Intelligent large-scale cloth processingequipment that bordures
Technical Field
The utility model relates to a processingequipment bordures especially relates to an intelligent processingequipment and the process flow of borduring that is used for large-scale cloth.
Background
In the sewing machine industry, the hemming production process for some large-sized cloth is sometimes needed. The present processing mode is mostly adopted is that the manual work is carried large-scale cloth, send the cloth to the processing station of borduring that corresponds, carry out the processing of borduring by the workman after that, processing is accomplished the back, send the cloth to next processing station by the workman again in, whole production process's whole journey adopts the manpower to carry large-scale cloth, so not only production efficiency is low, workman's intensity of labour is high moreover, can't satisfy the production and processing of automatic demand day by day, the development for the enterprise has brought unfavorable influence.
SUMMERY OF THE UTILITY MODEL
The utility model discloses the purpose is in order to overcome prior art not enough and provide a rationally distributed, can avoid the manual work to carry large-scale cloth, has improved the production efficiency of the processing of borduring to the cloth, has saved the intelligent large-scale cloth processingequipment that bordures of manpower.
In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides an intelligent large-scale cloth processingequipment that bordures, includes:
the transverse conveying table is used for transversely conveying the cloth to be processed;
the material blocking mechanism is arranged at the rear end of the transverse conveying table and used for blocking the cloth conveyed by the transverse conveying table;
the longitudinal conveying table is perpendicular to the transverse conveying table and positioned on one side of the material stopping mechanism and is used for longitudinally conveying the cloth;
the cloth grabbing mechanism is arranged at the front end of the longitudinal conveying table and used for grabbing the cloth positioned at the material blocking mechanism onto the longitudinal conveying table;
a plurality of edge covering stations are arranged on two sides of the longitudinal conveying table and used for performing edge covering processing on cloth to be processed, and an intelligent moving trolley is arranged on one side of each edge covering station and used for automatically conveying the processed cloth to a lifter;
and a lifting machine is arranged on one side of the tail end of the longitudinal conveying table and used for manually conveying the cloth conveyed by the intelligent moving trolley to the next procedure of the second floor.
Furthermore, a limiting baffle is arranged on one side of the transverse conveying platform.
Further, the material blocking mechanism comprises a material blocking support and a screw rod arranged on the material blocking support, the screw rod drives the movable plate to move back and forth through a motor, and a stop block is arranged at the front end of the movable plate.
Furthermore, the cloth grabbing mechanism comprises a sliding support capable of longitudinally sliding, a plurality of pressing cylinders are arranged on the sliding support, and pressing blocks are arranged on piston rods of the pressing cylinders; a groove which is correspondingly arranged is formed on the transverse conveying platform below the pressing block; and a pressing plate positioned at the bottom of the sliding support is arranged below the groove.
Furthermore, the edge covering station comprises an edge covering support, and the upper end of the edge covering support is provided with a mop assembly and a sewing machine for edge covering processing of cloth; the mop assembly comprises two relatively slidable jaw cylinders; a stopping mechanism positioned above the longitudinal conveying table is further arranged on one side of the edge covering station; the stop mechanism comprises stop rollers which can be lifted up and down through a lifting cylinder.
Furthermore, the hoisting machine comprises a first support frame and a second support frame which is connected with the first support frame in an inclined manner; an intermediate transmission roller is arranged between the first support frame and the second support frame, and a driven roller and a driving roller are respectively arranged on one sides of the first support frame and the second support frame, which are opposite to the intermediate transmission roller; the synchronous belt is driven by the driving roller and sequentially passes through the middle transmission roller and the driven roller.
Furthermore, the number of the edge covering stations is 12, and six longitudinal conveying tables are arranged on two sides of the longitudinal conveying table respectively.
Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:
the utility model discloses the intelligent large-scale cloth processingequipment and the process flow of borduring of scheme, overall structure is rationally distributed, has avoided the manual work to carry out the transport of large-scale surface fabric, has saved the time, has improved the production efficiency of the processing of borduring, has higher practicality, is applicable to the production and processing of large-scale surface fabric, accords with the pluralism demand of enterprise.
Drawings
The technical scheme of the utility model is further explained by combining the attached drawings as follows:
FIG. 1 is a schematic perspective view of the present invention;
FIG. 2 is an enlarged fragmentary view of FIG. 1;
FIG. 3 is an enlarged view of a portion of A of FIG. 2;
FIG. 4 is an enlarged view of a portion B of FIG. 2;
FIG. 5 is an enlarged view of a portion C of FIG. 2;
FIG. 6 is a schematic perspective view of a material stop mechanism;
FIG. 7 is an enlarged fragmentary view of FIG. 6;
FIG. 8 is a schematic perspective view of the hoist;
FIG. 9 is an enlarged fragmentary view of FIG. 8;
wherein: 1. a transverse transfer table; 2. a longitudinal transfer table; 3. a stock stop mechanism; 4. a cloth grabbing mechanism; 5. a binding station; 6. an intelligent moving trolley; 7. a hoist; 10. a limit baffle; 30. a material blocking bracket; 31. a screw rod; 32. a motor; 33. moving the plate; 34. a stopper; 40. a sliding support; 41. a pressing cylinder; 42. a compression block; 43. a groove; 44. a compression plate; 50. a wrapping bracket; 51. a clamping jaw cylinder; 70. a first support frame; 71. a second support frame; 72. an intermediate drive roller; 73. and (4) a synchronous belt.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
Referring to the attached drawings 1-9, the utility model discloses an intelligent large-scale cloth processingequipment that bordures, include: the transverse conveying table 1 is used for transversely conveying the cloth to be processed; the material blocking mechanism 3 is arranged at the rear end of the transverse conveying table 1 and is used for blocking the cloth conveyed by the transverse conveying table 3; the longitudinal conveying table 2 is arranged perpendicular to the transverse conveying table 1 and positioned on one side of the material stop mechanism 3 and is used for longitudinally conveying the cloth; the cloth grabbing mechanism 4 is arranged at the front end of the longitudinal conveying table 2 and is used for grabbing the cloth positioned at the material blocking mechanism 3 onto the longitudinal conveying table 2; a plurality of edge covering stations 5 are arranged on two sides of the longitudinal conveying table 2 and used for performing edge covering processing on cloth to be processed, an intelligent moving trolley 6 is arranged on one side of each edge covering station 5, and the intelligent moving trolley 6 is used for automatically conveying the processed cloth to a lifter 7; and a lifting machine 7 is arranged on one side of the tail end of the longitudinal conveying table 2 and is used for manually conveying the cloth conveyed by the intelligent moving trolley 6 to a second downstairs next procedure.
As a further preferred embodiment, a limit baffle 10 is arranged on one side of the transverse conveying platform 1, which is to position the cloth to be processed on one side of the cloth in sequence by taking the limit baffle 10 as a reference.
As a further preferred embodiment, the material blocking mechanism 3 includes a material blocking bracket 30 and a screw rod 31 arranged on the material blocking bracket 30, the screw rod 31 drives a moving plate 33 to move back and forth through a motor 32, a stopper 34 is arranged at the front end of the moving plate 33, and the stopper 34 is driven to move back and forth through the screw rod, so that the cloth materials with different length requirements are met.
As a further preferred embodiment, the cloth grabbing mechanism 4 comprises a sliding support 40 capable of sliding longitudinally, a plurality of pressing cylinders 41 are arranged on the sliding support 40, and a piston rod of each pressing cylinder 41 is provided with a pressing block 42; a groove 43 correspondingly arranged is formed on the transverse conveying platform 1 below the pressing block; a pressing plate 44 is arranged below the groove 43 and positioned at the bottom of the sliding bracket 40.
Specifically, when the cloth on the transverse conveying table needs to be grabbed, one end of the cloth is positioned above the groove; the sliding support longitudinally slides to a proper position, so that the pressing plate is positioned below the cloth, then the pressing cylinder moves downwards, the cloth positioned in the groove is positioned between the pressing block and the pressing plate, and then the sliding support returns to the original position, so that the cloth is positioned on the longitudinal conveying table.
As a further preferred embodiment, the hemming station 5 comprises a hemming bracket 50, and a mop assembly, a sewing machine (not shown in the figure) for hemming the cloth is arranged at the upper end of the hemming bracket 50; the mop assembly comprises two relatively slidable jaw cylinders 51; a stopping mechanism (not shown in the figure) positioned above the longitudinal conveying table is also arranged on one side of the edge covering station; the stop mechanism comprises stop rollers which can be lifted up and down through a lifting cylinder.
Specifically, when the corresponding operator needs to grab the cloth and perform edge covering processing, the cloth is firstly stopped by the stopping mechanism to be transmitted, then the cloth is dragged to the sewing machine by the clamping jaw air cylinder 51, and the edge covering processing is performed manually.
As a further preferred embodiment, the hoist 7 includes a first support bracket 70 and a second support bracket 71 tiltably connected thereto; an intermediate transmission roller 72 is arranged between the first support frame 70 and the second support frame 71, and a driven roller 73 and a driving roller 74 are respectively arranged on one side of the first support frame 70 and the second support frame 71 opposite to the intermediate transmission roller 72; the synchronous belt 75 is driven by a driving roller 74 and passes through the intermediate transmission roller 72 wheel and a driven roller 73 in sequence; the processed cloth is sequentially conveyed to the next processing station through a synchronous belt 75.
As a further preferred embodiment, there are 12 hemming stations 5 in total, six on each side of the longitudinal conveyor table 1.
Specifically, still include the processing procedure of the processingequipment that bordures of intelligent large-scale cloth, include the following step:
STEP1, limiting a plurality of cloth materials to be processed by limiting baffles, then sequentially transmitting the cloth materials on the transverse conveying table in sequence, and stopping transmission when the cloth materials to be processed are transmitted to the stopping mechanism;
STEP2, a plurality of cloth to be processed are grabbed to the longitudinal conveying table by the cloth grabbing mechanism for continuous transmission;
STEP3, when the cloth to be processed is transmitted on the longitudinal conveying table, the first edge covering station needs to take the cloth to carry out edge covering processing, an operator controls the corresponding stopping mechanism to work so that the cloth stops transmitting, the cloth is dragged and moved to the sewing machine by the mop assembly, and the operator carries out edge covering processing; at the moment, the longitudinal conveying table continues to convey the subsequent cloth to be processed, so that operators on the subsequent edge covering station can conveniently carry out edge covering processing on the cloth to be processed;
STEP4, when the edge covering process of the operator is finished, the cloth is placed at the intelligent trolley, and when the intelligent trolley collects a set amount of cloth, the intelligent trolley automatically moves to the elevator;
STEP5, an operator manually places the processed cloth in the intelligent trolley into the elevator at the elevator, and the synchronous belt in the elevator transmits the edge-covered cloth to the next procedure of the second floor.
The utility model discloses an intelligent large-scale cloth processingequipment and process flow of borduring, overall structure is rationally distributed, has avoided the manual work to carry out the transport of large-scale surface fabric, has saved the time, has improved the production efficiency of the processing of borduring, has higher practicality, is applicable to the production and processing of large-scale surface fabric, accords with the pluralism demand of enterprise.
The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.