CN114046708A

CN114046708A - Device for measuring width of fabric grid

Info

Publication number: CN114046708A
Application number: CN202111470600.0A
Authority: CN
Inventors: 徐林; 王怀峰; 张国兴; 王俊丽; 祝陈晨
Original assignee: Shanghai Jialinjie Weaving Technology Co ltd
Current assignee: Shanghai Jialinjie Weaving Technology Co ltd
Priority date: 2021-12-03
Filing date: 2021-12-03
Publication date: 2022-02-15
Anticipated expiration: 2041-12-03
Also published as: CN114046708B

Abstract

The utility model relates to a measure device of surface fabric check width, including dipperstick and net cross chi, net cross chi includes multiunit extensible member, the extensible member includes the same first pole of length and second pole, and the tip that is located first pole on two adjacent extensible members and second pole is in the same place through pivot rotation each other, be equipped with first pointer on the primary shaft, the directional scale setting of first pointer, be equipped with the second pointer on the secondary shaft, the second pointer is used for directional cloth setting. When an operator measures, the starting baffle is aligned to the first grid, then the plurality of second pointers are sequentially aligned to the edge position of each grid in the width direction, the pointers with marks are adjusted to be aligned to the edge line of the corresponding grid in the width direction, and finally the measured value is read from the corresponding first pointer; the second pointers provide reference objects for operators when the lattices are counted, so that the operators are not easy to count eyes, and the accuracy of measuring the widths of the lattices on the fabric is improved.

Description

Device for measuring width of fabric grid

Technical Field

The application relates to the field of fabric lattice width measurement, in particular to a device for measuring the width of a fabric lattice.

Background

The size of the pattern in the color stripe (or lattice) fabric is not only related to the style of the fabric, but also may affect the gram weight of the fabric, so it is very important to control the size of the pattern, and the size of the pattern is usually represented by the width of a single lattice of the fabric.

The method for measuring the width of the fabric lattices in the related art comprises the steps of paving the fabric on a platform, taking a ruler by an operator to measure the total width of 5 or 10 adjacent uninterrupted lattices on the fabric, dividing the value by 5 or 10, and finally obtaining the width of each lattice.

The above-mentioned related technical solutions have the following drawbacks: when an operator takes the ruler to directly measure the width of the lattices of the fabric, after the operator watches stripes or lattices on different fabrics for a long time, the condition of eye marks can occur, and numerical values on the ruler which are wrongly seen are easy to occur, so that the width measurement of the lattices is wrong.

Disclosure of Invention

In order to improve the accuracy that operating personnel measured check width on the surface fabric, this application provides a device of measurement surface fabric check width.

The application provides a measure device of surface fabric check width adopts following technical scheme:

a device for measuring the width of the fabric lattices comprises a measuring scale with scale marks and a grid cross ruler, wherein the measuring scale is provided with an initial baffle and a movable baffle which are arranged oppositely, the initial baffle is fixed on one side of the measuring scale in the width direction, the side surface of one side of the initial baffle, which faces the movable baffle, is flush with the zero scale position of the measuring scale, and the movable baffle is connected to the measuring scale in a sliding manner along the length direction of the measuring scale;

the grid cross ruler comprises a plurality of groups of telescopic pieces which are positioned between the initial baffle and the movable baffle and are distributed along the length direction of the measuring ruler in sequence, the telescopic piece comprises a first rod and a second rod which are the same in length, the middle positions of the first rod and the second rod are hinged together, the two ends of the first rod are respectively and rotatably connected with a rotating shaft, the end parts of the first rod and the second rod which are positioned on two adjacent telescopic parts are mutually rotated together through the rotating shafts, the plurality of first rods are mutually arranged in parallel, the plurality of second rods are mutually arranged in parallel, a rotating shaft arranged on the first rod and close to the measuring scale is called a first shaft, a rotating shaft arranged on the first rod and far away from the measuring scale is called a second shaft, the first shafts are connected to the measuring scale in a sliding mode along the length direction of the measuring scale, and the two first rods and the two second rods of the multiple groups of telescopic pieces, which are close to the starting baffle and the movable baffle, are movably connected to the starting baffle or the movable baffle;

the cloth feeding device is characterized in that a first pointer is arranged on the first shaft and points to the scale, a second pointer is arranged on the second shaft and used for pointing to the cloth, the distance between the second pointer and the starting baffle is equal to the distance between the corresponding first pointer and the starting baffle, and a mark for an operator to observe is arranged on the second pointer which is the fifth or the multiple of the number from the starting baffle to the movable baffle.

By adopting the technical scheme, when an operator measures the sum of the widths of 5 lattices or 10 lattices of the fabric, the measuring scale is placed on the fabric, then the starting baffle is aligned to the edge line of the first lattice, then the plurality of second pointers are sequentially opposite to the edge position of each lattice in the width direction, when the width of the lattice is smaller, the second pointers are sequentially opposite to the edge positions of every two lattices in the width direction, then the pointers with marks are adjusted to be aligned to the edge line of the corresponding lattice in the width direction, finally the measured value is read from the corresponding first pointer, and the value is divided by 5 or 10 to obtain the width of a single lattice of the fabric; a plurality of second pointers provide the reference object for operating personnel when counting check, make operating personnel be difficult for counting dazzling, and scale mark on the directional dipperstick of first pointer makes things convenient for operating personnel accuracy to read the reading to improve the accuracy of measuring check width on the surface fabric.

Preferably, a transparent sheet is detachably arranged on the measuring scale, the transparent sheet is located on one side of the multiple groups of telescopic pieces, the transparent sheet is used for abutting against the fabric, and the second pointer abuts against the transparent sheet.

By adopting the technical scheme, the transparent thin plate is mainly used for being abutted against the fabric to protect the fabric, so that the second pointer is prevented from directly contacting the fabric, and the fabric can be scratched by fragile fabrics.

Preferably, the distance measuring device further comprises a distance sensor and a driving piece, a moving block is arranged on the first shaft, the moving block is connected to the measuring scale along the first shaft in a sliding mode, a distance measuring plate is connected to the moving block in a sliding mode along the length direction perpendicular to the measuring scale, the distance measuring plate is always arranged right opposite to a first pointer on the corresponding first shaft, a measuring track with the length direction parallel to the measuring scale is formed in the measuring scale, the distance sensor is arranged in the measuring track and right opposite to the zero scale position of the measuring scale, the driving piece is used for driving the distance measuring plate to slide on the moving block, and when the distance measuring plate slides to the measuring track, the distance sensor is used for measuring the distance between the distance sensor and the distance measuring plate.

Through adopting above-mentioned technical scheme, use the range finding board on the corresponding movable block of driving piece drive to measure in the way always, then drive the movable block and remove, the second pointer removes along with the movable block with the range finding board simultaneously, and the numerical value that corresponds the directional and range sensor of second pointer measures and reachs is unanimous, makes things convenient for the measurement of check width.

Preferably, the driving member includes a hollow gear, a rack, a pressing block and a reset member, the moving block is located on one side of the telescopic member, a sliding groove is formed in one side of the moving block away from the telescopic member, the pressing block is slidably connected to the sliding groove along a direction parallel to an axis of the first shaft, the hollow gear is rotatably connected to the moving block, the axis of the hollow gear is parallel to the axis of the first shaft, a spiral groove is formed in an inner wall of the hollow gear, the pressing block is arranged on the hollow gear in a penetrating manner, a protruding block is fixed on an outer wall of the pressing block, the protruding block is slidably connected to the spiral groove along a spiral direction of the spiral groove, the rack is fixed on the distance measuring plate and slidably connected to the moving block along the distance measuring plate, the gear is engaged with the rack, the reset member is used for driving the protruding block to move to abut against one end of the spiral groove away from the telescopic member all the time, when the convex block moves to one end of the butt joint at the spiral groove far away from the telescopic piece, the ranging plate is located in the moving block, and when the convex block moves to one end of the butt joint at the spiral groove close to the telescopic piece, the ranging plate slides to the measuring channel.

Through adopting above-mentioned technical scheme, through pressing the pressing block, the lug on the pressing block is mutually supported with the helicla flute, can drive the gear and rotate, gear revolve drives the rack that meshes with it again and slides on the movable block, then the rack drives the range finding board again and removes to measuring in the way, then drive the movable block simultaneous movement, thereby drive second pointer and range finding board simultaneous movement, it is unanimous to correspond the directional numerical value of second pointer and distance sensor measuring numerical value, can make things convenient for operating personnel direct reading distance sensor's measured value.

Preferably, the reset piece is a spring, and two ends of the spring are respectively abutted to the bottom wall of the sliding chute and the pressing block.

Through adopting above-mentioned technical scheme, the spring can drive and press the movable block and move towards the one side of keeping away from the spring all the time to make the lug rotate along the helicla flute slip drive gear, then the gear drives the range finding board through the rack again and removes back in the movable block, realizes reseing of range finding board.

Preferably, one end of the pressing block extends out of the sliding groove and is fixed with a first force application block for applying force by hand, and the first force application block is always positioned outside the sliding groove.

Through adopting above-mentioned technical scheme, first application of force piece can make things convenient for the operating personnel application of force, and in the drive range finding board that can relax extends to the measurement way after pressing first application of force piece, can drive the removal of removal piece through removing first application of force piece simultaneously.

Preferably, a clamping block is arranged on the transparent thin plate, a clamping groove is formed in the side face of one side of the measuring scale, and the clamping block is clamped on the clamping groove.

Through adopting above-mentioned technical scheme, through the cooperation of fixture block and draw-in groove, the installation and the dismantlement of realization transparent sheet metal on the dipperstick that can be convenient.

Preferably, a first adjusting rod is fixed on the second pointer, the first adjusting rod is connected to the second shaft in a sliding mode along the axis direction parallel to the second shaft, a second adjusting rod is connected to the second shaft in a threaded mode, the second adjusting rod is connected to the first adjusting rod in a coaxial rotating mode, and after the transparent thin plate is detached, the second pointer can move to abut against the fabric.

Through adopting above-mentioned technical scheme, transparent sheet itself has certain thickness, when protecting the surface fabric or can sacrifice some accuracies all the time or less, simultaneously to some light than strong operational environment, transparent sheet can influence operating personnel's sight, so operating personnel can select to dismantle transparent sheet, adjusts the pole through rotating the second and changes the distance between second pointer and the surface fabric to make measured numerical value more accurate.

In summary, the present application includes at least one of the following beneficial technical effects:

by arranging the telescopic piece, the first pointer and the second pointers, the plurality of second pointers provide reference objects for an operator when the operator counts the lattices, so that the operator is not easy to count dazzles, and meanwhile, the first pointer points to scale marks on the measuring scale, so that the operator can conveniently and accurately read the reading, and the accuracy of measuring the widths of the lattices on the fabric is improved;

through setting up distance sensor and range finding board, use the range finding board on the corresponding movable block of driving piece drive to measure in the way always, then drive the movable block and remove, the second pointer removes with the range finding board is followed the movable block simultaneously, and the numerical value that corresponds the directional digit of second pointer and distance sensor measurement and reachs is unanimous, makes things convenient for the measurement of check width.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a grid cross ruler in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a transparent thin plate according to an embodiment of the present application.

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 1 of an embodiment of the present application.

Fig. 5 is a schematic structural diagram of a distance sensor and a measuring ruler according to an embodiment of the present application.

Fig. 6 is an enlarged view at B in fig. 5.

Fig. 7 is a schematic structural diagram of a driving member according to an embodiment of the present application.

Description of reference numerals: 1. measuring a scale; 11. scale lines; 12. a transverse groove; 13. measuring a track; 14. a distance sensor; 15. a display screen; 16. a transparent sheet; 161. a clamping block; 17. a card slot; 2. grid cross ruler; 211. a starting baffle plate; 212. a movable baffle; 22. a telescoping member; 221. a first lever; 222. a second lever; 223. a second shaft; 224. a first shaft; 2231. a limiting groove; 23. a moving block; 231. a chute; 24. a drive member; 241. a hollow gear; 2411. a helical groove; 242. a rack; 243. pressing the block; 2431. a bump; 244. a reset member; 2441. a spring; 245. a first force application block; 246. a kneading block; 25. a distance measuring plate; 26. a second pointer; 261. a first adjusting lever; 262. a second adjusting lever; 263. a second force application block; 264. a limiting block; 27. a first pointer.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a device for measuring the width of a fabric grid.

Referring to fig. 1, an apparatus for measuring the width of the lattice of the fabric according to the present embodiment includes a measuring scale 1 having scale lines 11 and a grid cross scale 2, and the grid cross scale 2 is disposed on the measuring scale 1. Seted up transverse groove 12 on one side of dipperstick 1 width direction, the length direction of transverse groove 12 is on a parallel with the length direction of dipperstick 1, and the one end of transverse groove 12 is fixed with originated baffle 211, and the length direction sliding connection who follows transverse groove 12 on the transverse groove 12 has adjustable fender 212, and originated baffle 211 is just to adjustable fender 212 setting, and the length direction of originated baffle 211 is on a parallel with the length direction of adjustable fender 212 and is on a parallel with the width direction of dipperstick 1. The side of the start stop 211 facing the flapper 212 is flush with the zero scale position of the measuring tape 1.

Referring to fig. 1 and 2, the grid cross ruler 2 includes a plurality of sets of telescopic members 22, the plurality of sets of telescopic members 22 are located between the starting baffle 211 and the movable baffle 212 and are sequentially distributed along the length direction of the measuring scale 1, each telescopic member 22 includes a first rod 221 and a second rod 222 which are identical in appearance, the middle positions of the first rod 221 and the second rod 222 are hinged to each other, the middle hinged axis direction of the first rod 221 and the second rod 222 is parallel to the thickness direction of the measuring scale 1, two ends of the first rod 221 are respectively and rotatably connected with a rotating shaft, the axis direction of the rotating shaft is parallel to the thickness direction of the measuring scale 1, the ends of the first rod 221 and the second rod 222 on two adjacent telescopic members 22 are mutually rotated together through the rotating shaft, the plurality of first rods 221 are mutually parallel, and the plurality of second rods 222 are mutually parallel. Many pivots are two rows of settings, and wherein the one row of pivot that is close to dipperstick 1 all is called first axle 224, and the one row of pivot of keeping away from dipperstick 1 all is called the second axle 223. A plurality of first shafts 224 are slidably connected to the transverse grooves 12 in a direction parallel to the length of the measuring tape 1. The positions of the multiple groups of telescopic pieces 22 close to the starting baffle 211 and the movable baffle 212 are provided with two groups of first rods 221 and second rods 222 which are arranged in a mutual intersection mode, the ends of the first rods 221 and the second rods 222 which are far away from the measuring scale 1 are respectively connected to the starting baffle 211 and the movable baffle 212 in a sliding mode along the length direction parallel to the measuring scale 1, and the ends of the first rods 221 and the second rods 222 which are close to the measuring scale 1 are respectively connected to the starting baffle 211 or the movable baffle 212 in a rotating mode.

Referring to fig. 1 and 3, in order to protect some fragile fabrics, a transparent sheet 16 is detachably arranged on the measuring scale 1. Keep away from one side of scale mark 11 on the 1 thickness direction of dipperstick and seted up long banding draw-in groove 17, the one end of 16 width directions of transparent sheet is fixed with draw-in groove 17 joint complex fixture block 161, when the fixture block 161 joint is on draw-in groove 17, transparent sheet 16 is located one side of multiunit extensible member 22, one side that telescopic member 22 was kept away from to transparent sheet 16 flushes with one side at draw-in groove 17 place on the dipperstick 1. The side surface of the starting baffle 211 close to the transparent thin plate 16 is flush with the side surface of the measuring scale 1 where the clamping groove 17 is located.

Referring to fig. 1 and 2, a moving block 23 is fixedly connected to the first shaft 224, the moving block 23 is connected to the measuring scale 1 along the length direction of the measuring scale 1 in a sliding manner along the first shaft 224, the moving block 23 is located on one side of the plurality of expansion pieces 22, the moving block 23 is located on one side of the measuring scale 1 close to the expansion pieces 22, a first pointer 27 is fixed on one side of the moving block 23 facing the measuring scale 1, the first pointer 27 is located on one side of the measuring scale 1 away from the transparent thin plate 16 in the thickness direction, the first pointer 27 is attached to one side of the measuring scale 1 located on the scale mark 11, the first pointer 27 points to a scale, and the first pointer 27 and the corresponding first shaft 224 and the corresponding second shaft 223 are located on the same plane.

Referring to fig. 1 and 4, a second pointer 26 is connected to the second shaft 223, a second adjusting rod 262 is connected to the second shaft 223 in a threaded manner, the length direction of the second adjusting rod 262 is parallel to the axial direction of the second shaft 223, one end of the second adjusting rod 262 extends out of the second shaft 223 towards the side far away from the transparent thin plate 16 and is fixedly connected with a second force application block 263, the other end of the second adjusting rod 262 is located in the second shaft 223 and is rotatably connected with a first adjusting rod 261, one end of the first adjusting rod 261 is rotatably connected to the second adjusting rod 262, the other end of the first adjusting rod 261 extends out of the second shaft 223 towards the side of the transparent thin plate 16 and is fixedly connected with the corresponding second pointer 26, a limiting block 264 is fixed to the side wall of the first rod 221, a limiting groove 2231 is formed in the second shaft 223, and the limiting block 264 is slidably connected in the limiting groove 2231 along the axial direction parallel to the second shaft 223.

Referring to fig. 1 and 2, the plurality of second pointers 26 correspond to the plurality of first pointers 27 one to one, a distance between each second pointer 26 and the start baffle 211 is equal to a distance between the corresponding first pointer 27 and the start baffle 211, and a scale 11 pointed by the first pointer 27 is an actual value of the distance.

When the second force application block 263 rotates, the second force application block 263 rotates to drive the second adjustment rod 262 screwed on the second shaft 223 to rotate and move on the second shaft 223, and then the first adjustment rod 261 drives the second pointer 26 to move along the axial direction parallel to the second shaft 223. By adjusting the position of the second pointer 26, when some fragile fabrics are met, the transparent sheet 16 is installed on the measuring scale 1, the second pointer 26 is driven to abut against the transparent sheet 16, the transparent sheet 16 is used for abutting against the fabrics to measure, and the fabrics can be protected. Meanwhile, the transparent thin plate 16 has a certain thickness, so that when the fabric is protected, or some accuracy is sacrificed at all or little, especially for some working environments with strong light, the transparent thin plate 16 may affect the sight of an operator, so that the operator can select to detach the transparent thin plate 16, and the second adjusting rod 262 is rotated to change the distance between the corresponding second pointer 26 and the fabric, so that the second pointer 26 is close to the fabric, and the measurement precision is improved.

Referring to fig. 1, a mark that can be observed by an operator is provided on the second pointer 26 that counts fifth or a multiple of fifth from the start flap 211 to the flapper 212.

When an operator measures the sum of the widths of 5 lattices or 10 lattices of the fabric, the fabric is firstly flattened on a plane, then the measuring scale 1 is placed on the fabric, the starting baffle 211 is aligned with the left edge line of a specified first lattice, then a plurality of second pointers 26 sequentially face the right edge position of each lattice in the width direction, when the width of the lattice is smaller, the second pointers 26 sequentially face the right edge positions of every two lattices in the width direction, then the pointers with marks are adjusted to be aligned with the right edge line of the corresponding lattice in the width direction, finally the measured value is read from the corresponding first pointer 27, and the value is divided by 5 or 10 to obtain the width of a single lattice of the fabric. The plurality of second pointers 26 provide reference objects for operators when counting the grids, so that the operators are not easy to count dazzles, and meanwhile, the first pointer 27 points to the scale marks 11 on the measuring scale 1, so that the operators can conveniently and accurately read the reading, and the accuracy of measuring the grid width on the fabric is improved.

Referring to fig. 5 and 6, a distance measuring plate 25 is slidably connected to the moving block 23 along a direction parallel to the width direction of the measuring strip, a driving member 24 is arranged on the moving block 23, the driving member 24 is used for driving the distance measuring plate 25 to slide on the moving block 23, and the distance measuring plate 25 is arranged opposite to the first pointer 27. The measuring track 13 is arranged on the side surface of one side of the transverse groove 12 in the width direction of the measuring scale 1, the length direction of the measuring track 13 is parallel to the length direction of the measuring scale 1, the measuring track 13 is arranged on one side of the transverse groove 12, and the measuring track 13 is arranged under the plurality of moving blocks 23. One end of the measuring channel 13 is fixed with a distance sensor 14, the distance sensor 14 can be a radar ranging sensor, the distance sensor 14 is arranged right opposite to the zero scale mark 11, when the driving piece 24 drives the ranging plate 25 to move into the measuring channel 13, the distance sensor 14 is arranged right opposite to the ranging plate 25, and the distance sensor 14 can measure the distance between the distance sensor 14 and the ranging plate 25 which is positioned in the measuring channel 13 and is closest to the distance sensor 14. The side face of the measuring scale 1, which is located on one side of the scale mark 11, is fixed with a display screen 15, the display screen 15 is used for displaying real-time values measured by the distance sensor 14, and the values displayed in the display screen 15 are the same as the values corresponding to the scale mark 11 pointed by the first pointer 27.

Referring to fig. 5 and 6, the driving member 24 includes a hollow gear 241, a rack gear 242, a pressing block 243 and a reset member 244, the hollow gear 241 is rotatably connected in the moving block 23, the axial direction of the hollow gear 241 is parallel to the axial direction of the second shaft 223, the rack gear 242 is fixed on the distance measuring plate 25, the rack gear 242 and the distance measuring plate 25 are slidably connected to the moving block 23 in the width direction parallel to the distance measuring plate 25 together, and the rack gear 242 is engaged and intercepted on the gear. The moving block 23 is provided with a sliding groove 231 on one side away from the telescopic member 22, the pressing block 243 is slidably connected to the sliding groove 231 along the axis direction parallel to the hollow gear 241, and the pressing block 243 penetrates through the hollow gear 241. Referring to fig. 6 and 7, a protrusion 2431 is fixed on an outer wall of the pressing block 243, a spiral groove 2411 is formed in an inner wall of the hollow gear 241, the protrusion 2431 can be slidably connected in the spiral groove 2411 along a spiral direction of the spiral groove 2411, when the pressing block 243 is driven to slide on the moving block 23, the protrusion 2431 can drive the hollow gear 241 to rotate on the moving block 23 through cooperation with the spiral groove 2411, the hollow gear 241 rotates to drive the rack 242 engaged with the hollow gear 241 to slide on the moving block 23, and finally, the distance measuring plate 25 is driven to slide on the moving block 23.

Referring to fig. 5 and 6, the reset member 244 includes a spring 2441, and both ends of the spring 2441 respectively abut on the bottom wall of the slide slot 231 and a side surface of the pressing block 243 facing the bottom wall of the slide slot 231. The spring 2441 drives the pressing block 243 to slide towards the side far from the spring 2441 until the convex block 2431 abuts against one end of the spiral groove 2411 far from the telescopic member 22, and the distance measuring plate 25 is completely positioned in the moving block 23. When the operator presses the pressing block 243 toward the spring 2441 side until the projection 2431 abuts on the end of the spiral groove 2411 near the telescopic member 22, the distance measuring plate 25 moves into the measuring channel 13 and is disposed opposite to the distance sensor 14.

Referring to fig. 6 and 7, one end of the pressing block 243, which is away from the spring 2441, extends out of the sliding groove 231 and is fixedly connected with a first force application block 245 for applying force by a hand, a holding block 246 for holding by the hand is fixed on one side surface of the first force application block 245, which is away from the pressing block 243, and when the pressing block 243 moves until the projection 2431 abuts against one end of the spiral groove 2411, which is close to the expansion piece 22, one side surface of the first force application block 245, which faces the moving block 23, abuts against the moving block 23.

When an operator needs to automatically read a value by using the distance sensor 14, the operator selects a proper moving block 23, then holds the holding block 246 by hand, presses the first force application block 245 towards one side of the pressing block 243 until the first force application block abuts against the moving block 23, at this time, the distance measurement plate 25 on the moving block 23 extends to the measurement track 13, and then slides the moving block 23 on the holding block 246 along the length direction excluding the measurement scale 1 by an example, so that the first pointer 27 corresponding to the moving block 23 points to the right side line of the width direction of the total grid, at this time, the value measured by the distance sensor 14 is the width of the total grid, and the operator can conveniently and directly read the measured value of the distance sensor 14.

The implementation principle of the device for measuring the width of the fabric grid in the embodiment of the application is as follows: operating personnel will shakeouts the surface fabric on the plane earlier, then place dipperstick 1 on the surface fabric, the left edge line of appointed first check is aimed at to reuse originated baffle 211, then 5 or 10 check of counting out, press again to correspond to drive when pressing the piece 243 and correspond to remove and slide to the right edge line that corresponds the total width direction of second pointer 26 alignment check, operating personnel can directly observe the number of degrees of measuring distance from display screen 15 this moment, perhaps choose to observe the directional number of degrees that corresponds first pointer 27, can make things convenient for operating personnel to accurately read the reading, thereby improve the measurement accuracy of check width on the measurement surface fabric.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a device of measurement surface fabric check width, includes dipperstick (1) that has scale mark (11), its characterized in that: the measuring scale is characterized by further comprising a grid cross scale (2), wherein a starting baffle (211) and a movable baffle (212) which are opposite to each other are arranged on the measuring scale (1), the starting baffle (211) is fixed on one side of the measuring scale (1) in the width direction, the side surface, facing the movable baffle (212), of one side of the starting baffle (211) is flush with the zero scale position of the measuring scale (1), and the movable baffle (212) is connected to the measuring scale (1) in a sliding mode along the length direction of the measuring scale (1);

the grid cross ruler (2) comprises a plurality of groups of telescopic parts (22), the groups of telescopic parts (22) are positioned between a starting baffle (211) and a movable baffle (212) and are sequentially distributed along the length direction of the measuring scale (1), the telescopic parts (22) comprise a first rod (221) and a second rod (222) which are the same in length, the middle positions of the first rod (221) and the second rod (222) are hinged together, two ends of the first rod (221) are respectively and rotatably connected with a rotating shaft, the ends of the first rod (221) and the second rod (222) which are positioned on two adjacent telescopic parts (22) are mutually rotated together through the rotating shafts, the first rods (221) are mutually arranged in parallel, the second rods (222) are mutually arranged in parallel, the rotating shaft which is arranged on the first rod (221) and is close to the measuring scale (1) is called a first shaft (224), and the rotating shaft which is arranged on the first rod (221) and far away from the measuring scale (1) is called a second shaft (223), the first shafts (224) are connected to the measuring scale (1) in a sliding mode along the length direction of the measuring scale (1), and the two first rods (221) and the two second rods (222), close to the starting baffle (211) and the movable baffle (212), of the multiple groups of telescopic parts (22) are movably connected to the starting baffle (211) or the movable baffle (212);

be equipped with first pointer (27) on first axle (224), the directional scale setting of first pointer (27), be equipped with second pointer (26) on second axle (223), second pointer (26) are used for pointing to the cloth setting, the distance between second pointer (26) and initial baffle (211) equals to the distance between corresponding first pointer (27) and initial baffle (211), is equipped with the mark that supplies operating personnel to observe on the second pointer (26) of the multiple of the number fifth or five beginning from initial baffle (211) to adjustable fender (212).

2. The device for measuring the width of the lattice of the fabric as claimed in claim 1, wherein: the measuring scale (1) is detachably provided with a transparent thin plate (16), the transparent thin plate (16) is located on one side of the multiple groups of telescopic pieces (22), the transparent thin plate (16) is used for being abutted to the fabric, and the second pointer (26) is abutted to the transparent thin plate (16).

3. The device for measuring the width of the lattice of the fabric as claimed in claim 1, wherein: also comprises a distance sensor (14) and a driving piece (24), a moving block (23) is arranged on the first shaft (224), the moving block (23) is connected on the measuring scale (1) along with the first shaft (224) in a sliding way, a distance measuring plate (25) is connected on the moving block (23) in a sliding way along the length direction vertical to the measuring scale (1), the distance measuring plate (25) is always arranged opposite to the first pointer (27) on the corresponding first shaft (224), a measuring channel (13) with the length direction parallel to the measuring scale (1) is arranged in the measuring scale (1), the distance sensor (14) is arranged in the measuring track (13) and is right opposite to the zero scale position of the measuring scale (1), the driving piece (24) is used for driving the distance measuring plate (25) to slide on the moving block (23), the distance sensor (14) is used to measure the distance between the distance sensor (14) and the distance measuring plate (25) when the distance measuring plate (25) is slid to the measuring track (13).

4. The device for measuring the width of the lattice of the fabric as claimed in claim 3, wherein: the driving piece (24) comprises a hollow gear (241), a rack (242), a pressing block (243) and a resetting piece (244), the moving block (23) is located on one side of the telescopic piece (22), a sliding groove (231) is formed in one side, away from the telescopic piece (22), of the moving block (23), the pressing block (243) is connected to the sliding groove (231) in a sliding mode along the direction parallel to the axis of the first shaft (224), the moving block (23) is connected with the hollow gear (241) in a rotating mode, the direction of the axis of the hollow gear (241) is parallel to the direction of the axis of the first shaft (224), a spiral groove (2411) is formed in the inner wall of the hollow gear (241), the pressing block (243) penetrates through the hollow gear (241), a convex block (2431) is fixed to the outer wall of the pressing block (243), and the convex block (2431) is connected to the spiral groove (2411) in a sliding mode along the spiral direction of the spiral groove (2411), the rack (242) is fixed on the distance measuring plate (25) and is connected to the moving block (23) in a sliding mode along with the distance measuring plate (25), the gear is meshed with the rack (242) to be connected, the resetting piece (244) is used for driving the protruding block (2431) to be always abutted to one end, far away from the telescopic piece (22), of the spiral groove (2411, when the protruding block (2431) is moved to be abutted to one end, far away from the telescopic piece (22), of the spiral groove (2411), the distance measuring plate (25) is located in the moving block (23), and when the protruding block (2431) is moved to be abutted to one end, near the telescopic piece (22), of the spiral groove (2411), the distance measuring plate (25) slides to the measuring channel (13).

5. The device for measuring the width of the lattice of the fabric as claimed in claim 4, wherein: the reset piece (244) is a spring (2441), and two ends of the spring (2441) are respectively abutted on the bottom wall of the sliding chute (231) and the pressing block (243).

6. The device for measuring the width of the lattice of the fabric as claimed in claim 4, wherein: one end of the pressing block (243) extends out of the sliding groove (231) and is fixedly provided with a first force application block (245) for applying force by a hand, and the first force application block (245) is always positioned on the outer side of the sliding groove (231).

7. The device for measuring the width of the lattice of the fabric as claimed in claim 2, wherein: be equipped with fixture block (161) on transparent sheet (16), draw-in groove (17) have been seted up on one side of dipperstick (1), fixture block (161) joint is on draw-in groove (17).

8. The device for measuring the width of the lattice of the fabric as claimed in claim 2, wherein: the second pointer (26) is fixedly provided with a first adjusting rod (261), the first adjusting rod (261) is connected to the second shaft (223) in a sliding mode along the axis direction parallel to the second shaft (223), the second shaft (223) is connected with a second adjusting rod (262) in a threaded mode, the second adjusting rod (262) is connected to the first adjusting rod (261) in a coaxial rotating mode, and when the transparent thin plate (16) is detached, the second pointer (26) can move to abut against the fabric.