CN217478724U - Material collecting device is used in pencil production - Google Patents

Abstract

The utility model discloses a material collecting device is used in pencil production relates to pencil production facility technical field, and the process of having solved current material collecting device transportation and having convoluteed the feed cylinder and having updated the feed cylinder is all more loaded down with trivial details, the problem of the operation of being not convenient for. The winding device comprises a conveying device, wherein the conveying device is used for conveying a winding drum, at least one straight line abutting edge is arranged on the periphery of the winding drum, the winding drum is placed on the conveying device through the abutting edge, lifting blocks are arranged at two ends of the winding drum, and lifting devices which are abutted to the lifting blocks and used for lifting the winding drum are arranged at two sides of the conveying device; and rotating devices are further arranged on two sides of the conveying device and are used for driving the lifted winding drum to rotate and wind. The winding drum is statically transported to a fixed point position, so that the winding drum is convenient to keep a fixed angle for jacking and driving to rotate, and the effects of improving the convenience and stability of the material receiving device are achieved.

Description

Material collecting device is used in pencil production

Technical Field

The utility model relates to a pencil production facility technical field, in particular to material collecting device is used in pencil production.

Background

The automobile wire harness is a network main body of an automobile circuit, is connected with electric and electronic parts of an automobile and enables the electric and electronic parts to play a function, and the automobile circuit does not exist without the wire harness. Current car pencil need receive the material and transport after producing, but, the process that the feed cylinder had been convoluteed in the transportation of current material collecting device and the feed cylinder is more loaded down with trivial details more to more, the not operation of being convenient for.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a material collecting device is used in pencil production, it transports the fixed point position through the winding reel is static, is convenient for keep fixed angle to carry out the jacking and drive rotation, has improved material collecting device's convenience and stability.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a material receiving device for wiring harness production comprises a conveying device, wherein the conveying device is used for conveying a winding drum, at least one straight line abutting edge is arranged on the periphery of the winding drum, the winding drum is placed on the conveying device through the abutting edge, lifting blocks are arranged at two ends of the winding drum, and lifting devices which are abutted to the lifting blocks and lift the winding drum are arranged at two sides of the conveying device; and rotating devices are further arranged on two sides of the conveying device and are used for driving the lifted winding drum to rotate and wind.

Furthermore, both ends of the winding drum comprise end plates and sliding plates, one side of each end plate is provided with a butting edge, the sliding plates are connected to the outer sides of the end plates in a sliding manner, the sliding path of each sliding plate comprises a rolling position and a conveying position, and when the sliding plates slide outwards to the rolling position, the peripheries of the sliding plates and the peripheries of the end plates are spliced into a circle; when the sliding plate slides inwards to the conveying position, the periphery of the sliding plate is completely positioned on the inner side of the abutting edge of the end plate.

Furthermore, a plurality of T-shaped sliding tracks are arranged on the end plate, and T-shaped blocks matched with the sliding tracks are arranged on the inner side of the sliding plate.

Furthermore, at least one group of threaded holes and/or pin holes are formed in the end plate, and when the sliding plate slides outwards to a rolling position, the sliding plate is fixed on the end plate through screws and/or pin shafts.

Furthermore, the lifting block is a regular polygon, and the lifting device comprises a V-shaped block matched with the lifting block and an oil cylinder/linear module for driving the V-shaped block to lift up and down.

Furthermore, the rotating device comprises driving shafts respectively arranged at two ends of the winding drum, one end of each driving shaft, which is close to the conveying device, is provided with a telescopic shaft, the center of the winding drum is provided with a through hole for the telescopic shaft to be inserted when extending out, and one of the driving shafts is provided with a power part and is driven to rotate by the power part.

Furthermore, the rotating device further comprises a telescopic cylinder used for driving the corresponding telescopic shaft to stretch, the output end of the telescopic cylinder is provided with two parallel plates, the periphery of the telescopic shaft is provided with a connecting ring, and the connecting ring is positioned between the two parallel plates.

Furthermore, the conveying device further comprises two abutting blocks driven by the air cylinder to stretch, and the two abutting blocks are respectively abutted to the conveying paths on the two sides of the winding drum.

To sum up, the utility model discloses following beneficial effect has:

the winding drum is statically transported to a fixed point position, so that the rotating winding drum is prevented from being inconveniently lifted and then aligned with the rotating device to carry out splicing and driving rotation after being transported in place, a fixed angle can be kept for carrying out jacking and driving rotation, and the convenience and the stability of the material receiving device are improved;

the arrangement of the end plates and the sliding plates can facilitate splicing the two ends of the winding drum into a circle again, so that the winding drum can be conveniently used for subsequent transportation work or used as a winding drum in other procedures.

Drawings

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

fig. 2 is a schematic view of the state of the middle winding drum abutting against the V-shaped block.

In the figure, 1, a conveying device; 2. a winding drum; 21. an end plate; 211. a sliding track; 212. sealing blocks; 22. a slide plate; 23. a lifting block; 3. a lifting device; 31. a V-shaped block; 32. a linear module; 4. a rotating device; 41. a drive shaft; 42. a telescopic shaft; 43. a telescopic cylinder; 44. and parallel plates.

Detailed Description

The following description will further explain embodiments of the present invention with reference to the accompanying drawings, and the present embodiment does not limit the present invention.

A material receiving device for wire harness production is shown in figure 1 and comprises a conveying device 1, wherein the conveying device 1 is a conveying belt and is used for conveying a winding drum 2, a straight abutting edge is arranged on the periphery of the winding drum 2, and the winding drum 2 is placed on the conveying device 1 through the abutting edge;

conveyor 1 still is connected with the flexible butt piece of photoelectric sensor and cylinder drive, and the butt piece is equipped with two and respectively the butt on the delivery path of winding reel 2 both sides to keep off winding reel 2 at the operating position of conveyer belt, the butt piece is close to or keeps away from conveyor 1's center pin position under the cylinder drive, in order to prevent or let go the action of advancing of winding reel 2, and photoelectric sensor senses winding reel 2 and targets in place the back, stops the conveyer belt transmission.

As shown in fig. 2, in order to facilitate transportation of the winding drum 2, both ends of the winding drum 2 include an end plate 21 and a sliding plate 22, one side of the end plate 21 is provided with a butting edge (a circular edge is cut out of a circular plate), the sliding plate 22 is connected to the outer side of the end plate 21 in a sliding manner, the sliding path includes a rolling position and a conveying position, and when the sliding plate 22 slides outwards to the rolling position, the periphery of the sliding plate 22 and the periphery of the end plate 21 are spliced into a circle; when the slide plate 22 is slid inward to the transport position, the outer periphery of the slide plate 22 is completely located inside the abutting edge of the end plate 21.

As shown in fig. 2, two symmetrically arranged T-shaped sliding rails 211 are arranged on the end plate 21, and T-shaped blocks adapted to the sliding rails 211 are arranged on the inner side of the sliding plate 22 (in this embodiment, the bottom end of the sliding rail 211 is connected with a sealing block 212 through a screw, and after the winding drum 2 is in place, the sealing block 212 abuts against an abutment block to prevent the winding drum 2 from continuing to advance);

the end plate 21 is also provided with two groups of threaded holes and pin holes, when the sliding plate 22 corresponding to one group of threaded holes and pin holes slides outwards to a rolling position, the sliding plate 22 is fixed outside the abutting edge of the end plate 21 through screws and pin shafts, and a circular structure on the periphery of the sliding plate is fixed, so that subsequent transportation is conveniently carried out after the sliding plate is fixed; when another group of screw holes and pin holes correspond to the sliding plate 22 and slide inwards to the conveying position, the sliding plate 22 is fixed on the inner side of the abutting edge of the end plate 21 through screws and pin shafts so as to be conveniently placed on the conveying belt through the abutting edge position for static transportation.

As shown in fig. 1 and fig. 2, two ends of the winding reel 2 are integrally connected with square lifting blocks 23, and two sides of the conveying device 1 are provided with lifting devices 3 which are abutted on the lifting blocks 23 and lift the winding reel 2;

the lifting block 23 is a regular quadrangle, when the winding drum 2 is abutted to the conveying device 1 through the abutting edge, the side edge of the lifting block 23 is 45 degrees to the horizontal vertical direction, and the lifting device 3 comprises a right-angle V-shaped block 31 matched with the lifting block 23 and a vertical oil cylinder/linear module 32 driving the V-shaped block to lift up and down, so that the winding drum 2 is driven to lift through the V-shaped block.

As shown in fig. 1, two sides of the conveying device 1 are further provided with rotating devices 4, and the rotating devices 4 are used for driving the lifted winding drum 2 to rotate and wind;

the rotating device 4 comprises driving shafts 41 respectively positioned at two ends of the winding drum 2, one end of each driving shaft 41, which is close to the conveying device 1, is provided with a telescopic shaft 42, the center of the winding drum 2 is provided with a through hole (the through hole is square) for the telescopic shaft 42 to be inserted when extending out, and one driving shaft 41 is provided with a power part and is driven to rotate by the power part;

the power part is a motor, the motor drives the driving shaft 41 to rotate through belt or gear transmission, and the motor can also be directly meshed with the periphery of the winding drum 2 through a gear to directly drive the winding drum 2 to rotate;

in order to drive the telescopic shaft 42 to extend and retract, the rotating device 4 further comprises a telescopic cylinder 43 for driving the corresponding telescopic shaft 42 to extend and retract, two parallel plates 44 are arranged at the output end of the telescopic cylinder 43, a connecting ring is arranged on the periphery of the telescopic shaft 42 and is positioned between the two parallel plates 44 to drive the telescopic shaft 42 to extend and retract through the parallel plates 44, and the telescopic shaft 42 can also be driven to extend and retract through an inner screw rod.

The working principle is as follows:

the conveying belt moves, the winding drum 2 to be wound is conveyed forwards, the cylinder extends out to drive the abutting block to extend out, the winding drum 2 is conveyed to the sealing block 212 to abut against the abutting block, the winding drum 2 is prevented from continuing to advance, meanwhile, the photoelectric sensor senses that the winding drum 2 is in place, the conveying belt is stopped to convey, the lifting device 3 moves to lift the winding drum 2 upwards, then the telescopic cylinder 43 extends out to drive the telescopic shaft 42 to be inserted into the two ends of the winding drum, meanwhile, the lifting device 3 descends, and the driving shaft 41 drives the winding drum 2 to rotate under the driving of the motor;

after winding, the lifting device 3 rises again, the telescopic shaft 42 retracts, the lifting device 3 drives the wound winding drum 2 to descend to the conveying belt, the abutting block retracts, the conveying belt moves to convey the wound winding drum 2 away, the abutting block stretches out again, and the next winding drum 2 to be wound is conveyed to the station.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and those skilled in the art can make various modifications or equivalent substitutions within the spirit and scope of the present invention, and such modifications or equivalent substitutions should also be considered as falling within the scope of the present invention.

Claims (8)

1. The utility model provides a material collecting device is used in pencil production which characterized in that: the winding device comprises a conveying device (1), wherein the conveying device (1) is used for conveying a winding drum (2), at least one straight line abutting edge is arranged on the periphery of the winding drum (2), the winding drum (2) is placed on the conveying device (1) through the abutting edge, lifting blocks (23) are arranged at two ends of the winding drum (2), and lifting devices (3) which are used for abutting against the lifting blocks (23) and lifting the winding drum (2) are arranged at two sides of the conveying device (1); and rotating devices (4) are further arranged on two sides of the conveying device (1), and the rotating devices (4) are used for driving the winding drum (2) after lifting to rotate and wind.

2. The material collecting device is used in pencil production of claim 1, characterized in that: the two ends of the winding drum (2) comprise end plates (21) and sliding plates (22), abutting edges are arranged on one sides of the end plates (21), the sliding plates (22) are connected to the outer sides of the end plates (21) in a sliding mode, the sliding paths of the sliding plates comprise rolling positions and conveying positions, and when the sliding plates (22) slide outwards to the rolling positions, the peripheries of the sliding plates (22) and the peripheries of the end plates (21) are spliced into a circle; when the sliding plate (22) slides inwards to the conveying position, the periphery of the sliding plate (22) is completely positioned on the inner side of the abutting edge of the end plate (21).

3. The material collecting device is used in pencil production of claim 2, characterized in that: a plurality of T-shaped sliding rails (211) are arranged on the end plate (21), and T-shaped blocks matched with the sliding rails (211) are arranged on the inner side of the sliding plate (22).

4. The material collecting device is used in pencil production of claim 3, characterized in that: the end plate (21) is further provided with at least one group of threaded holes and/or pin holes, and when the sliding plate (22) slides outwards to a rolling position, the sliding plate (22) is fixed on the end plate (21) through screws and/or pin shafts.

5. The material collecting device is used in pencil production of claim 1, characterized in that: the lifting block (23) is a regular polygon, and the lifting device (3) comprises a V-shaped block (31) matched with the lifting block (23) and an oil cylinder/linear module (32) for driving the V-shaped block to lift up and down.

6. The material collecting device is used in pencil production of claim 1, characterized in that: rotating device (4) are equipped with telescopic shaft (42) including drive shaft (41) that are located winding reel (2) both ends respectively, drive shaft (41) are close to conveyor (1) one end, and winding reel (2) center is seted up and is supplied telescopic shaft (42) to stretch out time male through-hole, is equipped with the power spare on one of them drive shaft (41) to rotate through the drive of power spare drive.

7. The material collecting device is used in pencil production of claim 6, characterized in that: the rotating device (4) further comprises a telescopic cylinder (43) used for driving the corresponding telescopic shaft (42) to stretch, two parallel plates (44) are arranged at the output end of the telescopic cylinder (43), a connecting ring is arranged on the periphery of the telescopic shaft (42), and the connecting ring is positioned between the two parallel plates (44).

8. The material collecting device is used in pencil production of claim 1, characterized in that: the conveying device (1) further comprises two abutting blocks driven by the air cylinder to stretch, and the two abutting blocks are respectively abutted to conveying paths on two sides of the winding drum (2).

Images