CN110976321A - Automatic code printing test machine - Google Patents

Abstract

The invention discloses an automatic code printing test machine, which relates to the technical field of code printing detection equipment and comprises a bottom frame, wherein a power distribution cabinet is arranged at the lower part of the bottom frame, a feeding mechanism, a detection mechanism and a sorting and blanking mechanism are arranged at the upper part of the bottom frame, the feeding mechanism comprises a feeding conveyer belt, a material moving assembly and a code sweeping assembly, the detection mechanism comprises a rotating assembly and a plurality of detection assemblies, all the detection assemblies are arranged beside the rotating assembly, the sorting and blanking mechanism comprises a qualified product blanking assembly and a defective product blanking assembly, and the qualified product blanking assembly and the defective product blanking assembly are arranged at intervals and are positioned beside the rotating assembly. The invention realizes the automatic code printing and detection of the product, reduces the amount of manual labor, improves the efficiency, makes the detection process more convenient, and the detection content is convenient to adjust according to the actual production, so that the invention has wider application range, the whole process is carried out in the bottom frame, the interference resistance is strong, and the detection result is more accurate.

Description

Automatic code printing test machine

Technical Field

The invention relates to the technical field of code printing detection equipment, in particular to an automatic code printing test machine.

Background

The product needs to be subjected to code spraying and detection in the production process. With the progress of production technology, automatic code spraying and detection are gradually used to replace manual detection, so that the production efficiency is improved, and the rejection rate of products is reduced.

The equipment in the prior art has the following defects when code spraying and detection are carried out; firstly, equipment detection items are few, and the detection of different data of the same product is carried out, so that a plurality of pieces of equipment are required to work, the equipment cost and the occupied space are increased, and the detection efficiency is reduced. Secondly, the appointed code printing and detection can not be carried out on any position of the side face of the product, and the limitation is more. Thirdly, the test content is not easy to change, resulting in inconvenience in use of the device.

Disclosure of Invention

The invention aims to provide an automatic coding test machine, which solves the technical problems of incomplete equipment function and inconvenient use in the prior art.

The invention provides an automatic coding test machine which comprises an underframe, wherein a power distribution cabinet is arranged at the lower part of the underframe, a feeding mechanism, a detection mechanism and a sorting and blanking mechanism are arranged at the upper part of the underframe, the feeding mechanism and the sorting and blanking mechanism are respectively arranged at two sides of the detection mechanism, the feeding mechanism comprises a feeding conveying belt, a material moving assembly and a code scanning assembly, the material moving assembly and the code scanning assembly are respectively arranged at two sides of the feeding conveying belt, the code scanning assembly is arranged at the tail end of the feeding conveying belt, the detection mechanism comprises a rotating assembly and a plurality of detection assemblies, all the detection assemblies are arranged beside the rotating assembly, the sorting and blanking mechanism comprises a qualified product blanking assembly and a defective product blanking assembly, and the qualified product blanking assembly and the defective product blanking assembly are arranged at intervals and are positioned beside the rotating assembly.

Further, it includes the material that moves the material electricity jar, moves the material track, moves material lift cylinder, moves the material piece, moves the material motor and moves the material gas and press from both sides to move the material electricity jar, it is the side that the level set up at feeding conveyer belt to move the material electricity jar, it is vertical setting and moves the material track and move the slider fixed connection of material electricity jar to move the material track, move the material piece and install on moving the material track and between the two sliding fit, it is vertical setting in the one side of moving the material piece to move the material motor, it is equipped with the material connecting plate that moves on the output of material motor to move, it installs the lower extreme at the material connecting plate that moves to move the material gas clamp.

Further, sweep a yard subassembly and include bracing piece, connecting rod, connecting block and scanner, the bracing piece is vertical setting and the lower extreme and the chassis fixed connection of bracing piece, be equipped with vertical fixed orifices and horizontal fixed orifices on the connecting block, the bracing piece is pegged graft in vertical fixed orifices, the connecting rod is pegged graft in horizontal fixed orifices, the one end at the connecting rod is installed to the scanner.

Further, an exhaust fan is arranged above the feeding conveying belt.

Further, the rotating assembly comprises a rotating motor, a gear transmission component and a rotating disc, the rotating motor is arranged on the bottom frame, the rotating disc is located above the rotating motor and is connected with the bottom frame in a rotating mode, the rotating motor and the rotating disc are connected through the gear transmission component in a transmission mode, a plurality of rotating jigs distributed circumferentially are arranged on the rotating disc, and jig grooves are formed in the rotating jigs.

Further, every the determine module all includes the determine frame, detects lift cylinder, detects the slide rail, detects the slider and detects the gas clamp, the determine frame sets up on the side of runner assembly, it is vertical setting at the side of determine frame to detect the slide rail, it sets up on detecting the slide rail and between the two sliding fit to detect the slider, it is vertical setting in the upper end of determining frame and detects the output of lift cylinder and the upper end fixed connection who detects the slider to detect the lift cylinder, it is vertical setting in one side that detects the slider to detect the gas clamp.

Furthermore, a detection end head is arranged at the output end of each detection air clamp.

Further, certified products unloading subassembly includes first unloading conveyer belt and first unloading part, first unloading part sets up the top at first unloading conveyer belt, first unloading part includes unloading electric jar, unloading cylinder, unloading slide rail, unloading slider, unloading motor and unloading gas clamp, the unloading electric jar is the level and sets up the top at first unloading conveyer belt, the unloading slide rail is vertical setting on the slider of unloading electric jar, the unloading slider sets up on the unloading slide rail and between the two sliding fit, the unloading motor sets up the one side at the unloading slider, the output fixed connection of unloading gas clamp and unloading motor.

Further, the defective product discharging assembly comprises a second discharging conveying belt and a second discharging part, the first discharging conveying belt is arranged beside the rotating disc, the second discharging part is located between the first discharging conveying belt and the rotating disc, and the second discharging part is identical to the first discharging part in structure.

Compared with the prior art, the invention has the beneficial effects that:

firstly, a product is placed on a feeding conveyor belt, the feeding conveyor belt conveys the product into a chassis, the product is clamped by a material moving assembly, the product is moved to a scanner, the product is coded by the scanner, then the product is moved to a code scanning assembly by the material moving assembly, the code just recorded on the product by the scanner is scanned by the code scanning assembly, the recording position and the correctness of recording information are ensured, then the product is moved to a rotating assembly by the material moving assembly, the product is driven to move to each detection assembly by the rotating assembly, each performance of the product is detected by different detection assemblies, finally, the qualified product after detection is conveyed together by a qualified product discharging assembly, the unqualified products are conveyed together by a defective product discharging assembly, and classified discharging is carried out;

the invention realizes the automatic coding and detection of the product, reduces the amount of manual labor and improves the efficiency.

Secondly, the product is subjected to multiple different detections by arranging the plurality of detection assemblies at the rotating assembly, and a plurality of devices are not required to be used for detecting the product, so that the detection process is more convenient, and the efficiency is improved.

Thirdly, the detection content is convenient to adjust according to actual production, so that the application range of the invention is wider.

Fourthly, the whole process is carried out in the bottom frame, the interference resistance is strong, and the detection result is more accurate.

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 schematic perspective view of the present invention;

FIG. 2 is a partial perspective view of the first embodiment of the present invention;

FIG. 3 is a first perspective view of the feeding mechanism of the present invention;

FIG. 4 is a schematic perspective view of a second embodiment of the feeding mechanism of the present invention;

FIG. 5 is a partial perspective view of the second embodiment of the present invention;

fig. 6 is a schematic view of a partial three-dimensional structure according to the present invention.

Reference numerals:

the device comprises a base frame 1, a feeding mechanism 2, a feeding conveyer belt 21, a material moving assembly 22, a material moving electric cylinder 221, a material moving track 222, a material moving lifting cylinder 223, a material moving block 224, a material moving motor 225, a material moving air clamp 226, a material moving connecting plate 227, a code sweeping assembly 23, a supporting rod 231, a connecting rod 232, a connecting block 233, a scanner 234, a detection mechanism 3, a rotating assembly 31, a rotating disc 311, a rotating jig 312, a detection assembly 32, a detection frame 321, a detection lifting cylinder 322, a detection slide rail 323, a detection slide block 324, a detection air clamp 325, a sorting blanking mechanism 4, a qualified product blanking assembly 41, a first blanking conveyer belt 411, a blanking electric cylinder 412, a blanking air cylinder 413, a blanking slide rail 414, a blanking slide block 415, a blanking motor 416, a blanking air clamp 417, a defective blanking assembly 42, a second blanking conveyer belt 421, a second blanking part 422, an exhaust fan 5, a detection end 6 and a power distribution cabinet.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present 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 6, an embodiment of the present invention provides an automatic coding testing machine, including a chassis 1, a power distribution cabinet 7 is disposed at a lower portion of the chassis 1, a feeding mechanism 2, a detecting mechanism 3, and a sorting and blanking mechanism 4 are disposed at an upper portion of the chassis 1, the feeding mechanism 2 and the sorting and blanking mechanism 4 are respectively disposed at two sides of the detecting mechanism 3, the feeding mechanism 2 includes a feeding conveyor belt 21, a material moving assembly 22, and a code scanning assembly 23, the material moving assembly 22 and the code scanning assembly 23 are respectively disposed at two sides of the feeding conveyor belt 21, the code scanning assembly 23 is disposed at a terminal end of the feeding conveyor belt 21, the detecting mechanism 3 includes a rotating assembly 31 and a plurality of detecting assemblies 32, all the detecting assemblies 32 are disposed at a side of the rotating assembly 31, the sorting and blanking mechanism 4 includes a qualified product blanking assembly 41 and a defective product blanking assembly 42, the qualified product blanking assembly 41 and the defective product blanking assembly 42 are arranged at intervals and are positioned at the side of the rotating assembly 31; the product is placed on the feeding conveyer belt 21, the feeding conveyer belt 21 conveys the product into the bottom frame 1, the product is clamped by the material moving component 22, the product is firstly moved to the scanner 234, the product is printed with codes by the scanner 234, and then the material moving assembly 22 moves the product to the code scanning assembly 23, the code scanning assembly 23 scans the code recorded on the product by the scanner 234 to ensure the recording position and the accuracy of the recorded information, and then the material moving assembly 22 moves the product to the rotating assembly 31, the product is driven to move to each detection component 32 by the rotating component 31, each performance of the product is detected by different detection components 32, and finally, qualified products which are detected are conveyed together by the qualified product blanking assembly 41, and unqualified products which are detected are conveyed together by the defective product blanking assembly 42 for classified blanking.

Specifically, the material moving assembly 22 includes a material moving electric cylinder 221, a material moving rail 222, a material moving lifting cylinder 223, a material moving block 224, a material moving motor 225 and a material moving air clamp 226, the material moving electric cylinder 221 is horizontally arranged at the side of the feeding conveyor belt 21, the material moving rail 222 is vertically arranged and the material moving rail 222 is fixedly connected with a sliding block of the material moving electric cylinder 221, the material moving block 224 is installed on the material moving rail 222 and is in sliding fit with the material moving rail 222, the material moving motor 225 is vertically arranged at one side of the material moving block 224, a material moving connecting plate 227 is arranged at the output end of the material moving motor 225, and the material moving air clamp 226 is installed at the lower end of the material moving connecting plate 227; when the automatic material moving device is used, the material moving air clamp 226 is moved to the feeding conveying belt 21 through the matching of the material moving electric cylinder 221 and the material moving lifting cylinder 223, the material moving air clamp 226 clamps a product, the material moving lifting cylinder 223 works to drive the product to lift, the product is moved to the scanner 234 through the material moving electric cylinder 221 to be coded, then the product is moved to the scanning assembly through the matching of the material moving electric cylinder 221 and the material moving lifting cylinder 223, the code recorded on the product is detected through the working of the code scanning assembly 23, the material moving motor 225 is used for driving the product to rotate, the angle of the product is adjusted, and therefore the code can be coded and detected at different positions of the side wall of the product.

Specifically, the code scanning assembly 23 includes a support rod 231, a connecting rod 232, a connecting block 233 and a scanner 234, the support rod 231 is vertically arranged, the lower end of the support rod 231 is fixedly connected with the bottom frame 1, the connecting block 233 is provided with a vertical fixing hole and a horizontal fixing hole, the support rod 231 is inserted into the vertical fixing hole, the connecting rod 232 is inserted into the horizontal fixing hole, and the scanner 234 is installed at one end of the connecting rod 232; the scanner 234 is a conventional technique, and mainly scans the recorded codes on the product, so as to detect whether the code printing position and the polishing information on the product are correct.

Specifically, an exhaust fan 5 is arranged above the feeding conveyer belt 21; can in time discharge the flue gas that the in-process of will beating the sign indicating number produced, avoid causing the influence to inside testing process.

Specifically, the rotating assembly 31 includes a rotating motor, a gear transmission component and a rotating disc 311, the rotating motor is arranged on the bottom frame 1, the rotating disc 311 is located above the rotating motor, the rotating disc 311 is rotatably connected with the bottom frame 1, the rotating motor is in transmission connection with the rotating disc 311 through the gear transmission component, a plurality of rotating jigs 312 distributed circumferentially are arranged on the rotating disc 311, and each rotating jig 312 is provided with a jig groove; the rotating motor works and drives the rotating disc 311 to rotate through the gear transmission part, the rotating disc 311 drives the rotating jig 312 to rotate, the rotating jig 312 drives the product to rotate, and then the product is rotated to different detection assemblies 32 to detect different performances.

Specifically, each detection assembly 32 includes a detection frame 321, a detection lifting cylinder 322, a detection slide rail 323, a detection slider 324, and a detection air clamp 325, the detection frame 321 is disposed on the side of the rotation assembly 31, the detection slide rail 323 is vertically disposed on the side of the detection frame 321, the detection slider 324 is disposed on the detection slide rail 323 and is in sliding fit with the detection slide rail 323, the detection lifting cylinder 322 is vertically disposed at the upper end of the detection frame 321, the output end of the detection lifting cylinder 322 is fixedly connected with the upper end of the detection slider 324, and the detection air clamp 325 is vertically disposed at one side of the detection slider 324; the detection air clamp 325 is driven to move up and down along the detection sliding rail 323 by detecting the work of the lifting air cylinder 322, and then the product is clamped by detecting the work of the air clamp 325, so that the product is detected.

Specifically, a detection end 6 is arranged at the output end of each detection air clamp 325; in the detection work, when detecting gas clamp 325 centre gripping product, detect end 6 and product contact, and then detect the product, wherein, the finger that detection end 6 on every detection gas clamp 325 is used for detecting is all inequality, and then carries out multinomial detection to the product, and wherein, specific check out test set is prior art, does not do not describe here any more.

Specifically, the qualified product blanking assembly 41 comprises a first blanking conveyer belt 411 and a first blanking part, the first blanking part is arranged above the first blanking conveyer belt 411, the first blanking part comprises a blanking electric cylinder 412, a blanking air cylinder 413, a blanking slide rail 414, a blanking slide block 415, a blanking motor 416 and a blanking air clamp 417, the blanking electric cylinder 412 is horizontally arranged above the first blanking conveyer belt 411, the blanking slide rail 414 is vertically arranged on a slide block of the blanking electric cylinder 412, the blanking slide block 415 is arranged on the blanking slide rail 414 and is in sliding fit with the blanking slide rail 414, the blanking motor 416 is arranged on one side of the blanking slide block 415, and the blanking air clamp 417 is fixedly connected with an output end of the blanking motor 416; the blanking air clamp 417 is driven to horizontally move through the working of the blanking electric cylinder 412, the blanking air clamp 417 is driven to move in the vertical direction through the blanking air cylinder 413, the blanking motor 416 drives the blanking air clamp 417 to rotate through the working of the blanking motor, the product is driven to rotate, the orientation of the product is adjusted, and the product is moved to the first blanking conveying belt from the rotating jig 312 through the matching work of the blanking electric cylinder 412, the blanking air cylinder 413 and the blanking air clamp 417, so that qualified products are conveyed away.

Specifically, the defective product blanking assembly 42 includes a second blanking conveyer belt 421 and a second blanking member 422, the first blanking conveyer belt 411 is disposed beside the rotary disc 311, the second blanking member 422 is located between the first blanking conveyer belt 411 and the rotary disc 311, and the second blanking member 422 has the same structure as the first blanking member; the second blanking part 422 works to move the unqualified products on the rotary jig 312 to the second blanking conveyer belt 421, so as to complete blanking.

The working principle of the invention is as follows: the products are sequentially placed on the feeding conveyer belt 21, the material moving air clamp 226 is moved to the feeding conveyer belt 21 through the matching of the material moving electric cylinder 221 and the material moving lifting cylinder 223, the products are clamped by the material moving air clamp 226, the material moving lifting cylinder 223 works to drive the products to lift, then the products are moved to the scanner 234 through the material moving electric cylinder 221 to be coded, then the products are moved to the scanning assembly through the matching of the material moving electric cylinder 221 and the material moving lifting cylinder 223, codes recorded on the products are detected through the working of the code scanning assembly 23, then the products are placed on the rotating jig 312, the rotating motor works, the rotating disc 311 is driven to rotate by the gear transmission component, the rotating jig 311 drives the rotating jig 312 to rotate, the products are driven to rotate by the rotating jig 312 to different detection assemblies 32, the detection air clamp 325 is driven to move up and down along the detection slide rail 323 through the working of the detection lifting cylinder 322, later carry the product through the work of detection gas clamp 325, when detecting gas clamp 325 centre gripping product, detection end 6 and product contact, and then detect the product, later, to qualified product, move the product from rotating tool 312 to first unloading conveyer belt through unloading electric cylinder 412, unloading cylinder 413 and unloading gas clamp 417 cooperation work, thereby carry off qualified product, to unqualified product, move the unqualified product on rotating tool 312 to second unloading conveyer belt 421 through the work of second unloading part 422, accomplish the unloading.

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, it will be understood by those skilled in the art 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 (9)

1. The utility model provides an automatic beat sign indicating number test machine which characterized in that: the automatic feeding device comprises an underframe (1), a power distribution cabinet (7) is arranged at the lower part of the underframe (1), a feeding mechanism (2), a detection mechanism (3) and a sorting and blanking mechanism (4) are arranged at the upper part of the underframe (1), the feeding mechanism (2) and the sorting and blanking mechanism (4) are respectively arranged at two sides of the detection mechanism (3), the feeding mechanism (2) comprises a feeding conveyer belt (21), a moving assembly (22) and a code scanning assembly (23), the moving assembly (22) and the code scanning assembly (23) are respectively arranged at two sides of the feeding conveyer belt (21), the code scanning assembly (23) is arranged at the tail end of the feeding conveyer belt (21), the detection mechanism (3) comprises a rotating assembly (31) and a plurality of detection assemblies (32), all the detection assemblies (32) are arranged beside the rotating assembly (31), and the sorting and blanking mechanism (4) comprises a qualified product blanking assembly (41) and a defective product blanking assembly (42), the qualified product blanking assembly (41) and the defective product blanking assembly (42) are arranged at intervals and are positioned beside the rotating assembly (31).

2. The automatic coding tester of claim 1, wherein: move material subassembly (22) including moving material electric jar (221), moving material track (222), moving material lift cylinder (223), move material piece (224), move material motor (225) and move material air clamp (226), move material electric jar (221) and be the side of level setting at feeding conveyer belt (21), move material track (222) and be vertical setting and move material track (222) and the slider fixed connection who moves material electric jar (221), move material piece (224) and install on moving material track (222) and sliding fit between the two, it is vertical setting in one side of moving material piece (224) to move material motor (225), be equipped with on the output of moving material motor (225) and move material connecting plate (227), it installs at the lower extreme that moves material connecting plate (227) to move material air clamp (226).

3. The automatic coding tester of claim 1, wherein: sweep yard subassembly (23) and include bracing piece (231), connecting rod (232), connecting block (233) and scanner (234), bracing piece (231) are the lower extreme and chassis (1) fixed connection of vertical setting and bracing piece (231), be equipped with vertical fixed orifices and horizontal fixed orifices on connecting block (233), bracing piece (231) are pegged graft in vertical fixed orifices, connecting rod (232) are pegged graft in horizontal fixed orifices, the one end at connecting rod (232) is installed in scanner (234).

4. The automatic coding tester of claim 1, wherein: an exhaust fan (5) is arranged above the feeding conveying belt (21).

5. The automatic coding tester of claim 1, wherein: the rotating assembly (31) comprises a rotating motor, a gear transmission part and a rotating disc (311), the rotating motor is arranged on the bottom frame (1), the rotating disc (311) is located above the rotating motor and is rotationally connected with the bottom frame (1) through the rotating disc (311), the rotating motor is in transmission connection with the rotating disc (311) through the gear transmission part, a plurality of rotating jigs (312) distributed circumferentially are arranged on the rotating disc (311), and each rotating jig (312) is provided with a jig groove.

6. The automatic coding tester of claim 1, wherein: every detection element (32) all includes detection frame (321), detects lift cylinder (322), detects slide rail (323), detects slider (324) and detects gas clamp (325), detection frame (321) set up on the side of runner assembly (31), it is vertical setting at the side of detecting frame (321) to detect slide rail (323), detect slider (324) set up on detecting slide rail (323) and sliding fit between the two, it is vertical setting and is detecting the output of lift cylinder (322) and the upper end fixed connection who detects slider (324) in the upper end of detecting frame (321) and detecting lift cylinder (322) to detect lift cylinder (322), it is vertical setting in one side that detects slider (324) to detect gas clamp (325).

7. The automatic coding tester of claim 6, wherein: and a detection end (6) is arranged on the output end of each detection air clamp (325).

8. The automatic coding tester of claim 5, wherein: qualified product unloading subassembly (41) includes first unloading conveyer belt (411) and first unloading part, first unloading part sets up in the top of first unloading conveyer belt (411), first unloading part includes unloading electric jar (412), unloading cylinder (413), unloading slide rail (414), unloading slider (415), unloading motor (416) and unloading air clamp (417), unloading electric jar (412) are the level and set up the top at first unloading conveyer belt (411), unloading slide rail (414) are vertical setting on the slider of unloading electric jar (412), unloading slider (415) set up on unloading slide rail (414) and sliding fit between the two, unloading motor (416) set up the one side at unloading slider (415), unloading air clamp (417) and the output fixed connection of unloading motor (416).

9. The automatic coding tester of claim 8, wherein: the defective product blanking assembly (42) comprises a second blanking conveying belt (421) and a second blanking part (422), the first blanking conveying belt (411) is arranged beside the rotating disc (311), the second blanking part (422) is arranged between the first blanking conveying belt (411) and the rotating disc (311), and the second blanking part (422) and the first blanking part are identical in structure.

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