CN116393624A

CN116393624A - Flat copper wire unloading collection device

Info

Publication number: CN116393624A
Application number: CN202310682610.3A
Authority: CN
Inventors: 王先锋
Original assignee: Bondi Intelligent Equipment Henan Co ltd
Current assignee: Bondi Intelligent Equipment Henan Co ltd
Priority date: 2023-06-09
Filing date: 2023-06-09
Publication date: 2023-07-07

Abstract

The invention discloses a flat copper wire blanking and collecting device. The invention comprises a wire guide mechanism, a wire cutting mechanism, a conveying mechanism, a wire pushing mechanism and a wire storage mechanism; the wire guide mechanisms are arranged at the conveying starting ends of the conveying mechanisms at intervals; the wire cutting mechanism is arranged between the wire guide mechanism and the conveying mechanism and is used for cutting the flat copper wire; the wire pushing mechanism and the wire storage mechanism are respectively and oppositely arranged at two sides of the horizontal conveying belt; the wire storage mechanism comprises a wire storage frame and a first driving piece, wherein the wire storage frame is provided with a plurality of wire storage frames, and the first driving piece is arranged at the bottom of the wire storage frame to drive the wire storage frame to move up and down; the wire pushing mechanism pushes the flat copper wire on the horizontal conveying belt to the wire storage frame. The invention can automatically and orderly store one cut flat copper wire on each wire storage frame, avoids the damage of the appearance of the flat copper wire, improves the collection and storage efficiency of the cut flat copper wire, facilitates the material taking of the next process, and improves the efficiency of the next process.

Description

Flat copper wire unloading collection device

Technical Field

The invention relates to the technical field of flat wire motors, in particular to a flat copper wire blanking and collecting device.

Background

In the production of the flat wire motor, the flat wire enamelled wire enamel is required to be removed to obtain the flat copper wire, the flat copper wire is required to be cut into lengths of various specifications and collected together, the use of the next procedure is facilitated, in the prior art, a collection box is often directly arranged below a wire cutting mechanism, the cut flat copper wires are collected in disorder, the flat copper wires are placed one by manual operation, and the flat copper wires are used for the next procedure, so that the possibility of damage to the outer surface of the flat copper wire is increased, and the production efficiency is low.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a flat copper wire blanking and collecting device.

The invention relates to a flat copper wire blanking and collecting device which comprises a wire guide mechanism, a wire cutting mechanism, a conveying mechanism, a wire pushing mechanism and a wire storage mechanism;

the wire guide mechanisms are arranged at intervals at the conveying starting ends of the conveying mechanisms and are used for conveying flat copper wires which are not cut off to the conveying mechanisms at a certain speed;

the wire cutting mechanism is arranged between the wire guide mechanism and the conveying mechanism and is used for cutting the flat copper wire;

the conveying mechanism comprises a horizontal conveying belt, a first optical fiber sensor, a second optical fiber sensor and a third optical fiber sensor, wherein the first optical fiber sensor, the second optical fiber sensor and the third optical fiber sensor are sequentially arranged at a transmission starting end, a transmission middle end and a transmission tail end of the horizontal conveying belt along the transmission direction of the horizontal conveying belt and are used for detecting flat copper wires, two sides of the transmission starting end of the horizontal conveying belt are provided with baffle plates to form a channel for allowing one flat copper wire to pass through, and a stop block is erected at the transmission tail end of the horizontal conveying belt;

the wire pushing mechanism and the wire storage mechanism are respectively and oppositely arranged at two sides of the horizontal conveying belt;

the wire storage mechanism comprises a wire storage frame and a first driving piece, wherein a plurality of wire storage frames are arranged on the wire storage frame at intervals from top to bottom, the first driving piece is arranged at the bottom of the wire storage frame to drive the wire storage frame to move up and down and limit the wire storage frame to a preset position, and the preset position is the position of any wire storage frame on the same plane with the horizontal conveying belt;

the wire pushing mechanism pushes the flat copper wire on the horizontal conveying belt to the wire storage frame.

Further, the wire pushing mechanism comprises a second driving piece and a push plate, wherein the push plate is horizontally arranged on one side of the horizontal conveying belt and is in the same horizontal plane with the flat copper wire on the horizontal conveying belt, and the second driving piece is in transmission connection with the push plate so as to drive the push plate to push the flat copper wire on the horizontal conveying belt to the wire storage frame; the second driving piece is electrically connected with the control mechanism.

Further, the second driving piece comprises a counting cylinder, the driving end of the counting cylinder is in transmission connection with the push plate, and the counting cylinder is electrically connected with the control mechanism.

Further, the first driving piece comprises an electric cylinder, the electric cylinder is arranged at the bottom of the wire storage frame, the driving end is in transmission connection with the wire storage frame, and the electric cylinder is electrically connected with the control mechanism.

Further, the wire storage mechanism further comprises at least two guide posts, guide holes are respectively formed in two ends of the wire storage frame, and the guide posts are arranged in the guide holes in a one-to-one correspondence mode.

Further, the wire storage frame is detachably arranged on the wire storage frame.

Further, the upper inner side and the lower inner side of the wire storage frame are respectively provided with a plurality of rubber raised strips, and the raised strips on the upper inner side and the lower inner side are arranged in a one-to-one correspondence manner to form a placement bin for placing the flat copper wires.

Further, the height of the placing bin is equal to the length or the width of the cross section of the flat copper wire.

Further, the device also comprises an alarm mechanism, and the alarm mechanism is electrically connected with the control mechanism.

Further, the device also comprises a control mechanism, wherein the control mechanism comprises a PLC controller, and the PLC controller is electrically connected with the wire guide mechanism, the wire cutting mechanism, the first driving piece, the second driving piece, the first optical fiber sensor, the second optical fiber sensor and the third optical fiber sensor.

The operation process of the flat copper wire blanking and collecting device provided by the invention is as follows: firstly, a first driving piece is utilized to adjust a wire storage frame positioned at the uppermost or lowermost part of a wire storage frame to be at the same horizontal plane with a horizontal conveying belt, then a wire guiding mechanism is utilized to guide a flat copper wire to be cut to the horizontal conveying belt, then a wire cutting mechanism is utilized to cut the flat copper wire, the cut flat copper wire is conveyed to be limited by a stop block on the horizontal conveying belt, in the process, a first optical fiber sensor, a second optical fiber sensor and a third optical fiber sensor sequentially detect the flat copper wire on the horizontal conveying belt, signals are transmitted to a control mechanism, when the control mechanism receives the signals transmitted by the third optical fiber sensor, the control mechanism controls a wire pushing mechanism to push the flat copper wire on the horizontal conveying belt to the wire storage frame, at the moment, the control mechanism controls the wire cutting mechanism to cut the flat copper wire led out by the wire guiding mechanism again, the cut flat copper wire continues to repeat the process until one wire storage frame is pushed up, at the moment, the control mechanism controls the first driving piece to move downwards or upwards, the next empty wire storage frame is adjusted to be at the same horizontal plane with the horizontal conveying belt, and all the wires on the wire storage frames are continuously and fully filled; in the above process, the flat copper wire may be clamped on the channel, and at this time, the first optical fiber sensor or/and the second optical fiber sensor can always detect the flat copper wire, but the third optical fiber sensor cannot detect the flat copper wire, and at this time, the control mechanism controls the wire guide mechanism and the wire cutting mechanism to stop working, and wait for the operation of the staff.

According to the flat copper wire blanking and collecting device, automatic wire cutting and collecting are realized through the cooperation of the wire guide mechanism, the wire cutting mechanism, the conveying mechanism, the wire pushing mechanism, the wire storage mechanism and the control mechanism, one cut flat copper wire can be orderly and respectively stored on each wire storage frame, the situation that the cut flat copper wires are stacked in a concentrated mode and then manually collected to cause damage to the appearance of the flat copper wires is avoided, the collecting and storing efficiency of the cut flat copper wires is improved, the material taking of the next procedure is facilitated, and the efficiency of the next procedure is improved.

Drawings

Fig. 1 is a schematic structural view of a flat copper wire blanking and collecting device of the present invention;

FIG. 2 is a schematic diagram of the structure of the conveying mechanism, the wire pushing mechanism and the wire storing mechanism;

fig. 3 is an enlarged schematic view at a of fig. 2.

1. A wire guide mechanism; 2. a thread cutting mechanism; 3. a conveying mechanism; 31. a horizontal conveyor belt; 32. a first optical fiber sensor; 33. a second optical fiber sensor; 34. a third optical fiber sensor; 35. a baffle; 36. a channel; 37. a stop block; 4. a wire pushing mechanism; 41. a second driving member; 411. counting cylinders; 42. a push plate; 5. a wire storage mechanism; 51. a wire storage rack; 511. a guide hole; 52. a first driving member; 521. an electric cylinder; 53. a wire storage frame; 531. rubber protruding strips; 532. placing a bin; 54. and a guide post.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, the invention relates to a flat copper wire blanking and collecting device, which comprises a wire guide mechanism 1, a wire cutting mechanism 2, a conveying mechanism 3, a wire pushing mechanism 4, a wire storage mechanism 5 and a control mechanism (not shown in the figure);

the wire guide mechanisms 1 are arranged at intervals at the conveying starting ends of the conveying mechanisms 3 and are used for conveying flat copper wires which are not cut off to the conveying mechanisms 3 at a certain speed; the speed at which the wire guide mechanism 1 conveys the flat copper wire that is not cut is smaller than the speed at which the conveyor mechanism 3 conveys the cut flat copper wire.

The wire cutting mechanism 2 is arranged between the wire guiding mechanism 1 and the conveying mechanism 3 and is used for cutting the flat copper wire.

As shown in fig. 2, the conveying mechanism 3 includes a horizontal conveying belt 31, a first optical fiber sensor 32, a second optical fiber sensor 33 and a third optical fiber sensor 34, the first optical fiber sensor 32, the second optical fiber sensor 33 and the third optical fiber sensor 34 are sequentially disposed at a conveying start end, a conveying middle end and a conveying end of the horizontal conveying belt 31 along a conveying direction of the horizontal conveying belt 31, and are used for detecting flat copper wires, two sides of the conveying start end of the horizontal conveying belt 31 are provided with baffles 35 to form a channel 36 for allowing one flat copper wire to pass through, and a stop block 37 is arranged at the conveying end of the horizontal conveying belt 31.

The wire pushing mechanism 4 and the wire storing mechanism 5 are respectively arranged on two sides of the horizontal conveying belt 31 in a relative manner.

The wire storage mechanism 5 comprises a wire storage frame 51 and a first driving piece 52, wherein a plurality of wire storage frames 53 are arranged on the wire storage frame 51 from top to bottom at intervals, the first driving piece 52 is arranged at the bottom of the wire storage frame 51 to drive the wire storage frame 51 to move up and down and limit the wire storage frame 51 to a preset position, and the preset position is the position of any wire storage frame 53 on the same plane with the horizontal conveying belt 31.

The wire pushing mechanism 4 pushes the flat copper wire on the horizontal conveyor belt 31 onto the wire storage frame 53.

The control mechanism is electrically connected to the wire guide mechanism 1, the wire cutting mechanism 2, the first driver 52, the wire pushing mechanism 4, the first optical fiber sensor 32, the second optical fiber sensor 33, and the third optical fiber sensor 34.

The operation process of the flat copper wire blanking and collecting device provided by the invention is as follows: firstly, the wire storage frame 53 positioned at the uppermost or the lowermost on the wire storage frame 51 is adjusted to be at the same horizontal plane with the horizontal conveying belt 31 by utilizing the first driving piece 52, then the flat copper wire to be cut is guided to the horizontal conveying belt 31 by utilizing the wire guiding mechanism 1, then the flat copper wire is cut by the wire cutting mechanism 2, the cut flat copper wire is conveyed to be limited by the stop block 37 on the horizontal conveying belt 31, in the process, the flat copper wire on the horizontal conveying belt 31 is sequentially detected by the first optical fiber sensor 32, the second optical fiber sensor 33 and the third optical fiber sensor 34, a signal is transmitted to the control mechanism, when the control mechanism receives the signal transmitted by the third optical fiber sensor 34, the control mechanism controls the wire pushing mechanism 4 to push the flat copper wire on the horizontal conveying belt 31 to the wire storage frame 53, at the moment, the control mechanism controls the wire cutting mechanism 2 to cut the flat copper wire guided by the wire guiding mechanism 1 again, the cut flat copper wire continues to repeat the process until one wire storage frame 53 is pushed up, in the process, the control mechanism controls the first driving piece 52 to move downwards or upwards, the next wire storage frame 53 is adjusted to be at the same horizontal plane with the wire storage frame 53, and all the flat copper wires are continuously filled in the same horizontal plane with the wire storage frame 53; in the above process, a situation may occur in which the flat copper wire is clamped on the channel 36, at this time, the first optical fiber sensor 32 or/and the second optical fiber sensor 33 can always detect the flat copper wire, but the third optical fiber sensor 34 cannot detect the flat copper wire, at this time, the control mechanism controls the wire guide mechanism 1 and the wire cutting mechanism 2 to stop working, and wait for the operation of the staff.

According to the flat copper wire blanking and collecting device, automatic wire cutting and collecting is realized through the cooperation of the wire guide mechanism 1, the wire cutting mechanism 2, the conveying mechanism 3, the wire pushing mechanism 4, the wire storage mechanism 5 and the control mechanism, one cut flat copper wire can be orderly and respectively stored on each wire storage frame 53, the situation that the cut flat copper wires are stacked in a concentrated mode and then manually collected to possibly cause damage to the appearance of the flat copper wires is avoided, the collecting and storing efficiency of the cut flat copper wires is improved, the material taking of the next procedure is facilitated, and the efficiency of the next procedure is improved.

The structure of the wire pushing mechanism 4 is various, but not limited to, in this embodiment, the wire pushing mechanism 4 may include a second driving member 41 and a push plate 42, where the push plate 42 is horizontally disposed on one side of the horizontal conveyor belt 31 and is in the same horizontal plane with the flat copper wire on the horizontal conveyor belt 31, and the second driving member 41 is in transmission connection with the push plate 42 to drive the push plate 42 to push the flat copper wire on the horizontal conveyor belt 31 onto the wire storage frame 53; the second driving member 41 is electrically connected with the control mechanism, and when the control mechanism receives the signal sent by the third optical fiber sensor 34, the control mechanism controls the second driving member 41 to drive the push plate 42 to push the flat copper wire on the horizontal conveying belt 31 to the wire storage frame 53. To avoid damage to the outer surface of the copper wire, the side of the push plate 42 in contact with the flat copper wire may also be provided with a rubber strip.

The structure of the second driving member 41 is various, but not limited to, in this embodiment, the second driving member 41 may include a counting cylinder 411, the driving end of the counting cylinder 411 is in transmission connection with the push plate 42, the counting cylinder 411 is electrically connected with the control mechanism, the counting cylinder 411 drives the push plate 42 to push the flat copper wire on the horizontal conveyer belt 31 to the wire storage frame 53, and can count several times of driving, and transmit the counting result to the control mechanism in real time, because the length or width of the cross section of the flat copper wire is determined, that is, how many flat copper wires can be laid on one wire storage frame 53 is fixed, the number of times of driving the counting cylinder 411 is fixed, and after the number of times of driving of the counting cylinder 411 reaches a certain number of times, the control mechanism will control the first driving member 52 to drive the next empty wire storage frame 53 to be adjusted to be on the same plane with the horizontal conveyer belt 31.

The first driving member 52 has various structures, in this embodiment, the first driving member 52 may include an electric cylinder 521, the electric cylinder 521 is disposed at the bottom of the wire storage frame 51, and the driving end is in transmission connection with the wire storage frame 51, the electric cylinder 521 is electrically connected with a control mechanism, and the control mechanism controls the electric cylinder 521 to drive the wire storage frame 51 to move up and down and limit at a preset position, so that the empty wire storage frame 53 is adjusted to be on the same plane with the horizontal conveying belt 31.

The wire storage mechanism 5 may further include at least two guide posts 54, and guide holes 511 are respectively formed at two ends of the wire storage frame 51, and the guide posts 54 are disposed in the guide holes 511 in a one-to-one correspondence manner, so that the wire storage frame 51 can conveniently move up and down.

The wire storage frame 53 can be detachably arranged on the wire storage frame 51, and also can be arranged on the wire storage frame 51 in a drawable manner, so that the wire storage frame 53 can be conveniently taken and put.

As shown in fig. 3, the upper and lower inner side surfaces of the wire storage frame 53 may be provided with a plurality of rubber ribs 531, and the upper inner side surface and the lower inner side surface of the rubber ribs 531 are disposed in one-to-one correspondence to form a placement bin 532 for placing flat copper wires, and the rubber ribs 531 may prevent the outer surfaces of the flat copper wires from being damaged.

The height of the placing bin 532 is equal to the length or width of the cross section of the flat copper wire, which can be set according to the placement orientation of the flat copper wire in practical situations, if the length of the cross section of the flat copper wire is in contact with the horizontal conveyor belt 31, the height of the placing bin 532 is equal to the width of the cross section of the flat copper wire, otherwise, if the width of the cross section of the flat copper wire is in contact with the horizontal conveyor belt 31, the height of the placing bin 532 is equal to the length of the cross section of the flat copper wire, so that each placing bin 532 can only place one layer of flat copper wire flatly.

Because the flat copper wire is clamped on the channel 36, in order to timely inform the staff of the operation, the device may further comprise an alarm mechanism (not shown in the figure), the alarm mechanism is electrically connected with the control mechanism, when the first optical fiber sensor 32 or/and the second optical fiber sensor 33 can always detect the flat copper wire, but the third optical fiber sensor 34 can not detect the flat copper wire, at this time, the control mechanism controls the wire guide mechanism 1 and the wire cutting mechanism 2 to stop working, and controls the alarm mechanism to send out an alarm to timely inform the staff, and the alarm mechanism may be an alarm.

The structure of the control mechanism is various, and is not limited herein, for example: the control mechanism may include a PLC controller electrically connected to the wire guide mechanism 1, the wire cutting mechanism 2, the first driving member 52, the second driving member 41, the first optical fiber sensor 32, the second optical fiber sensor 33, and the third optical fiber sensor 34.

In the present invention, the wire guide mechanism 1 is not limited to any particular structure, and may be any structure as long as it has a member capable of conveying a single copper wire at a constant speed, such as a conveyor belt with a guide at the conveying end, and the wire cutting mechanism 2 is not limited to any particular structure, and may be any structure capable of cutting a wire after cutting, such as a cutter provided above the wire guide mechanism 1 and the conveyor mechanism 3 or a cutter provided on one side.

The above is not relevant and is applicable to the prior art.

While certain specific embodiments of the present invention have been described in detail by way of example, it will be appreciated by those skilled in the art that the foregoing examples are provided for the purpose of illustration only and are not intended to limit the scope of the invention, and that various modifications or additions and substitutions to the described specific embodiments may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the invention as defined in the accompanying claims. It should be understood by those skilled in the art that any modification, equivalent substitution, improvement, etc. made to the above embodiments according to the technical substance of the present invention should be included in the scope of protection of the present invention.

Claims

1. The flat copper wire blanking and collecting device is characterized by comprising a wire guide mechanism (1), a wire cutting mechanism (2), a conveying mechanism (3), a wire pushing mechanism (4) and a wire storage mechanism (5);

the wire guide mechanisms (1) are arranged at intervals at the conveying starting ends of the conveying mechanisms (3) and are used for conveying flat copper wires which are not cut off to the conveying mechanisms (3) at a certain speed;

the wire cutting mechanism (2) is arranged between the wire guide mechanism (1) and the conveying mechanism (3) and is used for cutting flat copper wires;

the conveying mechanism (3) comprises a horizontal conveying belt (31), a first optical fiber sensor (32), a second optical fiber sensor (33) and a third optical fiber sensor (34), wherein the first optical fiber sensor (32), the second optical fiber sensor (33) and the third optical fiber sensor (34) are sequentially arranged at the transmission starting end, the transmission middle end and the transmission tail end of the horizontal conveying belt (31) along the transmission direction of the horizontal conveying belt (31) and used for detecting flat copper wires, baffle plates (35) are arranged on two sides of the transmission starting end of the horizontal conveying belt (31) to form a channel (36) for allowing one flat copper wire to pass through, and a stop block (37) is arranged at the transmission tail end of the horizontal conveying belt (31);

the wire pushing mechanism (4) and the wire storage mechanism (5) are respectively and oppositely arranged at two sides of the horizontal conveying belt (31);

the wire storage mechanism (5) comprises a wire storage frame (51) and a first driving piece (52), wherein a plurality of wire storage frames (53) are arranged on the wire storage frame (51) at intervals from top to bottom, the first driving piece (52) is arranged at the bottom of the Chu Xianjia (51) so as to drive the wire storage frame (51) to move up and down and limit the wire storage frame (51) at a preset position, and the preset position is the position of any wire storage frame (53) and the horizontal conveying belt (31) on the same plane;

the wire pushing mechanism (4) pushes the flat copper wire on the horizontal conveying belt (31) to the wire storage frame (53).

2. A flat copper wire blanking and collecting device as claimed in claim 1, wherein the wire pushing mechanism (4) comprises a second driving piece (41) and a pushing plate (42), the pushing plate (42) is horizontally arranged on one side of the horizontal conveying belt (31) and is in the same horizontal plane with flat copper wires on the horizontal conveying belt (31), and the second driving piece (41) is in transmission connection with the pushing plate (42) so as to drive the pushing plate (42) to push the flat copper wires on the horizontal conveying belt (31) to the wire storage frame (53); the second driving member (41) is electrically connected with the control mechanism.

3. A flat copper wire blanking and collecting device as claimed in claim 2, wherein the second driving member (41) comprises a counting cylinder (411), the driving end of the counting cylinder (411) is in transmission connection with the push plate (42), and the counting cylinder (411) is electrically connected with the control mechanism.

4. The flat copper wire blanking and collecting device according to claim 1, wherein the first driving member (52) comprises an electric cylinder (521), the electric cylinder (521) is arranged at the bottom of the Chu Xianjia (51), the driving end is in transmission connection with the wire storage frame (51), and the electric cylinder (521) is electrically connected with the control mechanism.

5. The flat copper wire blanking and collecting device according to claim 1, wherein the wire storage mechanism (5) further comprises at least two guide posts (54), guide holes (511) are respectively formed in two ends of the wire storage frame (51), and the guide posts (54) are arranged in the guide holes (511) in a one-to-one correspondence mode.

6. A flat copper wire blanking and collecting apparatus as claimed in claim 1, wherein said wire storage frame (53) is detachably provided on said Chu Xianjia (51).

7. The flat copper wire blanking and collecting device according to claim 1, wherein a plurality of rubber convex strips (531) are respectively arranged on the upper inner side surface and the lower inner side surface of the wire storage frame (53), and the convex strips on the upper inner side surface and the lower inner side surface are arranged at intervals in a one-to-one correspondence manner to form a placing bin (532) for placing the flat copper wire.

8. A flat copper wire blanking and collecting apparatus as claimed in claim 7, wherein the height of said placing bin (532) is equal to the length or width of the cross section of the flat copper wire.

9. The flat copper wire blanking and collecting apparatus as claimed in claim 1, further comprising an alarm mechanism, wherein the alarm mechanism is electrically connected with the control mechanism.

10. A flat copper wire blanking and collecting device as claimed in claim 1, further comprising a control mechanism, wherein the control mechanism comprises a PLC controller, and the PLC controller is electrically connected with the wire guide mechanism (1), the wire cutting mechanism (2), the first driving member (52), the wire pushing mechanism (4), the first optical fiber sensor (32), the second optical fiber sensor (33) and the third optical fiber sensor (34).