CN211043637U - Detection apparatus for positive negative pole of test product is positive and negative - Google Patents

Abstract

The utility model belongs to the technical field of product orientation check out test set and specifically relates to positive negative pole of test product moves towards positive and negative detection device. The detection device comprises a lifting mechanism, a connecting plate, a positive electrode test probe and a negative electrode test probe, wherein the connecting plate is fixed at the lifting end of the lifting mechanism, the positive electrode test probe is fixed on the connecting plate, the negative electrode test probe is connected onto the connecting plate in a sliding manner, and a buffer mechanism is connected between the connecting plate and the positive electrode test probe. The utility model discloses a lifting mechanism controls the lift of anodal test probe and negative pole test probe. The anode and the cathode are judged by attaching the anode test probe and the cathode test probe to a product and judging whether the anode and the cathode are conducted or not. The positive test probe is prevented from being in hard contact with a product through the buffer mechanism.

Description

Detection apparatus for positive negative pole of test product is positive and negative

Technical Field

The utility model belongs to the technical field of product orientation check out test set and specifically relates to positive negative pole of test product moves towards positive and negative detection device.

Background

When the product with the positive and negative electrodes needs to be assembled and installed, whether the positive and negative directions of the product meet the requirements needs to be determined. But the efficiency of the existing detection devices is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem described in the background art, the utility model provides a positive negative pole of test product moves towards detection device just. The lifting mechanism is used for controlling the lifting of the anode test probe and the cathode test probe. The anode and the cathode are judged by attaching the anode test probe and the cathode test probe to a product and judging whether the anode and the cathode are conducted or not. The positive test probe is prevented from being in hard contact with a product through the buffer mechanism.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a detection apparatus for positive negative pole orientation is just turned over to test product, includes elevating system, connecting plate, anodal test probe, negative pole test probe, the connecting plate is fixed at elevating system's lift end, and anodal test probe is fixed on the connecting plate, and negative pole test probe sliding connection is connected on the connecting plate, is connected with buffer gear between connecting plate and the anodal test probe.

Specifically, elevating system is the slip table cylinder, and elevating system's slip table is together fixed with the connecting plate.

Specifically, be fixed with the connecting block on the connecting plate, be equipped with the wearing groove in the connecting block, the wearing inslot sliding fit of connecting block is connected with the slider, and the slider bottom is fixed with anodal test probe, is connected with buffer gear between slider and the connecting block.

Specifically, the buffer mechanism is a spring.

The utility model has the advantages that: the utility model provides a positive negative pole of test product moves towards detection device just anti-. The lifting mechanism is used for controlling the lifting of the anode test probe and the cathode test probe. The anode and the cathode are judged by attaching the anode test probe and the cathode test probe to a product and judging whether the anode and the cathode are conducted or not. The positive test probe is prevented from being in hard contact with a product through the buffer mechanism.

Drawings

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

Fig. 1 is a schematic structural diagram of the present invention;

in the figure, 1 is a lifting mechanism, 2 is a connecting plate, 3 is an anode test probe, 4 is a cathode test probe, 5 is a connecting block, and 6 is a sliding block.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

Fig. 1 is a schematic structural diagram of the present invention.

The utility model provides a positive negative pole of test product moves towards detection device just anti-, includes elevating system 1, connecting plate 2, anodal test probe 3, negative pole test probe 4, elevating system 1's lift end is fixed to connecting plate 2, and anodal test probe 3 is fixed on connecting plate 2, and negative pole test probe 4 sliding connection is on connecting plate 2, is connected with buffer gear between connecting plate 2 and the anodal test probe 3. The lifting mechanism 1 is a sliding table cylinder, and a sliding table of the lifting mechanism 1 is fixed with the connecting plate 2. Connecting block 5 is fixed on connecting plate 2, is equipped with the wear groove in the connecting block 5, and the wear inslot sliding fit of connecting block 5 is connected with slider 6, and slider 6 bottom is fixed with anodal test probe 3, is connected with buffer gear between slider 6 and the connecting block 5. The buffer mechanism is a spring.

As shown in the attached figure 1, a lifting mechanism 1 is a sliding table cylinder, a piston rod of the lifting mechanism 1 is fixed on the sliding table, the sliding table is connected to a cylinder body of the lifting mechanism 1 in a sliding mode, firstly, a product is horizontally placed and positioned on a jig, at the moment, the product is located under a positive electrode test probe 3 and a negative electrode test probe 4, then, the piston rod of the lifting mechanism 1 extends out and drives the positive electrode test probe 3 and the negative electrode test probe 4 to move downwards, after the positive electrode test probe 3 contacts the product, the positive electrode test probe 3 and a sliding block 6 move upwards along a through groove of a connecting block 5, at the moment, a buffer mechanism (a spring) is in a compressed state, so that the positive electrode test probe 3 is prevented from being in hard contact with the product, finally, the positive electrode test probe 3 and the negative electrode test probe 4 are respectively attached to two extremes of the product, the positive electrode test probe 3 and the negative electrode test probe 4 are connected with a relay, the relay is connected with P L C, the other end of the positive electrode test probe 3 and the negative electrode test probe 4 is not in line with the product, if the positive electrode test probe 3 and the negative electrode test probe 4 is not in line with the product.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (4)

1. The utility model provides a positive negative pole of test product moves towards detection device just anti-, characterized by, includes elevating system (1), connecting plate (2), anodal test probe (3), negative pole test probe (4), elevating end at elevating system (1) is fixed in connecting plate (2), and anodal test probe (3) are fixed on connecting plate (2), and negative pole test probe (4) sliding connection is on connecting plate (2), is connected with buffer gear between connecting plate (2) and anodal test probe (3).

2. The positive and negative orientation detection device of claim 1, wherein: the lifting mechanism (1) is a sliding table cylinder, and a sliding table of the lifting mechanism (1) is fixed with the connecting plate (2).

3. The positive and negative orientation detection device of claim 1, wherein: the testing device is characterized in that a connecting block (5) is fixed on the connecting plate (2), a through groove is formed in the connecting block (5), a sliding block (6) is connected in the through groove of the connecting block (5) in a sliding mode, a positive testing probe (3) is fixed at the bottom of the sliding block (6), and a buffering mechanism is connected between the sliding block (6) and the connecting block (5).

4. The positive and negative orientation detection device of the test product of claim 1 or 3, wherein: the buffer mechanism is a spring.

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