CN207096131U - Comprehensive battery detection equipment - Google Patents
Comprehensive battery detection equipment Download PDFInfo
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- CN207096131U CN207096131U CN201720792985.5U CN201720792985U CN207096131U CN 207096131 U CN207096131 U CN 207096131U CN 201720792985 U CN201720792985 U CN 201720792985U CN 207096131 U CN207096131 U CN 207096131U
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- support arm
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- rotary cylinder
- detection means
- battery
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Abstract
The utility model provides a kind of comprehensive battery detection equipment, including the first support arm being vertically arranged;It is horizontally disposed with and the second support arm of L-shaped is mutually formed with first support arm;Vertical sliding is connected on first support arm, the detection means base for installation detecting device;It is rotatably connected with the detection means base, the detection means for detecting battery;Level is slidably connected on second support arm, the detection platform for placing battery to be detected.The comprehensive battery detection equipment of the utility model is provided with slidable detection means base and rotatable detection means, is additionally provided with slidable detection platform, makes the detection battery that detection means can be comprehensive.
Description
Technical field
It the utility model is related to mechanical equipment technical field, more particularly to a kind of comprehensive battery detection equipment.
Background technology
With widely using for the digital product such as product such as mobile phone, notebook computer, lithium battery is with excellent performance at this
It is used widely in a little products, and is progressively developing to other product applications.
The security of lithium battery is influenceed by various factors such as the material of positive/negative plate, degree of registration and dividing plates, therefore,
Need to detect it after the completion of lithium battery assembling, degree of registration between some parameters, such as positive/negative plate of lithium battery etc.,
Directly it can not be obtained in lithium battery surface measurement, it is necessary to be detected by non-destructive testing technology, wherein X-ray is due to transmission capacity
By force, various materials can be penetrated, lithium battery interior structure can be detected, be widely used in various detection devices.
The detection means of lithium battery checking equipment of the prior art and the test position of battery be all it is fixed, can only
Detect an angle of battery, it is impossible to carrying out comprehensive detection to battery.
Therefore, prior art has yet to be improved and developed.
The content of the invention
In view of the deficiencies in the prior art, the utility model purpose is to provide a kind of comprehensive battery detection equipment, it is intended to
The detection means of battery detection equipment and the test position of battery are all fixed in the prior art for solution, can only detect battery
An angle, it is impossible to the problem of to carrying out comprehensive detection to battery.
In order to solve the above technical problems, the technical solution adopted in the utility model is as follows:A kind of comprehensive battery detecting is set
It is standby, wherein, including the first support arm being vertically arranged;It is horizontally disposed with and mutually forms the second of L-shaped with first support arm
Support arm;Vertical sliding is connected on first support arm, the detection means base for installation detecting device;With the inspection
Survey device pedestal is rotatably connected, the detection means for detecting battery;Level is slidably connected on second support arm, used
In the detection platform for placing battery to be detected.
Further, the comprehensive battery detection equipment, wherein, the detection means includes the 3rd support arm, X-ray is sent out
Emitter and picture receiver, the 3rd support arm are rotatably connected with the detection means base, the X-ray transmitter and
Picture receiver is slidably connected at the both ends of the 3rd support arm respectively, and the X-ray transmitter and picture receiver are relative
Set.
Further, the comprehensive battery detection equipment, wherein, the detection platform includes detection platform base and rotation
Turn platform, one end level of the detection platform base is slidably connected on second support arm, the other end and the rotation
Platform connects, and the relatively described detection platform base of the rotation platform is rotatable.
Further, the comprehensive battery detection equipment, wherein, the rotation platform includes the first bottom plate, the first folder
Piece and second intermediate plate, the first intermediate plate and second intermediate plate are parallel to be fixed on first bottom plate, the first intermediate plate and
The grasping part for clamping mesuring battary is formed between second intermediate plate.
Further, the comprehensive battery detection equipment, wherein, it is provided with the first intermediate plate and second intermediate plate
Some through holes.
Further, the comprehensive battery detection equipment, wherein, it is provided with the first rotary pneumatic on first support arm
Cylinder, the movable end of first rotary cylinder are connected by the first leading screw with the detection means base;
The second rotary cylinder is provided with second support arm, the movable end of second rotary cylinder passes through second
Thick stick is connected with the detection platform.
Further, the comprehensive battery detection equipment, wherein, the detection means base is provided with the 3rd rotary pneumatic
Cylinder, the 3rd support arm is driven to rotate by the rotation of the 3rd rotary cylinder.
Further, the comprehensive battery detection equipment, wherein, it is provided with the 4th rotary pneumatic on the 3rd support arm
Cylinder and the 5th rotary cylinder, the movable end of the 4th rotary cylinder is connected by the 3rd leading screw with the X-ray transmitter, described
The movable end of 5th rotary cylinder is connected by the 4th leading screw with described image receiver.
Further, the comprehensive battery detection equipment, wherein, the 6th rotation is provided with the detection platform base
Cylinder, the movable end of the 6th rotary cylinder are connected with the rotation platform.
Further, the comprehensive battery detection equipment, wherein, it is provided with the first knob on the detection means base
And first gear, the arc-shaped gear being adapted to the first gear, the 3rd rotary pneumatic are provided with the 3rd support arm
Cylinder drives the 3rd support arm to rotate by first knob, first gear and arc-shaped gear.
The comprehensive battery detection equipment of the utility model uses above-mentioned technical proposal, at least has the advantages that:If
Slidable detection means base and rotatable detection means are equipped with, is additionally provided with slidable detection platform so that make
Detection means can be moved up and down and rotated relative to detection platform, and detection platform horizontal can be moved relative to detection means
Dynamic, above design makes detection means to carry out comprehensive, multi-angle detection to battery.
Brief description of the drawings
Accompanying drawing described herein is used for providing further understanding of the present application, forms the part of the application, this Shen
Schematic description and description please is used to explain the application, does not form the improper restriction to the application.In the accompanying drawings:
Fig. 1 is the internal structure schematic diagram of the comprehensive battery detection equipment of the utility model.
Fig. 2 is the structural representation of the rotation platform of the comprehensive battery detection equipments of Fig. 1.
Fig. 3 is the comprehensive battery detection equipment structure schematic diagrams of Fig. 1.
Fig. 4 is detection means base and the decomposition texture schematic diagram of detection means assembling in Fig. 2.
Fig. 5 is the external structure schematic diagram of the comprehensive battery detection equipment of the utility model.
Embodiment
Presently filed embodiment is described in detail below in conjunction with drawings and Examples, and thereby how the application is applied
Technological means can fully understand and implement according to this to solve technical problem and reach the implementation process of technical effect.
It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the application can phase
Mutually combine.
Fig. 1 is the internal structure schematic diagram of the comprehensive battery detection equipment 10 of the utility model, as shown in figure 1, this practicality
Novel omnibearing battery detection equipment 10 includes the first support arm 100, the second support arm 200, detection means base 300, detection
Device 400, detection platform 500.
First support arm 100 and the second support arm 200 are generally rod-shaped.First support arm 100 is vertically arranged, and is mainly used in
The support of detection means 400.Second support arm 200 is horizontally disposed, i.e., the second support arm 200 is vertical with the first support arm 100, the
Two support arms 200 be generally disposed at at the bottom sustained height of the first support arm 100, and wherein the one of the second support arm 200
End is close to the bottom of the first support arm 100 so that the second support arm 200 and the first support arm 100 mutually form L-shaped.
The vertical sliding of detection means base 300 is connected on the first support arm 100, and detection means base 300 is used to install
Detection means.Detection means 400 is rotatably connected with detection means base 300, and detection means 400 is used to detect battery, detects
Device 400 penetrates battery by launching X-ray, and the image of internal structure of battery is analyzed, and judges whether battery is qualified.Detection
The level of platform 500 is slidably connected on the second support arm 200, and for placing battery to be detected, folder is provided with detection platform 500
The firmly intermediate plate of battery, battery folders are made to be detected in detection platform 500.
Fig. 1 is continued referring to, detection means 400 includes the 3rd support arm 410, X-ray transmitter 420 and picture receiver
430, the 3rd support arm 410 is used to support X-ray transmitter 420 and picture receiver 430.
During detection, X-ray transmitter 420 sends X-ray and penetrates battery, and picture receiver 430 receives X-ray and penetrates battery after battery
Internal image, and then judge whether battery is qualified.3rd support arm 410 is rotatably connected with detection means base 300 so that
X-ray transmitter 420 and picture receiver 430 on the 3rd support arm 410 of 3rd support arm 410 and setting can relative detection dresses
Bottom set seat 300 is rotated, and realizes the multi-faceted detection of battery, and X-ray transmitter 420 and picture receiver 430 are slidably connected at respectively
The both ends of 3rd support arm 410, and X-ray transmitter 420 and picture receiver 430 are oppositely arranged, and are so easy to picture receiver
430 reception X-rays penetrate the image of inside battery after battery.
As shown in figure 1, detection platform 500 includes detection platform base 510 and rotation platform 520, detection platform base 510
Substantially rectangular body, one end level of detection platform base 510 are slidably connected on the second support arm 200, the other end and rotation
Platform 520 connects, and rotation platform 520 is used for placing battery, and rotation platform 520 is rotatable with respect to detection platform base 510 so that
Battery on rotation platform 520 makes constantly to rotate in detection, realizes comprehensive detection.
Fig. 2 is the structural representation of the rotation platform of the comprehensive battery detection equipments of Fig. 1, as shown in Fig. 2 rotation platform
520 include the first bottom plate 521, first intermediate plate 522 and second intermediate plate 523, and first intermediate plate 522 and second intermediate plate 523 are parallel solid
It is scheduled on the first bottom plate 521, the grasping part for clamping mesuring battary is formed between first intermediate plate 522 and second intermediate plate 523,
Battery folders are formed in grasping part in first intermediate plate 522 and second intermediate plate 523, are advantageous to detect battery.
Fig. 2 is continued referring to, some through holes is provided with first intermediate plate 522 and second intermediate plate 523, is easy to X ray
Penetrate.
Fig. 3 is the comprehensive battery detection equipment structure schematic diagrams of Fig. 1, as shown in figure 3, being set on the first support arm 100
The first rotary cylinder 110 is equipped with, the movable end of the first rotary cylinder 110 passes through the first leading screw(It is not shown)With detection means base
300 connections.
First support arm 100 is internally provided with accommodation space, and the first rotary cylinder 110 is generally disposed at the first support arm
In the accommodation space of 100 bottom, the first rotary cylinder 110 is vertically arranged, and its movable end is fixedly connected with the first screw mandrel, and first
Wherein one end of screw mandrel is fixedly connected with the movable end of the first rotary cylinder 110, and the other end coordinates with detection means base 300,
When the first rotary cylinder 110 rotates, control detection means base 300 vertical along the first support arm 100 by the first screw mandrel
Slide, and then control the up and down motion of detection means 400.
The second rotary cylinder 210 is provided with second support arm 200, the movable end of the second rotary cylinder 210 passes through second
Leading screw 220 is connected with detection platform 500.
Second support arm 200 is internally provided with accommodation space, and the second rotary cylinder 210 is generally disposed at the second support arm
200 in the accommodation space of the one end of the first support arm 100, and the second rotary cylinder 210 is horizontally disposed, its movable end and second
Thick stick 220 is fixedly connected, and wherein one end of the second leading screw 220 is fixedly connected with the movable end of the second rotary cylinder 210, the other end with
Detection platform 500 coordinates, and when the second rotary cylinder 210 rotates, detection platform 500 is controlled along the by the second screw mandrel 220
Two support arm 200 is horizontal to be slided, and realizes moving horizontally for detection platform 500.
Fig. 3 is continued referring to, detection means base 300 is provided with the 3rd rotary cylinder 310, passes through the 3rd rotary cylinder
310 rotation drives the 3rd support arm 410 to rotate.3rd rotary cylinder 310 is arranged on the side of detection means base 300.
Specifically, referring to Fig. 4, Fig. 4 is that detection means base and the decomposition texture of detection means assembling are illustrated in Fig. 2
Figure, as shown in figure 4, being provided with the first knob 320 and first gear 330, detection means base on detection means base 300
300 also include substrate 340, and the arc-shaped gear 411 being adapted to first gear 330, the 3rd rotary pneumatic are provided with the 3rd support arm 410
Cylinder 310 drives the 3rd support arm 410 to rotate by the first knob 320, first gear 330 and arc-shaped gear 411.
First knob 320 can be used for the revolving force of the 3rd rotary cylinder 310 changing direction, specifically, the 3rd rotary pneumatic
Cylinder 310 is vertically arranged, and Plane of rotation when it rotates is horizontal plane, and the rotation of the 3rd support arm 410 is the rotation of perpendicular,
To control the 3rd support arm 410 to be rotated in perpendicular by the rotation of the horizontal plane of the 3rd rotary cylinder 310, then to pass through first
Knob 320 becomes the 3rd rotary cylinder 310 in the driving force that horizontal plane rotates the driving force of perpendicular rotation, the first knob
After 320 the driving force of the 3rd rotary cylinder 310 to be changed to the driving force of perpendicular rotation, first gear 330 is driven to rotate, the
Driving force is passed to the 3rd support arm 410 by one gear 330 by arc-shaped gear 411, realizes the 3rd support arm 410 in perpendicular
Rotation, and then realize the rotary oscillation of detection means 400.
Fig. 4 is continued referring to, the 4th rotary cylinder is provided with the 3rd support arm 410(It is not shown)With the 5th rotary cylinder
412, the movable end of the 4th rotary cylinder passes through the 3rd leading screw(It is not shown)It is connected with X-ray transmitter 420, the 5th rotary cylinder
412 movable end passes through the 4th leading screw(It is not shown)It is connected with picture receiver 430.
4th rotary cylinder and the 5th rotary cylinder 412 are separately positioned on the 3rd support arm 410 and X-ray transmitter 420
With picture receiver 430 corresponding to both ends, the 3rd support arm 410 is internally provided with accommodation space, and the 4th rotary cylinder is arranged on
In the accommodation space of 3rd support arm 410, five rotary cylinders 412 are arranged on the outside of the 3rd support arm 410, the 4th rotary cylinder
X-ray transmitter 420 and the edge of picture receiver 430 are controlled by the 3rd leading screw and the 4th leading screw respectively with the 5th rotary cylinder 412
The 3rd support arm 410 to slide.
Referring to Fig. 3, the 6th rotary cylinder 511 is provided with detection platform base 510, the work of the 6th rotary cylinder 511
Moved end is connected with rotation platform 520, to control rotation platform 520 to rotate.
Specifically, detection platform base 510 is internally provided with accommodation space, the 6th rotary cylinder 511 is vertically arranged in inspection
Survey in the accommodation space of platform base 510, the movable end of the 6th rotary cylinder 511 is fixedly connected with rotation platform 520, when the 6th
When rotary cylinder 511 rotates, drive rotation platform 520 to rotate together, realize 360 degree of rotations of rotation platform 520.
The comprehensive battery detection equipment 10 of the utility model also includes processor, the first support arm 100, the second support arm
200th, detection means base 300, detection means 400 and detection platform 500 are connected with processor, and processor is comprehensive for controlling
The detection of battery detection equipment 10 and to detection data handle, judge whether battery qualified.
Fig. 5 is the external structure schematic diagram of the comprehensive battery detection equipment of the utility model, as shown in figure 5, comprehensive electricity
Pond detection device 10 also includes shell, and shell can shield to comprehensive battery detection equipment 10, the length of shell
Respectively 1464mm, 1317mm, 1886mm.
The comprehensive battery detection equipment of the utility model is provided with slidable detection means base and rotatable inspection
Device is surveyed, is additionally provided with slidable detection platform so that detection means is moved up and down and is revolved relative to detection platform
Turn, and detection platform is horizontally moveable relative to detection means, above design make detection means battery can be carried out it is comprehensive,
The detection of multi-angle, at the same detection platform be additionally provided with can 360 degree rotation rotation platforms, further enhancing Detection results,
Realize 360 degree of detections.
Above content is only preferred embodiment of the present utility model, is not that any formal limit is done to the utility model
System.Although the utility model is disclosed above with preferred embodiment, any person skilled in the art, this reality is not being departed from
With in new technique aspects, when the technology contents using the disclosure above make a little change or modification, equivalent change is obtained
The equivalent embodiment of change, as long as being without departing from the content of the technical scheme of the utility model, according to the technical essence of the utility model pair
Any simple modification, equivalent change and modification that above example is made, still falls within the protection of technical solutions of the utility model
In the range of.
Claims (10)
- A kind of 1. comprehensive battery detection equipment, it is characterised in that including:The first support arm being vertically arranged;It is horizontally disposed with and the second support arm of L-shaped is mutually formed with first support arm;Vertical sliding is connected on first support arm, the detection means base for installation detecting device;It is rotatably connected with the detection means base, the detection means for detecting battery;Level is slidably connected on second support arm, the detection platform for placing battery to be detected.
- 2. comprehensive battery detection equipment according to claim 1, it is characterised in that the detection means includes the 3rd Brace, X-ray transmitter and picture receiver, the 3rd support arm are rotatably connected with the detection means base, the X Optical transmitting set and picture receiver are slidably connected at the both ends of the 3rd support arm, and the X-ray transmitter and image respectively Receiver is oppositely arranged.
- 3. comprehensive battery detection equipment according to claim 1, it is characterised in that it is flat that the detection platform includes detection Platform base and rotation platform, one end level of the detection platform base are slidably connected on second support arm, the other end It is connected with the rotation platform, the relatively described detection platform base of the rotation platform is rotatable.
- 4. comprehensive battery detection equipment according to claim 3, it is characterised in that the rotation platform includes the first bottom Plate, first intermediate plate and second intermediate plate, the first intermediate plate and second intermediate plate are parallel to be fixed on first bottom plate, and described The grasping part for clamping mesuring battary is formed between one intermediate plate and second intermediate plate.
- 5. comprehensive battery detection equipment according to claim 4, it is characterised in that the first intermediate plate and the second folder Some through holes are provided with piece.
- 6. comprehensive battery detection equipment according to claim 1, it is characterised in that be provided with first support arm First rotary cylinder, the movable end of first rotary cylinder are connected by the first leading screw with the detection means base;Be provided with the second rotary cylinder on second support arm, the movable end of second rotary cylinder by the second leading screw with The detection platform connection.
- 7. comprehensive battery detection equipment according to claim 2, it is characterised in that the detection means base is provided with 3rd rotary cylinder, the 3rd support arm is driven to rotate by the rotation of the 3rd rotary cylinder.
- 8. comprehensive battery detection equipment according to claim 2, it is characterised in that be provided with the 3rd support arm 4th rotary cylinder and the 5th rotary cylinder, the movable end of the 4th rotary cylinder are launched by the 3rd leading screw and the X-ray Device is connected, and the movable end of the 5th rotary cylinder is connected by the 4th leading screw with described image receiver.
- 9. comprehensive battery detection equipment according to claim 3, it is characterised in that set on the detection platform base There is the 6th rotary cylinder, the movable end of the 6th rotary cylinder is connected with the rotation platform.
- 10. comprehensive battery detection equipment according to claim 7, it is characterised in that set on the detection means base The first knob and first gear are equipped with, is provided with the arc-shaped gear being adapted to the first gear on the 3rd support arm, institute State the 3rd rotary cylinder drives the 3rd support arm to rotate by first knob, first gear and arc-shaped gear.
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CN201720792985.5U CN207096131U (en) | 2017-07-03 | 2017-07-03 | Comprehensive battery detection equipment |
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CN201720792985.5U CN207096131U (en) | 2017-07-03 | 2017-07-03 | Comprehensive battery detection equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110095479A (en) * | 2019-02-20 | 2019-08-06 | 江苏能建机电实业集团有限公司 | A kind of aluminum profile non-destructive detecting device |
CN115825127A (en) * | 2023-02-16 | 2023-03-21 | 广州市昊志影像科技有限公司 | Lithium cell multi-angle CT formation of image check out test set |
-
2017
- 2017-07-03 CN CN201720792985.5U patent/CN207096131U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110095479A (en) * | 2019-02-20 | 2019-08-06 | 江苏能建机电实业集团有限公司 | A kind of aluminum profile non-destructive detecting device |
CN110095479B (en) * | 2019-02-20 | 2022-01-04 | 江苏能建机电实业集团有限公司 | Aluminium alloy nondestructive test equipment |
CN115825127A (en) * | 2023-02-16 | 2023-03-21 | 广州市昊志影像科技有限公司 | Lithium cell multi-angle CT formation of image check out test set |
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