CN218387117U - Electric actuator with wire arranging function - Google Patents

Abstract

The utility model relates to an electric actuator field, concretely relates to electric actuator with reason line function. The utility model provides an electric actuator with reason line function, include: the electric actuator is fixedly provided with a wire arranging part; the electric actuator is provided with a plurality of wire heads, and the wire arranging part is positioned on one side of the wire heads; one side of the wire arranging part can be opened and closed; when the thread end is placed in the thread arranging part, the thread arranging part can hold the thread end tightly from two sides. Through the bottom plate and the open-close plate that can open and shut the setting, can surround the end of a thread to separate and arrange the end of a thread through the arc wall with end of a thread adaptation. Through the setting of line protecting part, can press from both sides tight spacing with the end of a thread to prevent that the end of a thread from being dragged, cause the end of a thread to damage.

Description

Electric actuator with wire arranging function

Technical Field

The utility model relates to an electric actuator field, concretely relates to electric actuator with reason line function.

Background

As shown in fig. 1, the electric actuator of the prior art including the electric motor 1 needs a plurality of wires to be led out to connect the electric actuator and the power source so that the electric actuator can be started.

However, in actual use, several wires are easily intertwined and knotted with each other as the wires extend, and the ends of the wire portions are often most easily subjected to force to be worn or the insulating rubber is broken. Therefore, it is necessary to design an electric actuator with a wire arranging function to arrange and protect the electric wires.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an electric actuator with reason line function to solve above-mentioned problem.

In order to achieve the above object, an embodiment of the present invention provides an electric actuator with wire arranging function, including: the electric actuator is fixedly provided with a wire arranging part;

the electric actuator is provided with a plurality of electric wires, and the wire arranging part is positioned on one side of the electric wires;

one side of the wire arranging part can be opened and closed; wherein

When the electric wire is placed in the wire arranging part, the wire arranging part can hold the electric wire from two sides.

Furthermore, the wire arranging part comprises a bottom plate and an opening plate, and one side of the bottom plate is hinged with one side of the opening plate;

the bottom plate is fixedly connected with the motor;

the electric wire is located between the bottom plate and the opening plate.

Furthermore, a plurality of arc-shaped grooves are sequentially formed in one side of the bottom plate facing the electric wire along the length direction;

one arc-shaped groove corresponds to one electric wire.

Furthermore, a clamping block is arranged on one side of the opening plate, which is far away from the hinge joint, and a notch is formed in one side of the bottom plate, which is far away from the hinge joint;

the clamping blocks correspond to the notches.

Furthermore, a wire protecting part is arranged on the opening plate and penetrates through the opening plate;

the line protecting part is elastically connected with the opening plate; wherein

When the wire protecting part slides along the length direction to be abutted against the opening plate, the wire protecting part clamps the electric wire;

when the wire protecting part stretches along the length direction, the wire protecting part is separated from the electric wire.

Furthermore, the line protection part comprises a pressing plate, a plurality of telescopic rods fixedly arranged on the pressing plate, an arc plate fixedly arranged at one end of each telescopic rod far away from the pressing plate, and a thrust spring sleeved on each telescopic rod;

the pressing plate is arranged above the opening plate;

the telescopic rod penetrates through the opening plate and is suitable for stretching along the length direction;

the thrust spring sets up the opening plate with between the circular arc board, opening plate one end with opening plate fixed connection, the other end with circular arc board fixed connection.

Furthermore, the telescopic rod comprises a connecting rod and a push rod, and the connecting rod and the push rod are arranged in a split manner;

the connecting rod with be provided with connecting spring between the catch bar, connecting spring one end with connecting rod fixed connection, the other end with catch bar fixed connection.

Furthermore, two telescopic grooves are formed in the side wall of one end, close to the connecting rod, of the push rod in a mirror image mode, and the telescopic grooves extend along the radial direction of the push rod;

a telescopic block is arranged in the telescopic groove in a sliding manner;

still be provided with expanding spring in the flexible inslot, expanding spring one end with flexible tank bottom is fixed, the other end with flexible piece is fixed.

Furthermore, an inclined groove is formed in one side, facing the connecting rod, of the telescopic block, and the inclined groove is obliquely arranged towards the telescopic spring;

one end of the connecting rod, which faces the telescopic block, is provided with an adjusting rod, and the adjusting rod corresponds to the inclined groove.

Furthermore, an adjusting groove is formed in one end, facing the connecting rod, of the adjusting rod, the adjusting rod is communicated with the telescopic groove, and the adjusting groove corresponds to the adjusting rod.

Compared with the prior art, the embodiment of the utility model provides a following beneficial effect has: 1. through the bottom plate and the opening plate that can open and shut the setting, can surround the electric wire to separate and arrange the electric wire in order through the arc wall with the electric wire adaptation. 2. Through the setting of wire protecting part, can press from both sides tight spacing with the electric wire to prevent that the electric wire from being dragged, cause the electric wire to damage.

Drawings

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

Figure 1 shows a perspective view of the prior art of the present invention;

fig. 2 shows an electric actuator with a wire arranging function according to the present invention;

fig. 3 shows a perspective view of the wire arranging part of the present invention;

fig. 4 shows a side view of the wire management part of the present invention;

fig. 5 shows a perspective view of the wire guard of the present invention;

fig. 6 shows a perspective view of the telescopic rod of the present invention;

fig. 7 shows a partial cross-sectional view of a push rod of the present invention.

In the figure:

1. an electric actuator;

2. a line processing part; 21. a base plate; 211. an arc-shaped slot; 22. opening and closing the board; 221. a clamping block;

3. a wire guard; 31. a pressing plate; 32. a telescopic rod; 321. a connecting rod; 3211. adjusting a rod; 322. a push rod; 323. a connecting spring; 324. a telescopic groove; 325. a telescopic block; 3251. an inclined groove; 326. a tension spring; 327. an adjustment groove;

33. a circular arc plate; 34. a thrust spring.

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.

Example one

How 2 to 7 show, an electric actuator with wire tidying function includes: the electric motor 1, the wire arranging part 2 and the wire protecting part 3. The electric motor 1 is adapted to be energized to output a driving force outward. The wire trimming section 2 is adapted to trim and separate the ends of the respective electric wires connected to the motor 1. The wire guard 3 is adapted to compress and protect the wire ends. With respect to the above components, a detailed description is given below.

An electric motor 1, the electric motor 1 being adapted to be energized to output a driving force to the outside. Specifically, a plurality of wires are arranged on one side of the electric actuator 1, and the electric actuator 1 is electrically connected with a power supply through the plurality of wires to drive the electric actuator 1 to work.

It should be noted that, in practical use, as the electric wire extends, several wires are easily twisted and knotted with each other, and the wire end of the electric wire portion is most easily subjected to force to wear or break the insulating rubber. Therefore, the wire management part 2 and the wire protection part 3 are provided in the present embodiment to solve the above problem.

The wire arranging part 2 is fixedly arranged on the electric motor 1, specifically, the wire arranging part 2 is fixedly arranged on one side of the electric motor 1 and is positioned on one side of the electric wire. The wire cleaning part 2 is suitable for cleaning and separating each wire connected on the electric actuator 1 so as to avoid the wire from winding and knotting. One side of the wire arranging part 2 can be opened and closed, so that when the electric wires need to be adjusted, the wire arranging part 2 can release the electric wires, and an operator can conveniently perform response operation. When the electric wire needs to be cleaned again, an operator can place the wire ends into the wire arranging part 2 and drive the wire arranging part 2 to be folded, so that the wire arranging part 2 can hold the wire ends tightly from two sides.

The structure of the wire tidying part 2 is described in detail below, the wire tidying part 2 includes a bottom plate 21 and an opening plate 22, and the bottom plate 21 is hinged to one side of the opening plate 22. The base plate 21 is fixedly connected to the electric actuator 1, and the base plate 21 is a positioning member and an installation reference of the entire wire arranging portion 2. The bottom plate 21 is located below the connection position of the electric wire and the electric motor 1, an operator can sequentially pull the electric wires to be abutted against the bottom plate 21, and after the electric wires are placed on the bottom plate 21, the operator can drive the opening plate 22 to rotate to be close to the bottom plate 21 and enable the wire ends of the electric wires to be located between the bottom plate 21 and the opening plate 22, so that the bottom plate 21 and the opening plate 22 form a space suitable for limiting the electric wires. One side of the bottom plate 21 facing the thread ends is sequentially provided with a plurality of arc-shaped grooves 211 along the length direction, the arc-shaped grooves 211 are matched with the thread ends, and the arc-shaped grooves 211 are arranged at intervals, so that the thread ends can be inserted into the arc-shaped grooves 211, and one arc-shaped groove 211 corresponds to one thread end. Through the arrangement, the wire ends of the wires can be separated, and the wire ends cannot be intertwined due to gaps, so that the knotting of the wire ends is avoided.

In order to ensure that the opening plate 22 can be kept to be combined with the bottom plate 21, a clamping block 221 is arranged on one side of the opening plate 22 away from the hinged position, and a notch is formed in one side of the bottom plate 21 away from the hinged position. The clamping blocks 221 correspond to the notches. Through above-mentioned setting for the back in the arc wall 211 is placed to the end of a thread, and operating personnel rotates open-close plate 22 to with the notch joint on joint piece 221 and the bottom plate 21, thereby fix a position open-close plate 22 and bottom plate 21.

The wire guard portion 3 is slidably provided on the opening plate 22, and the wire guard portion 3 is provided so as to penetrate the opening plate 22. Through the arrangement, the thread end is placed completely, and after the opening plate 22 is combined with the bottom plate 21, an operator can drive the thread protecting part 3 to be close to or far away from the thread end so as to clamp or loosen the thread end. The wire protecting part 3 is elastically connected with the opening plate 22, and the wire protecting part 3 can stretch along the length direction. With the arrangement, when the line protection part 3 slides along the length direction to abut against the opening plate 22, the line protection part 3 clamps the line head. When the wire protecting part 3 stretches along the length direction, the wire protecting part 3 is separated from the wire end.

The structure of the line protection part 3 will be described in detail below, and the line protection part 3 includes a pressing plate 31, a plurality of telescopic rods 32 fixedly provided on the pressing plate 31, an arc plate 33 fixedly provided at one end of the telescopic rods 32 far from the pressing plate 31, and a thrust spring 34 externally fitted on the telescopic rods 32. A plurality of through-holes have been seted up on the open close plate 22, and each telescopic link 32 slides and sets up in the through-hole, press platen 31 sets up open close plate 22 top, and when being in initial condition, have the clearance between press platen 31 and the open close plate 22. The telescopic rod 32 penetrates through the opening-closing plate 22, and the telescopic rod 32 is suitable for stretching along the length direction. When the operator operates the electric wire, the operator drives the pressing plate 31 to compress the expansion link 32 by the pressing plate 31, and when the expansion link 32 is compressed to the minimum length, the operator continues to press the pressing plate 31 to push the expansion link 32 to approach the electric wire. Thrust spring 34 sets up open-close plate 22 with between the circular arc board 33, open-close plate 22 one end with open-close plate 22 fixed connection, the other end with circular arc board 33 fixed connection. When an operator presses the pressing plate 31, the telescopic rod 32 is compressed, the length of the thrust spring 34 is changed only in a small range at the moment, the telescopic rod 32 continues to be pushed at the moment until the telescopic rod 32 is compressed to the minimum length, the telescopic rod 32 is equivalent to a rigid piece at the moment, and then when the operator presses the pressing plate 31, the pressing plate 31 pushes the telescopic rod 32 to be close to the electric wire, and the thrust spring 34 is stretched at the moment.

In order to achieve the above effect, the telescopic rod 32 includes a connecting rod 321 and a pushing rod 322, and the connecting rod 321 and the pushing rod 322 are separately arranged. A connecting spring 323 is arranged between the connecting rod 321 and the push rod 322, one end of the connecting spring 323 is fixedly connected with the connecting rod 321, and the other end of the connecting spring 323 is fixedly connected with the push rod 322. It should be noted that, in order to achieve the effect that the connecting rod 321 and the pushing rod 322 slide towards each other first until the connecting rod 321 is inserted into the pushing rod 322, and then the connecting rod 321 has the effect of synchronous sliding of the pushing rod 322, the elastic coefficient of the connecting spring 323 should be smaller than that of the pushing spring 34, and the above principle is structurally characterized in that the diameter of the connecting spring 323 is smaller than that of the pushing spring 34.

In order to realize the effect that the telescopic rod 32 pushes the arc plate 33 to compress and hold the electric wire, two telescopic grooves 324 are formed in the side wall of one end, close to the connecting rod 321, of the push rod 322 in a mirror image mode, and the telescopic grooves 324 extend along the radial direction of the push rod 322. A telescopic block 325 is slidably arranged in the telescopic slot 324. An extension spring 326 is further arranged in the extension groove 324, one end of the extension spring 326 is fixed with the bottom of the extension groove 324, and the other end of the extension spring 326 is fixed with the extension block 325. Through the arrangement, the connecting rod 321 pushes the pushing rod 322, until the telescopic block 325 passes through the inner top wall of the opening plate 22, the telescopic spring 326 pushes the telescopic block 325 to extend out of the telescopic groove 324, at the moment, the telescopic block 325 can be abutted against the inner top wall of the opening plate 22, so that the pushing rod 322 is prevented from being pulled by the pushing spring 34 to retract, and at the moment, the arc plate 33 keeps a state of pressing the electric wire.

In order to further drive the push rod 322 to reset, an inclined groove 3251 is formed on one side of the telescopic block 325 facing the connecting rod 321, and the inclined groove 3251 is inclined towards the telescopic spring 326. An adjusting rod 3211 is disposed at one end of the connecting rod 321 facing the telescopic block 325, and the adjusting rod 3211 corresponds to the inclined groove 3251. An adjusting groove 327 is formed in one end of the adjusting rod 3211 facing the connecting rod 321, the adjusting rod 3211 is communicated with the telescopic groove 324, and the adjusting groove 327 corresponds to the adjusting rod 3211. Through the arrangement, the connecting rod 321 slides downwards to the inclined groove 3251, the pushing rod 322 is inserted, the adjusting rod 3211 pushes the inclined groove 3251, the adjusting rod 3211 pushes the telescopic block 325 to retract into the telescopic groove 324, and the pushing spring 34 pulls the connecting rod 321 and the pushing rod 322 to reset after the telescopic block 325 is separated from the inner top wall of the opening plate 22.

Example two

How 2 to 7 show, an electric actuator with wire tidying function includes: the wire-protecting device comprises an electric motor 1, a wire-managing part 2 and a wire-protecting part 3. The electric motor 1 is adapted to be energized to output driving force outward. The wire cleaning section 2 is adapted to clean and separate wire ends of the respective electric wires connected to the motor 1. The wire guard 3 is adapted to compress and protect the wire ends. With respect to the above components, detailed description will be made below.

An electric motor 1, the electric motor 1 being adapted to be energized to output a driving force to the outside. Specifically, a plurality of wires are arranged on one side of the electric actuator 1, and the electric actuator 1 is electrically connected with a power supply through the plurality of wires to drive the electric actuator 1 to work.

It should be noted that, in practical use, as the electric wire extends, several wires are easily twisted and knotted with each other, and the wire end of the electric wire portion is most easily subjected to force to wear or break the insulating rubber. Therefore, the wire management part 2 and the wire protection part 3 are provided in the present embodiment to solve the above problem.

The wire arranging part 2 is fixedly arranged on the electric motor 1, specifically, the wire arranging part 2 is fixedly arranged on one side of the electric motor 1 and is positioned on one side of the electric wire. The wire cleaning part 2 is suitable for cleaning and separating each wire connected on the electric actuator 1 so as to avoid the wire from winding and knotting. One side of the wire arranging part 2 can be opened and closed, so that when the wires need to be adjusted, the wire arranging part 2 can loosen the wires, and an operator can conveniently perform response operation. When the electric wire needs to be cleaned again, an operator can place the wire ends into the wire arranging part 2 and drive the wire arranging part 2 to be folded, so that the wire arranging part 2 can hold the wire ends tightly from two sides.

The structure of the wire tidying part 2 is described in detail below, the wire tidying part 2 includes a bottom plate 21 and an opening plate 22, and the bottom plate 21 is hinged to one side of the opening plate 22. The base plate 21 is fixedly connected with the electric motor 1, and the base plate 21 is a positioning component and an installation reference of the whole wire arranging part 2. The bottom plate 21 is located below the connection position of the electric wire and the electric motor 1, an operator can sequentially pull the electric wires to be abutted against the bottom plate 21, and after the electric wires are placed on the bottom plate 21, the operator can drive the opening plate 22 to rotate to be close to the bottom plate 21 and enable the wire ends of the electric wires to be located between the bottom plate 21 and the opening plate 22, so that the bottom plate 21 and the opening plate 22 form a space suitable for limiting the electric wires. One side of the bottom plate 21 facing the thread ends is sequentially provided with a plurality of arc-shaped grooves 211 along the length direction, the arc-shaped grooves 211 are matched with the thread ends, and the arc-shaped grooves 211 are arranged at intervals, so that the thread ends can be inserted into the arc-shaped grooves 211, and one arc-shaped groove 211 corresponds to one thread end. Through the arrangement, the wire ends of the wires can be separated, and the wire ends cannot be intertwined due to gaps, so that the knotting of the wire ends is avoided.

In order to ensure that the opening plate 22 can be kept to be combined with the bottom plate 21, a clamping block 221 is arranged on one side of the opening plate 22 away from the hinged position, and a notch is formed in one side of the bottom plate 21 away from the hinged position. The clamping blocks 221 correspond to the notches. Through above-mentioned setting for the end of a thread is placed back in the arc wall 211, and operating personnel rotates open-close plate 22 to with the notch joint on joint piece 221 and the bottom plate 21, thereby fix a position open-close plate 22 and bottom plate 21. In this embodiment, as an option, a torsion spring is disposed at the hinge joint of the bottom plate 21 and the opening plate 22, and when the operator unlocks the clamping block 221 from the notch, the torsion spring drives the opening plate 22 to rotate, so as to open the wire.

The wire guard portion 3 is slidably provided on the opening plate 22, and the wire guard portion 3 is provided so as to penetrate the opening plate 22. Through the arrangement, the thread end is placed completely, and after the opening plate 22 is combined with the bottom plate 21, an operator can drive the thread protecting part 3 to be close to or far away from the thread end so as to clamp or loosen the thread end. The wire guard portion 3 is elastically connected to the opening plate 22, and the wire guard portion 3 can be extended and contracted in the longitudinal direction. With the arrangement, when the line protection part 3 slides along the length direction to abut against the opening plate 22, the line protection part 3 clamps the line head. When the wire protecting part 3 stretches along the length direction, the wire protecting part 3 is separated from the wire end.

The structure of the line protection part 3 will be described in detail below, and the line protection part 3 includes a pressing plate 31, a plurality of telescopic rods 32 fixedly provided on the pressing plate 31, an arc plate 33 fixedly provided at one end of the telescopic rods 32 far from the pressing plate 31, and a thrust spring 34 externally fitted on the telescopic rods 32. A plurality of through-holes have been seted up on the open close plate 22, and each telescopic link 32 slides and sets up in the through-hole, press platen 31 sets up open close plate 22 top, and when being in initial condition, have the clearance between press platen 31 and the open close plate 22. The telescopic rod 32 penetrates through the opening-closing plate 22, and the telescopic rod 32 is suitable for stretching along the length direction. When the operator operates the electric wire, the operator drives the pressing plate 31 to compress the expansion link 32 by the pressing plate 31, and when the expansion link 32 is compressed to the minimum length, the operator continues to press the pressing plate 31 to push the expansion link 32 to approach the electric wire. Thrust spring 34 sets up open-close plate 22 with between the circular arc board 33, open-close plate 22 one end with open-close plate 22 fixed connection, the other end with circular arc board 33 fixed connection. When an operator presses the pressing plate 31, the telescopic rod 32 is compressed, the length of the thrust spring 34 is changed only in a small range at the moment, the telescopic rod 32 continues to be pushed at the moment until the telescopic rod 32 is compressed to the minimum length, the telescopic rod 32 is equivalent to a rigid piece at the moment, and then when the operator presses the pressing plate 31, the pressing plate 31 pushes the telescopic rod 32 to be close to the electric wire, and the thrust spring 34 is stretched at the moment.

In order to achieve the above effect, the telescopic rod 32 includes a connecting rod 321 and a pushing rod 322, and the connecting rod 321 and the pushing rod 322 are separately arranged. A connecting spring 323 is arranged between the connecting rod 321 and the push rod 322, one end of the connecting spring 323 is fixedly connected with the connecting rod 321, and the other end of the connecting spring 323 is fixedly connected with the push rod 322. It should be noted that, in order to realize the first opposite sliding between the connecting rod 321 and the pushing rod 322 until the connecting rod 321 is inserted into the pushing rod 322, and then the connecting rod 321 has the effect of the pushing rod 322 sliding synchronously, the elastic coefficient of the connecting spring 323 should be smaller than that of the pushing spring 34, and the above principle is structurally characterized in that the diameter of the connecting spring 323 is smaller than that of the pushing spring 34.

In order to realize the effect that the telescopic rod 32 pushes the arc plate 33 to compress and hold the electric wire, two telescopic grooves 324 are formed in the side wall of one end, close to the connecting rod 321, of the push rod 322 in a mirror image mode, and the telescopic grooves 324 extend along the radial direction of the push rod 322. A telescopic block 325 is slidably arranged in the telescopic slot 324. An extension spring 326 is further arranged in the extension groove 324, one end of the extension spring 326 is fixed with the bottom of the extension groove 324, and the other end of the extension spring 326 is fixed with the extension block 325. Through the arrangement, the connecting rod 321 pushes the pushing rod 322, until the telescopic block 325 passes through the inner top wall of the opening plate 22, the telescopic spring 326 pushes the telescopic block 325 to extend out of the telescopic groove 324, at the moment, the telescopic block 325 can be abutted against the inner top wall of the opening plate 22, so that the pushing rod 322 is prevented from being pulled by the pushing spring 34 to retract, and at the moment, the arc plate 33 keeps a state of pressing the electric wire.

In order to further drive the push rod 322 to reset, an inclined groove 3251 is formed on one side of the telescopic block 325 facing the connecting rod 321, and the inclined groove 3251 is inclined towards the telescopic spring 326. An adjusting rod 3211 is disposed at one end of the connecting rod 321 facing the telescopic block 325, and the adjusting rod 3211 corresponds to the inclined groove 3251. An adjusting groove 327 is formed in one end of the adjusting rod 3211 facing the connecting rod 321, the adjusting rod 3211 is communicated with the telescopic groove 324, and the adjusting groove 327 corresponds to the adjusting rod 3211. Through the arrangement, the connecting rod 321 slides downwards to the inclined groove 3251 to be inserted into the push rod 322, and the adjusting rod 3211 pushes the inclined groove 3251, so that the adjusting rod 3211 pushes the telescopic block 325 to retract into the telescopic groove 324, and after the telescopic block 325 is separated from the inner top wall of the opening plate 22, the push spring 34 pulls the connecting rod 321 and the push rod 322 to reset.

It should be mentioned that the technical features of the electric actuator, such as other components and motors, which are referred to in the present application, should be regarded as the prior art, and the specific structure, the operation principle, the control mode and the spatial arrangement mode of these technical features may be adopted in the conventional selection in the field, which should not be regarded as the invention point of the present invention, and the present invention is not further specifically described in detail.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An electric actuator with a wire arranging function is characterized by comprising:

the electric appliance (1) and a wire arranging part (2) fixedly arranged on the electric appliance (1);

the electric actuator (1) is provided with a plurality of electric wires, and the wire arranging part (2) is positioned on one side of the electric wires;

one side of the line arranging part (2) can be opened and closed; wherein

When the electric wire is placed in the wire arranging part (2), the wire arranging part (2) can hold the electric wire from two sides.

2. The electric actuator with wire organizing function of claim 1,

the line arranging part (2) comprises a bottom plate (21) and an opening plate (22), and one side of the bottom plate (21) is hinged with one side of the opening plate (22);

the bottom plate (21) is fixedly connected with the electric actuator (1);

the electric wire is positioned between the bottom plate (21) and the opening plate (22).

3. The electric actuator with wire organizing function according to claim 2,

a plurality of arc-shaped grooves (211) are sequentially formed in one side, facing the electric wire, of the bottom plate (21) along the length direction;

one arc-shaped groove (211) corresponds to one electric wire.

4. An electric actuator with a wire grooming function in accordance with claim 3,

a clamping block (221) is arranged on one side, away from the hinged position, of the opening plate (22), and a notch is formed in one side, away from the hinged position, of the bottom plate (21);

the clamping blocks (221) correspond to the notches.

5. The electric actuator with wire grooming function of claim 4,

the opening plate (22) is provided with a line protecting part (3), and the line protecting part (3) penetrates through the opening plate (22);

the wire protecting part (3) is elastically connected with the opening plate (22); wherein

When the wire protecting part (3) slides along the length direction to be abutted against the opening plate (22), the wire protecting part (3) clamps the electric wire;

when the wire protecting part (3) stretches along the length direction, the wire protecting part (3) is separated from the electric wire.

6. The electric actuator with wire grooming function of claim 5,

the wire protecting part (3) comprises a pressing plate (31), a plurality of telescopic rods (32) fixedly arranged on the pressing plate (31), an arc plate (33) fixedly arranged at one end of each telescopic rod (32) far away from the pressing plate (31), and a thrust spring (34) sleeved on each telescopic rod (32);

the pressing plate (31) is arranged above the opening plate (22);

the telescopic rod (32) penetrates through the opening plate (22), and the telescopic rod (32) is suitable for stretching along the length direction;

thrust spring (34) set up open-close plate (22) with between circular arc board (33), open-close plate (22) one end with open-close plate (22) fixed connection, the other end with circular arc board (33) fixed connection.

7. The electric actuator with wire grooming function of claim 6,

the telescopic rod (32) comprises a connecting rod (321) and a push rod (322), and the connecting rod (321) and the push rod (322) are arranged in a split manner;

a connecting spring (323) is arranged between the connecting rod (321) and the push rod (322), one end of the connecting spring (323) is fixedly connected with the connecting rod (321), and the other end of the connecting spring is fixedly connected with the push rod (322).

8. The electric actuator with wire grooming function of claim 7,

the side wall of one end, close to the connecting rod (321), of the push rod (322) is provided with two telescopic grooves (324) in a mirror image mode, and the telescopic grooves (324) extend along the radial direction of the push rod (322);

a telescopic block (325) is arranged in the telescopic groove (324) in a sliding manner;

still be provided with expanding spring (326) in flexible groove (324), expanding spring (326) one end with flexible groove (324) tank bottom is fixed, the other end with flexible piece (325) is fixed.

9. The electric actuator with wire grooming function of claim 8,

one side of the telescopic block (325) facing the connecting rod (321) is provided with an inclined groove (3251), and the inclined groove (3251) is inclined towards the telescopic spring (326);

one end of the connecting rod (321) facing the telescopic block (325) is provided with an adjusting rod (3211), and the adjusting rod (3211) corresponds to the inclined groove (3251).

10. The electric actuator with wire grooming function of claim 9,

an adjusting groove (327) is formed in one end, facing the connecting rod (321), of the adjusting rod (3211), the adjusting rod (3211) is communicated with the telescopic groove (324), and the adjusting groove (327) corresponds to the adjusting rod (3211).

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