阅读说明：本技术 一种纺织面料用自动检测接缝处抗拉强度的智能化装置 (Intelligent device for automatically detecting tensile strength of seam for textile fabric ) 是由 周衡 凌斌 徐霞 于 2021-08-31 设计创作，主要内容包括：本发明公开了一种纺织面料用自动检测接缝处抗拉强度的智能化装置,包括基座和智能检测系统,其特征在于：所述基座的顶部两端均设置有传动杆一,所述传动杆一的一端贯穿安装有储水室,所述储水室与基座的顶部焊接,所述基座的一侧安装有电机,所述电机上分布有三个按钮,所述电机的一侧设置有操作盘,所述操作盘固定连接在基座的侧壁上,所述基座的顶部均匀开设有若干风孔,若干所述风孔的底部设置有若干风机,所述传动杆一的内侧设置有压实板,所述压实板可进行上下升降,所述压实板与电机为电连接,所述传动杆一的另一端设置有传动块,所述传动块可在传动杆一上滑动,本发明,具有实用性强和检测精准度高的特点。(The invention discloses an intelligent device for automatically detecting the tensile strength of a seam for textile fabric, which comprises a base and an intelligent detection system, and is characterized in that: the air conditioner comprises a base, and is characterized in that first transmission rods are arranged at two ends of the top of the base, a water storage chamber is installed at one end of each transmission rod in a penetrating mode, the water storage chamber is welded with the top of the base, a motor is installed on one side of the base, three buttons are distributed on the motor, an operation panel is arranged on one side of the motor and fixedly connected to the side wall of the base, a plurality of air holes are uniformly formed in the top of the base, a plurality of fans are arranged at the bottoms of the air holes, a compacting plate is arranged on the inner side of each transmission rod, the compacting plate can lift up and down, the compacting plate is electrically connected with the motor, a transmission block is arranged at the other end of each transmission rod, and the transmission block can slide on the corresponding transmission rod.)

1. The utility model provides an intelligent device of automated inspection seam crossing tensile strength for textile fabric, includes base (1) and intelligent detection system, its characterized in that: the top both ends of base (1) all are provided with transfer line (6), the one end of transfer line (6) is run through and is installed reservoir (5), reservoir (5) and the top welding of base (1), motor (2) are installed to one side of base (1), it has three button (3) to distribute on motor (2), one side of motor (2) is provided with operation panel (4), operation panel (4) fixed connection is on the lateral wall of base (1), a plurality of wind holes (14) have evenly been seted up at the top of base (1), the bottom of a plurality of wind hole (14) is provided with a plurality of fans, the inboard of transfer line (6) is provided with compacting plate (15), compacting plate (15) are the electricity with motor (2) and are connected, the other end of transfer line (6) is provided with transmission piece (7), fixed mounting has three (8) between two transmission pieces (7), be provided with on transfer line three (8) and detect head (10), one side of detecting head (10) is provided with display screen (11), louvre (13) have been seted up to the top of display screen (11), the bottom of detecting head (10) is installed and is detected measuring pole (12), detect the other end of measuring pole (12) and install limiting plate (9), limiting plate (9) run through and detect head (10), intelligent detection system is including intelligent operation module, intelligent response module and intelligent drive module, intelligent operation module is including logic operation module and data resource storehouse, intelligent response module is including communication module, human-computer interaction module and terminal display module, intelligent drive module is including pressure measurement unit, scram unit and retrieval unit, the operation step of whole device is as follows:

s1, soaking textile cloth in a water tank for a period of time and taking out;

s2, weaving the textile fabric on the base (1), moving two sides of the textile fabric to the lower part of the compacting plate (15), and leveling the middle area of the textile fabric as much as possible;

s3, inputting the tensile strength value of the textile fabric into an intelligent detection system by using an operation panel (4) according to an information sheet provided by a client, pressing a button (3) to start a device, wherein the buttons (3) are divided into three parts, and the functions of starting, stopping and emergency manual operation are divided;

s4, the compacting plate (15) begins to descend to compact and fix the textile fabrics on two sides, the descending amplitude of the compacting plate (15) is set as f, and f is divided into three gears f1, f2 and f 3;

s5, the compacting plate (15) stops moving and then transmits information to the data resource library, and the data resource library is automatically backed up;

s6, the logic operation module obtains information from the data resource library, the air outlet force of the air hole (14) is automatically adjusted according to the obtained information, the air outlet force of the air hole is set to be t, the t is divided into three gears which are t1, t2 and t3 respectively, the textile fabric is blown up through the air hole (14), and the middle area of the textile fabric is separated from the base (1);

s7, a starting signal of the air hole (14) is stored in a data resource library, and the intelligent driving module acquires a signal to drive the detecting head (10) to start moving;

s8, the detection head (10) transversely moves in the direction of the transmission rod II (8) and then moves in the direction of the transmission rod I (6), and the moving distance is 0.5cm, 0.8cm, 1cm, 1.2cm and 1.5cm in a conventional mode;

s9, the detection head (10) moves according to a fixed distance, and the detection rod (12) descends once when the detection head moves once;

s10, circulating the action of S9;

s11, the information measured by the detection rod (12) is stored in a data resource library and displayed on the display screen (11), and an operator sees to make adjustment in time.

2. The intelligent device for automatically detecting the tensile strength of the seam according to claim 1, which is characterized in that:

the logic operation module is used for calculating the tensile strength of the seam of the textile fabric and performing information interaction with the data resource library, the data resource library is used for recording all information of the device and simultaneously providing the right for other modules to search and utilize the information, the communication module is used for sensing real-time dynamic state between the device and the textile fabric and simultaneously recording the information and conveying the information into the data resource library, the man-machine interaction module is used for adjusting the operation mode of the device in real time, the operation mode is divided into manual mode and automatic mode, the manual mode can prevent sudden situations in the operation process of the device so as to reduce the damage of the textile fabric, the automatic mode can increase the efficiency and improve the yield of the area, the terminal display module is used for displaying all detection information on the display screen (11) and simultaneously inputting the information into the intelligent detection system, and the pressure measuring unit is used for controlling the operation of the detection rod (12), the emergency stop unit is used for protecting the textile fabric from being damaged, and the retrieval unit is used for marking the part with lower tensile strength at the seam of the textile fabric;

the specific process from S1 to S3 is as follows:

the starting device of the starting button (3) is pressed, the device starts to operate initially, the stopping button (3) is pressed, the whole device stops operating, the manual button (3) is pressed, the whole device operates at the minimum power, and the device is convenient for operators to adjust or observe;

after ordering, the tensile strength of the textile fabric seam is input into the system, the tensile strength required by the client is D, and the tensile strength detected by the detection rod (12) every time the detection rod descends is compared with D;

the textile fabric is flattened on the base (1), an operator flattens the textile fabric with a customized tool, and the fixing of the compacting plate (15) can play a role after flattening due to the fact that the textile fabric is polluted by water.

3. The intelligent device for automatically detecting the tensile strength of the seam according to claim 2, wherein: the specific process from S4 to S6 is as follows:

s21, the compacting plate (15) reduces corresponding amplitude according to the thickness of the textile fabric input in advance, the gram number of the textile fabric with no square meter is set to be three intervals, namely 7 ounces, 12 ounces and 20 ounces, wherein 7 ounces corresponds to f1, 12 ounces corresponds to f2, and 20 ounces corresponds to f 3;

s22, the intelligent driving module acquires textile cloth information in a data resource library, the information is transmitted to the logic operation module, the logic operation module calculates corresponding amplitude, the amplitude value is transmitted to the intelligent driving module, and the compacting plate (15) moves according to the corresponding amplitude;

s23, automatically irradiating the textile fabric in the moving process of the detecting head (10), wherein a plurality of receivers are uniformly arranged at the top of the base (1), when the irradiating light of the detecting head (10) irradiates the receivers, the receivers can automatically transmit signals to a data resource library, a logic operation module can automatically search for the number of the receivers to be started, the size of the gaps in the textile fabric is judged according to the number of the started receivers, the more the started receivers are, the larger the representative gaps are, and the less the started receivers are, the smaller the representative gaps are;

and S24, judging the movement interval of the detection head (10) by the logic operation module according to the feedback information.

4. The intelligent device for automatically detecting the tensile strength of the seam according to claim 3, wherein: the specific steps of S7-S9 are as follows:

s31, detecting the motion track of the head (10) according to the coordinate position;

s32, the direction of the first transmission rod (6) is a y coordinate, and the direction of the second transmission rod (8) is an x coordinate;

s33, the detecting head (10) moves according to the x-axis direction, the moving distance of each time is preset as a standard, the set standard is adjusted according to the information in the data resource library, and the moving data of the detecting head (10) is input in advance;

s34, the detection head (10) drives the detection rod (12) to move, the detection rod (12) judges, judgment information is transmitted to the pressure measuring unit in real time, and the pressure measuring unit adjusts in real time according to the judgment information;

s35, the seam of the textile fabric is irregular and not horizontal and vertical, the detecting head (10) moves in the x-axis direction, when the detecting head moves to a non-seam position, the detecting unit drives the detecting head (10) to move in the y-axis direction until the seam is detected, the detecting head (10) continues to move in the x-axis direction, the moving direction is based on the distance between the detecting head (10) and the first transmission rod (6) at the two sides, the distance between the detecting head (10) and the first transmission rods (6) at the two sides is detected, the detecting head (10) preferentially moves in the first transmission rod (6) at the short side, and if the distances are equal, the detecting head preferentially moves to the left side;

s36, detecting the real-time distance between the head (10) and the first transmission rod (6) in a data resource library;

s37, detecting the y-axis tail end of the movement of the head (10), finishing the primary test of the position of a seam on the textile fabric, if the primary test result does not reach the standard, triggering an emergency stop unit, not testing any more, and waiting for an operator to remove the textile fabric;

s38, if the primary test reaches the standard, the detecting head (10) starts secondary detection, and the secondary detection is comprehensive detection, so that all areas of the textile fabric are detected.

5. The intelligent device for automatically detecting the tensile strength of the seam according to claim 4, wherein: the specific steps of S38 are as follows:

the detecting head (10) descends to contact with the textile fabric, the textile fabric is blown up by the wind holes (14), the lower part of the textile fabric is hollow, the textile fabric cannot be damaged even if the descending amplitude of the detecting head (10) deviates to some extent, and the detecting head (10) marks the position which does not reach the standard when detecting that the tensile strength of the seam does not reach the standard, so that rework and remolding are facilitated;

the detecting head (10) is always tightly attached to the textile fabric in the secondary detection process.

6. The intelligent device for automatically detecting the tensile strength of the seam according to claim 5, wherein: the detailed opening steps of the air holes (14) are as follows:

s41, when the detecting head (10) operates for the first time, the air holes (14) are fully opened, so that moisture on the textile fabric is blown away, and the textile fabric is pulled to be flat, so that the detecting head (10) can detect conveniently;

s42, when the detecting head (10) operates for the second time, the air holes (14) are automatically opened in real time and started along with the detecting head (10);

s43, each movement of the detection head (10) is paused for a few seconds for detection, when the detection head (10) leaves the current area, the air holes (14) under the leaving area are closed, on one hand, moisture in the textile fabric is greatly reduced through primary air blowing, and on the other hand, the power consumption is reduced.

7. The intelligent device for automatically detecting the tensile strength of the seam according to claim 6, wherein: the specific steps of the finished textile fabric are as follows:

s51, pressing a stop button (3) to lift the compacting plate (15);

s52, taking out the textile fabric by an operator;

and S53, reinforcing the seam according to the mark.

Technical Field

The invention relates to the technical field of intelligent detection, in particular to an intelligent device for automatically detecting tensile strength of a seam for textile fabric.

Background

Textile fabric need carry out the seam after weaving, piece into one with many surface fabrics, appear the doubtful worry whether up to standard of seam crossing tensile strength this moment promptly, it is great to detect the equipment volume of seam crossing tensile strength, it detects to lean on the manpower only, efficiency is low excessively, be not enough to accomplish mill's output, textile fabric crosses the water quality very big after wasing simultaneously, the manual work is levelled and is fixed and cause workman's potential safety hazard easily, therefore, the design practicality is strong and the intelligent device of the high automatic detection seam crossing tensile strength of detection precision is very necessary for textile fabric.

Disclosure of Invention

The invention aims to provide an intelligent device for automatically detecting the tensile strength of a seam for textile fabric, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an intelligent device of automated inspection seam crossing tensile strength for textile fabric, includes base and intellectual detection system, its characterized in that: the detection device comprises a base, a transmission rod I, an operation disc, a transmission rod III, a detection head, a display screen, radiating holes and a detection rod, wherein the transmission rod I is arranged at two ends of the top of the base, one end of the transmission rod I penetrates through and is provided with a water storage chamber, the water storage chamber is welded with the top of the base, a motor is arranged at one side of the base, three buttons are distributed on the motor, the operation disc is arranged at one side of the motor and is fixedly connected to the side wall of the base, a plurality of air holes are uniformly formed in the top of the base, a plurality of fans are arranged at the bottoms of the air holes, a compaction plate is arranged at the inner side of the transmission rod I and is electrically connected with the motor, a transmission block is arranged at the other end of the transmission rod I, the transmission rod III is fixedly arranged between the two transmission blocks, the detection head is arranged on the transmission rod III, the display screen is arranged at one side of the detection head, the radiating holes are formed above the display screen, and the detection rod is arranged at the bottom of the detection head, and a limiting plate is arranged at the other end of the detection rod and penetrates through the detection head.

According to the technical scheme, the intelligent detection system comprises an intelligent operation module, an intelligent sensing module and an intelligent driving module, the intelligent operation module comprises a logic operation module and a data resource library, the intelligent sensing module comprises a communication module, a man-machine interaction module and a terminal display module, and the intelligent driving module comprises a pressure measuring unit, an emergency stop unit and a retrieval unit.

According to the technical scheme, the logic operation module is used for calculating the tensile strength of the seam of the textile fabric and simultaneously performing information interaction with the data resource library, the data resource library is used for recording all information of the device and simultaneously giving the right of other modules for searching and utilizing the information, the communication module is used for sensing real-time dynamic state between the device and the textile fabric and simultaneously recording the information and conveying the information into the data resource library, the man-machine interaction module is used for adjusting the operation mode of the device in real time, the operation mode is divided into manual mode and automatic mode, the manual mode can prevent sudden situations in the operation process of the device so as to reduce damage of the textile fabric, the automatic mode can increase efficiency and improve the yield of an area, the terminal display module is used for displaying various detection information on the display screen and simultaneously inputting the information into the intelligent detection system, and the pressure measuring unit is used for controlling the operation of the detection rod, the emergency stop unit is used for protecting the textile fabric from being damaged, and the retrieval unit is used for marking the part with low tensile strength at the seam of the textile fabric.

According to the technical scheme, the operation steps of the whole device are as follows:

s1, soaking textile cloth in a water tank for a period of time and taking out;

s2, weaving the textile fabric on the base, moving two sides of the textile fabric to the lower part of the compacting plate, and leveling the middle area of the textile fabric as far as possible;

s3, inputting tensile strength values of the textile fabric into an intelligent detection system by using an operation panel according to an information sheet provided by a client, pressing a button starting device, wherein the number of the buttons is three, and the functions of the buttons are starting, stopping and emergency manual operation;

s4, the compacting plate begins to descend to compact and fix the textile fabrics on two sides, the descending amplitude of the compacting plate is set as f, and f is divided into three gears f1, f2 and f 3;

s5, the compacting plate stops moving and then transmits information to the data resource library, and the data resource library is automatically backed up;

s6, the logic operation module obtains information from the data resource library, the air outlet force of the air holes is automatically adjusted according to the obtained information, the air outlet force of the air holes is set to be t, the t is divided into three gears which are t1, t2 and t3 respectively, the textile fabric is blown up through the air holes 14, and the middle area of the textile fabric is separated from the base 1;

s7, storing the wind hole starting signal in a data resource library, and acquiring a signal by an intelligent driving module to drive a detection head to start moving;

s8, the detection head transversely moves according to the direction of the transmission rod II and then moves according to the direction of the transmission rod I, and the moving distance is 0.5cm, 0.8cm, 1cm, 1.2cm and 1.5cm conventionally;

s9, moving the detection head according to a fixed distance, and descending the detection rod once when moving once;

s10, circulating the action of S9;

and S11, information measured by the detection rod is stored in a data resource library and is displayed on a display screen, and an operator sees that adjustment can be made in time.

According to the technical scheme, the specific processes of S1-S3 are as follows:

the starting device of the starting button is pressed, the device starts to operate initially, the stopping button is pressed, the whole device stops operating, the manual button is pressed, the whole device operates at the minimum power, and the operation workers can adjust or observe conveniently;

after ordering, a client inputs the tensile strength of the textile fabric seam into a system, the tensile strength required by the client is D, and the tensile strength detected by the detection rod every time the detection rod descends is compared with D;

the textile fabric is flattened on the base, an operator flattens the textile fabric with a customized tool, and the fixing of the compacting plate can play a role after flattening due to the fact that the textile fabric is polluted by water.

According to the technical scheme, the specific processes of S4-S6 are as follows:

s21, the compacting plate is lowered by a corresponding range according to the thickness of the textile fabric input in advance, the gram number of the textile fabric with flat meters is set to be three intervals, namely 7 ounces, 12 ounces and 20 ounces, wherein the 7 ounces correspond to f1, the 12 ounces correspond to f2, and the 20 ounces correspond to f 3;

s22, the intelligent driving module acquires textile cloth information in a data resource library, the information is transmitted to the logic operation module, the logic operation module calculates corresponding amplitude, amplitude values are transmitted to the intelligent driving module, and the compacting plate moves according to the corresponding amplitude;

s23, automatically irradiating the textile fabric in the moving process of the detecting head, wherein a plurality of connectors are uniformly arranged at the top of the base, when the irradiating light of the detecting head irradiates the connectors, the connectors can automatically transmit signals to a data resource library, the logic operation module can automatically search the number of the enabled connectors, the size of the gaps in the textile fabric is judged according to the number of the enabled connectors, the more the enabled connectors are, the larger the gaps are, and the less the enabled connectors are, the smaller the gaps are;

and S24, judging the movement interval of the detection head by the logic operation module according to the feedback information.

According to the technical scheme, the specific steps of S7-S9 are as follows:

s31, detecting the motion track of the head according to the coordinate position;

s32, setting the direction of the transmission rod I as a y coordinate and the direction of the transmission rod II as an x coordinate;

s33, the detecting head moves according to the x-axis direction, the moving distance of each time is preset as a standard, the set standard is adjusted according to information in the data resource library, and the moving data of the detecting head is input in advance;

s34, the detection head drives the detection rod to move, the detection rod judges, judgment information is transmitted to the pressure measuring unit in real time, and the pressure measuring unit adjusts in real time according to the judgment information;

s35, the seam of the textile fabric is irregular and not horizontal and vertical, the detecting head moves in the x-axis direction, when the detecting head moves to a non-seam position, the pressure measuring unit drives the detecting head to move in the y-axis direction until the seam position is detected, the detecting head continues to move in the x-axis direction, the moving direction is based on the distance from the detecting head to the first transmission rod on two sides, the distance from the detecting head to the first transmission rods on two sides is the distance from the detecting head to the first transmission rod on one side with a short distance, and if the distances are equal, the detecting head preferentially moves to the left side;

s36, detecting the real-time distance between the head and the first transmission rod in a data resource library;

s37, detecting the y-axis tail end of the movement of the probe, finishing the primary test of the position of the seam on the textile fabric, if the primary test result does not reach the standard, triggering an emergency stop unit, not performing the test, and waiting for an operator to remove the textile fabric;

and S38, if the primary test reaches the standard, starting secondary detection by the detection head, wherein the secondary detection is comprehensive detection, and detecting all areas of the textile fabric.

According to the technical scheme, the specific steps of S38 are as follows:

the detecting head descends to contact with the textile fabric, the textile fabric is blown up by the wind holes at the moment, the lower part of the textile fabric is hollow, the textile fabric cannot be damaged even if the descending amplitude of the detecting head deviates, and the detecting head marks the position which does not reach the standard when detecting that the tensile strength of the seam does not reach the standard, so that rework and remolding are facilitated;

and the detecting head is always tightly attached to the textile fabric in the secondary detection process.

According to the technical scheme, the detailed opening steps of the air holes are as follows:

s41, when the detecting head operates for the first time, the air holes are fully opened, so that moisture on the textile fabric is blown away, and the textile fabric is pulled to be flat, so that the detecting head can conveniently detect;

s42, when the detection head operates for the second time, the air holes are automatically opened in real time and started along with the detection head;

s43, every movement of the detection head is paused for a few seconds for detection, when the detection head leaves the current area, the air holes under the leaving area are closed, on one hand, moisture in the textile fabric at the moment is greatly reduced through primary air blowing, and on the other hand, the power consumption is reduced.

According to the technical scheme, the specific steps of the finished textile fabric are as follows:

s51, pressing a stop button, and enabling the compacting plate to ascend;

s52, taking out the textile fabric by an operator;

and S53, reinforcing the seam according to the mark.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the compacting plate is arranged, so that the textile fabric can be compacted too tightly when the descending amplitude of the compacting plate is large, the textile fabric is easy to damage, the fixity of the textile fabric is insufficient when the descending amplitude of the compacting plate is small, and the textile fabric can be blown off from the base when the wind holes are started.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic overall elevational view of the present invention;

FIG. 2 is a schematic view of a detector according to the present invention;

FIG. 3 is a schematic diagram of the system of the present invention;

FIG. 4 is a schematic view of the button distribution of the present invention;

in the figure: 1. a base; 2. a motor; 3. a button; 4. an operation panel; 5. a water storage chamber; 6. a first transmission rod; 7. a transmission block; 8. a second transmission rod; 9. a limiting plate; 10. a detecting head; 11. a display screen; 12. a detection rod; 13. heat dissipation holes; 14. a wind hole; 15. and (5) compacting the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides an intelligent device of automated inspection seam crossing tensile strength for textile fabric, includes base 1 and intelligent detecting system, its characterized in that: the detection device comprises a base 1, a transmission rod I6, a water storage chamber 5, a motor 2, three buttons 3, an operation panel 4, a plurality of air holes 14, a plurality of fans, a compaction plate 15, a transmission rod III 8, a detection head 10, a display screen 11, a heat dissipation hole 13, a detection rod 12, a detection rod I10, a detection rod II, a detection rod III, a detection rod II, a detection rod III, a detection rod II and a detection rod III, wherein the transmission rod I6 is arranged at two ends of the top of the base 1, the water storage chamber 5 is arranged at one end of the transmission rod I6, the water storage chamber 5 is welded with the top of the base 1, the motor 2, the operation panel 4 is fixedly connected to the top of the base 1, the other end of the detection rod 12 is provided with a limit plate 9, the limit plate 9 penetrates through the detection head 10, the compacting plate 15 can be lifted up and down, and the transmission block 7 can slide on the transmission rod I6.

The intelligent detection system comprises an intelligent operation module, an intelligent sensing module and an intelligent driving module, wherein the intelligent operation module comprises a logic operation module and a data resource library, the intelligent sensing module comprises a communication module, a man-machine interaction module and a terminal display module, and the intelligent driving module comprises a pressure measuring unit, an emergency stop unit and a retrieval unit.

The logic operation module is used for calculating the tensile strength of the seam of the textile fabric and performing information interaction with the data resource library, the data resource library is used for recording all information of the device and simultaneously providing the right for other modules to search and utilize the information, the communication module is used for sensing real-time dynamic state between the device and the textile fabric and simultaneously recording the information and conveying the information into the data resource library, the man-machine interaction module is used for adjusting the operation mode of the device in real time, the operation mode is manual and automatic, the manual mode can prevent sudden situations in the operation process of the device so as to reduce the damage of the textile fabric, the automatic mode can increase the efficiency and improve the yield of the area, the terminal display module is used for displaying various detection information on the display screen 11 and inputting the information into the intelligent detection system, the pressure measuring unit is used for controlling the operation of the detecting rod 12, and the emergency stop unit is used for protecting the textile fabric from being damaged, the retrieval unit is used for marking the part with lower tensile strength at the seam of the textile fabric.

The operation steps of the whole device are as follows:

s1, soaking textile cloth in a water tank for a period of time and taking out;

s2, weaving the textile fabric on the base 1, moving two sides of the textile fabric to the lower part of the compacting plate 15, and leveling the middle area of the textile fabric as far as possible;

s3, inputting the tensile strength value of the textile fabric into an intelligent detection system by using an operation panel 4 according to an information sheet provided by a client, pressing a button 3 to start a device, wherein the three buttons 3 have the functions of starting, stopping and emergency manual operation;

s4, the compacting plate 15 starts to descend to compact and fix the textile fabrics on two sides, the descending amplitude of the compacting plate 15 is set as f, and f is divided into three gears f1, f2 and f 3;

s5, the compacting plate 15 stops moving and then transmits information to the data resource library, and the data resource library is automatically backed up;

s6, the logic operation module obtains information from the data resource library, the air outlet force of the air holes 14 is automatically adjusted according to the obtained information, the air outlet force of the air holes is set to be t, the t is divided into three gears which are t1, t2 and t3 respectively, the textile fabric is blown up through the air holes 14, and the middle area of the textile fabric is separated from the base 1;

s7, storing a starting signal of the air hole 14 in a data resource library, and acquiring a signal by the intelligent driving module to drive the detecting head 10 to start moving;

s8, the detection head 10 transversely moves in the direction of the transmission rod II 8 and then moves in the direction of the transmission rod I6, and the moving distance is 0.5cm, 0.8cm, 1cm, 1.2cm and 1.5cm in a conventional mode;

s9, the detection head 10 moves according to a fixed distance, and the detection rod 12 descends once when the detection head moves once;

s10, circulating the action of S9;

s11, the information measured by the detection rod 12 is stored in a data resource library and is displayed on the display screen 11, and an operator sees that adjustment can be made in time.

The specific process from S1 to S3 is as follows:

the starting device of the starting button 3 is pressed, the device starts to operate initially, the stopping button 3 is pressed, the whole device stops operating, the manual button 3 is pressed, the whole device operates at the minimum power, and the operation workers can adjust or observe conveniently;

after ordering, the tensile strength of the textile fabric seam is input into the system, the tensile strength required by the client is D, and the tensile strength detected by the detection rod 12 every time the detection rod descends is compared with D;

the textile fabric is flattened on the base 1, the operator flattens the textile fabric with a customized tool, and the fixing of the compacting plate 15 can only play a role after flattening due to the fact that the textile fabric is polluted by water.

The specific process from S4 to S6 is as follows:

s21, the compacting plate 15 is reduced by a corresponding range according to the thickness of the textile fabric input in advance, the gram number of the textile fabric with flat meters is set to be three intervals, namely 7 ounces, 12 ounces and 20 ounces, wherein the 7 ounces correspond to f1, the 12 ounces correspond to f2, and the 20 ounces correspond to f 3;

s22, the intelligent driving module acquires textile cloth information in a data resource library, the information is transmitted to the logic operation module, the logic operation module calculates a corresponding amplitude, an amplitude value is transmitted to the intelligent driving module, the compacting plate 15 moves according to the corresponding amplitude, the textile fabric is compacted too tightly if the descending amplitude of the compacting plate 15 is large, the textile fabric is easily damaged, if the descending amplitude of the compacting plate 15 is small, the fixity of the textile fabric is insufficient, the air holes 14 are started, and the textile fabric can be blown off the base 1;

s23, automatically irradiating the textile fabric in the moving process of the detecting head 10, wherein a plurality of connectors are uniformly arranged at the top of the base 1, when the irradiating light of the detecting head 10 irradiates the connectors, the connectors can automatically transmit signals to a data resource library, a logic operation module can automatically search the number of the enabled connectors, the size of the gaps in the textile fabric is judged according to the number of the enabled connectors, the more enabled connectors represent the larger gaps, and the less enabled connectors represent the smaller gaps;

and S24, judging the movement interval of the detection head 10 by the logic operation module according to the feedback information.

The specific steps of S7-S9 are as follows:

s31, detecting the motion track of the head 10 according to the coordinate position;

s32, the direction of the first transmission rod 6 is a y coordinate, and the direction of the second transmission rod 8 is an x coordinate;

s33, the detection head 10 moves according to the x-axis direction, the preset of the moving distance each time is taken as a standard, the set standard is adjusted according to the information in the data resource library, and the moving data of the detection head 10 is input in advance;

s34, the detection head 10 drives the detection rod 12 to move, the detection rod 12 carries out judgment, judgment information is transmitted to the pressure measuring unit in real time, and the pressure measuring unit adjusts in real time according to the judgment information;

s35, the seam of the textile fabric is irregular and not horizontal and vertical, the detecting head 10 moves in the x-axis direction, when the detecting head moves to a non-seam position, the detecting head 10 is driven by the pressure measuring unit to move in the y-axis direction until the seam position is detected, the detecting head 10 continues to move in the x-axis direction, the moving direction is based on the distance from the detecting head 10 to the transmission rod one 6 at the moment, the distance from the detecting head 10 to the transmission rods one 6 at the two sides is determined, the detecting head 10 preferentially moves to the transmission rod one 6 at the short side, and if the distances are equal, the detecting head preferentially moves to the left side;

s36, detecting the real-time distance between the head 10 and the first transmission rod 6 in a data resource library;

s37, detecting the y-axis tail end of the movement of the head 10, finishing the primary test of the position of the seam on the textile fabric, if the primary test result does not reach the standard, triggering an emergency stop unit, not performing the test, and waiting for an operator to remove the textile fabric;

and S38, if the primary test reaches the standard, the detection head 10 starts secondary detection, and the secondary detection is complete detection, so that all areas of the textile fabric are detected.

The specific steps of S38 are as follows:

the detecting head 10 descends to contact with the textile fabric, the textile fabric is blown up by the air holes 14 at the moment, the lower part of the textile fabric is hollow, the textile fabric cannot be damaged even if the descending amplitude of the detecting head 10 deviates to some extent, and the detecting head 10 marks the position which does not reach the standard when detecting that the tensile strength of the seam does not reach the standard, so that rework and remodeling are facilitated;

the detecting head 10 is always closely attached to the textile fabric in the secondary detection process.

The detailed opening steps of the air holes 14 are as follows:

s41, when the detecting head 10 operates for the first time, the air holes 14 are fully opened, so that moisture on the textile fabric is blown away, and the textile fabric is pulled to be flat, so that the detecting head 10 can conveniently detect;

s42, when the detecting head 10 operates for the second time, the air holes 14 are automatically opened in real time and started along with the detecting head 10;

s43, every movement of the detection head 10 is paused for a few seconds for detection, when the detection head 10 leaves the current area, the air holes 14 under the leaving area are closed, on one hand, moisture in the textile fabric at the moment is greatly reduced through primary air blowing, and on the other hand, the power consumption is reduced.

The specific steps after the textile fabric is finished are as follows:

s51, pressing the stop button 3, and lifting the compacting plate 15;

s52, taking out the textile fabric by an operator;

and S53, reinforcing the seam according to the mark.

It is noted that, herein, relational terms such as first and second, and the like may be 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 apparatus 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 apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.