CN119985387A - Infrared fabric detection device - Google Patents

Abstract

The invention belongs to the technical field of ‌ fabric detection, and particularly discloses an infrared fabric detection device which comprises a detection mechanism, wherein a box is arranged at the middle end of the top of the detection mechanism, an opening is formed in the bottom right in front of the box, a telescopic frame is movably arranged in the opening, a driving mechanism is arranged in the box, a rectangular groove is formed in the surface of the telescopic frame, which is positioned at one end of the outer side of the box, a square frame is rotatably arranged in the rectangular groove, and clamping mechanisms are arranged on two sides of the interior of the square frame. According to the invention, the telescopic movement of the telescopic frame at the opening can be operated through the driving mechanism, the movement of the telescopic frame is accurate, the consistency of the detection position of the fabric is ensured, the personal error is reduced, then the semi-cylinder can extrude the end face of the fabric into the semi-circular groove through the clamping mechanism, the positioning of the fabric is realized, and finally the square frame can be turned over due to the fact that the square frame is rotatably arranged in the rectangular groove, and the other face of the fabric can be directly detected.

Description

Infrared fabric detection device

Technical Field

The invention belongs to the ‌ fabric detection field, and particularly discloses an infrared fabric detection device.

Background

‌ Infrared spectroscopic detection of fabric is one method ‌ for qualitative and quantitative analysis of fabric by infrared spectrometer. The infrared spectrometer obtains an infrared spectrogram of the substance by measuring the characteristics of the substance such as absorption, reflection or transmission of infrared light. Different substances have unique absorption peaks on an infrared spectrogram, so that qualitative and quantitative analysis ‌ of the substances can be realized.

The existing infrared fabric detection device has the defects that the fabric clamping operation steps of some testers are complex, operators are required to have certain skills and experience, the operation difficulty and time cost are increased, in addition, in the operation process, due to complex steps, misoperation is easy to occur, in the fabric preparation process, the front and back treatment process and the structural characteristics may be different, the two sides of the fabric are required to be detected partially, so that workers are required to detach and reinstall the fabric, and the reverse side of the fabric is detected again, so that the operation is complex.

Disclosure of Invention

In view of the above, the invention aims to provide an infrared fabric detection device, so as to solve the problems that the fabric clamping operation steps of the prior art tester are complex, operators are required to have a certain skill and experience, the operation difficulty and time cost are increased, in the operation process, the operation errors are easy to occur due to complicated steps, the treatment process and the structural characteristics of the front and the back surfaces of the fabric are possibly different in the preparation process, and part of the two surfaces of the fabric are required to be detected, so that the operators are required to detach and reinstall the fabric, and the reverse surfaces of the fabric are required to be detected again, and the operation is complicated.

In order to achieve the above purpose, the invention provides an infrared fabric detection device, which comprises a detection mechanism, wherein a frame box is arranged at the middle end of the top of the detection mechanism, an opening is formed in the bottom right in front of the frame box, a telescopic frame is movably arranged in the opening, a driving mechanism is arranged in the frame box, the driving mechanism can control the telescopic frame to stretch out and draw back at the opening, a rectangular groove is formed in the surface of the telescopic frame, a square frame is rotatably arranged in the rectangular groove, clamping mechanisms are arranged on two sides of the inside of the square frame and used for positioning fabrics, the clamping mechanisms comprise semicircular grooves, the semicircular grooves are formed in the two sides of the inside of the square frame, a polish rod is rotatably arranged in the semicircular grooves, a semi-cylinder is arranged on the surface of the polish rod, a plurality of protruding points are arranged on the surface of the semi-cylinder, movable grooves are formed in the four end corners of the square frame, a second spring is arranged in the movable groove, the end of the square frame is connected with a third gear groove, the end of the second spring is rotatably connected with a third gear groove, and the end of the third gear groove is rotatably connected with the third gear groove, and the third gear groove is rotatably meshed with the third gear groove.

In the above technical scheme, preferably, the driving mechanism includes a first gear, the first gear is rotatably mounted in the middle of the box, a moving block is slidably mounted in front of the first gear and inside the box, two first sliding blocks are symmetrically slidably mounted in back of the first gear and inside the box, a first rack is arranged on the surface of the moving block, which is close to the first gear, a second rack is arranged on the surface of the first sliding block, which is close to the first gear, and the first rack and the second rack are all meshed with the first gear.

In the above technical scheme, preferably, two support frames are symmetrically installed between two first sliding blocks, a second gear is rotatably installed between two support frames, one of the surface mounting of the support frames is provided with a stepping motor, the output end of the stepping motor is connected with the second gear, and the second gear is meshed with the first gear.

In the above technical scheme, preferably, the surface of telescopic frame is provided with T shape slider, T shape spout has been seted up to the inside bottom of frame box, T shape slider slidable mounting is in the T shape spout, telescopic frame is in the inside one end symmetry of frame box installs two second connecting frames, the bottom fixed mounting of first slider has the extension piece, the frame groove has been seted up on the surface of extension piece, the inside movable mounting of frame groove has the guide post, the surface activity of guide post runs through the extension piece, the top of extension piece is provided with the fixed disk, the guide post surface just is in the fixed disk with install first spring between the frame groove, the below activity of extension piece is provided with first connecting frame, the bottom fixed connection of guide post in first connecting frame, be connected with the connecting rod through the pivot between first connecting frame with the second connecting frame.

In the above technical scheme, preferably, the bottom of rectangular slot has been seted up the kerve, the inside slidable mounting of kerve has the dog, the butt joint groove has been seted up to square frame's middle end surface, the butt joint groove with the dog is corresponding, just the tip of L shape slider is outstanding in the butt joint inslot.

In the above technical solution, preferably, two limiting blocks are symmetrically installed at one end of the telescopic frame, which is located outside the opening, and the limiting blocks are installed at the end of the telescopic frame.

In the above technical solution, preferably, the stop block is located between two L-shaped sliders, and a certain distance is left between the stop block and the L-shaped sliders.

Compared with the prior art, the invention has the following beneficial effects:

By arranging the driving mechanism, the telescopic movement of the telescopic frame at the opening can be operated, the gear and rack transmission is more reliable, and the movement of the telescopic frame is more accurate through the accurate control rotation of the stepping motor, so that the consistency of the detection position of the fabric is ensured, and the human error is reduced;

Meanwhile, when the fabric is positioned, the operation requirements of positioning and then compacting the fabric are met in a staged and logical movement mode, and the step-by-step operation can avoid deformation or damage caused by excessive extrusion of the fabric in initial positioning;

Through setting up fixture, through the extrusion of semicylinder to the surface fabric, realize the location to at the in-process of location, the staff can be taut with the surface fabric, guarantees the planarization of surface to be detected of surface fabric, need not loaded down with trivial details fixing device and complicated operation steps, and operating personnel can accomplish the clamping of surface fabric fast, improves the efficiency of detection work, and a plurality of bumps that set up on semicylindrical surface simultaneously, greatly increased with the frictional force between the surface fabric;

And finally, as the square frame is rotationally arranged in the rectangular groove, a worker can turn over the square frame, the other side of the fabric can be directly detected, the working efficiency is effectively improved, the fabric is not required to be reinstalled, and the time is saved.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the box according to the present invention;

FIG. 3 is a schematic view illustrating an internal structure of another view box according to the present invention;

FIG. 4 is an enlarged view of the invention at A in FIG. 3;

FIG. 5 is an enlarged view of the invention at B in FIG. 3;

FIG. 6 is a schematic view of a telescopic frame structure according to the present invention;

FIG. 7 is a schematic view of another telescopic frame structure according to the present invention;

FIG. 8 is a schematic view of a square frame structure according to the present invention;

FIG. 9 is an enlarged view of the invention at C in FIG. 7;

fig. 10 is an enlarged view of the invention at D in fig. 8.

In the figure, 1, a detection mechanism, 2, a frame box, 3, an opening, 4, a telescopic frame, 5, a moving block, 6, a first gear, 7, a first sliding block, 8, a first rack, 9, a second rack, 10, a stepping motor, 11, a second gear, 12, a support frame, 13, an extension block, 14, a frame groove, 15, a first spring, 16, a guide post, 17, a first connecting frame, 18, a connecting rod, 19, a second connecting frame, 20, a rectangular groove, 21, a limiting block, 22, a square frame, 23, a butting groove, 24, a semicircular groove, 25, a polished rod, 26, a semi-cylinder, 27, a movable groove, 28, an L-shaped sliding block, 29, a third rack, 30, a second spring, 31, an arc-shaped groove, 32, a third gear, 33, a bottom groove, 34 and a stop block.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than as described herein, and therefore the present invention is not limited to the specific embodiments disclosed below.

The utility model provides an infrared fabric detection device as shown in fig. 1-10, including detection mechanism 1, detection mechanism 1 top's middle-end is provided with box 2, opening 3 has been seted up to box 2 the bottom in the place ahead, opening 3's internal activity is provided with flexible frame 4, box 2's inside is provided with actuating mechanism, actuating mechanism can control flexible frame 4 and in the flexible of opening 3 departments, rectangular channel 20 has been seted up on the surface of flexible frame 4 in box 2 outside one end, square frame 22 is installed in rectangular channel 20's internal rotation, square frame 22 both sides's middle-end is provided with the pivot, the pivot rotates the inner wall of installing at rectangular channel 20, make square frame 22 whole can freely take place to rotate, clamping mechanism is installed to square frame 22 inside both sides, clamping mechanism is used for the location to the surface fabric, through setting up actuating mechanism, flexible frame 4 can operate the flexible motion of opening 3 department, guarantee the uniformity to the surface fabric testing position, reduce human error, set up clamping mechanism simultaneously, can carry out the centre gripping to square end, realize the location to the surface fabric, install square frame 22 through rectangular channel 20's internal rotation, can detect the inside of square channel 20, work efficiency is improved, the fabric is not needed, the fabric is installed to the another side.

The driving mechanism comprises a first gear 6, the first gear 6 is rotatably arranged in the middle of the frame box 2, a moving block 5 is slidably arranged in the frame box 2 and positioned in front of the first gear 6, two first sliding blocks 7 are symmetrically slidably arranged in the frame box 2 and positioned behind the first gear 6, a first rack 8 is arranged on the surface, close to the first gear 6, of the moving block 5, a second rack 9 is arranged on the surface, close to the first gear 6, of the first sliding block 7, the first rack 8 and the second rack 9 are meshed with the first gear 6, the first gear 6 is meshed with the first rack 8 and the second rack 9, the rotation of the first gear 6 can be converted into linear motion of the moving block 5, the two first sliding blocks 7 are driven to do linear motion, the displacement of the moving block 5 and the first sliding blocks 7 is realized, the first gear 6 serves as a driving core component, the movement directions of the moving block 5 and the first sliding blocks 7 can be accurately controlled only by controlling the rotation directions of the first gear 6, and the expansion and contraction degree of the frame 4 is controlled.

Two support frames 12 are symmetrically arranged between the two first sliding blocks 7, a second gear 11 is rotatably arranged between the two support frames 12, the two support frames 12 position the second gear 11, stability of the second gear 11 in use is guaranteed, a stepping motor 10 is arranged on the surface of one support frame 12, the output end of the stepping motor 10 is connected to the second gear 11, the second gear 11 is meshed with the first gear 6, a driving mechanism is further perfected, and the stepping motor 10 directly drives the first gear 6 through the second gear 11.

The surface of the telescopic frame 4 is provided with a T-shaped sliding block, the bottom end inside the frame box 2 is provided with a T-shaped sliding groove, the T-shaped sliding block is slidably arranged in the T-shaped sliding groove, the T-shaped sliding block on the telescopic frame 4 is matched with the T-shaped sliding groove at the bottom end inside the frame box 2, accurate guiding can be provided for telescopic movement of the telescopic frame 4, the telescopic frame 4 is ensured to stretch along a preset linear track, thereby improving the accuracy of fabric positioning, the accuracy of detection position is ensured, one end of the telescopic frame 4 inside the frame box 2 is symmetrically provided with two second connecting frames 19, the bottom of the first sliding block 7 is fixedly provided with an extension block 13, the surface of the extension block 13 is provided with a frame groove 14, the inside of the frame groove 14 is movably provided with a guide post 16, the surface of the guide post 16 movably penetrates through the extension block 13, the top of the extension block 13 is provided with a fixed disc, the surface of the guide post 16 is provided with a first spring 15 between the fixed disc and the frame groove 14, the first connecting frame 17 is movably arranged below the extension block 13, the bottom of the guide post 16 is fixedly connected with the first connecting frame 17, a connecting rod 18 is connected between the first connecting frame 17 and the second connecting frame 19 through a rotating shaft, the top of the first connecting frame 17 is always close to the bottom of the extension block 13 by the elastic force of the first spring 15, when the first sliding block 7 slides to the upper part of the frame box 2, under the action of the connecting rod 18, the telescopic frame 4 is pulled into the frame box 2 by pulling force, after the telescopic frame 4 completely moves into the frame box 2, the end face of the second connecting frame 19 is close to the inner wall of the frame box 2, at the moment, a certain distance is reserved between the moving block 5 and the telescopic frame 4, then the first sliding block 7 continuously moves upwards, the inner wall of the frame groove 14 has extrusion force on the first spring 15, the first spring 15 is contracted, the position of the telescopic frame 4 cannot be changed, the movable block 5 can continue to move downwards, and finally the pressing sheet at the bottom of the movable block 5 can compress the fabric, so that the staged and logical movement mode accurately meets the operation requirements of positioning the fabric and then compressing the fabric in the fabric detection process, and the operation process is smooth and efficient.

The bottom groove 33 has been seted up to the bottom of rectangular channel 20, the inside slidable mounting in bottom groove 33 has dog 34, butt joint groove 23 has been seted up to the middle-end surface of square frame 22, butt joint groove 23 is corresponding with dog 34, when square frame 22 rotates in rectangular channel 20, the terminal surface of butt joint groove 23 can cause the extrusion to dog 34 surface, dog 34 plays the limiting displacement, avoid square frame 22 to excessively rotate in rectangular channel 20, guarantee the accuracy to the fabric detection, the cooperation of dog 34 and butt joint groove 23 can ensure that square frame 22's rotation is gone on in safe, effective within range.

The fixture includes the semicircle groove 24, the both sides inside square frame 22 are offered in the semicircle groove 24, the polished rod 25 is installed in the inside rotation of semicircle groove 24, the surface of polished rod 25 is provided with half-cylinder 26, the surface of half-cylinder 26 is provided with a plurality of bumps, the surface activity of half-cylinder 26 sets up in the semicircle groove 24, the tip of surface fabric is installed in the semicircle groove 24, through the extrusion of half-cylinder 26 to the surface fabric, realize the location to the surface fabric, the surface fabric tip can directly put into the semicircle groove 24, then utilize the extrusion of half-cylinder 26 to realize the location, need not loaded down with trivial details fixing device and complex operation steps, the clamping of surface fabric can be accomplished fast to operating personnel, improve the efficiency of detection work, a plurality of bumps of half-cylinder 26 surface setting simultaneously, greatly increased the frictional force with between the surface fabric.

The four end corners of the square frame 22 are provided with movable grooves 27, the inside of the movable grooves 27 is provided with second springs 30, the end parts of the second springs 30 are connected with L-shaped sliding blocks 28, the end parts of the L-shaped sliding blocks 28 protrude into the butt joint grooves 23, the side surfaces of the movable grooves 27 are provided with arc grooves 31, third gears 32 are rotatably arranged in the arc grooves 31, the end parts of the polished rods 25 are fixedly connected with the third gears 32, the surfaces of the L-shaped sliding blocks 28 are provided with third racks 29, the third racks 29 are meshed with the third gears 32, a buffer effect is provided for the movement of the L-shaped sliding blocks 28 through the existence of the second springs 30, in the detection process, the second springs 30 can absorb part of energy even if slight shock or external force impact occurs, hard collision between the square frame 22 and the telescopic frame 4 is avoided, the structure of the equipment is protected from being damaged, meanwhile, the position change of fabric possibly caused by vibration is reduced, the elastic force of the second spring 30 can ensure that the L-shaped sliding block 28 always keeps a good meshing state with the third gear 32 during normal detection, the transmission reliability is ensured, when a worker installs the fabric, the L-shaped sliding block 28 can be pushed to the deep of the movable groove 27, the third gear 32 rotates, the polished rod 25 synchronously rotates, the semi-cylinder 26 can be moved out of the semicircular groove 24 at the moment, a certain gap is reserved between the polished rod 25 and the semicircular groove 24, the end part of the fabric can pass through the gap, the thrust to the L-shaped sliding block 28 is released at last, and the L-shaped sliding block 28 can automatically reset under the action of the second spring 30, so that the clamping operation of the end part of the fabric is realized.

Two limiting blocks 21 are symmetrically arranged at one end of the telescopic frame 4, which is located outside the opening 3, and the limiting blocks 21 are arranged at the end part of the telescopic frame 4, when the telescopic frame 4 is completely contracted to the inside of the frame box 2, the limiting blocks 21 can be abutted to the outer surface of the frame box 2, and the positioning of the position of the telescopic frame 4 is further guaranteed.

The stop block 34 is positioned between the two L-shaped sliding blocks 28, a certain distance is reserved between the stop block 34 and the L-shaped sliding blocks 28, and a 1 cm distance is reserved between the stop block 34 and the L-shaped sliding blocks 28, so that the stop block 34 is prevented from touching the L-shaped sliding blocks 28 by mistake.

Working principle: firstly, the stepping motor 10 is started, the first gear 6 is directly driven to rotate positively through the second gear 11, at the moment, the moving block 5 moves to the upper side of the frame box 2 as a whole, the first sliding block 7 moves to the lower side of the frame box 2 as a whole, under the action of the first connecting frame 17, the second connecting frame 19 and the connecting rod 18, the telescopic frame 4 can be pushed to move to the outer side of the frame box 2 from the opening 3, then the L-shaped sliding block 28 is pushed to the deep of the movable groove 27 by a worker, so that the third gear 32 rotates, the polished rod 25 synchronously rotates, at the moment, the semi-cylinder 26 can be moved out of the semicircular groove 24, a certain gap is reserved between the polished rod 25 and the semicircular groove 24, the end part of the fabric can pass through the gap, finally, the pushing force to the L-shaped sliding block 28 can be automatically reset under the action of the second spring 30, the clamping operation to the end part of the fabric is realized, then the worker rotates the square frame 22, the square frame 22 is kept in a horizontal state, the stepping motor 10 is started in the next step, the first gear 6 is directly driven to reversely rotate through the second gear 11, at the moment, the whole moving block 5 moves downwards the frame box 2, the whole first sliding block 7 moves upwards the frame box 2, under the action of the first connecting frame 17, the second connecting frame 19 and the connecting rod 18, the telescopic frame 4 can be pulled to move from the opening 3 to the inside of the frame box 2, after the telescopic frame 4 completely moves into the frame box 2, the limiting block 21 is abutted to the outer surface of the frame box 2, the end surface of the second connecting frame 19 is abutted to the inner wall of the frame box 2, at the moment, a certain distance is reserved between the moving block 5 and the telescopic frame 4, then the first sliding block 7 continues to move upwards, the inner wall of the frame groove 14 has extrusion force on the first spring 15, the first spring 15 is contracted, the position of the telescopic frame 4 cannot be changed, the moving block 5 can continue to move downwards, and finally the pressing sheet at the bottom of the moving block 5 can compress the fabric to realize detection of the fabric, and because the materials of the fabric are different, when the fabric facing the double-sided materials is faced, the other surface of the fabric needs to be detected, and at the moment, the operation telescopic frame 4 needs to move towards the outer side of the frame box 2 again, so that a worker directly turns over the square frame 22, and then the operation telescopic frame 4 moves towards the inner side of the frame box 2, so that double-sided detection of the fabric can be realized.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention, which is defined by the appended claims.

Claims (7)

1. An infrared fabric detection device, comprising a detection mechanism (1), characterized in that a frame box (2) is provided at the middle end of the top of the detection mechanism (1), an opening (3) is provided at the bottom of the frame box (2) in front of the frame box (2), a telescopic frame (4) is movably provided inside the opening (3), a driving mechanism is provided inside the frame box (2), the driving mechanism can control the telescopic frame (4) at the opening (3), a rectangular groove (20) is provided on the surface of the telescopic frame (4) at one end outside the frame box (2), a square frame (22) is rotatably installed inside the rectangular groove (20), a clamping mechanism is installed on both sides of the square frame (22), and the clamping mechanism is used to position the fabric; the clamping mechanism comprises a semicircular groove (24), the semicircular groove (24) is provided on the square On both sides of the interior of the square frame (22), a polished rod (25) is rotatably mounted inside the semicircular groove (24), a semi-cylinder (26) is provided on the surface of the polished rod (25), and a plurality of convex points are provided on the surface of the semi-cylinder (26); a movable groove (27) is provided at each of the four end corners of the square frame (22), a second spring (30) is provided inside the movable groove (27), an end of the second spring (30) is connected to an L-shaped slider (28), an arc groove (31) is provided on the side of the movable groove (27), a third gear (32) is rotatably mounted inside the arc groove (31), the end of the polished rod (25) is fixedly connected to the third gear (32), a third rack (29) is provided on the surface of the L-shaped slider (28), and the third rack (29) is meshed with the third gear (32). 2. An infrared fabric detection device according to claim 1, characterized in that the driving mechanism comprises a first gear (6), the first gear (6) is rotatably mounted in the middle of the frame box (2), a moving block (5) is slidably mounted inside the frame box (2) and in front of the first gear (6), two first sliding blocks (7) are symmetrically slidably mounted inside the frame box (2) and behind the first gear (6), a first rack (8) is arranged on the surface of the moving block (5) close to the first gear (6), a second rack (9) is arranged on the surface of the first sliding block (7) close to the first gear (6), and the first rack (8) and the second rack (9) are both meshed with the first gear (6). 3. An infrared fabric detection device according to claim 2, characterized in that two support frames (12) are symmetrically installed between the two first sliders (7), a second gear (11) is rotatably installed between the two support frames (12), a stepping motor (10) is installed on the surface of one of the support frames (12), an output end of the stepping motor (10) is connected to the second gear (11), and the second gear (11) is meshed with the first gear (6). 4. An infrared fabric detection device according to claim 3, characterized in that a T-shaped slider is arranged on the surface of the telescopic frame (4), a T-shaped slide groove is provided at the bottom end of the interior of the frame box (2), the T-shaped slider is slidably installed in the T-shaped slide groove, two second connecting frames (19) are symmetrically installed at one end of the telescopic frame (4) located inside the frame box (2), an extension block (13) is fixedly installed at the bottom of the first slider (7), a frame groove (14) is provided on the surface of the extension block (13), and a movable mounting is arranged inside the frame groove (14). A guide column (16) is provided, the surface of the guide column (16) movably passes through the extension block (13), a fixed disk is provided on the top of the extension block (13), a first spring (15) is installed on the surface of the guide column (16) and between the fixed disk and the frame groove (14), a first connecting frame (17) is movably provided below the extension block (13), the bottom of the guide column (16) is fixedly connected to the first connecting frame (17), and a connecting rod (18) is connected between the first connecting frame (17) and the second connecting frame (19) via a rotating shaft. 5. An infrared fabric detection device according to claim 1, characterized in that a bottom groove (33) is provided at the bottom of the rectangular groove (20), a stopper (34) is slidably installed inside the bottom groove (33), a docking groove (23) is provided on the middle end surface of the square frame (22), the docking groove (23) corresponds to the stopper (34), and an end of the L-shaped sliding block (28) protrudes into the docking groove (23). 6. An infrared fabric detection device according to claim 1, characterized in that two limit blocks (21) are symmetrically installed at one end of the telescopic frame (4) outside the opening (3), and the limit blocks (21) are installed at the end of the telescopic frame (4). 7. An infrared fabric detection device according to claim 5, characterized in that the stopper (34) is located between the two L-shaped sliders (28), and a certain distance is left between the stopper (34) and the L-shaped slider (28).