CN112210902A - Rotary square towel machine - Google Patents

Abstract

The invention relates to a rotary square towel machine, which comprises a rack, wherein a bearing space is arranged on the rack; the processing table surface is arranged in the bearing space; the overlock machine is arranged on one side of the processing table board, and the front end of the overlock machine is provided with a smoothing assembly for smoothing out and positioning the cloth; the label feeding mechanism is positioned on one side of the serger and is used for feeding the label to the serger; the cloth rotating mechanism is positioned above the processing table top and used for performing multilateral rotation on cloth on the processing table top; the material receiving assembly is positioned on one side of the processing table top and is used for collecting finished products; the conveying assembly is arranged above the processing table board and used for matching with the overlocking machine for overlocking and conveying the cloth on the processing table board to the material receiving assembly.

Description

Rotary square towel machine

Technical Field

The invention belongs to the technical field of textile machine equipment, and particularly relates to a rotary square towel machine.

Background

In the textile field, a square towel is a common living article, four sides of the square towel need to be overlooked in actual production, the existing processing mode is that cloth unilateral overlocking is carried out manually, then the cloth is rotated manually in sequence, and then each side is overlooked in sequence, so that four sides of the cloth are overlooked, meanwhile, when the last side is overlooked, a label needs to be sewn on the cloth and then the last side is overlooked, and the square towel is collected manually after processing; however, after long-time production and processing, the efficiency of the processing mode is low, the number of workers is large, the labor cost is increased, the production efficiency of an enterprise is limited, the requirement of batch production of the enterprise cannot be met, and the further development of the enterprise is limited.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the rotary square towel machine which has a simple structure, can automatically complete the overlocking of four sides of cloth, synchronously sews a label on the cloth and can automatically complete the collection of finished products.

In order to achieve the purpose, the invention adopts the technical scheme that: a rotary towel machine comprising:

the device comprises a rack, a bearing space is arranged on the rack;

the processing table top is arranged in the bearing space;

the overlock machine is arranged on one side of the processing table board, and the front end of the overlock machine is provided with a smoothing assembly for smoothing and positioning the cloth;

the label feeding mechanism is positioned on one side of the overlock machine and used for feeding the label to the overlock machine;

the cloth rotating mechanism is positioned above the processing table top and is used for performing multilateral rotation on cloth on the processing table top;

the receiving assembly is positioned on one side of the processing table top and is used for collecting finished products;

the conveying assembly is arranged above the processing table board and is used for matching with the serging processing of the serger and the cloth rotating operation of the cloth rotating mechanism and conveying the cloth on the processing table board to the material receiving assembly;

the cloth is conveyed to the smoothing assembly through the conveying assembly to be smoothed and positioned, the serger serges the first edge of the cloth, the second edge and the third edge of the cloth are sequentially rotated through the cloth rotating mechanism after the first edge serging is completed, the serger serges the first edge of the cloth through the smoothing assembly in a matching mode, the fourth edge of the cloth is rotated to one side of the serger through the cloth rotating mechanism, the label feeding mechanism feeds the label to the fourth edge of the cloth, the label and the fourth edge are combined together through the serger after the smoothing assembly, and finally the conveying mechanism conveys the finished product to the material receiving assembly to be collected.

Further, the smoothing assembly comprises a lower pressing support, and a lower pressing surface is arranged at the front end of the lower pressing support; an upper pressing plate which can be lifted up and down through a cloth pressing cylinder is arranged above the lower pressing support; the front end of the upper pressure plate is provided with a lower pressure surface positioned above the lower pressure surface; the upper pressing plate is provided with a buffering piece, the bottom of the buffering piece penetrates through the upper pressing plate and then is located between the upper pressing plate and the lower pressing plate, and the distance between the bottom of the buffering piece and the lower pressing plate is smaller than the distance between the upper pressing surface and the lower surface.

Further, the label sending mechanism comprises:

a label outlet machine;

the label sending component is positioned on one side of the label outlet machine;

the label feeding assembly comprises a forward moving cylinder, and a driving motor is arranged at the front end of the forward moving cylinder; a rotating shaft of the driving motor is connected with the gear; the gear is connected with the rack, a lower clamping plate is arranged at one end of the rack, and an upper clamping plate capable of moving up and down through a clamping cylinder is arranged at the upper end of the lower clamping plate.

Further, the cloth rotating mechanism includes:

the rotary bracket is provided with an installation space;

the rotating motor is arranged on the rotating bracket, and a rotating shaft of the rotating motor is arranged in the mounting space;

a first connecting bar; one end of the first connecting strip is connected with the rotating shaft in the mounting space;

a second connecting strip; the second connecting strip is connected with the first connecting strip;

a plurality of hold-down assemblies; the plurality of pressing assemblies are arranged at the lower ends of the first connecting strip and the second connecting strip.

Further, the pressing assembly comprises a pressing cylinder, and the pressing cylinder drives a pressing support on the sliding rail to move up and down; and a lower pressing block is arranged on the lower pressing support.

Further, the material receiving assembly comprises a sliding plate positioned on one side of the processing table board; the sliding plate is movably arranged on the frame through a sliding guide rail; a material collecting plate is arranged below the sliding plate; a transmission component is arranged above the sliding plate; and a grabbing mechanism for grabbing the cloth is further arranged above the sliding plate.

Furthermore, the grabbing mechanism comprises a grabbing bracket, and a grabbing cylinder is arranged on the grabbing bracket; a piston rod of the grabbing cylinder is downwards arranged on the bearing frame; the bearing frame is provided with a movable rod which is positioned in the sliding seat and can move up and down; the bottom of bearing frame is equipped with a plurality of grabbing subassemblies, and the subassembly of grabbing includes power cylinder to and unclamp/press from both sides tight two clamping jaws through power cylinder drive.

Further, the transmission assembly comprises a transmission cylinder arranged on the rack; the lower end of the transmission cylinder is provided with a pressing frame; the lower end of the pressing frame is provided with two synchronous wheel assemblies, and each synchronous wheel assembly comprises two synchronous wheels connected through a synchronous belt; the two synchronous wheel assemblies are connected through a power shaft, and the power shaft is driven through a power transmission assembly through a power motor.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

the rotary square towel provided by the scheme of the invention has a compact integral structure, can automatically realize three-side rotation of cloth, so that four sides of the cloth can be automatically serged, and finally finished products can be automatically collected.

Drawings

The technical scheme of the invention is further explained by combining the accompanying drawings as follows:

FIG. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is an enlarged view of portion B of FIG. 1;

FIG. 4 is a schematic structural view of another aspect of the present invention;

FIG. 5 is a schematic structural view of the smoothing assembly;

FIG. 6 is a schematic structural view of a label feeding assembly;

FIG. 7 is a schematic structural view of a cloth rotating mechanism;

FIG. 8 is a schematic structural view of the grasping mechanism;

FIG. 9 is a schematic structural view of a transfer assembly;

wherein: the automatic label feeding machine comprises a frame 1, a processing table board 2, an overlock machine 3, a smoothing assembly 4, a label feeding mechanism 5, a rotary cloth mechanism 6, a material receiving assembly 7, a transmission assembly 8, a lower pressing support 40, a lower pressing surface 41, a cloth pressing air cylinder 42, an upper pressing plate 43, a guide column 44, an upper pressing surface 45, a buffer 46, a label discharging machine 50, a label feeding assembly 51, a forward moving air cylinder 510, a driving motor 511, a rack 512, a lower clamping plate 513, a clamping air cylinder 514, an upper clamping plate 515, an infrared sensor 516, a rotating support 60, a rotating motor 61, a first connecting strip 62, a first connecting strip 63, a lower pressing air cylinder 64, a sliding rail 65, a lower pressing support 66, a lower pressing block 67, a sliding plate 70, a sliding guide rail 71, a material receiving plate 72, a grabbing support 73, a grabbing air cylinder 74, a bearing frame 75, a sliding seat 76, a moving rods 77, a power air cylinder 78, a clamping jaw 79, a rodless air cylinder 711, a, Power shaft 83, power motor 84, power transmission assembly 85.

Detailed Description

The invention is described in further detail below with reference to the figures and the embodiments.

Referring to fig. 1-4, the rotary shawl machine of the present invention includes a frame 1, a processing table 2, an overlock machine 3, a smoothing assembly 4, a label feeding mechanism 5, a cloth rotating mechanism 6, a material receiving assembly 7 and a transmission assembly 8; a bearing space is arranged on the frame 1; the processing table top 2 is arranged in the bearing space; the overlock machine 3 is arranged on one side of the processing table board 2, the front end of the overlock machine 3 is provided with a smoothing assembly 4 for smoothing out cloth and positioning the position of the cloth to prevent the position of the overlock machine during processing, so that subsequent overlock processing is facilitated, the overlock machine can move transversely through a sliding rail assembly, and the position of the overlock machine is conveniently adjusted.

The label feeding mechanism 5 is positioned at the front end of the overlock machine 3 and is used for feeding labels to the overlock machine 3, and the labels can be sewn on the cloth along with the cloth through the overlock machine; the cloth rotating mechanism 6 is positioned above the processing table top 2 and used for performing multilateral rotation on the cloth on the processing table top 2, wherein the rotation is to sequentially rotate three sides of the cloth, and the rotation angle is 90 degrees anticlockwise; the material receiving assembly 7 is positioned on one side of the processing table top 2 and used for collecting finished products; in addition, still include transmission assembly 8, transmission assembly 8 locates and locates the top of processing mesa 2 for cooperate the overlock processing of overlock machine 3, the cloth operation of revolving cloth mechanism 6, and will be located the cloth forward transmission of processing mesa 2 and receive material assembly 7 department.

Specifically, referring to fig. 5, the smoothing assembly 4 includes a pressing bracket 40, and a pressing surface 41 is provided at a front end of the pressing bracket 40; an upper pressing plate 43 which can be lifted up and down through a cloth pressing cylinder 42 is arranged above the lower pressing support 40, an upper pressing surface 45 is arranged at the front end of the upper pressing plate 43, the upper pressing surface 43 and the lower pressing surface 41 are oppositely arranged up and down to form a splayed shape, and the distance between an outer opening and an inner opening in the splayed shape is larger than that between the inner opening and the outer opening; and three guide posts 44 are arranged between the upper pressing surface 45 and the lower pressing surface 41, and play a role in guiding when the upper pressing surface is close to the lower pressing surface.

In addition, a buffer 46 is arranged on the upper pressure plate 43, the bottom of the buffer penetrates through the upper pressure plate and is arranged between the upper pressure plate and the lower pressure plate, and the linear distance between the buffer and the lower pressure plate is smaller than that between the upper pressure surface and the lower pressure surface; therefore, when the cloth enters the smoothing assembly 4, the piston rod of the cloth pressing cylinder 42 is retracted to drive the upper pressing surface 43 and the lower pressing surface 41 connected with the cloth pressing cylinder 42 to be close to each other, so that the cloth before entering the overlock machine is smoothed, and because the linear distance between the buffer and the lower pressing plate is smaller than the distance between the upper pressing surface and the lower pressing surface, the buffer compresses the cloth when the upper pressing surface 43 and the lower pressing surface 41 are close to smooth the cloth, and then drags the cloth through the presser foot on the follow-up overlock machine, the cloth is prevented from being conveyed to the overlock machine in an inclined mode, and the position of the cloth during conveying is guaranteed not to be deviated.

Referring to fig. 6, the label feeding mechanism 5 includes a label discharging machine 50 and a label feeding assembly 51 located at the front end of the label discharging machine 50, the label feeding assembly 61 feeds the label onto the fabric and the label is sewn on the fabric by a subsequent overlock machine; the label feeding assembly 51 comprises a forward moving cylinder 510, and a driving motor 511 is arranged at the front end of the forward moving cylinder 510; the rotating shaft of the driving motor 511 is connected with a gear (not shown in the figure); the gear is connected with the rack 512, a lower clamping plate 513 is arranged at one end of the rack 512, an upper clamping plate 515 capable of moving up and down through a clamping cylinder 514 is arranged at the upper end of the lower clamping plate 513, and the upper clamping plate 15 and the lower clamping plate 513 are L-shaped.

In actual work, the driving motor 511 drives the rack 512 to move forward through a gear, so that a label cut by the label discharging machine 50 is located between the upper clamping plate 515 and the lower clamping plate 513, the clamping cylinder 514 drives the upper clamping plate 515 to move downward to clamp the label, the forward moving cylinder 510 drives the label to move upward for a certain distance, so that the label is just located above the cloth, the upper clamping plate 515 and the lower clamping plate 513 are loosened, the label falls on the cloth, and then the label and the cloth are smoothed by the smoothing assembly 4 synchronously and then subjected to subsequent edge smoothing processing.

In addition, two infrared sensors 516 are further arranged on the rack 512 and used for sensing the length of the sent label, so that subsequent cutting is facilitated.

Referring to fig. 7, the cloth rotating mechanism 6 includes a rotating arm 60, a rotating motor 61, a first connecting bar 62, a first connecting bar 63, and a pressing component; the rotating bracket 60 is provided with an installation space; the rotating motor 61 is arranged on the rotating bracket 60, and a rotating shaft of the rotating motor 61 is arranged in the installation space; one end of the first connecting bar 62 is connected with the rotating shaft in the installation space; the second connecting bar 63 is connected with the first connecting bar 62; two of the pressing components are arranged at the lower end of the first connecting bar 62, and one of the pressing components is arranged at the lower end of the second connecting bar 63.

The pressing assembly comprises a pressing cylinder 64, and the pressing cylinder 64 drives a pressing bracket 66 on a slide rail 65 to move up and down; and a lower pressing block 67 is arranged on the lower pressing support 66.

In actual work, after one side of cloth is finished being overlooked, the rotating motor 61 is utilized to move the lower pressing component to the position above the edge of the cloth, then the lower pressing cylinder 64 drives the lower pressing block 67 on the sliding rail to press the cloth tightly, and then the rotating motor 61 rotates the cloth by 90 degrees, so that the other side of the cloth is correspondingly arranged on one side of the overlock machine for overlock processing, and the overlock processing of four sides of the cloth can be finished by repeating the operation for three times in sequence,

the number and the arrangement positions of the pressing components can be adjusted according to long-term requirements, and the two pressing components are arranged at the lower end of the first connecting strip 62 and are used for ensuring that the cloth can rotate more stably; and the pressing component at the lower end of the second connecting strip 63 is used for pressing the cloth which is wider than the cloth pressed by the pressing component at the lower end of the first connecting strip 62, so that the requirement of products with different sizes can be met by one device.

As a further preferred embodiment, referring to fig. 2 and 8, the receiving assembly 7 includes a sliding plate 70 located on one side of the processing table 2; the sliding plate 70 is movably arranged on the frame 1 through a rodless cylinder 711 and a sliding guide rail 71; a material collecting plate 72 is arranged below the sliding plate 70; a transmission assembly is provided above the sliding plate 70; a grabbing mechanism for grabbing the cloth is further arranged above the sliding part 70; the grabbing mechanism comprises a grabbing bracket 73, and a grabbing air cylinder 74 is arranged on the grabbing bracket 73; the piston rod of the gripping cylinder 74 is arranged downwards on the carriage 75; a moving rod 77 which is positioned in the sliding seat 76 and can move up and down is arranged on the bearing frame 75; the bottom of the bearing frame 75 is provided with four grabbing components which are distributed around the cloth; wherein the gripping assembly comprises a power cylinder 78 and two gripping jaws 79 driven to release/grip by the power cylinder 78.

In operation, after the finished product is conveyed from the conveying assembly 8, the grabbing cylinder 74 drives the whole bearing frame 75 to move downwards under the guidance of the moving rod 77, the power cylinder 78 drives the two clamping jaws 79 to clamp the finished product, then the conveying assembly loosens the finished product, then the sliding plate 70 moves to the right on the sliding slide rail 71 under the pushing of the rodless cylinder 711 to expose the material collecting plate below the sliding plate, then the two clamping jaws loosen, so that the finished product directly falls onto the material collecting plate 72, and the operation is repeated until the material collecting plate is fully stacked with the finished product.

In addition, referring to fig. 9, the transmission assembly 8 includes a transmission cylinder 80 disposed on the frame 1; the lower end of the transmission cylinder 80 is provided with a pressing frame 81; the lower end of the pressing frame 81 is provided with two synchronous wheel assemblies 82, and each synchronous wheel assembly comprises two synchronous wheels connected through a synchronous belt; the two synchronous wheel assemblies are connected through a power shaft 83, the power shaft 83 is driven by a power motor 84 through a power transmission assembly 85, and the power transmission assembly is pressed into a synchronous belt transmission assembly; when the cloth needs to be compressed and transmitted, the transmission cylinder starts to work and drives the whole pressing frame to move downwards, so that the left synchronous belt and the right synchronous belt compress the cloth, and then the power motor 84 drives the two synchronous belts to drive the cloth to be transmitted forwards through the transmission shaft; when the width of the cloth is short, only one synchronous wheel assembly is matched with two pressing assemblies positioned at the lower ends of the first connecting strips for production and processing; when the width of cloth is longer, need two synchronizing wheel subassemblies to cooperate one to be located the lower extreme of second connecting strip and push down the subassembly and produce processing.

The working process of the rotary shawl machine is as follows: firstly, putting the cloth on a processing table board, then conveying the cloth to a smoothing assembly for smoothing, then serging the first edge of the cloth by a serger, after the first edge is serged, sequentially rotating the second edge and the third edge of the cloth to the serger through a cloth rotating mechanism to respectively serge the second edge and the third edge, spinning the fourth edge of the cloth to the serger through a cloth rotating mechanism, feeding the label to the fourth edge of the cloth by a label feeding mechanism, serging the label and the fourth edge together through the serger, and finally conveying the finished product to a material receiving assembly by the conveying mechanism to collect the finished product.

The rotary square towel is compact in overall structure, three sides of cloth can be automatically rotated, so that four sides of the cloth can be automatically serded, finished products can be automatically collected, the whole process is completed automatically, manpower is reduced, production efficiency is improved, labor cost is reduced, and production and processing requirements of enterprises are met.

The above is only a specific application example of the present invention, and the protection scope of the present invention is not limited in any way. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (8)

1. A rotary towel machine, comprising:

the device comprises a rack, a bearing space is arranged on the rack;

the processing table top is arranged in the bearing space;

the overlock machine is arranged on one side of the processing table board, and the front end of the overlock machine is provided with a smoothing assembly for smoothing and positioning the cloth;

the label feeding mechanism is positioned on one side of the serger and used for feeding the label to the serger;

the cloth rotating mechanism is positioned above the processing table top and is used for performing multilateral rotation on the cloth on the processing table top;

the receiving assembly is positioned on one side of the processing table top and is used for collecting finished products;

the conveying assembly is arranged above the processing table board and is used for matching with the serging processing of the serger and the cloth rotating operation of the cloth rotating mechanism and conveying the cloth on the processing table board to the material receiving assembly;

the cloth is conveyed to the smoothing assembly through the conveying assembly to be smoothed and positioned, the serger serges the first edge of the cloth, the second edge and the third edge of the cloth are sequentially rotated through the cloth rotating mechanism after the first edge serging is completed, the serger serges the first edge of the cloth through the smoothing assembly in a matching mode, the fourth edge of the cloth is rotated to one side of the serger through the cloth rotating mechanism, the label feeding mechanism feeds the label to the fourth edge of the cloth, the label and the fourth edge are combined together through the serger after the smoothing assembly, and finally the conveying mechanism conveys the finished product to the material receiving assembly to be collected.

2. The rotary towel machine of claim 1, wherein: the smoothing assembly comprises a lower pressing support, and a lower pressing surface is arranged at the front end of the lower pressing support; an upper pressing plate which can be lifted up and down through a cloth pressing cylinder is arranged above the lower pressing support; the front end of the upper pressure plate is provided with a lower pressure surface positioned above the lower pressure surface; the upper pressing plate is provided with a buffering piece, the bottom of the buffering piece penetrates through the upper pressing plate and then is located between the upper pressing plate and the lower pressing plate, and the distance between the bottom of the buffering piece and the lower pressing plate is smaller than the distance between the upper pressing surface and the lower surface.

3. The rotary towel machine of claim 2, wherein the label delivery mechanism comprises:

a label outlet machine;

the label sending component is positioned on one side of the label outlet machine;

the label feeding assembly comprises a forward moving cylinder, and a driving motor is arranged at the front end of the forward moving cylinder; a rotating shaft of the driving motor is connected with the gear; the gear is connected with the rack, a lower clamping plate is arranged at one end of the rack, and an upper clamping plate capable of moving up and down through a clamping cylinder is arranged at the upper end of the lower clamping plate.

4. The rotary shawl machine according to claim 1, wherein the cloth rotating mechanism comprises:

the rotary bracket is provided with an installation space;

the rotating motor is arranged on the rotating bracket, and a rotating shaft of the rotating motor is arranged in the mounting space;

a first connecting bar; one end of the first connecting strip is connected with the rotating shaft in the mounting space;

a second connecting strip; the second connecting strip is connected with the first connecting strip;

a plurality of hold-down assemblies; the plurality of pressing assemblies are arranged at the lower ends of the first connecting strip and the second connecting strip.

5. The rotary towel machine of claim 4, wherein; the pressing assembly comprises a pressing cylinder, and the pressing cylinder drives a pressing support on the sliding rail to move up and down; and a lower pressing block is arranged on the lower pressing support.

6. The rotary towel machine of claim 1, wherein: the material receiving assembly comprises a sliding plate positioned on one side of the processing table board; the sliding plate is movably arranged on the frame through a sliding guide rail; a material collecting plate is arranged below the sliding plate; a transmission component is arranged above the sliding plate; and a grabbing mechanism for grabbing the cloth is further arranged above the sliding plate.

7. The rotary towel machine of claim 6, wherein: the grabbing mechanism comprises a grabbing bracket, and a grabbing cylinder is arranged on the grabbing bracket; a piston rod of the grabbing cylinder is downwards arranged on the bearing frame; the bearing frame is provided with a movable rod which is positioned in the sliding seat and can move up and down; the bottom of bearing frame is equipped with a plurality of grabbing subassemblies, and the subassembly of grabbing includes power cylinder to and unclamp/press from both sides tight two clamping jaws through power cylinder drive.

8. The rotary towel machine of claim 7, wherein: the transmission assembly comprises a transmission cylinder arranged on the rack; the lower end of the transmission cylinder is provided with a pressing frame; the lower end of the pressing frame is provided with two synchronous wheel assemblies, and each synchronous wheel assembly comprises two synchronous wheels connected through a synchronous belt; the two synchronous wheel assemblies are connected through a power shaft, and the power shaft is driven through a power transmission assembly through a power motor.

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