CN216209784U

CN216209784U - Cable positioning and connecting device

Info

Publication number: CN216209784U
Application number: CN202122675734.8U
Authority: CN
Inventors: 李凤; 韩瑞刚; 宋文利; 乔政
Original assignee: Shanxi Fenxi Heavy Industry Co Ltd
Current assignee: Shanxi Fenxi Heavy Industry Co Ltd
Priority date: 2021-11-04
Filing date: 2021-11-04
Publication date: 2022-04-05
Anticipated expiration: 2031-11-04

Abstract

The utility model discloses a cable positioning and connecting device. The device includes: the cable positioning and connecting device comprises a cable positioning and connecting device main body, a working indicator light and an indicator switch, wherein a first socket and M second sockets for plugging cables to be processed are arranged on a panel of the main body; m first cores are arranged in the first socket; m-1 second cores actually used in the M second sockets; m-1 first cores in the m first cores are connected with m-1 actually used second cores in a one-to-one correspondence manner; the work indicator lamps are arranged on the panel of the main body, and m-1 work indicator lamps are arranged and respectively correspond to m-1 actually used second cores one by one; the indication switches are arranged on the panel of the main body and correspond to the work indication lamps one to one and are used for controlling the on-off of the circuits of the work indication lamps. According to the utility model, all the indicating switches are turned on, the cables to be processed are inserted into the first socket and the second socket, and by observing the on-off of the working indicating lamp, which cable is conducted can be determined, so that a great deal of time is saved.

Description

Cable positioning and connecting device

Technical Field

The utility model relates to the technical field of cable connection, in particular to a cable positioning and connecting device.

Background

In the prior art, when a cable is processed, a first socket needs to be welded or crimped, and after the processing is finished, a position of a contact point of the cable and a second socket is determined by using a digital multimeter when the cable is welded or crimped. The digital multimeter finds out which line the contact point of another second socket needs to be connected is in the leading-out wire of the first socket, and after welding or crimping, the digital multimeter is used for testing whether the contact points of the first socket and the second socket are correct, namely the digital multimeter is used for conducting relation judgment. According to the method, when the contact point of another second socket to be connected is found in the outgoing line of the first socket, the digital multimeter needs to be used for conducting relation judgment for many times, and when a cable is damaged in the using process, the digital multimeter needs to be used repeatedly for conducting relation judgment, so that the process is complicated, and time and energy are wasted.

When the contact point of looking for in first socket lead-out wire and another second socket that needs to be connected is which line among the prior art, need use digital multimeter many times to switch on the relation and judge, and when the cable damaged in the use, still need used repeatedly digital multimeter to switch on the relation and judge, the process is loaded down with trivial details, the problem of time waste, energy, does not propose effectual solution at present.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a cable positioning and connecting device, and aims to solve the problems that in the prior art, when a contact point of a first socket outgoing line and another second socket needing to be connected is found out, a digital multimeter needs to be used for conducting relation judgment for many times, when a cable is damaged in the using process, the digital multimeter needs to be used for conducting relation judgment for many times, the process is complicated, and time and energy are wasted.

In order to achieve the above object, the present invention provides a cable positioning and connecting device, comprising: the cable positioning and connecting device comprises a cable positioning and connecting device main body, wherein a first socket and M second sockets for inserting cables to be processed are arranged on a panel of the main body; m first cores are arranged in the first socket; the M second sockets have M-1 second cores which are actually used; m-1 first cores in the m first cores are connected with the m-1 actually used second cores in a one-to-one correspondence manner; the work indicator lamps are arranged on the panel of the main body, m-1 work indicator lamps are arranged in total and correspond to the m-1 actually used second cores one by one respectively; the indication switch is arranged on the panel of the main body, corresponds to the work indication lamps one to one and is used for controlling the on-off of the circuits of the work indication lamps.

Optionally, the method further includes: and the power indicator lamp is arranged on the panel of the main body and used for indicating the on-off of the power supply.

Optionally, the method further includes: and the power switch is arranged on the side surface of the main body and used for controlling the on-off of the power supply.

Optionally, a first resistor is disposed between the power switch and the power indicator; a second resistor is arranged between the power switch and the first socket.

Optionally, the power supply, the power switch, the first resistor, the power indicator, the work indicator, the indicator switch, and the second socket are connected in series.

Optionally, the m-1 connecting wires for connecting the first core and the second core include: the shielding wire comprises a single-stranded white wire, a welding wire, a first shielding center line, a second shielding center line and a third shielding center line, wherein the welding wire is formed by welding a shielding wire and the single-stranded white wire in parallel.

Optionally, the second socket includes: a positioning acoustic receiver jack, and/or a more acoustic matrix jack.

Optionally, the positioning acoustic receiver socket is a 4-core socket, and the array socket is a 5-core socket.

The utility model has the beneficial effects that:

the utility model provides a cable positioning and connecting device, which comprises: the cable positioning and connecting device comprises a cable positioning and connecting device main body, a working indicator light and an indicating switch, wherein a first socket and M second sockets for inserting cables to be processed are arranged on a panel of the main body; m first cores are arranged in the first socket; the M second sockets have M-1 second cores which are actually used; m-1 first cores in the m first cores are connected with the m-1 actually used second cores in a one-to-one correspondence manner; the working indicator lamps are arranged on the panel of the main body, and m-1 working indicator lamps are arranged and respectively correspond to the m-1 actually used second cores one by one; the indicating switch is arranged on the panel of the main body, and the switches correspond to the indicating lamps one to one and are used for controlling the on-off of the lines of the indicating lamps.

In the utility model, all switches are turned on, one end of the cable to be processed is directly inserted into the first socket, the connecting point at the other end of the cable to be processed is in touch with the second core on the second socket, and by observing the on and off of the working indicator lamp, which connecting point is conducted can be determined and is welded with the second core. When waiting to process the cable and damaging in the use, can just can know which cable is problematic through the bright circumstances of going out of direct observation work pilot lamp, it can to correspond the repair. The device is simple to operate, saves a large amount of time, and improves the working efficiency.

Drawings

FIG. 1 is a schematic structural diagram of a cable positioning and connecting device according to an embodiment of the present invention;

fig. 2 is a circuit diagram of a cable positioning and connecting device according to an embodiment of the present invention.

Description of the symbols:

the cable positioning and connecting device comprises a cable positioning and connecting device body-1, a first socket-2, a second socket-3, a work indicator lamp-4, an indicator switch-5, a power indicator lamp-6, a power switch-7, a first resistor-8 and a second resistor-9.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the prior art, when a cable is processed, the first socket 2 needs to be welded or crimped, and after the processing is finished, the position of a contact point of the cable and the second socket 3 is determined by using a digital multimeter when the second socket 3 is welded or crimped. The digital multimeter finds out which wire the contact point of the other second socket 3 which needs to be connected is in the outgoing line of the first socket 2, and after welding or crimping is carried out, the digital multimeter is used for testing whether the contact point of the first socket 2 and the second socket 3 is correct or not, namely the digital multimeter is used for judging the conduction relation. According to the method, when the contact point of the other second socket 3 needing to be connected is found out in the outgoing line of the first socket 2, the digital multimeter needs to be used for conducting relation judgment for many times, and when the cable is damaged in the using process, the digital multimeter needs to be used repeatedly for conducting relation judgment, so that the process is complicated, and time and energy are wasted.

Therefore, the present invention provides a cable positioning and connecting device, fig. 1 is a schematic structural diagram of a cable positioning and connecting device provided by an embodiment of the present invention, as shown in fig. 1, the device includes:

the cable positioning and connecting device comprises a cable positioning and connecting device body 1, wherein a first socket 2 and M second sockets 3 for inserting cables to be processed are arranged on a panel of the body 1; m first cores are arranged in the first socket 2; the M second sockets 3 have M-1 second cores which are actually used; m-1 first cores in the m first cores are connected with the m-1 actually used second cores in a one-to-one correspondence manner;

in an alternative embodiment, there are one first socket 2 and four second sockets 3, and there are m first cores in the first socket 2; the M second sockets 3 have M-1 second cores which are actually used; m-1 first cores in the m first cores are connected with the m-1 actually used second cores in a one-to-one correspondence manner; that is, when the number of the first cores is 15 and the number of all the second cores is 17, only 14 actually used second cores are connected to 14 first cores in a one-to-one correspondence. The 14 first cores and the 14 second cores are respectively connected through 14 connecting wires.

In the utility model, the cables to be processed are four-in-one cables, namely four cables to be processed, one ends of the four cables to be processed are all plugged on a first plug, the other ends of the four cables are respectively plugged on a second plug, the first plug is plugged on a first socket 2, and the second plug is plugged on a second socket 3, so that the first socket 2, the connecting wires, the second socket 3, the second plug, the cables to be processed and the first plug form a passage.

The work indicator lamps 4 are arranged on the panel of the main body 1, m-1 work indicator lamps are arranged in total and correspond to the m-1 actually used second cores one by one respectively;

in an optional embodiment, there are 14 indicator lamps, and 4 second sockets 3 are provided, where the first

second socket

3 and 3 working indicator lamps 4 are in a first group, the

second socket

3 and 3 working indicator lamps 4 are in a second group, the

third second socket

3 and 3 working indicator lamps 4 are in a third group, the

fourth second socket

3 and 5 working indicator lamps 4 are in a fourth group, and the second socket 3 includes: a positioning acoustic receiver jack, and/or a more acoustic matrix jack. The positioning acoustic receiver socket is a 4-core socket, and the array socket is a 5-core socket. Specifically, the first second receptacle 3, the second receptacle 3, and the third second receptacle 3 are respectively XP2, XP3, XP4 receptacles (positioning acoustic receiver receptacles), and the fourth second receptacle 3 is a XP5 receptacle (more acoustic matrix receptacle). That is, there are 4 secondary cores in the XP2 socket, 4 secondary cores in the XP3 socket, 4 secondary cores in the XP4 socket, and 5 secondary cores in the XP5 socket; in the practical use process, 3 second cores in the XP2 socket are correspondingly connected with 3 working indicator lamps 4 in the first group one by one, and the rest 1 second core is vacant; 3 second cores in the XP3 socket are correspondingly connected with 3 working indicator lamps 4 in the second group one by one, and the rest 1 second core is vacant; 3 second cores in the XP4 socket are correspondingly connected with 3 working indicator lamps 4 in the third group one by one, and the rest 1 second core is vacant; and 5 second cores in the XP5 socket are connected with 5 working indicator lamps 4 in the fourth group in a one-to-one correspondence mode, and no spare second core exists. The number of the second cores actually used in the 4 second sockets 3 is 14. The 14 operation indicating lamps 4 correspond to the 14 actually used second cores one by one.

The indicating switch 5 is arranged on the panel of the main body 1, and the indicating switch 5 corresponds to the work indicating lamps 4 one to one and is used for controlling the on-off of the circuits of the work indicating lamps 4.

In an optional embodiment, 14 indication switches 5 are provided, and 14 indication switches 5 are in one-to-one correspondence with 14 work indication lamps 4 and used for controlling the on-off of the lines of the work indication lamps 4, that is, when the indication switches 5 are closed, the work indication lamps 4 are turned off, and when the indication switches 5 are turned on and form a passage with the inserted cable to be processed, the work indication lamps 4 are turned on.

A power indicator 6 is further arranged on the panel of the main body 1, and the power indicator 6 is used for indicating the on-off state of a power supply. A power switch 7 is further arranged on the side surface of the main body 1, and the power switch 7 is used for controlling the on-off of a power supply.

In an alternative embodiment, fig. 2 is a circuit diagram of a cable positioning and connecting device according to an embodiment of the present invention, as shown in fig. 2, a first resistor 8 is disposed between the power switch 7 and the power indicator 6; a second resistor 9 is disposed between the power switch 7 and the first socket 2.

In the utility model, the first resistor 8 and the second resistor 9 are both 3k omega, and the cable is prevented from being burnt out due to excessive current by setting the resistors.

The specific circuit connection relationship is as follows: the power supply, the power switch 7, the first resistor 8, the power indicator 6, the work indicator 4, the indicator switch 5 and the second socket 3 are connected in series. The power supply, the power switch 7, the second resistor 9 and the first socket 2 are connected in series.

In a specific embodiment, the power indicator lamp 6, the first working indicator lamp 4, the first indicator switch 5 and the first core in the first second socket 3 are connected in series; the power indicator lamp 6, the second working indicator lamp 4, the second indicator switch 5 and a second core in the first second socket 3 are connected in series; the power indicator lamp 6, the third working indicator lamp 4, the third indicator switch 5 and the third core in the first second socket 3 are connected in series; the power indicator lamp 6, the fourth working indicator lamp 4, the fourth indicator switch 5 and the first core in the second socket 3 are connected in series; the power indicator lamp 6, the fifth work indicator lamp 4, the fifth indicator switch 5 and a second core in the second socket 3 are connected in series; the power indicator 6, the sixth work indicator 4, the sixth indicator switch 5, the third core of the second socket 3 are connected in series … …, the power indicator 6, the fourteenth work indicator 4, the fourteenth indicator switch 5 and the fifth core of the fourth second socket 3 are connected in series.

In the present invention, m-1 connection lines for connecting the first core and the second core include: the shielding wire comprises a single-stranded white wire, a welding wire, a first shielding center line, a second shielding center line and a third shielding center line, wherein the welding wire is formed by welding a shielding wire and the single-stranded white wire in parallel.

In a specific embodiment, the first second socket 3 and the 3 operation indicator lamps 4 are in a first group, and the 3 connection wires for connecting the first core and the second core in the group have different colors, which are respectively: the shielding wire comprises a single-stranded white wire, a welding wire and a first shielding center wire, wherein the welding wire is formed by welding a shielding wire and the single-stranded white wire in parallel; the second socket 3 and the 3 working indicator lamps 4 are in a second group, and the colors of the 3 connecting wires for connecting the first core and the second core in the group are different, and are respectively as follows: the shielding wire comprises a single-stranded white wire, a welding wire and a first shielding center wire, wherein the welding wire is formed by welding a shielding wire and the single-stranded white wire in parallel; the

third second socket

3 and 3 work indicator lamps 4 are a first group, and the colors of the 3 connecting wires used for connecting the first core and the second core in the group are different, and the colors are respectively as follows: the shielding wire comprises a single-stranded white wire, a welding wire and a first shielding center wire, wherein the welding wire is formed by welding a shielding wire and the single-stranded white wire in parallel; the

fourth second socket

3 and 5 work indicator lamps 4 are in a first group, and the colors of the 5 connecting wires for connecting the first core and the second core in the group are different, and are respectively as follows: the shielding device comprises a single-stranded white wire, a welding wire, a first shielding center line, a second shielding center line and a third shielding center line, wherein the welding wire is formed by welding a shielding wire and the single-stranded white wire in parallel;

in the present invention, the panel of the main body 1 includes 6 portions; the first part comprises a first socket 2; the second part includes: a power indicator lamp 6; the third part comprises: a first

second socket

3, 3

working indicator lamps

4 and 3 indicator switches 5; the fourth section includes: a

second socket

3, 3

working indicator lamps

4 and 3 indicator switches 5; the fifth part includes: a

third second socket

3, 3

working indicator lamps

4 and 3 indicator switches 5; the sixth section includes: a

fourth second socket

3, 5

working indicator lamps

4 and 5 indicator switches 5; in a specific embodiment, the first part is arranged at the middle upper part of the panel, and the second part is arranged at the left side of the first part; the third part, the fourth part, the fifth part and the sixth part are arranged below the first part and are arranged at equal intervals. The operation indicator lamp 4 and the indicator switch 5 are provided between the first socket 2 and the second socket 3.

When the working indicator lamp 4 is turned on, the power switch 7 is turned on, all the indicator switches 5 are turned on, the first plug of the cable to be processed is directly inserted into the first socket 2, the connection point of the second plug of the cable to be processed is in contact with the second core on the second socket 3, and after the working indicator lamp 4 is turned on, the indicator switch 5 is turned off, and the connection point is welded on the second core. The indication switch 5 is turned off to prevent the ripple current of the electric soldering iron from influencing the battery during welding and to save more power later. When waiting to process the cable and damaging in the use, can just can know which cable is problematic through the bright circumstances of going out of direct observation work pilot lamp 4, it can to correspond the repair.

The utility model has the beneficial effects that:

the utility model provides a cable positioning and connecting device, which comprises: the cable positioning and connecting device comprises a cable positioning and connecting device body 1, a working indicator lamp 4 and an indicator switch 5, wherein a first socket 2 and M second sockets 3 for inserting cables to be processed are arranged on a panel of the body 1; m first cores are arranged in the first socket 2; the M second sockets 3 have M-1 second cores which are actually used; m-1 first cores in the m first cores are connected with the m-1 actually used second cores in a one-to-one correspondence manner; the working indicator lamps 4 are arranged on the panel of the main body 1, and m-1 working indicator lamps are arranged and respectively correspond to the m-1 actually used second cores one by one; the indicating switches 5 are arranged on the panel of the main body 1, correspond to the indicating lamps one to one and are used for controlling the on-off of the lines of the indicating lamps.

In the utility model, all switches are turned on, one end of the cable to be processed is directly inserted into the first socket 2, the connecting point at the other end of the cable to be processed is in touch with the second core on the second socket 3, and by observing the on-off of the working indicator lamp 4, which connecting point is conducted can be determined, and the connecting point is welded with the second core. When waiting to process the cable and damaging in the use, can just can know which cable is problematic through the bright circumstances of going out of direct observation work pilot lamp 4, it can to correspond the repair. The device is simple to operate, saves a large amount of time, and improves the working efficiency.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. A cable positioning and connecting device, comprising:

the cable positioning and connecting device comprises a cable positioning and connecting device body (1), wherein a first socket (2) and M second sockets (3) for inserting cables to be processed are arranged on a panel of the body; m first cores are arranged in the first socket; the M second sockets have M-1 second cores which are actually used; m-1 first cores in the m first cores are connected with the m-1 actually used second cores in a one-to-one correspondence manner;

the work indicator lamps (4) are arranged on the panel of the main body, m-1 work indicator lamps are arranged in the main body, and the work indicator lamps are respectively in one-to-one correspondence with the m-1 actually used second cores;

and the indicating switch (5) is arranged on the panel of the main body, corresponds to the work indicating lamps one to one and is used for controlling the on-off of the circuits of the work indicating lamps.

2. The apparatus of claim 1, further comprising:

and the power indicator lamp (6) is arranged on the panel of the main body and is used for indicating the on-off of the power supply.

3. The apparatus of claim 2, further comprising:

and the power switch (7) is arranged on the side surface of the main body and is used for controlling the on-off of the power supply.

4. The apparatus of claim 3, wherein:

a first resistor (8) is arranged between the power switch and the power indicator lamp;

a second resistor (9) is arranged between the power switch and the first socket.

5. The apparatus of claim 4, wherein:

the power supply, the power switch, the first resistor, the power indicator, the work indicator, the indicator switch and the second socket are connected in series.

6. The apparatus of claim 1, wherein:

the m-1 connecting wires for connecting the first core and the second core comprise: the shielding wire comprises a single-stranded white wire, a welding wire, a first shielding center line, a second shielding center line and a third shielding center line, wherein the welding wire is formed by welding a shielding wire and the single-stranded white wire in parallel.

7. The apparatus of claim 1, wherein:

the second socket includes: a positioning acoustic receiver jack, and/or a more acoustic matrix jack.

8. The apparatus of claim 7, wherein:

the positioning acoustic receiver socket is a 4-core socket, and the array socket is a 5-core socket.