CN112919263A

CN112919263A - Full-automatic industry silence wiring machine

Info

Publication number: CN112919263A
Application number: CN201911272180.8A
Authority: CN
Inventors: 金建平
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-06
Filing date: 2019-12-06
Publication date: 2021-06-08
Anticipated expiration: 2039-12-06
Also published as: CN112919263B

Abstract

The invention discloses a full-automatic industrial silence wiring machine, which comprises a rack, and a wire take-up mechanism, a wire arranging mechanism and a wire feeding mechanism which are fixed on the rack, wherein the wire arranging mechanism is positioned between the wire take-up mechanism and the wire feeding mechanism; the admission machine constructs including receiving the line fixed plate, the line axis of rotation of winding, the wire winding ring, the gear circle, receive the line fixed plate and be fixed in the frame, the gear circle is fixed in on the fixed plate through bearing C, the gear circle is the equal open-ended cylindrical structure in both ends, through-hole A has been seted up on the both sides wall that the gear circle is relative respectively, wire winding axis of rotation one end is passed through-hole A in proper order, is visited outside the gear circle behind the through-hole B, the wire winding ring is located in the gear circle, and the cover. The full-automatic industrial silent wiring machine integrates wiring and wire-defense functions, can be used for indoor, outdoor and indoor construction wiring, and can keep the stability of the coil in use by matching the wire-take-up driving mechanism and the wire-take-up clutch mechanism to drive the wire-take-up mechanism to work.

Description

Full-automatic industry silence wiring machine

Technical Field

The invention relates to the technical field of industrial wiring machines, in particular to a full-automatic industrial silent wiring machine.

Background

Along with the rapid development and rise of the manufacturing industry in China, the intelligent manufacturing automatic production technology has great market demand, and personalized and customized manufacturing gradually starts to become a new normal state of the future manufacturing industry. In the traditional industrial wiring, due to the reasons of large quantity and variety of wires, complex wiring design and the like, the wire layout and the like are finished manually, and the working efficiency is low.

Disclosure of Invention

The invention aims to overcome the defects and provides a full-automatic industrial silent wiring machine, which integrates wiring and wire-preventing functions, can be used for indoor, outdoor and indoor construction wiring, can keep the stability of coil use by matching a wire-winding driving mechanism and a wire-winding clutch mechanism to drive a wire-winding mechanism to work, and has high wiring and wire-winding working efficiency.

In order to achieve the purpose, the invention provides the following technical scheme that the full-automatic industrial silence wiring machine comprises a rack, and a wire take-up mechanism, a wire arranging mechanism and a wire feeding mechanism which are fixed on the rack, wherein the wire arranging mechanism is positioned between the wire take-up mechanism and the wire feeding mechanism;

the take-up mechanism comprises a take-up fixing plate, a winding rotating shaft, a winding ring and a gear ring, wherein the take-up fixing plate is fixed on the rack, the gear ring is fixed on the take-up fixing plate through a bearing C, the gear ring is of a cylindrical structure with openings at two ends, through holes A and through holes B are respectively formed in two opposite side walls of the gear ring, one end of the winding rotating shaft sequentially penetrates through the through holes A and the through holes B and then extends out of the gear ring, and the winding ring is arranged in the gear ring and sleeved on the winding rotating shaft;

the central axis of the winding ring, the central axis of the through hole A, the central axis of the through hole B and the central axis of the winding rotating shaft are mutually superposed, and the central axis of the winding ring, the central axis of the through hole A, the central axis of the through hole B and the central axis of the winding rotating shaft are mutually vertical to the central axis of the gear ring;

a bearing A for fixing the winding rotating shaft is arranged in the through hole A, a bearing B for fixing the winding rotating shaft is arranged in the through hole B, and a torsion limiter is arranged on the part of the winding rotating shaft, which is positioned in the gear ring; one end of the winding rotating shaft, which is positioned outside the gear ring and close to the through hole B, is connected with the winding driving mechanism through the winding clutch mechanism;

the wire feeding mechanism comprises a wire feeding fixing ring A and a wire feeding fixing ring B, the wire feeding fixing ring A is fixed on the rack through a wire feeding fixing seat, the wire feeding fixing ring A and the wire feeding fixing ring B are both of cylindrical structures with openings at two ends, the wire feeding fixing ring B is fixed in the wire feeding fixing ring A, and the central axis of the wire feeding fixing ring A, the central axis of the wire feeding fixing ring B and the central axis of the gear ring are overlapped; a fixed shaft A and a fixed shaft B are fixedly arranged in the wire feeding fixing ring B, the fixed shaft A is positioned right above the fixed shaft B, the central axis of the fixed shaft A is parallel to the central axis of the fixed shaft B, the central axis of the fixed shaft A and the central axis of the fixed shaft B are both perpendicular to the central axis of the wire feeding fixing ring B, a gear A is rotatably sleeved on the fixed shaft A, a gear B is rotatably sleeved on the fixed shaft B, the gear A is meshed with the gear B, a wire feeding speed reduction motor is further arranged in the wire arrangement fixing ring B, and the wire feeding speed reduction motor is in transmission connection with the gear B; the outer side wall of the gear A is provided with a plurality of wire feeding grooves A which are distributed along the circumferential direction of the gear A, and the outer side wall of the gear B is provided with a plurality of wire feeding grooves B which are distributed along the circumferential direction of the gear B; the plurality of circumferentially distributed wire feeding grooves A and the plurality of circumferentially distributed wire feeding grooves B are positioned on the same vertical plane;

the wire feeding mechanism further comprises a wire feeding disc, the wire feeding disc is arranged on one side, away from the take-up mechanism, of the fixed shaft A, and the wire feeding disc is fixed in the wire feeding fixed ring A through a bearing D;

a wire feeding ring is mounted at the central position of the side wall of the wire feeding disc on the side departing from the wire feeding fixing ring B, a wire feeding hole communicated with the wire feeding ring is further formed in the wire feeding disc, and the central axis of the wire feeding hole, the central axis of the wire feeding ring, the central axis of the wire feeding disc and the central axis of the wire feeding fixing ring B are superposed with each other; the wire feeding ring is sleeved with a conducting ring, and the wire feeding ring is also sleeved with a gear C positioned between the wire feeding disc and the conducting ring;

the wire arranging mechanism comprises a wire arranging fixing seat, a wire arranging lead screw, a wire arranging nut and a wire arranging motor; the wire arranging fixing seat is fixed on the rack, two fixing plates A are symmetrically arranged on the wire arranging fixing seat, two ends of a wire arranging lead screw are respectively connected with the two fixing plates A in a rotating mode, a wire arranging motor is fixed on one of the fixing plates A, the wire arranging motor is connected with the wire arranging lead screw in a transmission mode, a wire arranging nut is installed on the wire arranging lead screw, a wire arranging rod is installed on the wire arranging nut, and a wire arranging ring is arranged on the wire arranging rod.

Furthermore, the take-up driving mechanism comprises a take-up driving motor, a fixing plate B, a gear D, a gear E and a gear F, the take-up driving motor is fixed on the rack, the gear D is mounted on an output shaft of the take-up driving motor, the gear E and the gear F are both mounted on the same side of the fixing plate B through a bearing E, the gear E is located right above the gear F, and the gear D, the gear E and the gear F are meshed in sequence;

the take-up clutch mechanism comprises a take-up clutch fixing seat, a take-up clutch motor, a take-up clutch lead screw, a take-up clutch nut and a take-up transmission shaft, wherein the take-up clutch fixing seat is fixed on the rack, two fixing plates C are symmetrically arranged on the take-up clutch fixing seat, two ends of the take-up clutch lead screw are respectively rotationally connected with the two fixing plates C, the take-up clutch motor is fixed on one of the fixing plates C, the take-up clutch motor is in transmission connection with the take-up clutch lead screw, the take-up clutch nut is mounted on the take-up clutch lead screw, a fixing plate D is arranged on the take-up clutch nut, a fixing plate E and a fixing plate F are vertically arranged on the fixing plate D, a through hole D is formed on the fixing plate F, the central axis of the through hole D and the central axis of the through, one end of the take-up transmission shaft is fixed in the through hole E through a bearing F, the other end of the take-up transmission shaft sequentially penetrates through the through hole E and the through hole D and then is connected with one end, which is positioned outside the gear ring and close to the through hole B, of the winding rotating shaft, and a bearing G for fixing the take-up transmission shaft is arranged in the through hole D; the take-up transmission shaft is provided with a gear G, the gear G is located between the fixing plate E and the fixing plate F, and the gear G is meshed with the gear F.

Furthermore, the winding rotation axis is located outside the gear circle and near the end face of the one end of the through hole B is provided with a groove, and the winding transmission shaft is near the end face of the one end of the through hole B and is provided with a bulge matched with the groove.

Furthermore, two grooves are formed in the groove, the two grooves are symmetrically formed along the central axis of the winding rotating shaft, the two protrusions are arranged in the protrusion, and the two protrusions are symmetrically arranged along the central axis of the winding transmission shaft.

Furthermore, the groove is an eight-diagram-shaped groove, and the bulge is an eight-diagram-shaped bulge.

Furthermore, a shaft retainer ring is sleeved on the part of the winding rotating shaft, which is positioned in the gear ring.

Furthermore, the rack is also provided with a support rod for supporting the conducting ring.

Compared with the prior art, the invention has the beneficial effects that:

1. the full-automatic industrial silent wiring machine integrates wiring and defense line functions, can be used for indoor, outdoor and cabin construction wiring, and can be widely applied to the fields of ships, railways, electric power, networks, solar energy, hydropower, property, large decoration and the like.

2. According to the full-automatic industrial mute wiring machine, the take-up driving mechanism and the take-up clutch mechanism are matched to drive the take-up mechanism to work, the stability of the wiring machine in use can be kept, and the wiring and take-up work efficiency is high.

Drawings

Fig. 1 is a fully automatic industrial silent wiring machine of the present invention.

Fig. 2 is a schematic view of an appearance structure of a take-up mechanism in the fully automatic industrial silent wiring machine according to the present invention.

FIG. 3 is a schematic view of an exploded structure of a wire winding mechanism of the fully automatic industrial silent wire distribution machine according to the present invention.

FIG. 4 is a schematic view of an external structure of a wire feeding mechanism of the fully automatic industrial silent wire distribution machine according to the present invention.

FIG. 5 is a schematic diagram of an exploded structure of a wire feeding mechanism of the fully automatic industrial silent wire distribution machine according to the present invention.

Fig. 6 is a schematic view of an appearance structure of a wire take-up driving mechanism in the full-automatic industrial silent wiring machine according to the present invention.

Fig. 7 is a schematic view of an exploded structure of a wire-rewinding driving mechanism in the fully-automatic industrial silent wiring machine according to the present invention.

Fig. 8 is a schematic view of an appearance structure of a wire take-up clutch mechanism in the full-automatic industrial silent wiring machine of the invention.

Fig. 9 is a schematic view of an exploded structure of a wire-receiving clutch mechanism in the fully automatic industrial silent wiring machine according to the present invention.

Fig. 10 is a schematic structural diagram of a wire arranging mechanism in the fully automatic industrial silent wire arranging machine according to the present invention.

The correspondence between each mark and the part name is as follows:

the wire winding machine comprises a rack 1, a wire winding mechanism 2, a wire winding fixing plate 201, a wire winding rotating shaft 202, a wire winding ring 203, a gear ring 204, a bearing A205, a torque limiter 206, a bearing C207, a bearing B208, a wire winding mechanism 3, a wire winding fixing seat 301, a wire winding lead screw 302, a wire winding nut 303, a wire winding motor 304, a fixing plate A305, a wire winding rod 306, a wire winding ring 307, a wire feeding mechanism 4, a wire feeding fixing ring A401, a wire feeding fixing ring B402, a wire feeding fixing seat 403, a fixing shaft A404, a fixing shaft B405, a gear A406, a gear B407, a wire feeding speed reducing motor 408, a wire feeding groove A409, a wire feeding groove B410, a wire feeding disc 411, a bearing D412, a wire feeding ring 413, a conductive ring 414, a gear C415, a supporting rod 416, a wire winding clutch mechanism 5, a wire winding fixing seat 501, a wire winding clutch motor 502, a wire winding clutch lead screw 503, a wire winding clutch nut 504, a fixing plate C505, The take-up device comprises a gear G511, a take-up transmission shaft 512, a take-up driving mechanism 6, a take-up driving motor 601, a fixing plate B602, a gear D603, a gear E604 and a gear F605.

Detailed Description

In order to make the technical means, the characteristics, the purposes and the functions of the invention easy to understand, the invention is further described with reference to the specific drawings.

Examples

As shown in fig. 1, a fully automatic industrial silent wiring machine comprises a frame 1, and a take-up mechanism 2, a winding displacement mechanism 3 and a wire feeding mechanism 4 which are fixed on the frame 1, wherein the winding displacement mechanism 3 is positioned between the take-up mechanism 2 and the wire feeding mechanism 4;

as shown in fig. 2 and 3, the take-up mechanism 2 includes a take-up fixing plate 201, a winding rotating shaft 202, a winding ring 203, and a gear ring 204, the take-up fixing plate 201 is fixed on the frame 1, the gear ring 204 is fixed on the take-up fixing plate 201 through a bearing C207, the gear ring 204 is a cylindrical structure with both ends open, two opposite side walls of the gear ring 204 are respectively provided with a through hole a and a through hole B, one end of the winding rotating shaft 202 sequentially passes through the through hole a and the through hole B and then extends out of the gear ring 204, and the winding ring 203 is arranged in the gear ring 204 and sleeved on the winding rotating shaft 202;

the central axis of the winding ring 203, the central axis of the through hole A, the central axis of the through hole B and the central axis of the winding rotating shaft 202 are superposed with each other, and the central axis of the winding ring 203, the central axis of the through hole A, the central axis of the through hole B and the central axis of the winding rotating shaft 202 are all perpendicular to the central axis of the gear ring 204;

a bearing A205 for fixing the winding rotating shaft 202 is arranged in the through hole A, a bearing B208 for fixing the winding rotating shaft 202 is arranged in the through hole B, and a torsion limiter 206 is arranged on the part of the winding rotating shaft 202, which is positioned in the gear ring 204; one end of the winding rotating shaft 202, which is positioned outside the gear ring 204 and close to the through hole B, is connected with the winding driving mechanism 6 through the winding clutch mechanism 5;

as shown in fig. 4 and 5, the thread feeding mechanism 4 includes a thread feeding fixing ring a401 and a thread feeding fixing ring B402, the thread feeding fixing ring a401 is fixed on the frame 1 through a thread feeding fixing seat 403, both the thread feeding fixing ring a401 and the thread feeding fixing ring B402 are cylindrical structures with both ends open, the thread feeding fixing ring B402 is fixed in the thread feeding fixing ring a401, and the central axis of the thread feeding fixing ring a401, the central axis of the thread feeding fixing ring B402 and the central axis of the gear ring 204 are overlapped; a fixed shaft A404 and a fixed shaft B405 are fixedly arranged in the wire feeding fixing ring B402, the fixed shaft A404 is positioned right above the fixed shaft B405, the central axis of the fixed shaft A404 is parallel to the central axis of the fixed shaft B405, the central axis of the fixed shaft A404 and the central axis of the fixed shaft B405 are perpendicular to the central axis of the wire feeding fixing ring B402, a gear A406 is rotatably sleeved on the fixed shaft A404, a gear B407 is rotatably sleeved on the fixed shaft B405, the gear A406 is meshed with the gear B407, a wire feeding speed reduction motor 408 is further arranged in the wire arrangement fixing ring B, and the wire feeding speed reduction motor 408 is in transmission connection with the gear; the outer side wall of the gear A406 is provided with a plurality of wire feeding grooves A409 distributed along the circumferential direction of the gear A406, and the outer side wall of the gear B407 is provided with a plurality of wire feeding grooves B410 distributed along the circumferential direction of the gear B407; the plurality of circumferentially distributed wire feeding grooves A409 and the plurality of circumferentially distributed wire feeding grooves B410 are positioned on the same vertical plane;

the wire feeding mechanism 4 further comprises a wire feeding disc 411, the wire feeding disc 411 is arranged on one side, away from the wire rewinding mechanism 2, of the fixing shaft A404, and the wire feeding disc 411 is fixed to the wire feeding fixing ring A401 through a bearing D412;

a wire feeding ring 413 is arranged at the central position of the side wall of the wire feeding disc 411, which is far away from the wire feeding fixing ring B402, a wire feeding hole communicated with the wire feeding ring 413 is further formed in the wire feeding disc 411, and the central axis of the wire feeding hole, the central axis of the wire feeding ring 413, the central axis of the wire feeding disc 411 and the central axis of the wire feeding fixing ring B402 are superposed; the wire feeding ring 413 is sleeved with a conductive ring 414, and the wire feeding ring 413 is also sleeved with a gear C415 positioned between the wire feeding disc 411 and the conductive ring 414;

as shown in fig. 10, the wire arranging mechanism 3 includes a wire arranging fixing seat 301, a wire arranging screw 302, a wire arranging nut 303 and a wire arranging motor 304; the flat cable fixing seat 301 is fixed on the rack 1, two fixing plates a305 are symmetrically arranged on the flat cable fixing seat 301, two ends of a flat cable screw rod 302 are rotatably connected with the two fixing plates a305 respectively, a flat cable motor 304 is fixed on one of the fixing plates a305, the flat cable motor 304 is in transmission connection with the flat cable screw rod 302, a flat cable nut 303 is installed on the flat cable screw rod 302, a flat cable rod 306 is installed on the flat cable nut 303, and a flat cable ring 307 is arranged on the flat cable rod 306.

As shown in fig. 6 and 7, the wire rewinding driving mechanism 6 includes a wire rewinding driving motor 601, a fixing plate B602, a gear D603, a gear E604 and a gear F605, the wire rewinding driving motor 601 is fixed on the frame 1, the gear D603 is installed on an output shaft of the wire rewinding driving motor 601, the gear E604 and the gear F605 are both installed on the same side of the fixing plate B602 through a bearing E, the gear E604 is located right above the gear F605, and the gear D603, the gear E604 and the gear F605 are sequentially engaged with each other;

as shown in fig. 8 and 9, the wire winding clutch mechanism 5 includes a wire winding clutch holder 501, a wire winding clutch motor 502, a wire winding clutch screw 503, a wire winding clutch screw 504 and a wire winding transmission shaft 512, the wire winding clutch holder 501 is fixed on the frame 1, two fixing plates C505 are symmetrically disposed on the wire winding clutch holder 501, two ends of the wire winding clutch screw 503 are rotatably connected with the two fixing plates C505 respectively, the wire winding clutch motor 502 is fixed on one of the fixing plates C505, the wire winding clutch motor 502 is in transmission connection with the wire winding clutch screw 503, the wire winding clutch screw 504 is mounted on the wire winding clutch screw 503, a fixing plate D506 is disposed on the fixing plate D506, a fixing plate E507 and a fixing plate F508 are vertically disposed on the fixing plate E507, a through hole D is disposed on the fixing plate F508, a central axis of the through hole E and a central axis of the through hole E are coincident with, one end of the take-up transmission shaft 512 is fixed in the through hole E through a bearing F509, the other end of the take-up transmission shaft penetrates through the through hole E and the through hole D in sequence and then is connected with one end, which is positioned outside the gear ring 204 and close to the through hole B, of the winding rotation shaft 202, and a bearing G510 for fixing the take-up transmission shaft 512 is arranged in the through hole D; the wire-rewinding transmission shaft 512 is provided with a gear G511, the gear G511 is positioned between the fixing plate E507 and the fixing plate F508, and the gear G511 is meshed with the gear F605.

The winding rotating shaft 202 is located outside the gear ring 204 and has a groove on the end surface near one end of the through hole B, and the winding transmission shaft 512 is provided with a protrusion matching with the groove on the end surface near one end of the through hole B.

The two grooves are symmetrically formed with the central axis of the winding rotating shaft 202, the two protrusions are symmetrically formed with the central axis of the winding transmission shaft 512.

The groove is a eight-diagram-shaped groove, and the bulge is a eight-diagram-shaped bulge. The height of the eight-diagram-shaped protrusion gradually decreases from one side to the other side.

Wherein, the part of the winding rotation shaft 202 located in the gear ring 204 is sleeved with a shaft retainer ring.

Wherein, the frame 1 is further provided with a support rod 416 for supporting the conductive ring 414.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A full-automatic industrial silence wiring machine is characterized by comprising a rack, and a wire take-up mechanism, a wire arranging mechanism and a wire feeding mechanism which are fixed on the rack, wherein the wire arranging mechanism is positioned between the wire take-up mechanism and the wire feeding mechanism;

2. The fully automatic industrial silent wiring machine as claimed in claim 1, wherein said take-up driving mechanism comprises a take-up driving motor, a fixing plate B, a gear D, a gear E and a gear F, said take-up driving motor is fixed on said frame, said gear D is mounted on the output shaft of said take-up driving motor, said gear E and said gear F are both mounted on the same side of said fixing plate B through a bearing E, said gear E is located right above said gear F, said gear D, said gear E and said gear F are engaged in sequence;

3. The fully automatic industrial silent wiring machine as claimed in claim 1, wherein said winding rotation shaft is located outside said gear ring and has a groove on the end surface near one end of said through hole B, and said winding transmission shaft has a protrusion matching said groove on the end surface near one end of said through hole B.

4. The fully automatic industrial silent wiring machine as claimed in claim 3, wherein said two recesses are symmetrically formed with respect to the central axis of said winding rotation shaft, said two protrusions are symmetrically formed with respect to the central axis of said winding transmission shaft, and said two protrusions are symmetrically formed with respect to the central axis of said winding transmission shaft.

5. The fully automatic industrial silent wiring machine as claimed in claim 3 or 4, wherein said groove is a eight-diagram shaped groove and said protrusion is a eight-diagram shaped protrusion.

6. The fully automatic industrial silent wiring machine as claimed in claim 1, wherein a shaft retainer ring is sleeved on the part of said winding rotary shaft located in said gear ring.

7. The automatic industrial silent wire distribution machine according to claim 1, wherein said frame is further provided with a support rod for supporting said conductive ring.