CN110512409B - Intelligent manufacturing textile equipment based on negative pressure fixed cloth - Google Patents

Abstract

The invention discloses a textile equipment for intelligent manufacturing based on negative pressure fixed cloth, which structurally comprises a driving motor, a cutting knife rest, a cutter guide structure, a balance block, an anti-skidding handle and an intelligent control panel, wherein the cutter guide structure is tightly attached to the surface of a workbench, the cutting knife rest and the cutter guide structure are in clearance fit, the intelligent control panel and the cutting knife rest are fixed together through bolts, the textile equipment for intelligent manufacturing is matched with the knife rest driving structure through a cloth fixer, when a cloth cutting machine works, the cutting knife rest enables the knife rest driving structure to drive a cloth fixer to enable the surface of a guide frame main body below the cloth to generate negative pressure to fix the cloth, the cloth at a cutting opening is prevented from being jacked in an arc shape and offset along with a cutting blade after the cloth is cut into two sections, and the cutting precision of the cloth cutting machine is effectively improved.

Description

Intelligent manufacturing textile equipment based on negative pressure fixed cloth

Technical Field

The invention relates to the field of textile equipment, in particular to textile equipment for intelligent manufacturing based on negative pressure fixed cloth.

Background

Under the drive of textile industry, China's textile machinery manufacturing industry has realized the sufficient development, at present before carrying out textile processing to clothing, need cut into certain size with the cloth, along with the progress of science and technology, electronic fabric cutting machine has become the first-choice mode that the textile processing of cloth cuts, but the present technical consideration is not perfect enough, has following shortcoming: the cloth cutting length is measured earlier at the during operation to current cloth cutting machine, then tiles the cloth of required processing to cutting mechanism, and expose outside, because cloth cutting machine's cutting mode is the level and cuts, consequently along with cutting blade cuts into two sections backs with the cloth, the cloth at both ends receives the action of gravity and takes place flagging, and the cloth of incision department receives about both ends flagging effect to middle production extrusion bellied power, and then the cloth top that leads to the cutting department forms the arcuation jack-up and takes place the skew, thereby influence cloth cutting accuracy.

Disclosure of Invention

In order to solve the problems, the invention provides a textile device for intelligent manufacturing based on negative pressure fixed cloth.

In order to achieve the purpose, the invention is realized by the following technical scheme: a textile equipment for intelligent manufacturing based on negative pressure fixing cloth structurally comprises a driving motor, a cutting knife rest, a cutting knife guide structure, a balance block, an anti-skidding handle and an intelligent control panel, wherein the cutting knife rest is of a trapezoidal structure, the bottom surface of the cutting knife guide structure is tightly attached to the surface of a workbench, the cutting knife rest is located above the cutting knife guide structure and is in clearance fit with the cutting knife guide structure, the intelligent control panel is installed at the top of the cutting knife rest and is fixed with the cutting knife rest through bolts, the left end of the anti-skidding handle is buckled with the cutting knife rest, the driving motor is located on the left side of the cutting knife rest and is buckled with the cutting knife rest, the balance block is located on the right side of the cutting knife rest and is perpendicular to the cutting knife guide structure, the cutting knife guide structure comprises an impact spring, a guide frame main body, a clamping buckle and a negative pressure fixing mechanism, the guide frame main body is of a trapezoidal structure, and the bottom surface of, the impact spring is nested in the middle of the top end of the guide frame main body, the clamping buckle is tightly close to the guide frame main body, and the negative pressure fixing mechanisms are uniformly distributed in the guide frame main body at equal intervals.

As a further improvement of the invention, the negative pressure fixing mechanism comprises a cloth fixer, a knife rest sliding track and a knife rest driving structure, the knife rest sliding track is of an inverted T-shaped structure and is nested in the middle of the guide frame main body, the knife rest driving structures are distributed on the left side and the right side of the knife rest sliding track, and the cloth fixer is positioned above the knife rest driving structure and is meshed with the knife rest driving structure.

As a further improvement of the invention, the cloth fixer consists of a negative pressure adsorption device, a telescopic conduit, a fixer mounting seat and a negative pressure driver, wherein the fixer mounting seat is of a hollow concave structure and is nested in the guide frame main body, the negative pressure driver is mounted in the middle of the fixer mounting seat, the bottom of the negative pressure driver is meshed with the knife rest driving structure, the negative pressure adsorption device is positioned above the fixer mounting seat, and the left end and the right end of the telescopic conduit are respectively connected with the negative pressure adsorption device and the fixer mounting seat in a sealing manner.

As a further improvement of the invention, the negative pressure adsorption device comprises a cloth top block, a fixing plate, a cloth traction block and negative pressure air nozzles, wherein the bottom of the fixing plate is in clearance fit with the upper surface of the fixing device mounting seat, the cloth top block is positioned in the middle of the fixing plate and is buckled with the fixing plate, the negative pressure air nozzles are uniformly distributed on the upper surface of the fixing plate in an array manner, and the cloth traction block is alternately arranged among the negative pressure air nozzles.

As a further improvement of the invention, the negative pressure driver consists of an airflow driving blade, an adjusting frame, a negative pressure driving shaft, an adjusting frame limiting ring and a blade fixing shaft lever, wherein the bottom of the negative pressure driving shaft is meshed with a tool rest driving structure, the bottom surface of the adjusting frame limiting ring is connected with the upper surface of the negative pressure driving shaft through threads, the adjusting frame and the adjusting frame limiting ring are in clearance fit, the blade fixing shaft levers are uniformly distributed on the upper surface of the adjusting frame at equal intervals and are meshed with the adjusting frame, and the airflow driving blade and the blade fixing shaft lever are fixed together through bolts.

As a further improvement of the invention, the tool rest driving structure consists of an annular gear, a transmission disc, a driving frame, a positioning rod and a self-resetting elastic sheet, wherein the driving frame is uniformly distributed at the left side and the right side of a tool rest sliding track at equal intervals, the positioning rod is positioned below the driving frame and is in clearance fit with the driving frame, the annular gear is positioned on the upper surface of the driving frame and is integrated with the driving frame, the transmission disc is positioned at the left end of the surface of the driving frame and is mutually meshed with the annular gear, and the self-resetting elastic sheet is arranged on the surface of the positioning rod and is abutted against the driving frame.

As a further improvement of the invention, the cloth traction block is positioned on the periphery of the surface of the fixing plate and is in a V-shaped structure, so that the cloth traction block is attached to the cloth and is connected with the surface of the cloth to form a triangular stable structure when moving along with the fixing plate, and the cloth traction block is beneficial to flattening the cloth.

As a further improvement of the invention, the eight negative pressure air nozzles are annularly arranged, so that the negative pressure suction force applied to the cloth is more uniform.

As a further improvement of the invention, the two self-resetting elastic sheets are respectively arranged at the upper end and the lower end of the supporting rod on the right side of the driving frame.

As a further improvement of the invention, fan-shaped grooves with arc angles of 50 degrees are arranged at the upper end and the lower end of the limiting ring of the adjusting frame.

The invention has the beneficial effects that: the weaving equipment for intelligent manufacturing matches through cloth fixer and knife rest drive structure, and the during operation of cloth cutting machine, cutting knife rest make knife rest drive structure drive cloth fixer make the leading truck main part surface of cloth below produce the negative pressure, fixes the cloth, prevents that the cloth from being cut into two sections back, and the cloth of cutting mouth department is arcuation jack-up and takes place the skew along with cutting the blade, the effectual cutting precision who promotes the cloth cutting machine.

The cloth fixer of the invention is combined with a knife rest driving structure, when a cutting knife rest slides along a knife rest sliding track, the cutting knife rest and the surface of the driving frame generate friction and drive the driving frame to extrude the self-resetting elastic sheet to rotate by taking a positioning rod as a circle center, and then a ring gear drives a negative pressure driving shaft to synchronously rotate through a transmission disc, when the negative pressure driving shaft rotates clockwise, air flow drives blades to synchronously rotate and suck air flow from a negative pressure air nozzle, the surface of the negative pressure air nozzle is blocked by cloth, therefore, the cloth is fixed under the action of negative pressure, when the negative pressure driving shaft rotates anticlockwise, the adjusting frame rotates clockwise 50 degrees along a limiting ring of the adjusting frame under the action of inertia, the adjusting frame drives the blades through the blade fixing shaft rod, simultaneously, the inclination angle is opposite to that before, and the negative pressure driving shaft pulls the air flow to drive the blades to rotate and also, the cloth is effectual fixed, and when the fixed back of cloth, the air current drive blade continues to rotate the negative pressure that makes the fixer mount pad and continues the increase, and then makes negative pressure adsorption equipment along fixer mount pad extrusion telescopic pipe, and the cloth receives the outside traction force of left and right sides simultaneously, therefore the cloth is expanded completely, avoids cutting the condition of mouthful jack-up, promotes the cutting precision of cloth cutter.

Drawings

Fig. 1 is a schematic structural diagram of a textile device for intelligent manufacturing based on negative pressure fixed cloth according to the present invention.

Fig. 2 is a schematic structural view of the cutter guide structure in plan view.

Fig. 3 is a schematic structural view of a front cross section of the main body of the guide frame of the present invention.

Fig. 4 is a detailed structural diagram of the cloth holder of the present invention.

Fig. 5 is a schematic top view of the negative pressure adsorption apparatus of the present invention.

Fig. 6 is a schematic top view of the negative pressure driver of the present invention.

Fig. 7 is a schematic top view of the driving structure of the tool post of the present invention.

In the figure: a driving motor-1, a cutting knife rest-2, a knife guide structure-3, a balance block-4, an anti-skid handle-5, an intelligent control panel-6, an impact spring-3 a, a guide rest main body-3 b, a clamping buckle-3 c, a negative pressure fixing mechanism-3 d, a cloth fixer-d 1, a knife rest sliding track-d 2, a knife rest driving structure-d 3, a negative pressure adsorption device-d 11, a telescopic conduit-d 12, a fixer mounting seat-d 13, a negative pressure driver-d 14, a cloth top block-111, a fixing plate-112, a cloth traction block-113, a negative pressure air nozzle-114, an air flow driving blade-141, an adjusting rest-142, a negative pressure driving shaft-143, an adjusting rest limit ring-144, a blade fixing shaft lever-145, a cloth top block-111, a cloth traction block-113, a, A ring gear-d 31, a transmission disc-d 32, a driving frame-d 33, a positioning rod-d 34 and a self-resetting spring plate-d 35.

Detailed Description

In order to make the technical means, the creation features, the achievement objects and the effects of the invention easy to understand, fig. 1 to 7 schematically show the structure of the textile equipment of the embodiment of the invention, and the invention is further explained below with reference to the specific embodiment.

Examples

Referring to fig. 1-2, the present invention provides a negative pressure fixed cloth-based textile manufacturing apparatus for intelligent manufacturing, which comprises a driving motor 1, a cutting knife rest 2, a cutting knife guide structure 3, a balance block 4, an anti-slip handle 5, and an intelligent control panel 6, wherein the cutting knife guide structure 3 is a trapezoidal structure, the bottom surface of the cutting knife guide structure 3 is close to the surface of a worktable, the cutting knife rest 2 is positioned above the cutting knife guide structure 3 and is in clearance fit with the cutting knife guide structure 3, the intelligent control panel 6 is mounted on the top of the cutting knife rest 2 and is fixed with the cutting knife rest 2 through bolts, the left end of the anti-slip handle 5 is buckled with the cutting knife rest 2, the driving motor 1 is positioned on the left side of the cutting knife rest 2 and is fastened with the cutting knife rest 2, the balance block 4 is positioned on the right side of the cutting knife rest 2 and is perpendicular to the cutting knife guide structure, the cutter guide structure 3 comprises an impact spring 3a, a guide frame main body 3b, a clamping buckle 3c and a negative pressure fixing mechanism 3d, the guide frame main body 3b is of a trapezoidal structure, the bottom surface of the guide frame main body is tightly abutted to the surface of the workbench, the impact spring 3a is nested in the middle of the top end of the guide frame main body 3b, the clamping buckle 3c is tightly abutted to the guide frame main body 3b, and the negative pressure fixing mechanism 3d is uniformly distributed in the guide frame main body 3b at equal intervals.

Referring to fig. 3-5, the negative pressure fixing mechanism 3d includes a cloth fixer d1, a tool rest sliding rail d2, and a tool rest driving structure d3, the tool rest sliding rail d2 is an inverted T-shaped structure and is nested in the middle of the guiding frame body 3b, the tool rest driving structures d3 are distributed on the left and right sides of the tool rest sliding rail d2, and the cloth fixer d1 is located above the tool rest driving structure d3 and is engaged with the tool rest driving structure d 3. Cloth fixer d1 comprises negative pressure adsorption equipment d11, flexible pipe d12, fixer mount pad d13, negative pressure driver d14, fixer mount pad d13 is cavity concave structure and nestification inside leading truck main part 3b, negative pressure driver d14 installs in the middle of fixer mount pad d13 and bottom and knife rest drive structure d3 meshing, negative pressure adsorption equipment d11 is located fixer mount pad d13 top, both ends adopt sealing connection with negative pressure adsorption equipment d11, fixer mount pad d13 respectively about flexible pipe d 12. Negative pressure adsorption equipment d11 comprises cloth kicking block 111, fixed plate 112, cloth traction block 113, negative pressure air cock 114, fixed plate 112 bottom and fixer mount pad d13 upper surface adopt clearance fit, cloth kicking block 111 is located in the middle of fixed plate 112 and is in the same place with fixed plate 112 lock, negative pressure air cock 114 is array evenly distributed in fixed plate 112 upper surface, cloth traction block 113 adopts and installs in turn between negative pressure air cock 114. The cloth traction block 113 is located around the surface of the fixing plate 112 and has a V-shaped structure, so that the cloth traction block is attached to the cloth and moves along with the fixing plate 112, and is connected with the surface of the cloth to form a triangular stable structure, thereby facilitating flattening the cloth. The eight negative pressure air nozzles 114 are arranged in a ring shape, so that the negative pressure suction force applied to the cloth is more uniform.

Referring to fig. 6-7, the negative pressure driver d14 is composed of an airflow driving vane 141, an adjusting bracket 142, a negative pressure driving shaft 143, an adjusting bracket retainer ring 144, and a vane fixing shaft 145, the bottom of the negative pressure driving shaft 143 is engaged with a tool holder driving structure d3, the bottom surface of the adjusting bracket retainer ring 144 is connected with the upper surface of the negative pressure driving shaft 143 through a screw thread, the adjusting bracket 142 and the adjusting bracket retainer ring 144 are in clearance fit, the vane fixing shaft 145 is equally and uniformly distributed on the upper surface of the adjusting bracket 142 and engaged with the adjusting bracket 142, and the airflow driving vane 141 and the vane fixing shaft 145 are fixed together through a bolt. The knife rest driving structure d3 comprises a ring gear d31, a transmission disc d32, a driving frame d33, a positioning rod d34 and a self-resetting elastic sheet d35, the driving frame d33 is equidistantly and uniformly distributed on the left side and the right side of a knife rest sliding track d2, the positioning rod d34 is positioned below a driving frame d33 and is in clearance fit with the driving frame d33, the ring gear d31 is positioned on the upper surface of the driving frame d33 and is in an integrated structure with the driving frame d33, the transmission disc d32 is positioned at the left end of the surface of the driving frame d33 and is meshed with the ring gear d31, and the self-resetting elastic sheet d35 is mounted on the surface of the positioning rod d34 and is abutted to the driving frame d 33. The two self-resetting elastic pieces d35 are respectively arranged at the upper end and the lower end of the supporting rod on the right side of the driving frame d33, so that when the cutting knife frame 2 is separated from the driving frame d33, the self-resetting elastic pieces d35 push the driving frame d33 to reset and are buckled with the positioning rod d 34. The upper and lower ends of the adjusting frame limiting ring 144 are provided with sector grooves with an arc angle of 50 degrees, so that after the negative pressure driving shaft 143 rotates anticlockwise, the adjusting frame 142 rotates clockwise 50 degrees along the adjusting frame limiting ring 144 under the inertia effect, and the inclination angle of the air flow driving blade 141 is opposite to that before.

Cloth cutting machine is when using, and the cloth that will measure is kept flat earlier in cutter guide structure 3 top, starts driving motor 1 through intelligent control panel 6 and drives the cutting blade work on the cutting knife rest 2, promotes simultaneously that cutting knife rest 2 slides forward along the knife rest slip track d2 in the guide frame main part 3b, cuts the blade and cuts into two sections with the cloth, later slides back under striking spring 3a effect to carry out the secondary to the cloth and cut, ensure that the cloth is cut off completely.

In the process that the cutting knife rest 2 moves along the knife rest sliding track d2, the surfaces of the two sides of the cutting knife rest 2 rub against the side surface of the driving frame d33, and the driving frame d33 is driven to extrude the self-reset elastic sheet d35 and rotate around the positioning rod d34, meanwhile, the ring gear d31 on the driving frame d33 drives the transmission disc d32 to rotate synchronously, so that the negative pressure driving shaft 143 rotates along with the transmission disc d32, when the negative pressure driving shaft 143 rotates clockwise, the airflow around the negative pressure driving shaft 143 drives the blades 141 to suck in the airflow above, and the cloth blocks the negative pressure air nozzle 114, so that the cloth is fixed by the negative pressure, when the negative pressure driving shaft 143 rotates counterclockwise, the adjusting frame 142 rotates clockwise 50 degrees along the limiting ring 144 under the inertia effect, and the adjusting frame 142 makes the inclination angle of the airflow driving blades 141 opposite to the previous angle through the blade fixing shaft 145, so that the negative pressure driving shaft 143 drives the airflow driving blades 141 to rotate and then the airflow driving the blades 141, fixing the cloth to prevent the cloth from moving; after the cloth is fixed, the negative pressure in the fixer mounting seat d13 continues to increase, so the negative pressure adsorption device d11 pushes the telescopic conduit d12 to move leftwards along the fixer mounting seat d13, and the cloth on the negative pressure adsorption device d11 is unfolded towards two sides, thereby avoiding the situation that the cloth is jacked in an arc shape and improving the cutting precision of the cloth.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a weaving equipment is used in intelligent manufacturing based on cloth is fixed to negative pressure, its structure includes driving motor (1), cuts knife rest (2), cutter guide structure (3), balancing piece (4), anti-skidding handle (5), intelligent control panel (6), cutter guide structure (3) and workstation surface are closely leaned on together, cut knife rest (2) and cutter guide structure (3) adopt clearance fit, intelligent control panel (6) with cut knife rest (2) through the bolt fastening together, anti-skidding handle (5) with cut the mutual lock of knife rest (2), driving motor (1) and cut knife rest (2) lock together, balancing piece (4) and cutter guide structure (3) mutually perpendicular, its characterized in that:

the cutter guide structure (3) consists of an impact spring (3a), a guide frame main body (3b), a clamping buckle (3c) and a negative pressure fixing mechanism (3d), the guide frame main body (3b) is tightly attached to the surface of the workbench, the impact spring (3a) is nested in the middle of the guide frame main body (3b), the clamping buckle (3c) is tightly attached to the guide frame main body (3b), and the negative pressure fixing mechanism (3d) is uniformly distributed in the guide frame main body (3b) at equal intervals;

the negative pressure fixing mechanism (3d) is composed of a cloth fixer (d1), a knife rest sliding track (d2) and a knife rest driving structure (d3), the knife rest sliding track (d2) is nested in the middle of the guide frame main body (3b), the knife rest driving structure (d3) is distributed on the left side and the right side of the knife rest sliding track (d2), and the cloth fixer (d1) is meshed with the knife rest driving structure (d 3);

cloth fixer (d1) comprises negative pressure adsorption equipment (d11), flexible pipe (d12), fixer mount pad (d13), negative pressure driver (d14), fixer mount pad (d13) nestification is inside guide frame main part (3b), negative pressure driver (d14) are installed in the middle of fixer mount pad (d13), negative pressure adsorption equipment (d11) are located fixer mount pad (d13) top, flexible pipe (d12) adopts sealing connection with negative pressure adsorption equipment (d11), fixer mount pad (d 13).

2. The textile equipment for intelligent manufacturing based on negative pressure fixed cloth according to claim 1, characterized in that: negative pressure adsorption equipment (d11) comprises cloth kicking block (111), fixed plate (112), cloth traction block (113), negative pressure air cock (114), fixed plate (112) and fixer mount pad (d13) adopt clearance fit, cloth kicking block (111) and fixed plate (112) lock together, negative pressure air cock (114) are array evenly distributed in fixed plate (112) upper surface, cloth traction block (113) adopt to install in turn between negative pressure air cock (114).

3. The textile equipment for intelligent manufacturing based on negative pressure fixed cloth according to claim 1, characterized in that: the negative pressure driver (d14) comprises an airflow driving blade (141), an adjusting frame (142), a negative pressure driving shaft (143), an adjusting frame limiting ring (144) and a blade fixing shaft rod (145), wherein the negative pressure driving shaft (143) is meshed with a tool rest driving structure (d3), the adjusting frame limiting ring (144) is connected with the negative pressure driving shaft (143) through threads, the adjusting frame (142) is in clearance fit with the adjusting frame limiting ring (144), the blade fixing shaft rod (145) is uniformly distributed on the upper surface of the adjusting frame (142) at equal intervals, and the airflow driving blade (141) and the blade fixing shaft rod (145) are fixed together through bolts.

4. The textile equipment for intelligent manufacturing based on negative pressure fixed cloth according to claim 1, characterized in that: the tool rest driving structure (d3) comprises a ring gear (d31), a transmission disc (d32), a driving frame (d33), a positioning rod (d34) and a self-resetting elastic sheet (d35), wherein the driving frame (d33) is uniformly distributed on the left side and the right side of a tool rest sliding track (d2) at equal intervals, the positioning rod (d34) and the driving frame (d33) are in clearance fit, the ring gear (d31) and the driving frame (d33) form an integrated structure, the transmission disc (d32) and the ring gear (d31) are meshed with each other, and the self-resetting elastic sheet (d35) and the driving frame (d33) are abutted together.

5. The negative pressure fixed cloth-based textile equipment for intelligent manufacturing according to claim 2, wherein: the cloth traction block (113) is positioned on the periphery of the surface of the fixing plate (112) and is of a V-shaped structure.

6. The negative pressure fixed cloth-based textile equipment for intelligent manufacturing according to claim 2, wherein: eight negative pressure air nozzles (114) are arranged and are arranged in a ring shape.

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