CN215451038U - Handheld wire bunching device - Google Patents

Abstract

The utility model discloses a handheld wire bunching device which comprises an outer frame, a wire bunching disc and a driving assembly, wherein the wire bunching disc is provided with a plurality of wire bunching holes, and the wire bunching disc is rotatably connected with the outer frame; the driving assembly is fixedly connected with the outer frame and drives the wire bundling disc to rotate along the central axis of the wire bundling disc; the central axis of the wire bundling hole is parallel to the central axis of the wire bundling disc, and the first ends of a plurality of wire harnesses to be bundled are stranded after penetrating through the plurality of wire bundling holes respectively. According to the utility model, the wiring harness disk is arranged, the wiring harness penetrates through the wiring harness hole on the wiring harness disk, and then the driving assembly drives the wiring harness disk to rotate, so that the wiring harness is twisted, and a plurality of strands of wiring harnesses can be effectively twisted at the same time.

Description

Handheld wire bunching device

Technical Field

The utility model relates to the field of cables, in particular to a handheld wire bunching device.

Background

With the rapid development of the electronic technology in China, the scales of the industries such as the automobile industry, the communication industry, the military industry, the aerospace industry and the like are continuously enlarged, and the demand on the electric connection assembly is gradually increased. The number of components is increasing. The processing mode of the components is flexible, the combination is flexible, and the components can not be completely mechanically processed by using cables. Most of the wire harnesses are manually bundled, and the most easily-occurred problem in processing is that the multi-strand wire harnesses cannot be twisted, so that the problems of hardness and poor bending property of the assembly wire harness in the use process are caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems that a wire harness is hard and poor in bending property in the using process, and aims to provide a handheld wire harness device which solves the problem of stranding of multiple strands of wire harnesses.

The utility model is realized by the following technical scheme:

a hand-held wire harness apparatus comprising:

an outer frame;

the wire bundling disc is provided with a plurality of wire bundling holes and is rotatably connected with the outer frame;

the driving assembly is fixedly connected with the outer frame and drives the wire bundling disc to rotate along the central axis of the wire bundling disc;

the central axis of the wire bundling hole is parallel to the central axis of the wire bundling disc, and the first ends of a plurality of wire harnesses to be bundled are stranded after penetrating through the plurality of wire bundling holes respectively.

Preferably, the outer frame is provided with a circular through hole, the plurality of wire harness holes are all located in the circular through hole, the plurality of wire harness holes are uniformly distributed in an annular mode along the central axis of the wire harness plate, and included angles between every two adjacent wire harness holes are equal.

Preferably, the diameter of the circular through hole is equal to that of the wire bundling disc, the wire bundling disc is arranged in the circular through hole, and the outer circumferential surface of the wire bundling disc is connected with the inner circumferential surface of the circular through hole in a sliding mode.

Specifically, the medial surface of circular through-hole is provided with annular spout, the lateral surface of wiring dish be provided with the annular smooth arris of annular spout adaptation.

As one embodiment, the driving assembly includes:

a drive motor;

the driving gear is coaxial and fixedly connected with a torque output shaft of the driving motor;

the driven gear ring is coaxial and fixedly connected with the bunching disc, and the driving gear is meshed with the driven gear ring;

a controller for controlling the driving motor;

the controller includes:

a rotational speed controller for controlling a rotational speed of the driving motor;

a steering controller for controlling a rotation direction of the driving motor.

As another embodiment, the driving assembly includes:

the annular motor is arranged between the circular through hole and the wire bundling disc, and the central axis of the annular motor is superposed with the central axis of the wire bundling disc;

the ring motor includes:

the outer annular surface of the annular stator is fixedly connected with the inner side surface of the circular through hole;

the inner ring surface of the annular rotor is fixedly connected with the outer side surface of the wire bundling disc;

a controller for controlling the ring motor;

the controller includes:

a rotational speed controller for controlling a rotational speed of the ring motor;

a steering controller for controlling a rotation direction of the ring motor.

Further, the hand-held wire harness device further comprises:

the small wire bundle disc is provided with a plurality of small wire bundle holes, and the small wire bundle disc and the wire bundle disc are coaxially arranged and are rotatably connected;

the small driving assembly is fixedly connected with the outer frame and drives the small wire bundling disc to rotate along the central axis of the wire bundling disc;

the central axis of each small wire bundle hole is parallel to the central axis of each small wire bundle disc, and the first ends of a plurality of wire bundles to be bundled are stranded after penetrating through the small wire bundle holes respectively.

Specifically, a small circular through hole coaxial with the wire bundling disc is arranged in the wire bundling disc, the diameter of the small circular through hole is equal to that of the small wire bundling disc, the small wire bundling disc is arranged in the small circular through hole, and the outer circumferential surface of the small wire bundling disc is connected with the inner circumferential surface of the small circular through hole in a sliding mode.

Specifically, the small drive assembly includes:

a small drive motor;

the small driving gear is coaxial and fixedly connected with a torque output shaft of the small driving motor;

the small driven gear ring is coaxial and fixedly connected with the small wire bundling plate, and the small driving gear is meshed with the small driven gear ring in a tooth pattern manner;

a small controller for controlling the small driving motor;

the small controller includes:

a small rotation speed controller for controlling a rotation speed of the small driving motor;

a small steering controller for controlling a rotation direction of the small driving motor.

Further, the hand-held wire bunching device further comprises an auxiliary support component arranged in parallel with the wire bunching disc, the auxiliary support component comprising:

a mounting frame;

the auxiliary disc is rotatably connected with the mounting frame and is coaxially arranged with the auxiliary disc, and an auxiliary hole which is coaxial with the wire bundling hole is formed in the auxiliary disc;

the central axis of the auxiliary hole is parallel to the central axis of the auxiliary disc, and the middle sections of a plurality of wire harnesses to be bundled are respectively arranged in the auxiliary hole.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

according to the utility model, the wiring harness disk is arranged, the wiring harness penetrates through the wiring harness hole on the wiring harness disk, and then the driving assembly drives the wiring harness disk to rotate, so that the wiring harness is twisted, and a plurality of strands of wiring harnesses can be effectively twisted at the same time.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the utility model and together with the description serve to explain the principles of the utility model.

Fig. 1 is a schematic structural view of a hand-held wire harness device according to the present invention.

Fig. 2 is a side view of a hand-held wire harness apparatus according to the present invention.

Reference numerals: 1-outer frame, 2-wire bundle disc, 3-wire bundle hole, 4-small wire bundle disc, 5-small wire bundle hole, 6-mounting frame, 7-auxiliary disc, 8-auxiliary hole and 10-wire bundle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not to be construed as limitations of the utility model.

It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

In the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example one

A hand-held wire bunching device comprises an outer frame 1, a wire bunching disc 2 and a driving assembly.

The wire bundling disk 2 is provided with a plurality of wire bundling holes 3, and the wire bundling disk 2 is rotatably connected with the outer frame 1;

the driving assembly is fixedly connected with the outer frame 1 and drives the wire bundling disc 2 to rotate along the central axis of the wire bundling disc 2;

wherein, the axis of bunch hole 3 sets up with the axis parallel of bunch dish 2, and a plurality of first ends of treating the pencil 10 of bunch strand pass behind a plurality of bunch holes 3 respectively and strand.

The outer frame 1 may have various structures, and it is necessary to perform a fixing function, and thus, the specific structure thereof is not limited, and may have a rectangular plate structure or a circular plate structure in the drawing.

The driving assembly is used for driving the wire bundling disc 2 to rotate, the rotating center line of the wire bundling disc 2 is the central axis of the wire bundling disc 2, when the wire bundling disc is used, the first ends of wire harnesses 10 (hereinafter, all the wire harnesses 10) to be bundled respectively penetrate through the wire bundling holes 3, and the threading method can be controlled according to specific conditions, for example: only one wire harness 10 may be provided in one wire harness hole 3, or a plurality of wire harnesses 10 may be provided in one wire harness hole 3.

After the first ends of the plurality of wire harnesses 10 pass through the wire harness tray 2, the first ends of the plurality of wire harnesses 10 are fixedly connected by twisting.

Then drive bunch dish 2 through drive assembly and rotate, bunch dish 2 rotates and drives a plurality of pencil 10 and rotate around the axis of bunch dish 2 to can strand some pencil 10 between the first end of bunch dish 2 and pencil 10, realize the semi-automatic transposition of pencil 10.

And the wire harness spool 2 may be moved stepwise along the first end of the wire harness 10 toward the second end of the wire harness 10 during the twisting, and the twisting of the entire wire harness 10 is completed when the wire harness spool 2 is moved to the second end of the wire harness 10.

Example two

The present embodiment explains the specific structure of the outer frame 1 and the wire harness 10 tray.

Frame 1 has circular through-hole, and a plurality of bunch hole 3 all are located circular through-hole, and a plurality of bunch hole 3 are annular evenly distributed along the axis of bunch dish 2, and the contained angle between two adjacent bunch hole 3 equals.

The plurality of wire harness holes 3 are uniformly distributed on the wire harness disc 2, so that when the wire harnesses 10 are twisted, the twisting angle and the angular direction of each wire harness 10 are consistent, and the stability of the whole cable is facilitated.

Since the wire harness 10 needs to pass through the wire harness tray 2, it is necessary to ensure that all the wire harness holes 3 are located in the circular through holes of the outer frame 1.

EXAMPLE III

The present embodiment explains the relationship between the circular through hole and the harness disk 2.

In this embodiment, the diameter of the circular through hole is set to be equal to the diameter of the wire harness disk 2, the wire harness disk 2 is disposed in the circular through hole, and the outer circumferential surface of the wire harness disk 2 is slidably connected to the inner circumferential surface of the circular through hole.

The inner side surface of the circular through hole is provided with an annular sliding groove, and the outer side surface of the bunching disc 2 is provided with an annular sliding edge matched with the annular sliding groove.

Therefore, in the present embodiment, the connection between the outer frame 1 and the wire harness compartment 2 is achieved by the annular slide groove and the annular slide ridge.

Of course, friction can be effectively reduced by providing a connection bearing between the outer frame 1 and the harness disk 2, and by connecting the connection bearing.

Example four

The driving assembly can be of various structures, the main purpose of the driving assembly is to drive the wire bundle disc 2 to rotate, and the driving assembly provided by the embodiment comprises a driving motor, a driving gear, a driven gear and a controller.

The driving gear is coaxial and fixedly connected with a torque output shaft of the driving motor;

the driven gear ring is coaxial and fixedly connected with the wire bundling plate 2, and the driving gear is meshed with the driven gear ring in a tooth pattern manner;

the driving gear is driven to rotate through the driving motor, then the torque is transmitted to the driven gear ring through the driving gear, and the wire bundling disk 2 is driven to rotate through the driven gear ring, so that wire bundling operation is achieved.

In addition, in order to control the wire harness process, a controller for controlling the driving motor is also required.

The controller comprises a rotating speed controller and a steering controller.

The rotating speed controller is used for controlling the rotating speed of the driving motor;

the steering controller is used for controlling the rotation direction of the driving motor.

The speed controller and the steering controller may be two control logics or control steps in one controller, and are not limited thereto.

In addition, in this embodiment, the torque output shaft of the driving motor may be directly vertically and fixedly connected to the center of the wire harness disk 2, and the wire harness disk 2 may be directly driven to rotate by the driving motor.

EXAMPLE five

The driving assembly may be of various structures, and the main purpose of the driving assembly is to drive the bundle disc 2 to rotate.

The annular motor is arranged between the circular through hole and the bunching disc 2, and the central axis of the annular motor is superposed with the central axis of the bunching disc 2; the ring motor structure is explained below:

the annular motor comprises an annular stator and an annular rotor.

The annular stator, its outer ring surface and the medial surface fixed connection of circular through-hole can be equivalent to ordinary driving motor's stator, and it is coil winding, and it produces the magnetic field after communicating with the power.

The annular rotor, its interior anchor ring and the lateral surface fixed connection of bunch dish 2 can be equivalent to ordinary driving motor's rotor, and it also can be coil winding, just twines its outside at bunch dish 2 to can be with the holistic equivalence of bunch dish 2 and the drive shaft of motor.

In addition, in order to control the wire-tying process, it is necessary to provide a controller for controlling the loop controller.

The controller comprises a rotating speed controller and a steering controller.

The rotating speed controller is used for controlling the rotating speed of the annular motor;

the steering controller is used for controlling the rotating direction of the annular motor.

The speed controller and the steering controller may be two control logics or control steps in one controller, and are not limited thereto.

EXAMPLE six

In actual wire harness operation, a wire harness 10 requiring double twisting or double twisting may occur, and therefore the hand-held wire harness device in this embodiment further includes a small wire harness tray 4 and a small driving component

The small wire-bundling wire coil 4 is provided with a plurality of small wire-bundling holes 5, and the small wire-bundling wire coil 4 and the wire-bundling wire coil 2 are coaxially arranged and rotatably connected;

the small driving assembly is fixedly connected with the outer frame 1 and drives the small wire bundling plate 4 to rotate along the central axis of the wire bundling plate 2;

the central axis of each small wire harness hole 5 is parallel to the central axis of each small wire harness coil 4, and the first ends of a plurality of wire harnesses 10 to be bundled are stranded after penetrating through the small wire harness holes 5 respectively.

When the small driving assembly is used for driving the small wire bundle disc 4 to rotate, the rotating central line of the small wire bundle disc 4 is the central axis of the wire bundle disc 2, the first ends of the wire harnesses 10 which are twisted in pairs or twisted twice respectively penetrate through the wire bundle holes 3, and the wire harnesses 10 which are twisted once penetrate through the small wire bundle holes 5.

After the first ends of the plurality of secondarily twisted wire harnesses 10 pass through the wire harness bobbin 2, the first ends of the plurality of secondarily twisted wire harnesses 10 are fixedly twisted.

After the first ends of the plurality of primarily twisted wire harnesses 10 pass through the small wire bundle disc 4, the first ends of the plurality of primarily twisted wire harnesses 10 are fixedly connected to the first ends of the secondarily twisted wire harnesses 10.

Then, the wire bundling disk 2 is driven to rotate through the driving assembly, the wire bundling disk 2 rotates to drive the plurality of wire harnesses 10 to rotate around the central axis of the wire bundling disk 2, and therefore the wire bundling disk 2 and a part of the wire harnesses 10 between the first ends of the wire harnesses 10 can be stranded.

Then, the small-bundle wire coil 4 is driven to rotate through the small driving assembly, the small-bundle wire coil 4 rotates to drive the plurality of wire harnesses 10 to rotate around the central axis of the small-bundle wire coil 4, and therefore the small-bundle wire coil 4 and the part of the wire harnesses 10 between the first ends of the wire harnesses 10 can be stranded.

When twisting is carried out, the small wire bundle disc 4 and the wire bundle disc 2 are controlled to move relatively, and twisting is realized.

And the wire harness spool 2 may be moved stepwise along the first end of the wire harness 10 toward the second end of the wire harness 10 during the twisting, and the twisting of the entire wire harness 10 is completed when the wire harness spool 2 is moved to the second end of the wire harness 10.

EXAMPLE seven

The present embodiment is described with respect to the structure of the bundle disc 2 and the small bundle disc 4.

The wire-bundling disk 2 is internally provided with a small circular through hole which is coaxial with the wire-bundling disk, the diameter of the small circular through hole is equal to that of the small wire-bundling disk 4, the small wire-bundling disk 4 is arranged in the small circular through hole, and the outer circumferential surface of the small wire-bundling disk 4 is connected with the inner circumferential surface of the small circular through hole in a sliding manner.

The small wire bundle disk 4 is arranged in the wire bundle disk 2 by arranging a small round through hole, so that the relatively rotatable connection is realized.

Example eight

The structure of the small driving assembly can refer to the structure of the driving assembly, and the present embodiment provides a structure similar to that of the fourth embodiment, and the small driving assembly includes a small driving motor, a small driving toothed ring and a small driven toothed ring.

The small driving gear is coaxial and fixedly connected with a torque output shaft of the small driving motor;

the small driven gear ring is coaxial with and fixedly connected with the small wire bundling disc 4, and the small driving gear is meshed with the small driven gear ring in a tooth pattern manner;

the small driving gear is driven to rotate through the small driving motor, then the torque is transmitted to the small driven gear ring through the small driving gear, and the small wire bunching disc 4 is driven to rotate through the small driven gear ring, so that the wire bunching operation is realized.

In addition, in order to control the wire harness process, a small controller for controlling a small driving motor is also required.

The small controller comprises a small rotating speed controller and a small steering controller.

The small rotating speed controller is used for controlling the rotating speed of the small driving motor;

the small steering controller is used for controlling the rotation direction of the small driving motor.

The underspeed controller and the underspeed controller can be two control logics or control steps in one underspeed controller, and are not limited.

Meanwhile, the number of the small controller in the embodiment and the number of the controller in the fourth embodiment may be one, that is, the small driving assembly and the driving assembly are directly controlled by the controller.

In addition, in this embodiment, the torque output shaft of the small driving motor may also be directly and vertically and fixedly connected to the center of the small wire bundle disc 4, and the small driving motor directly drives the small wire bundle disc 4 to rotate.

Example nine

During winding of the incoming wire harness 10, a situation that the wire harness disk 2 is wound and knotted with the second end of the wire harness 10 may occur, so in the embodiment, an auxiliary support component is additionally arranged on the handheld wire harness device and is arranged in parallel with the wire harness disk 2, and the auxiliary support component comprises a mounting frame 6 and an auxiliary disk 7;

the auxiliary disk 7 is rotatably connected with the mounting frame 6 and is coaxially arranged with the auxiliary disk 7, and an auxiliary hole 8 which is coaxial with the wire bundling hole 3 is arranged on the auxiliary disk 7;

wherein, the axis of auxiliary hole 8 and the axis parallel arrangement of auxiliary disk 7, the middle section of a plurality of pencil 10 of treating the bunch sets up respectively in a plurality of auxiliary holes 8.

By mounting one or more replication discs parallel to the wire harness disc 2 and placing it between the wire harness disc 2 and the second end of the wire harness 10, i.e. upon rotation of the wire harness disc 2, also a twisting of the wire harness 10 between the wire harness disc 2 and the second end of the wire harness 10 occurs.

The harness 10 is then supported by the rotatable auxiliary plate 7 to rotate in synchronism with the harness plate 2, thereby achieving the avoidance of the problem of the second end of the harness 10 being knotted.

In the description herein, reference to the description of the terms "one embodiment/mode," "some embodiments/modes," "example," "specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment/mode or example is included in at least one embodiment/mode or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to be the same embodiment/mode or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments/modes or examples. Furthermore, the various embodiments/aspects or examples and features of the various embodiments/aspects or examples described in this specification can be combined and combined by one skilled in the art without conflicting therewith.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

It will be understood by those skilled in the art that the foregoing embodiments are merely for clarity of description and are not intended to limit the scope of the utility model. Other variations or modifications to the above described invention may occur to those skilled in the art and are within the scope of the utility model.

Claims (10)

1. A hand-held wire harness device, comprising:

an outer frame;

the wire bundling disc is provided with a plurality of wire bundling holes and is rotatably connected with the outer frame;

the driving assembly is fixedly connected with the outer frame and drives the wire bundling disc to rotate along the central axis of the wire bundling disc;

the central axis of the wire bundling hole is parallel to the central axis of the wire bundling disc, and the first ends of a plurality of wire harnesses to be bundled are stranded after penetrating through the plurality of wire bundling holes respectively.

2. The handheld wire bunching device as defined in claim 1, wherein the outer frame has a circular through hole, the plurality of wire bunching holes are all located in the circular through hole, the plurality of wire bunching holes are uniformly distributed in an annular shape along a central axis of the wire bunching disc, and included angles between two adjacent wire bunching holes are equal.

3. The hand-held wire harness device according to claim 2, wherein the diameter of the circular through hole is equal to the diameter of the wire harness disk, the wire harness disk is disposed in the circular through hole, and the outer circumferential surface of the wire harness disk is slidably connected to the inner circumferential surface of the circular through hole.

4. The hand-held wire bunching device as claimed in claim 3, wherein an annular sliding groove is formed on the inner side surface of the circular through hole, and an annular sliding edge matched with the annular sliding groove is formed on the outer side surface of the wire bunching disc.

5. The hand-held wire harness apparatus as claimed in claim 1, wherein the drive assembly comprises:

a drive motor;

the driving gear is coaxial and fixedly connected with a torque output shaft of the driving motor;

the driven gear ring is coaxial and fixedly connected with the bunching disc, and the driving gear is meshed with the driven gear ring;

a controller for controlling the driving motor;

the controller includes:

a rotational speed controller for controlling a rotational speed of the driving motor;

a steering controller for controlling a rotation direction of the driving motor.

6. The hand-held wire harness apparatus as claimed in claim 3, wherein the drive assembly comprises:

the annular motor is arranged between the circular through hole and the wire bundling disc, and the central axis of the annular motor is superposed with the central axis of the wire bundling disc;

the ring motor includes:

the outer annular surface of the annular stator is fixedly connected with the inner side surface of the circular through hole;

the inner ring surface of the annular rotor is fixedly connected with the outer side surface of the wire bundling disc;

a controller for controlling the ring motor;

the controller includes:

a rotational speed controller for controlling a rotational speed of the ring motor;

a steering controller for controlling a rotation direction of the ring motor.

7. The hand-held wire harness apparatus as claimed in claim 1, further comprising:

the small wire bundle disc is provided with a plurality of small wire bundle holes, and the small wire bundle disc and the wire bundle disc are coaxially arranged and are rotatably connected;

the small driving assembly is fixedly connected with the outer frame and drives the small wire bundling disc to rotate along the central axis of the wire bundling disc;

the central axis of each small wire bundle hole is parallel to the central axis of each small wire bundle disc, and the first ends of a plurality of wire bundles to be bundled are stranded after penetrating through the small wire bundle holes respectively.

8. The handheld wire bunching device as defined in claim 7, wherein a small circular through hole is coaxially arranged in the wire bunching disc, the diameter of the small circular through hole is equal to that of the small wire bunching disc, the small wire bunching disc is arranged in the small circular through hole, and the outer circumferential surface of the small wire bunching disc is slidably connected with the inner circumferential surface of the small circular through hole.

9. The hand-held wire harness apparatus as claimed in claim 8, wherein the small drive assembly comprises:

a small drive motor;

the small driving gear is coaxial and fixedly connected with a torque output shaft of the small driving motor;

the small driven gear ring is coaxial and fixedly connected with the small wire bundling plate, and the small driving gear is meshed with the small driven gear ring in a tooth pattern manner;

a small controller for controlling the small driving motor;

the small controller includes:

a small rotation speed controller for controlling a rotation speed of the small driving motor;

a small steering controller for controlling a rotation direction of the small driving motor.

10. The hand-held wire harness apparatus according to claim 1, further comprising an auxiliary support assembly disposed in parallel with the wire harness tray, the auxiliary support assembly comprising:

a mounting frame;

the auxiliary disc is rotatably connected with the mounting frame and is coaxially arranged with the auxiliary disc, and an auxiliary hole which is coaxial with the wire bundling hole is formed in the auxiliary disc;

the central axis of the auxiliary hole is parallel to the central axis of the auxiliary disc, and the middle sections of a plurality of wire harnesses to be bundled are respectively arranged in the auxiliary hole.

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