CN205110153U - Sinker inspection and finishing device - Google Patents

Sinker inspection and finishing device Download PDF

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Publication number
CN205110153U
CN205110153U CN201520895106.2U CN201520895106U CN205110153U CN 205110153 U CN205110153 U CN 205110153U CN 201520895106 U CN201520895106 U CN 201520895106U CN 205110153 U CN205110153 U CN 205110153U
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CN
China
Prior art keywords
sinker
feed separation
drive unit
inspection
detection piece
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn - After Issue
Application number
CN201520895106.2U
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Chinese (zh)
Inventor
张华�
宋彦
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Guangdong Esquel Textiles Co Ltd
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Guangdong Esquel Textiles Co Ltd
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Filing date
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Application filed by Guangdong Esquel Textiles Co Ltd filed Critical Guangdong Esquel Textiles Co Ltd
Priority to CN201520895106.2U priority Critical patent/CN205110153U/en
Application granted granted Critical
Publication of CN205110153U publication Critical patent/CN205110153U/en
Withdrawn - After Issue legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model relates to a sinker inspection and finishing device, it includes the frame and establishes feeding mechanism, material separation mechanism, feeding agencies, transport mechanism, first detection piece in the frame, grab material mechanism, second detection piece and receiving agencies. This sinker inspection and finishing device utilizes mechanical automation equipment to replace manual the inspection and the arrangement, can improve the detection efficiency and the detection quality of product, and this sinker inspection and finishing device is rational in infrastructure, convenient to use, practical reliable, makes according to the size volume body of sinker, can show reduction intensity of labour, improves operational environment, improves production efficiency.

Description

Sinker inspection and collating unit
Technical field
The utility model relates to field of textile machinery, especially relates to the inspection of a kind of sinker and collating unit.
Background technology
Sinker is the essential core part of knitting braiding, after yarn is woven into coil by knitting needle, sinker must be relied on to be released by coil.In process of production, need to clean circular knitting machine, during cleaning, the sinker of board all can be pulled down clean, detection, the inconsistent or serious sinker of wearing and tearing is screened.The arrangement of current sinker and detection are all people's manual operationss, and efficiency is low.
Utility model content
Based on this, be necessary that the sinker providing a kind of efficiency high is checked and collating unit.
A kind of sinker inspection and collating unit, comprise frame and be located at feed mechanism in described frame, feed separation mechanism, material fetching mechanism, connecting gear, the first detection piece, material grabbing mechanism, the second detection piece and receiving mechanism; Wherein, described feed mechanism docks with described feed separation mechanism, for sinker being delivered to described feed separation mechanism; Multiple described sinker is separated by described feed separation mechanism; Described material fetching mechanism draws described sinker from described feed separation mechanism, and is transported on described connecting gear; Described first detection piece detects the direction of the described sinker on described connecting gear; Described material grabbing mechanism captures described sinker according to the direction of the described sinker that described first detection piece detects, and deliver to described second detection piece and carry out size detection, if the second detection piece detects being of the required size of described sinker, described sinker is delivered to described receiving mechanism by described material grabbing mechanism.
Wherein in an embodiment, described feed mechanism involving vibrations dish and vibrating disk drive unit, described vibrating disk to be located on described vibrating disk drive unit and vibration can be driven to carry out feeding by described vibrating disk drive unit.
Wherein in an embodiment, described feed separation mechanism comprises feed separation platform and is located at feed separation wheel, separation wheel drive unit and the sensor probe on described feed separation platform; Be provided with gap between described feed separation wheel and described feed separation platform, and the size in this gap is not less than the thickness of a slice sinker and is less than the thickness of two panels sinker; Described separation wheel drive unit and described feed separation are taken turns to be connected and described feed separation can be driven to take turns and are rotated with the sinker tackled on described feed separation platform, pass through to make monolithic sinker; Whether described sensor probe is arranged near the end of sinker throughput direction on feed separation platform, and have sinker to pass through for detecting this position, when detected sinker by time, described material fetching mechanism draws this sinker.
Wherein in an embodiment, described feed separation mechanism also comprises baffle plate and height of baffle plate adjusting device, described baffle plate is located at the side of described feed separation platform, and described height of baffle plate adjusting device to be located in described frame and to connect the height for regulating the relative described feed separation platform of described baffle plate with described baffle plate; Described separation wheel drive unit and described feed separation wheel are located on described baffle plate.
Wherein in an embodiment, described material fetching mechanism comprises feeding drive unit, the first connecting plate, the second connecting plate, compressed air branching block and vacuum cup; Described feeding drive unit is located in described frame, and described feeding drive unit is connected for driving the rotary motion between feeding point and tapping point of described first connecting plate with described first connecting plate; Described second connecting plate is fixedly connected with described first connecting plate; Described compressed air branching block is fixedly connected with described second connecting plate, and described compressed air branching block offers compressed air channel; Described vacuum cup is connected with described compressed air branching block and is communicated with described compressed air channel.
Wherein in an embodiment, connecting gear comprises transmission support, transfer roller, conveyer belt and transmits drive unit, described transmission is propped up and is erected in described frame, described transfer roller is rotatably located on described transmission support, described conveyer belt is set on described transfer roller, and described transmission drive unit is located on described transmission support and with described transfer roller and is connected to drive described transfer roller to rotate.
Wherein in an embodiment, described first detection piece is direction identification camera, and described first detection piece is located at the top of described conveyer belt;
Described second detection piece is size detection camera, and described second detection piece is arranged near described receiving mechanism.
Wherein in an embodiment, described material grabbing mechanism is manipulator.
Wherein in an embodiment, described frame is provided with workbench; Described receiving mechanism comprises base plate, carrier strip, sinker catching device, compact heap and compresses drive unit; Described base plate is located on described workbench; Described carrier strip is arranged along described base plate; Described sinker catching device is provided with the bayonet socket matched with described carrier strip, and described sinker catching device is slidably matched by described bayonet socket and described carrier strip; Described compact heap is located at one end of described carrier strip; Described compression drive unit is connected for driving described compact heap to move to described sinker catching device with described compact heap, to compress the sinker be placed between described compact heap and described sinker catching device.
Wherein in an embodiment, also comprise garbage collection box, described garbage collection box is located in described frame, and when the size that described second detection piece detects described sinker is undesirable, described sinker is put into described garbage collection box by described material grabbing mechanism.
Above-mentioned sinker inspection utilizes mechanical automation equipment to replace hand test and arrangement with collating unit, detection efficiency and the Detection job of product can be improved, and the inspection of this sinker is rational in infrastructure, easy to use with collating unit, practical reliable, size quantity body according to sinker makes, significantly can reduce labour intensity, improve working environment, enhance productivity.
Accompanying drawing explanation
Fig. 1 is the sinker inspection of an embodiment and the structural representation of collating unit;
Fig. 2 is the structural representation of vibrating disk support in Fig. 1;
Fig. 3 is the structural representation of Tu1Zhong feed separation mechanism;
Fig. 4 is the structural representation of material fetching mechanism in Fig. 1;
Fig. 5 is the structural representation of connecting gear in Fig. 1;
Fig. 6 is the structural representation of Tu1Zhong testing agency;
Fig. 7 is the structural scheme of mechanism of receiving mechanism in Fig. 1;
Fig. 8 is the decomposing schematic representation of material collection structure in Fig. 7;
Fig. 9 is the structural representation of garbage collection box in Fig. 1.
Detailed description of the invention
For the ease of understanding the utility model, below with reference to relevant drawings, the utility model is described more fully.Preferred embodiment of the present utility model is given in accompanying drawing.But the utility model can realize in many different forms, is not limited to embodiment described herein.On the contrary, provide the object of these embodiments be make the understanding of disclosure of the present utility model more comprehensively thorough.
It should be noted that, when element is called as " being fixed on " another element, directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may there is centering elements simultaneously.
Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in description of the present utility model herein just in order to describe specific embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.
As shown in Figure 1, the sinker inspection of an embodiment comprises frame 100 with collating unit 10 and is located at feed mechanism 200 in frame 100, feed separation mechanism 300, material fetching mechanism 400, connecting gear 500, testing agency 600, material grabbing mechanism 700, receiving mechanism 800 and garbage collection box 900.
The frame 100 of the present embodiment comprises carrier 110, workbench 120 and height adjuster 130.It is shaping that carrier 110 adopts angle steel material to make.In the present embodiment, it is two right that carrier 110 has at least, and the height of often pair of carrier 110 is identical, and the height of multipair carrier 110 is different.Workbench 120 is located on carrier 110.Namely the height of multipair carrier 110 is set to difference, and thus workbench 120 is ramp structure, and also workbench 120 is tilted to lower setting from one end to the other end.Further, in the present embodiment, each carrier 110 is all located on height adjuster 130.Be threaded between height adjuster 130 with carrier 110, screw or unscrew the distance between bottom and carrier 110 regulating height adjuster 130 by screw thread, and then regulate the bearing height of height adjuster 130 pairs of carriers 110.
Feed mechanism 200 is located in frame 100.Incorporated by reference to Fig. 1 and Fig. 2, in the present embodiment, feed mechanism 200 involving vibrations disc carrier 210, vibrating disk 220 and vibrating disk drive unit 230.Vibrating disk support 210 adopts the structure similar with frame 110, and difference is, the table-surface level of the plummer 212 on vibrating disk support 210 is arranged.Vibrating disk drive unit 230 is located on plummer 212.Vibrating disk 220 is located on vibrating disk drive unit 230, and vibration can be driven to carry out feeding by vibrating disk drive unit 230.Sinker auto arrangement after feed mechanism 200 vibrates neatly is sent.
Feed separation mechanism 300 docks with feed mechanism 200, for receiving the sinker carried from feed mechanism 200.Incorporated by reference to Fig. 1 and Fig. 3, in the present embodiment, feed separation mechanism 300 comprise feed separation platform 310 and be located on feed separation platform 310 feed separation wheel 320, be separated wheel drive unit 330, sensor probe 340, baffle plate 350 and height of baffle plate adjusting device 360.
Feed separation platform 310 can drive vibration by vibrating disk drive unit 230 or other vibrating mechanisms.In the present embodiment, feed separation platform 310 is provided with the first obstruct groove 312 and the second obstruct groove 314 of strip.First obstruct groove 312 extends to a long side from a short side of feed separation platform 310 and is that 30 ° of angles are arranged with this short side.Second obstruct groove 314 is parallel to the long side of feed separation platform 310 and is communicated with at corresponding short side to the first obstruct groove 312.First obstruct groove 312 for stop normal through sinker, wait for material fetching mechanism 400 capture.Second obstruct groove 314 is for preventing sinker from landing feed separation platform 310.
Gap is provided with between feed separation wheel 320 and feed separation platform 310, this gap tolerable a slice sinker passes through, also namely the size in this gap is not less than the thickness of a slice sinker but is less than the thickness of two panels sinker, thus the sinker more than two panels or two panels be bonded together will be stopped, the separation to sinker can be realized by feed separation wheel 320.Be separated wheel drive unit 330 and feed separation to take turns 320 and be connected and feed separation can be driven to take turns 320 and rotate, with the material pushed or on interception material separation platform 310, multi-disc sinker that is overlapping or that bond together is sent back in vibrating disk 220 again and carries out vibration feeding.Being separated wheel drive unit 330 can be the drive units such as servomotor.
In the present embodiment, sensor probe 340 has three.Three sensor probes 340 to be arranged in a linear on feed separation platform 310 and to be that 60 ° of angles are arranged with the long side of feed separation platform 310.Distance between adjacent sensor probe 340 is equal.Sensor probe 340 has sinker to pass through and by signal transmission to material fetching mechanism 400 for induction.
Baffle plate 350 is located at a long side of feed separation platform 310.Height of baffle plate adjusting device 360 to be located in frame 100 and to connect the height for the relative material separation platform 310 of controllable register 350 with baffle plate 350.Height of baffle plate adjusting device 360 is provided with the fixing hole of multiple differing heights, and accordingly, height of baffle plate adjusting device 360 can be connected by screw etc. with between baffle plate 350.In the present embodiment, separation wheel drive unit 330 and feed separation wheel 320 are located on baffle plate 350, by baffle plate 350 being fixed on the fixing hole position of differing heights, can controllable register 350 relative to the height of feed separation platform 310, and then can regulate feed separation take turns 320 and feed separation platform 310 between distance, to adapt to the sinker of different size.
Material fetching mechanism 400 is for from absorbing material (i.e. sinker) on feed separation platform 310.Incorporated by reference to Fig. 1 and Fig. 4, in the present embodiment, material fetching mechanism 400 comprises feeding drive unit 410, first connecting plate 420, second connecting plate 430, compressed air branching block 440 and vacuum cup 450.Feeding drive unit 410 is located in frame 100.The output shaft of feeding drive unit 410 is fixedly connected with the first connecting plate 420.Feeding drive unit 410 for driving the first connecting plate 420 rotary motion, as moved between feeding point and tapping point.Feeding drive unit 410 can be servomotor etc., and feeding point is positioned on feed separation platform 310, and tapping point is positioned on connecting gear 500.Second connecting plate 430 is connected with the end winding support of the first connecting plate 420.Compressed air branching block 440 is fixedly connected with the second connecting plate 430.Compressed air branching block 440 offers compressed air channel 442.Vacuum cup 450 is connected with compressed air branching block 440 and is communicated with compressed air channel 442.Vacuum cup 450 has multiple, and multiple vacuum cup 450 is arranged in order setting on the diagonal of the lower surface of compressed air branching block 440.When air extractor is bled to compressed air branching block 440, vacuum cup 450 can draw sinker from feed separation platform 310, when ventilating to compressed air branching block 440, can remove the absorption to sinker.
Connecting gear 500 is arranged near feed separation mechanism 300.Connecting gear 500 receives the sinker drawn from material fetching mechanism 400, and sinker is sent to follow-up detection station.Incorporated by reference to Fig. 1 and Fig. 5, in the present embodiment, connecting gear 500 comprises transmission support 510, transfer roller 520, conveyer belt 530 and transmits drive unit 540.Transmit support 510 to be located in frame 100.Transfer roller 520 is rotatably located at and transmits on support 510.Conveyer belt 530 is set on transfer roller 520.Transmission drive unit 540 is located at and transmits on support 510 and be connected with transfer roller 520 to drive transfer roller 520 to rotate.
Incorporated by reference to Fig. 1 and Fig. 6, the testing agency 600 of the present embodiment comprises detection piece support 610, first detection piece 620 and the second detection piece 630.
Detection piece support 610 is located in frame 100.Detection piece support 610 comprises the first support 612, second support 614 the 3rd support 616 and the 4th support 618.First support 612 is vertically arranged in frame 100.Second support 614 and the 4th support 618 are all vertical with the first support 612 to be arranged, and the second support 614 is positioned at the top of the 4th support 618.3rd support 616 is between the second support 614 and the 4th support 618, and two ends are respectively with the second support 614 and the 4th support 618 is vertical is connected.
First detection piece 620 and the second detection piece 630 to be located between detection piece on 610, and specifically in the present embodiment, the first detection piece 620 is located on the second support 614, and the second detection piece 630 is located on the first support 612.Feeding drive unit 410 is located on the 4th support 618.In the present embodiment, the first detection piece 620 is direction identification camera.First detection piece 620 is located at the top of conveyer belt 530, for detecting the direction of the sinker that conveyer belt 530 sends.Second detection piece 630 is size detection camera.Second detection piece 630 is arranged near receiving mechanism 800.
Material grabbing mechanism 700 captures sinker for the direction of the sinker detected according to the first detection piece 620, and size detection is carried out in the below delivering to the second detection piece 630.If the second detection piece 630 detects being of the required size of sinker, sinker is delivered to receiving mechanism 800 by material grabbing mechanism 700, otherwise undesirable for size sinker is abandoned or put into garbage collection box 900.In the present embodiment, material grabbing mechanism 700 is manipulator.
The sinker meeting dimensional requirement that receiving mechanism 800 captures for collecting material grabbing mechanism 700, and sinker auto arrangement is collected.Incorporated by reference to Fig. 1, Fig. 7 and Fig. 8, in the present embodiment, receiving mechanism 800 comprises base plate 810, carrier strip 820, sinker catching device 830, compact heap 840 and compresses drive unit 850.Base plate 810 is located on workbench 120, and tilts to extend downward the other end from one end of workbench 120.Carrier strip 820 is arranged along base plate 810.Sinker catching device 830 comprises main part 831, connecting portion 833 and guide portion 835.Main part 831 is plane for the side abutted against with sinker.Main part 831 is provided with the bayonet socket 832 matched with carrier strip 820.Sinker catching device 830 is slidably matched by bayonet socket 832 and carrier strip 820.Connecting portion 833 in the form of sheets.In the present embodiment, workbench 120 offers the guide groove 122 of strip.Guide groove 122 is groove.One end of connecting portion 833 is connected with main part 831.Main part 833 is actively located in this guide groove 122, and the other end is connected with guide portion 835 in the bottom side of workbench 120.Guide portion 835 is provided with chute 836, and correspondingly, workbench 120 is provided with the slide rail (not shown) matched with this chute 836 in bottom.Further, in the present embodiment, elastic recovery mechanism (not indicating in figure) is provided with between the bottom of workbench 120 and guide portion 835.This elastic recovery mechanism can make sinker catching device 830 be repositioned to the higher one end of workbench 120.Compact heap 840 is located at higher one end of carrier strip 820.Compress drive unit 850 to be connected with compact heap 840 for driving compact heap 840 to move to sinker catching device 830.When sinker is placed on after in carrier strip 820 by material grabbing mechanism 700, this compression drive unit 850 can drive compact heap 840 to move to sinker catching device 830, sinker to be pressed on the side of main part 831.Preferably, after material grabbing mechanism 700 puts into multi-disc sinker, after putting into 3, compress drive unit 850 and drive compact heap 840 to do to compress motion.
Incorporated by reference to Fig. 1 and Fig. 9, garbage collection box 900 is located in frame 100.When the size that the second detection piece 630 detects sinker is undesirable, sinker is put into garbage collection box 900 by material grabbing mechanism 700.
Above-mentioned sinker inspection utilizes mechanical automation equipment to replace hand test and arrangement with collating unit 10, detection efficiency and the Detection job of product can be improved, and the inspection of this sinker is rational in infrastructure, easy to use with collating unit 10, practical reliable, size quantity body according to sinker makes, significantly can reduce labour intensity, improve working environment, enhance productivity.
Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this description is recorded.
The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (10)

1. sinker inspection and a collating unit, is characterized in that, comprises frame and be located at feed mechanism in described frame, feed separation mechanism, material fetching mechanism, connecting gear, the first detection piece, material grabbing mechanism, the second detection piece and receiving mechanism; Wherein, described feed mechanism docks with described feed separation mechanism, for sinker being delivered to described feed separation mechanism; Multiple described sinker is separated by described feed separation mechanism; Described material fetching mechanism draws described sinker from described feed separation mechanism, and is transported on described connecting gear; Described first detection piece detects the direction of the described sinker on described connecting gear; Described material grabbing mechanism captures described sinker according to the direction of the described sinker that described first detection piece detects, and deliver to described second detection piece and carry out size detection, if the second detection piece detects being of the required size of described sinker, described sinker is delivered to described receiving mechanism by described material grabbing mechanism.
2. sinker inspection as claimed in claim 1 and collating unit, it is characterized in that, described feed mechanism involving vibrations dish and vibrating disk drive unit, described vibrating disk to be located on described vibrating disk drive unit and vibration can be driven to carry out feeding by described vibrating disk drive unit.
3. sinker inspection as claimed in claim 2 and collating unit, is characterized in that, described feed separation mechanism comprises feed separation platform and is located at feed separation wheel, separation wheel drive unit and the sensor probe on described feed separation platform; Be provided with gap between described feed separation wheel and described feed separation platform, and the size in this gap is not less than the thickness of a slice sinker and is less than the thickness of two panels sinker; Described separation wheel drive unit and described feed separation are taken turns to be connected and described feed separation can be driven to take turns and are rotated with the sinker tackled on described feed separation platform, pass through to make monolithic sinker; Whether described sensor probe is arranged near the end of sinker throughput direction on feed separation platform, and have sinker to pass through for detecting this position, when detected sinker by time, described material fetching mechanism draws this sinker.
4. sinker inspection as claimed in claim 3 and collating unit, it is characterized in that, described feed separation mechanism also comprises baffle plate and height of baffle plate adjusting device, described baffle plate is located at the side of described feed separation platform, and described height of baffle plate adjusting device to be located in described frame and to connect the height for regulating the relative described feed separation platform of described baffle plate with described baffle plate; Described separation wheel drive unit and described feed separation wheel are located on described baffle plate.
5. sinker inspection as claimed in claim 4 and collating unit, it is characterized in that, described material fetching mechanism comprises feeding drive unit, the first connecting plate, the second connecting plate, compressed air branching block and vacuum cup; Described feeding drive unit is located in described frame, and described feeding drive unit is connected for driving the rotary motion between feeding point and tapping point of described first connecting plate with described first connecting plate; Described second connecting plate is fixedly connected with described first connecting plate; Described compressed air branching block is fixedly connected with described second connecting plate, and described compressed air branching block offers compressed air channel; Described vacuum cup is connected with described compressed air branching block and is communicated with described compressed air channel.
6. sinker inspection as claimed in claim 5 and collating unit, it is characterized in that, connecting gear comprises transmission support, transfer roller, conveyer belt and transmits drive unit, described transmission is propped up and is erected in described frame, described transfer roller is rotatably located on described transmission support, described conveyer belt is set on described transfer roller, and described transmission drive unit is located on described transmission support and with described transfer roller and is connected to drive described transfer roller to rotate.
7. sinker inspection as claimed in claim 6 and collating unit, it is characterized in that, described first detection piece is direction identification camera, and described first detection piece is located at the top of described conveyer belt;
Described second detection piece is size detection camera, and described second detection piece is arranged near described receiving mechanism.
8. sinker inspection as claimed in claim 7 and collating unit, it is characterized in that, described material grabbing mechanism is manipulator.
9. sinker inspection as claimed in claim 8 and collating unit, it is characterized in that, described frame is provided with workbench; Described receiving mechanism comprises base plate, carrier strip, sinker catching device, compact heap and compresses drive unit; Described base plate is located on described workbench; Described carrier strip is arranged along described base plate; Described sinker catching device is provided with the bayonet socket matched with described carrier strip, and described sinker catching device is slidably matched by described bayonet socket and described carrier strip; Described compact heap is located at one end of described carrier strip; Described compression drive unit is connected for driving described compact heap to move to described sinker catching device with described compact heap, to compress the sinker be placed between described compact heap and described sinker catching device.
10. sinker inspection as claimed in claim 9 and collating unit, it is characterized in that, also comprise garbage collection box, described garbage collection box is located in described frame, when the size that described second detection piece detects described sinker is undesirable, described sinker is put into described garbage collection box by described material grabbing mechanism.
CN201520895106.2U 2015-11-10 2015-11-10 Sinker inspection and finishing device Withdrawn - After Issue CN205110153U (en)

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Application Number Priority Date Filing Date Title
CN201520895106.2U CN205110153U (en) 2015-11-10 2015-11-10 Sinker inspection and finishing device

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Application Number Priority Date Filing Date Title
CN201520895106.2U CN205110153U (en) 2015-11-10 2015-11-10 Sinker inspection and finishing device

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CN205110153U true CN205110153U (en) 2016-03-30

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CN201520895106.2U Withdrawn - After Issue CN205110153U (en) 2015-11-10 2015-11-10 Sinker inspection and finishing device

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105251699A (en) * 2015-11-10 2016-01-20 广东溢达纺织有限公司 Checking and sorting device for sedimentation patches

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105251699A (en) * 2015-11-10 2016-01-20 广东溢达纺织有限公司 Checking and sorting device for sedimentation patches

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