connecting column 3e, a cutting linkage part 3f, a cutting driving part 3g and two extending columns 3h which are respectively in transmission connection with the sliding connecting column 3e, wherein the vertical supporting tube 3d is arranged in a vertical state, the bottom end of the vertical supporting tube penetrates through the top of the extending supporting plate 2b to extend downwards, the sliding connecting column 3e can be arranged in the vertical supporting tube 3d in a sliding manner, the two extending columns 3h are arranged on two sides of the cutting linkage part 3f and the cutting driving part 3g, each extending column 3h penetrates through the extending supporting plate 2b to extend downwards along the vertical direction, because the sliding connecting column 3e can move in the vertical supporting tube 3d, and because the linkage part 3f and the cutting driving part 3g are both in transmission connection with the sliding connecting column 3e, and because the sliding connecting column 3e is fixedly connected with a linkage mounting frame 3, the movable cutting component 3c can be driven to move, and the cutting operation of the cloth is realized.

The cutting linkage part 3f comprises a first vertical plate 3f1, a first link 3f2 and a second link 3f3, the first vertical plate 3f1 is installed at the top of the extension support plate 2b, one end of the first link 3f2 is hinged with the top end of the sliding connection column 3e, one end of the second link 3f3 is hinged with the other end of the first link 3f2, the other end of the second link 3f3 is hinged with the first vertical plate 3f1, the cutting driving part 3g comprises a second vertical plate 3g1, a third link 3g2, a fourth link 3g3, a driving support seat 3g4 and a first motor 3g5, the second vertical plate 3g1 is in the same setting state as the first vertical plate 3f1, one end of the third link 3g2 is hinged with the top end of the sliding connection column 3e and hinged with one end of the first link 3f2, and the fourth link 3g2 of the first link 3g3 is hinged with the other end of the third link 3g 362, the other end of the fourth connecting rod 3g3 extends to the side wall of the second vertical plate 3g1, the driving support seat 3g4 is arranged at the other side of the second vertical plate 3g1, the first motor 3g5 is installed on the driving support seat 3g4, the main shaft of the first motor 3g5 penetrates through the second vertical plate 3g1 and is connected with the other end of the fourth connecting rod 3g3, the first motor 3g5 drives the fourth connecting rod 3g3 to rotate, the fourth connecting rod 3g3 is hinged to the third connecting rod 3g2, the lower end of the third connecting rod 3g2 is hinged to the sliding connection column 3e, the sliding connection column 3e can be driven to move in the vertical support tube 3d along the vertical direction, the driving operation of the moving cutting component 3c is completed, and the cutting of cloth is completed.

The positioning linkage assembly 3b comprises a linkage mounting frame 3i, a driving connecting plate 3j, a fine adjustment and movement part 3k arranged in the linkage mounting frame 3i and two sliding guide rails 3m arranged on two sides of the linkage mounting frame 3i respectively, each supporting and supporting plate 2c is provided with a clamping groove 2c1 in sliding fit with one sliding guide rail 3m on the side wall, the driving connecting plate 3j is arranged at the top of the linkage mounting frame 3i, the fine adjustment and movement part 3k is in transmission connection with the movable cutting assembly 3c, the linkage mounting frame 3i can be moved along the vertical direction due to the arrangement of the two sliding guide rails 3m, and the movable cutting assembly 3c is arranged in the linkage mounting frame 3i, so that the movable cutting assembly 3c can be driven along the vertical direction to complete the cutting operation.

The fine adjustment portion 3k of transferring is including transferring drive division 3n, first sliding part 3p and the second sliding part 3r of both ends normal running fit with transferring drive division 3n respectively, transfer drive division 3n and install the first half at linkage installing frame 3i inside wall, first sliding part 3p and second sliding part 3r are installed respectively in the both sides of linkage installing frame 3i inside wall, drive first sliding part 3p and second sliding part 3r and remove along vertical direction through transferring drive division 3n, because first sliding part 3p and second sliding part 3r can realize the adjustment that realizes local position to removing cutting assembly 3c under the drive of transferring drive division 3n, accomplish the two-step cutting operation of treating the cutting cloth, improve the precision of cutting operation, reduce the deckle edge phenomenon appearance of cloth side cut.

The maneuvering driving part 3n comprises a second motor 3n1, a motor fixing seat 3n2, a maneuvering vertical plate 3n3, a transverse mounting plate 3n4, two mounting tooth plates 3n5 and two profile disks 3n6, the maneuvering vertical plate 3n3, the transverse mounting plate 3n4 and the two mounting tooth plates 3n5 are integrally formed, the motor fixing seat 3n2 is mounted on the side wall of the linkage mounting frame 3i, the second motor 3n1 is mounted at the bottom of the motor fixing seat 3n2, the two profile disks 3n6 are mounted at the second motor 3n1 and the driving connecting plate 3j bracket, the main shaft of the second motor 3n1 penetrates through the maneuvering vertical plate 3n3 and the two profile disks 3n6 and is finally rotatably connected with the driving connecting plate 3j, the first sliding part 3p comprises a first sliding way 3p1 and a first tooth type sliding way 3p2, the first tooth type sliding way 3p2 can be mounted in the first sliding way 1, one of the mounting tooth plates 3n5 is engaged with the first toothed sliding rail 3p2, the second sliding portion 3r includes a second sliding way 3r1, a positioning rack 3r2, a positioning connecting seat 3r3, a first gear 3r4 and a second toothed sliding way 3r5, the positioning rack 3r2 is slidably installed in the second sliding way 3r1, the positioning connecting seat 3r3 is installed on two sides of the second toothed sliding way 3r5, the first gear 3r4 is engaged with the second toothed sliding way 3r5 and the positioning rack 3r2, and the other mounting tooth plate 3n5 is engaged with the second toothed sliding way 3r5, so as to drive the movement of the movable cutting component 3c, and complete the cutting operation of the cloth.

Remove cutting Assembly 3c including location buffering portion 3s, cut connecting portion 3t and remove cutting portion 3u, the bottom at second tooth type slide rail 3r5 is installed to location buffering portion 3s, the bottom fixed connection of the top of cutting connecting portion 3t and linkage installing frame 3i, the bottom of location buffering portion 3s and the top fixed connection that removes cutting portion 3u can be connected the shaping with second tooth type slide rail 3r5 and removal cutting portion 3u through location buffering portion 3s and the installation that cuts connecting portion 3t and setting to the completion is treated the operation of cutting of shearing the cloth, can improve the stability of cutting, reduces the unedged appearance of cutting the cloth.

The movable cutting part 3u comprises a cutting and installing frame 3u1, an electric push rod 3u2, two cutting and installing blocks 3u3 and two cutters 3u4, the top of the cutting and installing frame 3u1 is provided with two rectangular grooves 3u5, the two cutting and installing blocks 3u3 respectively penetrate through the two rectangular grooves 3u5 to be fixedly connected with the two cutters 3u4, the output end of the electric push rod 3u2 is fixedly connected with one cutting and installing block 3u3, a connecting plate 3u6 is arranged between the two cutting and installing blocks 3u3, the cutting and connecting part 3t comprises a plurality of supporting columns 3t1 distributed in a matrix structure, the top end of each supporting column 3t1 is fixedly connected with the bottom of a linkage installing frame 3i, the bottom end of each supporting column 3t1 is fixedly connected with the top of the cutting and installing frame 3u1, the positioning and buffering part 3s comprises a first buffering plate 3s1, a second buffering plate 3s2 and a plurality of buffering plates 3 which are installed between the first buffering plate 3s1 and the second buffering plate 57324, first buffer board 3s1 and second dentate slide rail 3r5 fixed connection, second buffer board 3s2 and the top fixed connection who cuts installing frame 3u1, every buffering group 3s3 include buffering spliced pole 3s4 and buffer spring 3s5, buffer spring 3s5 cover is established outside buffering spliced pole 3s4, and a plurality of buffering spliced poles 3s4 set up between first buffer board 3s1 and second buffer board 3s2, can realize shearing the in-process, can realize certain buffering operation, realize the reply of shearing force, can improve the cutting accuracy.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (7)

1. The utility model provides a be used for bud silk lace cloth cutting device which characterized in that: the cutting device comprises a conveying feeding part (1), a cutting bearing part (2) stretching over the conveying feeding part (1) and a positioning cutting part (3) installed on the cutting bearing part (2), wherein the positioning cutting part (3) comprises a cutting driving component (3 a), a positioning linkage component (3 b) and a moving cutting component (3 c), the positioning linkage component (3 b) is installed at the output end of the cutting driving component (3 a), the positioning linkage component (3 b) is in transmission connection with the moving cutting component (3 c), and in a working state, the cutting end of the moving cutting component (3 c) faces downwards vertically and is in butt joint with the top of the conveying feeding part (1); the conveying and feeding part (1) comprises a conveying and feeding platform (1 a) and two limiting assemblies (1 b) which are symmetrically arranged at the top of the conveying and feeding platform (1 a), the conveying direction of the conveying and feeding platform (1 a) is the same as the horizontal direction, and the extending direction of each limiting assembly (1 b) is the same as the conveying direction of the conveying and feeding platform (1 a); the cutting bearing part (2) comprises a connecting frame (2 a), an extension supporting plate (2 b) and two supporting bearing plates (2 c) which are symmetrically distributed on two sides of the conveying feeding platform (1 a), two ends of the connecting frame (2 a) are respectively fixedly connected with the side walls of the two supporting bearing plates (2 c), one end of the extension supporting plate (2 b) is fixedly connected with the top of the connecting frame (2 a), the cutting driving component (3 a) is arranged on the top of the extension supporting plate (2 b) and is arranged in a horizontal state, the top of the positioning linkage component (3 b) is fixedly connected with the output end of the cutting driving component (3 a), two sides of the positioning linkage component (3 b) are respectively in sliding fit with the two supporting bearing plates (2 c), the movable cutting component (3 c) is arranged at the output end of the positioning linkage component (3 b); cut drive assembly (3 a) including vertical stay tube (3 d), slip spliced pole (3 e), respectively with slip spliced pole (3 e) transmission be connected cut linkage portion (3 f), cut drive division (3 g) and two extend post (3 h), vertical stay tube (3 d) are vertical state setting and the bottom runs through the top downwardly extending setting that extends backup pad (2 b), the setting that slip spliced pole (3 e) can slide is in vertical stay tube (3 d), and two extend post (3 h) set up and are cutting linkage portion (3 f) and cut drive division (3 g) both sides, and every extends post (3 h) and all runs through extension backup pad (2 b) downwardly extending along vertical direction.

2. The cutting device for bud thread lace cloth according to claim 1, characterized in that: the cutting linkage part (3 f) comprises a first vertical plate (3 f 1), a first connecting rod (3 f 2) and a second connecting rod (3 f 3), the first vertical plate (3 f 1) is installed on the top of the extension supporting plate (2 b), one end of the first connecting rod (3 f 2) is hinged with the top end of the sliding connecting column (3 e), one end of the second connecting rod (3 f 3) is hinged with the other end of the first connecting rod (3 f 2), the other end of the second connecting rod (3 f 3) is hinged with the first vertical plate (3 f 1), the cutting driving part (3 g) comprises a second vertical plate (3 g 1), a third connecting rod (3 g 2), a fourth connecting rod (3 g 3), a driving supporting seat (3 g 4) and a first motor (3 g 48), the second vertical plate (393 g 1) is hinged with the first vertical plate (3 f 1) in the same setting state, one end of the third connecting rod (3 f 2) is hinged with the top end (3 e) and the sliding connecting column (3 f 2) is hinged at the same time, the one end of fourth connecting rod (3 g 3) is articulated with the other end of third connecting rod (3 g 2), the other end of fourth connecting rod (3 g 3) extends on the lateral wall of the vertical board of second (3 g 1), drive supporting seat (3 g 4) set up the opposite side at the vertical board of second (3 g 1), install on drive supporting seat (3 g 4) first motor (3 g 5), the main shaft of first motor (3 g 5) runs through the other end of the vertical board of second (3 g 1) and fourth connecting rod (3 g 3) and is connected.

3. The cutting device for bud thread lace cloth according to claim 2, characterized in that: location linkage subassembly (3 b) including linkage installing frame (3 i), drive connecting plate (3 j), install fine adjustment portion of transferring (3 k) in linkage installing frame (3 i) and two sliding guide (3 m) of installing respectively in linkage installing frame (3 i) both sides, every the lateral wall of support bearing board (2 c) all is equipped with a sliding guide (3 m) sliding fit's joint groove (2 c 1), drive connecting plate (3 j) set up the top at linkage installing frame (3 i), fine adjustment portion of transferring (3 k) is connected with removal cutting components (3 c) transmission.

4. The cutting device for bud thread lace cloth according to claim 3, characterized in that: the fine adjustment and movement part (3 k) comprises a movement driving part (3 n), a first sliding part (3 p) and a second sliding part (3 r) which are respectively matched with the two ends of the movement driving part (3 n) in a rotating mode, the movement driving part (3 n) is installed on the upper half part of the inner side wall of the linkage installation frame (3 i), and the first sliding part (3 p) and the second sliding part (3 r) are respectively installed on two sides of the inner side wall of the linkage installation frame (3 i).

5. The cutting device for bud thread lace cloth according to claim 4, characterized in that: the transfer driving part (3 n) comprises a second motor (3 n 1), a motor fixing seat (3 n 2), a transfer vertical plate (3 n 3), a transverse mounting plate (3 n 4), two mounting toothed plates (3 n 5) and two special-shaped discs (3 n 6), the transfer vertical plate (3 n 3), the transverse mounting plate (3 n 4) and the two mounting toothed plates (3 n 5) are integrally formed, the motor fixing seat (3 n 2) is installed on the side wall of the linkage mounting frame (3 i), the second motor (3 n 1) is installed at the bottom of the motor fixing seat (3 n 2), the two special-shaped discs (3 n 6) are installed on a second motor (3 n 1) and a driving connecting plate (3 j) bracket, a main shaft of the second motor (3 n 1) penetrates through the transfer vertical plate (3 n 3) and the two special-shaped discs (3 n 6) and is finally connected with the driving connecting plate (3 j) in a rotating way, the first sliding rail (3 p 1) comprises a first sliding rail (3 p 3) and a first sliding rail (3 p 6866), the first toothed sliding rail (3 p 2) is slidably mounted in a first slideway (3 p 1), one of the mounting toothed plates (3 n 5) is meshed with the first toothed sliding rail (3 p 2), the second sliding part (3 r) comprises a second slideway (3 r 1), a positioning rack (3 r 2), a positioning connecting seat (3 r 3), a first gear (3 r 4) and a second toothed sliding rail (3 r 5), the positioning rack (3 r 2) is slidably mounted in the second slideway (3 r 1), the positioning connecting seat (3 r 3) is mounted on two sides of the second toothed sliding rail (3 r 5), the first gear (3 r 4) is respectively meshed with the second toothed sliding rail (3 r 5) and the positioning rack (3 r 2), and the other mounting toothed plate (3 n 5) is meshed with the second toothed sliding rail (3 r 5).

6. The cutting device for bud thread lace cloth according to claim 5, characterized in that: remove cutting assembly (3 c) including location buffering portion (3 s), cut connecting portion (3 t) and remove cutting portion (3 u), the bottom at second profile of tooth slide rail (3 r 5) is installed in location buffering portion (3 s), the bottom fixed connection of the top of cutting connecting portion (3 t) and linkage installing frame (3 i), the top fixed connection of the bottom of location buffering portion (3 s) and removal cutting portion (3 u).

7. The cutting device for bud thread lace cloth according to claim 6, characterized in that: the movable cutting part (3 u) comprises a cutting installation frame (3 u 1), an electric push rod (3 u 2), two cutting installation blocks (3 u 3) and two cutters (3 u 4), the top of the cutting installation frame (3 u 1) is provided with two rectangular grooves (3 u 5), the two cutting installation blocks (3 u 3) penetrate through the two rectangular grooves (3 u 5) and are fixedly connected with the two cutters (3 u 4), the output end of the electric push rod (3 u 2) is fixedly connected with one cutting installation block (3 u 3), a connecting plate (3 u 6) is arranged between the two cutting installation blocks (3 u 3), the cutting connecting part (3 t) comprises a plurality of supporting columns (3 t 1) distributed in a matrix structure, the top end of each supporting column (3 t 1) is fixedly connected with the bottom of a linkage installation frame (3 i), and the bottom end of each supporting column (3 t 1) is fixedly connected with the top of the cutting installation frame (3 u 1), location buffer portion (3 s) include first buffer board (3 s 1), second buffer board (3 s 2) and a plurality of buffering group (3 s 3) of installing between first buffer board (3 s 1) and second buffer board (3 s 2), first buffer board (3 s 1) and second tooth type slide rail (3 r 5) fixed connection, second buffer board (3 s 2) and the top fixed connection who cuts installing frame (3 u 1), every buffering group (3 s 3) include buffering spliced pole (3 s 4) and buffer spring (3 s 5), buffer spring (3 s 5) cover is established outside buffering spliced pole (3 s 4).

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