CN220138008U - Wire harness protective layer winding device - Google Patents

Abstract

The utility model relates to a wire harness protective layer winding device, which comprises a winding mechanism and a wire harness clamping mechanism, wherein the wire harness clamping mechanism clamps two ends of a wire harness and straightens the wire harness; the winding mechanism comprises a mounting plate perpendicular to the extending direction of the wire harness, a rotating ring which is rotatable relative to the mounting plate is arranged on the mounting plate, a first motor which is fixed on the mounting plate and a belt which is sequentially connected to the first motor and the rotating ring are arranged on the mounting plate and the rotating ring, wire passing holes through which the wire harness passes are formed in the mounting plate and the rotating ring, and a protective layer fixing frame for placing a protective layer is arranged on the rotating ring. According to the technical scheme, the wire harness passes through the wire passing hole and two ends of the wire harness pass through the wire passing hole and are fixed on the wire harness clamping mechanism, one end of the protective layer arranged on the protective layer fixing frame is adhered to the wire harness, the first motor drives the rotating ring to rotate through the belt, the protective layer fixing frame drives the protective layer to wind the wire harness, and the protective layer winding work can be completed, so that the problems of high workload and low production efficiency of manually winding the protective layer are solved.

Description

Wire harness protective layer winding device

Technical Field

The disclosure relates to the technical field of automobile wire harnesses, in particular to a wire harness protective layer winding device.

Background

The automobile wire harness is a network main body of an automobile circuit, and the wire harness is a component for forming a connecting circuit by bundling the wire harness by plastic pressing an insulator or an externally-added metal shell after a contact terminal punched by copper is in pressure connection with an electric wire and a cable. In order to protect the wire harness, the protective layer needs to be wound outside the wire harness before the wire harness is used, the other end of the wire harness needs to be pulled manually in the process of winding the protective layer on the wire harness, manual winding is needed, the workload is large, and the production efficiency is low.

Disclosure of Invention

The embodiment of the disclosure provides a wire harness protective layer winding device to at least partially solve the problems of large workload and low production efficiency of manual protective layer winding.

The specific technical scheme provided by the embodiment of the disclosure is as follows:

the present disclosure proposes a wire harness protective layer winding device, including: the winding mechanism and the wire harness clamping mechanism,

the wire harness clamping mechanism is configured to clamp two ends of a wire harness and straighten the wire harness;

the winding mechanism comprises a mounting plate which is perpendicular to the extending direction of the wire harness, a rotary ring which is rotatable relative to the mounting plate is arranged on the mounting plate, a first motor which is fixed on the mounting plate, and a belt which is sequentially connected to the first motor and the rotary ring, wire passing holes through which the wire harness passes are formed in the mounting plate and the rotary ring, and a protective layer fixing frame for placing a protective layer is arranged on the rotary ring;

after the wire harness passes through the wire passing hole, one end of the protective layer is adhered to the wire harness, the winding mechanism is configured to be driven by the first motor to rotate through the belt, and the protective layer fixing frame drives the protective layer to wind the wire harness.

Preferably, the mounting plate and the rotating ring are respectively provided with a shape matching, the first wire harness inlet and the second wire harness inlet which are communicated with the wire passing hole and the outside are respectively arranged, the output end of the first motor is provided with a driving wheel, the mounting plate is provided with at least one rotatable driven wheel, the belt is sequentially connected to the driving wheel and the driven wheel, and the rotating ring is at least partially attached to the belt and rotates along with the belt.

Preferably, the rotating ring comprises a rotating shaft sleeve and a driving ring which are sequentially arranged along the axial direction and concentric, the rotating shaft sleeve is installed on the mounting plate, the driving ring is nested in the rotating shaft sleeve and rotatable relative to the mounting plate, and the driving ring is at least partially attached to the belt; the driving ring is provided with a mounting ring, and the protective layer fixing frame is mounted on the mounting ring.

Preferably, the winding mechanism further comprises a transverse moving part, the mounting plate is arranged on the transverse moving part, the transverse moving part comprises a second motor and a first transmission device, and the transverse moving part is configured to be driven by the second motor to drive the first transmission device to drive the mounting plate to translate along the extending direction of the wire harness.

Preferably, the winding mechanism further includes a vertical moving portion, the vertical moving portion is disposed on the lateral moving portion, the mounting plate is disposed on the vertical moving portion, the vertical moving portion includes a third motor and a second transmission device, and the vertical moving portion is configured to be driven by the third motor to drive the second transmission device to drive the mounting plate to move up and down along an extending direction perpendicular to the wire harness.

Preferably, the winding mechanism further includes a longitudinal moving portion, the longitudinal moving portion is disposed on the vertical moving portion, the mounting plate is disposed on the longitudinal moving portion, the longitudinal moving portion includes a fourth motor and a third transmission device, and the longitudinal moving portion is configured to be driven by the fourth motor to drive the third transmission device to drive the mounting plate to horizontally move along an extending direction perpendicular to the wire harness.

Preferably, the winding mechanism further comprises a control box, and the control box is electrically connected with the first motor, the second motor, the third motor and the fourth motor respectively and sends control signals.

Preferably, the wire harness clamping mechanism comprises at least one clamping part and a clamping moving unit, wherein the clamping part is arranged on the clamping moving unit and can horizontally move along the direction perpendicular to the extending direction of the wire harness under the driving of the clamping moving unit.

Preferably, the clamping part comprises a telescopic rod, a clamp fixing box and a wire harness clamp, wherein the telescopic rod comprises a first rod body and a second rod body sleeved outside the first rod body, and the first rod body moves and is fixed along the extending direction of the second rod body; the fixture fixing box is arranged at the top of the first rod body, and the wire harness fixture is arranged on the fixture fixing box and used for fixing the wire harness.

Preferably, the harness clip is detachably connected to the clip fixing case.

The beneficial effects of the present disclosure are as follows:

through passing the wire harness through the wire passing hole and fixing two ends of the wire harness to the wire harness clamping mechanism, one end of the protective layer arranged on the protective layer fixing frame is adhered to the wire harness, the first motor drives the rotating ring to rotate through the belt, the protective layer fixing frame drives the protective layer to wind the wire harness, and the winding work of the protective layer of the wire harness can be completed rapidly, so that the problems of large workload and low production efficiency of manually winding the protective layer are solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present disclosure, the drawings that are needed in the description of the embodiments will be briefly described below, it will be apparent that the drawings in the following description are only some embodiments of the present disclosure, and that other drawings may be obtained according to these drawings without inventive effort to a person of ordinary skill in the art.

Fig. 1 is a schematic view of the overall structure of a wire harness protective layer winding apparatus provided in an exemplary embodiment of the present disclosure;

fig. 2 is a schematic top view of a wire harness protective layer winding apparatus provided in an exemplary embodiment of the present disclosure;

FIG. 3 is a schematic view of the tape winding mechanism, the longitudinal moving portion and the vertical moving portion of FIG. 1;

FIG. 4 is a schematic view of the present disclosure highlighting the interaction between the drive wheel, driven wheel and drive ring;

FIG. 5 is a schematic view showing the structure of the mounting plate of FIG. 1;

FIG. 6 is a schematic view showing the structure of the rotating ring of FIG. 1;

fig. 7 is a schematic view showing the structure of the pulley and the locking unit of the harness clamping mechanism in a highlighted manner.

Reference numerals:

1. a winding mechanism; 101. a mounting plate; 102. a rotating ring; 1021. rotating the shaft sleeve; 1022. a drive ring; 1023. a mounting ring; 103. a first motor; 104. a belt; 105. a wire through hole; 106. a protective layer fixing frame; 107. a first strand inlet; 108. a second harness inlet; 109. a driving wheel; 110. driven wheel; 2. a harness clamping mechanism; 201. a clamping part; 2011. a telescopic rod; 2012. a clamp fixing box; 2013. a harness clamp; 202. clamping a moving unit; 2021. a slide rail; 2022. a fixing plate; 2023. a pulley; 203. a locking unit; 2031. a lock lever; 2032. a stop block; 3. a lateral movement section; 301. a second motor; 302. a first transmission; 3021. a first base; 3022. a first slider; 3023. a first threaded rod; 4. a vertical moving part; 401. a third motor; 402. a second transmission; 5. a longitudinal moving part; 501. a fourth motor; 502. a third transmission; 5021. a second base; 5022. a second slider; 5023. a second threaded rod; 6. and a control box.

Detailed Description

The preferred embodiments of the present disclosure will be described below with reference to the accompanying drawings of the specification, it being understood that the preferred embodiments described herein are for illustration and explanation only, and are not intended to limit the present disclosure, and embodiments of the present disclosure and features of the embodiments may be combined with each other without conflict.

The present disclosure proposes a wire harness protective layer winding device, as shown in fig. 1 to 7, comprising a winding mechanism 1 and a wire harness clamping mechanism 2, the wire harness clamping mechanism 2 being configured to clamp both ends of a wire harness and straighten the wire harness; the winding mechanism 1 comprises a mounting plate 101 which is perpendicular to the extending direction of the wire harness, a rotary ring 102 which is rotatable relative to the mounting plate 101 is arranged on the mounting plate 101, a first motor 103 which is fixed on the mounting plate 101, and a belt 104 which is sequentially connected with the first motor 103 and the rotary ring 102, wire passing holes 105 through which the wire harness passes are formed in the mounting plate 101 and the rotary ring 102, and a protective layer fixing frame 106 for placing a protective layer is arranged on the rotary ring 102; after the wire harness passes through the wire passing hole 105, one end of the protective layer is adhered to the wire harness, and the winding mechanism 1 is configured to drive the rotating ring 102 to rotate by the first motor 103 through the belt 104, and the protective layer fixing frame 106 drives the protective layer to wind the wire harness.

In this embodiment, the mounting plate 101 may be provided in a rectangular plate shape, the wire harness clamping mechanism 2 clamps the wire harness and is provided on both sides of the mounting plate 101, and the mounting plate 101 is provided perpendicular to the extending direction of the wire harness. The rotary ring 102 is provided on one side of the mounting plate 101, and the mounting plate 101 and the rotary ring 102 are coaxially provided with a wire passing hole 105, and the wire harness passes through the wire passing hole 105 and is straightened by the harness clamping mechanism 2. The wire harness clamping mechanism 2 is adjusted so that the wire harness is located at the center of the wire passing hole 105 as much as possible, so that the wire harness is evenly distributed when the protective layer is wound, and the conditions of loose winding and wire detachment are avoided. The first motor 103 is arranged on one side of the mounting plate 101, and the output end of the first motor 103 is connected with the rotating ring 102 through a belt 104; the rotating ring 102 is provided with a protective layer fixing frame 106 parallel to the extending direction of the wire harness, and the protective layer fixing frame 106 is sleeved with a protective layer. It should be understood that in this embodiment, the protective layer may be selected from PVC tape, flannelette tape, or cloth-based tape, etc., and in other embodiments, may be made of other materials, and may be set according to actual requirements, which is not limited in any way. One end of the protective layer is adhered to one end of the wire harness, the first motor 103 drives the rotary ring 102 to rotate through the belt 104, and the protective layer fixing frame 106 synchronously rotates along with the rotary ring 102 so as to wind the protective layer on the wire harness. It should be noted that, the first motor 103, the second motor 301, the third motor 401 and the fourth motor 501, which will be mentioned later, may be selected as stepper motors, and in other embodiments, may be a servo motor, which may be set according to actual requirements, and are not limited herein.

In the actual use process, the wire harness passes through the wire through hole 105, then the two ends of the wire harness are clamped and straightened through the wire harness clamping and installing mechanism 2, and meanwhile, the height of the wire harness in the horizontal direction is adjusted to be positioned at the center of the wire through hole 105. The protective layer is sleeved on the protective layer fixing frame 106, and one end of the protective layer is adhered to one end of the wire harness. The first motor 103 is then started, driving the rotating ring 102 to rotate via the belt 104. The rotating ring 102 rotates to drive the protective layer fixing frame 106 to synchronously rotate, and the protective layer fixing frame 106 drives the protective layer to wind the wire harness.

Through the technical scheme, the wire harness passes through the wire through hole 105 and two ends of the wire harness are fixed to the wire harness clamping mechanism 2, one end of the protective layer arranged on the protective layer fixing frame 106 is adhered to the wire harness, the first motor 103 drives the rotating ring 102 to rotate through the belt 104, the protective layer fixing frame 106 drives the protective layer to wind the wire harness, and the wire harness protective layer winding work can be rapidly completed, so that the problems of large workload and low production efficiency of manual protective layer winding are solved.

In some embodiments, the mounting plate 101 and the rotating ring 102 are respectively provided with a shape matching, the first wire harness inlet 107 and the second wire harness inlet 108 which pass through the wire hole 105 and the outside are respectively provided with a driving wheel 109 at the output end of the first motor 103, the mounting plate 101 is provided with at least one rotatable driven wheel 110, the belt 104 is sequentially connected to the driving wheel 109 and the driven wheel 110, and the rotating ring 102 is at least partially attached to the belt 104 and rotates along with the belt 104.

In this embodiment, referring to fig. 4, 5 and 6, a first wire harness inlet 107 is formed on one side of the mounting plate 101, a second wire harness inlet 108 is formed at a position of the rotating ring 102 facing the first wire harness inlet 107, and the first wire harness inlet 107 and the second wire harness inlet 108 are communicated, and the wire harness can enter the wire harness through hole 105 from the outside through the first wire harness inlet 107 and the second wire harness inlet 108 in sequence, so that the operation of passing the wire harness through hole 105 is simpler and more convenient. The driving wheel 109 is arranged on the other side of the mounting plate 101 relative to the first motor 103 and is connected with the output end of the first motor 103, and the driven wheel 110 is arranged on the same side as the driving wheel 109; the driven wheels 110 are arranged in two, the two driven wheels 110 are arranged on the rotary ring 102 at intervals, and the belt 104 connects the driving wheel 109 and the driven wheels 110 in sequence. The driving wheel 109 and the driven wheel 110 transfer motion through friction force between the driving wheel and the belt 104, so that the structure is simple, and the operation is convenient; and the belt 104 can buffer and absorb vibration, and the transmission is stable and noiseless. The rotating ring 102 is attached to the belt 104 towards one side of the belt 104, and when the belt 104 rotates, the rotating ring 102 can rotate along with the belt 104, and the protective layer fixing frame 106 drives the protective layer to wind the wire harness, so that the protective layer winding work of the wire harness is completed.

In this embodiment, the belt 104 is used for transmission, and in other embodiments, chain transmission or other transmission methods may be used, which may be set according to actual needs, and is not limited in this regard.

Preferably, as shown in fig. 4, the first harness inlet 107 and the second harness inlet 108 are provided in a horn mouth shape, and the large mouth end of the horn mouth is provided outside and communicates with the outside, and the small mouth end of the horn mouth is provided inside and communicates with the wire passing hole 105. When the wire harness enters the wire passing hole 105 through the first wire harness inlet 107 and the second wire harness inlet 108, the large mouth end of the horn mouth can play a certain guiding role on the wire harness, so that the wire harness can conveniently enter the wire passing hole 105, and the working efficiency is further improved.

In some embodiments, the rotating ring 102 includes a rotating sleeve 1021 and a driving ring 1022 that are disposed and concentric in sequence in an axial direction, the rotating sleeve 1021 is mounted on the mounting plate 101, the driving ring 1022 is nested within the rotating sleeve 1021 and rotatable relative to the mounting plate 101, and the driving ring 1022 is at least partially attached to the belt 104; the driving ring 1022 is provided with a mounting ring 1023, and the protective layer fixing frame 106 is mounted on the mounting ring 1023. In this embodiment, the rotation sleeve 1021 is on the same side as the driving wheel 109 and is fixed to the mounting plate 101, and the driving ring 1022 is nested in the rotation sleeve 1021 and can rotate in the circumferential direction thereof. The two driven wheels 110 are disposed in the rotation shaft sleeve 1021 and are disposed at upper and lower portions of the rotation shaft sleeve 1021, respectively, and the driving ring 1022 is attached to the belt 104 toward one side of the belt 104, so that the driving ring 1022 can rotate along with the belt 104 when the belt 104 rotates. Meanwhile, the rotary shaft sleeve 1021 can further protect the driven wheel 110 and the driving ring 1022 from being influenced or damaged by other external factors, so that the reliability of the device is improved. The protective layer fixing frame 106 is inserted into the mounting ring 1023, so that the mounting is simple and convenient, the replacement is convenient, and the working efficiency is improved.

In some embodiments, the winding mechanism 1 further includes a lateral moving portion 3, the mounting plate 101 is disposed on the lateral moving portion 3, the lateral moving portion 3 includes a second motor 301 and a first transmission device 302, and the lateral moving portion 3 is configured to drive the first transmission device 302 by the second motor 301, so as to drive the mounting plate 101 to translate along the extending direction of the wire harness.

In this embodiment, as shown in fig. 1, the lateral moving portion 3 is parallel to the wire harness and is disposed on one side of the wire harness, the first transmission device 302 may include a first base 3021 disposed horizontally, a first slider 3022 nested in the first base 3021 and capable of sliding along the extending direction of the first base 3021, and a first threaded rod 3023 disposed in the first base 3021 along the extending direction of the first base 3021 and screwed with the first slider 3022, and the mounting plate 101 is disposed on the first slider 3022. The ends of the two ends of the first base 3021 are respectively provided with a first sealing plate for sealing the two ends of the first base 3021, so as to prevent the first slider 3022 from sliding out of the first base 3021. Meanwhile, two ends of the first threaded rod 3023 are respectively connected with two first sealing plates in a rotating mode, one end of the first threaded rod 3023 is connected with the output end of the second motor 301, so that the rotation of the first threaded rod 3023 is controlled through the second motor 301, and the first sliding block 3022 moves back and forth along the extending direction of the first base 3021. That is, the second motor 301 may drive the first threaded rod 3023 to control the first slider 3022 to drive the mounting board 101 to translate along the extending direction of the wire harness, so that the mounting board 101 may drive the protective layer to move from one end to the other end of the wire harness, to implement the full-automatic operation of winding the wire harness, and improve the working efficiency.

In some embodiments, the winding mechanism 1 further includes a vertical moving portion 4, the vertical moving portion 4 is disposed on the lateral moving portion 3, the mounting plate 101 is disposed on the vertical moving portion 4, the vertical moving portion 4 includes a third motor 401 and a second transmission device 402, and the vertical moving portion 4 is configured such that the third motor 401 drives the second transmission device 402 to drive the mounting plate 101 to move up and down along an extending direction perpendicular to the wire harness.

In this embodiment, as shown in fig. 1, the vertical moving portion 4 is disposed perpendicular to the extending direction of the wire harness, the second transmission device 402 may include a vertical adjustment rod, the third motor 401 is disposed on the first slider 3022, the bottom end of the vertical adjustment rod is screwed with the output end of the third motor 401, and the top end of the vertical adjustment rod is connected with the mounting plate 101. When the wire harness protective layer winding device is used, the output end of the third motor 401 is rotated, the vertical adjusting rod is controlled to drive the mounting plate 101 to reciprocate up and down along the extending direction perpendicular to the wire harness, so that the wire harness is adjusted in the vertical direction in the wire through hole 105, the wire harness is adjusted to the center position of the wire through hole 105 as much as possible, and the reliability of the wire harness protective layer during winding is improved. Meanwhile, through the arrangement of the vertical moving part 4, full-automatic operation of wire harness winding is further realized, labor is saved, and working efficiency is improved.

In some embodiments, the winding mechanism 1 further includes a longitudinal moving portion 5, the longitudinal moving portion 5 is disposed on the vertical moving portion 4, the mounting plate 101 is disposed on the longitudinal moving portion 5, the longitudinal moving portion 5 includes a fourth motor 501 and a third transmission device 502, and the longitudinal moving portion 5 is configured such that the fourth motor 501 drives the third transmission device 502 to drive the mounting plate 101 to horizontally move along an extending direction perpendicular to the wire harness.

In this embodiment, as shown in fig. 1, the longitudinal moving portion 5 is disposed perpendicular to the extending direction of the wire harness, the third transmission device 502 may include a second base 5021 disposed horizontally, a second slider 5022 nested in the second base 5021 and capable of sliding along the extending direction of the second base 5021, and a second threaded rod 5023 disposed in the second base 5021 along the extending direction of the second base 5021 and screwed with the second slider 5022, and the mounting plate 101 is disposed on the second slider 5022. The ends of the two ends of the second base 5021 are respectively provided with a second sealing plate for sealing the two ends of the second base 5021 so as to prevent the second slider 5022 from sliding out of the second base 5021. Meanwhile, two ends of the second threaded rod 5023 are respectively connected with two second sealing plates in a rotating mode, one end of the second threaded rod 5023 is connected with the output end of the fourth motor 501, the rotation of the second threaded rod 5023 is controlled through the fourth motor 501, and the second sliding block 5022 moves back and forth along the extending direction of the second base 5021. That is, the fourth motor 501 may drive the second threaded rod 5023 to control the second slider 5022 to drive the mounting plate 101 to horizontally move along the extending direction perpendicular to the wire harness, so that the position of the wire harness in the horizontal direction perpendicular to the wire harness in the wire passing hole 105 may be adjusted to the center position of the wire harness passing hole 105 as much as possible by matching with the vertical moving part 4, so as to further realize the full-automatic operation of wire harness winding, save labor, and further improve the working efficiency.

Preferably, referring to fig. 1 and 2, the mounting plate 101 may be provided in an L-shaped plate-shaped structure, and a short side of the L-shaped plate-shaped structure is connected with one end of the second chassis 5021, so that the connection area of the mounting plate 101 and the second chassis 5021 is increased, the stability of connection is improved, and the reliability of the device is improved.

It can be appreciated that the vertical moving part 4 and the vertical moving part 5 are mutually matched with the transverse moving part 3, so that the device can adapt to the adjustment of the movement space of various different special-shaped wire harnesses, and the winding work of the wire harness protective layer can be completed by the more effective auxiliary winding mechanism 1.

In some embodiments, referring to fig. 1 and 2, the winding mechanism 1 further includes a control box 6, and the control box 6 is electrically connected to the first motor 103, the second motor 301, the third motor 401, and the fourth motor 501, respectively, and transmits control signals. The control box 6 automatically controls the first motor 103, the second motor 301, the third motor 401 and the fourth motor 501 according to a preset program, so that full-automatic operation can be further realized, labor is saved, and economic benefit and working efficiency are improved.

In some embodiments, the wire harness clamping mechanism 2 includes at least one clamping portion 201 and a clamping moving unit 202, and the clamping portion 201 is provided on the clamping moving unit 202 and can be horizontally moved in a direction perpendicular to the extending direction of the wire harness by the clamping moving unit 202.

In this embodiment, referring to fig. 1 and 2, two clamping portions 201 are provided, two clamping portions 201 clamp a wire harness and are respectively disposed on two sides of the mounting plate 101, two clamping moving units 202 are correspondingly provided, each clamping moving unit 202 may include a sliding rail 2021 horizontally disposed and perpendicular to a horizontal direction of the wire harness, a fixing plate 2022 disposed on the sliding rail 2021, and a pulley 2023 mounted on a lower bottom surface of the fixing plate 2022 and disposed in the sliding rail 2021, and the pulley 2023 may slide along an extending direction of the sliding rail 2021, and the clamping portion 201 is disposed on an upper surface of the fixing plate 2022. In this way, after the clamping part 201 clamps and straightens the two ends of the wire harness, the movable pulley 2023 controls the wire harness to enter the wire passing hole 105 through the first wire harness inlet 107 and the second wire harness inlet 108, so that the operation is simple and convenient. Meanwhile, the clamping moving unit 202 is adjusted, the vertical moving part 4 and the longitudinal moving part 5 are matched to adjust the wire harness to the center position of the wire passing hole 105 as much as possible, and the reliability of the wire harness protective layer during winding is improved.

Further, the wire harness clamping mechanism 2 may further include two locking units 203, in this embodiment, the two locking units 203 are provided corresponding to the clamping moving units 202, the locking units 203 include a lock lever 2031 and a stopper 2032, the lock lever 2031 is disposed on one side of the fixing plate 2022, the stopper 2032 is disposed on the bottom surface of the fixing plate 2022, and the lock lever 2031 and the stopper 2032 are connected by a shaft. In actual use, after the position of the slide rail 2021 is adjusted, the stop block 2032 is placed in the slide rail 2021 by screwing the lock rod 2031, and the clamping moving unit 202 is fixed on the slide rail 2021, so as to avoid unexpected sliding of the fixing plate 2022 in the application process, thereby affecting the wire harness winding effect.

Further, as shown in fig. 1, the ends of the two ends of the sliding rail 2021 are respectively provided with a third sealing plate for sealing the two ends of the sliding rail 2021, so as to prevent the pulley 2023 from sliding out of the sliding rail 2021, thereby improving the reliability of the device.

Preferably, the third seal plate may be detachably connected to the slide 2021. When the pulley 2023 fails, the pulley 2023 may be replaced by removing the third sealing plate from the end of the slide rail 2021. The operation is simple and convenient. It should be understood that the detachable connection is not limited to the bolt connection, the clamping connection, the hinge connection, etc., and may be designed according to practical needs, and is not limited in any way.

In some embodiments, referring to fig. 1 and 7, the clamping portion 201 includes a telescopic rod 2011, a clamp fixing box 2012 and a harness clamp 2013, the telescopic rod 2011 includes a first rod body and a second rod body sleeved outside the first rod body, and the first rod body moves and is fixed along an extension direction of the second rod body; the jig fixing box 2012 is installed at the top of the first rod body, and the harness jig 2013 is installed on the jig fixing box 2012 for fixing the harness. In this embodiment, the bottom end of the second rod body is fixedly disposed on the upper surface of the fixing plate 2022, and the first rod body can move and be fixed along the extending direction of the second rod body, which is to be understood that the first rod body and the second rod body may be clamped or fixedly connected by a bolt. The clamp fixing box 2012 is fixedly arranged at the top of the first rod body, the clamp fixing box 2012 is lifted or lowered by adjusting the height of the telescopic rod 2011, and the height of the wire harness clamp 2013 is adjusted to be matched with the position adjustment of the vertical moving part 4, so that the reliability of the wire harness protective layer during winding is improved.

Preferably, a chute is formed in the wire harness fixture 2013 along the extending direction of the wire harness, and a wire harness end locking structure is arranged in the chute to lock and straighten the wire harness. In the present embodiment, the wire harness end locking structure is configured to be tightened by a bolt and a nut, and in other embodiments, the wire harness end locking structure may be configured to be locked by other means, which is not limited in any way.

In some embodiments, the harness clip 2013 is removably coupled to the clip set box 2012. By means of the arrangement, the wire harness clamp 2013 can be replaced according to different wire harnesses so as to meet the application requirements of the different wire harnesses. Meanwhile, if a certain wire harness clamp 2013 is damaged, the wire harness clamp can be detached timely for replacement, the operation is simple and convenient, and the working efficiency is further improved.

While the preferred embodiments of the present disclosure have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the disclosure.

It will be apparent to those skilled in the art that various modifications and variations can be made to the disclosed embodiments without departing from the spirit and scope of the disclosed embodiments. Thus, given that such modifications and variations of the disclosed embodiments fall within the scope of the claims of the present disclosure and their equivalents, the present disclosure is also intended to encompass such modifications and variations.

Claims (10)

1. A wire harness protective layer winding device comprising: a winding mechanism (1) and a wire harness clamping mechanism (2), which is characterized in that,

the wire harness clamping mechanism (2) is configured to clamp two ends of a wire harness and straighten the wire harness;

the winding mechanism (1) comprises a mounting plate (101) perpendicular to the extending direction of the wire harness, a rotary ring (102) rotatable relative to the mounting plate (101) is arranged on the mounting plate (101), a first motor (103) fixed on the mounting plate (101), and a belt (104) sequentially connected to the first motor (103) and the rotary ring (102), wire passing holes (105) for the wire harness to pass through are formed in the mounting plate (101) and the rotary ring (102), and a protective layer fixing frame (106) for placing a protective layer is arranged on the rotary ring (102);

after the wire harness passes through the wire passing hole (105), one end of the protective layer is adhered to the wire harness, the winding mechanism (1) is configured to be driven by the first motor (103) to rotate through the belt (104) and the rotating ring (102), and the protective layer fixing frame (106) drives the protective layer to wind the wire harness.

2. The wire harness protection layer winding device according to claim 1, wherein the mounting plate (101) and the rotating ring (102) are respectively provided with a first wire harness inlet (107) and a second wire harness inlet (108) which are matched in shape and penetrate through the wire passing hole (105) and the outside, the output end of the first motor (103) is provided with a driving wheel (109), the mounting plate (101) is provided with at least one rotatable driven wheel (110), the belt (104) is sequentially connected to the driving wheel (109) and the driven wheel (110), and the rotating ring (102) is at least partially attached to the belt (104) and rotates along with the belt (104).

3. The wire harness protective layer winding device according to claim 1, wherein the rotary ring (102) includes a rotary sleeve (1021) and a drive ring (1022) that are disposed in order and concentric in an axial direction, the rotary sleeve (1021) is mounted on the mounting plate (101), the drive ring (1022) is nested within the rotary sleeve (1021) and rotatable relative to the mounting plate (101), and the drive ring (1022) is at least partially attached to the belt (104); the driving ring (1022) is provided with a mounting ring (1023), and the protective layer fixing frame (106) is mounted on the mounting ring (1023).

4. The wire harness protection layer winding device according to claim 1, wherein the winding mechanism (1) further comprises a transverse moving part (3), the mounting plate (101) is arranged on the transverse moving part (3), the transverse moving part (3) comprises a second motor (301) and a first transmission device (302), and the transverse moving part (3) is configured to drive the first transmission device (302) by the second motor (301) so as to drive the mounting plate (101) to translate along the extending direction of the wire harness.

5. The wire harness protective layer winding device according to claim 4, wherein the winding mechanism (1) further comprises a vertical moving portion (4), the vertical moving portion (4) is arranged on the transverse moving portion (3), the mounting plate (101) is arranged on the vertical moving portion (4), the vertical moving portion (4) comprises a third motor (401) and a second transmission device (402), and the vertical moving portion (4) is configured to drive the second transmission device (402) by the third motor (401) to drive the mounting plate (101) to move up and down along an extending direction perpendicular to the wire harness.

6. The wire harness protective layer winding device according to claim 5, wherein the winding mechanism (1) further comprises a longitudinal moving portion (5), the longitudinal moving portion (5) is arranged on the vertical moving portion (4), the mounting plate (101) is arranged on the longitudinal moving portion (5), the longitudinal moving portion (5) comprises a fourth motor (501) and a third transmission device (502), and the longitudinal moving portion (5) is configured to drive the third transmission device (502) by the fourth motor (501) so as to drive the mounting plate (101) to horizontally move along an extending direction perpendicular to the wire harness.

7. The wire harness protective layer winding device according to claim 6, wherein the winding mechanism (1) further comprises a control box (6), and the control box (6) is electrically connected with the first motor (103), the second motor (301), the third motor (401) and the fourth motor (501) respectively and transmits control signals.

8. The wire harness protective layer winding device according to claim 1, wherein the wire harness clamping mechanism (2) comprises at least one clamping portion (201) and a clamping moving unit (202), and the clamping portion (201) is arranged on the clamping moving unit (202) and can move horizontally along a direction perpendicular to the wire harness extending direction under the driving of the clamping moving unit (202).

9. The wire harness protective layer winding device according to claim 8, wherein the clamping portion (201) comprises a telescopic rod (2011), a clamp fixing box (2012) and a wire harness clamp (2013), the telescopic rod (2011) comprises a first rod body and a second rod body sleeved outside the first rod body, and the first rod body moves and is fixed along the extending direction of the second rod body; the clamp fixing box (2012) is arranged at the top of the first rod body, and the wire harness clamp (2013) is arranged on the clamp fixing box (2012) and used for fixing the wire harness.

10. The wire harness protective layer winding device according to claim 9, wherein the wire harness clip (2013) is detachably connected to the clip fixing box (2012).