阅读说明：本技术 一种梅花落收线铜杆捆扎设备 (Plum blossom falls to receive line copper pole and ties up equipment ) 是由 陈周阳 石晓伟 吕宁宁 高崟 于 2019-09-26 设计创作，主要内容包括：本发明公开了一种梅花落收线铜杆捆扎设备,包括支架、导线装置、穿线捆扎装置、收线装置与定位装置,其特征在于,所述的支架上设有导线装置与穿线捆扎装置,穿线捆扎装置下方对应设有收线装置,支架两侧对称式设计的导线装置由导轮与铜杆导片组成,穿线捆扎装置包括下压气缸与捆扎器,捆扎器上分别设有一对导线块一、两对切割器与一对捆扎轮,收线装置中心设有套柱,收线装置与套柱之间的U形收线腔内对称式设有一套走杆装置支架下方的定位装置由横管与其上的两定位套柱组成。本发明的有益条件在于：自动穿线、自动切断、自动捆扎、捆扎紧度高、便于后期储存输送。(The invention discloses plum blossom falling wire-collecting copper rod binding equipment which comprises a support, a wire guiding device, a threading binding device, a wire collecting device and a positioning device and is characterized in that the wire guiding device and the threading binding device are arranged on the support, the wire collecting device is correspondingly arranged below the threading binding device, the wire guiding device symmetrically designed on two sides of the support consists of a guide wheel and a copper rod guide sheet, the threading binding device comprises a pressing-down air cylinder and a binding device, a pair of wire guiding block I, a pair of cutter and a pair of binding wheel are respectively arranged on the binding device, a sleeve column is arranged in the center of the wire collecting device, and the positioning device symmetrically arranged in a U-shaped wire collecting cavity between the wire collecting device and the sleeve column and below the sleeve column is composed of a transverse pipe and two positioning sleeve columns arranged on the. The beneficial conditions of the invention are as follows: automatic threading, automatic cutting, automatic bundling, high bundling tightness and convenient later storage and conveying.)

1. A plum blossom falling wire-collecting copper rod bundling device comprises a support (1), a wire guiding device, a threading bundling device, a wire collecting device (17) and a positioning device, and is characterized in that the wire guiding device and the threading bundling device are arranged on the support (1), the wire collecting device (17) is correspondingly arranged below the threading bundling device, the wire guiding device symmetrically designed on two sides of the support (1) consists of a guide wheel (2) and a copper rod guide sheet (3), the threading bundling device comprises a pressing cylinder (4) and a bundling device (5), the two pressing cylinders (4) on the support (1) are connected with the bundling device (5), two pairs of slide rails (6) are arranged on the bundling device (5) and are in sliding butt joint with two pairs of slide blocks on the support (1), a pair of wire guiding block I (7), two pairs of cutters and a pair of bundling wheels (15) are respectively arranged on the bundling device (5), a driving wheel (8) and an auxiliary wheel (9) are arranged above the guiding block I (7), a second lead block (12) is arranged on a mounting rack (11) on a binder (5) below the first lead block (7), a lead pipe (10) is connected between the first lead block (7) and the second lead block (12), a binding wheel (15) is arranged below the mounting rack (11), cutters are arranged on two sides of the mounting rack (11), a take-up device (17) is in a cylindrical shape with an upward opening, a sleeve column (18) is arranged at the center of the take-up device (17), two sleeves (19) and a plurality of rollers are arranged at the bottom of the take-up device, a take-up cavity with a U-shaped cross section is formed between the take-up device (17) and the sleeve column (18), a set of walking rod devices are symmetrically arranged in the take-up cavity and consist of three sections of walking pipes (20), a pair of auxiliary wheels (24) is arranged in a space between the walking pipes (20) on two sides and the walking pipes (20) at the bottom of the walking pipes, the walking pipes, the positioning device consists of a transverse pipe (25) and two positioning sleeve columns arranged on the transverse pipe.

2. The quincuncial falling wire-collecting copper rod bundling device as claimed in claim 1, wherein placing cylinders (26) are arranged on two sides of the support (1), and bundling copper rods (27) are placed in the placing cylinders (26).

3. The quincuncial falling wire-collecting copper rod bundling device as claimed in claim 1, wherein a round hole with an edge arc guide angle design is formed in the copper rod guide sheet (3).

4. The plum blossom-shaped wire collecting copper rod bundling device according to claim 1, wherein one side of the driving wheel (8) and one side of the bundling wheel (15) are both connected with a stepping motor, the driving wheel (8), the auxiliary wheel (9) and the auxiliary wheel (24) are all provided with grooves in an annular manner, and a first copper rod guide sheet with a round hole formed in the upper portion of the position between the auxiliary wheel (9) and the driving wheel (8) is arranged.

5. The plum blossom-shaped falling wire-collecting copper rod bundling device as claimed in claim 1, wherein two wire openings (16) are formed in the bundling wheel (15), one side of each wire opening (16) is large and the other side of each wire opening is small, the two wire openings (16) are designed in a reverse mode, each cutter comprises two air cylinders (13), each air cylinder (13) is provided with a cutter (14), the cutters (14) are arranged oppositely, and the edge of each cutter (14) is in a V shape.

6. The quincuncial falling wire collecting copper rod bundling device as claimed in claim 1, wherein the wire running pipe (20) is designed into a left rotatable piece and a right rotatable piece (21), the rotatable pieces (21) are connected with the wire collecting device (17) through hinges (22), and torsion springs (23) are further arranged beside the hinges (22).

7. The quincuncial falling wire-collecting copper rod binding device as claimed in claim 1, wherein two sleeves (19) below the wire-collecting device (17) are sleeved with the positioning sleeve column.

8. The plum blossom-shaped falling wire-collecting copper rod binding equipment as claimed in claim 1, wherein the copper rod (27) in the placing cylinder (26) passes through the copper rod guide sheet (3) and then passes through the guide wheel (2), then passes through the wire guide pipe (10) from between the driving wheel (8) and the auxiliary wheel (9) downwards and enters the wire running pipe (20) from the wire opening (16), then passes through the other wire opening (16) from the other end of the wire running pipe (20) upwards, and a turning stop block (28) is arranged at the end part of the wire running pipe (20) which passes through the position.

9. The quincuncial falling wire-collecting copper rod binding device as claimed in claim 1, wherein a sensor is arranged on one side of the binding wheel (15).

10. The plum blossom type wire collecting copper rod bundling device according to claim 1, wherein auxiliary conveying devices (29) are arranged on two rotatable pieces (21) of the wire collecting pipe (20) below the wire collecting device, steel columns are embedded in the auxiliary conveying devices (29), and steel balls partially leak out of the inner walls of the rotatable pieces (21).

Technical Field

The invention relates to the technical field of copper rod bundling equipment, in particular to quincuncial falling wire collection copper rod bundling equipment.

Background

In the life, the wire is done to practical copper line, and electric conductivity is fine, is used for making electric wire, cable, brush etc. in a large number, and the copper line has different diameter specifications after being produced, and all be circular stack rolling when collecting, nevertheless all need utilize the copper pole to tie up after collecting the lapping, however the copper pole has certain hardness, and the manual work is tied up very loaded down with trivial details, consuming time power, and the elasticity can't be ensured moreover to lead to the later stage to tie up the copper line in disorder, the influence is stored and is transported.

Disclosure of Invention

In order to solve the problems, the invention aims to provide the plum blossom dropping wire-collecting copper rod binding equipment which has the advantages of automatic threading, automatic cutting, automatic binding, high binding tightness and convenience for later storage and conveying.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a plum blossom falling wire-collecting copper rod binding device comprises a support, a wire guiding device, a threading binding device, a wire collecting device and a positioning device, wherein the wire guiding device and the threading binding device are arranged on the support, the wire guiding device is correspondingly arranged below the threading binding device, the wire guiding device with symmetrical design on two sides of the support consists of a guide wheel and a copper rod guide sheet, the threading binding device comprises a pressing air cylinder and a binding device, two pressing air cylinders on the support are connected with the binding device, two pairs of slide rails are arranged on the binding device and are in sliding butt joint with two pairs of slide blocks on the support, a pair of wire block I, two pairs of cutters and a pair of binding wheels are respectively arranged on the binding device, a driving wheel and an auxiliary wheel are arranged above the guide block I, a wire block II is arranged on an installation frame on the binding device below the wire block I, a wire pipe is connected between the wire block I and, the take-up device is in a cylindrical shape with an upward opening, a sleeve column is arranged at the center of the take-up device, two sleeves and a plurality of rollers are arranged at the bottom of the take-up device, a take-up cavity with a U-shaped section is formed between the take-up device and the sleeve column, a set of walking rod devices are symmetrically arranged in the take-up cavity, each walking rod device consists of three sections of walking pipes, a pair of auxiliary wheels are arranged in a space between the walking pipes on two sides and the walking pipes at the bottom of the take-up cavity, each walking pipe consists of two rotatable pieces, and a positioning device is further arranged below the support and consists of.

Preferably, the two sides of the bracket are provided with a placing cylinder, and a bundling copper rod is placed in the placing cylinder.

Preferably, the copper rod guide plate is provided with a round hole with an edge arc guide angle.

Preferably, one side of the driving wheel and one side of the bundling wheel are both connected with a stepping motor, the driving wheel, the auxiliary wheel and the auxiliary wheel are all annularly provided with grooves, and a first copper rod guide sheet provided with a round hole is arranged above the part between the auxiliary wheel and the driving wheel.

Preferably, the bundling wheel is provided with two wire ports, one side of each wire port is large, the other side of each wire port is small, the two wire ports are designed in a reverse mode, the cutter consists of two cylinders, cutters are arranged on the two cylinders and are arranged oppositely, and the cutter edges of the cutters are in a V shape.

Preferably, the wiring pipe is designed into a left rotatable sheet and a right rotatable sheet, the rotatable sheets are connected with the take-up device through hinges, and torsional springs are arranged beside the hinges.

Preferably, the two sleeves under the take-up device are sleeved with the positioning sleeve column.

Preferably, the bundling copper rod in the placing cylinder passes through the copper rod guide piece and then passes through the guide wheel, then passes through the wire conduit downwards from between the driving wheel and the auxiliary wheel, enters the wire running pipe from the wire opening, then passes through the other wire opening upwards from the other end of the wire running pipe, and the end part of the wire running pipe penetrating through the position is provided with a turning stop block.

Preferably, a sensor is arranged on one side of the bundling wheel.

Preferably, the two half rotatable sheets of the wire running pipe below the rod running device are provided with auxiliary conveying devices, steel columns are embedded in the auxiliary conveying devices, and steel balls partially leak out of the inner walls of the rotatable sheets.

The beneficial conditions of the invention are as follows:

1. the rod collecting device is provided with a wire routing pipe, the copper rod and copper rod routing pipe is used for bundling, the copper rod can be used for bundling after being collected in a surrounding mode, and meanwhile the copper rod after being bundled can be taken out of the wire routing pipe due to the design of a rotatable piece;

2. the bundling device copper rod cylinder is connected to the support, the cylinder drives the bundling device to move downwards to compress the collected copper wires, and the tightness is high after bundling;

3. the upper driving wheel of the bundling device is convenient for the input of the copper rod for bundling, and the end part of the copper rod for bundling can be tightened by the design of the bundling wheel for automatic bundling;

4. the cutter is arranged at the end part of the cylinder of the cutter, and the bundling copper rod is automatically cut after penetrating, so that the subsequent bundling process is facilitated.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a partial structural schematic diagram of fig. 1.

Fig. 3 is a schematic view showing an internal structure of the binding apparatus of the present invention.

FIG. 4 is a schematic view of the structure of the binding wheel and the wire-running pipe of the present invention.

Fig. 5 is a schematic structural view of the take-up device of the present invention.

FIG. 6 is a schematic structural view of the wiring tube and the auxiliary wheel of the present invention.

Fig. 7 is a schematic structural view of the wiring tube and the auxiliary conveying device of the invention.

Fig. 8 is a sectional view of the auxiliary delivery apparatus of the present invention.

Detailed Description

Referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, a quincuncial falling wire-collecting copper rod binding device comprises a support 1, a wire guiding device, a threading binding device, a wire collecting device 17 and a positioning device, wherein the wire guiding device and the threading binding device are arranged on the support 1, the wire collecting device 17 is correspondingly arranged below the threading binding device, the wire guiding device symmetrically designed on two sides of the support 1 consists of a guide wheel 2 and a copper rod guide sheet 3, the threading binding device comprises a pressing cylinder 4 and a binding device 5, the two pressing cylinders 4 on the support 1 are connected with the binding device 5, two pairs of slide rails 6 are arranged on the binding device 5 and are in sliding butt joint with two pairs of slide blocks on the support 1, a pair of a first wire block 7, two pairs of cutters and a pair of binding wheels 15 are respectively arranged on the binding device 5, a driving wheel 8 and an auxiliary wheel 9 are arranged above the first guide block 7, a second wire block 12 is arranged on a mounting frame 11, a wire guide pipe 10 is connected between the first wire block 7 and the second wire block 12, a binding wheel 15 is arranged below the mounting frame 11, cutters are arranged on two sides of the mounting frame 11, the take-up device 17 is cylindrical and is designed to be opened upwards, a sleeve column 18 is arranged at the center of the take-up device 17, two sleeves 19 and a plurality of idler wheels are arranged at the bottom of the take-up device, a take-up cavity with a U-shaped cross section is formed between the take-up device 17 and the sleeve column 18, a set of walking rod devices are symmetrically arranged in the take-up cavity and consist of three sections of walking rods 20, a pair of auxiliary wheels 24 are arranged in the space between the two side walking pipes 20 and the bottom walking pipe 20, the walking pipes 20 consist of two rotatable pieces 21, a positioning device is further arranged below the support. A placing cylinder 26 is arranged on two sides of the support 1, and a bundling copper rod 27 is placed in the placing cylinder 26. And the copper rod guide sheet 3 is provided with a round hole with an edge arc guide angle. One sides of the driving wheel 8 and the bundling wheel 15 are connected with stepping motors, the driving wheel 8, the auxiliary wheel 9 and the auxiliary wheel 24 are provided with grooves in an annular mode, and a first copper rod guide sheet with a round hole is arranged above the auxiliary wheel 9 and the driving wheel 8. The bundling wheel 15 is provided with two wire ports 16, one side of each wire port 16 is large, the other side of each wire port 16 is small, the two wire ports 16 are designed in a reverse mode, each cutter is composed of two air cylinders 13, each air cylinder 13 is provided with a cutter 14, the cutters 14 are arranged oppositely, and the edges of the cutters 14 are V-shaped. The wiring pipe 20 is designed into a left rotatable piece 21 and a right rotatable piece 21, the rotatable pieces 21 are connected with the take-up device 17 through hinges 22, and torsion springs 23 are arranged beside the hinges 22. Two sleeves 19 below the take-up device 17 are sleeved with the positioning sleeve columns. The binding copper rod 27 in the placing cylinder 26 passes through the copper rod guide sheet 3 and then passes through the guide wheel 2, then passes through the wire conduit 10 downwards between the driving wheel 8 and the auxiliary wheel 9, enters the wire running pipe 20 from the wire port 16, then passes through the other wire port 16 upwards from the other end of the wire running pipe 20, and the end part of the wire running pipe 20 passing through the position is provided with a turning stop 28. And a sensor is arranged on one side of the bundling wheel 15. The two halves of rotatable pieces 21 of the wiring pipe 20 below the wiring rod device are provided with auxiliary conveying devices 29, steel columns are embedded in the auxiliary conveying devices 29, and steel balls partially leak out of the inner walls of the rotatable pieces 21.

The invention is characterized in that a wire guiding device is arranged on a bracket 1, a bundling copper rod 27 is placed in a placing cylinder 26, the copper rod guide sheet 3 penetrates through a rear guide wheel 2 to assist input, the input position is accurate and smooth in conveying, a bundling device 5 slides on the bracket 1 through a slide rail 6, the vertical movement is accurate and the straightness is high, a wire guiding pipe 10 between a first wire guiding block 7 and a second wire guiding block 12 enables the copper rod for bundling to smoothly and accurately enter a wire feeding pipe 20, a driving wheel 8 and an auxiliary wheel 24 are designed to assist in conveying the copper rod 27 from one end to the other end, a positioning device is designed, a take-up device 17 for collecting copper wires is sleeved with a positioning sleeve column through a sleeve 19 and can accurately position, the use position is accurate, annular grooves are designed on the driving wheel 8, the auxiliary wheel 9 and the auxiliary wheel 24, so that the conveying of the copper rod 27 is more accurate and stable, and the design of a, can play the role of auxiliary conveying to the copper rod 27 for bundling, so that the copper rod for bundling is smoothly conveyed into the wire opening 16 of the bundling wheel 15, when the collected copper wires are required to be bundled, the copper wires are collected in an annular shape and are sleeved on the sleeve posts 18 of the wire take-up device 17, the wire take-up device 17 is sleeved on the two positioning sleeve posts through the two sleeve tubes 19 and then abuts against the transverse pipe 25 to complete positioning, meanwhile, the downward pressing air cylinder 4 drives the threading bundling device to downwards press the copper wires collected in the wire take-up device 17, so that the collected copper wires are pressed tightly and bundled more tightly, the driving wheel 8 moves through the stepping motor, the copper rod 27 is driven by the auxiliary wheel 9 to enter the wire feeding pipe 20 from the wire opening 16 of the bundling wheel 15 after being downwards input into the wire guiding pipe 10, due to the design of the auxiliary wheel 24 between the left and right wire feeding pipes 20 and the wire feeding pipe 20 at the bottom, the auxiliary wheel 24 can be further conveyed through, the binding copper rod 27 is prevented from stopping advancing at the corner due to resistance, after the binding copper rod 27 is output from the wire feeding pipe 20 at the other end, the binding copper rod 27 enters the other wire port 16 of the binding wheel 15 due to the guiding of the turning stop block 28, meanwhile, the stepping motor stops running due to the sensing of the sensor, the binding copper rod 27 cannot be conveyed, the binding copper rod 27 can be cut off by utilizing the air cylinder 13 of the cutter to drive the cutter 14, the stepping motor at the binding wheel 15 rotates to drive the binding copper rod 27 to rotate to bind the collected copper wires, meanwhile, the binding copper rod 27 is tightened, the wire feeding pipe 20 is a rotatable piece 21 with a dual-rotation type design, the binding copper rod 27 can be moved out of the rotatable piece 21, so that the binding is realized, the air cylinder 4 is pressed downwards to move upwards, the threading binding device is loosened, so that the wire collecting device 17 can be freely pushed out to collect the next copper wires, and, time and labor are saved.

It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.