CN114937908B - Automatic parcel device of electric pencil terminal - Google Patents

Abstract

The invention discloses an automatic wrapping device for an electric wire harness terminal, which comprises a processing bottom plate, a pipe conveying support, a heating support, a feeding support, a pipe supporting mechanism and the like; install pipe conveying support on the processing bottom plate, heating support and pay-off support, install the stay tube mechanism that is used for strutting the insulating cover on the pipe conveying support, install the feed mechanism who is used for the electric wire harness material loading on the pay-off support, install the heating mechanism who is used for heating the insulating cover on the heating support, under stay tube mechanism and feed mechanism cooperation, with the upside of insulating cover with moving the pencil when strutting the insulating cover, then feed mechanism drives the pencil and penetrates downwards in the insulating cover, the manual step that penetrates the pencil of artifical manual work has been saved, and the efficiency that penetrates is higher, send into heating mechanism through feed mechanism again and heat, avoid the workman can lead to the skin damage because of long-time closely contact high temperature, the potential safety hazard has been reduced.

Description

Automatic parcel device of electric pencil terminal

Technical Field

The invention relates to an automatic wrapping device for an electric wire harness terminal.

Background

In order to increase the durability and insulation performance of the annular terminal wire, an insulation sleeve with thermal shrinkage performance is usually wrapped at the connection position of the terminal and the wire core, and the insulation sleeve can keep the contact pieces in correct position arrangement and insulate the contact pieces from each other and the contact shell.

Among the prior art, some small-size processing factories are when processing the pencil, need earlier with the equidistant cutting of insulating leather sheath reserve, after the terminal pressfitting on the pencil, the manual work overlaps insulating leather sheath on the pencil earlier, then the manual work drags insulating leather sheath to the terminal, make insulating leather sheath overlap simultaneously in the joint department of terminal and pencil, cup joint the handheld pencil of completion back workman, be close to the pencil to the position of heater, heat insulating leather sheath, make the leather sheath receive the thermal contraction after fully tighten up on terminal and pencil, improve the waterproof dustproof and insulating properties of pencil, and prevent that the wire is not hard up to cause the circuit to break down.

The insulating leather sheath of manual installation efficiency is lower, wastes time and energy, and the handheld pencil of workman uses the heater to heat the distance to insulating sheath nearer, and long-time work causes the damage of skin easily to the potential safety hazard of scald has.

Disclosure of Invention

In order to overcome the defects in the prior art, the technical problems of the invention are as follows: an automatic wrapping device for an electrical harness terminal is provided.

The technical scheme is as follows: the utility model provides an automatic parcel device of electric pencil terminal, is including processing bottom plate, send a tub support, heating support, pay-off support, prop tub mechanism, feed mechanism and heating mechanism, installs on the processing bottom plate and send tub support, heating support and pay-off support, send to install on the tub support to be used for the tub mechanism that props open insulating cover, install on the pay-off support to be used for the feed mechanism to electric pencil material loading, install on the heating support to be used for the heating mechanism to insulating cover heating.

Further, prop a tub mechanism including propping a tub electric turntable, first electronic slide rail, slide rail joint block, removing dish, vaulting pole and prop a tub extension spring, send to install on the tub support and prop a tub electric turntable, prop and install first electronic slide rail on the tub electric turntable, first electronic slide rail is connected with through the slide rail joint block and removes the dish, and sliding connection has the vaulting pole on removing the dish, and removes the dish and prop and be connected with between the pipe pole and prop a tub extension spring.

Further, the feeding mechanism comprises a feeding electric rotary table, a third electric sliding rail, an upper supporting rod, an electric clamping jaw, a connecting rod, a clamping jaw guide rod and an electric supporting rod, the feeding electric rotary table is installed on the feeding support, the third electric sliding rail is installed on the feeding electric rotary table, the electric clamping jaw is installed on the third electric sliding rail through the upper supporting rod, the clamping jaw guide rod is installed on the upper supporting rod through the connecting rod, and the electric supporting rod is installed on the clamping jaw guide rod.

Further, the heating mechanism comprises a second electric sliding rail and a heating ring, the second electric sliding rail is mounted on the heating support, and the heating ring is mounted on the electric sliding rail.

Further, still including sending a tub bottom plate, send a tub motor, first gear, the second gear, go up pivot and infraduction axle, send tub and install a tub motor through sending a tub bottom plate on the support, install the second gear on sending a tub motor, send tub last rotation of bottom plate to be connected with the first gear of second gear meshing, equal rigid coupling has last pivot on first gear and the second gear, send tub bottom plate, go up all through the pulley group connection between pivot and the infraduction axle, send and install the cutting subassembly that is used for carrying out the cutting to insulating cover on the support, be connected with on the cutting subassembly and be used for the spacing subassembly of insulating cover.

Further, the cutting machine assembly comprises a cutting box, a cutting electric sliding rail, a cutting sliding block, a cutting electric push rod and a cutting knife, the cutting box is fixedly connected to the pipe conveying support, the cutting box is fixedly connected with the cutting electric sliding rail, the cutting electric sliding rail is provided with the cutting electric push rod through the cutting sliding block, and the cutting electric push rod is provided with the cutting knife in sliding connection with the cutting sliding block.

Further, the limiting assembly comprises a limiting support, a limiting plate and a limiting tension spring, the cutting box is rotatably connected with the limiting plate through the limiting support, and the limiting tension spring is connected between the limiting plate and the limiting support.

The processing bottom plate is provided with the feeding belt wheel through the supporting rod, the feeding belt is wound on the feeding belt wheel, the feeding belts are arranged on the feeding belt, the feeding hooks are arranged on the feeding belt, and the feeding motor connected with the supporting rod is arranged on the processing bottom plate.

Has the advantages that: under the matching of the pipe supporting mechanism and the feeding mechanism, the wiring harness is moved to the upper side of the insulating sleeve while the insulating sleeve is supported, then the feeding mechanism drives the wiring harness to penetrate downwards from the inside of the insulating sleeve, the step of manually penetrating the wiring harness is omitted, the penetrating efficiency is higher, and then the wiring harness with the insulating sleeve is sent to the heating mechanism for heating through the feeding mechanism, so that the skin damage caused by long-time close-distance contact high temperature of workers is avoided, and the potential safety hazard is reduced;

the stay tube rod in the stay tube mechanism is convenient for workers to place the insulating sleeve in a closed state, so that the condition that time and labor are wasted when the insulating sleeve is manually installed is avoided, and then the insulating sleeve is automatically propped open in the moving process under the driving of the first electric slide rail and the stay tube tension spring, so that a wire harness can be conveniently inserted into the insulating sleeve;

the feeding mechanism synchronously realizes the processes of feeding and discharging the wire harness, penetrating the wire harness into the insulating sleeve, sending the wire harness into the heating mechanism for heating and the like under the action of the four groups of electric clamping jaws and the first electric slider, so that the production efficiency is improved;

the pipe conveying mechanism automatically feeds the insulating sleeves under the action of the upper rotating shaft and the lower rotating shaft, then cuts the insulating sleeves at equal intervals under the action of the cutting assembly, does not need to manually feed the insulating sleeves, and enables the lengths of the insulating sleeves to be more standard and uniform;

in order to prevent the situation that the normal operation of the equipment is influenced due to the fact that the equipment runs idle when the equipment starts to work or the insulating sleeve stretches out too long, when the insulating sleeve is fed for the first time through the pipe feeding mechanism, the insulating sleeve is blocked through the limiting plate, and the pipe feeding mechanism stops running when the lower end of the insulating sleeve contacts the limiting plate for the first time;

the feeding mechanism is matched with the feeding mechanism, feeding and discharging processing is convenient to be carried out on the processed wire harness, workers only need to take down or put on the wire harness on the feeding hook, and labor intensity of the workers is reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the position of the tube feeding mechanism of the present invention.

Fig. 3 is a structural schematic view of the pipe supporting mechanism of the present invention.

FIG. 4 is a schematic diagram of a movable plate according to the present invention.

Fig. 5 is a schematic view of the upper support rod structure of the present invention.

Fig. 6 is a schematic view of the position of the electric supporting rod of the present invention.

FIG. 7 is a schematic view of the heating ring position of the present invention.

Fig. 8 is a schematic view of the connection relationship of the upper shaft of the present invention.

Fig. 9 is a schematic view of the position of the cutting electric slide rail according to the present invention.

Fig. 10 is a schematic view of the position of the cutting knife of the present invention.

Fig. 11 is a schematic structural view of the feeding mechanism of the present invention.

The parts are numbered as follows: 1-machining bottom plate, 101-feeding pipe support, 102-heating support, 103-feeding support, 2-feeding pipe bottom plate, 201-feeding pipe motor, 202-first gear, 203-second gear, 204-upper rotating shaft, 205-lower rotating shaft, 3-cutting box, 301-cutting electric slide rail, 302-cutting slide block, 303-cutting electric push rod, 304-cutting knife, 4-limiting support, 401-limiting plate, 402-limiting tension spring, 5-supporting pipe electric rotary disc, 501-first electric slide rail, 502-slide rail joint block, 503-moving disc, 504-supporting pipe rod, 505-supporting pipe tension spring, 6-second electric slide rail, 601-heating ring, 7-feeding electric rotary disc, 701-third electric slide rail, 702-upper support rod, 703-electric clamping jaw, 704-connecting rod, 705-clamping jaw guide rod, 706-electric support rod, 8-support rod, 801-feeding belt wheel, 802-feeding belt 803-feeding hook, 804-feeding motor.

Detailed Description

Reference herein to an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Example 1

The utility model provides an automatic parcel device of electric wire harness terminal, as shown in figure 1, including processing bottom plate 1, send pipe support 101, heating support 102, pay-off support 103, prop a tub mechanism, feed mechanism and heating mechanism, install on the processing bottom plate 1 and send pipe support 101, heating support 102 and pay-off support 103, send pipe support 101 to install and be used for the stay tub mechanism that struts insulating cover, install the feed mechanism who is used for electric wire harness material loading on the pay-off support 103, install the heating mechanism who is used for heating insulating cover on the heating support 102.

When an insulation sleeve needs to be sleeved on an electric wire harness, the insulation sleeve needing to be installed is manually placed on a pipe supporting mechanism, the electric wire harness is placed on a feeding mechanism, the pipe supporting mechanism is controlled to prop open the insulation sleeve, the insulation sleeve is conveyed towards the direction of the feeding mechanism, the feeding mechanism drives the electric wire harness to rotate towards the direction of the pipe supporting mechanism, when the pipe supporting mechanism stops moving, the insulation sleeve is completely propped, at the moment, the feeding mechanism drives the electric wire harness to move right above the insulation sleeve, then the feeding mechanism downwards drives the electric wire harness to penetrate through the insulation sleeve, when the insulation sleeve can be sleeved at the connection position of a terminal and the wire harness, the feeding mechanism is controlled to drive the insulation sleeve and the wire harness to move upwards for resetting, after the resetting is completed, the feeding mechanism is controlled to rotate towards the position of the heating mechanism, the insulation sleeve is heated to shrink and be sleeved on the wire harness, and therefore the processing of the wire harness is completed; under prop tub mechanism and feed mechanism cooperation, move the upside of insulating cover with the pencil when insulating cover struts, then feed mechanism drives the pencil and penetrates in the insulating cover downwards, has saved the manual step that penetrates the pencil of artifical to the efficiency that penetrates is higher, sends into heating mechanism through feed mechanism with the pencil that has insulating cover again and heats, avoids the workman can lead to skin damage because of long-time closely contact high temperature, has reduced the potential safety hazard.

As shown in fig. 2-4, the pipe supporting mechanism includes a pipe supporting electric rotary table 5, a first electric slide rail 501, a slide rail joint block 502, a moving plate 503, pipe supporting rods 504 and a pipe supporting tension spring 505, the pipe supporting electric rotary table 5 is installed on the pipe conveying support 101, the pipe supporting electric rotary table 5 is an existing rotary table capable of automatically rotating, two sets of first electric slide rails 501 are symmetrically installed on the pipe supporting electric rotary table 5, the slide rail joint block 502 is installed on the first electric slide rail 501, the moving plate 503 is fixedly connected to two adjacent slide rail joint blocks 502 together, four pipe supporting rods 504 are symmetrically slidably connected to the moving plate 503, and the pipe supporting tension spring 505 is connected between the pipe supporting rods 504 and the moving plate 503.

Manually putting the insulating sleeve on a group of supporting tube rods 504 positioned on the front side, then controlling the supporting tube electric rotating disc 5 to rotate 180 degrees, controlling the first electric sliding rail 501 positioned on the front side to drive the sliding rail connecting block 502 to slide towards the direction far away from the tube feeding support 101 in the rotating process, thereby driving the moving disc 503 and the supporting tube rods 504 to move, and in the moving process, as the space between the first electric sliding rails 501 is enlarged, the first electric sliding rails 501 do not extrude the supporting tube rods 504 any more, the supporting tube tension spring 505 can drive the supporting tube rods 504 on the two sides to slide towards the mutually remote direction, thereby expanding the insulating sleeve through the four supporting tube rods 504, when the sliding rail joint block 502 moves to one end of the first electric sliding rail 501, which is far away from the pipe conveying support 101, the insulating sleeve is completely unfolded, in the rotating process of the pipe supporting electric rotary table 5, the first electric sliding rail 501 at the rear side is controlled to drive the connected sliding rail joint block 502 to move towards the direction close to the pipe conveying support 101, in the moving process, as the space between the first electric sliding rails 501 is reduced, the first electric sliding rail 501 can extrude the pipe supporting rods 504 at two sides towards the direction close to each other, so that a new insulating sleeve is sleeved on the pipe supporting rods 504, a through hole is formed in the pipe supporting electric rotary table 5, and when a wiring harness is threaded on the insulating sleeve, the wiring harness can pass through the through hole; the pipe supporting rod 504 in the pipe supporting mechanism is convenient for workers to place the insulating sleeve in a closed state, the condition that manual installation of the insulating sleeve is time-consuming and labor-consuming is avoided, then under the driving of the first electric sliding rail 501 and the pipe supporting tension spring 505, the insulating sleeve is automatically propped open in the moving process, a wiring harness is conveniently penetrated into the insulating sleeve, and the production efficiency is accelerated.

As shown in fig. 5 and 6, the feeding mechanism includes a feeding electric rotary table 7, a third electric slide rail 701, an upper support rod 702, an electric clamping jaw 703, a joining rod 704, a clamping jaw guide rod 705 and an electric support rod 706, the feeding support 103 is provided with the feeding electric rotary table 7, four third electric slide rails 701 are mounted on the feeding electric rotary table 7 in an annular array, the third electric slide rail 701 is provided with the upper support rod 702, the upper support rod 702 is provided with the electric clamping jaw 703, the upper support rod 702 is fixedly connected with the joining rod 704, the joining rod 704 is provided with the clamping jaw guide rod 705, the clamping jaw guide rod 705 is provided with the electric support rod 706, and the electric support rod 706 can automatically extend out of the clamping jaw guide rod 705.

Before processing, manually placing a wire harness needing to be provided with an insulation sleeve on an electric clamping jaw 703, controlling the electric clamping jaw 703 to clamp the wire harness, then, rotating a feeding electric turntable 7 anticlockwise by 90 degrees, rotating the electric clamping jaw 703 clamping the wire harness to face a pipe supporting mechanism, then, opening the insulation sleeve just by the pipe supporting mechanism, positioning the lower end of the wire harness at the upper side of the insulation sleeve, then, controlling a third electric sliding rail 701 to drive a connected upper rod 702 to move downwards so as to drive the wire harness to downwards pass through the insulation sleeve through the electric clamping jaw 703, stopping the third electric sliding rail 701 when the insulation sleeve moves to a joint of a terminal and the wire harness, then, controlling an electric supporting rod 706 to extend out of a clamping jaw guide rod 705 so as to move the electric supporting rod 706 to the lower side of the insulation sleeve to support the wire harness, then, controlling the third electric sliding rail 701 to move upwards so as to drive the feeding electric turntable 7 to rotate upwards, after moving reset, controlling the feeding electric turntable 7 to rotate anticlockwise by 90 degrees so as to move the wire harness and the insulation sleeve to heat the position of a heating mechanism, controlling the electric supporting rod 706 to withdraw the wire harness, when the heating is completed, rotating the upper material turntable 7 rotates again, and the electric clamping jaw 703 rotates so as to take off the insulation sleeve, and the other electric clamping jaw can rotate, and the electric clamping jaw 703 can rotate just take off the insulating sleeve, so as to take the insulating sleeve, and the wire harness can rotate when the electric clamping jaw 703 rotates, and the electric clamping jaw 7 rotates; the feed mechanism realizes the processes of feeding and discharging the wire harness, penetrating the wire harness into the insulating sleeve, sending the wire harness into the heating mechanism for heating and the like synchronously under the action of the four groups of electric clamping jaws 703 and the first electric slide, so that the production efficiency is improved.

As shown in fig. 7, the heating mechanism includes a second electric slide rail 6 and a heating ring 601, the second electric slide rail 6 is mounted on the heating support 102, and the heating ring 601 is mounted on the electric slide rail.

After the feed mechanism drives the insulating sleeve and the wire harness to move to the left side of the heating ring 601, the heating ring 601 is started to heat the insulating sleeve, and the second electric sliding rail 6 can be started to drive the heating ring 601 to move up and down so as to ensure that the insulating sleeve is heated uniformly.

Example 2

On the basis of embodiment 1, as shown in fig. 2 and 8, the pipe conveying support 101 further includes a pipe conveying plate 2, a pipe conveying motor 201, a first gear 202, a second gear 203, an upper rotating shaft 204 and a lower rotating shaft 205, the pipe conveying support 101 is fixedly connected with the pipe conveying plate 2, the pipe conveying plate 2 is provided with a through hole for conveying an insulating sleeve, the pipe conveying plate 2 is provided with the pipe conveying motor 201, an output shaft of the pipe conveying motor 201 is provided with the second gear 203, the pipe conveying plate 2 is rotatably connected with the first gear 202, the second gear 203 is meshed with the first gear 202, the first gear 202 and the second gear 203 are respectively fixedly connected with the upper rotating shaft 204, the lower sides of the pipe conveying plate 2 are symmetrically and rotatably connected with the two lower rotating shafts 205, a distance between the two lower rotating shafts 205 is smaller than a diameter of the insulating sleeve, the upper rotating shaft 204 and the lower rotating shafts 205 on the same side are both connected through a belt pulley set, the support conveying pipe 101 is provided with a cutting assembly for cutting the insulating sleeve, and the cutting assembly is connected with a limiting assembly for limiting the insulating sleeve.

Before working, an insulating sleeve manually penetrates through the two upper rotating shafts 204 and the two lower rotating shafts 205, then the pipe conveying motor 201 is started to drive the upper rotating shafts 204 and the lower rotating shafts 205 to rotate, the insulating sleeve is clamped and conveyed downwards in the rotating process, when the lower end of the insulating sleeve is conveyed to be in contact with the limiting assembly, the pipe conveying motor 201 is stopped, then the cutting assembly is started to cut the pipe conveying motor 201, when the insulating sleeve needs to be sleeved on the pipe supporting rod 504 downwards, the pipe conveying motor 201 is controlled to rotate again, the cut insulating sleeve is pushed downwards through the upper insulating sleeve, and when the insulating sleeve moves to be out of contact with the limiting assembly, the insulating sleeve drops downwards onto the pipe supporting rod 504 of the pipe supporting mechanism, so that feeding is completed; pipe conveying mechanism is under the effect of last pivot 204 and lower pivot 205, and automatic carries out the material loading to insulating cover, then carries out the equidistance cutting to insulating cover under the effect of cutting assembly, need not again by artifical manual material loading to insulating cover to make insulating cover's length more standard unified.

As shown in fig. 2, fig. 9 and fig. 10, the cutting machine assembly includes a cutting box 3, a cutting electric slide rail 301, a cutting slider 302, a cutting electric push rod 303 and a cutting knife 304, the pipe feeding support 101 is fixedly connected with the cutting box 3, the cutting box 3 is provided with a through hole in a penetrating manner, the position of the through hole corresponds to the position of the through hole on the pipe feeding bottom plate 2, the cutting box 3 is fixedly connected with the cutting electric slide rail 301, the cutting slider 302 is installed on the cutting electric slide rail 301, the cutting electric push rod 303 is installed on the cutting slider 302, the cutting knife 304 is installed on the telescopic shaft of the cutting electric push rod 303, and the cutting knife 304 is slidably connected with the cutting slider 302.

When the insulating sleeve needs to be cut, the cutting electric push rod 303 is controlled to stretch out to drive the cutting knife 304 to move towards the direction close to the insulating sleeve, and then the cutting electric slide rail 301 is controlled to drive the cutting slide block 302 to slide, so that the cutting knife 304 is driven to rotate for a circle to complete the cutting of the insulating sleeve.

As shown in fig. 9, the limiting assembly comprises a limiting support 4, a limiting plate 401 and a limiting tension spring 402, the cutting box 3 is symmetrically and fixedly connected with the two limiting supports 4, the limiting support 4 is rotatably connected with the limiting plate 401, and the limiting tension spring 402 is connected between the limiting plate 401 and the limiting support 4.

When the pipe conveying mechanism is fed, the insulating sleeve is manually penetrated through the two upper rotating shafts 204 and the lower rotating shaft 205, then the pipe conveying motor 201 is started to convey the insulating sleeve downwards, and the distance for manually conveying the insulating sleeve downwards is possibly difficult to determine, so that the idle running condition of a subsequent cutting mechanism, a pipe supporting mechanism and the like can be caused, the condition that the insulating sleeve is not arranged on a wire harness can be caused, or the normal running of the device is influenced due to the fact that the insulating sleeve is excessively extended out, and the condition needs to be prevented; after the insulating sleeve is manually fed between the two upper rotating shafts 204 and the lower rotating shaft 205, the pipe conveying motor 201 conveys the insulating sleeve downwards, and the pipe conveying motor 201 is stopped when the insulating sleeve contacts the limiting plate 401, so that the condition of idle running or overlong extension of the insulating sleeve is prevented; when the cutting assembly finishes cutting the insulating sleeve and the pipe conveying mechanism continues to convey the insulating sleeve downwards, the insulating sleeve above can push the cut insulating sleeve to move downwards, the cut insulating sleeve can prop open the two limiting plates 401, the limiting tension spring 402 can be stretched when the insulating sleeve is propped open, the insulating sleeve can fall downwards onto the pipe supporting rod 504 when being separated from the limiting plates 401, the limiting tension spring 402 can drive the limiting plates 401 to reset and rotate at the moment, then the limiting plates 401 are blocked by the insulating sleeve above, and the limiting plates 401 can be propped open again when the insulating sleeve is pushed next time; in order to prevent that the equipment from just beginning to work and empty running or because the insulating cover stretches out the overlength and lead to influencing the condition of equipment normal operating, when carrying out the material loading through pipe conveying mechanism to insulating cover for the first time, block insulating cover through limiting plate 401, stop pipe conveying mechanism's operation when making the lower extreme of insulating cover contact limiting plate 401 for the first time.

As shown in fig. 1 and fig. 11, the electric wire harness processing device further includes a feeding mechanism for feeding and discharging electric wire harnesses, the feeding mechanism includes support rods 8, feeding belt wheels 801, a feeding belt 802, feeding hooks 803 and a feeding motor 804, four support rods 8 are installed on the processing bottom plate 1, the feeding belt wheels 801 are installed on the support rods 8, the feeding belt 802 is wound on every two feeding belt wheels 801, a plurality of feeding hooks 803 are installed on the feeding belt 802 in an annular array, two feeding motors 804 are installed on the processing bottom plate 1 through support rods, and the feeding motors 804 are connected with the adjacent support rods 8.

After the wire harness driving the insulating sleeve is heated by the heating mechanism, the feeding electric turntable 7 continues to rotate towards the direction of the rear feeding belt 802, in the rotating process, an upper ring of the wire harness clamped on the electric clamping jaw 703 penetrates into the feeding hook 803, when the feeding electric turntable 7 stops, the electric clamping jaw 703 is loosened, so that the wire harness with the insulating sleeve is hung on the feeding hook 803, then the rear feeding belt 802 is controlled to rotate anticlockwise, the wire harness on the feeding hook 803 needs to be taken down manually so as to facilitate blanking of the electric clamping jaw 703, after the feeding electric turntable 7 rotates 90 degrees again, the electric clamping jaw 703 directly faces the feeding hook 803 on the left feeding belt 802, then the electric clamping jaw is controlled to clamp the wire harness, so as to sleeve the insulating sleeve on the wire harness after rotating again, then the left feeding belt 802 is controlled to rotate manually so as to separate the feeding hook 803 from the wire harness, and the wire harness needing to be installed on the left feeding belt 802 manually so as to facilitate clamping of the electric clamping jaw 703; the feeding mechanism is matched with the feeding mechanism, feeding and discharging processing is convenient for the processed wire harness, workers only need to take down or put down the wire harness on the feeding hook 803, and labor intensity of the workers is reduced.

The embodiments described above are provided to enable persons skilled in the art to make or use the invention and modifications or variations can be made to the embodiments described above by persons skilled in the art without departing from the inventive concept of the present invention, so that the protective scope of the invention is not limited by the embodiments described above but should be accorded the widest scope consistent with the innovative features set forth in the claims.

Claims (7)

1. The utility model provides an automatic wrapping device of electric wire harness terminal, including processing bottom plate (1), send pipe support (101), heating support (102) and pay-off support (103), characterized by, still include and prop a tub mechanism, feed mechanism, heating mechanism, send pipe bottom plate (2), send pipe motor (201), first gear (202), second gear (203), go up pivot (204) and lower pivot (205), install send pipe support (101) on processing bottom plate (1), heating support (102) and pay-off support (103), install on sending pipe support (101) and be used for the stay pipe mechanism that struts the insulating sheath, install the feed mechanism that is used for electric wire harness material loading on pay-off support (103), install the heating mechanism that is used for carrying out the heating to the insulating sheath on heating support (102), install send pipe motor (201) on sending pipe support (101) through sending pipe bottom plate (2), install second gear (203) on sending pipe motor (201), send pipe bottom plate (2) to rotate and be connected with first gear (202) meshing with second gear (203), all last pivot (204) and lower pivot (205) are connected with the pivot (205), install on sending a tub support (101) and be used for carrying out the cutting subassembly of cutting to the insulating cover, be connected with on the cutting subassembly and be used for the spacing subassembly of insulating cover.

2. The automatic wrapping device of the electric wiring harness terminal according to claim 1, wherein the tube supporting mechanism comprises a tube supporting electric rotating disc (5), a first electric sliding rail (501), a sliding rail joint block (502), a moving disc (503), a tube supporting rod (504) and a tube supporting tension spring (505), the tube supporting electric rotating disc (5) is installed on the tube conveying support (101), the first electric sliding rail (501) is installed on the tube supporting electric rotating disc (5), the moving disc (503) is connected to the first electric sliding rail (501) through the sliding rail joint block (502), the tube supporting rod (504) is connected to the moving disc (503) in a sliding manner, and the tube supporting tension spring (505) is connected between the moving disc (503) and the tube supporting rod (504).

3. The automatic wrapping device of an electric wire harness terminal according to claim 1, wherein the feeding mechanism comprises a feeding electric rotary table (7), a third electric sliding rail (701), an upper supporting rod (702), an electric clamping jaw (703), a connecting rod (704), a clamping jaw guide rod (705) and an electric supporting rod (706), the feeding electric rotary table (7) is mounted on the feeding support (103), the third electric sliding rail (701) is mounted on the feeding electric rotary table (7), the electric clamping jaw (703) is mounted on the third electric sliding rail (701) through the upper supporting rod (702), the clamping jaw guide rod (705) is mounted on the upper supporting rod (702) through the connecting rod (704), and the electric supporting rod (706) is mounted on the clamping jaw guide rod (705).

4. The automatic wrapping device for the electric wire harness terminal as claimed in claim 1, wherein the heating mechanism comprises a second electric slide rail (6) and a heating ring (601), the second electric slide rail (6) is mounted on the heating support (102), and the heating ring (601) is mounted on the electric slide rail.

5. The automatic wrapping device of the electric wire harness terminal according to claim 1, wherein the cutting machine assembly comprises a cutting box (3), a cutting electric slide rail (301), a cutting slide block (302), a cutting electric push rod (303) and a cutting knife (304), the cutting box (3) is fixedly connected to the pipe feeding support (101), the cutting electric slide rail (301) is fixedly connected to the cutting box (3), the cutting electric push rod (303) is installed on the cutting electric slide rail (301) through the cutting slide block (302), and the cutting knife (304) which is slidably connected with the cutting slide block (302) is installed on the cutting electric push rod (303).

6. The automatic wrapping device of the electric wire harness terminal as claimed in claim 5, wherein the limiting assembly comprises a limiting support (4), a limiting plate (401) and a limiting tension spring (402), the limiting plate (401) is rotatably connected to the cutting box (3) through the limiting support (4), and the limiting tension spring (402) is connected between the limiting plate (401) and the limiting support (4).

7. The automatic wrapping device of the electric wire harness terminal as claimed in claim 1, further comprising a feeding mechanism for feeding and discharging the electric wire harness, wherein the feeding mechanism comprises a support rod (8), a feeding belt wheel (801), a feeding belt (802), feeding hooks (803) and a feeding motor (804), the feeding belt wheel (801) is installed on the processing bottom plate (1) through the support rod (8), the feeding belt (802) is wound on the feeding belt wheel (801), the feeding belt (802) is provided with a plurality of feeding hooks (803), and the feeding motor (804) connected with the support rod (8) is installed on the processing bottom plate (1).

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