CN218275089U - Terminal wiring structure based on servo driver - Google Patents

Abstract

The utility model relates to the technical field of servo driver terminal wiring, in particular to a terminal wiring structure based on a servo driver, which comprises a terminal seat, wherein a plurality of first screw type wiring terminals are arranged on the terminal seat; the wiring terminal is arranged on an electronic component needing wiring in the servo driver and comprises at least one second screw type wiring terminal; the terminal seat is connected with the wiring end through a hard conductor, and the hard conductor comprises a conductive body, a first connecting end and a second connecting end which are arranged at two ends of the conductive body; the first connecting end is matched with the first screw type wiring terminal, and the second connecting end is matched with the second screw type wiring terminal. The mechanism can realize the orderly arrangement of a plurality of hard electric conductors in a limited space.

Description

Terminal wiring structure based on servo driver

Technical Field

The utility model relates to a servo driver terminal wiring technical field especially relates to a terminal wiring structure based on servo driver.

Background

Servo drivers (serverdrivers) also known as servo controllers and servo amplifiers are controllers for controlling servo motors, have the action similar to that of a frequency converter and act on common alternating current motors, belong to a part of servo systems, are mainly applied to high-precision positioning systems, and are suitable for industrial control fields such as stacking, wire cutting, punching machines, lasers, 3C and the like. The servo motor is generally controlled by three modes of position, speed and moment, so that the high-precision positioning of a transmission system is realized, and the servo motor is a high-end product of a transmission technology.

In a traditional servo driver, a terminal seat for connecting internal and external wiring and wiring between internal electronic components generally adopt flexible wires, one end of each flexible wire is connected with a terminal on the terminal seat in a winding and screw screwing mode, and the other end of each flexible wire is welded with a wiring end in a spot welding mode. Because the servo driver has a plurality of places needing wiring, only the terminal block comprises an input terminal block and an output terminal block, and each terminal block is provided with not less than 3 terminals needing wiring; the traditional wiring mode not only can cause disorder of internal wiring, but also can cause the risk of misconnection.

Therefore, a new technical solution is urgently needed to solve the existing technical problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art's problem, provide a terminal wiring structure based on servo driver, can effectively solve and adopt flexible electric wire wiring confusion, easy misconnection and each electric wire press close to each other in the course of the work among the traditional servo driver and produce the problem of interference.

The above purpose is realized by the following technical scheme:

a servo driver based terminal wiring structure comprising:

the terminal block is provided with a plurality of first screw type wiring terminals;

the wiring terminal is arranged on an electronic component needing wiring in the servo driver and comprises at least one second screw type wiring terminal;

the terminal seat is connected with the wiring end through a hard conductor, and the hard conductor comprises a conductive body, a first connecting end and a second connecting end which are arranged at two ends of the conductive body; the first connecting end is matched with the first screw type wiring terminal, and the second connecting end is matched with the second screw type wiring terminal.

Further, the conductive body comprises a plurality of bending parts, and each bending part comprises a transverse bending part or a longitudinal bending part.

Furthermore, the conductive body comprises a first conductor and a second conductor, the first end of the first conductor is connected with the first connecting end, and the second end of the first conductor and the second end of the second conductor are hinged through a connecting piece to form the transverse bending part; the first end of the second conductor is connected to the second connection end.

Further, the connecting piece comprises a hinge screw and a hinge nut; correspondingly, a first hinge hole is formed in the second end of the first conductor, a second hinge hole is formed in the second end of the second conductor, the first hinge hole and the second hinge hole are overlapped and then penetrate through the hinge screw from top to bottom, and the hinge screw nuts are connected with each other in a screwing mode.

Furthermore, a third conductor is arranged between the first end of the second conductor and the second connecting end, two ends of the third conductor are respectively and vertically connected with the second connecting end and the first end of the second conductor to form 2 longitudinal bending parts, and the second connecting end, the third conductor and the second conductor are integrally formed in a punching mode.

Furthermore, the second connecting end, the third conductor and the second conductor are all sheet metal copper strips.

Furthermore, a fourth conductor, a fifth conductor and a sixth conductor are arranged between the first end of the first conductor and the first connection end, one end of the fourth conductor is connected with the first end of the first conductor to form the transverse bending part, the other end of the fourth conductor is longitudinally connected with the fifth conductor to form the longitudinal bending part, the fifth conductor is further connected with the sixth conductor to form the transverse bending part, the sixth conductor is connected with the first connection end to form the longitudinal bending part, and the first connection end, the sixth conductor, the fifth conductor, the fourth conductor and the first conductor are integrally formed through punching.

Further, the first connection end, the sixth conductor, the fifth conductor, the fourth conductor and the first conductor are all sheet metal copper bars.

Further, the first screw type connection terminal comprises a metal terminal matched with the first connection end and provided with a thread groove, and a metal terminal compression screw matched with the thread groove; correspondingly, a first through hole is formed in the first connecting end, and the first through hole is connected with the metal terminal in a compression mode through the metal terminal compression screw.

Furthermore, the second screw type wiring terminal comprises a wiring thread groove formed in the wiring terminal and a locking screw matched with the wiring thread groove; correspondingly, a second through hole is formed in the second connecting end, and the second through hole is connected with the wiring thread groove in a compression mode through the locking screw.

Advantageous effects

The utility model provides a terminal wiring structure based on servo driver adopts the stereoplasm electric conductor to connect terminal seat and wiring end as electronic components among the servo driver, because the shape plasticity of stereoplasm electric conductor, and non-deformable, and then can realize arranging many stereoplasm electric conductors in order in limited space, adopts the screw to connect instead the welding soon, not only can not cause electronic components's damage because of the error, the intelligent operation of the assembly line arm of being convenient for moreover.

Drawings

Fig. 1 is a schematic view of a first view angle of a terminal wiring structure based on a servo driver according to the present invention;

fig. 2 is a schematic diagram of a second view angle of the terminal wiring structure based on the servo driver according to the present invention;

fig. 3 is an exploded view of a terminal wiring structure based on a servo driver according to the present invention;

fig. 4 is an application schematic diagram of a terminal wiring structure based on a servo driver according to the present invention;

fig. 5 is a partial enlarged view of an application of a terminal wiring structure based on a servo driver according to the present invention.

The graphic symbols are:

the connector comprises a terminal base 1, a first screw type wiring terminal 2, a wiring terminal 3, a second screw type wiring terminal 4, a hard conductor 5, a conductive body 6, a first connection terminal 7, a second connection terminal 8, a first conductor 9, a second conductor 10, a connecting piece 11, a hinge screw 12, a hinge nut 13, a first hinge hole 14, a second hinge hole 15, a third conductor 16, a fourth conductor 17, a fifth conductor 18, a sixth conductor 19, a first through hole 20, a locking screw 21, a second through hole 22, a metal terminal 23, a metal terminal compression screw 24, a bending part 25, a bending part 26, a bending part 27 and an electronic component 28.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. The described embodiments are only some, but not all embodiments of the invention. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

As shown in fig. 1,4 and 5, a terminal wiring structure based on a servo driver includes:

the terminal block 1 comprises an input terminal block which is used in a server and can be connected with an external three-phase power line, and an output terminal block which can be connected with external electronics; a plurality of first screw type wiring terminals 2 are arranged on the terminal base 1;

the wiring terminal 3 is arranged on an electronic component 28 needing wiring in the servo driver, and comprises at least one second screw type wiring terminal 4;

the terminal base 1 is connected with the terminal 3 through a hard conductor 5, and the hard conductor 5 comprises a conductive body 6, and a first connecting end 7 and a second connecting end 8 which are arranged at two ends of the conductive body 6; the first connecting end 7 is matched with the first screw type wiring terminal 2, and the second connecting end 8 is matched with the second screw type wiring terminal 4.

In order to avoid the hard conductors 5 from being well arranged in a limited space and from interfering with each other due to mutual contact, the conductive body includes a plurality of bending portions 25, and each bending portion 25 includes a transverse bending portion 26 or a longitudinal bending portion 27.

As shown in fig. 1 to 3, as a first embodiment of the present invention, the conductive body 6 includes a first conductor 9 and a second conductor 10, a first end of the first conductor 9 is connected to the first connection end 7, and a second end of the first conductor 9 and a second end of the second conductor 10 are hinged to form the transverse bending portion 26 through a connection member 11; a first end of the second conductor 10 is connected to the second connection end 8.

Wherein the connecting piece 11 comprises a hinge screw 12 and a hinge nut 13; correspondingly, a first hinge hole 14 is formed in the second end of the first conductor 9, a second hinge hole 15 is formed in the second end of the second conductor 10, the first hinge hole 14 and the second hinge hole 15 are overlapped and penetrate through the hinge screw 12 from top to bottom, and are mutually screwed through the hinge nut 13 below to realize hinge connection, and because the two ends of the conductive body 6 are fixed, the hinge portion is generally in a fixed state in the actual moving or using process.

As a second embodiment of the utility model, the first end of second conductor 10 with be provided with third conductor 16 between second link 8, the both ends of third conductor 16 respectively with second link 8 with the first end of second conductor 10 is connected perpendicularly and is constituted 2 vertical bending part 27, second link 8 third conductor 16 with integrative stamping forming between second conductor 10.

In this embodiment, the second connection end 8, the third conductor 16 and the second conductor 10 are all made of sheet metal copper bars, and in order to prevent the conductive body 6 from being exposed, an insulating heat-shrinkable sleeve can be sleeved on the conductive body.

As a third embodiment of the utility model, the first end of first conductor 9 with be provided with fourth conductor 17, fifth conductor 18 and sixth conductor 19 between first connection end 7, the one end of fourth conductor 17 with the first end of first conductor 9 is connected and is constituted horizontal bending portion 26, the other end of fourth conductor 17 with fifth conductor 18 is vertically connected and is constituted vertical bending portion 27, fifth conductor 18 still with sixth conductor 19 is connected and is constituted horizontal bending portion 26, sixth conductor 19 with first connection end 7 is connected and is constituted vertical bending portion 27, first connection end 7 sixth conductor 19 fifth conductor 18 fourth conductor 17 with integrative stamping forming between first conductor 9.

In this embodiment, the first connection end 7, the sixth conductor 19, the fifth conductor 18, the fourth conductor 17, and the first conductor 9 all adopt sheet metal copper bars, and in order to prevent the conductive body 6 from being exposed, an insulating heat-shrinkable sleeve can be sleeved on the conductive body.

As a connection manner of the first connection end 7, the second connection end 8 and the first screw terminal 2 in this embodiment, the first screw terminal 2 includes a metal terminal 23 having a thread groove (not labeled in the figure) matching with the first connection end 7, and a metal terminal pressing screw 24 matching with the thread groove; correspondingly, a first through hole 20 is formed in the first connection end 7, and the first through hole 20 is connected with the metal terminal 23 in a compression manner through the metal terminal compression screw 24.

The second screw type wiring terminal 4 comprises a wiring thread groove (not marked in the figure) formed in the wiring terminal 3 and a locking screw 21 matched with the wiring thread groove; correspondingly, a second through hole 22 is formed in the second connecting end 8, and the second through hole 22 is in compression connection with the wiring thread groove through the locking screw 21.

The above description is only for the purpose of illustrating embodiments of the present invention and should not be taken as limiting the invention, and any modifications, equivalents, improvements and the like made by those skilled in the art within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A servo driver-based terminal wiring structure comprising:

the terminal block is provided with a plurality of first screw type wiring terminals;

the wiring terminal is arranged on an electronic component needing wiring in the servo driver and comprises at least one second screw type wiring terminal;

the terminal seat is connected with the wiring end through a hard conductor, and the hard conductor comprises a conductive body, a first connecting end and a second connecting end which are arranged at two ends of the conductive body; the first connecting end is matched with the first screw type wiring terminal, and the second connecting end is matched with the second screw type wiring terminal.

2. The servo driver-based terminal wiring structure according to claim 1, wherein the conductive body comprises a plurality of bending portions, and the bending portions comprise transverse bending portions or longitudinal bending portions.

3. The terminal wiring structure based on the servo driver as claimed in claim 2, wherein the conductive body comprises a first conductor and a second conductor, a first end of the first conductor is connected with the first connection end, and a second end of the first conductor and a second end of the second conductor are hinged through a connecting piece to form the transverse bending part; the first end of the second conductor is connected to the second connection end.

4. The servo driver-based terminal wiring structure according to claim 3, wherein the connecting member comprises a hinge screw and a hinge nut; correspondingly, a first hinge hole is formed in the second end of the first conductor, a second hinge hole is formed in the second end of the second conductor, the first hinge hole and the second hinge hole are overlapped and then penetrate through the hinge screw from top to bottom, and the hinge screw nuts are connected with each other in a screwing mode.

5. The terminal wiring structure based on the servo driver as claimed in claim 3, wherein a third conductor is disposed between the first end of the second conductor and the second connecting end, two ends of the third conductor are respectively perpendicularly connected to the second connecting end and the first end of the second conductor to form 2 longitudinal bending portions, and the second connecting end, the third conductor and the second conductor are integrally formed by stamping.

6. The servo driver-based terminal wiring structure according to claim 5, wherein the second connection end, the third conductor and the second conductor are all sheet metal copper strips.

7. The terminal wiring structure based on the servo driver as claimed in claim 3, wherein a fourth conductor, a fifth conductor and a sixth conductor are disposed between the first end of the first conductor and the first connection end, one end of the fourth conductor is connected to the first end of the first conductor to form the transverse bending portion, the other end of the fourth conductor is longitudinally connected to the fifth conductor to form the longitudinal bending portion, the fifth conductor is further connected to the sixth conductor to form the transverse bending portion, the sixth conductor is connected to the first connection end to form the longitudinal bending portion, and the first connection end, the sixth conductor, the fifth conductor, the fourth conductor and the first conductor are integrally formed by stamping.

8. The servo driver-based terminal wiring structure according to claim 7, wherein the first connection end, the sixth conductor, the fifth conductor, the fourth conductor and the first conductor are all sheet metal copper strips.

9. The servo driver-based terminal wiring structure according to claim 1, wherein the first screw type connection terminal comprises a metal terminal with a screw groove matching the first connection end, and a metal terminal hold-down screw matching the screw groove; correspondingly, a first through hole is formed in the first connecting end, and the first through hole is connected with the metal terminal in a compression mode through the metal terminal compression screw.

10. The servo driver-based terminal wiring structure according to claim 1, wherein the second screw type connection terminal includes a connection thread groove opened to the connection terminal, and a locking screw matched with the connection thread groove; correspondingly, a second through hole is formed in the second connecting end, and the second through hole is connected with the wiring thread groove in a compression mode through the locking screw.

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