CN211042945U - Simulation test device for pull injury resistance of clothes - Google Patents

Abstract

The utility model relates to a simulation test device for preventing tensile damage of clothes, the structure of which comprises a pulling simulation device for pulling clothes to the left side, the right side of the pulling simulation device is provided with a clothes fixing device for fixing one end of the clothes, the pulling simulation device is connected with the lower end of the clothes fixing device through a slide seat and a slide rail, the pulling simulation device comprises a support rod, and a U-shaped rod which is arranged on the right side of the support rod and is used for connecting the clothes is arranged, thereby solving the problems that the tensile strength and the maximum strength of the clothes cannot be detected, the difference between the detection condition and the real use condition is large, effectively and accurately testing the tensile property and the light degree of the clothes, providing guidance for the improvement of the production of the clothes, the automation degree of the equipment is high, the use is simple, the performance reliability is high, the maximum strength of the clothes can be detected, and the part connected with the clothes, the condition of contacting with human skin can be simulated, so that the detected data is more real.

Description

Simulation test device for pull injury resistance of clothes

Technical Field

The utility model relates to a clothing production test equipment field especially relates to a clothing pulling resistance emulation testing arrangement.

Background

Currently, chinese patent No.: CN200920069169.7 discloses an embedded clothing pressure measuring instrument, which includes a clothing test table, a pressure sensor, a data acquisition card, and a pressure display, wherein the pressure sensor is embedded in the surface of the clothing test table, the data acquisition card is connected with the pressure sensor, and the pressure display is connected with the data acquisition card. Compared with the prior art, the utility model has the advantages that: the resistance strain gauge type sensor is adopted to measure the tiny fluctuation of the clothing pressure; the measured clothing pressure value is dynamically displayed on the pressure display in real time; the pressure sensor, the data connecting line and the like are hidden in the clothes test board, so that extra deformation of clothes is avoided, and the accuracy of pressure measurement is influenced; the pressure sensor embedded in the clothes test bench at multiple points can adjust the height of the pressure sensor protruding out of the surface of a human body through the stepping motor, so that simultaneous measurement of the pressure of the clothes at multiple points can be realized, but the problems that the tensile strength and the maximum strength of the clothes cannot be detected and the difference between the detection condition and the real use condition is large still exist in the actual use process.

SUMMERY OF THE UTILITY MODEL

Therefore, to foretell problem, the utility model provides a clothing pulling resistance emulation testing arrangement, it has solved the tensile and the biggest intensity that can not detect the clothing, and the detection condition is great technical problem with real service condition difference.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a simulation test device for tensile damage resistance of clothes structurally comprises a pulling simulation device used for pulling clothes to the left side, a clothes fixing device used for fixing one end of the clothes is arranged on the right side of the pulling simulation device, the pulling simulation device is connected with the lower end of the clothes fixing device through a sliding seat and a sliding rail, the pulling simulation device comprises a supporting rod, a U-shaped rod arranged on the right side of the supporting rod and used for being connected with the clothes, a pressure detector used for detecting vertical pressure change is arranged on the lower portion of the supporting rod, the lower end of the supporting rod is connected with the sliding rail through a sliding base, a first tensile force detector used for detecting current tensile force is arranged on the left side of the supporting rod, a driving device used for driving the supporting rod to move horizontally is arranged below the first tensile force detector, the fixing device comprises a U-shaped connecting frame, a second tensile force detector used for detecting stress conditions is arranged on the, the lower extreme of U type link passes through the connecting rod and is connected with the supporting seat, the lower extreme and the slide rail connection that is used for supporting of supporting seat.

Furthermore, the vertical part of the right part of the U-shaped rod is coated with a silica gel anti-slip sleeve, and the bottom of the U-shaped rod is provided with a movable connecting shaft for adjusting the angle of the silica gel coated part.

Furthermore, the left end of the U-shaped rod is connected with the supporting rod through a rotating connecting shaft.

Further, the driving device may adopt an electric cylinder or an air cylinder.

Furthermore, the left part of U type link is equipped with vertical part and covers the second silica gel antiskid cover that is used for providing stronger frictional force.

Furthermore, the pulling simulation device and the garment fixing device are both connected with the supporting shell, and a computer for processing, calculating and imaging signals output by the first tension detector, the second tension detector and the like is arranged at the right part of the supporting shell.

Furthermore, a keyboard and control buttons for man-machine interaction are arranged below the computer.

By adopting the technical scheme, the beneficial effects of the utility model are that: the simulation test device for the pull resistance of the clothes improves the problems that the tensile strength and the maximum strength of the clothes cannot be detected and the detection condition is greatly different from the real use condition by arranging the pulling simulation device and the clothes fixing device, one part of the clothes is fixed on the clothes fixing device and the other part of the clothes is fixed on the pulling simulation device when the equipment normally works, the position to be detected is stressed, the driving device is started, the driving device drives the pulling simulation device to integrally move leftwards to stress the clothes, so that the whole process from stress to tearing of the clothes can be simulated, a first pull detector reads and samples every 0.1 second in the process, a curve can be drawn according to the change of the reading and the change of the pulling force, and the tensile property of the clothes is detected and researched, the tensile property and the light degree of the clothes can be effectively and accurately tested, guidance is provided for improvement of clothes production, the automation degree of equipment is high, the use is simple, the performance reliability is high, and the maximum strength of the clothes can be detected; furthermore, the part connected with the garment is made of a silica gel material structure, so that the condition of contact with the skin of a human body can be simulated, and the detected data is more real.

Drawings

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

fig. 2 is a schematic structural view of the pulling simulator and the garment fixing device of the present invention.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and detailed description.

Referring to fig. 1-2, the present embodiment provides a simulation testing device for pull-resisting of a garment, the structure of which includes a pulling simulation device 1 for pulling the garment to the left, a garment fixing device 2 for fixing one end of the garment is disposed on the right side of the pulling simulation device 1, the pulling simulation device 1 includes a support rod 11, a U-shaped rod 12 disposed on the right side of the support rod 11 for connecting the garment, a silicone anti-slip sleeve 122 is coated on the vertical portion of the right portion of the U-shaped rod 12, a movable connecting shaft 121 for adjusting the angle of the silicone-coated portion is disposed at the bottom of the U-shaped rod 12, the left end of the U-shaped rod 12 is connected to the support rod 11 through a rotating connecting shaft 123 capable of being locked, so that the silicone anti-slip sleeve 122 coated on the right portion of the U-shaped rod 12 can be adjusted to different angles, thereby avoiding the limitation of the simulation process, the simulation process of the contact state of each angle can be provided, the lower part of the support rod 11 is provided with a pressure detector 13 for detecting the change of vertical pressure, the lower end of the support rod 11 is connected with the slide rail 3 through a sliding base 14, the left side of the support rod 11 is provided with a first tension detector 15 for detecting the current tension, a driving device 16 for driving the support rod 11 to move horizontally is arranged below the first tension detector 15, the driving device 16 can adopt the structure of an electric cylinder or an air cylinder and the like, the electric push rod is adopted to drive in the embodiment, the garment fixing device 2 comprises a U-shaped connecting frame 21, the right part of the U-shaped connecting frame 21 is provided with a second tension detector 15 for detecting the stress condition, the lower end of the U-shaped connecting frame 21 is connected with a support seat 23 through a connecting rod, and the lower end of the support seat 23 is connected with the slide, the left part of the U-shaped connecting frame 21 is provided with a second silica gel anti-slip sleeve 22 with a vertical part coated for providing stronger friction force.

The pulling simulation device 1 and the garment fixing device 2 are both connected with the supporting shell, a computer used for processing, calculating and imaging signals output by the first tension detector 15, the second tension detector 15 and other devices is arranged at the right part of the supporting shell, and a keyboard and a control button used for man-machine interaction are arranged below the computer.

In this embodiment, the acquisition and processing of the signal and the imaging processing of the data are both generated by computer software according to an algorithm of software, and the acquisition and processing of the signal are completed by driving software of the pressure detector 13, and the imaging processing of the data may be performed by software such as L abVIEW or Spread asp.

The simulation test device for the pull resistance of the clothes improves the problems that the tensile strength and the maximum strength of the clothes cannot be detected and the detection condition is greatly different from the real use condition by arranging the pulling simulation device and the clothes fixing device, one part of the clothes is fixed on the clothes fixing device and the other part of the clothes is fixed on the pulling simulation device when the equipment normally works, the position to be detected is stressed, the driving device is started, the driving device drives the pulling simulation device to integrally move leftwards to stress the clothes, so that the whole process from stress to tearing of the clothes can be simulated, a first pull detector reads and samples every 0.1 second in the process, a curve can be drawn according to the change of the reading and the change of the pulling force, and the tensile property of the clothes is detected and researched, the tensile property and the light degree of the clothes can be effectively and accurately tested, guidance is provided for improvement of clothes production, the automation degree of equipment is high, the use is simple, the performance reliability is high, and the maximum strength of the clothes can be detected; furthermore, the part connected with the garment is made of a silica gel material structure, so that the condition of contact with the skin of a human body can be simulated, and the detected data is more real.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides a clothing pulling resistance emulation testing arrangement which characterized in that: the structure of the device comprises a pulling simulation device for pulling the clothes to the left, a clothes fixing device for fixing one end of the clothes is arranged on the right side of the pulling simulation device, the pulling simulation device is connected with the lower end of the clothes fixing device through a sliding seat and a sliding rail, the pulling simulation device comprises a supporting rod and a U-shaped rod which is arranged on the right side of the supporting rod and used for connecting the clothes, a pressure detector for detecting vertical pressure change is arranged on the lower portion of the supporting rod, the lower end of the supporting rod is connected with the sliding rail through a sliding base, a first tension detector for detecting current tension is arranged on the left side of the supporting rod, a driving device for driving the supporting rod to horizontally move is arranged below the first tension detector, the fixing device comprises a U-shaped connecting frame, and a second tension detector for detecting the stress condition is arranged on the right portion of the U, the lower extreme of U type link passes through the connecting rod and is connected with the supporting seat, the lower extreme and the slide rail connection that is used for supporting of supporting seat.

2. The simulation test device for the pull injury resistance of the clothes according to claim 1, characterized in that: the vertical part of the right part of the U-shaped rod is coated with a silica gel anti-slip sleeve, and the bottom of the U-shaped rod is provided with a movable connecting shaft for adjusting the angle of the silica gel coated part.

3. The simulation test device for the tensile injury resistance of the clothes according to claim 1 or 2, characterized in that: the left end of the U-shaped rod is connected with the supporting rod through a rotating connecting shaft.

4. The simulation test device for the pull injury resistance of the clothes according to claim 1, characterized in that: the driving device can adopt an electric cylinder or a gas cylinder structure.

5. The simulation test device for the pull injury resistance of the clothes according to claim 1, characterized in that: the left part of U type link is equipped with vertical part parcel and is used for providing the second silica gel antiskid cover of frictional force.

6. The simulation test device for the pull injury resistance of the clothes according to claim 1, characterized in that: the pulling simulation device and the garment fixing device are both connected with the supporting shell, and a computer used for processing, calculating and imaging signals output by the first tension detector, the second tension detector and the like is arranged at the right part of the supporting shell.

7. The simulation test device for the pull injury resistance of the clothes according to claim 6, wherein: and a keyboard and a control button for man-machine interaction are arranged below the computer.

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