CN110596145B - Automatic change and shine shirt check out test set - Google Patents

Abstract

The invention discloses automatic sweater detection equipment, which comprises a mounting plate, wherein the mounting plate is vertically arranged, a guide rail is arranged on the side surface of the mounting plate, and two flat sweater lamps which are horizontally arranged and can move along the guide rail are arranged on the guide rail; the back of the mounting plate is provided with a first driver for driving the two flat-type sweater lamps to move close to or separate from each other. The distance between the two flat-type sweater lamps is controlled through the first driver, so that the device can be suitable for clothing cloth detection of different sizes. The design of the large-breadth flat type sweater illuminating lamp can enable detection clothes to be unfolded without dead angles, detection is convenient, and detection efficiency is prevented from being influenced by manually moving the clothes.

Description

Automatic change and shine shirt check out test set

Technical Field

The invention relates to a garment flaw detection device, in particular to an automatic sweater detection device.

Background

When the clothing factory is used for sewing clothes and trousers in a large batch, workers operate the sewing equipment to produce the clothes and trousers around the clock, and a small amount of cloth surfaces of finished clothes and trousers can be flawed, so that cloth flaw detection needs to be carried out on the finished clothes and trousers.

The invention patent number 201520916996.0 discloses a sweater lamp, wherein a chassis is fixed on the ground through screws; the shaft is fixed at the center of the chassis; the center of the turntable is provided with a shaft hole, and the turntable is sleeved on the shaft; the lamp bracket is fixed on the turntable, the lamp is positioned on the lamp bracket, and the lampshade covers the lamp. The coat and trousers are sleeved on the lamp shade of the shirt lamp, the lamp shade can effectively spread the coat and trousers, workers can easily see the defects of the coat and trousers by naked eyes, and the problem that customers find the defects of the coat and trousers when the coat and trousers are sold is avoided. However, the shirt lamp needs to be bent down by workers, is easy to work and fatigue, and can not be completely unfolded after being sleeved on a lampshade of the shirt lamp, and can only be manually assisted and turned.

Disclosure of Invention

The invention aims at the current state of the art, and provides an automatic sweater detection device which is convenient for detecting cloth flaws and improves detection efficiency.

The technical scheme adopted for solving the technical problems is as follows: an automatic sweater detection device comprises a mounting plate, wherein the mounting plate is vertically arranged, a guide rail is arranged on the side surface of the mounting plate, and two flat sweater lamps which are horizontally arranged and can move along the guide rail are arranged on the guide rail; the back of the mounting plate is provided with a first driver for driving the two flat-type sweater lamps to move close to or separate from each other. The distance between the two flat-type sweater lamps is controlled through the first driver, so that the device can be suitable for clothing cloth detection of different sizes. The design of the large-breadth flat type sweater illuminating lamp can enable detection clothes to be unfolded without dead angles, detection is convenient, and detection efficiency is prevented from being influenced by manually moving the clothes.

In order to optimize the technical scheme, the invention further comprises the following improved technical scheme.

The mounting plate is rotatably mounted on the base through the first rotating shaft, and the base is provided with a second driver for driving the first rotating shaft to rotate. The second driver can automatically drive the flat type sweater lamp to rotate 180 degrees, 360-degree dead-angle-free detection of clothes is achieved, and detection personnel are facilitated.

The automatic sweater detection equipment comprises a mounting bracket, and the base is rotatably mounted on the mounting bracket through a second rotating shaft. The base, the mounting plate and the flat type sweater lamp can integrally rotate around the second rotating shaft, and have two rotating states. The first rotation state is used for detecting clothes sleeved with the square stool of the flat type sweater-lighting lamp, and the second rotation state is used for standing the flat type sweater-lighting lamp and facilitating storage and placement.

The number of the guide rails is two, and the guide rails are arranged on the side surface of the mounting plate in parallel; two sliding blocks capable of sliding independently are arranged on the guide rail, and the two flat type sweater lamps are respectively arranged on the corresponding sliding blocks.

The thickness of the outer sides of the two flat type sweater lampshades is larger than that of the inner sides. The two flat-type sweater lamps are respectively provided with three-edge round-corner lamp holders, the three-edge round-corner lamp holders are provided with opposite inclined edges, and when the two flat-type sweater lamps are close to be folded, the two inclined edges can be relatively overlapped.

The first driver comprises two independent air cylinders, and the driving rod of each air cylinder is connected with the corresponding sliding block respectively.

The upper side and the lower side of the mounting plate are respectively provided with a rotatable shading device.

The shading device comprises a shading mounting bracket rotationally connected with the mounting plate, wherein the shading mounting bracket is provided with a chute, and a plurality of shading plates capable of sliding are arranged in the chute.

A support arm fixedly connected with the mounting plate is arranged between the two flat type sweater lamps, and a collar hook is arranged at the outer end part of the support arm.

Compared with the prior art, the automatic sweater detection equipment has the advantages that through the design of the large-format flat sweater lamp, the detected clothes can be unfolded without dead angles, the detection is convenient, the influence of the manual movement of the clothes on the detection efficiency is avoided, the distance between the two flat sweater lamps can be automatically controlled, and the automatic sweater detection equipment is suitable for different clothes.

Drawings

FIG. 1 is a schematic view of an embodiment of the present invention in a stowed state.

Fig. 2 is a schematic structural view of an embodiment of the present invention in an operating state.

Fig. 3 is a schematic view of the mounting plate portion of fig. 2.

Fig. 4 is a schematic view of the structure of fig. 3 at another angle.

Fig. 5 is a schematic view of the structure of the unfolded state of two flat-type sweater lamps.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings.

Fig. 1 to 5 are schematic structural views of the present invention.

Wherein the reference numerals are as follows: mounting plate 1, guide rail 11, slider 12, flat type sweater light 2, trilateral fillet lamp stand 21, hypotenuse 22, first driver 23, flat type sweater lamp shade 24, base 3, first pivot 31, second driver 32, mounting bracket 4, second pivot 41, shading mounting bracket 5, light screen 51, arc groove 52, support arm 6, collar hook 61.

The automatic sweater detection equipment comprises a mounting plate 1, wherein the mounting plate 1 is vertically arranged, a guide rail 11 is arranged on the side surface of the mounting plate 1, and two flat type sweater lamps 2 which are horizontally arranged and can move along the guide rail 11 are arranged on the guide rail 11. The back of the mounting plate 1 is provided with a first driver 23 for driving the two flat-type sweater lamps 2 to move close to or separate from each other.

The two flat-type sweater lamps 2 are adopted, so that the lamp has the advantage of large observation surface, and the defects that the area of the lamp source of the existing detection lamp is small and the detection object needs to be repeatedly moved to detect the lamp source are overcome. The first driver 23 can enable the two flat-type sweater lamps 2 to be close to adapt to detection of clothes and cloth of children, and can enable the two flat-type sweater lamps 2 to be far away from an enlarged detection area to adapt to detection of clothes and cloth of adults.

The two flat type sweater lamps 2 are horizontally arranged, and clothes are horizontally sleeved on one side of the flat type sweater lamps 2, so that the operation is convenient. Meanwhile, the installation height of the flat sweater lamp 2 is adapted to the average height of an operator, and the defect that long-time detection is easy to fatigue is avoided.

The mounting plate 1 is rotatably mounted on the base 3 via a first shaft 31, and the base 3 is provided with a second driver 32 for driving the first shaft 31 to rotate. The second driver 32 can make the mounting plate 1 and the two flat lamps 2 rotate 180 degrees integrally through driving the first rotating shaft 31 to rotate, and the clothes sleeved outside the two flat lamps 2 are automatically turned over, so that the two sides of the flat lamps 2 can be rapidly detected, the detection efficiency is improved, and the defect that the back surface of the clothes needs to be turned over in the existing detection mode is avoided.

In this embodiment, the second driver 32 is a motor, and a first synchronizing wheel is mounted on a rotation shaft of the motor. The first rotating shaft 31 is provided with a second synchronizing wheel, and a synchronous belt is arranged between the first synchronizing wheel and the second synchronizing wheel. The second driver 32 drives the mounting plate 1 to rotate 180 degrees through a timing belt transmission mechanism.

The automatic sweater detecting equipment comprises a mounting bracket 4, and the base 3 is rotatably mounted on the mounting bracket 4 through a second rotating shaft 41. Because the two flat-type sweater lamps 2 are horizontally arranged, the occupied space is compared, and when the equipment is not used, the base 3 can rotate 90 degrees around the second rotating shaft 41, so that the two flat-type sweater lamps 2 are erected, and the occupied space is reduced. A locking mechanism is provided between the second rotating shaft 41 and the mounting bracket 4, and can be switched between an operating state and a retracted state.

The number of the guide rails 11 is two, and the guide rails are arranged on the side surface of the mounting plate 1 in parallel. The guide rail 11 is provided with two sliding blocks 12 which can slide independently, and the two flat type sweater lamps 2 are respectively arranged on the corresponding sliding blocks 12.

The two flat-type sweater lamps 2 are respectively provided with three-edge round-corner lamp holders 21, the three-edge round-corner lamp holders 21 are provided with opposite bevel edges 22, and when the two flat-type sweater lamps 2 are close to be folded, the two bevel edges 22 are overlapped relatively. The three-sided fillet lamp holder 21 is provided with a plurality of lamp brackets, the lamp brackets are fixedly provided with lamp bars, and the three-sided fillet lamp holder 21 is fixedly provided with a flat type sweater lampshade 24.

The outer thickness of the two flat sweater shades 24 is greater than the inner thickness. The thickness of the outer side of the flat type sweater shining lamp 2 is large, so that after the detection clothes are sleeved on the two flat type sweater shining lamps 2, the detection clothes can be used for detecting the cloth flaws in 360-degree dead angle-free mode. The thickness of the inner side of the flat type sweater light 2 is smaller, so that the two flat type sweater lights 2 can be folded in a crossing manner.

In this embodiment, the first driver 23 includes two independent air cylinders, and the driving rod of each air cylinder is respectively connected with the corresponding sliding block 12, so that the two flat-type sweater lamps 2 can be driven to move close to or separate from each other.

The upper and lower sides of the mounting plate 1 are respectively provided with a rotatable shading device. The shading device has two rotating states, the first rotating state is covered on the flat sweater lamp 2, and the detected clothes are used for shading in a short time; the second rotation state stows the light shielding function.

The shading device comprises a shading mounting bracket 5 rotationally connected with the mounting plate 1, the shading mounting bracket 5 is provided with a chute, and a plurality of shading plates 51 capable of sliding are arranged in the chute. The plurality of shade plates 51 can be pulled out from the slide grooves in sequence, and the shading area can be adjusted by changing the pulled-out state of the shade plates 51.

The shading mounting bracket 5 is rotatably connected with the mounting plate 1 through a hinge. The shading mounting bracket 5 is also provided with an arc-shaped groove 52 for rotation limitation, and the arc-shaped groove 52 is matched with a connecting pin on the mounting plate 1. The shading installing support 5 can turn down and shade the root of the flat type sweater light 2, so that eyes of a detector can be prevented from being stimulated by light when clothes are too short to cover the whole flat type sweater light 2.

A support arm 6 fixedly connected with the mounting plate 1 is arranged between the two flat type sweater lamps 2, and a collar hook 61 is arranged at the outer end part of the support arm 6. After the clothes are detected, the collar is fixed through the collar hook 61, so that the clothes can be folded and taken out conveniently.

The preferred embodiments of this invention have been described so far that various changes or modifications may be made by one of ordinary skill in the art without departing from the scope of this invention.

Claims (6)

1. An automatic change photograph stand check out test set, includes mounting panel (1), characterized by: the mounting plate (1) is vertically arranged, a guide rail (11) is arranged on the side surface of the mounting plate (1), and two flat type sweater lamps (2) which are horizontally arranged and can move along the guide rail (11) are arranged on the guide rail (11); the back of the mounting plate (1) is provided with a first driver (23) for driving the two flat sweater lamps (2) to move close to or separate from each other; the number of the guide rails (11) is two, and the guide rails are arranged on the side surface of the mounting plate (1) in parallel; two sliding blocks (12) capable of sliding independently are arranged on the guide rail (11), and the two flat type sweater lamps (2) are respectively arranged on the corresponding sliding blocks (12); the thickness of the outer side of the lampshade of the two flat type sweater lamps (2) is larger than that of the inner side of the lampshade; the two flat sweater lamps (2) are respectively provided with three-side round corner lamp holders (21), the three-side round corner lamp holders (21) are provided with opposite bevel edges (22), and when the two flat sweater lamps (2) are close to be folded, the two bevel edges (22) are relatively overlapped; the first driver (23) comprises two independent air cylinders, and the driving rod of each air cylinder is connected with the corresponding sliding block (12) respectively.

2. The automated jersey detection device of claim 1, wherein: the mounting plate (1) is rotatably mounted on the base (3) through a first rotating shaft (31), and the base (3) is provided with a second driver (32) for driving the first rotating shaft (31) to rotate.

3. The automated sweater detection equipment of claim 2, wherein: the device comprises a mounting bracket (4), wherein the base (3) is rotatably mounted on the mounting bracket (4) through a second rotating shaft (41).

4. The automated jersey detection device of claim 1, wherein: the upper side and the lower side of the mounting plate (1) are respectively provided with a rotatable shading device.

5. The automated jersey detection device of claim 4, wherein: the shading device comprises a shading mounting bracket (5) rotationally connected with a mounting plate (1), the shading mounting bracket (5) is provided with a chute, and a plurality of shading plates (51) capable of sliding are arranged in the chute.

6. The automated jersey detection device of claim 1, wherein: a support arm (6) fixedly connected with the mounting plate (1) is arranged between the two flat type sweater lamps (2), and a collar hook (61) is arranged at the outer end part of the support arm (6).