CN112748127A

CN112748127A - Radiation protection surface fabric detection device

Info

Publication number: CN112748127A
Application number: CN202011435641.1A
Authority: CN
Inventors: 袁小红; 王衍; 刘运娟; 曾晨; 梁素贞; 赵莉; 林晓华; 殷薇
Original assignee: Minjiang University
Current assignee: Minjiang University
Priority date: 2020-12-10
Filing date: 2020-12-10
Publication date: 2021-05-04

Abstract

The invention discloses a radiation-proof fabric detection device, which relates to the technical field of fabric detection and comprises a workbench, a feeding mechanism, a detection mechanism and a turnover mechanism, wherein the feeding mechanism is arranged on one side of the workbench, the turnover mechanism is arranged on the other side of the workbench, the detection mechanism is arranged on the workbench, the detection mechanism is positioned between the feeding mechanism and the turnover mechanism, the workbench is provided with a material carrying plate, a limiting plate, a linear hole and a moving chute, the limiting plate is positioned on one side of the detection mechanism and the feeding mechanism, the material carrying plate is positioned in the limiting plate, the linear hole is provided with two linear holes, and the two linear holes are symmetrically positioned below the limiting plate; this application is compared in artifical the detection and has improved work efficiency, has reduced the cost of labor to this application can make the surface fabric overturn, has solved the condition that current equipment need carry out reverse side detection by the material loading again when detecting the tow sides of surface fabric.

Description

Radiation protection surface fabric detection device

Technical Field

The invention relates to the technical field of fabric detection, in particular to a radiation-proof fabric detection device.

Background

Fabric detection: the quality and performance of textile products are tested qualitatively or quantitatively by physical and chemical methods according to relevant standards and detection reports are made. The fabric detection is to use scientific inspection technology and method to evaluate the product quality, analyze and research the components, structures and properties of the product and the influence of the product on the product quality from the use and use conditions of the product, determine the use value of the product, determine whether the product meets the requirements of specified standards, find unqualified products in time, guarantee the quality, maintain the reputation of enterprises, find problems in time, feed back quality information, prompt sellers to correct or improve the product quality, maintain the legal rights and interests of all aspects and the national rights and interests, coordinate contradictions, and prompt the normal operation of commodity exchange activities.

In the prior art, the radiation-proof clothes are mainly made of fabrics and metal fibers to form a metal fiber net shape, and the clothes can be worn after being processed. The fabric has a strong electromagnetic radiation shielding effect, a human body is protected from being damaged by electromagnetic radiation, meanwhile, the texture of clothes is not affected, the radiation protection capability is different at present, when the fabric is detected by the conventional fabric radiation protection capability detection device, only a small amount of fabric can be manually detected, when a large amount of fabric needs to be detected, the manual detection efficiency is low, the surface of the large amount of fabric possibly suffers abrasion or defects in the processing process, the subsequent effect of processing the fabric into the radiation protection clothes is affected, the detection is also needed, however, the fabric has two sides, when the conventional device detects the front side and the back side of the fabric, the fabric needs to be re-loaded for reverse side detection, and the working efficiency is low.

Disclosure of Invention

The embodiment of the invention provides a radiation-proof fabric detection device, which aims to solve the problems that the manual detection efficiency is low in the background technology, and the fabric needs to be fed again during reverse side detection.

The embodiment of the invention adopts the following technical scheme: a radiation-proof fabric detection device comprises a workbench, a feeding mechanism, a detection mechanism and a turnover mechanism, wherein the feeding mechanism is arranged on one side of the workbench, the turnover mechanism is arranged on the other side of the workbench, the detection mechanism is arranged on the workbench, the detection mechanism is arranged between the feeding mechanism and the turnover mechanism, a material carrying plate, a limiting plate, a linear hole and a moving chute are arranged on the workbench, the limiting plate is arranged on one side of the detection mechanism and the feeding mechanism, the material carrying plate is arranged in the limiting plate, the linear hole is provided with two linear holes, the two linear holes are symmetrically arranged below the limiting plate, the moving chute is arranged on one side of the detection mechanism and the turnover mechanism, the two sides of the moving chute are circular, the turnover mechanism comprises a turnover driving part and a turnover clamping part, the turnover driving part is arranged in the workbench, the turnover clamping components are arranged in two groups, the turnover clamping components are symmetrically arranged above the workbench, and the turnover clamping components are arranged on two sides of the movable sliding chute.

Furthermore, feed mechanism includes drive part and moving part, drive part and moving part all set up in the workstation, drive part is located the lateral wall in the workstation, moving part sets up on drive part, moving part's top is passed two style of calligraphy holes and is corresponded with the year flitch.

Further, the driving part comprises a motor base, a first motor, a first driving rod, a first gear, a rack, a toothed block, a second gear and a first fixing rod, the motor base is arranged on the outer side wall of the workbench, the first motor is arranged on the motor base, the output end of the first motor is connected with one end of the first driving rod, the first gear, the rack, the toothed block, the second gear and the first fixing rod are respectively provided with two gears, each gear and the second gear are respectively arranged on two sides of the rack, each gear is fixed on the inner side wall of the workbench through the first fixing rod, the other end of the first driving rod penetrates through the workbench and is connected with the two first gears, and each toothed block is arranged in one rack.

Furthermore, the moving part comprises a connecting bottom plate, limiting rods, a connecting top plate, a second motor, a second driving rod, a gear carrier, a bevel gear set, a threaded rod, a threaded pipe and a limiting moving plate, the connecting bottom plate is arranged between the two tooth blocks and connected with the two tooth blocks, the four limiting rods are symmetrically arranged on the connecting bottom plate in pairs, the connecting top plate is movably arranged on the four limiting rods, the second motor and the gear carrier are both arranged on the connecting bottom plate, the output end of the second motor is connected with the second driving rod, the bevel gear set is arranged in the gear carrier, one end of the second driving rod penetrates through the gear carrier and is connected with one end of the bevel gear set, the threaded rod penetrates through the gear carrier and is connected with the other end of the bevel gear set, the threaded pipe is arranged below the connecting top plate, and the threaded rod is in threaded connection with the threaded pipe, the connecting top plate is connected with the limiting moving plate.

Further, the detection mechanism comprises a detection frame, a radiation detector, a radiation detection connecting rod, a radiation detection head, an image detector, an image detection head, a connecting wire and a display, the detection frame is arranged on the workbench, the radiation detector is arranged above the detection frame, one end of the radiation detection connecting rod is arranged below the radiation detector, the other end of the radiation detection connecting rod is arranged below the detection frame, the radiation detection head is arranged at the other end of the radiation detection connecting rod, the radiation detection head corresponds to the material carrying plate, the image detector is arranged above the detection frame, the image detector is arranged at one side of the radiation detector, one end of the image detection head is connected with one end of the image detector, the other end of the image detection head is arranged below the detection frame, and the other end of the image detection head corresponds to the material carrying plate, the display sets up on the lateral wall of test rack, the one end and the image detector of connecting wire are connected, the other end and the display of connecting wire are connected.

Further, the turnover driving part comprises a protective shell, a third motor, a first fixing plate, a screw rod, a connecting belt, a connecting column, a movable base, a telescopic frame, an electric push rod and a material ejecting disc, the protective shell is arranged at the bottom of the workbench, the third motor, the first fixing plate, the screw rod, the connecting belt and the connecting column are all arranged in the protective shell, the movable base is arranged above the protective shell, the telescopic frame is arranged above the movable base, the electric push rod is arranged in the telescopic frame, the output end of the electric push rod is connected with the material ejecting disc, the material ejecting disc is arranged in the movable sliding chute, the number of the first fixing plates is two, the two first fixing plates are symmetrically arranged in the protective shell, the number of the screw rod is two, the screw rod is symmetrically arranged between the two first fixing plates, two ends of the connecting belt are respectively sleeved on one end of the two screw rods, the spliced pole is equipped with two, two the spliced pole sets up respectively on a lead screw, two the spliced pole all is connected with the removal base.

Furthermore, each group of turnover clamping components comprises a placing frame, a cylinder, a clamping connecting rod, a fourth motor, a rotating frame, a double-rod bidirectional cylinder, two clamp connecting rods and two clamps, wherein the placing frame is arranged on one side of the workbench, the cylinder is arranged on one side of the placing frame, the output end of the cylinder is connected with one end of the clamping connecting rod, the other end of the clamping connecting rod penetrates through the placing frame and is positioned on the other side of the placing frame, the fourth motor is arranged in the clamping connecting rod, the output end of the fourth motor is connected with the rotating frame, the rotating frame is arranged on the clamping connecting rod, the number of the double-rod bidirectional cylinders is two, the two double-rod bidirectional cylinders are symmetrically arranged on one side wall of the rotating frame, the two groups of clamps are symmetrically arranged on the other side wall of the rotating frame, and the two groups of the clamp connecting, every group the one end of anchor clamps connecting rod all is connected with the output of a two-pole two-way cylinder, every group the other end of anchor clamps connecting rod all is connected with a set of anchor clamps, and is two sets of anchor clamps all correspond with the year flitch.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

one of them, this application can accomplish automatic detection through workstation, feed mechanism, detection mechanism and turn-over mechanism's connection cooperation, make the surface fabric carry out detection operation one by one, and can detect whether there is foreign matter or defective phenomenon on the surface fabric, can solve among the prior art that the manual work can only detect a small amount of surface fabric, when needs examine a large amount of surface fabric, artifical detection efficiency ratio is lower, and a large amount of surface fabric probably receives wearing and tearing or defect in the course of working, also can lead to follow-up effect in the processing becomes radiation protection clothes receiving the problem of influence like this.

Secondly, this application is got the cooperation of part through turn-over drive part and turn-over clamp and can be removed the surface fabric that is located detection mechanism below to the opposite side of workstation on to can carry out the turn-over with the surface fabric that is located on the material loading board, remove the surface fabric to detection mechanism's below afterwards and carry out the detection of surface fabric second face, can solve prior art existing equipment and need carry out the reverse side detection by the material loading again when detecting the tow sides of surface fabric among the prior art, the lower problem of work efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a cross-sectional view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic perspective view of the feeding mechanism;

FIG. 4 is a schematic perspective view of the detecting mechanism;

FIG. 5 is a schematic structural view of the tumble drive unit;

FIG. 6 is a schematic view of a portion of the flip drive assembly;

fig. 7 is a schematic structural view of the turning clamp part;

fig. 8 is a partial structural view of the turning clamp unit.

Reference numerals: the radiation detecting device comprises a workbench 1, a material carrying plate 11, a limit plate 12, a linear hole 13, a moving chute 14, a feeding mechanism 2, a driving part 21, a motor base 211, a first motor 212, a first driving rod 213, a first gear 214, a rack 215, a gear block 216, a second gear 217, a first fixed rod 218, a moving part 22, a connecting bottom plate 221, a limit rod 222, a connecting top plate 223, a second motor 224, a second driving rod 225, a gear rack 226, a bevel gear set 227, a threaded rod 228, a threaded pipe 229, a limit moving plate 2210, a detecting mechanism 3, a detecting rack 31, a radiation detector 32, a radiation detecting connecting rod 33, a radiation detecting head 34, an image detector 35, an image detecting head 36, a connecting line 37, a display 38, a turnover mechanism 4, a turnover driving part 41, a protective shell 411, a third motor 412, a first fixed plate 413, a lead screw 414, a

connecting belt

415, 416, a moving base 417, a connecting column, a connecting, The device comprises a telescopic frame 418, an electric push rod 419, a material ejecting disc 4110, a turnover clamping component 42, a placing frame 421, a cylinder 422, a clamping connecting rod 423, a fourth motor 424, a rotating frame 425, a double-rod bidirectional cylinder 426, a clamp connecting rod 427 and a clamp 428.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 8, an embodiment of the invention provides an anti-radiation fabric detection device, which includes a workbench 1, a feeding mechanism 2, a detection mechanism 3 and a turn-over mechanism 4, wherein the feeding mechanism 2 is arranged on one side of the workbench 1, the turn-over mechanism 4 is arranged on the other side of the workbench 1, the detection mechanism 3 is arranged on the workbench 1, the detection mechanism 3 is arranged between the feeding mechanism 2 and the turn-over mechanism 4, the workbench 1 is provided with a material loading plate 11, a limiting plate 12, a linear hole 13 and a moving chute 14, the limiting plate 12 is arranged on one side of the detection mechanism 3 and one side of the feeding mechanism 2, the material loading plate 11 is arranged in the limiting plate 12, the linear holes 13 are provided with two linear holes 13 symmetrically arranged below the limiting plate 12, the moving chute 14 is arranged on one side of the detection mechanism 3 and one side of the turn-over mechanism 4, the two sides of the moving chute 14 are circular, the turnover mechanism 4 comprises turnover driving parts 41 and turnover clamping parts 42, the turnover driving parts 41 are positioned in the workbench 1, the turnover clamping parts 42 are provided with two groups, the two groups of turnover clamping parts 42 are symmetrically arranged above the workbench 1, and the two groups of turnover clamping parts 42 are positioned on the two sides of the moving chute 14; during operation, the fabric is placed on the material carrying plate 11, the material carrying plate 11 is driven by the material feeding mechanism 2 through the two linear holes 13 to move in the limiting plate 12, the material carrying plate 11 is moved to the position below the detection mechanism 3, the fabric is detected through the detection mechanism 3, after the detection is finished, the material carrying plate 11 is driven by the turnover driving part 41 to move to a position between the two turnover clamping parts 42 along a moving slide way, the fabric is turned over through the two turnover clamping parts 42, then the fabric is placed on the material carrying plate 11 and moved to the position below the detection mechanism 3 through the turnover driving part 41, the other side of the fabric is detected through the detection mechanism 3, and after the detection is finished, the fabric is moved to the position of initial feeding through the material feeding mechanism 2 to carry out blanking; can solve among the prior art through foretell connection cooperation and can only detect a small amount of surface fabric through the manual work, when needs detect a large amount of surface fabric, artifical detection efficiency ratio is lower, and a large amount of surface fabric surface probably receives wearing and tearing or defect in the course of working, also can lead to follow-up effect of processing into radiation protection clothes receiving the influence like this, the same needs detect, but the surface fabric has two sides, current equipment need carry out the reverse side to detect by the material loading again when detecting the tow sides of surface fabric, the lower problem of work efficiency.

Specifically, the feeding mechanism 2 comprises a driving part 21 and a moving part 22, the driving part 21 and the moving part 22 are both arranged in the workbench 1, the driving part 21 is positioned on a side wall in the workbench 1, the moving part 22 is arranged on the driving part 21, and the top end of the moving part 22 passes through two linear holes 13 and corresponds to the material carrying plate 11; the moving member 22 can be moved horizontally by the driving member 21, the carrier plate 11 can be driven to move synchronously by the moving member 22, and the carrier plate 11 can be driven to move vertically by the moving member 22.

Specifically, the driving part 21 includes a motor base 211, a first motor 212, a first driving rod 213, a first gear 214, a rack 215, a gear block 216, a second gear 217 and a first fixing rod 218, the motor base 211 is arranged on the outer side wall of the workbench 1, the first motor 212 is arranged on the motor base 211, the output end of the first motor 212 is connected with one end of a first driving rod 213, two first gears 214, two racks 215, two toothed blocks 216, two second gears 217 and two first fixing rods 218 are provided, each of the first gears 214 and the second gears 217 is provided at two sides in one rack 215, each of the second gears 217 is fixed on the inner side wall of the workbench 1 through one first fixing rod 218, the other end of the first driving rod 213 penetrates through the workbench 1 and is connected with two first gears 214, and each gear block 216 is arranged in one gear rack 215; when the operation is performed, the first driving rod 213 can be driven by the first motor 212 to rotate, the first driving rod 213 can drive the two first gears 214 to rotate, the two first gears 214 can respectively drive the two racks 215 to rotate when rotating, the rack 215 can drive the gear block 216 to move, and when the gear block 216 moves in the rack 215, the moving member 22 can be driven to move synchronously.

Specifically, the moving part 22 includes a connecting bottom plate 221, limit rods 222, a connecting top plate 223, a second motor 224, a second driving rod 225, a gear rack 226, a bevel gear set 227, a threaded rod 228, a threaded pipe 229 and a limit moving plate 2210, the connecting bottom plate 221 is disposed between two tooth blocks 216, the connecting bottom plate 221 is connected with two tooth blocks 216, the limit rods 222 are four, the four limit rods 222 are symmetrically disposed on the connecting bottom plate 221 in pairs, the connecting top plate 223 is movably disposed on the four limit rods 222, the second motor 224 and the gear rack 226 are both disposed on the connecting bottom plate 221, an output end of the second motor 224 is connected with the second driving rod 225, the bevel gear set 227 is disposed in the gear rack 226, one end of the second driving rod 225 penetrates through the gear rack 226 to be connected with one end of the bevel gear set 227, the threaded rod 228 penetrates through the gear rack 226 to be connected with the other end of the bevel gear set 227, the threaded pipe 229 is disposed below the connection top plate 223, the threaded rod 228 is screwed with the threaded pipe 229, and the connection top plate 223 is connected with the position limit moving plate 2210; during operation, the second driving rod 225 can drive the bevel gear set 227 to rotate through driving of the second motor 224, the bevel gear set 227 can drive the threaded pipe 229 to move through the threaded rod 228 when rotating, the threaded pipe 229 can drive the connecting top plate 223 to vertically move, the connecting top plate 223 can drive the limit moving plate 2210 to synchronously move, and the limit moving plate 2210 can drive the material carrying plate 11 to move when moving.

Specifically, the detection mechanism 3 includes a detection frame 31, a radiation detector 32, a radiation detection connecting rod 33, a radiation detection head 34, an image detector 35, an image detection head 36, a connecting wire 37 and a display 38, the detection frame 31 is disposed on the worktable 1, the radiation detector 32 is disposed above the detection frame 31, one end of the radiation detection connecting rod 33 is disposed below the radiation detector 32, and the other end of the radiation detection connecting rod 33 is disposed below the detection frame 31, the radiation detection head 34 is disposed on the other end of the radiation detection connecting rod 33, the radiation detection head 34 corresponds to the loading plate 11, the image detector 35 is disposed above the detection frame 31, and the image detector 35 is disposed on one side of the radiation detector 32, one end of the image detection head 36 is connected to one end of the image detector 35, the other end of the image detection head 36 is located below the detection frame 31, the other end of the image detection head 36 corresponds to the material loading plate 11, the display 38 is arranged on the side wall of the detection frame 31, one end of the connecting line 37 is connected with the image detector 35, and the other end of the connecting line 37 is connected with the display 38; the radiation protection strength of the fabric can be detected through the connection and matching of the radiation detector 32, the radiation detection connecting rod 33 and the radiation detection head 34, whether foreign matters or damage exist on the fabric can be detected through the matching of the image detector 35 and the image detection head 36, and pictures shot by the image detection head 36 can be transmitted to the display 38 through the connection of the image detector 35 and the display 38.

Specifically, the turn-over driving part 41 comprises a protective shell 411, a third motor 412, a first fixing plate 413, a screw rod 414, a connecting belt 415, a connecting column 416, a moving base 417, a telescopic frame 418, an electric push rod 419 and a material ejecting tray 4110, wherein the protective shell 411 is arranged at the bottom in the workbench 1, the third motor 412, the first fixing plate 413, the screw rod 414, the connecting belt 415 and the connecting column 416 are all arranged in the protective shell 411, the moving base 417 is arranged above the protective shell 411, the telescopic frame 418 is arranged above the moving base 417, the electric push rod 419 is arranged in the telescopic frame 418, the output end of the electric push rod 419 is connected with the material ejecting tray 4110, the material ejecting tray 4110 is arranged in the moving chute 14, the first fixing plate 413 is provided with two, the two first fixing plates 413 are symmetrically arranged in the protective shell 411, the screw rods 414 are provided with two, the two screw rods 414 are symmetrically arranged between the two first fixing plates 413, two ends of the connecting belt 415 are respectively sleeved on one end of the two screw rods 414, two connecting columns 416 are arranged, the two connecting columns 416 are respectively arranged on one screw rod 414, and the two connecting columns 416 are both connected with the movable base 417; during operation, one of the screw rods 414 can drive the other screw rod 414 to rotate through the connecting belt 415 by driving of the third motor 412, the two screw rods 414 can drive the two connecting columns 416 to move when rotating, the two connecting columns 416 can drive the moving base 417 to synchronously rotate when moving, the telescopic frame 418 and the electric push rod 419 can be driven to rotate through the moving base 417, the material ejecting tray 4110 can be synchronously moved, and the material ejecting tray 4110 can be vertically moved by the electric push rod 419; when the material ejecting tray 4110 needs to drive the material carrying plate 11 to move, firstly, the material ejecting tray 4110 is driven by the electric push rod 419 to move downwards, the material ejecting tray 4110 can move to the lower part of the moving chute 14, then the moving base 417 moves synchronously, when the material ejecting tray 4110 moves to the lower part of the material carrying plate 11, the material ejecting tray 4110 is pushed upwards by the electric push rod 419 to enable the material ejecting tray 4110 to eject the material carrying plate 11, and the material ejecting tray 4110 moves to the upper part of the moving chute 14, when the material ejecting tray is moved to an original position, the material ejecting plate can move along the moving chute 14 until the material ejecting tray is moved to the original position, so that the material carrying plate 11 corresponds to the turnover clamping member 42.

Specifically, each group of the turnover clamping components 42 comprises a placing frame 421, a cylinder 422, a clamping connecting rod 423, a fourth motor 424, a rotating frame 425, a double-rod bidirectional cylinder 426, a clamp connecting rod 427 and clamps 428, the placing frame 421 is arranged on one side of the workbench 1, the cylinder 422 is arranged on one side of the placing frame 421, the output end of the cylinder 422 is connected with one end of the clamping connecting rod 423, the other end of the clamping connecting rod 423 penetrates through the placing frame 421 and is located on the other side of the placing frame 421, the fourth motor 424 is arranged in the clamping connecting rod 423, the output end of the fourth motor 424 is connected with the rotating frame 425, the rotating frame 425 is arranged on the clamping connecting rod 423, two double-rod bidirectional cylinders 426 are arranged, the two double-rod bidirectional cylinders 426 are symmetrically arranged on one side wall of the rotating frame 425, the two groups of the clamps 428 are symmetrically arranged on the other side wall of the rotating frame 425, the two groups of clamp connecting rods 427 are arranged, one end of each group of clamp connecting rods 427 is connected with the output end of a double-rod bidirectional cylinder 426, the other end of each group of clamp connecting rods 427 is connected with one group of clamps 428, and the two groups of clamps 428 correspond to the material loading plate 11; when the operation is carried out, the clamping connecting rod 423 can drive the rotating frame 425 to move the clamp 428 to one side of the material loading plate 11 through the driving of the air cylinder 422, the clamp 428 can clamp the fabric on the material loading plate 11 through the driving of the air cylinder 426 with two rods and two directions, and then the rotating frame 425 rotates through the driving of the fourth motor 424, so that the clamp 428 can drive the fabric to rotate, and the fabric can be turned through the matching of the two groups of turning clamping parts 42.

According to the working principle of the application, firstly, the fabric is placed on the material carrying plate 11, then the first driving rod 213 can be driven by the first motor 212 to rotate, the two first gears 214 can be driven by the first driving rod 213 to rotate, the two first gears 214 can respectively drive the two racks 215 to rotate when rotating, the rack 215 can drive the tooth block 216 to move, the tooth block 216 can drive the connecting bottom plate 221 to synchronously move when moving in the rack 215, the second driving rod 225 can drive the bevel gear set 227 to rotate by the driving of the second motor 224, the bevel gear set 227 can drive the threaded pipe 229 to move when rotating by the threaded rod 228, the threaded pipe 229 can drive the connecting top plate 223 to vertically move, the limiting moving plate 2210 can be driven by the connecting top plate 223 to synchronously move, and the limiting moving plate 2210 can drive the material carrying plate 11 to move when moving, the material carrying plate 11 can be moved to the lower part of the detection mechanism 3 by the limit moving plate 2210, the radiation protection intensity of the fabric can be detected by the connection and matching of the radiation detector 32, the radiation detection connecting rod 33 and the radiation detection head 34, whether foreign matters or damage exist on the fabric can be detected by the matching of the image detector 35 and the image detection head 36, and the photographed picture of the image detection head 36 can be transmitted to the display 38 by the connection of the image detector 35 and the display 38, when one surface of the fabric is detected, one of the screw rods 414 can drive the other screw rod 414 to rotate by the connecting belt 415 through the driving of the third motor 412, the two screw rods 414 can drive the two connecting columns 416 to move when rotating, the two connecting columns 416 can drive the moving base 417 to synchronously rotate when moving, the telescopic frame 418 and the electric push rod 419 can be driven to rotate by the moving base 417, and can make the lifters 4110 move synchronously, the electric push rod 419 can make the lifters 4110 move vertically, when the lifters 4110 need to drive the material carrying plate 11 to move, the lifters 4110 are driven by the electric push rod 419 to move downwards, the lifters 4110 move to the lower side of the moving chute 14, then the lifters 4110 move synchronously by the movement of the moving base 417, when the lifters 4110 move to the lower side of the material carrying plate 11, the lifters 4110 are pushed upwards by the electric push rod 419 to make the lifters 4110 lift the material carrying plate 11, and the lifters 4110 move to the upper side of the moving chute 14, when moving to the original position, the lifters move along the moving chute 14 until moving to the original position, so that the material carrying plate 11 corresponds to the clamps 428 in the turnover clamping member 42, the clamp connecting rod 423 can drive the rotating frame 425 to move to one side of the material carrying plate 11 by the driving of the air cylinder 422, the clamp 428 clamps the fabric on the material carrying plate 11 by the driving of the cylinder 422 of the double-rod bidirectional cylinder 426, and then the rotating frame 425 rotates by the driving of the fourth motor 424, so that the clamp 428 drives the fabric to rotate, and the fabric can be turned by the matching of the two turning clamping components 42.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, those skilled in the art will appreciate that; the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. The radiation-proof fabric detection device is characterized by comprising a workbench (1), a feeding mechanism (2), a detection mechanism (3) and a turnover mechanism (4), wherein the feeding mechanism (2) is arranged on one side of the workbench (1), the turnover mechanism (4) is arranged on the other side of the workbench (1), the detection mechanism (3) is arranged on the workbench (1), the detection mechanism (3) is arranged between the feeding mechanism (2) and the turnover mechanism (4), a material loading plate (11), a limiting plate (12), linear holes (13) and a movable sliding chute (14) are arranged on the workbench (1), the limiting plate (12) is arranged on one side of the detection mechanism (3) and the feeding mechanism (2), the material loading plate (11) is arranged in the limiting plate (12), the linear holes (13) are provided with two linear holes (13), and the two linear holes (13) are symmetrically arranged below the limiting plate (12), remove spout (14) and be located one side of detection mechanism (3) and turn-over mechanism (4), the both sides of removing spout (14) are circularly, turn-over mechanism (4) are got part (42) including turn-over drive part (41) and turn-over clamp, turn-over drive part (41) are located workstation (1), turn-over clamp is got part (42) and is equipped with two sets ofly, two sets of turn-over clamp is got part (42) symmetry and is set up in workstation (1) top, and two sets of turn-over clamp is got part (42) and is located the both sides of removing spout (14).

2. The radiation protection fabric detection device according to claim 1, wherein the feeding mechanism (2) comprises a driving part (21) and a moving part (22), the driving part (21) and the moving part (22) are both arranged in the workbench (1), the driving part (21) is located on the side wall in the workbench (1), the moving part (22) is arranged on the driving part (21), and the top end of the moving part (22) penetrates through the two linear holes (13) to correspond to the material carrying plate (11).

3. The radiation protection fabric detection device as claimed in claim 2, wherein the driving part (21) comprises a motor base (211), a first motor (212), a first driving rod (213), a first gear (214), a rack (215), a gear block (216), a second gear (217) and a first fixing rod (218), the motor base (211) is arranged on the outer side wall of the workbench (1), the first motor (212) is arranged on the motor base (211), the output end of the first motor (212) is connected with one end of the first driving rod (213), two first gears (214), two racks (215), two gear blocks (216), two second gears (217) and two first fixing rods (218) are arranged, each first gear (214) and each second gear (217) are arranged on two sides in one rack (215), and each second gear (217) is fixed on the workbench (1) through one first fixing rod (218) On the inside wall, the other end of the first driving rod (213) penetrates through the workbench (1) to be connected with two first gears (214), and each gear block (216) is arranged in one rack (215).

4. The radiation protection fabric detection device according to claim 3, wherein the moving part (22) comprises a connecting bottom plate (221), limiting rods (222), a connecting top plate (223), a second motor (224), a second driving rod (225), a gear rack (226), a bevel gear set (227), a threaded rod (228), threaded pipes (229) and a limiting moving plate (2210), the connecting bottom plate (221) is arranged between two tooth blocks (216), the connecting bottom plate (221) is connected with the two tooth blocks (216), the limiting rods (222) are four, the four limiting rods (222) are symmetrically arranged on the connecting bottom plate (221) in pairs, the connecting top plate (223) is movably arranged on the four limiting rods (222), the second motor (224) and the gear rack (226) are both arranged on the connecting bottom plate (221), the output end of the second motor (224) is connected with the second driving rod (225), the bevel gear set (227) is arranged in a gear rack (226), one end of the second driving rod (225) penetrates through the gear rack (226) and is connected with one end of the bevel gear set (227), the threaded rod (228) penetrates through the gear rack (226) and is connected with the other end of the bevel gear set (227), the threaded pipe (229) is arranged below the connecting top plate (223), the threaded rod (228) is in threaded connection with the threaded pipe (229), and the connecting top plate (223) is connected with the limit moving plate (2210).

5. The radiation protection fabric detection device according to claim 4, wherein the detection mechanism (3) comprises a detection frame (31), a radiation detector (32), a radiation detection connecting rod (33), a radiation detection head (34), an image detector (35), an image detection head (36), a connecting wire (37) and a display (38), the detection frame (31) is arranged on the workbench (1), the radiation detector (32) is arranged above the detection frame (31), one end of the radiation detection connecting rod (33) is arranged below the radiation detector (32), the other end of the radiation detection connecting rod (33) is arranged below the detection frame (31), the radiation detection head (34) is arranged on the other end of the radiation detection connecting rod (33), and the radiation detection head (34) corresponds to the material carrying plate (11), the image detector (35) is arranged above the detection frame (31), the image detector (35) is located on one side of the radiation detector (32), one end of the image detection head (36) is connected with one end of the image detector (35), the other end of the image detection head (36) is located below the detection frame (31), the other end of the image detection head (36) corresponds to the material carrying plate (11), the display (38) is arranged on the side wall of the detection frame (31), one end of the connecting line (37) is connected with the image detector (35), and the other end of the connecting line (37) is connected with the display (38).

6. The radiation protection fabric detection device according to claim 5, wherein the turn-over driving component (41) comprises a protective housing (411), a third motor (412), a first fixing plate (413), a screw rod (414), a connecting belt (415), a connecting column (416), a movable base (417), an expansion bracket (418), an electric push rod (419) and a material ejection disc (4110), the protective housing (411) is arranged at the bottom in the workbench (1), the third motor (412), the first fixing plate (413), the screw rod (414), the connecting belt (415) and the connecting column (416) are all arranged in the protective housing (411), the movable base (417) is arranged above the protective housing (411), the expansion bracket (418) is arranged above the movable base (417), the electric push rod (419) is arranged in the expansion bracket (418), the output and the top charging tray (4110) of electric putter (419) are connected, top charging tray (4110) sets up in removing spout (14), first fixed plate (413) is equipped with two, two first fixed plate (413) symmetry sets up in protecting sheathing (411), lead screw (414) is equipped with two, two lead screw (414) symmetry sets up between two first fixed plate (413), the both ends of connecting belt (415) are established respectively and are served at one of two lead screws (414), spliced pole (416) is equipped with two, two spliced pole (416) set up respectively on a lead screw (414), two spliced pole (416) all are connected with removal base (417).

7. The radiation protection fabric detection device according to claim 6, wherein each group of the turnover clamping components (42) comprises a placing frame (421), a cylinder (422), a clamping connecting rod (423), a fourth motor (424), a rotating frame (425), a double-rod bidirectional cylinder (426), a clamp connecting rod (427) and a clamp (428), the placing frame (421) is arranged on one side of the workbench (1), the cylinder (422) is arranged on one side of the placing frame (421), an output end of the cylinder (422) is connected with one end of the clamping connecting rod (423), the other end of the clamping connecting rod (423) penetrates through the placing frame (421) and is positioned on the other side of the placing frame (421), the fourth motor (424) is arranged in the clamping connecting rod (423), an output end of the fourth motor (424) is connected with the rotating frame (425), and the rotating frame (425) is arranged on the clamping connecting rod (423), the two-rod bidirectional air cylinders (426) are arranged, the two-rod bidirectional air cylinders (426) are symmetrically arranged on one side wall of the rotating frame (425), the clamps (428) are arranged in two groups, the two groups of clamps (428) are symmetrically arranged on the other side wall of the rotating frame (425), the two groups of clamp connecting rods (427) are arranged, one end of each group of clamp connecting rod (427) is connected with the output end of one two-rod bidirectional air cylinder (426), the other end of each group of clamp connecting rod (427) is connected with one group of clamps (428), and the two groups of clamps (428) correspond to the material carrying plate (11).