CN113287819B - Garment production apparatus and method - Google Patents

Abstract

The present application provides a laundry producing apparatus and method to improve laundry production efficiency. The apparatus comprises: a clothes sewing device 101, a clothes ironing device 102 and a rotating device 103 which are arranged adjacently; the clothes sewing device 101, the clothes ironing device 102 and the rotating device 103 are arranged in sequence; the rotating device 103 is used for driving the cloth strip 104 connected with the rotating device 103 to rotate and move to the clothes sewing device 101 and the clothes ironing device 102 in sequence; the clothes sewing device 101 is used for sewing the cloth strips 104 which move to the first set position; the garment ironing device 102 is used for ironing the cloth strip 104 moved to the second set position. This application can make the clothing make up device, clothing ironing device orderly handle the cloth strip through rotary device's rotation, need not artificial intervention, has improved clothing production efficiency.

Description

Garment production apparatus and method

Technical Field

The application relates to the technical field of automatic production, in particular to clothes production equipment and a clothes production method.

Background

In the production of clothes, the cloth is usually processed by a plurality of apparatuses. For example, the cloth is sequentially subjected to sewing by a sewing device, ironing by an ironing device, cutting by a cutting device, and the like, and then the produced clothes are obtained.

After the applicant researches the scheme, it is found that the sewing device, the ironing device, the cutting device and the like are independent devices, and the intermediate product sewn by the sewing device needs to be manually taken to the ironing device for ironing, and the intermediate product after ironing is taken to the cutting device for cutting, so that the efficiency of the mode is low.

Disclosure of Invention

The embodiment of the application provides clothes production equipment to improve clothes production efficiency.

Correspondingly, the embodiment of the application also provides a clothes production method, which is used for ensuring the application of the equipment.

In order to solve the above problems, an embodiment of the present application discloses a clothes producing apparatus, including: a clothes sewing device and a clothes ironing device which are arranged adjacently; and a rotating device; the clothes sewing device, the clothes ironing device and the rotating device are sequentially arranged; the rotating device is used for rotating and driving the cloth strips connected with the rotating device to sequentially move to the clothes sewing device and the clothes ironing device; the clothes sewing device is used for sewing the cloth strips moved to the first set position; and the clothes ironing device is used for ironing the cloth strips moved to the second set position.

The embodiment of the application also discloses a clothes production method, which is applied to clothes production equipment, and the equipment comprises: a clothes sewing device and a clothes ironing device which are arranged adjacently; and a rotating device; the clothes sewing device, the clothes ironing device and the rotating device are sequentially arranged; the method comprises the following steps: the rotating device rotates to drive the cloth strips connected with the rotating device to sequentially move to the clothes sewing device and the clothes ironing device; the clothes sewing device sews the cloth strips moved to the first set position; the clothes ironing device irons the cloth strips which are moved to the second set position.

Compared with the prior art, the embodiment of the application has the following advantages:

in this application embodiment, can move cloth strip order to clothing through rotary device's rotation and make up device, clothing ironing device to make the clothing make up the device and make up the cloth strip, clothing ironing device irones the cloth strip, so make the clothing make up device, the orderly cloth strip of clothing ironing device is handled through rotary device's rotation, do not need manual intervention, improved clothing production efficiency.

Drawings

FIG. 1 is a top view structural view of a clothes producing apparatus of the present application;

FIG. 2 is a schematic block diagram of a clothing manufacturing apparatus according to the present application;

fig. 3 is a sectional view of a cloth ironing apparatus of the present application;

FIG. 4 is an enlarged view of a partial structure of a clothes producing apparatus of the present application;

FIG. 5 is a side view structural view of a clothes producing apparatus of the present application;

FIG. 6 is a schematic view showing the connection between each device and a control terminal in a clothes producing apparatus of the present application;

FIG. 7 is a schematic view illustrating connection of devices to a control server in a clothes producing apparatus according to the present application;

FIG. 8 is a top view block diagram of one of the strips of material of the present application;

fig. 9 is a flow chart of the steps of a method of producing a garment according to the present application.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, the present application is described in further detail with reference to the accompanying drawings and the detailed description.

The embodiment of the application can be applied to the clothes production equipment shown in figure 1 or figure 2, and the equipment comprises: a clothes sewing device 101 and a clothes ironing device 102 which are adjacently arranged; and a rotation device 103; the clothes sewing device 101, the clothes ironing device 102 and the rotating device 103 are arranged in sequence; the rotating device 103 is used for driving the cloth strip 104 connected with the rotating device 103 to rotate and move to the clothes sewing device 101 and the clothes ironing device 102 in sequence; the clothes sewing device 101 is used for sewing the cloth strips 104 which move to the first set position; the clothes ironing device 102 is used for ironing the cloth strip 104 moved to the second set position.

The cloth strip 104 is a strip-shaped cloth that can be wound up.

The clothes sewing device 101 is used for fixing a partial region of the cloth strip 104 by sewing, and the clothes sewing device 101 may be any device having a sewing function, for example, a sewing machine, a sewing head, or the like. The clothes sewing device 101 of the present application does not need to operate the clothes sewing device 101 by stepping on the pedal, but controls the clothes sewing device 101 to operate or stop through a remote command or a control button on the clothes sewing device 101, and of course, the sewing speed of the clothes sewing device 101 can also be adjusted through the remote command or an adjusting button on the clothes sewing device 101. It is understood that the position of the clothes sewing device 101 may be referred to as a first setting position in the present application, and the first setting position is a position of a sewn cloth strip portion.

In addition, in order to accurately and rapidly guide the cloth strip 104 into the inlet of the clothes sewing device 101, the other end of the cloth strip 104 needs to be fixed, as shown in fig. 2 or 5, the cloth strip 104 to be sewn can be wound in a winding manner and fixed by the rod-shaped member 1041, so that the cloth strip 104 is input in a fixed form when being guided into the clothes sewing device 101, thereby fixing the sewing position on the cloth strip 104 and avoiding the sewing position from shifting; in addition, the cloth strip 104 is fixed, so that the cloth strip 104 can move to a clothes sewing device and a clothes ironing device along a fixed route without deviating from the route in the whole process of sewing, ironing and the like.

The clothes ironing apparatus 102 is used for smoothing the surface of the fabric strip 104 by high temperature and pressure, the clothes ironing apparatus 102 may be any apparatus having an ironing function, fig. 3 shows a cross-sectional view of the clothes ironing apparatus 102, the clothes ironing apparatus 102 is composed of two ironing boards 1021 and 1022, at least one of the ironing boards 1021 and 1022 may be heated, so that the fabric strip 104 passing between the ironing boards 1021 and 1022 is ironed, and of course, there is a pressure between the ironing boards 1021 and 1022, which may be a pressure caused by the gravity of the ironing boards themselves or a pressure caused by pressing one of the ironing boards by an external force. It is understood that the position in which the laundry ironing device 102 is present may be referred to in the present application as the second set position, which is the position in which the portion of cloth strip being ironed is present.

The rotating device 103 is used for driving the cloth strips 104 connected with the rotating device 103 by rotation, and the rotating device 103 can wind the cloth strips 104 on the rotating device 103 by rotation, such as the rotation control component 1031 and the winding component 1032 in fig. 1, so that not only the cloth strips 104 can be driven, but also the cloth strips 104 can be collected; the rotating means 103 can also be composed of two relatively rotating and contacting first and second rotating parts 10331 and 10332 as shown in fig. 4, like the rotation control part 1031 and the rotating device 1033 as shown in fig. 1, the cloth strip 104 is moved to the cloth sewing apparatus 101 and the cloth ironing apparatus 102 sequentially by the rotation, and the cloth strip 104 rotated out by the rotating means 103 is collected by the collecting means.

In practical applications, the cloth strip 104 is required to pass through the clothes sewing device 101, the clothes ironing device 102 and the rotating device 103 in sequence in advance, and then the clothes sewing device 101, the clothes ironing device 102 and the rotating device 103 are started, so that the rotating device 103 can drive the cloth strip 104 to move to the clothes sewing device 101 and the clothes ironing device 102 in sequence by rotation.

In addition, the height difference between any two of the clothes sewing device 101, the clothes ironing device 102, and the rotating device 103 needs to be smaller than or equal to the preset height threshold, so that the heights of the clothes sewing device 101, the clothes ironing device 102, and the rotating device 103 are equivalent, so as to facilitate the rotating device 103 to drive the cloth strip 104.

Optionally, the rotating device 103 specifically includes a rotation control component 1031, and a winding component 1032 connected to the rotation control component 1031, and the rotation control component 1031 is configured to control the winding component 1032 to rotate, so as to drive the fabric strip 104 to move in the direction from the clothes sewing device 101 and the clothes ironing device 102, and wind around the winding component 1032.

Here, the rotation control member 1031 may be a device that provides rotational power, for example, a motor, and may be provided in a housing as in fig. 1 or 2 and connected with the winding member 1032, the first rotation member 10331, and the second rotation member 10332 by means of electric wires or the like.

It is understood that the winding part 1032 is used for collecting the cloth strip 104 by winding, and as shown in fig. 1, both ends of the winding part 1032 can be provided with baffles to prevent the collected cloth strip 104 from falling off from both ends. Wherein, the shape of the baffle plate includes but is not limited to: polygonal, circular, for example, fig. 1 uses circular baffles. In order to collect more strips of material, the winding member 1032 may have a length such that more strips of material are wound thereon.

This application can realize driving cloth strip 104 and collecting two functions of cloth strip 104 through winding part, for realizing driving and collecting respectively, help reducing equipment cost.

Optionally, the rotating device 103 specifically includes a rotation control component 1031, and a rotating apparatus 1033 connected to the rotation control component 1031, where the rotating apparatus 1033 includes a first rotating component 10331 and a second rotating component 10332 that are in contact with each other, and the rotation control component 1031 is configured to control the first rotating component 10331 and the second rotating component 10332 to rotate relatively, so as to drive the cloth strip 104 located at the contact portion between the first rotating component 10331 and the second rotating component 10332 to move in the direction from the clothes sewing apparatus 101 and the clothes ironing apparatus 102.

Here, the relative rotation of the first rotating member 10331 and the second rotating member 10332 may be in opposite directions when viewed from the same direction, for example, the rotation direction of the first rotating member 10331 is counterclockwise, and the rotation direction of the second rotating member 10332 is clockwise.

It can be understood that, when the first rotating component 10331 and the second rotating component 10332 rotate in opposite directions, the cloth strip 104 passes through a contact portion therebetween, so that the cloth strip 104 can be driven by friction between the first rotating component 10331 and the second rotating component 10332. As shown in fig. 4, the first and second rotation parts 10331 and 10332 are two rollers that rotate in opposite directions, respectively.

In the present application, each two of the first rotating member 10331 and the second rotating member 10332 which are rotated in opposite directions and have a contact position may be referred to as a rotating member group, and it can be seen that a plurality of rotating member groups are provided in fig. 4, the number of the rotating member groups may be determined according to the width of the cloth strip 104, and when the width of the cloth strip 104 is large, the number of the rotating member groups may take a large value; when the width of the cloth strip 104 is small, the number of the rotary member sets may take a small value, and thus the number of the rotary member sets in fig. 4 is large, so that the cloth strip 104 having a large width can be supported, but the width of the cloth strip 104 shown in fig. 4 is small.

It can be seen that the first rotating component 10331 and the second rotating component 10332 which rotate relatively can drive the cloth strips 104, but cannot collect the cloth strips 104, so that a corresponding collecting device needs to be arranged, the collecting device can be a device with a receiving space, the collecting device can be arranged below the first rotating component 10331 and the second rotating component 10332, and an inlet of the collecting device faces a transmission outlet of the first rotating component 10331 and the second rotating component 10332 to the cloth strips, so that the cloth strips 104 passing through the first rotating component 10331 and the second rotating component 10332 are collected in the collecting device.

This application can drive cloth strip 104 through the first rotary part of counter rotation, provides another kind and drives cloth strip 104's realization and device.

Optionally, the apparatus further includes a cutting device 105, the cutting device 105 is located at a conveying outlet of the first rotating component 10331 and the second rotating component 10332 for the cloth strip 104, and the cutting device 105 is configured to cut the cloth strip 104 at the conveying outlet according to a preset length.

The cutting device 105 is any device having a cutting function, and for example, a blade may be provided inside the cutting device 105. As shown in fig. 4, when the rotating device 1033 includes a first rotating component and a second rotating component which rotate in opposite directions, the cutting device 105 may be located at the delivery outlet of the first rotating component and the second rotating component to cut the fabric strip 104 delivered by the first rotating component and the second rotating component which rotate in opposite directions.

The cloth strip 104 can be cut into the cloth strip 104 with the preset length, and when the clothes production equipment is used for producing the trousers loop, the trousers loop produced by the clothes production equipment after cutting does not need to be cut again.

Optionally, the rotating device specifically includes: a rotation control part 1031, and a winding part 1032 and a rotation device 1033 respectively connected to the rotation control part 1031, the rotation device 1033 including a first rotation member 10331 and a second rotation member 10332 contacting each other, the rotation control part 1031 being configured to control the winding part 1032 to rotate and the first rotation member 10331 and the second rotation member 10332 to rotate relatively; the laundry sewing device 101, the laundry ironing device 102, the first rotating member 10331, and the winding member 1032 are arranged in sequence; the apparatus further comprises a cutting device 105, the cutting device 105 is located at a delivery outlet of the first rotating component 10331 and the second rotating component 10332 for the cloth strip 104, and the cutting device 105 is used for cutting the cloth strip 104 at the delivery outlet according to a preset length; the winding part 1032 is used for driving the cloth strip 104 to move along the direction from the clothes sewing device 101 and the clothes ironing device 102 through rotation and winding on the winding part 1032 under the condition that the cutting device 105 is not operated; the first and second rotating members 10331 and 10332 are used for driving the cloth strip 104 located at the contact portion between the first and second rotating members 10331 and 10332 to move in the direction from the clothes sewing device 101 and the clothes ironing device 102 under the condition that the cutting device 105 is operated.

According to the cloth strip winding device, two different processing processes of the cloth strip can be realized by combining the cutting device 105, in the first processing process, the cutting device does not operate, and the rotation control device 1031 controls the winding part 1032 to rotate so as to simultaneously realize the driving, winding and collecting of the cloth strip; in the second processing procedure, the cutting device operates, the rotation control device 1031 controls the first rotation component 10331 and the second rotation control component 10332 to rotate relatively to drive the cloth strip 104, and the cutting device cuts the cloth strip at the delivery outlet of the cloth strip by the first rotation component 10331 and the second rotation control component 10332, so that the cloth strip cannot be driven by the winding component 1032 positioned behind the cloth strip due to cutting and breaking of the cloth strip.

Optionally, the apparatus further comprises a collecting device, the inlet of which is directed towards the outlet of the cutting device, for collecting the cut strip of cloth 104.

Wherein, the collecting device is a device with a containing space, which may include but is not limited to: boxes, buckets, baskets. As shown in fig. 5, a collection device may be placed in the area 1034 so that the cut strip of fabric 104 from the cutting device 105 located above may fall into the collection device.

The cloth strips 104 to be cut can be collected by the collecting device, the size of the cloth strips 104 to be cut is small, and winding risks cannot exist.

Optionally, the collecting means comprises means having a receiving space for storing the cut strip of material 104 and an inlet for receiving the cut strip of material 104.

It will be appreciated that the inlet of the collecting device is directed towards the outlet of the cutting device 105, which ensures that the strip 104 cut by the cutting device 105 falls into the collecting device accurately.

Optionally, the apparatus further comprises: the cloth cutting device comprises a sorting device 106 and a first detection device 107, wherein the sorting device 106 is located in a preset area of an outlet of the cutting device 105, the first detection device 107 is located in a preset area of an inlet of the cutting device 105, the first detection device 107 is used for detecting the thickness of the cut cloth strips 104, and the sorting device 106 is used for sorting the cut cloth strips 104 according to the thickness.

The sorting process is used to sort the cloth strips 104 with different thicknesses into different collecting devices, as shown in fig. 4, the sorting device 106 may be located at an exit area of the cutting device 105, and the sorting device 106 is any device that can move the cloth strips 104, such as a clamp that can clamp the cloth strips 104, a device that can pull the cloth strips 104, and a device that can stick the cloth strips 104.

The first detecting device 107 may be any device capable of obtaining the thickness, including but not limited to: the device comprises an image acquisition device for acquiring the thickness through images and a device for determining the thickness through physical distance. The image acquisition device can be arranged in an area before an inlet of the cutting device to shoot the thickness of the cloth strip, and the time point of the cloth strip with the detected thickness is estimated, so that the sorting device 106 can be controlled to sort the cloth strip cut at the time point according to the thickness. Similarly, the means for determining the thickness by physical distance may be a first detecting means 1071 and a second detecting means 1072 located in the region before the entrance of the cutting apparatus as shown in fig. 4, the cloth strip passes under the first detecting means 1071, the first detecting means 1071 may float up and down with the thickness of the cloth strip, and float down when the thickness of the cloth strip is small, the second detecting means 1072 may not detect the first detecting means 1071, thereby determining that the thickness of the cloth strip does not exceed the standard thickness; the second detecting part 1072 may detect the first detecting part 1071 while floating upward when the thickness of the cloth strip is large, thereby determining that the thickness of the cloth strip exceeds the standard thickness.

It will be appreciated that in order to effect the sorting process, communication may be made between the first detection device 107 and the sorting device 106 so that the first detection device 107 may send thickness or sorting control instructions to the sorting device 106.

This application can realize handling the letter sorting of cloth strip 104 according to thickness through sorting device 106 and first detection device 107, avoids the manual work to sort according to thickness, not only can reduce the cost of labor, can also improve the letter sorting degree of accuracy.

Alternatively, as shown in fig. 4, the first detecting device 107 includes:

a first detecting member 1071 that is floatable up and down and a second detecting member 1072 that is positioned above the first detecting member 1071, the first detecting member 1071 being positioned on a surface of the cloth strip 104, the second detecting member 1072 being configured to determine a thickness of the cut cloth strip 104 according to whether the first detecting member 1071 is detected.

Here, the second detecting part 1072 may detect the first detecting part 1071 whose distance from it is less than or equal to a preset distance threshold value, which may be determined according to a standard thickness of the cloth strip 104 after sewing and ironing, which is a thickness of the cloth strip 104 without the joint portion in the middle. Since the first detecting member 1071 is located on the surface of the cloth strip 104, when the thickness of the cloth strip 104 increases, the distance between the first detecting member 1071 and the second detecting member 1072 decreases, and when the distance decreases to be less than or equal to the preset distance threshold, the second detecting member 1072 can detect the first detecting member 1071, which represents that a joint portion exists in the middle of the cloth strip 104; when the thickness of the cloth strip 104 is a standard thickness, the distance between the first detecting part 1071 and the second detecting part 1072 is greater than or equal to a preset distance threshold, and at this time, the second detecting part 1072 does not detect the first detecting part 1071, which represents that no joint portion exists in the middle of the cloth strip 104.

To implement the sorting process, the second detecting part 1072 has a communication function, and may transmit thickness information or sorting control instructions to the sorting apparatus 106.

The thickness of the cut cloth strips 104 can be accurately identified by the first detection component 1071 and the second detection component 1072, so that the cut cloth strips 104 can be accurately sorted.

Optionally, the first detecting device 107 includes: the first image acquisition device is used for acquiring the image of the cut cloth strip 104, and the image is used for acquiring the thickness of the cut cloth strip 104.

Wherein the first image capturing device is any apparatus for capturing images, including but not limited to: a camera, a device with a camera, e.g., a camera, a cell phone with a camera, a tablet computer, etc.

In this application, the first image capturing device may be disposed in an outlet region of the cutting device 105, so that the first image capturing device may capture the cut cloth strip 104.

After the image is obtained, the cut cloth strip 104 can be recognized from the image through a machine model trained in advance, the machine model needs to be obtained through training of an image sample marked with the thickness of the sample, firstly, the image sample can be input into the machine model to predict the thickness of the cloth strip 104, and the thickness can be called as predicted thickness; then, determining a loss value through the corresponding predicted thickness and sample thickness of the same image sample, wherein the loss value is a difference value of the predicted thickness and the sample thickness of a large number of image samples and represents the prediction accuracy of the machine model; if the loss value is not continuously reduced in multiple rounds of iteration, the accuracy of the machine model is represented to reach a higher state, and therefore the machine model in the current state can be a machine model obtained through training; if the loss value is continuously reduced in multiple iterations, the accuracy of the machine model does not reach a good state, and therefore the parameters of the machine model are adjusted according to the gradient values of the parameters of the machine model, the loss value of the next iteration is smaller than the loss value of the current iteration, and the loss value is not continuously reduced in the multiple iterations.

The thickness of the cut cloth strips 104 can be accurately identified from the image, so that the cut cloth strips 104 can be accurately sorted.

Optionally, the collecting device includes a first collecting sub-device and a second collecting sub-device, and the sorting device 106 is further configured to collect the cut cloth strip 104 into the first collecting sub-device when the thickness of the cut cloth strip 104 is greater than a preset thickness, and collect the cut cloth strip 104 into the second collecting sub-device when the thickness of the cut cloth strip 104 is less than or equal to the preset thickness.

It is understood that both the first collecting sub-means and the second collecting sub-means are collecting means, which can be disposed at region 1034 in fig. 5, wherein the first collecting sub-means is used for collecting the cloth strips 104 with the thickness larger than the preset thickness, and the second collecting sub-means is used for collecting the cloth strips 104 with the thickness smaller than or equal to the preset thickness. When cloth strip 104 through cutting out is the trousers tong "pan", if there is the joint portion of two cloths in the middle of the trousers tong "pan", then the trousers tong "pan" is the failure article, because the thickness of joint portion is bigger than the thickness of normal part usually to can be greater than the trousers tong "pan" of predetermineeing thickness as the failure article, the trousers tong "pan" of thickness less than or equal to predetermined thickness is as the certified products, this application can separate the collection with certified products and failure article, thereby can avoid the artifical cost that detects the failure article and lead to higher.

Optionally, as shown in fig. 4, the sorting apparatus 106 includes: a third rotating member 1061, a first collecting and introducing member 1062 connected to the third rotating member 1061, and a second collecting and introducing member 1063 connected to the third rotating member 1061, wherein an outlet of the first collecting and introducing member 1062 faces an inlet of the first collecting sub-device, an outlet of the second collecting and introducing member 1063 faces an inlet of the second collecting sub-device, and the third rotating member 1061 is configured to adjust the inlet of the first collecting and introducing member 1062 to the outlet of the cutting device 105 by rotating when the thickness of the cut fabric strip 104 is greater than a preset thickness, and adjust the inlet of the second collecting and introducing member 1063 to the outlet of the cutting device 105 by rotating when the thickness of the cut fabric strip 104 is less than or equal to the preset thickness.

Wherein, the first collection introduction part 1062 and the second collection introduction part 1063 may be parts having a transmission channel, including but not limited to: by means of gravity transmission of the components of the strip of cloth 104, by means of friction transmission of the components of the strip of cloth 104, the strip of cloth 104 can be transferred from the outlet of the cutting device 105 to the first collecting sub-device along the first collecting and introducing means 1062, or from the outlet of the cutting device 105 to the second collecting sub-device along the second collecting and introducing means 1063.

It should be noted that, when the fabric strip 104 is conveyed by gravity, the inlet of the first collecting sub-device is lower than the outlet of the cutting device 105, so that the first collecting introduction part 1062 is inclined up and down, and similarly, the inlet of the second collecting sub-device is higher than the outlet of the cutting device 105, so that the second collecting introduction part 1063 is inclined up and down.

In order to implement the sorting process, the third rotating part 1061 has a communication function, and may receive thickness information or a sorting control command transmitted from the first detecting device 107, and when the thickness is received, the third rotating part 1061 may determine a rotation direction and a rotation angle according to the thickness to rotate; when the sorting control command is received, the rotation direction and the rotation angle are extracted from the sorting control command to rotate. In practical applications, since the first collecting sub-device and the second collecting sub-device exist, only two rotation steps can be set, so that the third rotating member 1061 is switched between the two rotation steps, and switching between the first collecting sub-device and the second collecting sub-device is realized.

The application can sort the material strips into the first collecting sub-device and the second collecting sub-device through the third rotating component 1061, the first collecting and guiding component 1062 and the second collecting and guiding component 1063, so that sorting of different thicknesses is realized.

Optionally, the apparatus further includes a tension sensor located in a preset area of an inlet of the rotating device 103, the tension sensor is configured to detect a tension of the rotating device 103 on the cloth strip 104, and the rotating device 103 is further configured to adjust a rotation speed of the rotating device 103 according to the tension.

Specifically, when the pulling force is reduced, the representative rotating speed is smaller than the sewing speed, and the rotating speed can be increased at this time; when the pulling force is increased, the representative rotating speed is larger than the sewing speed, and the rotating speed can be reduced at the moment. It can be understood that, in a limit case where the cloth strip 104 is stacked between the rotating device 103 and the sewing device, the pulling force is 0, which may cause the cloth strip 104 not to move, the ironing device is continuously ironing the same cloth strip 104, which may cause the cloth strip 104 to be burnt, and furthermore, the sewing device is continuously sewing the same cloth strip 104, which may cause the cloth strip 104 to be sewn for a plurality of times; another limit is that the cloth strip 104 is tight between the rotating device 103 and the sewing device, and the tension is too high, so that there is a risk that the cloth strip 104 is broken.

This application can be according to pulling force self-adaptation adjustment rotation speed to the speed that makes rotation and make up is equivalent, and rotary device 103 and make up the device synchronous operation, not only can avoid cloth strip 104 to be scalded badly and make up many times, can also avoid cloth strip 104 to be broken by the risk of breaking.

Optionally, the apparatus further comprises:

the second image acquisition device is in communication connection with the clothes sewing device 101, is located in a preset area of an outlet of the clothes sewing device 101, and is used for acquiring images of the cloth strips 104 sewn by the clothes sewing device 101 to obtain images and controlling the clothes sewing device 101 to stop running under the condition that preset information does not exist in the images.

Wherein the second image capturing device is any device for capturing images, including but not limited to: a camera, a device with a camera, e.g., a camera, a cell phone with a camera, a tablet computer, etc. As shown in fig. 2 or 5, the second image detecting device 1012 is spaced apart from the outlet of the clothes sewing device 101. The second image capturing device may be configured to capture an image in a direction toward the exit of the clothing sewing device 101 or toward the passing position of the cloth strip 104, as shown in fig. 2 or 5, and the image capturing device is mounted above the passing position of the cloth strip 104, so that the capturing direction may be downward.

It can be understood that the outlet of the clothes sewing device 101 is used for outputting the sewn cloth strip 104, the second image collecting device is used for collecting images of the cloth strip 104 output by the outlet of the clothes sewing device 101, if preset information does not exist in the images, it is determined that the clothes sewing device 101 is abnormal, and the cloth strip 104 output by the outlet of the clothes sewing device 101 is not sewn; if the preset information exists in the image, it is determined that the clothes sewing device 101 is normal and the cloth strip 104 output from the outlet of the clothes sewing device 101 is already sewn.

The preset information is image information of a line used for sewing the cloth strip 104, and the preset information can be represented in an area with a certain color, a certain length and a width smaller than a preset width threshold value, and the preset width threshold value can be a small numerical value, so that the line is ensured to be in a narrow area. As shown in fig. 6, the second image capturing device 1012 may be directly connected to the clothing sewing device 101 in a communication manner, or may be connected to the clothing sewing device in an indirect communication manner by forwarding information through the control terminal 108, and the control terminal 108 may be one or more devices as a third party device.

When the second image capturing device is directly connected to the clothing sewing device 101 in a communication manner, the second image capturing device may directly send a stop command to the clothing sewing device 101 to stop the clothing sewing device 101.

When the second image capturing device is indirectly connected with the clothing sewing device 101 in a communication manner, for example, the control terminal 108 is used for realizing the indirect communication connection, the second image capturing device can send the stop instruction to the control terminal 108, the control terminal 108 can forward the stop instruction to the clothing sewing device 101 so as to stop the clothing sewing device 101, and in addition, the control terminal 108 can also send the stop instruction to the clothing ironing device 102 and the rotating device 103 which are connected with the control terminal 108, so that the cloth strip 104 is prevented from being ironed and driven without being sewn.

The clothes sewing device 101 can stop running when no sewing thread is used, and electric energy is saved.

Optionally, the apparatus further comprises:

a second detection device in communicative connection with the garment sewing device 101, the second detection device configured to: detecting whether a cloth strip 104 exists at the entrance of the clothes sewing device 101, and controlling the clothes sewing device 101 to stop running if the cloth strip 104 does not exist.

The second detecting device is any device for detecting whether the cloth strip 104 exists at the inlet of the clothing sewing device 101, as shown in fig. 6, the second detecting device 109 may be in direct communication connection with the clothing sewing device 101, or may forward information through the control terminal 108 to achieve indirect communication connection.

When the second detecting device 109 is directly connected to the clothing sewing device 101 in a communication manner, the second detecting device 109 may directly send a stop command to the clothing sewing device 101 to stop the clothing sewing device 101.

When the second detecting device 109 is indirectly connected to the clothing sewing device 101 in a communication manner, for example, the control terminal 108 is used for realizing the indirect communication connection, the second detecting device 109 can send the stop instruction to the control terminal 108, the control terminal 108 can forward the stop instruction to the clothing sewing device 101 so as to stop the clothing sewing device 101, and in addition, the control terminal 108 can also send the stop instruction to the clothing ironing device 102 and the rotating device 103 which are connected with the control terminal 108, so as to prevent the cloth strip 104 from being ironed and driven without being sewn.

The second detecting device 109 may be disposed at an inlet of the clothing sewing device 101 to detect whether there is a cloth strip 104 input to the clothing sewing device 101 at the inlet, and the clothing sewing device 101 may stop operating when there is no cloth strip 104, thereby saving electric energy.

In addition, the user may be prompted to replenish the cloth strip 104, and the cloth may be re-detected after the user replenishes the cloth strip 104, at which time the garment sewing device 101 may be re-operated.

Optionally, the second detecting device 109 is located in a preset area of the entrance of the clothing sewing device 101.

In practical applications, the operation of the clothes sewing device 101 may be stopped when a portion of the cloth strip 104 remains, so that a user may conveniently connect a new cloth strip 104 with the remaining cloth strip 104, and thus the preset region may be a region spaced from an entrance of the clothes sewing device 101. For example, the second detecting device 109 may be provided in an area 5 cm from the inlet, so that the operation of the cloth sewing device 101 may be stopped when the cloth string 104 remains 5 cm.

The second detection device 109 can be arranged in the preset area of the inlet of the clothes sewing device 101, so that the accuracy of detecting the cloth strips 104 can be improved, and a user can conveniently connect the new cloth strips 104 with the rest cloth strips 104.

Optionally, the second detecting device 109 comprises at least one of the following: sensor, third image acquisition device.

The sensor is used for detecting the cloth strip 104 in the sensor sensing area, and particularly, when the sensor detects the cloth strip 104, the operation of the clothes sewing device 101 is not stopped; when the sensor does not detect the cloth strip 104, the operation of the clothes sewing device 101 is stopped.

The third image capturing device is any device for capturing images including, but not limited to: a camera, a device having a camera, e.g., a camera, a cell phone having a camera, a tablet computer, etc. The shooting of the third image acquisition device faces to the entrance of the clothes sewing equipment, so that the shooting range of the third image acquisition device 1091 can cover the entrance of the clothes sewing device 101, and the third image acquisition device controls the clothes sewing device 101 to stop running when the third image acquisition device does not detect second preset information from the image; when the second preset information is detected again, the clothes sewing device 101 is controlled to operate again.

The second preset information included in the image acquired by the third image acquisition device is the image information of the cloth strip 104, so that whether the cloth strip 104 exists can be determined according to whether the image information of the cloth strip 104 exists. Specifically, the detection of the second preset information from the image can be realized through a machine model, the machine model can be obtained through training of an image sample with a label, the label represents whether the second preset information exists, firstly, the image sample can be input into the machine model to predict whether the second preset information exists, and the second preset information is used as a prediction result; then, determining a loss value through a prediction result and a label corresponding to the same image sample, wherein the loss value is a difference value between the prediction result and the label of a large number of image samples and represents the prediction accuracy of the machine model; if the loss value is not continuously reduced in the multiple rounds of iteration, the accuracy of the machine model is represented to reach a higher state, and therefore the machine model in the current state can be the machine model obtained through training; if the loss value is continuously reduced in multiple iterations, the accuracy of the machine model does not reach a good state, and therefore the parameters of the machine model are adjusted according to the gradient values of the parameters of the machine model, the loss value of the next iteration is smaller than the loss value of the current iteration, and the loss value is not continuously reduced in the multiple iterations.

This application can detect the material through sensor, third image acquisition device, has realized multiple mode of detecting cloth strip 104.

Optionally, as shown in fig. 2 or 5, the apparatus further includes: a pull cylinder 1011, the pull cylinder 1011 being located in a preset area of an inlet of the clothes sewing device 101, the pull cylinder 1011 being used for inputting the fabric strip 104 into the inlet of the clothes sewing device 101 in a target form.

The pull cylinder is used for folding the cloth strip 104 into a target shape to be input to the inlet of the clothes sewing device 101, and the pull cylinder 1011 may have a target shape structure, for example, if the cloth strip is a belt loop strip, the pull cylinder 1011 may have a C-shaped structure to fold the cloth strip as shown in fig. 8.

Optionally, as shown in fig. 6, the apparatus further includes:

a control terminal 108 connected with the clothes sewing device 101, the clothes ironing device 102 and the rotating device 103 in communication.

The control end 108 is used for controlling the operation of the clothes sewing device 101, the clothes ironing device 102, and the rotating device 103, the control end 108 may be any device with a control function, the control end 108 may have a screen or not, the control end 108 may be a computer, or may be a virtual machine running on the computer, and the specific form of the control end 108 is not limited in the present application. For example, the control end 108 may be a computer having a voice input interface, so that a user inputs a voice control command through the voice input interface to control at least two devices to operate according to corresponding operating parameters; the control end 108 may also be a computer having a text input interface, so that a user can input a text control command through the text input interface to control at least two devices to operate with corresponding operating parameters; the control end 108 may also be a computer with an increase control or a decrease control to increase or decrease the operating parameter.

In order to control the operation of the clothes sewing device 101, the clothes ironing device 102, and the rotating device 103, as shown in fig. 6, the control terminal 108 is communicatively connected to the clothes sewing device 101, the clothes ironing device 102, and the rotating device 103, respectively, wherein the communications connection includes but is not limited to: a wireless local area network based connection, a mobile data network based connection, a wired network based connection, a bluetooth based connection.

In addition, the control end 108 can also record the operation time of the clothes producing device and determine the production amount of the cloth strip 104 by combining the operation time and the production speed. When the cloth strip 104 is not cut, the production speed can be expressed by the length of the cloth strip produced in a unit time, so that the product of the production speed and the running time can be used as the production capacity, and the production capacity represents the total length of the cloth strip 104 produced in the running time; when the cloth strips 104 are cut, the production speed can be expressed in terms of the number of cloth strips 104 produced per unit time, so that the product of the production speed and the run length can be taken as the production amount representing the total number of cloth strips 104 produced during the run length.

The length of the cloth strip produced in the unit time and the preset length cut by the cutting device 105 can be set through the control end 108, the control end 108 can control the rotation speed of the rotating device 103 and the sewing speed of the clothes sewing device 101 according to the set length of the cloth strip, the control end 108 can also control the cutting time interval of the cutting device 105 according to the preset length, and the product of the number of the cloth strips 104 produced in the unit time and the preset length cut by the cutting device 105 obtains the length of the cloth strip produced in the unit time. After the production volume is obtained, the control end 108 may record it and send it to the user or display it in the control client 1082 according to the user's viewing request.

In order to distinguish the cloth strips 104 of different batches and avoid confusion, the control terminal 108 can also control the clothes production equipment to stop running after the cloth strips 104 of one batch are produced, and prompt the collection of the produced cloth strips 104. The operator may enter a predetermined production volume for a batch in the control client 1082, such that the control end 108 determines the run length based on the predetermined production volume and the production rate, and stops the run after the run length.

It is understood that, in the present application, the steps performed by the control end 108 can be performed by the control server 1081.

The present application can accurately control the operation of the clothes sewing device 101, the clothes ironing device 102 and the rotating device 103 through the control terminal 108.

Optionally, the control terminal 108 is configured to control the clothes sewing device 101, the clothes ironing device 102 and the rotating device 103 to operate according to corresponding operating parameters.

Wherein, the operation parameters of the clothes sewing device 101 may be: the sewing speed, and thus the control end 108, can control the sewing speed of the garment sewing device 101, and the operating parameters of the garment ironing device 102 can include, but are not limited to: the ironing temperature, the pressure of the ironing board, and thus the control terminal 108, may control the temperature, the pressure of the garment ironing device 102, and the operating parameter of the rotating means 103 may be the rotating speed, and thus the control terminal 108 may control the rotating speed of the rotating means 103.

In practical applications, the clothes sewing apparatus 101, the clothes ironing apparatus 102 and the rotating apparatus 103 may operate with default operating parameters, and the user may readjust the operating parameters through the control terminal 108.

The operation of the clothes sewing device 101, the clothes ironing device 102 and the rotating device 103 can be controlled through the operation parameters, and the control accuracy is improved.

Optionally, the control end 108 includes a control server 1081 and a control client 1082, the control server 1081 is in communication with the clothes sewing device 101, the clothes ironing device 102, and the rotating device 103, the control client 1082 is configured to generate an operation control command in response to an operation parameter of a target device to be sent to the control server 1081, the control server 1081 is configured to control the target device to operate with the operation parameter in response to the operation control command, and the target device includes at least one of the clothes sewing device 101, the clothes ironing device 102, and the rotating device 103.

The control server 1081 may be a background server of the control client 1082, the control client 1082 is a front end of the control server 1081, the control server 1081 may be a server, or may be a virtual machine integrated on the server, the control client 1082 may be an application program running in a device having a screen, and the control client 1082 may provide an interface for a user to input a target device and an operation parameter through the screen. It is understood that one control server 1081 can correspond to several control clients 1082 to implement control of devices by multiple users.

As shown in fig. 7, the control server 1081 is in communication connection with the clothes sewing device 101, the clothes ironing device 102 and the rotating device 103, and the control client 1082 is in communication connection with the control server 1081, so that the control client 1082 controls the operation of the clothes sewing device 101, the clothes ironing device 102 and the rotating device 103. For example, a user may input an identifier and an operation parameter of a target device in the control client 1082, the control client 1082 generates an operation control command according to the identifier and the operation parameter of the target device, the control client 1082 sends the generated operation control command to the control server 1081, and the control server 1081 controls the target device to operate according to the identifier of the target device.

The device can be controlled by the control server 1081 and the control client 1082, a user can determine a target device and operation parameters through the control client 1082, and the user can check the target device and the operation parameters through the control client 1082, so that errors in setting the target device or the operation parameters can be avoided, the misoperation rate can be reduced, and the control accuracy is improved.

Optionally, the operation parameter of the clothes sewing device 101 comprises sewing speed, the operation parameter of the clothes ironing device 102 comprises ironing temperature, and the operation parameter of the rotating device 103 comprises rotating speed.

Optionally, the control end 108 is further configured to record operation status information of at least one of the following devices: the clothes sewing device 101, the clothes ironing device 102 and the rotating device 103.

In one example, in order to record the above operation state information, the apparatus and the corresponding operation state information may be stored in a local storage device of the control end 108 according to a corresponding relationship, where the local storage device may be a hard disk, a register, a memory, a cache, or the like. When control end 108 includes control server 1081 and control client 1082, the local storage device of control end 108 may be a local storage device of control server 1081 and/or a local storage device of control client 1082. When the local storage device of the control end 108 is the local storage device of the control server 1081, if the user queries the running state information of the apparatus, the running state information may be queried from the local storage device of the control server 1081, and the control server 1081 sends the queried running state information to the control client 1082 for display; when the local storage device of the control end 108 is the local storage device of the control client 1082, if the user inquires the running state information of the device, the running state information can be inquired from the control client 1082 and displayed.

In another example, in order to record the operation state information, the device and the corresponding operation state information may be stored in a corresponding relationship in a storage service side communicatively connected to the control side 108. When the user inquires the running state information of the device, the running state information can be inquired from the storage server, the storage server sends the inquired running state information to the control server 1081, and the control server 1081 can send the running state information to the control client 1082 for display.

The running state information can be recorded through the control terminal 108, and the recorded running state information can facilitate a user to monitor the running state of the device at a certain moment.

Optionally, the control client 1082 is further configured to display operating status information of at least one of the following devices: the garment sewing device 101, the garment ironing device 102 and the rotating device 103.

In practical application, the real-time running state information can be displayed, so that a user can be helped to monitor the current running state of the device, and the user can be helped to find an abnormal device in time; the operation state information of the device within the preset time period may also be output according to a preset time period, for example, the operation state information of the device which is abnormal within one hour may be output every other hour.

Optionally, the operation status information includes at least one of: information of whether or not there is an abnormality, and an operation parameter.

It is understood that the operating status information recorded or displayed by the client may include, but is not limited to: information of whether the clothes sewing device 101 is abnormal, information of whether the clothes ironing device 102 is abnormal, information of whether the rotating device 103 is abnormal, operation parameters of the clothes sewing device 101, operation parameters of the clothes ironing device 102 and operation parameters of the rotating device 103.

In addition, the operating state information may also include real-time production capacity determined by the control end 108, and the control end 108 may determine the production capacity at a certain time period. For example, production volume is determined every five minutes and then updated to control client 1082 in real time.

In practical application, besides displaying the running state information, the order information corresponding to the cloth strip 104 currently being produced can be displayed on the control client 1082, where the order information includes: order number, scheduled production volume.

Optionally, the control end 108 is further configured to control a device other than the target device to stop operating when the target device stops operating. Wherein, the target device may be at least one of the clothes sewing device 101, the clothes ironing device 102 and the rotating device 103, and the target device may stop operating under the following scenarios: and the target device is abnormal and receives a stop operation instruction for the target device.

According to the method and the device, when the running target device stops running, the rest devices are controlled to stop running, and electric energy can be saved.

Optionally, the sewn and ironed fabric strip 104 comprises a pant loop strip.

The trousers loop strip is a surface loop stitched on the waist of the trousers and is used for fixing a waistband on the trousers, and is also called a trousers nose, a trousers ear, a string belt loop, a queen belt and a belt loop.

The present application can be applied to the process of making a pant loop, first, the two sides of the fabric strip 104 are folded over and sewn by the garment sewing device 101, as shown in fig. 8, after the two sides of the fabric strip 104 are folded over toward the center line 1043, the shadow region 1042 of the fabric strip 104 is sewn by the garment sewing device 101; the garment ironing device 102 then irons the sewn strip of fabric 104 to flatten it, in which process the rotating device 103 drives the strip of fabric 104 to advance the strip of fabric 104.

This application can be applied to trousers tong "pan manufacturing process, has improved trousers tong" pan production efficiency.

It should be noted that the apparatus of the present application can be used for producing any elongated member, and the present application does not limit the objects to be produced.

To sum up, this application embodiment can drive the cloth strip through rotary device's rotation and move to clothing in proper order and make up device, clothing ironing device to make the clothing make up the device and make up the cloth strip, clothing ironing device irones the cloth strip, so make the clothing make up device, clothing ironing device orderly handle the cloth strip through rotary device's rotation, do not need artificial intervention, improved clothing production efficiency.

Referring to fig. 9, there is shown a flow chart of steps of an embodiment of a garment production method of the present application, applied to a garment production apparatus comprising: a clothes sewing device and a clothes ironing device which are arranged adjacently; and a rotating device; the clothes sewing device, the clothes ironing device and the rotating device are sequentially arranged; the method comprises the following steps:

step 201, the rotating device rotates to drive the cloth strip connected with the rotating device to sequentially move to the clothes sewing device and the clothes ironing device.

Step 202, the clothes sewing device sews the cloth strip moved to the first set position.

And 203, ironing the cloth strip moved to the second set position by the clothes ironing device.

Optionally, the rotating device specifically includes a rotating control component and a winding component connected to the rotating control component, and step 201 includes sub-step 2011:

in step 2011, the rotation control unit controls the winding unit to rotate, so as to drive the fabric strip to move along the direction from the fabric sewing apparatus and the fabric ironing apparatus, and wind the fabric strip around the winding unit.

Optionally, the rotating apparatus specifically includes a rotating control component, and a rotating device connected to the rotating control component, the rotating device includes a first rotating component and a second rotating component that are in contact with each other, and the step 201 includes sub-step 2012:

and a substep 2012, in which the rotation control part controls the first rotating part and the second rotating part to rotate relatively, so as to drive the cloth strip at the contact part between the first rotating part and the second rotating part to move along the direction from the clothes sewing device and the clothes ironing device.

Optionally, the rotating device specifically includes: the cloth strip cutting device comprises a rotating control component, a winding component and a rotating device, wherein the winding component and the rotating device are respectively connected with the rotating control component, the rotating device comprises a first rotating component and a second rotating component which are in contact with each other, the device further comprises a cutting device, and the cutting device is positioned at a transmission outlet of the first rotating component and the second rotating component to the cloth strips; the clothes sewing device, the clothes ironing device, the first rotating part and the winding part are sequentially arranged; the 201, comprising sub-steps 2013 to 2014:

and a substep 2013, in which the rotation control unit controls the first rotating unit and the second rotating unit to rotate relatively to drive the cloth strip located at the contact portion between the first rotating unit and the second rotating unit to move in the direction from the clothes sewing device and the clothes ironing device, when the cutting device cuts the cloth strip at the delivery outlet according to a preset length.

Sub-step 2014, otherwise, the rotation control part controls the winding part to rotate so as to drive the cloth strip to move in a direction from the clothes sewing device and the clothes ironing device and wind on the winding part.

It can be seen that sub-step 2011, step 202 and step 203 constitute a scheme for achieving driving and winding collection through a rotating device, sub-step 2012, step 202 and step 203 constitute a scheme for achieving driving through a rotating device, sub-step 2013, step 202 and step 203 constitute a scheme for achieving driving through a rotating device and achieving cutting through a cutting device, and sub-step 2014, step 202 and step 203 constitute a scheme for achieving driving and winding collection of uncut cloth strips through a rotating device.

In practical application, after cutting, the cut cloth strips can be collected by the collecting device, the inlet of the collecting device faces the outlet of the cutting device, the collecting device comprises a device with an accommodating space and an inlet, the accommodating space is used for storing the cut cloth strips, and the inlet is used for receiving the cut cloth strips.

The embodiment of the application is an embodiment of a method of a clothes production device, and specific description can refer to detailed description of the clothes production device, which is not repeated herein.

To sum up, this application embodiment can drive cloth strip order through rotary device's rotation and remove to clothing and make up device, clothing ironing device to make the clothing make up the device and make up the cloth strip, clothing ironing device irones the cloth strip, so make clothing make up device, clothing ironing device orderly handle the cloth strip through rotary device's rotation, do not need manual intervention, improved clothing production efficiency.

While preferred embodiments of the present application have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including the preferred embodiment and all such alterations and modifications as fall within the true scope of the embodiments of the application.

Finally, it should also be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrases "comprising one of \ 8230; \8230;" does not exclude the presence of additional like elements in a process, method, article, or terminal device that comprises the element.

The above detailed description is provided for the clothes producing apparatus and method, and the principle and the implementation of the present application are explained by applying specific examples, and the description of the above examples is only used to help understanding the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (24)

1. A clothes producing apparatus, the apparatus comprising: a clothes sewing device and a clothes ironing device which are arranged adjacently; and a rotating device; the clothes sewing device, the clothes ironing device and the rotating device are sequentially arranged;

the rotating device is used for rotating and driving the cloth strips connected with the rotating device to sequentially move to the clothes sewing device and the clothes ironing device; the clothes sewing device is used for sewing the cloth strips moved to the first set position; the clothes ironing device is used for ironing the cloth strips moved to the second set position;

the rotating device specifically includes: the rotating device comprises a first rotating component and a second rotating component which are in contact with each other, and the rotating control component is used for controlling the winding component to rotate and controlling the first rotating component and the second rotating component to rotate relatively;

the equipment further comprises a cutting device, the cutting device is positioned at a transmission outlet of the first rotating component and the second rotating component for the cloth strips, and the cutting device is used for cutting the cloth strips at the transmission outlet according to a preset length;

the winding component is used for driving the cloth strip to move along the direction from the clothes sewing device and the clothes ironing device through rotation under the condition that the cutting device is not operated, and winding the cloth strip on the winding component;

the first rotating component and the second rotating component are used for driving the cloth strips positioned at the contact part between the first rotating component and the second rotating component to move along the directions from the clothes sewing device and the clothes ironing device under the condition that the cutting device operates.

2. The apparatus according to claim 1, wherein the cutting device is adapted to cut the strip of material at the delivery outlet to a predetermined length.

3. The apparatus according to claim 1 or 2, characterized in that it further comprises collecting means, the inlet of which is directed towards the outlet of the cutting means, for collecting the cut strip of cloth.

4. The apparatus according to claim 3, wherein the collecting means comprises means having a receiving space for storing the cut strip of cloth and an inlet for receiving the cut strip of cloth.

5. The apparatus of claim 3, further comprising: sorting device and first detection device, the sorting device is located tailor the device the export preset the region in, first detection device is located tailor the device the entry preset the region in, first detection device is used for detecting the thickness of the cloth strip after tailorring, the sorting device is used for according to the thickness is to the cloth strip after tailorring letter sorting.

6. The apparatus of claim 5, wherein the first detecting means comprises:

the cloth strip cutting device comprises a first detection component and a second detection component, wherein the first detection component can float up and down, the second detection component is positioned above the first detection component, the first detection component is positioned on the surface of the cloth strip, and the second detection component is used for determining the thickness of the cut cloth strip according to whether the first detection component is detected or not.

7. The apparatus of claim 5, wherein the first detecting means comprises: the device comprises a first image acquisition device, wherein the shooting direction of the first image acquisition device faces towards the cloth strip, the first image acquisition device is used for acquiring the image of the cloth strip after cutting, and the image is used for acquiring the thickness of the cloth strip after cutting.

8. The apparatus according to claim 5, wherein the collecting device comprises a first collecting sub-device and a second collecting sub-device, and the sorting device is further configured to collect the cut fabric strip into the first collecting sub-device if the thickness of the cut fabric strip is greater than a preset thickness, and collect the cut fabric strip into the second collecting sub-device if the thickness of the cut fabric strip is less than or equal to the preset thickness.

9. The apparatus according to claim 8, wherein the sorting device comprises: the second rotating component is used for adjusting the inlet of the first collecting and introducing component to the outlet of the cutting device through rotation when the thickness of the cut cloth strip is larger than a preset thickness, and adjusting the inlet of the second collecting and introducing component to the outlet of the cutting device through rotation when the thickness of the cut cloth strip is smaller than or equal to the preset thickness.

10. The apparatus according to claim 1, further comprising a tension sensor located in a predetermined area of the inlet of the rotating device, the tension sensor being configured to detect a tension of the rotating device on the cloth strip, the rotating device being further configured to adjust a rotation speed of the rotating device according to the tension.

11. The apparatus of claim 1, further comprising:

the second image acquisition device is in communication connection with the clothes sewing device and is positioned in a preset area of an outlet of the clothes sewing device, and the second image acquisition device is used for acquiring images of the cloth strips sewn by the clothes sewing device to obtain images and controlling the clothes sewing device to stop running under the condition that preset information does not exist in the images.

12. The apparatus of claim 1, further comprising:

a second detection device in communication with the garment sewing device, the second detection device located within a predetermined area of an entrance of the garment sewing device, the second detection device configured to: detecting whether a cloth strip exists at an inlet of the clothes sewing device, and controlling the clothes sewing device to stop running if the cloth strip does not exist.

13. The apparatus of claim 12, wherein the second detection device comprises at least one of: sensor, third image acquisition device.

14. The apparatus of claim 1, further comprising: a pull cylinder located in a preset area of an inlet of the garment sewing device, the pull cylinder being used for inputting the fabric strip into the inlet of the garment sewing device in a target form.

15. The apparatus of claim 1, further comprising:

and the control end is in communication connection with the clothes sewing device, the clothes ironing device and the rotating device.

16. The apparatus according to claim 15, wherein the control terminal is configured to control the garment sewing device, the garment ironing device and the rotating device to operate with corresponding operating parameters, respectively.

17. The apparatus according to claim 15, wherein the control terminal comprises a control server and a control client, the control server is in communication connection with the clothes sewing device, the clothes ironing device and the rotating device, the control client is used for responding to an operation parameter of a target device to generate an operation control instruction to be sent to the control server, the control server is used for responding to the operation control instruction to control the target device to operate with the operation parameter, and the target device comprises at least one of the clothes sewing device, the clothes ironing device and the rotating device.

18. The apparatus according to claim 16, wherein the operating parameter of the garment sewing device comprises sewing speed, the operating parameter of the garment ironing device comprises ironing temperature, and the operating parameter of the rotating device comprises rotation speed.

19. The apparatus of claim 15, wherein the control end is further configured to record operation status information of at least one of the following devices: the clothes sewing device, the clothes ironing device and the rotating device.

20. The apparatus of claim 17, wherein the control client is further configured to display operating status information of at least one of: the clothes sewing device, the clothes ironing device and the rotating device.

21. The apparatus according to claim 19 or 20, characterized in that the operational status information comprises at least one of the following: information of whether or not there is an abnormality, and an operation parameter.

22. The apparatus of claim 17, wherein the control end is further configured to control a device other than the target device to stop operating if the target device stops operating.

23. The apparatus of claim 1, wherein the sewn and ironed fabric strip comprises a pant loop strip.

24. A clothing producing method applied to a clothing producing apparatus, the apparatus comprising: a clothes sewing device and a clothes ironing device which are arranged adjacently; and a rotating device; the clothes sewing device, the clothes ironing device and the rotating device are sequentially arranged; the method comprises the following steps:

the rotating device rotates to drive the cloth strips connected with the rotating device to sequentially move to the clothes sewing device and the clothes ironing device;

the clothes sewing device sews the cloth strips moved to the first set position;

the clothes ironing device irons the cloth strips moved to the second set position;

the rotating device specifically includes: the cloth strip cutting device comprises a rotating control component, a winding component and a rotating device, wherein the winding component and the rotating device are respectively connected with the rotating control component, the rotating device comprises a first rotating component and a second rotating component which are in contact with each other, the device further comprises a cutting device, and the cutting device is positioned at a transmission outlet of the first rotating component and the second rotating component to the cloth strips; the clothes sewing device, the clothes ironing device, the first rotating part and the winding part are sequentially arranged; the rotary device rotates drive with the cloth strip that rotary device is connected includes:

under the condition that the cutting device cuts the cloth strips at the conveying outlet according to the preset length, the rotation control component controls the first rotating component and the second rotating component to rotate relatively so as to drive the cloth strips at the contact part between the first rotating component and the second rotating component to move along the direction from the clothes sewing device and the clothes ironing device;

otherwise, the rotation control component controls the winding component to rotate so as to drive the cloth strip to move along the direction from the clothes sewing device and the clothes ironing device and wind on the winding component.

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