CN215325886U

CN215325886U - Hemming cloth inspecting machine

Info

Publication number: CN215325886U
Application number: CN202121695098.9U
Authority: CN
Inventors: 陆雁彬
Original assignee: Jiangyin Hengyu Network Industry Co ltd
Current assignee: Jiangyin Hengyu Network Industry Co ltd
Priority date: 2021-07-23
Filing date: 2021-07-23
Publication date: 2021-12-28
Anticipated expiration: 2031-07-23

Abstract

The utility model relates to a hemming and cloth inspecting machine which comprises two frames, a cloth inspecting plate, a shading shell, a meter counting device, a winding device, a deviation rectifying device and an unwinding device, wherein the frame is provided with a frame; the cloth inspecting plate comprises a curtain, a first guide roller and a second guide roller, the winding device comprises a fixing device, a winding roller, two belt rollers and a first tightening roller, and the fixing device comprises a second cross rod, two fixing plates, two connecting parts, a screw and two connecting rods; the deviation correcting device comprises a moving frame, an opposite side sensor, a pulley and a slide rail; the unwinding device comprises a fixing part, a roll shaft, a winding roll and a second tightening roll, wherein the fixing part comprises two bases, a fixing rod and a bearing part. The utility model has the advantages that: the mesh cloth can be more stably unreeled, and the distance between the bases and the distance between the reeling roller and the cloth inspecting machine can be adjusted according to the width of the mesh cloth; the combination of the curtain and the illuminating lamp can enhance the visual effect and improve the cloth inspecting efficiency; the winding device is provided with a deviation correcting device and a meter counting device, and the cloth winding quality is improved.

Description

Hemming cloth inspecting machine

Technical Field

The utility model relates to the technical field of cloth inspecting machines, in particular to a cloth inspecting machine with a winding function.

Background

In the mesh manufacturing process, various defects such as holes, stains and the like are inevitably generated, so that the mesh manufactured needs to be inspected by a cloth inspecting machine, and the defects in the mesh are found out through manual visual inspection. Generally, the cloth is unreeled again on the cloth inspection machine, is rolled out, and inspection personnel stand the flaw on the inspection cloth before the cloth, and long-time inspection work can bring visual fatigue for inspection personnel, appears lou examining the phenomenon easily. In addition, the screen cloth that accomplishes the inspection needs to be rolled up again, and the screen cloth unreels, the transmission in-process of checking cloth, and the skew of position can appear, causes the problem of rolling unevenness easily.

In order to improve perching efficiency and improve the cloth rolling problem once more, the utility model patent of china: a cloth inspecting and edge cutting machine (publication number: CN 210162834U) with a winding function discloses a cloth inspecting and edge cutting machine with a winding function, wherein a second rotating motor is controlled to operate to drive a movable roller to rotate, the movable roller rotates to drive a second rotating roller to rotate, the second rotating roller rotates to enable a first rotating roller at the top of the second rotating roller to rotate to the bottom of the second rotating roller, a first rotating roller at the bottom of the second rotating roller rotates to the top of the second rotating roller, the purpose that the second group of first rotating rollers are rapidly replaced after the first group of first rotating rollers are fully loaded is achieved, and the problem that the processing time is prolonged due to frequent replacement of rollers is solved.

Above-mentioned scheme has solved the cloth rolling problem to a certain extent, has reduced operating time, has improved perching efficiency, however, how further to reduce the phenomenon of lou examining, improves screen cloth rolling quality scheduling problem and still remains to be solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a hemming cloth inspecting machine, which can continuously unfold screen cloth on a cloth inspecting plate for inspection, improve cloth inspecting efficiency, automatically wind the inspected screen cloth and ensure winding smoothness.

In order to achieve the purpose of the utility model, the utility model provides a turned edge cloth inspecting machine which is characterized by comprising two frames, a cloth inspecting plate, a shading shell, a meter counting device, a winding device, a deviation correcting device and an unwinding device;

the cloth inspecting plate comprises a curtain, a first guide roller and a second guide roller, and is clamped at the inner sides of the two racks;

the shading shell is positioned above the cloth inspecting plate, and an illuminating lamp is arranged in the shading shell;

the length metering device comprises length metering wheels, a first cross rod and a display, the first cross rod is clamped and fixed on the inner sides of the two racks and is close to the cloth inspecting plate, the length metering wheels are fixed on the first cross rod, and the display is installed on the shading shell;

the winding device comprises a fixing device, a winding roller, two belt rollers and a first tightening roller, the fixing device comprises a second cross rod, two fixing plates, two connecting parts, screws and two connecting rods, the second cross rod is clamped and fixed on the inner side of the rack, the connecting parts penetrate through the second cross rod, the connecting rods are respectively fixed on the two connecting parts through the screws, and the two fixing plates are respectively welded on the two connecting rods;

the deviation correcting device comprises a moving frame, an opposite side sensor, a pulley and a slide rail; the two belt rollers and the first tightening roller are clamped and fixed on the movable frame, and the first tightening roller is positioned below the two belt rollers; the winding roller is positioned between the two belt rollers, the second cross rod is close to the belt rollers, the two connecting rods are positioned above the two belt rollers and positioned at two sides of the winding roller, and the two fixing plates are positioned above the gap between the two belt rollers; the opposite side sensor is fixed on one side of the moving frame and is positioned below the second guide roller; the sliding rail is arranged on the ground, four pulleys are fixed at the bottom of the moving frame, and the pulleys are positioned on the sliding rail;

the unwinding device comprises a fixing part, a roll shaft, a winding roll and a second tightening roll, wherein the fixing part comprises two bases, fixing rods and bearing parts, the two bases are placed on the bottom surface, the fixing rods are welded at the vertical positions of the two bases, the two bearing parts are welded at the top ends of the two fixing rods respectively, the bearing parts are tubular, a mounting groove is formed in a gap between the two adjacent bearing parts, the roll shaft is detachably arranged on the mounting groove, and the winding roll is detachably sleeved on the roll shaft; and the second tightening roller is clamped and fixed on the inner side of the rack and is positioned between the first guide roller and the roller shaft.

Preferably, the screw is a thumb screw.

Preferably, the cloth inspecting plate is an inclined plane cloth inspecting plate.

Preferably, the meter wheel is a double-wheel meter wheel.

Preferably, the metering wheel is a rubber metering wheel.

Preferably, the roller shaft is a solid roller shaft.

As a further improvement of the utility model, the first cross rod is provided with a through hole.

As a further improvement of the utility model, the bottom of fixed plate is the closed angle, the size of closed angle and two the size adaptation at the clearance position of taking the roller.

According to the hemming cloth inspecting machine, the screen cloth wound on the winding roller is transmitted to the cloth inspecting plate through the first guide roller, the meter counting device is arranged near the cloth inspecting plate, the number of cloth inspecting meters can be monitored in real time, and the meter counting device is displayed through the display; the checked mesh is transmitted to a first tightening roller through a second guide roller, the tightening roller tightens the mesh and transmits the mesh to a winding roller, the winding roller is arranged between two belt rollers, and the two belt rollers drive the winding roller to wind the mesh; the fixing devices fixed on the two sides of the winding roller limit the displacement of the winding roller, and the winding is prevented from being influenced by the fact that the winding roller moves back and forth between the belt rollers in the rotating process; a deviation correcting device is arranged on the winding device, the movement of the moving frame can be controlled according to the deviation position of the mesh cloth monitored by the opposite side sensor, and the position of the winding roller is automatically adjusted to ensure the uniformity of winding of the mesh cloth.

Compared with the prior art, the hemming and cloth inspecting machine has the advantages that:

(1) the mesh cloth can be more stably unreeled, and the distance between the bases and the distance between the reeling roller and the cloth inspecting machine can be adjusted according to the width of the mesh cloth;

(2) the combination of the curtain and the illuminating lamp can enhance the visual effect and improve the cloth inspecting efficiency;

(3) the winding device is provided with a deviation correcting device and a meter counting device, and the cloth winding quality is improved.

Drawings

FIG. 1 is a schematic structural view of a hemming cloth inspecting machine;

FIG. 2 is a schematic structural view of a hemming cloth inspecting machine;

FIG. 3 is a schematic view of a winding device;

FIG. 4 is a schematic diagram of an opposite edge sensor configuration;

FIG. 5 is a schematic structural view of a hemming cloth inspecting machine;

fig. 6 is a schematic structural diagram of the unwinding device.

Detailed Description

The utility model is further described below with reference to the following figures and specific examples.

As shown in fig. 1, the hemming and cloth inspecting machine of the present invention comprises two frames 1, a cloth inspecting plate 2, a light shielding shell 3, a meter counting device 4, a winding device 5, a deviation rectifying device 6, and an unwinding device 7;

as shown in fig. 2 and 5, the perching sheet 2 comprises a curtain 21, a first guide roller 22 and a second guide roller 23, and the perching sheet 2 is clamped between the two frames 1; the shading shell 3 is positioned above the cloth inspecting plate 2, and an illuminating lamp 31 is arranged in the shading shell 3; the metering device 4 comprises a metering wheel 41, a first cross rod 42 and a display 43, the first cross rod 42 is clamped and fixed at the inner sides of the two racks 1 and is close to the cloth inspecting plate 2, the metering wheel 41 is arranged on the first cross rod 42, and the display 43 is arranged on the shading shell 3;

as shown in fig. 3, the winding device 5 includes a fixing device 51, a winding roller 52, two belt rollers 53, and a first take-up roller 54, the fixing device 51 includes a second cross bar 511, two fixing plates 512, two connecting members 513, screws 514, and two connecting rods 515, the second cross bar 511 is clamped and fixed inside the two racks 1, the two connecting members 513 pass through the second cross bar 511, the two connecting rods 515 are respectively fixed on the two connecting members 513 through the screws 514, the two fixing plates 512 are respectively welded on the two connecting rods 515, the screws 514 are preferably butterfly screws, and the connecting members 513 can be moved by manually twisting the screws 514 according to the length of the winding roller 52, so as to adjust the distance between the two fixing plates 512;

the deviation correcting device 6 comprises a moving frame 61, an opposite side sensor 62, a pulley 63 and a slide rail 64; the two belt rollers 53 and the first tightening roller 54 are clamped and fixed on the moving frame 61, and the first tightening roller 54 is positioned below the two belt rollers 53; the winding roller 52 is positioned between the two belt rollers 53, the second cross bar 511 is close to the belt rollers 53, the two connecting rods 515 are positioned above the two belt rollers 53 and positioned at two sides of the winding roller 52, and the two fixing plates 512 are positioned above the gap between the two belt rollers 53; as shown in fig. 4, the opposite side sensor 62 is fixed to one side of the moving frame 61 and is located at a position below the second guide roller 23; the sliding rail 64 is arranged on the ground, four pulleys 63 are fixed at the bottom of the moving frame 61, and the pulleys 63 are positioned on the sliding rail 64;

as shown in fig. 5 and 6, the unwinding device 7 includes a fixing component 71, a roller shaft 72, a winding roller 73, and a second take-up roller 74, the fixing component 71 includes two bases 711, fixing rods 712, and receiving components 713, the two bases 711 are placed on the bottom surface, the fixing rods 712 are welded at the vertical positions of the two bases 711, the two receiving components 713 are welded at the top ends of the two fixing rods 712, the receiving components 713 are tubular, a space between two adjacent receiving components 713 forms a placement groove, the roller shaft 72 is detachably placed on the placement groove, and the winding roller 73 is detachably sleeved on the roller shaft 72; the second take-up roller 74 is fixed to the inside of the frame 1 so as to be sandwiched between the first guide roller 22 and the roller shaft 72.

In this embodiment, the screen cloth rolling that waits to inspect is on winding up roller 73, and winding up roller 73 detachably overlaps on roller 72, waits that the screen cloth unreels and finishes, can take off winding up roller 72 from roller 73 at any time, and the screen cloth of convenient renewal. The bearing part 713 is tubular, two adjacent bearing parts 713 form an arrangement groove, and the roller shaft 72 is arranged on the arrangement groove, so that the roller shaft 72 can conveniently rotate to unreel the mesh cloth; the fixed rod 712 is welded on the base 711, has a certain height, and cooperates with the bearing part 713 to lift the roller 73, so that the mesh cloth is prevented from directly contacting the ground. When the cloth inspection is started, the winding roller 73 sleeved on the roller shaft 72 rolls to pay out the mesh cloth, the mesh cloth is transmitted to the first guide roller 22 through the second tightening roller 74, and the second tightening roller 74 can keep the conveyed mesh cloth tight and can also play a role in guiding. The roller 72 is preferably a solid roller, which increases the weight and prevents the winding roller 73 from rotating too fast and the associated roller 72 from falling off the receiving part 713. In addition, the base 711 can be flexibly moved on the ground to adjust the distance between the winding roller 73 and the second take-up roller 74, and the distance between the two bases 711 can also be adjusted according to the length of the winding roller 73.

First guide roll 22 passes through the screen cloth and drives the winding up roller 73 and rotate, continuously transports the screen cloth to cloth inspection board 2 on, and cloth inspection board 2 is preferred to be the inclined plane cloth inspection board, and the screen cloth is in the inclined plane position, is fit for the inspection personnel more and observes, can arrange the curtain 21 of different colours according to the colour of the screen cloth of examining, and the use of cooperation light 31 effectively improves visual effect, makes things convenient for the inspection personnel to see the flaw of screen cloth more clearly. Install shading shell 3 in the top position of perching board 2, can assemble the light of light 31 on perching board 2, strengthen the light effect of light 31.

A meter counting device 4 is arranged in front of the cloth inspecting plate 2, the mesh drives a meter counting wheel 41 to rotate, so that the number of the transmitted mesh is measured, and the meter counting wheel 41 is preferably a double-wheel meter counting wheel, so that the meter counting is more stable; the metering wheel 41 is preferably a rubber wheel, which is wear resistant while avoiding damage to the mesh. The display 43 is mounted on the top of the shading shell 3, and the appropriate height position can facilitate the inspector to clearly check the cloth count. The first cross rod 42 is provided with a through hole 421, so that an electric wire connecting the display 43 and the metering wheel 41 can be fixed in the first cross rod 42 through the through hole 421, and the electric wire is prevented from being exposed to influence cloth inspection work.

The checked mesh needs to be rolled up again, the mesh is transmitted to the first take-up roller 54 from the second guide roller 23 of the cloth inspecting plate 2 and then transmitted to the wind-up roller 52 through the first take-up roller 54, the mesh is tightened by the first take-up roller 54 and guided to the wind-up roller 52, the motor drives the two belt rollers 53 to rotate, the wind-up roller 52 is placed on the two belt rollers 53, and the belt rollers 53 drive the wind-up roller 52 to rotate, so that the mesh is rolled up. The two fixing plates 512 are both positioned above the gap between the two belt rollers 53, and the wind-up roller 52 is positioned between the two fixing plates 512, so that the wind-up roller 51 is prevented from moving back and forth on the two belt rollers 53 in the rolling process to influence the wind-up; the bottom of the fixing plate 512 is sharp-angled, and the sharp-angled shape can be matched with the gap position of the two belt rollers 53, so that the fixing function of the winding roller 52 can be realized even if the diameter of the selected winding roller 52 is very small.

Fixing device 51 in this embodiment's the effect of rectifying is limited, only accomplish to avoid wind-up roll 52 to appear displacement on a large scale, in order to guarantee the neat of screen cloth rolling, deviation correcting device can be add, opposite side sensor 62 is located second guide roll 23 below, screen cloth edge through second guide roll 23 transmission to first take-up roll 54 passes through opposite side sensor 62, opposite side sensor 62 senses behind the position deviation appears in the screen cloth, through the removal of control pulley 63 on slide rail 64, adjust the position of removal frame 61, thereby adjust the position of wind-up roll 52 on band roller 53, with the skew that the adaptation screen cloth takes place, guarantee the neat of rolling, whole deviation correcting process utilizes the response of opposite side sensor 62, can the displacement of automatically regulated wind-up roll 52, need not manual regulation.

The kinetic energy for rotating the first guide roller 22, the second guide roller 23, and the two belt rollers 53 in this embodiment is provided by a motor.

According to the hemming cloth inspecting machine, the screen cloth wound on the winding roller 73 is transmitted to the cloth inspecting plate 2 through the first guide roller 22, the metering device 4 is arranged near the cloth inspecting plate 2, the number of cloth inspecting meters can be monitored in real time, and the display is used for displaying; the inspected mesh is transmitted to the first tightening roller 54 through the second guide roller 23, the tightening roller 54 tightens the mesh and transmits the mesh to the winding roller 52, the winding roller 52 is arranged between the two belt rollers 53, and the two belt rollers 53 drive the winding roller 52 to wind the mesh; the fixing devices 51 fixed on the two sides of the winding roller 52 limit the displacement of the winding roller 52 and prevent the winding roller from being influenced by the back and forth movement between the belt rollers 53 in the rotating process; the deviation correcting device 6 is arranged on the winding device 5, and can control the movement of the moving frame 61 and automatically adjust the position of the winding roller 52 according to the deviation position of the mesh monitored by the opposite side sensor 62 so as to ensure the uniformity of winding of the mesh.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims

1. The hemming cloth inspecting machine is characterized by comprising two frames, a cloth inspecting plate, a shading shell, a meter counting device, a winding device, a deviation correcting device and an unwinding device;

2. The edge curling cloth inspecting machine according to claim 1, wherein said screws are thumb screws.

3. The edge curling cloth inspecting machine according to claim 1, wherein said cloth inspecting plate is a bevel cloth inspecting plate.

4. The edge curling cloth inspecting machine according to claim 1, wherein said meter wheel is a two-wheel meter wheel.

5. The edge curling cloth inspecting machine according to claim 1, wherein said metering wheel is a rubber metering wheel.

6. The edge hemming and cloth inspecting machine of claim 1 wherein the roller is a solid roller.

7. The edge hemming and cloth inspecting machine according to claim 1 wherein the first cross bar is provided with a through hole.

8. The edge curling cloth inspecting machine according to claim 1, wherein the bottom of said fixed plate is pointed, and the size of said pointed corner is adapted to the size of the gap portion between two said belt rollers.