CN215997614U

CN215997614U - Core characteristic detection equipment

Info

Publication number: CN215997614U
Application number: CN202122112192.3U
Authority: CN
Inventors: 林英德; 张洋
Original assignee: Panasonic Electronic Devices Jiangmen Co Ltd
Current assignee: Panasonic Electronic Devices Jiangmen Co Ltd
Priority date: 2021-09-02
Filing date: 2021-09-02
Publication date: 2022-03-11
Anticipated expiration: 2031-09-02

Abstract

The utility model discloses a core characteristic check out test set, include: the jig circulating line body and the characteristic detection device. The jig circulating line body comprises a plurality of core jigs moving along a circulating conveying track. The characteristic detection device includes a first detection unit, a second detection unit, a first detection drive member, and a second detection drive member. The first detection unit and the second detection unit are arranged at the side of the circular conveying track in pairs. The first detection driving member and the second detection driving member are used to drive the first detection unit and the second detection unit, respectively. The utility model discloses a core characteristic check out test set can realize the automated inspection of condenser core. The utility model discloses can be applied to in the condenser automated processing production.

Description

Core characteristic detection equipment

Technical Field

The utility model relates to a condenser automated production technical field, in particular to core characteristic check out test set.

Background

The capacitor is an important part of the new energy automobile. The capacitor has no chemical reaction and mechanical motion of high-speed rotation and the like in the charging and discharging processes, has simple structure, light weight, small volume, low pollution and no noise, and is an ideal energy accumulator. In the production process of the capacitor, the core of the capacitor needs to be subjected to characteristic detection so as to determine various electrical performance indexes of the core. The core has more characteristic detection items, and the manual detection means in the prior art cannot meet the production requirement of the capacitor; and the characteristic detection of the core needs to be carried out charging and discharging, and the condition of detection abnormity and misjudgment easily caused by improper operation is detected manually.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a core characteristic check out test set to solve one or more technical problem that exist among the prior art, provide a profitable selection or create the condition at least.

The technical scheme adopted for solving the technical problems is as follows:

a core characteristic detecting apparatus comprising: a jig circulating line body and a characteristic detection device;

the jig circulating line body comprises a plurality of core jigs, the core jigs circularly move to form a closed-loop circulating conveying track, and the core jigs are uniformly arranged at equal intervals along the circulating conveying track;

the characteristic detection device includes a first detection unit, a second detection unit, a first detection drive member, and a second detection drive member; taking one or more sections of the circular conveying track as a characteristic detection section, wherein the first detection unit and the second detection unit are arranged at the side of the characteristic detection section in pairs, the first detection unit is provided with a first detection end, and the second detection unit is provided with a second detection end; the first detection driving component is provided with a first detection driving end which is connected with the first detection unit and enables the first detection end to move relative to the characteristic detection section; the second detection driving member is provided with a second detection driving end which is connected with the second detection unit and enables the second detection end to move relative to the characteristic detection section.

The utility model provides a core characteristic check out test set has following beneficial effect at least: the core clamp in the clamp circulating line body can drive the capacitor core to move along a closed-loop circulating conveying track, and circulation of the core clamp is achieved. The first detection driving component and the second detection driving component can respectively drive the first detection unit and the second detection unit to move relative to the fixture circulating line body, so that the first detection end and the second detection end can respectively abut against two electrode ends of a capacitor core on the core fixture, the capacitor core is charged and discharged, and the accurate performance judgment and detection of the capacitor core are realized. The utility model discloses a core characteristic check out test set drives condenser core cooperation characteristic detection device through the core anchor clamps, can realize the automated inspection of condenser core, has improved detection efficiency and detection accuracy.

As a further improvement of the above technical scheme, the jig circulation line body further includes a circulation conveying track and a circulation conveying driving member, the circulation conveying track is in a closed loop shape and is in smooth transition, the core clamps are slidably connected with the circulation conveying track, the circulation conveying driving member is provided with circulation conveying driving ends which are in transmission connection with the core clamps and enable the core clamps to slide along the circulation conveying track, the number of the circulation conveying driving ends is consistent with the number of the core clamps, and the circulation conveying driving ends and the core clamps are arranged in a one-to-one correspondence manner.

Through the technical scheme, the circular conveying track can provide guidance for the circular movement of the core clamps, so that each core clamp can move along a specific path to form the circular conveying track. The circular conveying driving component can drive the core clamps to move simultaneously, so that the core clamps can move synchronously to each detection position in sequence, and automatic detection is realized.

As a further improvement of the above technical solution, the first detection unit and the second detection unit are oppositely disposed in pairs on two sides of the characteristic detection section in the horizontal direction, the first detection driving member and the second detection driving member are oppositely disposed in the horizontal direction, and the first detection unit and the second detection unit are mutually connected in a transmission manner, so that the first detection unit and the second detection unit are synchronously close to each other or away from each other in an opposite direction.

Two electrode ends of the capacitor core are generally respectively arranged at two ends of the capacitor core, and through the technical scheme, the first detection driving component and the second detection driving component can drive the first detection unit and the second detection unit to move in opposite directions, so that the electrode ends at the two ends of the core can be abutted and tightly connected by the first detection end and the second detection end, and detection is realized. The first detection unit and the second detection unit are in synchronous transmission connection, so that the first detection unit and the second detection unit can synchronously act at the same beat, the materials on the core jig are uniformly stressed, and deflection cannot occur.

As a further improvement of the above technical solution, the core characteristic detection device further includes an upper and lower tray device, the upper and lower tray device includes a tray mechanism, a material taking and placing gripper, and a material taking and placing driving member, the material taking and placing driving member is located beside the material taking and placing section, and the material taking and placing driving member is provided with a material taking and placing driving end which is in driving connection with the material taking and placing gripper and enables the material taking and placing gripper to move relative to the tray mechanism and the material taking and placing section.

Through the technical scheme, through the charging tray mechanism carries and fixes for the core charging tray, get to expect that drive member can drive get to expect that the claw removes, snatchs the core in the charging tray mechanism for the core can be followed the charging tray from the charging tray to the unloading section or from the unloading section to the charging tray in, realize the automatic unloading of core material.

As a further improvement of the above technical scheme, the side of the feeding and discharging section is provided with a temporary storage table, the core characteristic detection equipment further comprises a linear body feeding and discharging device, and the linear body feeding and discharging device comprises: the feeding and discharging gripper is arranged above the temporary storage table and the feeding and discharging section, and the feeding and discharging driving component is used for driving the feeding and discharging gripper to move back and forth between the temporary storage table and the feeding and discharging section.

Through the technical scheme, the feeding and discharging driving component can drive the feeding and discharging gripper to carry materials on the core clamp and the temporary storage table. The material that controls in the anchor clamps circulation line body can be in with the material of charging tray the platform of keeping in is exchanged and is kept in, makes the transport action of going up unloading dish device and core anchor clamps can cushion through the platform of keeping in temporarily, thereby lets go up unloading dish device adapts to the transport beat of core anchor clamps better.

As a further improvement of the above technical scheme, use one of them section the circulation conveying track is the size detection section, core characteristic check out test set still includes size detection device, size detection device includes length determine module, width determine module and high determine module, length determine module, width determine module and high determine module all locate the side of size detection section, length determine module, width determine module and high determine module are used for detecting respectively the corresponding size of material on the core anchor clamps in the size detection section.

Through the technical scheme, the size detection device measures the length, width and height of the material on the core clamp respectively through the length detection assembly, the width detection assembly and the height detection assembly, and ensures that the size specification of the product meets the production requirement.

As a further improvement of the above technical solution, the core characteristic detection apparatus further includes a code spraying device, the code spraying device includes a code spraying head and a code spraying driving member, and the code spraying driving member is provided with a code spraying driving end which is in transmission connection with the code spraying head and enables the code spraying head to move relative to the jig circulating line body.

Through the technical scheme, the code spraying driving component can drive the code spraying head to move relative to the core clamp, so that the code spraying head can print specific marks on the surface of the material on the core clamp to record detection results of various characteristics of the material.

As a further improvement of the above technical scheme, one of the sections of the circulating conveying track is a code spraying section, the code spraying head is arranged above the code spraying section, the code spraying device further comprises a code spraying positioning component, the code spraying positioning component comprises a code spraying positioning driving component and two code spraying positioning claw pieces, the two code spraying positioning claw pieces are respectively arranged at the left side and the right side of the code spraying section, and the code spraying positioning driving component is used for driving the two code spraying positioning claw pieces to approach to or keep away from each other.

Through the technical scheme, spout a yard location drive component and can drive two spout a yard location claw piece and press from both sides tightly fixedly with the material on the core anchor clamps, the material takes place to squint when avoiding spouting the sign indicating number, can improve the position degree precision of spouting the sign indicating number simultaneously, ensures to spout the mark code at the same position every time, makes things convenient for the subsequent handling to read the sign indicating number.

As a further improvement of the above technical solution, one of the sections of the circular conveying track is used as a code reading section, the code spraying device further comprises a code reading assembly, the code reading assembly comprises a code reading head and a code reading driving member, the code reading head is arranged above the code reading section, and the code reading driving member is provided with a code reading driving end which is in transmission connection with the code reading head and enables the code reading head to move relative to the code reading section.

Through the technical scheme, the code reading driving component can drive the code reading head to move, so that the code reading head can read the codes of the materials on the corresponding core clamp, and whether all detection data meet the specification requirements is determined.

As a further improvement of the technical scheme, the core characteristic detection equipment further comprises a clamp cleaning device, wherein the clamp cleaning device comprises a cleaning cover, an air outlet component and an air draft component, the cleaning cover covers the cleaning section, the air outlet component and the air draft component are communicated with the inner side of the cleaning cover, the air outlet component is provided with an air outlet, and the air draft component is communicated with an exhaust fan.

Through above-mentioned technical scheme, the air-out component can blow the bits to core anchor clamps, avoids the burr piece of material to cause the influence to the testing result, and the dust piece that blows off etc. can be taken away through the convulsions component, it can avoid clean in-process dust bits to fly upward to wash the cover.

Drawings

The present invention will be further explained with reference to the drawings and examples;

FIG. 1 is a top view of one embodiment of a core characteristic inspection apparatus provided in the present invention;

FIG. 2 is a top view of one embodiment of a core characteristic inspection apparatus provided in the present invention;

FIG. 3 is a schematic perspective view of one embodiment of a core characteristic inspection apparatus according to the present invention;

FIG. 4 is a schematic perspective view of one embodiment of a core characteristic inspection apparatus according to the present invention;

FIG. 5 is an enlarged view of a portion of area A of FIG. 1;

fig. 6 is a partially enlarged view of the region B in fig. 3.

In the figure, 100, a jig circulating line body, 110, a core jig, 200, a characteristic detection device, 210, a first detection unit, 220, a second detection unit, 230, a first detection driving component, 240, a second detection driving component, 300, a feeding and discharging disc device, 310, a disc mechanism, 320, a material taking and discharging driving component, 400, a line body feeding and discharging device, 410, a temporary storage table, 420, a feeding and discharging paw, 430, a feeding and discharging driving component, 500, a size detection device, 600, a code spraying device, 610, a code spraying head, 620, a code spraying driving component, 630, a code spraying positioning component, 640, a code reading component, 641, a code reading head, 642, a code reading driving component, 700 and a jig cleaning device.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, if words such as "a plurality" are used, the meaning is one or more, the meaning of a plurality of words is two or more, and the meaning of more than, less than, more than, etc. is understood as not including the number, and the meaning of more than, less than, more than, etc. is understood as including the number.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1 to 6, the core characteristic detecting apparatus of the present invention makes the following embodiments:

a core characteristic detecting apparatus comprising: the jig cleaning device comprises a loading and unloading disc device 300, a wire body loading and unloading device 400, a jig circulating wire body 100, a size detection device 500, a characteristic detection device 200, a code spraying device 600 and a jig cleaning device 700.

The jig circulation line body 100 includes: an endless transport track, an endless transport drive member, and a plurality of core clamps 110. The circulating conveying track is in a closed loop shape and is in smooth transition. The core clamps 110 are all connected with the circulating conveying track in a sliding mode, and the core clamps 110 are uniformly arranged at equal intervals along the circulating conveying track. In this embodiment, the circular conveying track is in a rectangular ring shape, and four corners of the circular conveying track are rounded corners. In other embodiments, the endless conveying track may take other closed loop shapes as desired.

The circulating conveying driving member is provided with a circulating conveying driving end which is in transmission connection with the core clamp 110 and enables the core clamp 110 to slide along the circulating conveying track. The number of the circulating conveying driving ends is consistent with that of the core clamps 110, and the circulating conveying driving ends are arranged in one-to-one correspondence with the core clamps 110.

In this embodiment, the endless conveyance driving member includes a driving chain, a driving sprocket, and an endless conveyance driving unit. The driving chain and the driving chain wheel are in meshed transmission, and the driving chain wheels are arranged along the circular conveying track, so that the driving chain is consistent with the circular conveying track in shape. The circulating conveying driving unit is in transmission connection with the driving chain wheel, so that the driving chain wheel drives the driving chain to circularly move along the circulating conveying track. The core jigs are all in transmission connection with the driving chain, so that the core jig 110 circularly moves along a closed-loop circular conveying track.

The circular conveying track is consistent with the circular conveying track in shape. The circular conveying track comprises a feeding and discharging section, a size detection section, a characteristic detection section, a code spraying section, a code reading section and a cleaning section. The feeding and discharging section, the size detection section, the characteristic detection section, the code spraying section and the code reading section are sequentially arranged along the movement direction of the core clamp 110.

The loading and unloading tray device 300 includes: a tray mechanism 310, a material taking and placing gripper and a material taking and placing driving member 320. The tray mechanism 310 is arranged beside the feeding and discharging sections. A temporary storage table 410 is also arranged beside the feeding and discharging section. The line body loading and unloading device 400 includes: a loading and unloading gripper 420 and a loading and unloading drive member 430.

The material taking and placing driving component 320 is provided with a material taking and placing driving end which is in driving connection with the material taking and placing claw and enables the material taking and placing claw to move relative to the tray mechanism 310 and the temporary storage table 410. The feeding and discharging gripper 420 is disposed above the temporary storage table 410 and the feeding and discharging section, and the feeding and discharging driving member 430 is configured to drive the feeding and discharging gripper 420 to reciprocate between the temporary storage table 410 and the feeding and discharging section.

In this embodiment, the material taking and placing driving member 320 is a horizontal multi-joint robot. The horizontal multi-joint robot is one of four-axis robots, has X, Y, Z-direction translational freedom and Z-axis rotational freedom, and can move up and down in the Z-axis direction and rotate around the Z-axis at the installation end of the working component. The material taking and placing driving component 320 can drive the material taking and placing claw to move accurately, so as to complete the material taking and placing actions at multiple positions on the material tray mechanism 310. In some embodiments, the material taking and placing driving member 320 may adopt a three-axis transfer mechanism, and the three lead screw nut driving assemblies are mutually arranged in a transmission manner along the direction X, Y, Z respectively to drive the material taking and placing gripper to move relative to the material on the tray mechanism 310. In other embodiments, the material taking and placing driving component 320 may also adopt other multi-axis robots as required.

The loading and unloading driving member 430 includes an loading and unloading translation driving unit and an loading and unloading elevation driving unit. The temporary storage table 410 is flush with the feeding and discharging section. The feeding and discharging translation driving unit is provided with a feeding and discharging translation driving end which is in transmission connection with the feeding and discharging claw 420 and enables the feeding and discharging claw 420 to horizontally move relative to the temporary storage table 410 and the feeding and discharging section, and the feeding and discharging lifting driving unit is provided with a feeding and discharging lifting driving end which is in transmission connection with the feeding and discharging translation driving unit and enables the feeding and discharging translation driving unit and the feeding and discharging claw 420 to vertically move relative to the temporary storage table 410 and the feeding and discharging section. In this embodiment, go up unloading translation drive unit and go up unloading lift drive unit and be the cylinder.

The size detection apparatus 500 includes a length detection assembly, a width detection assembly, and a height detection assembly. The length detection assembly, the width detection assembly and the height detection assembly are all arranged on the side of the size detection section, and the length detection assembly, the width detection assembly and the height detection assembly are respectively used for detecting the material size on the core clamp 110 in the size detection section.

The height detection assembly is provided with a detection pressing block and a detection air cylinder, and the detection air cylinder is used for driving the detection pressing block. The detection cylinder is arranged along the height direction of the material and is provided with a cylinder stroke controller, and the height size of the material can be obtained through the feedback of the pressing stroke of the cylinder. The length detection assembly and the width detection assembly can adopt a structure similar to that of the height detection assembly, and can also be used for measurement through a pair of laser sensors arranged along the measurement direction.

The characteristic detection device 200 includes: a first detection unit 210, a second detection unit 220, a first detection driving member 230, and a second detection driving member 240.

The first and second detecting

units

210 and 220 are oppositely disposed in pairs on both sides of the characteristic detecting section in the horizontal direction. The first detecting unit 210 is provided with a first detecting end, and the second detecting unit 220 is provided with a second detecting end. The first detection driving member 230 is provided with a first detection driving end connected to the first detection unit 210 and moving the first detection end with respect to the characteristic detection section. The second detection driving member 240 is provided with a second detection driving end connected to the second detection unit 220 and moving the second detection end relative to the characteristic detection section.

The characteristic detection section has a plurality of stages, and the characteristic detection device 200 is provided in plurality correspondingly. In the present embodiment, the first detection driving member 230 and the second detection driving member 240 are air cylinders disposed to face each other in the horizontal direction. The first detecting unit 210 and the second detecting unit 220 are grouped into one group, each group of the first detecting unit 210 corresponds to one of the first detecting driving members 230, and each group of the second detecting unit 220 corresponds to one of the second detecting driving members 240. The intervals between the first sensing units 210 correspond to the intervals of the core clamps 110.

The first detecting unit 210 and the second detecting unit 220 are mutually connected in a transmission manner, so that the first detecting unit 210 and the second detecting unit 220 are synchronously close to each other or away from each other in an opposite manner.

The code spraying device 600 comprises a code spraying head 610, a code spraying positioning component 630 and a code spraying driving component 620. The code spraying positioning component 630 comprises a code spraying positioning driving component and two code spraying positioning claw pieces. The code spraying positioning driving component is used for driving the two code spraying positioning claw pieces to be close to or far away from each other in opposite directions. The spray head 610 is disposed above the spray code section. The code spraying driving member 620 is provided with a code spraying driving end which is in transmission connection with the code spraying head 610 and enables the code spraying head 610 to move relative to the jig circulating line body 100.

The code reading assembly 640 includes a code reading head 641 and a code reading driving member 642. The reading head 641 is disposed above the code reading section. The code reading driving member 642 is provided with a code reading driving end which is in transmission connection with the code reading head 641 and enables the code reading head 641 to move relative to the code reading segment.

In some embodiments, a defective product placing table is disposed beside the loading and unloading tray device 300. The reading head 641 reads the material code, and when the detection result of the material is out of specification, the material is placed on the defective product placing table through the feeding and discharging disc device 300 to wait for manual collection.

In this embodiment, the number of the temporary storage table 410, the loading and unloading tray device 300, and the wire loading and unloading tray device 400 is two. One group of the temporary storage table 410, the loading and unloading disc device 300 and the wire body loading and unloading device 400 is used for loading, and the other group is used for unloading. The cleaning section is arranged in the feeding and discharging section. The two temporary storage tables 410 are respectively arranged at two ends of the cleaning section.

The jig cleaning device 700 includes a cleaning cover, an air outlet member, and an air exhausting member. The cleaning cover is covered on the cleaning section, the air outlet component and the air draft component are communicated with the inner side of the cleaning cover, the air outlet component is provided with an air outlet, and the air draft component is communicated with the exhaust fan. The core clamp 110 arranged between the feeding and discharging stations is not provided with materials, and the clamp cleaning device 700 can obtain a better cleaning effect.

While the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the foregoing and various other changes, omissions and deviations in the form and detail thereof may be made without departing from the scope of this invention.

Claims

1. A core characteristic detection apparatus, characterized by: the method comprises the following steps:

the jig circulating line body (100) comprises a plurality of core jigs (110), the core jigs (110) move circularly to form a closed-loop circulating conveying track, and the core jigs (110) are uniformly arranged at equal intervals along the circulating conveying track;

a characteristic detection device (200), the characteristic detection device (200) comprising a first detection unit (210), a second detection unit (220), a first detection drive member (230), and a second detection drive member (240); taking one or more sections of the circular conveying track as a characteristic detection section, wherein the first detection unit (210) and the second detection unit (220) are arranged at the side of the characteristic detection section in pairs, the first detection unit (210) is provided with a first detection end, and the second detection unit (220) is provided with a second detection end; the first detection driving component (230) is provided with a first detection driving end which is connected with the first detection unit (210) and enables the first detection end to move relative to the characteristic detection section; the second detection driving member (240) is provided with a second detection driving end which is connected with the second detection unit (220) and enables the second detection end to move relative to the characteristic detection section.

2. The core characteristic detecting apparatus according to claim 1, wherein: the jig circulating line body (100) further comprises a circulating conveying track and a circulating conveying driving component, the circulating conveying track is in a closed loop shape and is in smooth transition, the core clamps (110) are in sliding connection with the circulating conveying track, the circulating conveying driving component is provided with circulating conveying driving ends which are in transmission connection with the core clamps (110) and enable the core clamps (110) to slide along the circulating conveying track, the number of the circulating conveying driving ends is consistent with that of the core clamps (110), and the circulating conveying driving ends are arranged in one-to-one correspondence with the core clamps (110).

3. The core characteristic detecting apparatus according to claim 1, wherein: the first detection unit (210) and the second detection unit (220) are arranged on two sides of the characteristic detection section in opposite directions in pairs, the first detection driving component (230) and the second detection driving component (240) are arranged in opposite directions in the horizontal direction, and the first detection unit (210) and the second detection unit (220) are in transmission connection with each other to enable the first detection unit (210) and the second detection unit (220) to synchronously approach to each other or to be away from each other in opposite directions.

4. The core characteristic detecting apparatus according to claim 1, wherein: the core characteristic detection equipment further comprises a feeding and discharging disc device (300), wherein the feeding and discharging disc device (300) comprises a disc mechanism (310), a feeding and discharging claw and a feeding and discharging driving component (320), the circular conveying track is a feeding and discharging section, the disc mechanism (310) is arranged on the side of the feeding and discharging section, and the feeding and discharging driving component (320) is provided with a feeding and discharging claw driving connection and driving connection, so that the feeding and discharging claw is relative to the feeding and discharging claw mechanism (310) and the feeding and discharging driving end of the feeding and discharging section moving.

5. The core characteristic detecting apparatus according to claim 4, wherein: the side of material section is equipped with temporary storage platform (410) from top to bottom, core characteristic check out test set still includes unloading device (400) on the line body, unloading device (400) include on the line body: the feeding and discharging mechanism comprises a feeding and discharging claw (420) and a feeding and discharging driving member (430), wherein the feeding and discharging claw (420) is arranged above the temporary storage table (410) and the feeding and discharging section, and the feeding and discharging driving member (430) is used for driving the feeding and discharging claw (420) to reciprocate between the temporary storage table (410) and the feeding and discharging section.

6. The core characteristic detecting apparatus according to claim 1, wherein: use one of them section the endless transport orbit is the size detection section, core characteristic check out test set still includes size detection device (500), size detection device (500) include length determine module, width determine module and high determine module, length determine module, width determine module and high determine module all locate the side of size detection section, length determine module, width determine module and high determine module are used for detecting respectively the corresponding size of material is gone up to core anchor clamps (110) in the size detection section.

7. The core characteristic detecting apparatus according to claim 1, wherein: the core characteristic detection equipment further comprises a code spraying device (600), the code spraying device (600) comprises a code spraying head (610) and a code spraying driving member (620), and the code spraying driving member (620) is provided with a code spraying driving end which is in transmission connection with the code spraying head (610) and enables the code spraying head (610) to move relative to the jig circulating line body (100).

8. The core characteristic detecting apparatus according to claim 7, wherein: use one of them section the endless conveyor orbit is for spouting the sign indicating number section, spout pier (610) and locate spout the top of sign indicating number section, spout sign indicating number device (600) still including spouting a yard locating component (630), spout a yard locating component (630) including spouting a yard location drive member and two spout a yard location claw pieces, two spout a yard location claw piece and locate respectively spout the left and right sides of sign indicating number section, spout a yard location drive member and be used for driving two spout a yard location claw piece and be close to or keep away from each other in opposite directions.

9. The core characteristic detecting apparatus according to claim 7, wherein: the code spraying device (600) further comprises a code reading assembly (640), the code reading assembly (640) comprises a code reading head (641) and a code reading driving member (642), the code reading head (641) is arranged above the code reading section, and the code reading driving member (642) is provided with a code reading driving end which is in transmission connection with the code reading head (641) and enables the code reading head (641) to move relative to the code reading section.

10. The core characteristic detecting apparatus according to claim 1, wherein: use one of them section the circulation conveying orbit is for wasing the section, core characteristic check out test set still includes anchor clamps belt cleaning device (700), anchor clamps belt cleaning device (700) are including wasing cover, air-out component and convulsions component, wash cover cage cover in wash the section, air-out component and convulsions component all with wash the inboard intercommunication of cover, the air-out component is equipped with the air outlet, convulsions component is linked together with the air exhauster.