Disclosure of Invention
The invention provides an automatic cutting device for garment processing, which has the beneficial effects that the invention can lead a cutter to select a proper force when cutting according to the difference of the cut cloth, thereby slowing down the abrasion of the cutter.
The invention relates to a cutting device, in particular to an automatic cutting device for garment processing, which comprises a transverse strip, a rotary strip, a convex column, a circular blocking piece, a spring column, a bottom block, a lower protruding piece, a cutting knife and a rectangular rod.
The articulated front side of connecting at the horizontal bar in the upper end of commentaries on classics strip, the lower part of changeing the strip is provided with the bottom block, sliding connection has the rectangle pole on the bottom block, lug under the lower extreme fixedly connected with of rectangle pole, the upside fixedly connected with spring post of lug down, the upper end sliding connection of spring post is on the bottom block, compression spring I has been cup jointed on the spring post, compression spring I is located the bottom block and down between the lug, the upper end fixedly connected with circle separation blade of spring post, the circle separation blade is located the upside of bottom block, be provided with the projection on the commentaries on classics strip, the projection is located the upside of rectangle pole, the sword of tailorring sets up the lower part.
Tailoring is with automatic device of tailorring still includes smooth cylinder, preceding lapse pole, lower convex seat, telescopic link I and slide opening, and the convex seat is moved after, and the lower side fixedly connected with of horizontal bar is down the convex seat, and sliding connection has preceding lapse pole on the lower convex seat in the front and back direction, and the front end fixedly connected with of the pole that moves back and forth slides the cylinder, is provided with the slide opening on the commentaries on classics strip, and smooth cylinder sliding connection is on the slide opening, and the one end fixed connection of slide opening is on the horizontal bar, and the other end fixed connection of slide opening is in the rear end of preceding lapse pole.
Tailoring still includes layering, square column, square separation blade and tie-beam with automatic cutting device, fixedly connected with tie-beam between the upper end of two square columns, two square columns vertical sliding connection is respectively at both ends about the crossband, the equal fixedly connected with layering of lower extreme of two square columns, the tie-beam is located the upside of crossband, the equal fixedly connected with square separation blade in lower part of two square columns, compression spring II has all been cup jointed on two square columns, two compression spring II all are located the downside of crossband, two compression spring II are located the upside of two square separation blades respectively.
Tailoring is with automatic device of tailorring still includes folding rod, the fixed axle, gear I, keep off the ring, it is dull and stereotyped, motor I and gear II, the lower extreme fixed connection of folding rod is on the horizontal bar, the upper portion fixedly connected with fixed axle of folding rod, the upper end fixedly connected with gear I of fixed axle, the fixed axle rotates the middle part of connecting at the flat board, fixedly connected with keeps off the ring on the fixed axle, keep off ring and folding rod and be located dull and stereotyped upper and lower both sides respectively, dull and stereotyped upside fixedly connected with motor I, fixedly connected with gear II on motor I's the output shaft, gear II and gear I meshing transmission.
Tailoring is with automatic device of tailorring still includes the side upstand, the lateral plate, the pole is striden to the back, flat round bar, sliding sleeve and telescopic link II, the equal fixedly connected with side upstand in both ends about dull and stereotyped upside, the equal fixedly connected with lateral plate in upper portion of two side upstands, the equal fixedly connected with flat round bar in both ends about striding the pole front side of back, the equal fixedly connected with sliding sleeve in front end of two flat round bars, two sliding sleeves sliding connection respectively are on two side upstands, equal fixedly connected with telescopic link II on two sliding sleeves, two telescopic link II's upper end difference fixed connection is on two lateral plates.
Tailoring is with automatic device of tailorring still includes motor II, lead screw and long slide, and two flat round bars are sliding connection both ends about long slide respectively, and long slide is located the front side of back span pole, fixedly connected with motor II on the back span pole, fixedly connected with lead screw on motor II's the output shaft, and the lead screw passes through the screw thread with the middle part of long slide and cooperatees.
Tailoring is with automatic device of tailorring still includes door shape frame, T shape slide rail and landing leg, and both ends all are provided with the landing leg about door shape frame downside, and the upside of door shape frame is provided with T shape slide rail, and long slide sliding connection is on T shape slide rail.
The automatic tailoring device for tailoring further comprises a motor III, a gear III and a rack, the rack is arranged on the rear side of the door-shaped frame, the motor III is fixedly connected onto the long sliding seat, the gear III is fixedly connected onto an output shaft of the motor III, and the gear III is in meshing transmission with the rack.
The front end and the rear end of the pressing strip are inclined towards the inclined upper part.
The automatic cutting device for garment processing has the beneficial effects that:
the invention relates to an automatic cutting device for garment processing, wherein a rotating strip can rotate upwards or downwards on a cross strip, the rotating strip rotates downwards to enable a cutting knife to move downwards to be in contact with cloth, when the rotating strip continues to rotate downwards, a rectangular rod moves upwards relative to a bottom block, a compression spring on a spring column is compressed immediately, the rotating strip rotates downwards to enable the cutting knife to cut the cloth properly, and at the moment, the abrasion to the cutting knife is minimum. When materials such as leather and the like which are difficult to cut are encountered, the rectangular rod moves upwards to be contacted with the convex column, the rectangular rod cannot move upwards continuously, and the cutting force is the maximum when the cutting knife cuts the materials. The round blocking piece is used for preventing the spring column and the rectangular rod from being separated from the bottom block. The invention can lead the cutter to select a proper force when cutting according to the difference of the cloth to be cut, thereby slowing down the abrasion of the cutter.
Detailed Description
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.
The first embodiment is as follows:
the present invention relates to a cutting device, and more particularly to an automatic cutting device for garment processing, which is described below with reference to fig. 1 to 8, and includes a horizontal bar 1, a rotational bar 3, a convex column 301, a circular blocking piece 302, a spring column 303, a bottom block 304, a lower convex piece 305, a cutting knife 306 and a rectangular rod 307.
The articulated front side of connecting at horizontal bar 1 in the upper end of commentaries on classics strip 3, the lower part of changeing strip 3 is provided with bottom block 304, sliding connection has rectangle pole 307 on the bottom block 304, lug 305 under the lower extreme fixedly connected with of rectangle pole 307, the upside fixedly connected with spring post 303 of lower lug 305, the upper end sliding connection of spring post 303 is on bottom block 304, compression spring I has been cup jointed on the spring post 303, compression spring I is located between bottom block 304 and the lower lug 305, the upper end fixedly connected with circle separation blade 302 of spring post 303, circle separation blade 302 is located the upside of bottom block 304, be provided with projection 301 on changeing strip 3, projection 301 is located the upside of rectangle pole 307, cut out sword 306 and set up the lower part at rectangle pole 307. The rotating strip 3 can rotate upwards or downwards on the cross strip 1, the rotating strip 3 rotates downwards to enable the cutting knife 306 to move downwards to be in contact with the cloth, when the rotating strip 3 continues to rotate downwards, the rectangular rod 307 moves upwards relative to the bottom block 304, the compression spring on the spring column 303 is compressed immediately, the rotating strip 3 rotates downwards to enable the cutting knife 306 to cut the cloth properly, and at the moment, the abrasion to the knife is minimum. When materials such as leather and the like which are difficult to cut are encountered, the rectangular rod 307 moves upwards to be in contact with the convex column 301, at this time, the rectangular rod 307 cannot move upwards continuously, and the cutting force when the cutting knife 306 cuts the materials is the largest. The function of the circular stop piece 302 is to prevent the spring post 303 and the rectangular bar 307 from disengaging from the bottom block 304. The invention can lead the cutter to select a proper force when cutting according to the difference of the cloth to be cut, thereby slowing down the abrasion of the cutter.
The second embodiment is as follows:
the present embodiment is described below with reference to fig. 1 to 8, the automatic tailoring apparatus for tailoring further includes a sliding cylinder 105, a forward-backward moving rod 106, a lower convex seat 107, an expansion rod I108, and a sliding hole 308, the lower side of the crossbar 1 is fixedly connected with the lower convex seat 107, the forward-backward moving rod 106 is slidably connected to the lower convex seat 107 in the forward-backward direction, the sliding cylinder 105 is fixedly connected to the front end of the forward-backward moving rod 106, the sliding hole 308 is provided on the rotating bar 3, the sliding cylinder 105 is slidably connected to the sliding hole 308, one end of the sliding hole 308 is fixedly connected to the crossbar 1, and the other end of the sliding hole 308 is fixedly connected to the rear end of the forward-backward moving rod 106. When telescopic link I108 extends or shortens, it slides around driving forward-backward shift pole 106, and then drives smooth cylinder 105 and slides around, and then drives strip 3 and upwards or rotate downwards on horizontal bar 1, and then the cutting dynamics of control cutting sword 306.
The third concrete implementation mode:
this embodiment is described below with reference to fig. 1 to 8, the automatic cutting device for tailoring further includes a pressing bar 2, a square column 201, a square separation blade 202 and a connecting beam 203, the connecting beam 203 is fixedly connected between the upper ends of the two square columns 201, the two square columns 201 are respectively connected to the left and right ends of the crossbar 1 in a vertical sliding manner, the pressing bar 2 is fixedly connected to the lower ends of the two square columns 201, the connecting beam 203 is located on the upper side of the crossbar 1, the square separation blades 202 are fixedly connected to the lower portions of the two square columns 201, compression springs II are respectively sleeved on the two square columns 201, the two compression springs II are both located on the lower side of the crossbar 1, and the two compression springs II are respectively located on the upper sides of the two square separation blades. Two square columns 201 all can be on horizontal bar 1 vertical slip, and two layering 2 need press on the cloth when using, and the cloth removes at will when preventing to tailor, and the position of horizontal bar 1 relative square column 201 leans on down more, and compression spring II on two square columns 201 is compressed the degree more greatly, and then two layering 2 dynamics of pressing on the cloth are big more.
The fourth concrete implementation mode:
the present embodiment is described below with reference to fig. 1 to 8, the automatic cutting device for tailoring further includes a folding rod 101, a fixing shaft 102, a gear I103, a baffle ring 104, a flat plate 4, a motor I401 and a gear II404, the lower end of the folding rod 101 is fixedly connected to the horizontal bar 1, the fixing shaft 102 is fixedly connected to the upper portion of the folding rod 101, the gear I103 is fixedly connected to the upper end of the fixing shaft 102, the fixing shaft 102 is rotatably connected to the middle portion of the flat plate 4, the baffle ring 104 is fixedly connected to the fixing shaft 102, the baffle ring 104 and the folding rod 101 are respectively located at the upper and lower sides of the flat plate 4, the motor I401 is fixedly connected to the upper side of the flat plate 4, the gear II404 is fixedly connected to the output shaft of the motor. The motor I401 can drive the gear II404 to rotate, when the gear II404 rotates, the gear I103, the fixed shaft 102, the folding rod 101 and the axis of the fixed shaft 102 can be driven to rotate as shafts, the horizontal bar 1, the two pressing bars 2 and the cutting knife 306 are further driven to rotate by taking the axis of the fixed shaft 102 as a shaft, the moving direction of the cutting knife 306 is adjusted, so that the cutting knife 306 can mark different lines on the cloth, and the cutting knife 306 can mark lines on the cloth and cut.
The fifth concrete implementation mode:
the present embodiment is described below with reference to fig. 1 to 8, the automatic cutting device for tailoring further includes a side vertical post 402, a side piece 403, a rear cross rod 5, a flat round rod 503, a sliding sleeve 504 and a telescopic rod II505, the side vertical post 402 is fixedly connected to both left and right ends of the upper side of the flat plate 4, the side piece 403 is fixedly connected to both upper portions of the two side vertical posts 402, the flat round rod 503 is fixedly connected to both left and right ends of the front side of the rear cross rod 5, the sliding sleeve 504 is fixedly connected to both front ends of the two flat round rods 503, the two sliding sleeves 504 are respectively slidably connected to the two side vertical posts 402, the telescopic rod II505 is fixedly connected to both sliding sleeves 504, and the upper ends of the two telescopic rods II505 are respectively fixedly connected to the two. Two telescopic link II505 can extend simultaneously or shorten, and then drive two lateral plates 403 and two relative sliding sleeve 504 vertical sliding respectively, and then drive dull and stereotyped 4 and reciprocate and finally drive horizontal bar 1 and folding rod 101 and reciprocate, realize adjusting two compression spring II's on the square column 201 by the compression degree, and then adjust the dynamics that two layering 2 pressed on the cloth according to tailorring needs.
The sixth specific implementation mode:
the present embodiment is described below with reference to fig. 1 to 8, the automatic tailoring apparatus for tailoring further includes a motor II501, a lead screw 502, and a long slide 601, two flat round bars 503 are respectively slidably connected to the left and right ends of the long slide 601, the long slide 601 is located at the front side of the rear straddle bar 5, the rear straddle bar 5 is fixedly connected with the motor II501, an output shaft of the motor II501 is fixedly connected with the lead screw 502, and the lead screw 502 is matched with the middle portion of the long slide 601 through a thread. When the motor II501 rotates, the lead screw 502 can be driven to rotate by taking the axis of the lead screw as the axis, so that the two flat round rods 503 slide back and forth on the long slide base 601 to drive the flat plate 4 to slide back and forth, and further drive the cutting knife 306 to slide back and forth, so that the cutting knife 306 can move back and forth to cut lines.
The seventh embodiment:
the present embodiment is described below with reference to fig. 1 to 8, the automatic cutting device for tailoring further includes a door-shaped frame 6, a T-shaped slide rail 603, and support legs 604, the support legs 604 are disposed at both left and right ends of the lower side of the door-shaped frame 6, the T-shaped slide rail 603 is disposed at the upper side of the door-shaped frame 6, and the long slide 601 is slidably connected to the T-shaped slide rail 603. The long slide 601 can move left and right on the T-shaped slide rail 603, so as to drive the two flat round rods 503 to move left and right, and finally drive the cutting knife 306 to move left and right, so that the cutting knife 306 moves left and right to cut by scribing.
The specific implementation mode is eight:
the present embodiment is described below with reference to fig. 1 to 8, the automatic tailoring apparatus for tailoring further includes a motor III602, a gear III605 and a rack 606, the rack 606 is disposed on the rear side of the gantry 6, the motor III602 is fixedly connected to the long slide 601, the gear III605 is fixedly connected to the output shaft of the motor III602, and the gear III605 is in meshing transmission with the rack 606. The motor III602 can drive the gear III605 to rotate, and then the gear III605 can drive the long sliding seat 601 to move left and right on the T-shaped sliding rail 603 when rotating on the rack 606, so as to control the left and right positions of the long sliding seat 601.
The specific implementation method nine:
in the present embodiment, both the front and rear ends of the bead 2 are inclined obliquely upward, as described below with reference to fig. 1 to 8. The effect that both ends all incline to the oblique top around the layering 2 is when preventing that two layering 2 back-and-forth movement tip from scraping on the cloth, prevents to damage the cloth.
The working principle of the invention is as follows: the rotating strip 3 can rotate upwards or downwards on the cross strip 1, the rotating strip 3 rotates downwards to enable the cutting knife 306 to move downwards to be in contact with the cloth, when the rotating strip 3 continues to rotate downwards, the rectangular rod 307 moves upwards relative to the bottom block 304, the compression spring on the spring column 303 is compressed immediately, the rotating strip 3 rotates downwards to enable the cutting knife 306 to cut the cloth properly, and at the moment, the abrasion to the knife is minimum. When materials such as leather and the like which are difficult to cut are encountered, the rectangular rod 307 moves upwards to be in contact with the convex column 301, at this time, the rectangular rod 307 cannot move upwards continuously, and the cutting force when the cutting knife 306 cuts the materials is the largest. The function of the circular stop piece 302 is to prevent the spring post 303 and the rectangular bar 307 from disengaging from the bottom block 304. The invention can lead the cutter to select a proper force when cutting according to the difference of the cloth to be cut, thereby slowing down the abrasion of the cutter. When telescopic link I108 extends or shortens, it slides around driving forward-backward shift pole 106, and then drives smooth cylinder 105 and slides around, and then drives strip 3 and upwards or rotate downwards on horizontal bar 1, and then the cutting dynamics of control cutting sword 306. Two square columns 201 all can be on horizontal bar 1 vertical slip, and two layering 2 need press on the cloth when using, and the cloth removes at will when preventing to tailor, and the position of horizontal bar 1 relative square column 201 leans on down more, and compression spring II on two square columns 201 is compressed the degree more greatly, and then two layering 2 dynamics of pressing on the cloth are big more. The motor I401 can drive the gear II404 to rotate, when the gear II404 rotates, the gear I103, the fixed shaft 102, the folding rod 101 and the axis of the fixed shaft 102 can be driven to rotate as shafts, the horizontal bar 1, the two pressing bars 2 and the cutting knife 306 are further driven to rotate by taking the axis of the fixed shaft 102 as a shaft, the moving direction of the cutting knife 306 is adjusted, so that the cutting knife 306 can mark different lines on the cloth, and the cutting knife 306 can mark lines on the cloth and cut. Two telescopic link II505 can extend simultaneously or shorten, and then drive two lateral plates 403 and two relative sliding sleeve 504 vertical sliding respectively, and then drive dull and stereotyped 4 and reciprocate and finally drive horizontal bar 1 and folding rod 101 and reciprocate, realize adjusting two compression spring II's on the square column 201 by the compression degree, and then adjust the dynamics that two layering 2 pressed on the cloth according to tailorring needs. When the motor II501 rotates, the lead screw 502 can be driven to rotate by taking the axis of the lead screw as the axis, so that the two flat round rods 503 slide back and forth on the long slide base 601 to drive the flat plate 4 to slide back and forth, and further drive the cutting knife 306 to slide back and forth, so that the cutting knife 306 can move back and forth to cut lines. The long slide 601 can move left and right on the T-shaped slide rail 603, so as to drive the two flat round rods 503 to move left and right, and finally drive the cutting knife 306 to move left and right, so that the cutting knife 306 moves left and right to cut by scribing. The motor III602 can drive the gear III605 to rotate, and then the gear III605 can drive the long sliding seat 601 to move left and right on the T-shaped sliding rail 603 when rotating on the rack 606, so as to control the left and right positions of the long sliding seat 601. The effect that both ends all incline to the oblique top around the layering 2 is when preventing that two layering 2 back-and-forth movement tip from scraping on the cloth, prevents to damage the cloth.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.