CN217542629U - Breaking strength detection device is used in fibre cloth production - Google Patents

Abstract

The utility model discloses a rupture strength detection device is used in fibre cloth production, include: the equipment mounting table is provided with a full-automatic stretching detection structure; full-automatic tensile detection structure includes: the clamping device comprises a fixed plate, two pairs of movable installation boxes, two pairs of movable driving assemblies, a pair of movable tables, a pair of supporting frames, a pair of installation plates and a pair of clamping detection assemblies; the utility model relates to a check out test set technical field, the present case beneficial effect does: the problem of current fibre cloth can't detect its breaking strength after production is accomplished, can't carry out accurate control to dragging the power during the test, unable effectual detection data is collected, and presss from both sides when detecting and get and remove simple structure, easily causes destruction, influence detection data to the material is solved.

Description

Breaking strength detection device is used in fibre cloth production

Technical Field

The utility model relates to a check out test set technical field specifically is a rupture strength detection device is used in fibre cloth production.

Background

The fiber cloth is also called carbon fiber cloth, and the composite material made of carbon fiber has extremely high strength, is ultra-light and resistant to high temperature and high pressure, and is mainly used for seismic resistance and reinforcement of civil construction, bridges, tunnels and concrete structures; current fiber cloth can't detect its breaking strength after production is accomplished, can't carry out accurate control to dragging the power during the test, and unable effectual detection data collects, and gets when examining and move simple structure, easily causes the destruction to the material, influences the detection data.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a breaking strength detection device for fiber cloth production, the method comprises the following steps: the equipment mounting table is provided with a full-automatic stretching detection structure;

full-automatic tensile detection structure includes: the clamping device comprises a fixed plate, two pairs of movable installation boxes, two pairs of movable driving assemblies, a pair of movable tables, a pair of supporting frames, a pair of installation plates and a pair of clamping detection assemblies;

the fixed plate is installed on the wall on the equipment installation platform, and two pairs of removal install bins are installed on the fixed plate, and two pairs of removal drive assembly install inside two pairs of removal install bins, and a pair of mobile station is installed on two pairs of removal drive assembly, and a pair of support frame is installed on a pair of mobile station, and a pair of mounting panel is installed on the wall on the support frame, and a pair of clamp is got detection component and is installed on a pair of mounting panel.

Preferably, the support frame is provided with a support rod for enhancing the support stability.

Preferably, the mounting plate is provided with a reinforcing rib plate for improving the structural strength and the structural stability.

Preferably, one of the two pairs of motion driving assemblies comprises: the mounting device comprises a mounting cavity, a mounting partition plate, a servo motor, a pair of bearings, a screw rod, a pair of moving blocks and a pair of connecting rods;

the installation cavity is opened in removing the installation incasement portion, and the installation baffle is installed in installation cavity internal face outside position, and servo motor installs in the installation baffle outside, and a pair of bearing inlays respectively and adorns in installation baffle and installation cavity side wall face intermediate position, and the lead screw inlays the dress in a pair of bearing, and lead screw one end is installed on servo motor output, and a pair of movable block is installed on the lead screw, and a pair of connecting rod is installed on a pair of movable block, and the mobile station is installed on the connecting rod.

Preferably, one of the pair of clamp detection assemblies comprises: the device comprises a tension detection sensor, two pairs of sliding frames, two pairs of sliding rods, a moving plate, two pairs of connecting ropes, a fixed clamp, two pairs of electric push rods and a moving clamping plate;

the tension detection sensor is installed on the side wall surface of the installation plate, the two pairs of sliding frames are installed at four corners of the side wall surface of the installation plate, the two pairs of sliding rods are embedded on the two pairs of sliding frames, the moving plate is installed on the two pairs of sliding rods, two ends of the two pairs of connecting ropes are installed on the detection ends of the moving plate and the tension detection sensor respectively, the fixing clamp is installed on the side wall surface in the moving plate, the two pairs of electric push rods are installed on the upper wall surface of the fixing clamp, the output ends of the two pairs of electric push rods penetrate through the upper wall surface of the fixing clamp to extend out, and the moving clamp is installed on the output ends of the two pairs of electric push rods.

Preferably, the fixed clamp and the movable clamping plate are provided with anti-slip lines for increasing the clamping friction force.

Advantageous effects

The utility model provides a breaking strength detection device is used in fibre cloth production possesses following beneficial effect: this case has used full-automatic tensile detection structure, has adopted full-automatic clamp to get and has removed the detection structure, can get the detection by full-automatic clamp, simple structure convenient operation, and it is accurate to detect data, it can't detect its breaking strength to have solved current fibre cloth after production is accomplished, can't carry out accurate control to dragging the power during the test, unable effectual detection data is collected, and press from both sides when detecting and get removal simple structure, easily cause the destruction to the material, influence the problem of detection data.

Drawings

Fig. 1 is the utility model relates to a rupture strength detection device's for fiber cloth production front view sectional structure schematic diagram.

Fig. 2 is the utility model relates to a fibre cloth production is with rupture strength detection device's clamp gets detection component and looks sideways at schematic structure.

In the figure: 1-equipment mounting table; 2, fixing a plate; 3, moving the installation box; 4-a mobile station; 5-a support frame; 6, mounting a plate; 7-a support bar; 8-reinforcing rib plates; 9-mounting a cavity; 10-installing a partition plate; 11-a servo motor; 12-a bearing; 13-a screw; 14-a moving block; 15-a connecting rod; 16-a tension detection sensor; 17-a sliding frame; 18-a slide bar; 19-moving the plate; 20-connecting ropes; 21-fixing the clamp; 22-an electric push rod; 23-moving the gripping plate.

Detailed Description

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1: please refer to fig. 1-2; the main components of the scheme are as follows: the device comprises a device mounting table 1, wherein a full-automatic stretching detection structure is mounted on the device mounting table 1;

full-automatic tensile detection structure includes: the device comprises a fixed plate 2, two pairs of movable installation boxes 3, two pairs of movable driving assemblies, a pair of movable tables 4, a pair of supporting frames 5, a pair of installation plates 6 and a pair of clamping detection assemblies;

the fixed plate 2 is installed on the wall on the equipment installation platform 1, two pairs of mobile installation boxes 3 are installed on the fixed plate 2, two pairs of mobile driving assemblies are installed inside the two pairs of mobile installation boxes 3, a pair of mobile platforms 4 are installed on the two pairs of mobile driving assemblies, a pair of supporting frames 5 are installed on the pair of mobile platforms 4, a pair of mounting plates 6 are installed on the wall on the supporting frames 5, and a pair of clamping detection assemblies are installed on the pair of mounting plates 6.

It should be noted that, when using full-automatic tensile detection structure, control and make equipment start with equipment assorted controller, install and move the drive assembly and drive a pair of mobile station 4 and move to the inboard at removing 3 inside of install bin, press from both sides through a pair of clamp on the 5 mounting panels of support frame 6 and get detection module and carry out the centre gripping to fibre cloth, move the drive assembly and move to the outside and stretch fibre cloth, press from both sides and get detection module and carry out real-time recording detection to the power of dragging of fibre cloth, guarantee that the measured data is accurate.

Example 2: please refer to fig. 1-2; the support frame 5 is provided with a support rod 7 for strengthening the support stability.

Example 3: please refer to fig. 1-2; and a reinforcing rib plate 8 for improving the structural strength and the structural stability is arranged on the mounting plate 6.

Example 4: please refer to fig. 1-2; one of the two pairs of moving driving components comprises: the device comprises a mounting cavity 9, a mounting partition plate 10, a servo motor 11, a pair of bearings 12, a spiral lead screw 13, a pair of moving blocks 14 and a pair of connecting rods 15;

the mounting cavity 9 is opened in the removal mounting box 3, and installation baffle 10 is installed in the installation cavity 9 internal wall face outside position, and servo motor 11 is installed in the installation baffle 10 outside, and a pair of bearing 12 inlays respectively in installation baffle 10 and the installation cavity 9 side wall face intermediate position, and lead screw 13 inlays in a pair of bearing 12, and lead screw 13 one end is installed on servo motor 11 output, and a pair of movable block 14 is installed on lead screw 13, and a pair of connecting rod 15 is installed on a pair of movable block 14, and the mobile station 4 is installed on connecting rod 15.

It should be noted that, when the mobile driving assembly is used, the servo motor 11 installed in the installation cavity 9 receives a control signal to rotate, the servo motor 11 rotates to drive the screw 13 connected to the output end of the servo motor to rotate, the screw 13 installed on the bearing 12 rotates to drive the moving block 14 installed thereon to move, and the moving block 14 drives the mobile station 4 to move through the connecting rod 15 installed thereon, so as to drive the upper detection structure to move.

Example 5: please refer to fig. 1-2; one of a pair of clamp detection assemblies comprises: the device comprises a tension detection sensor 16, two pairs of sliding frames 17, two pairs of sliding rods 18, a moving plate 19, two pairs of connecting ropes 20, a fixed clamp 21, two pairs of electric push rods 22 and a moving clamping plate 23;

the tension detection sensor 16 is installed on the side wall surface of the installation plate 6, the two pairs of sliding frames 17 are installed at four corners of the side wall surface of the installation plate 6, the two pairs of sliding rods 18 are embedded on the two pairs of sliding frames 17, the moving plate 19 is installed on the two pairs of sliding rods 18, two ends of the two pairs of connecting ropes 20 are respectively installed on the moving plate 19 and the detection ends of the tension detection sensor 16, the fixed clamp 21 is installed on the inner side wall surface of the moving plate 19, the two pairs of electric push rods 22 are installed on the upper wall surface of the fixed clamp 21, the output ends of the two pairs of electric push rods 22 penetrate through the upper wall surface of the fixed clamp 21 to extend out, and the moving clamping plate 23 is installed at the output ends of the two pairs of electric push rods 22.

It should be noted that, when the clamping detection assembly is used, the fiber cloth is placed on the fixing clamp 21, the electric push rod 22 installed on the fixing clamp 21 starts the output end to extend downwards, the electric push rod 22 drives the movable clamping plate 23 to move downwards to match with the fixing clamp 21 to fix the fiber cloth, the pair of movable driving assemblies drives the movable driving assemblies to move towards two sides to stretch, when the movable driving assemblies stretch, the movable plate 19 moves on the two pairs of sliding frames 17 through the sliding rods 18, and the tension detection sensor 16 connected with the movable plate 19 through the connecting rope 20 monitors and records the tension in real time, so that the purpose of detecting the breaking strength is achieved.

Example 6: please refer to fig. 1-2; the fixed clamp 21 and the movable clamping plate 23 are provided with anti-skid grains for increasing the clamping friction force.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A breaking strength detection device for fiber cloth production comprises: the equipment mounting table is characterized in that a full-automatic stretching detection structure is mounted on the equipment mounting table;

full-automatic tensile detection structure includes: the clamping device comprises a fixed plate, two pairs of movable installation boxes, two pairs of movable driving assemblies, a pair of movable tables, a pair of supporting frames, a pair of installation plates and a pair of clamping detection assemblies;

the fixed plate is installed on the wall on the equipment installation platform, and two pairs of removal install bins are installed on the fixed plate, and two pairs of removal drive assembly install inside two pairs of removal install bins, and a pair of mobile station is installed on two pairs of removal drive assembly, and a pair of support frame is installed on a pair of mobile station, and a pair of mounting panel is installed on the wall on the support frame, and a pair of clamp is got detection component and is installed on a pair of mounting panel.

2. The breaking strength detection device for fiber cloth production according to claim 1, wherein a support rod for reinforcing support stability is mounted on the support frame.

3. The breaking strength detection device for fiber cloth production according to claim 1, wherein a reinforcing rib plate for increasing structural strength and structural stability is installed on the mounting plate.

4. The breaking strength detecting device for fiber cloth production according to claim 1, wherein one of the two pairs of moving driving assemblies comprises: the mounting device comprises a mounting cavity, a mounting partition plate, a servo motor, a pair of bearings, a screw rod, a pair of moving blocks and a pair of connecting rods;

the installation cavity is opened in removing the installation incasement portion, and the installation baffle is installed in installation cavity internal face outside position, and servo motor installs in the installation baffle outside, and a pair of bearing inlays respectively and adorns in installation baffle and installation cavity side wall face intermediate position, and the lead screw inlays the dress in a pair of bearing, and lead screw one end is installed on servo motor output, and a pair of movable block is installed on the lead screw, and a pair of connecting rod is installed on a pair of movable block, and the mobile station is installed on the connecting rod.

5. The breaking strength detecting device for fiber cloth production according to claim 1, wherein one of the pair of jig detecting members comprises: the device comprises a tension detection sensor, two pairs of sliding frames, two pairs of sliding rods, a moving plate, two pairs of connecting ropes, a fixed clamp, two pairs of electric push rods and a moving clamping plate;

the tension detection sensor is installed on the side wall surface of the installation plate, the two pairs of sliding frames are installed at four corners of the side wall surface of the installation plate, the two pairs of sliding rods are embedded on the two pairs of sliding frames, the moving plate is installed on the two pairs of sliding rods, two ends of the two pairs of connecting ropes are installed on the detection ends of the moving plate and the tension detection sensor respectively, the fixing clamp is installed on the side wall surface in the moving plate, the two pairs of electric push rods are installed on the upper wall surface of the fixing clamp, the output ends of the two pairs of electric push rods penetrate through the upper wall surface of the fixing clamp to extend out, and the moving clamp is installed on the output ends of the two pairs of electric push rods.

6. The device for detecting the breaking strength of the fiber cloth for production according to claim 5, wherein the fixed clamp and the movable clamping plate are provided with anti-slip lines for increasing the clamping friction force.

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