CN204514970U - The compound detection electrode structure of super capacitor monomer and pick-up unit - Google Patents
The compound detection electrode structure of super capacitor monomer and pick-up unit Download PDFInfo
- Publication number
- CN204514970U CN204514970U CN201520248079.XU CN201520248079U CN204514970U CN 204514970 U CN204514970 U CN 204514970U CN 201520248079 U CN201520248079 U CN 201520248079U CN 204514970 U CN204514970 U CN 204514970U
- Authority
- CN
- China
- Prior art keywords
- super capacitor
- detecting electrode
- capacitor monomer
- electrode
- resistance
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
Links
- 239000003990 capacitor Substances 0.000 title claims abstract description 171
- 239000000178 monomer Substances 0.000 title claims abstract description 168
- 238000001514 detection method Methods 0.000 title claims abstract description 157
- 150000001875 compounds Chemical class 0.000 title claims abstract description 40
- 239000000523 sample Substances 0.000 claims abstract description 86
- 238000009413 insulation Methods 0.000 claims abstract description 22
- 238000009434 installation Methods 0.000 claims description 52
- 229910052802 copper Inorganic materials 0.000 claims description 35
- 239000010949 copper Substances 0.000 claims description 35
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 claims description 34
- 230000007246 mechanism Effects 0.000 claims description 12
- 239000004677 Nylon Substances 0.000 claims description 3
- 229920001778 nylon Polymers 0.000 claims description 3
- 230000000694 effects Effects 0.000 description 3
- 238000004146 energy storage Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000003044 adaptive effect Effects 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
Abstract
The utility model provides a kind of compound detection electrode structure and pick-up unit of super capacitor monomer.This compound detection electrode structure comprises capacitance detecting electrode and resistance detection probe, described resistance detection probe is embedded in described capacitance detecting electrode, and can stretch out from described capacitance detecting electrode, be provided with insulation course between described capacitance detecting electrode and described resistance detection probe.The compound detection electrode structure of the super capacitor monomer that the utility model provides and pick-up unit, detected by the capacitance of capacitance detecting electrode pair super capacitor monomer, detected by the resistance of resistance detection probe to super capacitor monomer, and insulation course is set between capacitance detecting electrode and resistance detection probe, achieve and detect while the resistance of super capacitor monomer and capacitance, improve the detection efficiency to super capacitor monomer, and the resistance reducing detecting electrode itself is to the interference of the resistance of super capacitor monomer, improve the accuracy of detection of the resistance to super capacitor monomer.
Description
Technical field
The utility model relates to capacitor technology field, particularly relates to a kind of compound detection electrode structure and pick-up unit of super capacitor monomer.
Background technology
Ultracapacitor as a kind of novel energy storage device, have capacity large, support high current charge-discharge, have extended cycle life and the advantage such as environment friendly and pollution-free, being therefore more and more subject to people's attention, is the top capacitor in current energy storage device.Ultracapacitor occurs with the form of module usually, to be in series or the super capacitor monomer of parallel connection forms by multiple.The resistance of accurate assurance super capacitor monomer and capacitance are the keys combining super capacitor array module.
In the detection technique of existing super capacitor monomer, checkout equipment is detected the resistance of super capacitor monomer and capacitance successively by detecting electrode, generally first carries out the detection of super capacitor monomer capacitance, then carries out the detection of super capacitor monomer resistance.
State in realization in the process of detection, utility model people finds that in prior art, at least there are the following problems: in prior art, by detecting electrode, the resistance of super capacitor monomer and capacitance are detected successively, cannot realize detecting while the resistance of super capacitor monomer and capacitance, detection efficiency is low; In addition, when the internal resistance of super capacitor monomer is detected, easily the resistance of detecting electrode itself is superimposed as the resistance of super capacitor monomer, reduces the accuracy of detection of the resistance to super capacitor monomer.
Utility model content
Embodiment of the present utility model provides a kind of compound detection electrode structure and pick-up unit of super capacitor monomer, improves the detection efficiency to super capacitor monomer, and improves the accuracy of detection of the resistance to super capacitor monomer.
For achieving the above object, embodiment of the present utility model adopts following technical scheme:
On the one hand, the utility model provides a kind of compound detection electrode structure of super capacitor monomer, comprise capacitance detecting electrode and resistance detection probe, described resistance detection probe is embedded in described capacitance detecting electrode, and can stretch out from described capacitance detecting electrode, be provided with insulation course between described capacitance detecting electrode and described resistance detection probe.
In compound detection electrode structure as above, described resistance detection probe is the probe of resilientiy stretchable.
In compound detection electrode structure as above, also comprise copper bar, described capacitance detecting electrode has resettlement section, and described capacitance detecting electrode is fixed on described copper bar, and is electrically connected with described copper bar, described copper bar and capacitance detecting equipment connection;
Described resistance detection probe portion is arranged in the resettlement section of described capacitance detecting electrode, described copper bar is provided with the first through hole, the rear end of described resistance detection probe passes from described first through hole, with resistance detection equipment connection, between described resistance detection probe and described copper bar, be provided with described insulation course.
In compound detection electrode structure as above, described resistance detection probe is provided with the first spring device, one end of described first spring device is fixed or is connected on described insulation course, and the other end is fixed or is connected on described resistance detection probe.
In compound detection electrode structure as above, described resistance detection probe is split-type structural, its fore-end and rear end part are threaded connection, the described fore-end of described resistance detection probe and the binding site of described rear end part form ladder end face, and described first spring device is connected on described ladder end face.
In compound detection electrode structure as above, the structure of the structure of described capacitance detecting electrode and the electrode of described super capacitor monomer matches, the electrode of described super capacitor monomer can be made to extend in described capacitance detecting electrode, the end face of the electrode of described super capacitor monomer abuts with described resistance detection probe, and described capacitance detecting electrode is connected on the conducting surface of the root of the electrode of described super capacitor monomer.
In compound detection electrode structure as above, described insulation course is nylon bush.
On the other hand, the utility model provides a kind of pick-up unit of super capacitor monomer, comprise positive detecting electrode, negative detecting electrode and base plate, also comprise along left and right directions arrange and be fixed on the first installation portion of the described positive detecting electrode of installation on described base plate, super capacitor monomer support portion, the second installation portion of described negative detecting electrode is installed;
Described first installation portion and described second installation portion lay respectively at the both sides of described support portion, and described positive detecting electrode and described negative detecting electrode have compound detection electrode structure as above.
In pick-up unit as above, also comprise the 3rd installation portion, be fixedly installed on the left side of described first installation portion, described positive detecting electrode can move by relatively described first installation portion in the lateral direction, described 3rd installation portion comprises the second spring device, described second spring device is connected with described positive detecting electrode, for enabling described positive detecting electrode elastic telescopic in the lateral direction.
In pick-up unit as above, described 3rd installation portion also comprises mounting plate and is fixed at least two register pins on described mounting plate, described register pin is through the copper bar of described positive detecting electrode, by the restriction of the direction of motion of the copper bar of described positive detecting electrode in the lateral direction, the left end of the copper bar of described positive detecting electrode is fixed or be connected to described second spring device.
In pick-up unit as above, described mounting plate is provided with the second through hole, the resistance detection probe of described positive detecting electrode is through described second through hole.
In pick-up unit as above, also comprise and be arranged on the line slideway extended in left-right direction on described base plate and push-pull mechanism, described second installation portion is erected on described line slideway, described push-pull mechanism is arranged on the right side of described second installation portion, and be connected with described second installation portion, move on described line slideway for making described second installation portion.
In pick-up unit as above, described support portion comprises at least two liftable brackets.
In pick-up unit as above, positive detecting electrode and negative detecting electrode are multiple, and described support portion has the supporting zone of the super capacitor monomer corresponding with the number of described positive detecting electrode and described negative detecting electrode.
The compound detection electrode structure of the super capacitor monomer of the utility model embodiment and pick-up unit, detected by the capacitance of capacitance detecting electrode pair super capacitor monomer, detected by the resistance of resistance detection probe to super capacitor monomer, and insulation course is set between capacitance detecting electrode and resistance detection probe, achieve and detect while the resistance of super capacitor monomer and capacitance, improve the detection efficiency to super capacitor monomer, and the resistance reducing detecting electrode itself is to the interference of the resistance of super capacitor monomer, improve the accuracy of detection of the resistance to super capacitor monomer.
Accompanying drawing explanation
The sectional view of a compound detection electrode structure embodiment of the super capacitor monomer that Fig. 1 provides for the utility model;
The sectional view of another embodiment of compound detection electrode structure of the super capacitor monomer that Fig. 2 provides for the utility model;
The side view of a pick-up unit embodiment of the super capacitor monomer that Fig. 3 provides for the utility model;
The side view of another embodiment of pick-up unit of the super capacitor monomer that Fig. 4 provides for the utility model;
Fig. 5 is the vertical view of the pick-up unit of super capacitor monomer embodiment illustrated in fig. 4;
Fig. 6 is the axis side view of the pick-up unit of super capacitor monomer embodiment illustrated in fig. 4;
Fig. 7 is the sectional view of positive detecting electrode in the pick-up unit of super capacitor monomer embodiment illustrated in fig. 4;
Fig. 8 is the sectional view of negative detecting electrode in the pick-up unit of super capacitor monomer embodiment illustrated in fig. 4;
Wherein: 11-capacitance detecting electrode; 12-resistance detection probe; 13-insulation course; 21-super capacitor monomer; 22-copper bar; 111-resettlement section; 23-first spring device; The fore-end of 121-resistance detection probe; The rear end part of 122-resistance detection probe; 123-ladder end face; The positive detecting electrode of 31-; 32-bears detecting electrode; 33-base plate; 34-first installation portion; 35-support portion; 36-second installation portion; 41-the 3rd installation portion; 42-second spring device; 43-mounting plate; 44-register pin; 45-line slideway; 46-push-pull mechanism; 47-bracket; 48-lifting screw.
Embodiment
Below in conjunction with accompanying drawing, the compound detection electrode structure of the utility model embodiment super capacitor monomer and pick-up unit are described in detail.
Embodiment one
The sectional view of a compound detection electrode structure embodiment of the super capacitor monomer that Fig. 1 provides for the utility model.As shown in Figure 1, the compound detection electrode structure of the super capacitor monomer of the present embodiment specifically can comprise: capacitance detecting electrode 11 and resistance detection probe 12, wherein:
Resistance detection probe 12 is embedded in capacitance detecting electrode 11, and can stretch out from capacitance detecting electrode 11, is provided with insulation course 13 between capacitance detecting electrode 11 and resistance detection probe 12.
Concrete, capacitance detecting electrode 11 is connected, in order to detect the capacitance of super capacitor monomer with the electrode of super capacitor monomer (not shown in figure 1) and capacitance detecting equipment (not shown in figure 1) respectively.Resistance detection probe 12 is connected, in order to detect the resistance of super capacitor monomer with the electrode of super capacitor monomer (not shown in figure 1) and resistance detection equipment (not shown in figure 1) respectively simultaneously.Resistance detection probe 12 is much smaller compared to capacitance detecting electrode 11 resistance, less to the resistance interference of super capacitor monomer.Be provided with insulation course 13 between capacitance detecting electrode 11 and resistance detection probe 12, reduce the interference of the resistance of capacitance detecting electrode 11 pairs of super capacitor monomers.
The compound detection electrode structure of the super capacitor monomer of the present embodiment, detected by the capacitance of capacitance detecting electrode pair super capacitor monomer, detected by the resistance of resistance detection probe to super capacitor monomer, and insulation course is set between capacitance detecting electrode and resistance detection probe, achieve and detect while the resistance of super capacitor monomer and capacitance, improve the detection efficiency to super capacitor monomer, and the resistance reducing detecting electrode (capacitance detecting electrode and resistance detection probe) itself is to the interference of the resistance of super capacitor monomer, improve the accuracy of detection of the resistance to super capacitor monomer.
Embodiment two
The sectional view of another embodiment of compound detection electrode structure of the super capacitor monomer that Fig. 2 provides for the utility model.As shown in Figure 2, the compound detection electrode structure of the super capacitor monomer of the present embodiment is based on the compound detection electrode structure of the super capacitor monomer shown in Fig. 1, and concrete structure is as follows:
Resistance detection probe 12 in the compound detection electrode structure of super capacitor monomer embodiment illustrated in fig. 1 is specifically as follows the probe of resilientiy stretchable.
Concrete, resistance detection probe 12 can be the probe of resilientiy stretchable, improve the adaptivity that it detects, reduce the impact of the foozle of compound detection electrode structure of super capacitor monomer 21 foozle and super capacitor monomer etc. own, ensure that and keep suitable contact and contact area between super capacitor monomer 21, contact resistance is made to be in steady state (SS) all the time, reduce the interference of contact resistance to the resistance of super capacitor monomer 21, improve the accuracy of detection of the resistance to super capacitor monomer 21.Insulation course 13 is specifically as follows nylon bush etc.
Further, on basis embodiment illustrated in fig. 1, the compound detection electrode structure of the super capacitor monomer of the present embodiment can also comprise: copper bar 22.
Capacitance detecting electrode 11 has resettlement section 111, and capacitance detecting electrode 11 is fixed on copper bar 22, and is electrically connected with copper bar 22, and copper bar 22 is connected with capacitance detecting equipment (not shown in Fig. 2).
Resistance detection probe 12 part is arranged in the resettlement section 111 of capacitance detecting electrode 11, copper bar 22 is provided with the first through hole, the rear end of resistance detection probe 12 passes from the first through hole, be connected with resistance detection equipment (not shown in Fig. 2), between resistance detection probe 12 and copper bar 22, be provided with insulation course 13.
Concrete, capacitance detecting electrode 11 is by copper bar 22 and capacitance detecting equipment connection, be convenient on the one hand capacitance detecting electrode 11 and outside capacitance detecting equipment connection, be convenient on the other hand change according to the electrode structure of super capacitor monomer 21 the capacitance detecting electrode 11 that mates with the electrode structure of super capacitor monomer 21 and change the capacitance detecting electrode 11 broken down.
Further, the one end that resistance detection probe 12 can be provided with the first spring device 23, first spring device 23 is fixed or is connected on insulation course 13, and the other end is fixed or is connected on resistance detection probe 12.
Concrete, resistance detection probe 12 is arranged the first spring device 23, make resistance detection probe 12 resilientiy stretchable, namely resistance detection probe 12 realizes compressing back and forth movement under the effect of the first spring device 23.
Further, resistance detection probe 12 can be split-type structural, its fore-end 121 is threaded connection with rear end part 122, the fore-end 121 of resistance detection probe 12 forms ladder end face 123, first spring device 23 with the binding site of rear end part 122 and is connected on ladder end face 123.
Concrete, resistance detection probe 12 is set to split-type structural, be convenient on the one hand assembling, be convenient on the other hand change according to the electrode structure of super capacitor monomer 21 the resistance detection probe 12 that mates with the electrode structure of super capacitor monomer 21 and change the resistance detection probe 12 broken down.
Further, the structure of the structure of capacitance detecting electrode 11 and the electrode of super capacitor monomer 21 matches, the electrode of super capacitor monomer 21 can be made to extend in capacitance detecting electrode 11, the end face of the electrode of super capacitor monomer 21 abuts with resistance detection probe 12, and capacitance detecting electrode 11 is connected on the conducting surface of the root of the electrode of super capacitor monomer 21.
Concrete, capacitance detecting electrode 11 and super capacitor monomer 21 electrode contact to before resistance detection probe 12 namely contact with the electrode of super capacitor monomer 21, and keep certain pressure after capacitance detecting electrode 11 with the complete close contact of electrode of super capacitor monomer 21.
The compound detection electrode structure of the super capacitor monomer of the present embodiment, detected by the capacitance of capacitance detecting electrode pair super capacitor monomer, detected by the resistance of resistance detection probe to super capacitor monomer, and insulation course is set between capacitance detecting electrode and resistance detection probe, achieve and detect while the resistance of super capacitor monomer and capacitance, improve the detection efficiency to super capacitor monomer, and the resistance reducing detecting electrode (capacitance detecting electrode and resistance detection probe) itself is to the interference of the resistance of super capacitor monomer, improve the accuracy of detection of the resistance to super capacitor monomer.The resilientiy stretchable design of resistance detection probe, reduces the interference of contact resistance to the resistance of super capacitor monomer, improves the accuracy of detection of the resistance to super capacitor monomer.The split-type design of resistance detection probe, is convenient to assembling and changes.The capacitance detecting equipment connection of capacitance detecting electrode with outside and the replacing of capacitance detecting electrode are convenient in the setting of copper bar.
Embodiment three
The side view of a pick-up unit embodiment of the super capacitor monomer that Fig. 3 provides for the utility model.As shown in Figure 3, the pick-up unit of the super capacitor monomer of the present embodiment specifically can comprise: positive detecting electrode 31, negative detecting electrode 32, base plate 33, install the first installation portion 34 of positive detecting electrode 31, the support portion 35 of super capacitor monomer 21 and install the second installation portion 36 of negative detecting electrode 32, wherein:
First installation portion 34, support portion 35 and the second installation portion 36 arrange along left and right directions and are fixed on base plate 33.
First installation portion 34 and the second installation portion 36 lay respectively at the both sides of support portion 35, and positive detecting electrode 31 and negative detecting electrode 32 have the compound detection electrode structure of embodiment as shown in Figure 1 or 2.
Concrete, the first installation portion 34, support portion 35 and the second installation portion 36, along left and right directions arrangement, are specifically as follows and from left to right or are from right to left arranged in order, be described in Fig. 3 to be from left to right arranged in order.The concrete structure of positive detecting electrode 31 and negative detecting electrode 32 see above-mentioned Fig. 1 or embodiment illustrated in fig. 2 in associated description, repeat no more herein.
First installation portion 34 is for supporting positive detecting electrode 31, second installation portion 36 for supporting negative detecting electrode 32, and support portion 35 is for supporting super capacitor monomer 21.During detection, positive detecting electrode 31 is contacted with the positive electrode of super capacitor monomer 21, negative detecting electrode 32 is contacted with the negative electrode of super capacitor monomer 21, the positive pole of capacitance detecting electrode in positive detecting electrode 31 with capacitance detecting equipment (not shown in Fig. 3) is connected, the positive pole of resistance detection probe in positive detecting electrode 31 with resistance detection equipment (not shown in figure 1) is connected, capacitance detecting electrode in negative detecting electrode 32 is connected with the negative pole of capacitance detecting equipment, resistance detection probe in negative detecting electrode 32 is connected with the negative pole of resistance detection equipment, realization detects while the resistance of super capacitor monomer 21 and capacitance.Resistance detection probe is much smaller compared to capacitance detecting electrode resistance, less to the resistance interference of super capacitor monomer 21.Be provided with insulation course between capacitance detecting electrode and resistance detection probe, reduce the interference of the resistance of capacitance detecting electrode pair super capacitor monomer 21.
The pick-up unit of the super capacitor monomer of the present embodiment, by just, the capacitance of the capacitance detecting electrode pair super capacitor monomer in negative detecting electrode detects, by just, the resistance of resistance detection probe to super capacitor monomer in negative detecting electrode detects, and insulation course is set between capacitance detecting electrode and resistance detection probe, achieve and detect while the resistance of super capacitor monomer and capacitance, improve the detection efficiency to super capacitor monomer, and just reduce, the resistance of negative detecting electrode (capacitance detecting electrode and resistance detection probe) itself is to the interference of the resistance of super capacitor monomer, improve the accuracy of detection of the resistance to super capacitor monomer.The resilientiy stretchable design of resistance detection probe, reduces the interference of contact resistance to the resistance of super capacitor monomer, improves the accuracy of detection of the resistance to super capacitor monomer.The split-type design of resistance detection probe, is convenient to assembling and changes.The capacitance detecting equipment connection of capacitance detecting electrode with outside and the replacing of capacitance detecting electrode are convenient in the setting of copper bar.
Embodiment four
The side view of another embodiment of pick-up unit of the super capacitor monomer that Fig. 4 provides for the utility model.Fig. 5 is the vertical view of the pick-up unit of super capacitor monomer embodiment illustrated in fig. 4.Fig. 6 is the axis side view of the pick-up unit of super capacitor monomer embodiment illustrated in fig. 4.Fig. 7 is the sectional view of positive detecting electrode in the pick-up unit of super capacitor monomer embodiment illustrated in fig. 4.Fig. 8 is the sectional view of negative detecting electrode in the pick-up unit of super capacitor monomer embodiment illustrated in fig. 4.As shown in Fig. 4-Fig. 8, the pick-up unit of the super capacitor monomer of the present embodiment, on basis embodiment illustrated in fig. 3, can also comprise: the 3rd installation portion 41, wherein:
3rd installation portion 41, be fixedly installed on the left side of the first installation portion 34, positive detecting electrode 31 can move by relative first installation portion 34 in the lateral direction, 3rd installation portion 41 comprises the second spring device 42, second spring device 42 is connected with positive detecting electrode 31, for making positive detecting electrode 31 can elastic telescopic in the lateral direction.
Concrete, positive detecting electrode 31 realizes elastic telescopic in the lateral direction by the second spring device 42, improve the adaptivity that it detects, reduce super capacitor monomer 21 foozle and and the impact of the foozle of pick-up unit etc. own, ensure that and keep suitable contact and contact area between super capacitor monomer 21, contact resistance is made to be in steady state (SS) all the time, reduce the interference of contact resistance to the resistance of super capacitor monomer 21, improve the accuracy of detection of the resistance to super capacitor monomer.
Further, if the positive detecting electrode 31 in the present embodiment and negative detecting electrode 32 have the compound detection electrode structure of embodiment as shown in Figure 2, then the 3rd installation portion 41 can also comprise: mounting plate 43 and at least two register pins 44 be fixed on mounting plate 43, wherein:
Register pin 44 is through the copper bar 22 of positive detecting electrode 31, and by the restriction of the direction of motion of the copper bar 22 of positive detecting electrode 31 in the lateral direction, the left end of the copper bar 22 of positive detecting electrode 31 is fixed or be connected to the second spring device 42.
Concrete, register pin 44 through positive detecting electrode 31 copper bar 22 and and realize relative motion the copper bar 22 of positive detecting electrode 31, the direction of motion of the copper bar 22 of positive detecting electrode 31 is limited in the lateral direction.
Further, mounting plate 43 is provided with the second through hole, the resistance detection probe 12 of positive detecting electrode 31, through the second through hole, is convenient to be connected with non-essential resistance checkout equipment.
Further, the pick-up unit of the super capacitor monomer of the present embodiment can also comprise: be arranged on the line slideway 45 extended in left-right direction on base plate 33 and push-pull mechanism 46, wherein:
Second installation portion 36 is erected on line slideway 45, and push-pull mechanism 46 is arranged on the right side of the second installation portion 36, and is connected with the second installation portion 36, moves on line slideway 45 for making the second installation portion 36.
Concrete, the second installation portion 36 is linearly guide rail 45 side-to-side movement under the effect of push-pull mechanism 46, realizes operating the clamping of super capacitor monomer 21.Wide region adjustment can be carried out to the dynamics of clamping and speed by regulating push-pull mechanism 46.The guide effect of line slideway 45, reduces the deviation in clamping process, improves clamping precision.Push-pull mechanism 46 is specifically as follows the servo-control mechanisms such as air pressure topworks (cylinder), hydraulic actuating mechanism or electro-motor.For air pressure topworks (cylinder), the adjustment that can realize clamping dynamics and speed by the pressure of adjustable pressure topworks (cylinder) and flow.
Further, support portion 35 comprises at least two liftable brackets 47.
Concrete, comprise two brackets 47 for support portion 35 in Fig. 4-Fig. 6, bracket 47 is placed with super capacitor monomer 21.Lifting screw 48 can be provided with in bracket 47, by adjustment lifting screw 48, the upper and lower displacement of bracket 47 can be adjusted, to realize the centering (right alignment) of super capacitor monomer 21 and positive detecting electrode 31 and negative detecting electrode 32, adapt to the super capacitor monomer 21 of different size diameter.
Further, positive detecting electrode 31 and negative detecting electrode 32 can be multiple, and support portion 35 has the supporting zone of the super capacitor monomer 21 corresponding with the number of positive detecting electrode 31 and negative detecting electrode 32.
Concrete, because ultracapacitor comprises the super capacitor monomer 21 of multiple serial or parallel connection, therefore positive detecting electrode 31 and negative detecting electrode 32 can be set to multiple, corresponding support portion 35 can arrange multiple supporting zone, each supporting zone supports a super capacitor monomer 21, detect while realizing multiple super capacitor monomer 21, improve detection efficiency.To detect 4 super capacitor monomers 21 simultaneously in Fig. 5, Fig. 6.
It should be noted that, the positive detecting electrode in the present embodiment and negative detecting electrode can exchange, and adaptive change connects with the positive and negative electrode of super capacitor monomer and the corresponding of the both positive and negative polarity of capacitance detecting equipment and resistance detection equipment.
The pick-up unit of the super capacitor monomer of the present embodiment, by just, the capacitance of the capacitance detecting electrode pair super capacitor monomer in negative detecting electrode detects, by just, the resistance of resistance detection probe to super capacitor monomer in negative detecting electrode detects, and insulation course is set between capacitance detecting electrode and resistance detection probe, achieve and detect while the resistance of super capacitor monomer and capacitance, improve the detection efficiency to super capacitor monomer, and just reduce, the resistance of negative detecting electrode (capacitance detecting electrode and resistance detection probe) itself is to the interference of the resistance of super capacitor monomer, improve the accuracy of detection of the resistance to super capacitor monomer.The resilientiy stretchable design of resistance detection probe, reduces the interference of contact resistance to the resistance of super capacitor monomer, improves the accuracy of detection of the resistance to super capacitor monomer.The split-type design of resistance detection probe, is convenient to assembling and changes.The capacitance detecting equipment connection of capacitance detecting electrode with outside and the replacing of capacitance detecting electrode are convenient in the setting of copper bar.The resilientiy stretchable design in the lateral direction of positive and negative detecting electrode, reduces the interference of contact resistance to the resistance of super capacitor monomer, improves the accuracy of detection of the resistance to super capacitor monomer.Bracket can up-down adjustment, ensure that the centering (right alignment) of super capacitor monomer and positive and negative detecting electrode, adapts to the super capacitor monomer of different size diameter.Detect while can realizing multiple super capacitor monomer.
The above; be only embodiment of the present utility model; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; change can be expected easily or replace, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of described claim.
Claims (14)
1. the compound detection electrode structure of a super capacitor monomer, it is characterized in that, comprise capacitance detecting electrode (11) and resistance detection probe (12), described resistance detection probe (12) is embedded in described capacitance detecting electrode (11), and can stretch out from described capacitance detecting electrode (11), be provided with insulation course (13) between described capacitance detecting electrode (11) and described resistance detection probe (12).
2. the compound detection electrode structure of super capacitor monomer according to claim 1, is characterized in that, the probe that described resistance detection probe (12) is resilientiy stretchable.
3. the compound detection electrode structure of super capacitor monomer according to claim 1, it is characterized in that, also comprise copper bar (22), described capacitance detecting electrode (11) has resettlement section (111), described capacitance detecting electrode (11) is fixed on described copper bar (22), and be electrically connected with described copper bar (22), described copper bar (22) and capacitance detecting equipment connection;
Described resistance detection probe portion (12) is arranged in the resettlement section (111) of described capacitance detecting electrode (11), (22) are provided with the first through hole to described copper bar, the rear end of described resistance detection probe (12) passes from described first through hole, with resistance detection equipment connection, between described resistance detection probe (12) and described copper bar (22), be provided with described insulation course (13).
4. the compound detection electrode structure of super capacitor monomer according to claim 3, it is characterized in that, described resistance detection probe (12) is provided with the first spring device (23), one end of described first spring device (23) is fixed or is connected on described insulation course (13), and the other end is fixed or is connected on described resistance detection probe (12).
5. the compound detection electrode structure of super capacitor monomer according to claim 4, it is characterized in that, described resistance detection probe (12) is split-type structural, its fore-end (121) and rear end part (122) are threaded connection, the described fore-end (121) of described resistance detection probe (12) and the binding site of described rear end part (122) form ladder end face (123), and described first spring device (23) is connected on described ladder end face (123).
6. according to the compound detection electrode structure of the arbitrary described super capacitor monomer of claim 1 to 5, it is characterized in that, the structure of the structure of described capacitance detecting electrode (11) and the electrode of described super capacitor monomer (21) matches, the electrode of described super capacitor monomer (21) can be made to extend in described capacitance detecting electrode (11), the end face of the electrode of described super capacitor monomer (21) abuts with described resistance detection probe (12), described capacitance detecting electrode (11) is connected on the conducting surface of the root of the electrode of described super capacitor monomer (21).
7., according to the compound detection electrode structure of the arbitrary described super capacitor monomer of claim 1 to 5, it is characterized in that, described insulation course (13) is nylon bush.
8. the pick-up unit of a super capacitor monomer, it is characterized in that, comprise positive detecting electrode (31), negative detecting electrode (32) and base plate (33), also comprise along left and right directions arrange and be fixed on first installation portion (34) of the described positive detecting electrode of the installation (31) on described base plate (33), super capacitor monomer (21) support portion (35), second installation portion (36) of described negative detecting electrode (32) is installed;
Described first installation portion (34) and described second installation portion (36) lay respectively at the both sides of described support portion (35), described positive detecting electrode (31) and described negative detecting electrode (32) have as arbitrary in claim 1 to 7 as described in compound detection electrode structure.
9. the pick-up unit of super capacitor monomer according to claim 8, it is characterized in that, also comprise the 3rd installation portion (41), be fixedly installed on the left side of described first installation portion (34), described positive detecting electrode (31) can relatively described first installation portion (34) be moved in the lateral direction, described 3rd installation portion (41) comprises the second spring device (42), described second spring device (42) is connected with described positive detecting electrode (31), for making described positive detecting electrode (31) can elastic telescopic in the lateral direction.
10. the pick-up unit of super capacitor monomer according to claim 9, it is characterized in that, described positive detecting electrode (31) is the compound detection electrode structure as described in claim 3 or 4, described 3rd installation portion (41) also comprises mounting plate (43) and is fixed at least two register pins (44) on described mounting plate (43), described register pin (44) is through the copper bar (22) of described positive detecting electrode (31), by the restriction of the direction of motion of the copper bar (22) of described positive detecting electrode (31) in the lateral direction, the left end of the copper bar (22) of described positive detecting electrode (31) is fixed or be connected to described second spring device (42).
The pick-up unit of 11. super capacitor monomers according to claim 10, it is characterized in that, described mounting plate (43) is provided with the second through hole, and the resistance detection probe (12) of described positive detecting electrode (31) is through described second through hole.
The pick-up unit of 12. super capacitor monomers according to claim 8, it is characterized in that, also comprise and be arranged on the line slideway (45) extended in left-right direction on described base plate (33) and push-pull mechanism (46), described second installation portion (36) is erected on described line slideway (45), described push-pull mechanism (46) is arranged on the right side of described second installation portion (36), and be connected with described second installation portion (36), for making described second installation portion (36) in the upper motion of described line slideway (45).
The pick-up unit of 13. super capacitor monomers according to claim 8, is characterized in that, described support portion (35) comprise at least two liftable brackets (47).
The pick-up unit of the super capacitor monomer described in 14. according to Claim 8 to 13 are arbitrary, it is characterized in that, described positive detecting electrode (31) and described negative detecting electrode (32) are for multiple, and described support portion (35) have the supporting zone of the super capacitor monomer (21) corresponding with the number of described positive detecting electrode (31) and described negative detecting electrode (32).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520248079.XU CN204514970U (en) | 2015-04-22 | 2015-04-22 | The compound detection electrode structure of super capacitor monomer and pick-up unit |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520248079.XU CN204514970U (en) | 2015-04-22 | 2015-04-22 | The compound detection electrode structure of super capacitor monomer and pick-up unit |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN204514970U true CN204514970U (en) | 2015-07-29 |
Family
ID=53712929
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201520248079.XU Withdrawn - After Issue CN204514970U (en) | 2015-04-22 | 2015-04-22 | The compound detection electrode structure of super capacitor monomer and pick-up unit |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN204514970U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104833827A (en) * | 2015-04-22 | 2015-08-12 | 北京天诚同创电气有限公司 | Composite detection electrode structure of super capacitor monomer and detection device |
-
2015
- 2015-04-22 CN CN201520248079.XU patent/CN204514970U/en not_active Withdrawn - After Issue
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104833827A (en) * | 2015-04-22 | 2015-08-12 | 北京天诚同创电气有限公司 | Composite detection electrode structure of super capacitor monomer and detection device |
| CN104833827B (en) * | 2015-04-22 | 2020-02-21 | 北京天诚同创电气有限公司 | Composite detection electrode structure of super capacitor monomer and detection device |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN203521187U (en) | Supercapacitor module and conductive connecting piece thereof | |
| CN204514970U (en) | The compound detection electrode structure of super capacitor monomer and pick-up unit | |
| CN104833827A (en) | Composite detection electrode structure of super capacitor monomer and detection device | |
| CN202934282U (en) | Welding location mechanism of front longitudinal beam front end connecting plate assembly | |
| CN109980423A (en) | A kind of Multifunctional switch socket | |
| CN204144084U (en) | A kind of waterproof proximity switch fixture | |
| CN213135909U (en) | Quick switching mechanism of frock clamp | |
| CN204855573U (en) | Ultracapacitor system test fixture | |
| CN103645039B (en) | A kind of special-shaped dystopy switch key endurance testing device | |
| CN207751509U (en) | A kind of workpiece is in level detecting apparatus | |
| CN207741688U (en) | A kind of adjustable automobiles brake disc Surface testing mechanism | |
| CN204108891U (en) | A kind of tilt adjustable joint flat panel TV is with leaning to working plate device | |
| CN206187087U (en) | Steering column installation device with adjustable | |
| CN220710485U (en) | Battery mounting structure of battery module | |
| CN214124913U (en) | Quick automatic charging mechanism module of mobile robot | |
| CN216353789U (en) | Capacitor applied to energy conversion in circuit | |
| CN205095370U (en) | Remove single armed basketball stands | |
| CN215263611U (en) | Fixing device for cylindrical battery detection | |
| CN219302620U (en) | Battery discharge detection device | |
| CN216265542U (en) | Low-voltage current transformer clamping device | |
| CN215813235U (en) | Voltage internal resistance testing mechanism | |
| CN203871342U (en) | Solar cell panel | |
| CN210817840U (en) | Welding pressure head assembly | |
| CN218101383U (en) | Quick clamp for battery capacity grading and electricity supplementing | |
| CN104240985A (en) | Waterproof proximity switch fixing device |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| AV01 | Patent right actively abandoned | ||
| AV01 | Patent right actively abandoned | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20150729 Effective date of abandoning: 20200221 |
|
| AV01 | Patent right actively abandoned |
Granted publication date: 20150729 Effective date of abandoning: 20200221 |