CN207170287U - A kind of battery automatic detection device - Google Patents
A kind of battery automatic detection device Download PDFInfo
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- CN207170287U CN207170287U CN201721094768.5U CN201721094768U CN207170287U CN 207170287 U CN207170287 U CN 207170287U CN 201721094768 U CN201721094768 U CN 201721094768U CN 207170287 U CN207170287 U CN 207170287U
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Abstract
The utility model belongs to battery check device technical field, a kind of battery automatic detection device is provided, including the drift component for clamping several battery battery cores, it is connected on the drift component and for clamping or unclamping the first drive component of the battery battery core and be connected on the drift component and be used for the light sensation component for detecting the battery battery core, and it is connected in the drift component and is used for the second drive component for driving the battery battery core edge to be moved perpendicular to the light sensation component exit direction and be connected on the drift component and be used for the adjusting part for setting the battery battery core to pass through boundary on the drift component;So it is limited can to solve existing testing agency detection data for design, the detection angles of detection means and the accuracy rate of detection and it is less efficient the problem of.
Description
Technical field
The utility model belongs to battery check device technical field, more particularly to a kind of battery automatic detection device.
Background technology
Cylindrical battery causes damage, it is necessary to battery core external diameter in process of production, in order to avoid entering shell process to battery core
Detected, prevented swollen or too small, cause battery quality problem, and then ensure battery production safety.
Cylindrical battery manufacturing equipment producer has all added coherent detection mechanism more at present, typically using optical measurement sensors
Battery core external diameter is detected, but in use because battery core has certain length in itself, optical testing device is only capable of detecting
The external diameter of single-point, can not detect the external diameter in any section of battery core, therefore the accuracy of testing result has to be hoisted, while light beam
Detection angles or equipment vibration etc. can influence detection accuracy and efficiency and optical sensor cost it is high.
Utility model content
The purpose of this utility model is to provide a kind of battery automatic detection device, it is intended to solves existing testing agency's inspection
Survey data it is limited, the accuracy rate of detection and it is less efficient the problem of.
The utility model so solves:A kind of battery automatic detection device, including for clamping several batteries electricity
The drift component of core, be connected on the drift component and for clamp or unclamp the battery battery core the first drive component and
It is connected on the drift component and for detecting the light sensation component of the battery battery core, and is connected in the drift component
And for driving the battery battery core along the second drive component moved perpendicular to the light sensation component exit direction and being connected to
On the drift component and for set the battery battery core on the drift component pass through boundary adjusting part.
Further, the drift component includes support unit, the first grip unit being connected on the support unit
With the second grip unit, the battery battery core is arranged between first grip unit and second grip unit, described
First drive component is connected to one end and/or both ends of first grip unit and second grip unit.
Further, first grip unit include be connected on the support unit the first connecting plate, be connected to
The first connected unit and the first link slot being opened in first connected unit, second folder on the inside of first connecting plate
Hold the second connecting plate that unit includes being connected on the support unit, the second connection being connected on the inside of second connecting plate
Platform and the second link slot being opened in second connected unit, first link slot and second link slot coordinate clamping
The battery battery core.
Further, first connected unit and second connected unit are oppositely arranged, first link slot and described
The quantity of second link slot is multiple, and multiple first link slots are disposed side by side in first connected unit, multiple
Second link slot is disposed side by side in second connected unit, and each first link slot face one described second connects
Access slot.
Further, first drive component includes being connected in first grip unit and for driving described the
The first actuator that one grip unit moves toward and away from second grip unit, and it is connected to the second clamping list
In member and for driving the second actuator that second grip unit moves toward and away from first grip unit.
Further, the light sensation component includes the first supporting plate being connected on first connecting plate and is connected to institute
The second supporting plate on the second connecting plate is stated, and the light transmitter unit being connected in first supporting plate and is connected to institute
The light receiver unit in the second supporting plate is stated, the light transmitter unit is oppositely arranged with the light receiver unit.
Further, the light transmitter unit is also corresponded on first connecting plate and offers first through hole, described
The light receiver unit is also corresponded on two connecting plates and offers the second through hole, the first through hole is located at first connected unit
Lower section, second through hole are located at below second connected unit.
Further, second drive component includes being connected to the second actuator on the support unit, for propping up
Support the support member of multiple battery battery cores and be connected on second actuator and be used to drive the support member described
The drive rod moved up and down between first grip unit and second grip unit.
Further, second drive component also includes being connected on the support unit and for being oriented to the support
The guidance set of part moving direction.
Further, the adjusting part includes the micrometer being connected in first grip unit and is connected to described
It is in second grip unit and opposite with micrometer cooperation restriction first grip unit and second grip unit
The retainer of displacement.
The technique effect that battery automatic detection device provided by the utility model has relative to existing technology is:Pass through
The setting of drift component, and the first drive component is set on drift component, and then can ensure that battery battery core is connected to drift
Stability on component, while light sensation component is arranged on drift component, and then the stability in detection process can be ensured,
Influence of the extraneous factors such as the vibration of detection angles or equipment of light beam to testing result is avoided, and then is able to detect that battery
The external diameter that battery core is each put;Second drive component can drive outgoing of the battery battery core along the light beam sent perpendicular to light sensation component
Direction is moved, and then battery battery core, with the process of the movement of the second drive component, light sensation component is persistently to the outer of battery battery core
Footpath progressive detection, so as to ensure to detect the integrality of data, detection error caused by single-point detection is avoided, in addition adjusting part
Set different current boundary can be set according to the external diameter of different battery battery cores, and then ensure the generally applicable of whole device
Property.
Brief description of the drawings
, below will be to embodiment or prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model
The required accompanying drawing used is briefly described in description, it should be apparent that, drawings in the following description are only that this practicality is new
Some embodiments of type, for those of ordinary skill in the art, without having to pay creative labor, can be with
Other accompanying drawings are obtained according to these accompanying drawings.
Fig. 1 is battery automatic detection device that the utility model embodiment provides along the structural perspective on main view direction.
Fig. 2 is battery automatic detection device that the utility model embodiment provides along the structural perspective in side-looking direction.
Fig. 3 is the structure decomposition figure for the battery automatic detection device that the utility model embodiment provides.
Fig. 4 is the structure chart of part-structure in the battery automatic detection device that the utility model embodiment provides.
Wherein, 10 drift component, 11 first grip units, 111 first connecting plates, 112 first connected units, 113 first connect
Access slot, 114 first through hole, 115 second through holes, 12 second grip units, 121 second connecting plates, 122 second connected units, 123
Two link slots, 20 battery battery cores, 30 light sensation components, 31 light transmitter units, 32 light receiver units, 33 first supporting plates, 34
Second supporting plate, 40 first drive components, 41 first actuators, 42 second actuators, 50 second drive components, 51 support members,
52 drive rods, 53 second actuators, 54 leads, 60 adjusting parts, 61 micrometers, 62 retainers, 70 support units, 71 ends
Lid, 72 side walls, 73 bases.
Embodiment
In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation
Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only explaining
The utility model, it is not used to limit the utility model.
It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, it can be directly another
On one element or it is connected on another element.When an element is known as " being connected to " another element, it can be with
It is directly to another element or is indirectly connected on another element.
It is to be appreciated that term " length ", " width ", " on ", " under ", "front", "rear", "left", "right", " vertical ",
The orientation or position relationship of the instruction such as " level ", " top ", " bottom " " interior ", " outer " are to be closed based on orientation shown in the drawings or position
System, it is for only for ease of and describes the utility model and simplified description, rather than the device or element of instruction or hint meaning is necessary
With specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.
In addition, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance
Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can be expressed or
Implicitly include one or more feature.In description of the present utility model, " multiple " be meant that two or two with
On, unless otherwise specifically defined.
Accompanying drawing 1 be refer to shown in Fig. 4, in the utility model embodiment, there is provided a kind of battery automatic detection device, bag
The first drive component 40 for include drift component 10, being connected on drift component 10, the light sensation component being connected on drift component 10
30 and the second drive component 50 for being connected on drift component 10, and the adjusting part 60 being connected on drift component 10.It is logical
Rule component 10 is used to clamp several battery battery cores 20, preferably several herein, can also realize multiple battery battery cores 20
Detect simultaneously.First drive component 40 is used to drive drift component 10 to clamp or unclamp battery battery core 20, so as to realize battery
The clamping of battery core 20 and unload.Light sensation component 30 is preferably to be fixedly connected on the side of drift component 10, and light sensation component
30 light direction is preferably normal to the side wall of drift component 10, and so design can ensure the stability of light direction.
Second drive component 50 can drive the spacing battery battery core 20 being connected on drift component 10 to be moved relative to drift component 10,
And the moving direction of battery battery core 20 is vertical with the light direction of light sensation component 30, the point of light sensation component 30 can so be examined
Survey is changed to face detection, so as to ensure the integrality of the detection of battery battery core 20.The setting of adjusting part 60 can set drift component
To the current boundary of battery battery core 20 on 10, namely different current boundaries is set according to the actual outside diameter of battery battery core 20, from
And ensure the versatility of device.
The battery automatic detection device of design above, by the setting of drift component 10, and is set on drift component 10
First drive component 40, and then the stability that battery battery core 20 is connected on drift component 10 can be ensured, while by light sensation group
Part 30 is arranged on drift component 10, and then can ensure the stability in detection process, avoid light beam detection angles or
Influence of the extraneous factors such as the vibration of equipment to testing result, and then it is able to detect that the external diameter that battery battery core 20 is each put;The
Two drive components 50 can drive exit direction of the battery battery core 20 along the light beam sent perpendicular to light sensation component 30 to move, and then
Battery battery core 20 is persistently carried out with the process of the movement of the second drive component 50, light sensation component 30 to the external diameter of battery battery core 20
Detection, so as to ensure to detect the integrality of data, the setting of detection error, in addition adjusting part 60 caused by avoiding single-point detection
Different current boundaries can be set according to the external diameter of different battery battery cores 20, and then ensure the broad applicability of whole device.
Specifically, as shown in Figure 3 and Figure 4, in the utility model embodiment, drift component 10 include support unit 70,
The first grip unit 11 and the second grip unit 12 being connected on support unit 70.Support unit 70 is used to support whole first
The grip unit 12 of grip unit 11 and second, ensure the stability of whole device.Battery battery core 20 is spacing to be connected to the first clamping
Between the grip unit 12 of unit 11 and second, namely battery battery core 20 is between the first grip unit 11 and the second grip unit 12
It is mobile.First drive component 40 is connected to one end and/or both ends of the first grip unit 11 and the second grip unit 12.
In the present embodiment, support unit 70 is located above the first grip unit 11 and the second grip unit 12 including lid
End cap 71, support are connected to the first grip unit 11 and the side wall 72 of the both sides of the second grip unit 12, and positioned at bottom and propped up
Support the support base 73 of the second drive component 50.
In the present embodiment, the first grip unit 11 and the second grip unit 12 are oppositely arranged, when the first drive component 40
When being arranged on same one end of the first grip unit 11 and the second grip unit 12, the first grip unit 11 and the second grip unit 12
Opposite side link together;The both ends of the same grip unit 12 of first grip unit 11 and second are all connected with the first driving group
During part 40, the both ends of the first grip unit 11 and the second grip unit 12 are all not connected to.
Specifically, as shown in figure 3, in the utility model embodiment, the first grip unit 11 includes being connected to support list
The first connecting plate 111 in member 70, it is connected to the first connected unit 112 of the inner side of the first connecting plate 111 and is opened in the first connection
The first link slot 113 on platform 112;Second grip unit 12 includes the second connecting plate 121, the company being connected on support unit 70
The second connected unit 122 of the inner side of the second connecting plate 121 and the second link slot 123 being opened in the second connected unit 122 are connected on, the
One link slot 113 and the second link slot 123 coordinate clamping battery battery core 20.
In the present embodiment, the first connected unit 112 is connected to the top of the inner side of the first connecting plate 111, the second connected unit 122
The top of the inner side of the second connecting plate 121 is connected to, and the first connected unit 112 and the second connected unit 122 are oppositely arranged.First connects
The link slot 123 of access slot 113 and second is both preferably semi-circular recesses, and so design can ensure the first link slot 113 and second
Link slot 123 coordinates clamping battery battery core 20.
In the utility model embodiment, the first connected unit 112 and the second connected unit 122 are oppositely arranged, the first link slot
113 and second the quantity of link slot 123 be multiple, and multiple first link slots 113 are disposed side by side on the first connected unit 112
On, multiple second link slots 123 are disposed side by side in the second connected unit 122, every one first link slot, 113 face, one second company
Access slot 123.So design can ensure the stability that battery battery core 20 connects, and ensure battery electricity when light sensation component 30 detects
Stability when core 20 moves.
Specifically, as shown in figure 3, in the utility model embodiment, the first drive component 40 includes being connected to the first folder
The first actuator 41 held on unit 11 and moved for the first grip unit 11 of driving toward and away from the second grip unit 12,
And it is connected in the second grip unit 12 and is moved for the second grip unit 12 of driving toward and away from the first grip unit 11
The second dynamic actuator 42.
In the present embodiment, the first actuator 41 drive the first grip unit 11 towards the second grip unit 12 move when,
The second grip unit 12 moves towards the first grip unit 11 simultaneously, so as to clamp battery battery core 20;In turn, first drive
When moving part 41 drives the first grip unit 11 away from the movement of the second grip unit 12, while the second grip unit 12 is away from the first folder
Hold unit 11 to move, the battery battery core 20 for detecting completion can be removed, while new battery battery core to be detected can be put into
20。
Specifically, as shown in figure 3, in the utility model embodiment, light sensation component 30 includes being connected to the first connecting plate
The first supporting plate 33 and the second supporting plate 34 being connected on the second connecting plate 121 on 111, and it is connected to the first supporting plate
Light transmitter unit 31 on 33 and the light receiver unit 32 being connected in the second supporting plate 34, light transmitter unit 31 and light
Line receiving unit 32 is oppositely arranged.
First supporting plate 33 is connected on the lateral surface of the first connecting plate 111, and the second supporting plate 34 is connected to the second connection
On the lateral surface of plate 121, the quantity of light transmitter unit 31 is multiple, and multiple light transmitter units 31 are arranged side by side, often
Corresponding first link slot 113 of one light transmitter unit 31;The quantity of same light receiver unit 32 is also multiple, Mei Yiguang
Equally corresponding second link slot 123 of line receiving unit 32, the light that each light transmitter unit 31 is launched can be relative
The light receiver unit 32 set;During detection, as battery battery core 20 moves up and down, light transmitter unit 31
The light sent is blocked completely by battery battery core 20, then battery battery core 20 detects qualified, if the light that light transmitter unit 31 is sent
Partly received by light receiver unit 32, then battery battery core 20 detects unqualified, and equally, battery battery core 20 is in drift component 10
Equally represent that battery battery core 20 is unqualified when upper movement has some setbacks.
In the present embodiment, in the detection process of battery battery core 20, it is single to first pass through the clamping of the first actuator 41 driving first
Member 11 moves away from the second grip unit 12 so that the first grip unit 11 and the second grip unit 12 separate, then will be multiple
Battery battery core 20 is connected between the first grip unit 11 and the second grip unit 12, then passes through the first actuator 41 driving the
One grip unit 11 is moved towards the second grip unit 12 so that the first grip unit 11 and the second grip unit 12 are closed up;Connect
The second drive component 50 drives multiple battery battery cores 20 at the uniform velocity to move;In this process, the diameter of battery battery core 20 is excessive
Can directly eliminate, then in the moving process of battery battery core 20, the light that light transmitter unit 31 is sent is all electric
Pond battery core 20 is blocked, then the diameter of battery battery core is qualified.Conversely, in the moving process of battery battery core 20, some point or multiple points
The light that light transmitter unit 31 is sent is received by light receiver unit 32, then the diameter of battery battery core 20 is unqualified;Finally
Underproof battery battery core 20 is rejected, reaches the purpose of safety in production.
Specifically, as shown in figure 3, in the utility model embodiment, it is single that light transmitting is also corresponded on the first connecting plate 111
Member 31 offers first through hole 114, and light receiver unit 32 is also corresponded on the second connecting plate 121 and offers the second through hole 115, the
One through hole 114 is located at the lower section of the first connected unit 112, and the second through hole 115 is located at the lower section of the second connected unit 122.The He of first through hole 114
The setting of second through hole 115 can ensure that light transmitter unit 31 and light receiver unit 32 coordinate the inspection for realizing battery battery core 20
Survey.
Specifically, as shown in figure 3, in the utility model embodiment, the second drive component 50 includes being connected to support list
The second actuator 53 in member 70, the support member 51 for supporting multiple battery battery cores 20 and it is connected on the second actuator 53 simultaneously
The drive rod 52 moved up and down for driving support member 51 between the first grip unit 11 and the second grip unit 12.Support member
51 are provided with the locating slot of multiple battery battery cores 20 that are available for being located by connecting, and then ensure the validity that battery battery core 20 connects.
Specifically, as shown in Figure 3 and Figure 4, in the utility model embodiment, the second drive component 50 also includes being connected to
On support unit 70 and for the guidance set of the moving direction of guide support 51.
In the present embodiment, guidance set includes the lead 54 being connected on support unit 70, is arranged on support member 51
On pilot hole, pilot hole passes through pilot hole, and then ensures that what the second drive component 50 driving battery battery core 20 moved up and down has
Effect property.
Specifically, as shown in figure 4, in the utility model embodiment, adjusting part 60 includes being connected to the first clamping list
Member 11 on micrometer 61 and be connected in the second grip unit 12 and with micrometer 61 coordinate restriction the first grip unit 11
The retainer 62 of distance is moved towards with the second grip unit 12.
In the present embodiment, micrometer 61 is set corresponding by boundary width according to the actual needs, when the first clamping
When the grip unit 12 of unit 11 and second is close to each other, and during 61 end abutment retainer 62 of micrometer, the first link slot 113
And second meet that the battery battery core 20 of normal diameter passes through between link slot 123 by gap;And the precision of micrometer 61
It is high, it is ensured that the precision of detection is higher.
During whole detection, the first grip unit 11 and the second grip unit 12 are opposite or when being moved away from, and lead to
The first drive component 40 is crossed to realize, the micrometer 61 in adjusting part 60 sets essence previously according to battery battery core 20 to be detected
True current boundary, and during the first drive component 40 drives, when the front end of micrometer 61 is connected on retainer 62,
First drive component 40 stops driving;Then the second drive component 50 drives battery battery core 20 to move down, by light sensation component
When 30, the result of detection is judged by the cooperation of light transmitter unit 31 and light receiver unit 32, before specifically retouch
State, do not repeat herein.
Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model
All any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model
Protection domain within.
Claims (10)
- A kind of 1. battery automatic detection device, it is characterised in that:Including the drift component for clamping several battery battery cores, even It is connected on the drift component and for clamping or unclamping the first drive component of the battery battery core and be connected to the drift On component and for detecting the light sensation component of the battery battery core, and it is connected in the drift component and described for driving Battery battery core is along the second drive component moved perpendicular to the light sensation component exit direction and is connected on the drift component And for setting the adjusting part of the battery battery core current boundary on the drift component.
- 2. battery automatic detection device as claimed in claim 1, it is characterised in that:The drift component include support unit, The first grip unit and the second grip unit being connected on the support unit, the battery battery core are arranged on first folder Hold between unit and second grip unit, first drive component is connected to first grip unit and described second The one or both ends of grip unit.
- 3. battery automatic detection device as claimed in claim 2, it is characterised in that:First grip unit includes being connected to The first connecting plate on the support unit, the first connected unit being connected on the inside of first connecting plate and it is opened in described The first link slot in one connected unit, second grip unit include being connected to the second connecting plate on the support unit, The second connected unit on the inside of second connecting plate and the second link slot being opened in second connected unit are connected to, it is described First link slot and second link slot, which coordinate, clamps the battery battery core.
- 4. battery automatic detection device as claimed in claim 3, it is characterised in that:First connected unit and described second connects Connect platform to be oppositely arranged, the quantity of first link slot and second link slot is multiple, and multiple described first connect Groove is disposed side by side in first connected unit, and multiple second link slots are disposed side by side in second connected unit, often One first link slot face one, second link slot.
- 5. battery automatic detection device as claimed in claim 2, it is characterised in that:First drive component includes being connected to In first grip unit and for driving what first grip unit moved toward and away from second grip unit First actuator, and be connected in second grip unit and for drive second grip unit toward and away from Second actuator of the first grip unit movement.
- 6. battery automatic detection device as claimed in claim 3, it is characterised in that:The light sensation component is described including being connected to The first supporting plate on first connecting plate and the second supporting plate being connected on second connecting plate, and it is connected to described the Light transmitter unit and the light receiver unit being connected in second supporting plate, the light transmitting list in one supporting plate It is first to be oppositely arranged with the light receiver unit.
- 7. battery automatic detection device as claimed in claim 6, it is characterised in that:It is also corresponding described on first connecting plate Light transmitter unit offers first through hole, and the light receiver unit is also corresponded on second connecting plate, and to offer second logical Hole, the first through hole are located at below first connected unit, and second through hole is located at below second connected unit.
- 8. battery automatic detection device as claimed in claim 2, it is characterised in that:Second drive component includes being connected to The second actuator on the support unit, the support member for supporting multiple battery battery cores and be connected to it is described second drive On moving part and for driving what the support member moved up and down between first grip unit and second grip unit Drive rod.
- 9. battery automatic detection device as claimed in claim 8, it is characterised in that:Second drive component also includes connection Guidance set on the support unit and for being oriented to the support member moving direction.
- 10. the battery automatic detection device as described in claim any one of 2-9, it is characterised in that:The adjusting part includes The micrometer being connected in first grip unit and be connected in second grip unit and match somebody with somebody with the micrometer Close restriction first grip unit and second grip unit moves towards the retainer of distance.
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CN201721094768.5U CN207170287U (en) | 2017-08-29 | 2017-08-29 | A kind of battery automatic detection device |
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CN201721094768.5U CN207170287U (en) | 2017-08-29 | 2017-08-29 | A kind of battery automatic detection device |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108906667A (en) * | 2018-06-21 | 2018-11-30 | 游诚琦 | A kind of battery core method for separating |
CN108906666A (en) * | 2018-06-21 | 2018-11-30 | 游诚琦 | A kind of battery core sorting unit |
CN110015537A (en) * | 2018-11-15 | 2019-07-16 | 东北林业大学 | A kind of timber pipeline with diameter detection and tally function |
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2017
- 2017-08-29 CN CN201721094768.5U patent/CN207170287U/en active Active
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108906667A (en) * | 2018-06-21 | 2018-11-30 | 游诚琦 | A kind of battery core method for separating |
CN108906666A (en) * | 2018-06-21 | 2018-11-30 | 游诚琦 | A kind of battery core sorting unit |
CN108906666B (en) * | 2018-06-21 | 2020-06-05 | 杨贵珍 | Electricity core sorting unit |
CN108906667B (en) * | 2018-06-21 | 2020-06-12 | 吉安冠佳新能源开发有限公司 | Battery cell sorting method |
CN110015537A (en) * | 2018-11-15 | 2019-07-16 | 东北林业大学 | A kind of timber pipeline with diameter detection and tally function |
CN110015537B (en) * | 2018-11-15 | 2023-10-13 | 东北林业大学 | Timber transfer chain with diameter detects and count function |
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