CN115012201B - Embroidery silk cloth inspecting machine - Google Patents

Abstract

The invention provides an embroidery silk cloth inspecting machine, which relates to the field of weaving equipment and comprises a frame, wherein the rear end of the frame is connected with a cloth roller, a fabric body is wound on the cloth roller, the top of the frame is connected with a working panel, the rear end of the working panel is inclined upwards by 45 degrees, the front end of the frame is connected with a winding roller below the working panel, the center of the top of the working panel is connected with an arch plate, and the rear side of the arch plate is connected with a probe. The embroidery silk cloth inspecting machine is provided with a working panel, a winding roller, a positioning block and steel wires, wherein the steel wires are slowly wound by the rotation of the winding roller, so that the front end of the positioning block carrying the fabric moves. So that the visual detection module can completely detect the cloth. Glue is smeared on the edge of the fabric through the shaping assembly, and then the edge is beaten and dried by means of the shaping block and the abutting rod, so that the glue on the edge of the fabric is dry and hard and is caked, the edge is kept to be horizontal all the time, and the edge of the fabric is prevented from being reversely rolled and overlapped.

Description

Embroidery silk cloth inspecting machine

Technical Field

The invention relates to the technical field of weaving equipment, in particular to an embroidery silk cloth inspecting machine.

Background

Embroidery is a generic term for various decorative patterns embroidered on fabrics by stitches. The silk thread or other fiber and yarn is punctured on the embroidery material with a certain pattern and color by using a needle, so that the embroidery trace forms the decorative fabric with patterns. Silk, a textile, is woven from silk or synthetic fibers, rayon, staple, and the like.

The detection of silk fabric is needed before embroidery on silk, at present, intelligent cloth inspecting machines for inspecting cloth by machine vision are mainly used in the market, and flaws on cloth are detected by a visual detection mechanism. The intelligent cloth inspecting machine is generally mainly composed of an unreeling mechanism, a visual detection mechanism and a reeling mechanism, wherein before the equipment is started, the head end of cloth on the unreeling mechanism is pulled out manually and fixed on the reeling mechanism, and then the equipment is started again for inspecting cloth.

The traditional intelligent cloth inspection machine has the following defects: the piece of cloth drawn from the unreeling mechanism to the reeling mechanism by manpower cannot be evenly and smoothly detected by the visual detection mechanism, so that whether flaws exist on the piece of cloth cannot be known.

And silk itself has the problem of easy wrinkling and deformation. The edge of the two sides is easy to be rewound in the silk moving process, and the phenomenon of wrinkling or overlapping edges is caused.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides an embroidery silk cloth inspecting machine, which solves the problems in the background art.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides an embroidery silk cloth inspection machine, includes the frame, the frame rear end is connected with the yardage roll, winds on the yardage roll and has the surface fabric body, and the frame top is connected with work panel, and work panel rear end tilt up 45, frame front end just are located work panel below and are connected with the wind-up roll, and work panel top centre department is connected with the arch bar, and the arch bar rear side is connected with the probe, and the arch bar bottom is connected with detection module, and the surface fabric body passes the arch bar below and winds on the wind-up roll, and surface fabric body front end bilateral symmetry is equipped with the locating piece, and locating piece connection has the steel wire, and the steel wire is connected with the wind-up roll shaft. The top of the working panel is provided with a groove, and the positioning block slides in the groove.

The fabric edge pressing and shaping device comprises a working panel, and is characterized by further comprising two shaping assemblies, wherein the two shaping assemblies are symmetrically arranged at the rear end of the working panel, the edge of the fabric body passes through the shaping assemblies, and the shaping assemblies are used for pressing and shaping the edge of the fabric body.

Preferably, the working panel is provided with a through groove, the through groove is positioned under the arched plate, the left side and the right side of the through groove are symmetrically connected with a shaping block, one end of the shaping block extends out of the working panel and is connected with a gas pipe, the other end of the shaping block is provided with a plurality of upward bent extending ends, the shaping block is provided with a plurality of gas flow grooves, the gas flow grooves are in one-to-one correspondence with the extending ends, the extending ends are provided with through sliding grooves, the sliding grooves are vertically upward, the sliding grooves are in sliding fit with supporting rods, the upper parts of the extending ends are provided with abutting rods, and the lower ends of the abutting rods extend into the gas flow grooves and are connected with the supporting rods.

Preferably, the shaping assembly comprises a support, a rubber injection pipe and an arc-shaped pressing piece, wherein the support is connected with the working panel, a motor is arranged on the support, the upper end of the support is pivoted with the rubber injection pipe, one end of the rubber injection pipe is sealed and connected with a motor transmission shaft, the other end of the rubber injection pipe is communicated with a rubber injection device, a plurality of arc-shaped pressing pieces are communicated with a rubber injection pipe body around an axis, the arc-shaped pressing pieces are hollow, and a leak hole is formed in one side of the arc-shaped pressing piece, which faces outwards.

Preferably, the fabric body edge is through the shaping subassembly, and the motor drives the glue injection pipe and rotates, makes the arc preforming be close to towards fabric body edge, and the arc preforming extrudees fabric body edge and glue flows out from the leak simultaneously for glue is smeared in fabric body edge department, fabric body edge carries glue to the shaping piece extension top, makes glue dry and hard caking through the shaping piece processing, makes fabric body edge keep in the horizontality.

Preferably, the arch bar bottom just is located and is connected with the electricity push rod directly over the shaping piece, and the electricity push rod lower extreme is connected with the diaphragm, supports the feeler lever and can touch with the diaphragm.

Preferably, a sliding block is arranged below the positioning block, the sliding block is connected with a screw rod, the upper end of the screw rod penetrates through the positioning block and is connected with a nut in a threaded manner, a light emitter is arranged at the top of the positioning block, a contact pin is arranged at the lower end of the light emitter, the contact pin penetrates through the positioning block, a small spring is sleeved on the rod body of the screw rod and is positioned between the positioning block and the sliding block, the positioning block is connected with a steel wire, and the sliding block slides in a groove.

Preferably, the cloth rolling machine further comprises a pressing rod, wherein the lower end of the pressing rod is pivoted with the frame, the upper end of the pressing rod is abutted against the cloth rolling roller, the rod body of the pressing rod is connected with a large spring, the lower part of the rear end of the working panel is connected with a pressure detector, and the large spring is connected with the working end of the pressure detector.

Preferably, a glass plate and a fluorescent lamp are arranged in the through groove, and the fluorescent lamp is positioned below the glass plate.

Preferably, the chute has been seted up to the frame front end, and the wind-up roll tip is placed in the chute, and wind-up roll end connection has the gear wheel, and the frame is connected with the motor, and the motor transmission shaft is connected with the pinion, and pinion and gear wheel meshing, frame threaded connection have the inserted bar, and the inserted bar is with wind-up roll tip restriction in the chute.

(III) beneficial effects

The invention provides an embroidery silk cloth inspecting machine. The beneficial effects are as follows:

1. the embroidery silk cloth inspecting machine is provided with a working panel, a winding roller, a positioning block and steel wires, wherein the steel wires are slowly wound by the rotation of the winding roller, so that the front end of the positioning block carrying the fabric moves. So that the visual detection module can completely detect the cloth. Glue is smeared on the edge of the fabric through the shaping assembly, and then the edge is beaten and dried by means of the shaping block and the abutting rod, so that the glue on the edge of the fabric is dry and hard and is caked, the edge is kept to be horizontal all the time, and the edge of the fabric is prevented from being reversely rolled and overlapped.

Drawings

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is an enlarged view of the structure of FIG. 1A according to the present invention;

FIG. 3 is an illustration of the arch plate structure of the present invention;

FIG. 4 is a schematic representation of the construction of the work panel of the present invention;

FIG. 5 is a schematic view of the structure of the shaping block according to the present invention;

FIG. 6 is a schematic view of the shaping assembly of the present invention;

FIG. 7 is a schematic view of the positioning block structure of the present invention;

FIG. 8 is another angular schematic view of the structure of the present invention;

FIG. 9 is a schematic view of a partial structure of a frame according to the present invention;

fig. 10 is a schematic view of the operation of the present invention in a partial structure.

In the figure: 1 frame, 11 motor, 12 pinion, 13 inserted link, 14 gas-supply pipe, 2 yardage rolls, 21 surface fabric body, 3 working panel, 31 through groove, 32 glass board, 33 fluorescent lamp, 34 pressure detector, 4 arched plate, 41 probe, 42 detection module, 43 electric push rod, 44 diaphragm, 5 locating block, 51 slider, 52 screw rod, 53 little spring, 54 nut, 55 illuminator, 56 steel wire, 6 wind-up roll, 61 gear, 7 shaping block, 71 air flow groove, 72 spout, 73 branch, 74 contact rod, 8 shaping assembly, 81 injecting tube, 82 arc pressing sheet, 83 leak orifice, 9 groove, 10 pressure lever, 101 big spring.

Detailed Description

The embodiment of the invention provides an embroidery silk cloth inspecting machine, which is shown in figures 1-10, and comprises a frame 1, wherein a cloth roller 2 is fixedly arranged at the rear end of the frame 1, and a fabric body 21 is wound on the cloth roller 2. The top of the frame 1 is fixedly provided with a working panel 3, and the rear end of the working panel 3 is inclined upwards by 45 degrees.

A wind-up roll 6 is arranged at the front end of the frame 1 and below the working panel 3. An arch board 4 is fixedly arranged at the center of the top of the working panel 3. The rear side of the arch plate 4 is fixedly provided with a probe 41, the bottom of the arch plate 4 is fixedly provided with a detection module 42, and the fabric body 21 passes through the lower part of the arch plate 4 and is wound on the winding roller 6.

The top of the working panel 3 is provided with a groove 9, and the positioning block 5 slides in the groove 9.

The two sides of the front end of the fabric body 21 are symmetrically provided with positioning blocks 5. The positioning block 5 is welded with a steel wire 56, and the steel wire 56 is welded with the rod body of the wind-up roll 6.

In operation, the front end of the fabric body 21 is fixed by the positioning block 5. Then, the wind-up roller 6 rotates slowly to wind the steel wire, and the steel wire pulls the positioning block 5, so that the fabric body 21 is slowly driven to move. The positioning block 5 carries the fabric body 21 to pass under the arch plate 4. Thereby solving the following problems: the piece of cloth manually pulled from the unreeling mechanism to the reeling mechanism cannot be detected by the visual detection mechanism, so that whether the piece of cloth has flaws or not cannot be known.

The fabric body is characterized by further comprising two shaping assemblies 8, wherein the two shaping assemblies 8 are symmetrically arranged at the rear end of the working panel 3, the edges of the fabric body 21 pass through the shaping assemblies 8, and the shaping assemblies 8 are used for shaping the edges of the fabric body 21 in an extrusion mode.

The working panel 3 is provided with a through groove 31, and the through groove 31 is positioned right below the arch plate 4. The shaping block 7 is symmetrically and fixedly arranged on the left side and the right side in the through groove 31, one end of the shaping block 7 extends out of the working panel 3, and the gas pipe 14 is welded and communicated with the shaping block. The other end of the shaping block 7 is provided with a plurality of extending ends which are bent upwards, the shaping block 7 is provided with a plurality of through air flow grooves 71, and the air flow grooves 71 are in one-to-one correspondence with the extending ends.

The extending end of the shaping block 7 is provided with a through chute 72, and the chute 72 is vertically upwards. The sliding groove 72 is slidably matched with a supporting rod 73, a contact rod 74 is arranged above the extending end, and the lower end of the contact rod 74 stretches into the air flow groove 71 and is welded with the supporting rod 73. The recess 9 communicates with the through slot 31 such that the extended end of the shaped block 7 extends into the recess 9.

The shaping assembly 8 comprises a bracket, a rubber injection pipe 81 and an arc-shaped pressing piece 82. The bracket is welded with the working panel 3, a motor is fixedly arranged on the bracket, the upper end of the bracket is pivoted with the rubber injection pipe 81, and one end of the rubber injection pipe 81 is sealed and welded with a motor transmission shaft.

The other end of the glue injection pipe 81 is communicated with glue injection equipment. The rod body of the rubber injection pipe 81 is communicated with a plurality of arc-shaped pressing sheets 82 around the axis in a welding way. The inside of the arc-shaped pressing sheet 82 is hollow, and a leak 83 is formed in the outward side of the arc-shaped pressing sheet 82.

The above-mentioned glue injection apparatus is conventional in the art, so specific structures, connection modes, etc. are not described in detail and are not drawn in the drawings.

The electric push rod 43 is fixedly arranged at the bottom of the arch plate 4 and right above the shaping block 7, the transverse plate 44 is welded at the lower end of the electric push rod 43, and the abutting rod 74 can be in contact with the transverse plate 44.

Working principle: the edge of the fabric body 21 passes through the shaping assembly 8, and the motor drives the rubber injection pipe 81 to rotate, so that the arc-shaped pressing piece 82 approaches the edge of the fabric body 21. When the arc-shaped pressing piece 82 rotates to the right under the rubber injection tube 8, the arc-shaped pressing piece 82 is just pressed on the edge of the fabric body 21. At this time, the arcuate pressing piece 82 presses the edge of the dough body 21, and the arcuate pressing piece 82 is slightly deformed during the pressing process, thereby pressing the internal glue out of the weep hole 83. Thereby enabling glue to be applied to the edges of the fabric body 21.

Then, the edge of the fabric body 21 carries glue and moves to above the extending end of the shaping block 7. The extension of the electric push rod 43 lowers the transverse plate 44. The air flow is intermittently sent into the positioning block 7 through the air pipe 14 and is sprayed out from the extending end of the positioning block 7. The strut 73 is pushed to rise in the air flow spraying process, and the strut 73 pushes the contact rod 74 to rise.

The contact rod 74 is made to attach the edge of the fabric body 21 to the cross plate 44 for continuous beating. The edges are kept horizontal and the glue is blown open by the air flow cooperating with the flow. The sizing block 7 is processed to make the glue dry and hard agglomerate and block, so that the edge of the fabric body 21 is kept in a horizontal state.

The flowing air flow can be a hot air flow so as to accelerate the drying and hardening speed of the glue. The arc-shaped pressing piece 82 also plays a role in smoothing and preventing the edge of the fabric body 21 from being reversely rolled upwards. The glue content extruded through slight deformation is low, so that the glue layer is very thin, and the glue has certain viscosity, thereby preventing the edge from sinking.

Even if the edge is slightly submerged, the edge is urged to carry the glue portion against the cross plate 44 by the constant upward flapping of the abutment bar 74. The effect of preventing the edge from sinking is achieved.

A sliding block 51 is arranged below the positioning block 5, a screw rod 52 is welded on the sliding block 51, and the upper end of the screw rod 52 penetrates through the positioning block 5 and is in threaded connection with a nut 54. The top of the positioning block 5 is fixedly provided with a light emitter 55, the lower end of the light emitter 55 is provided with a contact pin, the contact pin penetrates through the positioning block 5, a small spring 53 is sleeved on the rod body of the screw 52, and the small spring 53 is positioned between the positioning block 5 and the sliding block 51. The positioning block 5 is welded with the steel wire 56, and the sliding block 51 slides in the groove 9.

The slider 51 and the positioning block 5 are matched to clamp the front end of the fabric body 21, and the contact pins at the bottom of the light emitter 55 penetrate through the fabric body 21, so that the clamping effect is improved.

The whole device is also fixedly provided with a control module which is similar to a singlechip. The control module is used for controlling other electronic parts to work. Because the control module is a conventional technical means, the specific structure and model are not described in detail.

When the positioning block 5 works, when the positioning block 5 receives the traction of the steel wire 56 and slides along the groove 9, the illuminator 55 passes through the position right below the probe 41, and at the moment, the probe 41 captures a light source signal and feeds the light source signal back to the control module. The control module controls other electronic parts to work and detects the fabric.

Referring to fig. 10, the black area indicates the glue application area. The depilating area extends outside the recess 9 due to the glue. So that the glue coating formed after the glue has been dried and hardened is partly overlapped on the work panel 3. The sagging of the edges of the fabric body 21 is prevented by means of the glue coating.

The cloth rolling machine further comprises a pressing rod 10, the lower end of the pressing rod 10 is pivoted with the frame 1, the upper end of the pressing rod 10 is abutted against the cloth rolling roller 2, a large spring 101 is welded on the rod body of the pressing rod 10, a pressure detector 34 is fixedly installed below the rear end of the working panel 3, and the large spring 101 is welded with the working end of the pressure detector 34.

The pressing rod 10 is lapped on the cloth roller 2, the large spring 101 is extruded, and the pressure value is measured by the pressure detection 34. When all the fabric on the cloth roll 2 is discharged, the measured pressure value is zero. At this time, the surface fabric detection is completed.

The glass plate 32 and the fluorescent lamp 33 are fixedly arranged in the through groove 31, and the fluorescent lamp 33 is positioned below the glass plate 32. Fluorescent lamps 33 are used to check the integrity of the fabric to see if a leak exists in the fabric. If a leak exists, the light of the fluorescent lamp 33 is emitted through the leak.

Referring to fig. 9, a chute is formed in the front end of the frame 1, the end of the wind-up roll 6 is placed in the chute, a large gear 61 is welded at the end of the wind-up roll 6, a motor 11 is fixedly installed on the frame 1, a pinion 12 is welded on a transmission shaft of the motor 11, the pinion 12 is meshed with the large gear 61, a plug rod 13 is connected with the frame 1 in a threaded manner, and the plug rod 13 limits the end of the wind-up roll 6 in the chute.

In summary, the embroidery silk cloth inspecting machine is provided with the working panel 3, the winding roller 6, the positioning block 5 and the steel wire 56, and the winding roller 6 rotates to slowly wind the steel wire 56, so that the front end of the positioning block 5 carrying the fabric moves. So that the visual detection module can completely detect the cloth. Glue is smeared on the edge of the fabric through the shaping assembly 8, and then the edge is beaten and dried by means of the shaping block 7 and the abutting rod 74, so that the glue on the edge of the fabric is dry and hard to be caked, the edge is kept horizontal all the time, and the phenomenon of edge rewinding and edge overlapping of the fabric is avoided.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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. An embroidery silk cloth inspecting machine, which is characterized in that: the novel fabric winding machine comprises a frame (1), wherein the rear end of the frame (1) is connected with a fabric winding roller (2), a fabric body (21) is wound on the fabric winding roller (2), the top of the frame (1) is connected with a working panel (3), the rear end of the working panel (3) is inclined upwards by 45 degrees, the front end of the frame (1) is positioned below the working panel (3) and is connected with a winding roller (6), the right-center position of the top of the working panel (3) is connected with an arch plate (4), the rear side of the arch plate (4) is connected with a probe (41), the bottom of the arch plate (4) is connected with a detection module (42), the fabric body (21) passes through the lower side of the arch plate (4) and is wound on the winding roller (6), positioning blocks (5) are symmetrically arranged on two sides of the front end of the fabric body (21), the positioning blocks (5) are connected with steel wires (56), the steel wires (56) are connected with the rod body of the winding roller (6), the top of the working panel (3) is provided with a groove (9), and the positioning blocks (5) slide in the groove (9);

the fabric shaping device further comprises two shaping assemblies (8), wherein the two shaping assemblies (8) are symmetrically arranged at the rear end of the working panel (3), the edges of the fabric body (21) pass through the shaping assemblies (8), and the shaping assemblies (8) are used for shaping the edges of the fabric body (21) in an extrusion mode;

the working panel (3) is provided with a through groove (31), the through groove (31) is positioned under the arch plate (4), the left side and the right side in the through groove (31) are symmetrically connected with a shaping block (7), one end of the shaping block (7) extends out of the working panel (3) and is connected with a gas pipe (14), the other end of the shaping block (7) is provided with a plurality of extending ends which are bent upwards, the shaping block (7) is provided with a plurality of gas flow grooves (71), the gas flow grooves (71) are in one-to-one correspondence with the extending ends, the extending ends are provided with through sliding grooves (72), the sliding grooves (72) are vertically upwards, the supporting rods (73) are in sliding fit with the sliding grooves (72), the upper parts of the extending ends are provided with abutting rods (74), and the lower ends of the abutting rods (74) extend into the gas flow grooves (71) and are connected with the supporting rods (73);

the shaping assembly (8) comprises a support, a rubber injection pipe (81) and arc-shaped pressing pieces (82), wherein the support is connected with the working panel (3), a motor is arranged on the support, the upper end of the support is pivoted with the rubber injection pipe (81), one end of the rubber injection pipe (81) is sealed and connected with a motor transmission shaft, the other end of the rubber injection pipe (81) is communicated with rubber injection equipment, a plurality of arc-shaped pressing pieces (82) are communicated with a rod body of the rubber injection pipe (81) around an axis, the interior of the arc-shaped pressing pieces (82) is hollow, and a leak (83) is formed in one side of the arc-shaped pressing pieces (82) facing outwards;

the fabric body (21) edge is through design subassembly (8), and the motor drives glue injection pipe (81) and rotates, makes arc preforming (82) be close to towards fabric body (21) edge, and arc preforming (82) extrude fabric body (21) edge while glue flows from leak (83) for glue is paintd in fabric body (21) edge, fabric body (21) edge carries glue to move to design piece (7) extension top, makes glue dry hard caking through design piece (7) processing, makes fabric body (21) edge keep in the horizontality.

2. An embroidered silk cloth inspection machine according to claim 1, wherein: the arch board (4) bottom just is located and is connected with electric push rod (43) directly over shaping piece (7), and electric push rod (43) lower extreme is connected with diaphragm (44), and conflict pole (74) can touch with diaphragm (44).

3. An embroidered silk cloth inspection machine according to claim 1, wherein: the utility model discloses a novel electric motor car, including locating piece (5), slider (51) are equipped with below locating piece (5), slider (51) are connected with screw rod (52), locating piece (5) are run through to screw rod (52) upper end to threaded connection nut (54), locating piece (5) top is equipped with light emitter (55), and light emitter (55) lower extreme has the contact pin, and the contact pin runs through locating piece (5), and screw rod (52) shaft cover has little spring (53), and little spring (53) are in between locating piece (5) and slider (51), locating piece (5) are connected with steel wire (56), and slider (51) are at recess (9) slip.

4. An embroidered silk cloth inspection machine according to claim 1, wherein: the cloth rolling machine further comprises a pressing rod (10), the lower end of the pressing rod (10) is pivoted with the frame (1), the upper end of the pressing rod (10) is abutted against the cloth rolling roller (2), a large spring (101) is connected to the rod body of the pressing rod (10), a pressure detector (34) is connected to the lower portion of the rear end of the working panel (3), and the large spring (101) is connected with the working end of the pressure detector (34).

5. An embroidered silk cloth inspection machine according to claim 1, wherein: a glass plate (32) and a fluorescent lamp (33) are arranged in the through groove (31), and the fluorescent lamp (33) is positioned below the glass plate (32).

6. An embroidered silk cloth inspection machine according to claim 1, wherein: the novel winding machine is characterized in that the front end of the frame (1) is provided with a chute, the end part of the winding roller (6) is placed in the chute, the end part of the winding roller (6) is connected with a large gear (61), the frame (1) is connected with a motor (11), a transmission shaft of the motor (11) is connected with a small gear (12), the small gear (12) is meshed with the large gear (61), the frame (1) is in threaded connection with an inserting rod (13), and the end part of the winding roller (6) is limited in the chute by the inserting rod (13).