CN109773862B - Bidirectional cloth spreading feeder - Google Patents

Abstract

The invention discloses a bidirectional cloth spreading feeder which comprises a main frame, an infrared grating, a table top, a cloth spreading mechanism and a left-right cloth moving mechanism, wherein the table top, the cloth spreading mechanism and the left-right cloth moving mechanism are arranged in the main frame, the cloth spreading mechanism and the left-right cloth moving mechanism are both arranged at the upper part of the table top, the cloth spreading mechanism is arranged at the middle position of the upper part of the main frame in the X-axis direction, the left-right cloth moving mechanism is respectively arranged at the left side and the right side of the cloth spreading mechanism in the Y-axis direction, and the infrared grating is respectively arranged at the front end and the top end of the upper part of the main frame and is in a right-angle structure. Through the mode, the cloth pulling and moving device can carry out cloth pulling and cloth moving feeding in the X axis and Y axis directions, the cloth pulling and cloth moving feeding sizes are accurate, the clamping force of the cloth pulling clamping jaw is large, the contact surface of the upper cloth pulling clamping jaw and the lower cloth pulling clamping jaw is large, even if the cloth is very thin, the cloth can be firmly clamped, and the device has the advantages of correcting deviation, preventing collision, greatly improving safety performance, preventing mechanical parts from being damaged, and the like, and also has the function of preventing the edge of the cloth from being warped.

Description

Bidirectional cloth spreading feeder

Technical Field

The invention relates to the technical field of cloth automatic processing equipment, in particular to a bidirectional cloth spreading feeder.

Background

In the production of textile products, cutting is an essential link. The cloth is typically flattened and then cut. In the prior art, cloth is flattened by a cloth spreading machine, and the cloth spreading machine is an important cloth spreading tool applied in the textile production industry, plays an important role in fabric cutting production, and saves a large amount of manpower. However, the conventional spreading machine generally only performs spreading, and has low efficiency and single function, so how to solve the above problems is a direction that a person skilled in the art needs to make efforts.

Disclosure of Invention

The invention mainly solves the technical problems of providing a bidirectional cloth pulling and moving feeder which is suitable for different kinds of cloth, realizes automatic production of cloth pulling and feeding operation, can carry out cloth pulling and cloth moving feeding in the X axis and Y axis directions, has accurate size of cloth pulling and cloth moving feeding, large clamping force of cloth pulling clamping jaws, large contact surface of upper and lower cloth pulling clamping jaws, firm clamping of even very thin cloth, has the advantages of deviation rectifying, anti-collision function, greatly improved safety performance, difficult damage to mechanical parts and the like, and also has the function of preventing the edge of the cloth from warping.

In order to solve the technical problems, the invention adopts a technical scheme that: the utility model provides a two-way granny rag feeder, including main frame, infrared ray grating and set up at the inside mesa of main frame, granny rag mechanism and control and move cloth mechanism, granny rag mechanism and control move cloth mechanism and all set up the upper portion at the mesa, granny rag mechanism and control and move cloth mechanism and all adopt "T" style of calligraphy structure, granny rag mechanism be the intermediate position that X axis direction set up on main frame upper portion, control and move cloth mechanism and be Y axis direction setting respectively on the left and right sides of granny rag mechanism, infrared ray grating set up front end and top on main frame upper portion respectively and be right angle shape structure.

In a preferred embodiment of the present invention, two side edges of the table top are respectively provided with a first position locating plate and a second position locating plate which extend outwards, the first position locating plate and the second position locating plate respectively adopt mirror symmetry structures, and the second position locating plate and the table top adopt an integrated structure.

In a preferred embodiment of the present invention, the number of the left and right cloth moving mechanisms is 2, and the left and right cloth moving mechanisms are respectively arranged at the left and right sides of the cloth spreading mechanism in a mirror image manner.

In a preferred embodiment of the invention, the spreading mechanism comprises a spreading guide rail, a first guide chain, spreading sensors, a first motor, a spreading synchronous belt, spreading clamping jaw mounting seats, a swing arm seat, a connecting arm, a spreading clamping cylinder, a lower main spreading clamping jaw, an upper short-acting spreading clamping jaw and a deviation correcting sensor, wherein the first guide chain is arranged at one side edge of the front end of the spreading guide rail in parallel through a mounting plate, the first motor is arranged at the other side edge of the rear end of the spreading guide rail, the spreading sensors are respectively arranged at the front end and the rear end of the side edge of the spreading guide rail and are positioned at the front end of the first motor, the deviation correcting sensor is arranged at the middle position of the side edge of the spreading guide rail and between the two spreading sensors, the spreading synchronous belt is movably arranged at the front end of the spreading guide rail, the lower main spreading guide rail and the lower end of the first guide chain are connected at the middle position of the rear end of the spreading mounting seat through a connecting frame, the lower main spreading clamping jaw is arranged at the front end of the spreading clamping jaw and the upper short-acting spreading clamping jaw and the first guide chain, the lower main spreading clamping jaw are respectively arranged at the front end of the spreading clamping jaw and the swing arm and are respectively connected with the upper clamping jaw and the front end of the main spreading clamping jaw through the connecting arm seat.

In a preferred embodiment of the present invention, the length of the lower main pulling grip is greater than the length of the upper main pulling grip, and the length of the upper main pulling grip is greater than the length of the upper short pulling grip.

In a preferred embodiment of the present invention, the upper main pulling cloth clamping jaw and the upper short-acting pulling cloth clamping jaw are arranged above the lower main pulling cloth clamping jaw, and the upper short-acting pulling cloth clamping jaw is respectively positioned at two side edges of the upper main pulling cloth clamping jaw.

In a preferred embodiment of the invention, the left-right cloth moving mechanism comprises a cloth moving guide rail, a second motor, a second guide chain, a cloth moving sensor, a left-right cloth moving synchronous belt, a cloth pressing cylinder, a width adjusting bracket, a first adjusting plate and a rubber pressing plate, wherein the second guide chain is horizontally arranged at one side of the cloth moving guide rail through a guide chain mounting plate, the second motor is connected with the cloth moving guide rail and is positioned at the rear of the cloth moving guide rail, the cloth moving sensor is respectively arranged at the other side of the cloth moving guide rail, the left-right cloth moving synchronous belt is movably arranged at the front end of the cloth moving guide rail, the second guide chain is connected with the second guide chain through a guide chain mounting plate width adjusting bracket, the cloth pressing cylinder is arranged at the lower end of the guide chain mounting plate and is connected with the second guide chain, the first adjusting plate is respectively horizontally arranged at two side of the width adjusting bracket, the second adjusting plate is respectively horizontally arranged at the middle position of the rear end of the width adjusting bracket and is in a vertical structure with the first adjusting plate, and the second adjusting plate is respectively arranged at the bottom of the width adjusting bracket and the bottom of the first adjusting plate.

In a preferred embodiment of the present invention, the rubber platen is further provided with a platen spring, and the rubber platen moves up and down through the platen spring.

In a preferred embodiment of the present invention, the left and right ends and any position in the middle of the width adjusting bracket are provided with a tilt angle air blowing pipe.

In a preferred embodiment of the present invention, the main frame is further provided with an adjusting shaft, an adjusting slider and a lock catch, the adjusting shaft is connected with the adjusting slider and located above the left-right cloth moving mechanism, and the lock catch is disposed on the adjusting shaft and located at the front end of the adjusting slider.

The beneficial effects of the invention are as follows: the bidirectional cloth pulling and feeding machine is suitable for different kinds of cloth, realizes automatic production of cloth pulling and feeding operation, can carry out cloth pulling and cloth moving and feeding in the directions of an X axis and a Y axis, has accurate size of cloth pulling and cloth moving and feeding, has large clamping force of cloth pulling clamping jaws, has large contact surface of upper and lower cloth pulling clamping jaws, can firmly clamp even thinner cloth, has the advantages of deviation rectifying and anti-collision functions, greatly improves safety performance, is not easy to damage mechanical parts and the like, and also has the function of preventing the cloth from edge warping.

Drawings

For a clearer description of the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly introduced below, it being obvious that the drawings in the description below are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art, wherein:

FIG. 1 is a schematic diagram of a bi-directional cloth feeding machine according to a preferred embodiment of the present invention;

FIG. 2 is a schematic view of the mechanism of FIG. 1;

FIG. 3 is a schematic view of the left-right cloth moving mechanism in FIG. 1;

the components in the drawings are: 1. the device comprises a main frame, 2, an infrared grating, 3, a table top, 4, a spreading mechanism, 5, a left-right cloth moving mechanism, 6, an adjusting shaft, 7, an adjusting sliding block, 8, a lock catch, 9, a first position positioning plate, 10, a second position positioning plate, 401, a cloth spreading guide rail, 402, a first guide chain, 403, a cloth spreading sensor, 404, a first motor, 405, a cloth spreading synchronous belt, 406, a cloth spreading clamping jaw mounting seat, 407, a swing arm seat, 408, a connecting arm, 409, a cloth clamping cylinder, 410, a lower main cloth spreading clamping jaw, 411, an upper main cloth spreading clamping jaw, 412, an upper short-acting cloth spreading clamping jaw, 413, a mounting plate, 414, a connecting frame, 415, a deviation correcting sensor, 416, an anti-collision probe, 501, a cloth moving guide rail, 502, a second motor, 503, a second guide chain, 504, a cloth moving sensor, 505, a left-right cloth spreading synchronous belt, 506, a cloth pressing cylinder, 507, a width adjusting bracket, 508, a first adjusting plate, 509, a rubber pressure plate, 510, a guide chain mounting plate, 511, a second adjusting plate, a blowing pipe and 512.

Detailed Description

The following description of the technical solutions in the embodiments of the present invention will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1, an embodiment of the present invention includes:

the utility model provides a two-way granny rag feeder, includes main frame 1, infrared ray grating 2 and sets up at the inside mesa 3 of main frame 1, granny rag mechanism 4 and control and move cloth mechanism 5, granny rag mechanism 4 and control move cloth mechanism 5 all set up the upper portion at mesa 3, granny rag mechanism 4 be the intermediate position that X axis direction set up on main frame 1 upper portion, control and move cloth mechanism 5 and be Y axis direction setting respectively and be on both sides about granny rag mechanism 4, infrared ray grating 2 set up front end and top on main frame 1 upper portion respectively and be right angle shape structure.

An infrared grating: the function is to prevent the handle and other human body parts or tools from extending into or falling into the production mechanism in operation during the production operation, thereby causing personal injury and tool damage to the equipment. Upon triggering the infrared grating, the production equipment emergently stops all production movements.

In this embodiment, the cutter mechanism (not shown) may be integrally incorporated into the main frame 1. When any misoperation such as operating handles or tools is put into the cutter mechanism, the operation can be immediately stopped after the automatic induction of the infrared grating 2, so that the danger is prevented, and the safety performance is high.

In the above description, the spreading mechanism 4 and the left-right cloth moving mechanism 5 are both in a T-shaped structure. The number of the left cloth moving mechanisms 5 and the right cloth moving mechanisms 5 is 2, and the left cloth moving mechanisms and the right cloth moving mechanisms are respectively arranged at the left side and the right side of the cloth spreading mechanism 4 in a mirror image mode.

Further, the two side edges of the table top 3 are respectively provided with a first position locating plate 9 and a second position locating plate 10 which extend outwards, the first position locating plate 9 and the second position locating plate 10 respectively adopt mirror symmetry structures, the second position locating plate 10 and the table top 3 adopt integrated into one piece structures, and the size can be adjusted through the first position locating plate 9 and the second position locating plate 10 for the matching location of the overedger and other sewing equipment.

As shown in fig. 2, the cloth pulling mechanism 4 includes a cloth pulling guide rail 401, a first guide chain 402, a cloth pulling sensor 403, a first motor 404, a cloth pulling synchronous belt 405, a cloth pulling clamping jaw mounting base 406, a swing arm base 407, a connecting arm 408, a cloth clamping cylinder 409, a lower main cloth pulling jaw 410, an upper main cloth pulling jaw 411, an upper short moving cloth pulling jaw 412, and a deviation correcting sensor 415. The first guide chain 402 is arranged on one side of the front end of the cloth pulling guide rail 401 in parallel through the mounting plate 413, the first motor 404 is arranged on the other side of the rear end of the cloth pulling guide rail 401, the cloth pulling sensors 403 are respectively arranged on the front end and the rear end of the side of the cloth pulling guide rail 401 and are positioned at the front end of the first motor 404, the deviation correcting sensors 415 are arranged on the middle position of the side of the cloth pulling guide rail 401 and are positioned between the two cloth pulling sensors 403, the cloth pulling synchronous belt 405 is movably arranged on the front end of the cloth pulling guide rail 401, the lower ends of the cloth pulling guide rail 401 and the first guide chain 402 are connected to the middle position of the rear end of the cloth pulling clamping jaw mounting seat 406 through the connecting frame 414, the lower main cloth pulling jaw 410 is arranged on the front end of the cloth pulling jaw mounting seat 406, the swing arm seat 407 is respectively arranged in the cloth pulling mounting seat 406 and is respectively connected with the upper main cloth pulling jaw 411 and the upper short moving cloth pulling 412 through the connecting arm 408, and the clamp cloth clamping cylinder 409 is respectively arranged on the rear end of the cloth clamping jaw 406 and is respectively connected with the rear end of the connecting arm 408.

In the foregoing, the length of the lower main pulling grip 410 is greater than the length of the upper main pulling grip 411, and the length of the upper main pulling grip 411 is greater than the length of the upper short pulling grip 412. Wherein, the upper main pulling cloth clamping jaw 411 and the upper short pulling cloth clamping jaw 412 are arranged above the lower main pulling cloth clamping jaw 410, and the upper short pulling cloth clamping jaw 412 is respectively positioned at two sides of the upper main pulling cloth clamping jaw 411.

The cloth is pulled to the required size and position by using the cloth pulling sensor 403 and the deviation correcting sensor 415 to accurately position the position of the cloth, so that the position deviation of the cloth is prevented, the upper main cloth pulling clamping jaw 411 and the upper short movable cloth pulling clamping jaw 412 are pressed down to be matched with the lower main cloth pulling clamping jaw 410, and the cloth is pulled to have a lower clamping structure, so that the clamping force is high, and even a very thin cloth can be firmly clamped.

In this embodiment, the spreading mechanism 4 further includes an anti-collision probe 416, the anti-collision probe 416 is disposed on the connecting frame 414, when the anti-collision probe 416 is impacted in a runaway manner during operation, the device stops operating, the safety performance is high, mechanical components are not easy to damage, and maintenance steps are reduced.

As shown in fig. 3, the left-right cloth moving mechanism 5 comprises a cloth moving guide rail 501, a second motor 502, a second guide chain 503, a cloth moving sensor 504, a left-right cloth moving synchronous belt 505, a cloth pressing cylinder 506, a width adjusting bracket 507, a first adjusting plate 508 and a rubber platen 509. The second guide chain 503 is horizontally arranged at one side of the cloth moving guide rail 501 through the guide chain mounting plate 510, the second motor 502 is connected with the cloth moving guide rail 501 and is positioned at the rear of the cloth moving guide rail 501, the cloth moving sensor 504 is respectively arranged at the other side of the cloth moving guide rail 501, the left and right cloth moving synchronous belt 505 is movably arranged at the front end of the cloth moving guide rail 501, the second guide chain 503 is connected with the width adjusting bracket 507 through the guide chain mounting plate 510, the cloth pressing cylinder 506 is arranged at the lower end of the guide chain mounting plate 510 and is connected with the second guide chain 503, the first adjusting plates 508 are respectively horizontally arranged at two sides of the width adjusting bracket 507, the second adjusting plates 511 are respectively horizontally arranged at the middle positions of the rear ends of the width adjusting bracket 507 and are in a vertical structure with the first adjusting plates 208, and the rubber pressing plate 509 is respectively arranged at the bottom of the first adjusting plates 508 and the bottom of the width adjusting bracket 507.

Wherein, the rubber pressure plate 509 is also provided with a pressure plate spring (not shown), and the rubber pressure plate 509 moves up and down through the pressure plate spring. The number of rubber platens 509 is increased or decreased depending on the non-size and fabric production requirements. In this embodiment, the number of the rubber pressure plates 509 is 6, 2 rubber pressure plates 509 are respectively disposed at the bottom of the free end of the first adjusting plate 508, the height can be arbitrarily adjusted according to the thickness of the cloth, and 2 rubber pressure plates 509 are respectively disposed at the bottom of the middle position of the width adjusting bracket 507, and the height is arbitrarily adjusted according to the thickness of the cloth.

The rubber pressure plate 509 is made of rubber material and plays a role in skid resistance on cloth; the first adjusting plate 508 can be arbitrarily adjusted in size, and the corresponding size is adjusted according to the size of the cloth, so that the maximum size is 650mm, and the minimum size is 150mm.

Further, the left and right ends and the middle arbitrary position of the width adjusting bracket 507 are provided with a tilt angle air blowing pipe 512, and the corners of the cloth are blown to be flat through the tilt angle air blowing pipe 512, so that the edge tilting phenomenon of the cloth is prevented.

After the cloth is pulled by the cloth pulling mechanism 3, the cloth is pulled down to a required size and position, then the cloth is cut off by a cutter component (not shown), and the position of the cut cloth is corrected by the left-right cloth moving mechanism 5 and is moved to a designated position by the first adjusting plate 508 and the rubber pressing plate 509, and meanwhile, the cloth pulling mechanism also has the function of preventing the edge of the cloth from being warped.

In this embodiment, the main frame on still be provided with regulating spindle 6, adjusting slide 7 and hasp 8, regulating spindle 6 be connected and be located the top of controlling cloth moving mechanism 5 with adjusting slide 7, hasp 8 set up on regulating spindle 6 and be located adjusting slide 7's front end.

Each group of the left-right cloth moving mechanism 5 is fixed on two parallel adjusting shafts 6 by connecting two adjusting slide blocks 7, and is fixed together with the connecting plate of the adjusting slide blocks 7 by lock catches 8 arranged on the adjusting shafts 6, when the size of cloth is adjusted, only the two lock catches 8 are unscrewed, the size adjustment is completed by adjusting to a required position for locking, the operation is convenient, the connection is firm, and the production efficiency and the requirements on production staff are greatly improved.

In the above, each cylinder is provided with a magnetic switch (not shown), the magnetic switch is used for knowing through magnetic induction of the magnetic switch after the cylinder is connected to complete the action, and feeding back a command to the system can start the next step, if the magnetic switch does not sense, the next step is likely to be faulty, the work will be stopped at the step, and the display screen prompts that the fault is generated, so that the next step is informed. The maintenance personnel are not required to search fault points unordered, and the maintenance time is prolonged.

In summary, the bidirectional cloth pulling and feeding machine is suitable for different kinds of cloth, realizes automatic production of cloth pulling and feeding operation, can carry out cloth pulling and cloth moving and feeding in both X axis and Y axis directions, has accurate cloth pulling and cloth moving and feeding dimensions, has large clamping force of cloth pulling clamping jaws, has large contact surfaces of upper and lower cloth pulling clamping jaws, can firmly clamp even very thin cloth, has the advantages of deviation rectifying, anti-collision function, greatly improved safety performance, difficult damage to mechanical parts and the like, and also has the function of preventing the edge of the cloth from warping.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present invention.

Claims (8)

1. The bidirectional cloth pulling feeder is characterized by comprising a main frame, an infrared grating, a table top arranged in the main frame, a cloth pulling mechanism and a left-right cloth moving mechanism, wherein the cloth pulling mechanism and the left-right cloth moving mechanism are arranged on the upper part of the table top, the cloth pulling mechanism and the left-right cloth moving mechanism are both in a T-shaped structure, the cloth pulling mechanism is arranged in the middle position of the upper part of the main frame in the X-axis direction, the left-right cloth moving mechanism is respectively arranged on the left side and the right side of the cloth pulling mechanism in the Y-axis direction, and the infrared grating is respectively arranged at the front end and the top end of the upper part of the main frame and is in a right-angle structure;

the cloth pulling mechanism comprises a cloth pulling guide rail, a first guide chain, a cloth pulling sensor, a first motor, a cloth pulling synchronous belt, a cloth pulling clamping jaw mounting seat, a swing arm seat, a connecting arm, a cloth clamping cylinder, a lower main cloth pulling clamping jaw, an upper short movable cloth pulling clamping jaw and a deviation correcting sensor, wherein the first guide chain is arranged on one side edge of the front end of the cloth pulling guide rail in parallel through a mounting plate, the first motor is arranged on the other side edge of the rear end of the cloth pulling guide rail, the cloth pulling sensor is respectively arranged at the front end and the rear end of the side edge of the cloth pulling guide rail and is positioned at the front end of the first motor, the deviation correcting sensor is arranged at the middle position of the side edge of the cloth pulling guide rail and is positioned between the two cloth pulling sensors, the cloth pulling synchronous belt is movably arranged at the front end of the cloth pulling guide rail, the lower end of the cloth pulling guide rail and the first guide chain are connected to the middle position of the rear end of the cloth pulling clamping jaw mounting seat through a connecting frame, the lower main cloth pulling clamping jaw is arranged at the front end of the cloth pulling clamping jaw mounting seat, the cloth clamping jaw is respectively arranged at the front end of the cloth clamping jaw mounting seat, and the cloth clamping jaw is respectively connected to the front end of the main cloth clamping jaw through the connecting arm and the movable clamping jaw;

the cloth mechanism moves about including moving cloth guide rail, second motor, second guide chain, move cloth sensor, move cloth hold-in range about, press cloth cylinder, width adjustment support, first regulating plate, rubber pressure disk and second regulating plate, the second guide chain pass through guide chain mounting panel level and set up in one side of moving the cloth guide rail, the second motor be connected and be located the rear of moving the cloth guide rail with moving the cloth guide rail, move cloth sensor and set up respectively at another side of moving the cloth guide rail, control the front end of moving the cloth hold-in range activity setting at moving the cloth guide rail, the second guide chain be connected through guide chain mounting panel width adjustment support, press cloth cylinder set up the lower extreme at the guide chain mounting panel and be connected with the second guide chain, first regulating plate respectively the level set up in the both sides limit of width adjustment support, the second regulating plate respectively the level set up in the intermediate position of width adjustment support rear end and be vertical structure with first regulating plate, the rubber pressure disk set up respectively in the bottom of first regulating plate and width adjustment support.

2. The bidirectional spreading feeder of claim 1, wherein the two side edges of the table top are respectively provided with a first position locating plate and a second position locating plate which extend outwards, the first position locating plate and the second position locating plate respectively adopt mirror symmetry structures, and the second position locating plate and the table top adopt integrated structures.

3. The bidirectional spreading feeder according to claim 2, wherein the number of the left and right cloth moving mechanisms is 2, and the left and right cloth moving mechanisms are respectively arranged at the left and right sides of the spreading mechanism in a mirror image manner.

4. The bi-directional spreading feeder according to claim 1 wherein the length of the lower main spreading jaw is greater than the length of the upper main spreading jaw and the length of the upper main spreading jaw is greater than the length of the upper short moving spreading jaw.

5. The bi-directional spreading feeder according to claim 4 wherein said upper main spreading jaw and said upper short moving spreading jaw are disposed above said lower main spreading jaw, said upper short moving spreading jaw being disposed on opposite sides of said upper main spreading jaw.

6. The bidirectional cloth feeding machine of claim 1, wherein the rubber press plate is further provided with a press plate spring, and the rubber press plate moves up and down through the press plate spring.

7. The bidirectional spreading feeder according to claim 1, wherein any position between the left and right ends and the middle of the width adjusting bracket is provided with a tilt angle air blowing pipe.

8. The bidirectional spreading feeder of claim 1, wherein the main frame is further provided with an adjusting shaft, an adjusting slide block and a lock catch, the adjusting shaft is connected with the adjusting slide block and is located above the left-right cloth moving mechanism, and the lock catch is arranged on the adjusting shaft and is located at the front end of the adjusting slide block.