CN218867593U - Multidirectional conduction connector - Google Patents

Abstract

The utility model discloses a multidirectional conduction connector belongs to pencil test technical field. Multidirectional conducting connector includes power supply module, first connecting assembly, second connecting assembly and fixed unit, first connecting assembly includes first joint, power supply module's first electrode and first articulate, second connecting assembly includes a plurality of second joints, a plurality of emitting diode and third joint, the second electrode at power supply module is all connected to third joint and a plurality of second joint, all be connected with emitting diode between every second joint and the power supply module, be connected with emitting diode between third joint and the power supply module, a plurality of second joints are all fixed on fixed unit, the interval that adjacent second connects suits with the interval of adjacent measuring point position. The utility model discloses a multidirectional conduction connector can measure a plurality of measuring points simultaneously, convenient operation, and save time raises the efficiency, also can measure a measuring point alone, can satisfy multiple measurement demand.

Description

Multidirectional conducting connector

Technical Field

The utility model relates to a pencil test technical field especially relates to a multidirectional conduction connector.

Background

In the actual production of wire harnesses of automobiles and the like, whether a plurality of loops are passages needs to be tested, and the current testing method comprises the following steps: taking a conducting connector, wherein the conducting connector is provided with two test joints, and one test joint is connected with one end of a loop; finding out corresponding measuring point positions on a drawing according to the selected port measuring points, wherein the other testing joint is in contact with each point position respectively to see whether a diode on the conducting connector lights up or not, and if the diode lights up, the diode is a passage, and the measured point position is normal; if the diode is not bright, the circuit is broken, and the measured point location is abnormal, so that each point location test is realized. According to the analysis of the actual production condition, a finished product line needs 3 persons to finish the matching, the measuring time is 2-3 hours, the labor consumption is long, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multidirectional conduction connector can measure a plurality of measuring points simultaneously, convenient operation, and save time raises the efficiency, also can measure a measuring point alone, can satisfy multiple measuring demand.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a multidirectional conduction connector, includes power supply module, first coupling assembling, second coupling assembling and fixed unit, first coupling assembling includes first joint, power supply module's first electrode and first articulate, second coupling assembling includes that a plurality of second connect, a plurality of emitting diode and third connect, the third connects and a plurality of the second connects and all connects the second electrode of power supply module, every the second connect with all be connected with between the power supply module emitting diode, the third connect with be connected with between the power supply module emitting diode, it is a plurality of the second connects all to fix on the fixed unit, and is adjacent the interval that the second connected suits with the interval of adjacent measuring point position.

In some possible embodiments, the first connection assembly further comprises a first adapter, one end of the first adapter is connected to the first electrode of the power module, and the first adapter is connected to the other end of the first adapter;

the second coupling assembling still includes the second adapter, the one end of second adapter is connected the second electrode of power supply module, the third connects and a plurality of the second connects and connects respectively the other end of second adapter, the second connect with be connected with between the second adapter emitting diode, the third connect with be connected with between the second adapter emitting diode.

In some possible embodiments, the power supply module further comprises an insulated wire, the first connector, the first adapter and the first electrode of the power supply module are connected by the insulated wire, the second connector, the light emitting diode, the second adapter and the second electrode of the power supply module are connected by the insulated wire, and the third connector, the light emitting diode and the second adapter are connected by the insulated wire.

In some possible embodiments, the fixing unit includes a fixing plate and a plurality of fixing components provided on the fixing plate, and the plurality of second joints are fixed to the plurality of fixing components.

In some possible embodiments, the fixing plate defines a plurality of equidistant mounting positions, and a plurality of fixing assemblies are selectively connected to some of the mounting positions to adjust the spacing of the plurality of fixing assemblies.

In some possible embodiments, the fixing assembly includes a fixing seat connected to the fixing plate and a binding tape connected to the fixing seat for binding the second joint.

In some possible embodiments, a plurality of the fixing members are bonded, welded, or connected to the fixing plate by a fastener.

In some possible embodiments, the power supply assembly includes a battery compartment and a battery body disposed within the battery compartment.

In some possible embodiments, a toggle switch is provided on the battery compartment.

In some possible embodiments, the first joint and the second joint are both pinpoint tips.

The utility model has the advantages that:

the utility model provides a multidirectional conduction connector, first joint are connected in one end of a return circuit of pencil, and a plurality of second joints are fixed through fixed unit, connect a plurality of measuring point positions of the other end in return circuit simultaneously, and when the emitting diode that corresponds on the second joint lights up, emitting diode is the route, then the measuring point position of being connected with this second joint is normal; when the corresponding light-emitting diode on the second joint is not bright and the light-emitting diode is open, the measuring point position connected with the second joint is abnormal, so that the plurality of measuring point positions are measured simultaneously through the plurality of second joints, the operation is convenient, the time is saved, and the efficiency is improved. When one measuring point needs to be measured independently, the third joint is connected to a corresponding measuring point position at the other end of the loop, the light-emitting diode on the third joint is lightened, and the light-emitting diode is a passage, so that the measuring point position connected with the third joint is normal; and if the light emitting diode on the third joint is not bright and the light emitting diode is open, the measuring point position connected with the third joint is abnormal. A plurality of second joints or independent third joints are selected according to the number of the measuring points to measure, measuring requirements of different measuring points can be met, and applicability is improved.

Drawings

Fig. 1 is a schematic diagram of a multidirectional conductive connector according to an embodiment of the present invention;

fig. 2 is a partial schematic view of a multi-way connector according to an embodiment of the present invention;

fig. 3 is an exploded view of a fixation plate and a plurality of fixation assemblies provided by an embodiment of the present invention.

In the figure:

1. a power supply component; 11. a battery case; 111. a mounting cavity;

2. a first connection assembly; 21. a first joint; 22. a first adapter;

3. a second connection assembly; 31. a second joint; 32. a second adapter; 33. a light emitting diode; 34. a third joint;

4. an insulated wire;

5. a fixing unit; 51. a fixing plate; 511. mounting positions; 52. a fixing assembly; 521. a fixed seat; 522. and (6) binding the belt.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solutions adopted by the present invention and the technical effects achieved by the present invention clearer, the following will be described in further detail with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected", "connected" and "fixed" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The present embodiment provides a multidirectional conduction connector, as shown in fig. 1 and 2, including a power supply module 1, a first connection module 2, a second connection module 3, and a fixing unit 5, where the first connection module 2 includes a first connector 21, a first electrode of the power supply module 1 is connected to the first connector 21, the second connection module 3 includes a plurality of second connectors 31, a plurality of light emitting diodes 33, and a third connector 34, the third connector 34 and the plurality of second connectors 31 are connected to a second electrode of the power supply module 1, a light emitting diode 33 is connected between each second connector 31 and the power supply module 1, a light emitting diode 33 is connected between the third connector 34 and the power supply module 1, the plurality of second connectors 31 are fixed to the fixing unit 5, an interval between adjacent second connectors 31 is adapted to an interval between adjacent measurement points, one of the first electrode and the second electrode is a positive electrode, and the other is a negative electrode.

A plurality of second on the fixed unit 5 connect 31 directly with a plurality of measuring point position contact can, need not to remove second and connect 31 and lead to the test unstable, improved the simple operation nature and measure the reliability.

The first connector 21 is connected to one end of a loop of the wire harness, when a plurality of measuring points need to be measured simultaneously, a plurality of second connectors 31 are connected to a plurality of measuring points at the other end of the loop simultaneously, and when the light emitting diode 33 corresponding to the second connector 31 is lighted up and the light emitting diode 33 is a passage, the measuring points connected with the second connectors 31 are normal; when the corresponding light emitting diode 33 on the second connector 31 is not lit and the light emitting diode 33 is open, the measurement point location connected with the second connector 31 is abnormal, so that the plurality of measurement point locations are measured simultaneously through the plurality of second connectors 31, the operation is convenient, the time is saved, and the efficiency is improved.

When a measurement point needs to be measured independently, the third joint 34 is connected to a corresponding measurement point position at the other end of the loop, the light emitting diode 33 on the third joint 34 is turned on, and the light emitting diode 33 is a passage, so that the measurement point position connected with the third joint 34 is normal; if the light emitting diode 33 on the third connector 34 is not lit and the light emitting diode 33 is disconnected, the measurement point connected to the third connector 34 is abnormal.

A plurality of second joints 31 or independent third joint 34 are selected according to the number of the measuring points to measure, so that the measuring requirements of different measuring point numbers can be met, and the applicability is improved.

Specifically, two second connectors 31 can be arranged to realize simultaneous measurement of two measurement point locations, and more than three second connectors 31 can also be arranged to realize simultaneous measurement of more than three measurement point locations, and the number of the second connectors 31 is specifically arranged according to the actual number of the measurement point locations without limitation. A plurality of measuring point positions on the specific wire harness are concentrated and fixed, so that the measurement is further facilitated, and the operation is convenient.

In one embodiment, as shown in fig. 1, the first connection assembly 2 further includes a first adapter 22, one end of the first adapter 22 is connected to the first electrode of the power module 1, and the first adapter 21 is connected to the other end of the first adapter 22; first adapter 22 is an one-in-many-out adapter, can realize that a plurality of first joints 21 pass through first adapter 22 and connect the first electrode at power supply module 1 simultaneously, and the convenience is connected, specifically sets up the number and the first adapter 22 of first joint 21 according to actual demand, does not limit. In one embodiment, a light emitting diode 33 is disposed between the first connector 21 and the first adapter 22, and when the light emitting diode 33 connected to the first connector 21 and the light emitting diode 33 connected to the second connector 31 are both lighted, a path is formed, and the reliability of the measurement is further improved.

In an embodiment, as shown in fig. 1, the second connection assembly 3 further includes a second adapter 32, one end of the second adapter 32 is connected to the second electrode of the power supply assembly 1, the third connector 34 and the plurality of second connectors 31 are respectively connected to the other end of the second adapter 32, a light emitting diode 33 is connected between the second connector 31 and the second adapter 32, a light emitting diode 33 is connected between the third connector 34 and the second adapter 32, and the third connector 34 and the plurality of second connectors 31 are both connected to the second electrode of the power supply assembly 1 through the second adapter 32, which facilitates connection, and particularly, without limitation, the corresponding second adapter 32 is selected according to the total number of the third connector 34 and the second connectors 31.

In one embodiment, as shown in fig. 1 and 2, the multi-way conduction connector further includes an insulated wire 4, the first connector 21, the first adapter 22 and the first electrode of the power module 1 are connected by the insulated wire 4, the second connector 31, the light emitting diode 33, the second adapter 32 and the second electrode of the power module 1 are connected by the insulated wire 4, and the third connector 34, the light emitting diode 33 and the second adapter 32 are connected by the insulated wire 4.

In one embodiment, as shown in fig. 1 and 2, the first joint 21 and the second joint 31 are both a pinpoint nib, and the pinpoint nib contacts with a measurement point to realize measurement. The types of the first joint 21 and the second joint 31 can be replaced at any time according to the actual requirements of the measuring points, and the method is convenient and fast.

In one embodiment, as shown in fig. 2, the fixing unit 5 includes a fixing plate 51 and a plurality of fixing assemblies 52 disposed on the fixing plate 51, the plurality of second connectors 31 are fixed on the plurality of fixing assemblies 52, and the second connectors 31 are fixed on the fixing plate 51 through the fixing assemblies 52. In one embodiment, the plurality of fixing units 52 are bonded, welded, or fastened to the fixing plate 51 by fasteners, and may be provided according to the material and structure of the fixing units 52 and the fixing plate 51, without limitation. In one embodiment, as shown in fig. 3, the fixing plate 51 is provided with a plurality of equidistant mounting positions 511, a plurality of fixing elements 52 are selectively connected to some of the mounting positions 511 to adjust the spacing between the plurality of fixing elements 52, and the fixing elements 52 are mounted on the corresponding mounting positions 511 according to the spacing between the measuring points, so that the spacing between the fixing elements 52 is adapted to the spacing between the measuring points, thereby improving the applicability.

In one embodiment, the fixing assembly 52 includes a fixing seat 521 and a strap 522 connected to the fixing seat 521, the fixing seat 521 is connected to the fixing plate 51, the strap 522 is used for binding the second joint 31, both the fixing seat 521 and the strap 522 are available from other manufacturers, a double-sided adhesive tape is disposed on a general back surface of the fixing seat 521 and can be bonded to the fixing plate 51, and the strap 522 passes through a connecting hole in the fixing seat 521 and then binds the insulated wire 4 connected to the second joint 31, so that the second joint 31 is fixed to the fixing plate 51.

In one embodiment, as shown in fig. 3, the mounting portion 511 is a socket, and a plug is disposed at the bottom of the fixing base 521, and the plug is inserted into the socket to fix the fixing base 521 on the fixing plate 51. The number of the second joints 31 is four, the number of the jacks is six, and the four second joints 31 are respectively inserted into the four jacks through the fixing base 521 according to the distance of the measuring point.

In an embodiment, as shown in fig. 1, the power module 1 includes a battery box 11 and a battery body disposed in the battery box 11, one or more mounting cavities 111 may be disposed in the battery box 11, the battery body is disposed in the mounting cavity 111, and the battery body may be a dry battery or a rechargeable battery, which is referred to in the prior art and is not described herein again. In an embodiment, be equipped with toggle switch on battery case 11, toggle switch can realize that multidirectional on-state connector is the route or opens circuit, opens toggle switch during the test and makes multi-thread on-state connector test for the route, and non-test state closes toggle switch and makes multi-thread on-state connector for opening circuit, convenient control, and concrete toggle switch's structure and connection etc. all refer to prior art can, no longer give unnecessary details. The power supply module 1 can be purchased directly and is convenient to use.

The operation steps of using the multi-way conduction connector comprise: a dry battery is arranged in the installation cavity 111 of the battery box 11, and a toggle switch is turned on to form a passage; selecting a proper number of second connectors 31 to be respectively fixed on the fixing unit 5 according to the requirement of the test point position; checking a drawing, confirming that the measured second joints 31 meet the requirements of the corresponding measuring points, connecting the first joints 21 with one end of the wiring harness loop, simultaneously contacting the plurality of second joints 31 with the plurality of measuring points at the other end of the wiring harness loop, checking whether the plurality of light-emitting diodes 33 are lighted, wherein the lighted points are a passage, the measuring points are normal, the bad points are an open circuit, and the measuring points are abnormal.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. This need not be, nor should it be exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. The multidirectional conduction connector is characterized by comprising a power supply assembly (1), a first connection assembly (2), a second connection assembly (3) and a fixing unit (5), wherein the first connection assembly (2) comprises a first joint (21), a first electrode of the power supply assembly (1) is connected with the first joint (21), the second connection assembly (3) comprises a plurality of second joints (31), a plurality of light-emitting diodes (33) and a third joint (34), the third joint (34) is connected with a plurality of the second joints (31) are connected with a second electrode of the power supply assembly (1), each second joint (31) is connected with the light-emitting diodes (33) between the power supply assembly (1), the third joint (34) is connected with the light-emitting diodes (33) between the power supply assembly (1), the second joints (31) are fixed on the fixing unit (5), and the distance between the adjacent second joints (31) is adaptive to the distance between adjacent measurement points.

2. The multidirectional conduction connector according to claim 1,

the first connecting assembly (2) further comprises a first adapter (22), one end of the first adapter (22) is connected to a first electrode of the power supply assembly (1), and the first adapter (21) is connected to the other end of the first adapter (22);

the second coupling assembling (3) still includes second adapter (32), the one end of second adapter (32) is connected the second electrode of power supply module (1), the third connects (34) and a plurality of the second connects (31) and connects respectively the other end of second adapter (32), the second connect (31) with be connected with between second adapter (32) emitting diode (33), the third connect (34) with be connected with between second adapter (32) emitting diode (33).

3. The multidirectional conduction connector according to claim 2, further comprising an insulated wire (4), wherein the first connector (21), the first adapter (22) and a first electrode of the power supply assembly (1) are connected through the insulated wire (4), the second connector (31), the light emitting diode (33), the second adapter (32) and a second electrode of the power supply assembly (1) are connected through the insulated wire (4), and the third connector (34), the light emitting diode (33) and the second adapter (32) are connected through the insulated wire (4).

4. The multidirectional conduction connector according to claim 1, wherein the fixing unit (5) includes a fixing plate (51) and a plurality of fixing members (52) provided on the fixing plate (51), and the plurality of second terminals (31) are fixed to the plurality of fixing members (52).

5. The multidirectional conduction connector as claimed in claim 4, wherein the fixing plate (51) is provided with a plurality of equidistant mounting positions (511), and a plurality of fixing elements (52) are selectively connected to a part of the mounting positions (511) to adjust the spacing of the plurality of fixing elements (52).

6. The multidirectional conduction connector according to claim 4, wherein the fixing assembly (52) comprises a fixing seat (521) and a cable tie (522) connected to the fixing seat (521), the fixing seat (521) is connected to the fixing plate (51), and the cable tie (522) is used for tying the second joint (31) tightly.

7. The multidirectional conduction connector according to claim 4, wherein a plurality of the fixing members (52) are bonded, welded or connected to the fixing plate (51) by a fastener.

8. A multidirectional conduction connector according to any one of claims 1 to 7, wherein the power supply assembly (1) comprises a battery compartment (11) and a battery body provided in the battery compartment (11).

9. A multi-way conductive connector according to claim 8, wherein a toggle switch is provided on the battery compartment (11).

10. Multidirectional connection connector according to any one of claims 1 to 7, characterised in that said first connector (21) and said second connector (31) are each a pinpoint.

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