JP5368526B2 - Measured object centering device - Google Patents

Description

The present invention is related to the centering device of the batteries and accumulators, the object to be measured such as a capacitor.

As disclosed in Patent Documents 1 and 2, today, batteries and accumulators, development and shipment such as a capacitor, that have different test methods have been employed to inspect the quality. As one of them, the contact point / electrode of the prototype at the time of development is brought into pressure contact with the contact (contact pin, etc.) of the measuring device, and the prototype is overcharged and overdischarged under various temperature conditions, and its electrical characteristics There is known an inspection method in which a value is measured by a measuring device and evaluated.

Thus, when the contact of the measuring device is pressed against the contact of the object to be measured, it is important that the center positions of the contacts on the measuring device side and the object to be measured coincide with each other. Out is done.

JP 2004-152716 A JP 2001-299956 A

  However, measured objects such as batteries and storage batteries have various dimensions and external shapes according to specifications.

  For this reason, it is necessary to install and remove the adjustment spacer every time the outer shape of the object to be measured (mainly the diameter direction of the contact) changes. However, the adjustment work using such an adjustment spacer is troublesome, and the adjustment spacer is used. Actually, it is difficult to accurately match the contact center of the object to be measured with the contact center on the measuring device side.

The present invention has been made in view of the foregoing circumstances, batteries and storage batteries, when performing evaluated by measuring the electrical characteristic values at the development or shipment of the object such as a capacitor in the measuring device, the measured An object of the present invention is to provide a centering device for an object to be measured, which can easily align the contact center on the measuring device side with the contact / electrode center of the object to be measured even if the outer shape of the object changes.

According to one aspect, the centering device of the object to be measured is disposed coaxially, a plurality of diaphragm mechanisms mounted by superimposing a plurality of diaphragm blades in operation ring, connecting the respective operation ring and a coupling member, to open the aperture of the diaphragm blades in the rotational operation in one direction of the operating ring, and squeeze the diaphragm blades in the rotating operation in the reverse direction of the operation ring are inserted into the respective throttle mechanism In addition, the measured object is centered.

According to the centering device for the object to be measured of the present disclosure, after the object to be measured is inserted through each of the diaphragm mechanisms arranged on the same axis, the operation ring of the diaphragm mechanism is rotated to throttle the diaphragm blade. The diaphragm blades of the respective diaphragm mechanisms are simultaneously throttled according to the outer diameter of the measurement object, and the electrode of the measurement object is positioned in alignment with the center of the electrode of the measurement apparatus. And even if the outer diameter of the object to be measured changes, the diaphragm blades of the respective diaphragm mechanisms are simultaneously constricted according to the diameter, and the electrode of the object to be measured W is positioned in alignment with the center of the electrode of the measuring apparatus.

  Therefore, according to the centering device, it is possible to accurately and easily match the electrode of the object to be measured with the center of the electrode of the measuring device as compared with the conventional adjustment work using the adjusting spacer.

It is a front view of the aperture mechanism used for one Embodiment of a centering apparatus . It is a top view of one embodiment of a centering device .

Hereinafter, embodiments will be described with reference to the drawings .

1 and 2 show an embodiment of a centering device, in the figure 1 is in the operation ring 3 which is formed in an annular shape, a diaphragm mechanism mounted by superposing diaphragm blades 5 of a plurality. The diaphragm Ri mechanism 1 consists aperture and the same structure of the lens of the camera, open aperture of the blade 5 and aperture rotating the operation ring 3 in one direction, squeezed the diaphragm blades 5 and rotating the operation ring 3 to the reverse direction It is like that.

Mechanism Ri diaphragm as shown in FIG. 2. 1, on the base, not shown, that are arranged in pairs in the left and right to match the central axis. A cylindrical body 7 is integrally formed between the two operating rings 3 with the same central axis . When one operating ring 3 is rotated and the diaphragm blades 5 are squeezed, the other operating ring 3 is connected via the cylindrical body 7. It has become so that squeezed the blade 5 stop rotating simultaneously. Thus centering of the workpiece W of the battery or storage battery or the like inserted through the left and right of the diaphragm mechanism 35 is Ru performed.

In addition, in the figure, 9 is an electrode of the measuring device, and the center of the diaphragm blade 5 and the center of the electrode 9 coincide. Reference numerals 11 and 13 denote electrodes of the object to be measured W (for example, a prototype such as a battery ) .

Since the centering device 15 according to the present embodiment is configured as described above, when the electrodes 11 and 13 of the object W to be measured are overcharged and overdischarged and their electrical characteristic values are measured with the measuring device, first, , Ru is inserted the workpiece W to the left and right of the diaphragm mechanism 1 as shown by the broken line in FIG.
Next, when one of the operation rings 3 is rotated to throttle the diaphragm blade 5, the diaphragm blades 5 of the left and right diaphragm mechanisms 1 are simultaneously throttled according to the outer diameter of the object W to be measured, and the electrode 11 of the object W to be measured. , 13 are aligned with the center of the electrode 9 of the measuring device.

  Even if the outer diameter of the object to be measured changes, the diaphragm blades 5 of the left and right diaphragm mechanisms 1 are simultaneously constricted according to the diameter, and the electrodes 11 and 13 of the object W to be measured are centered on the electrode 9 of the measuring device. Positioned consistently.

  Therefore, according to the centering device 15 according to the present embodiment, the electrodes 11 and 13 of the workpiece W are aligned with the center of the electrode 9 of the measuring device more accurately and easily than the conventional adjustment work using the adjustment spacer. It became possible.

As shown in FIG. 2, in the above-described embodiment, the cylindrical body 7 is integrally formed between the two operation rings 3 with the same central axis. However , instead of the cylindrical body 7, a strip shape is formed over the two operation rings 3. but it may also be the stay and multiple erection.
By using the stay in this way, there is an advantage that the weight of the entire device can be reduced as compared with the centering device 15.

DESCRIPTION OF SYMBOLS 1 Diaphragm mechanism 3 Operation ring 5 Diaphragm blade 7 Cylindrical body 9, 11, 13 Electrode 15 Centering apparatus

Claims (3)

A plurality of aperture mechanisms arranged coaxially and mounted with a plurality of aperture blades stacked in an operation ring;
A connecting member for connecting the operation rings ,
Open the aperture of the diaphragm blades in the rotational operation in one direction of the operating ring,
Wherein squeezing the diaphragm blades in the rotating operation of the reverse direction of the operation ring, the centering device of the object which is characterized in that the centering of the object inserted through the respective aperture mechanism.   The device for centering an object to be measured according to claim 1, wherein the connecting member is a cylindrical body integrally formed over each operation ring. The centering device for an object to be measured according to claim 1, wherein the connecting member is a strip-shaped stay integrally formed over each operation ring.

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