CN220165153U - Silicon steel coil transfer device and transfer system - Google Patents

Abstract

The utility model relates to the technical field of transformer processing, in particular to a silicon steel coil transfer device and a transfer system; the silicon steel coil transfer device comprises a mounting frame, a transfer support frame, a transfer seat, a grabbing module and a first driving module, wherein the transfer support frame is connected to the mounting frame in a sliding manner along the extending direction of a longitudinal shearing line, the transfer seat is connected to the transfer support frame in a sliding manner, the transfer support frame slides to one side of a silicon steel coil to be transferred, the transfer seat slides to the silicon steel coil to be transferred along the transfer support frame, the grabbing module moves to the silicon steel coil to be transferred along with the sliding of the transfer seat, the first driving module can drive the grabbing module to grab the silicon steel coil, the silicon steel coil can be transferred to a warehouse body, and the transfer system can realize transfer of the silicon steel coil by arranging the transfer device without manually transferring the silicon steel coil, so that manpower consumed in the transfer process of the silicon steel coil is effectively reduced, and the transfer efficiency of the silicon steel coil is improved.

Description

Silicon steel coil transfer device and transfer system

Technical Field

The utility model relates to the technical field of transformer processing, in particular to a silicon steel coil transfer device and a transfer system.

Background

The transformer coil is a core part of the transformer, and mainly comprises silicon steel coils, the silicon steel coils are divided into coils with different widths according to the requirement through longitudinal cutting wires, the divided coils are cut into sheets with various shapes and sizes through transverse cutting wires, the silicon steel coils cut through the longitudinal cutting wires are required to be transferred from the longitudinal cutting wires to a warehouse body for stacking, and the silicon steel coils are convenient to transfer by a crane in the prior art.

The utility model discloses a transformer silicon steel roll transportation crane as disclosed in the patent document with publication number CN114772507B, including frame, drive division and bearing part, frame and bearing part are connected to drive division, and this transportation crane is born the weight of the silicon steel roll through the tray on the bearing part, and the rethread control frame removes alright realize transporting the silicon steel roll.

The existing crane can provide convenience for transferring silicon steel coils, but before transferring silicon steel coils, the silicon steel coils are required to be manually conveyed to the crane, and the crane is controlled to move, so that the silicon steel coils are required to consume larger manpower in the transferring process, and the transferring efficiency is lower.

Disclosure of Invention

The utility model aims to overcome the technical defects, and provides a silicon steel coil transferring device and a silicon steel coil transferring system, which solve the technical problems of high manpower consumption and low transferring efficiency in the silicon steel coil transferring process in the prior art.

In order to achieve the technical purpose, the technical scheme of the utility model provides a silicon steel coil transferring device, which comprises:

the mounting frame is arranged between the longitudinal shearing line and the warehouse body;

the transferring support frame is connected with the mounting frame in a sliding manner along the extending direction of the longitudinal shearing line;

the transferring seat is connected with the transferring support frame in a sliding manner and can move to the longitudinal shearing line and the warehouse body through sliding along the transferring support frame;

the grabbing module is connected with the transfer seat;

the first driving module is in driving connection with the grabbing module and is used for driving the grabbing module to grab the silicon steel roll of the longitudinal shearing line when the transfer seat moves to the longitudinal shearing line.

Optionally, the grabbing module comprises a sliding frame and a suspension piece, the sliding frame is connected with the transferring seat in a sliding manner along the height direction of the mounting frame, the suspension piece is fixed on the sliding frame, and the first driving module is connected with the sliding frame and used for driving the sliding frame to slide along the mounting frame, so that the suspension piece suspends the silicon steel roll.

Optionally, the sliding frame is provided with a first rack, the first rack towards the direction of height of mounting bracket extends, first drive module includes first motor and first gear, first motor is fixed in and transports the support frame, first gear is fixed first motor's spindle and with first rack meshing.

Optionally, the first driving module further comprises a driving cylinder, and the driving cylinder is fixed on the transfer seat and connected with the sliding frame and used for driving the sliding frame to slide along the transfer seat.

Optionally, two driving cylinders are provided, and the two driving cylinders are respectively located at two sides of the sliding frame.

Optionally, the both sides of carriage are provided with the slide rail, the slide rail towards the direction of height of mounting bracket extends, it is fixed with the slider to transport the seat, the slider with slide rail sliding connection.

Optionally, an elastic supporting block is arranged on the surface of the suspension piece and used for supporting the silicon steel coil.

Optionally, the silicon steel roll transferring device further comprises a second driving module, the second driving module comprises a second motor and a second gear, the transferring support frame is provided with a second rack, the second rack extends towards the width direction of the mounting frame, the second motor is fixed on the transferring seat, and the second gear is fixed on a shaft of the motor and meshed with the second rack.

Optionally, the silicon steel roll transferring device further comprises a third driving module, the third driving module comprises a third motor and a transmission shaft, third racks are arranged on two sides of the mounting frame and extend towards the length direction of the mounting frame, the third motor is fixed on the transferring support frame, the transmission shaft is fixed on a shaft of the third motor and is rotationally connected with the transferring support frame, and a third gear is arranged on the transmission shaft and meshed with the third racks.

Compared with the prior art, the silicon steel roll transfer device provided by the utility model has the beneficial effects that: through the arrangement of the installation frame, the transfer support frame, the transfer seat, the grabbing module and the first driving module, when the transfer work of the silicon steel coil from the longitudinal shearing line to the warehouse body is carried out, the installation frame can be arranged between the longitudinal shearing line and the warehouse body, the transfer support frame is connected with the installation frame in a sliding manner along the extending direction of the longitudinal shearing line, the transfer support frame can move to one side of the silicon steel coil to be transferred on the longitudinal shearing line through the sliding along the installation frame, the transfer seat is connected with the transfer support frame in a sliding manner, after the transfer support frame slides to one side of the silicon steel coil to be transferred, the transfer seat moves to the silicon steel coil to be transferred through the sliding along the transfer support frame, snatch the module and be connected with transporting the seat, and then can follow the sliding movement who transports the seat and to wait to transport the silicon steel roll, snatch the module and remove to the silicon steel roll after, first drive module drive snatchs the module action, snatch the silicon steel roll through snatch the module, and transport the seat and to the slip of storehouse body direction, can transport the silicon steel roll to the storehouse body, through the above setting of transfer device, need not to realize transporting the silicon steel roll through artifical transport silicon steel roll, and then effectively reduce the manpower that the silicon steel roll transportation process consumed, promote the transportation efficiency of silicon steel roll.

In order to achieve the technical purpose, the technical scheme of the utility model also provides a silicon steel coil transfer system which comprises a longitudinal shearing line, a warehouse body and the silicon steel coil transfer device, wherein the silicon steel coil transfer device is arranged between the longitudinal shearing line and the warehouse body.

Compared with the prior art, the silicon steel roll transfer system provided by the utility model has the beneficial effects that: the silicon steel coil transfer system is characterized in that the silicon steel coil transfer device is arranged between the longitudinal shearing line and the warehouse body, and then the silicon steel coil can be transferred without manual handling, so that the manpower consumed in the silicon steel coil transfer process is effectively reduced, and the transfer efficiency of the silicon steel coil is improved.

Drawings

Fig. 1 is a schematic structural diagram of a silicon steel coil transfer device according to an embodiment of the present utility model.

Fig. 2 is another schematic structural diagram of a silicon steel coil transferring device according to an embodiment of the present utility model.

Fig. 3 is a top view of a silicon steel roll transfer system according to an embodiment of the present utility model.

Wherein, each reference sign in the figure:

10-mounting rack 11-third rack 20-transferring support frame

21-second rack 30-transfer seat 31-slide block

40-gripper module 41-carriage 42-suspension

50-first drive module 51-first motor 52-first gear

53-drive cylinder 60-second drive module 61-second motor

62-second gear 70-third drive module 71-third motor

72-drive shaft 411-first rack 412-slide rail

421-elastic supporting block 721-third gear 10 a-longitudinal shearing line

20 a-a warehouse body 30 a-a silicon steel roll transfer device.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The utility model provides a silicon steel coil transferring device which is used for transferring silicon steel coils from a longitudinal shear line to a warehouse body, and as shown in fig. 1-2, the silicon steel coil transferring device comprises a mounting frame 10, a transferring support frame 20, a transferring seat 30, a grabbing module 40 and a first driving module 50, wherein the mounting frame 10 is arranged between the longitudinal shear line and the warehouse body; the transferring support frame 20 is connected to the mounting frame 10 in a sliding manner along the extending direction of the longitudinal shearing line; the transferring seat 30 is slidably connected to the transferring support frame 20, and can move to the longitudinal shearing line and the warehouse body by sliding along the transferring support frame 20; the grabbing module 40 is connected with the transferring seat 30; the first driving module 50 is in driving connection with the grabbing module 40, and is used for driving the grabbing module 40 to grab the silicon steel roll of the longitudinal shearing line when the transferring seat 30 moves to the longitudinal shearing line.

Specifically, by arranging the mounting frame 10, the transferring support frame 20, the transferring seat 30, the grabbing module 40 and the first driving module 50, when the transferring work of the silicon steel coil from the longitudinal shear line to the warehouse body is performed, the mounting frame 10 can be arranged between the longitudinal shear line and the warehouse body, the transferring support frame 20 is slidably connected to the mounting frame 10 along the extending direction of the longitudinal shear line, the transferring support frame 20 can be moved to one side of the silicon steel coil to be transferred on the longitudinal shear line by sliding along the mounting frame 10, the transferring seat 30 is slidably connected to the transferring support frame 20, after the transferring support frame 20 is slid to one side of the silicon steel coil to be transferred, the transferring seat 30 is moved to the silicon steel coil to be transferred by sliding along the transferring support frame 20, snatch the module 40 and be connected with transporting the seat 30, and then can follow the sliding movement of transporting the seat 30 and wait to transport the silicon steel roll, snatch the module 40 and remove to the silicon steel roll after, first drive module 50 drive snatch the module 40 action, snatch the silicon steel roll through snatch the module 40, and transport the seat 30 and to the slip of storehouse body direction, can transport the silicon steel roll to the storehouse body, through the above setting of transfer device, need not to transport the silicon steel roll through artifical transport silicon steel roll can realize transporting the silicon steel roll, and then effectively reduce the manpower that the silicon steel roll transportation process consumed, promote the transportation efficiency of silicon steel roll.

In this embodiment, as shown in fig. 3, when the mounting frame 10 is fixed, the length direction of the mounting frame 10 should be the same as the extending direction of the longitudinal shearing line, two sides of the mounting frame 10 are respectively located at one side of the longitudinal shearing line and the warehouse body, and the transferring support frame 20 is erected on the mounting frame 10 and is in sliding connection with the mounting frame 10 along the length direction of the mounting frame 10, so that the transferring support frame 20 moves along the extending direction of the longitudinal shearing line, and further the transferring support frame 20 can move to one side of the silicon steel coil placed on the longitudinal shearing line.

It can be appreciated that the grabbing module 40 may be connected with the transferring seat 30 in a manner of fixing or sliding with the transferring seat 30, the grabbing module 40 may be a clamping mechanism, and the first driving module 50 is configured to drive the clamping members of the clamping mechanism to close together, so as to clamp the silicon steel coil, and further to grab the silicon steel coil.

In this embodiment, as shown in fig. 1-2, the grabbing module 40 includes a sliding frame 41 and a suspension member 42, the sliding frame 41 is slidably connected to the transferring base 30 along the height direction of the mounting frame 10, the suspension member 42 is fixed to the sliding frame 41, and the first driving module 50 is connected to the sliding frame 41 and is used for driving the sliding frame 41 to slide along the mounting frame 10, so that the suspension member 42 suspends the silicon steel coil.

Specifically, when the transferring seat 30 moves towards the silicon steel coil, the suspension member 42 of the grabbing module 40 is driven to connect with the silicon steel coil, and after the transferring seat 30 is stable, the first driving module 50 drives the sliding frame 41 to slide upwards, so that the suspension member 42 lifts the silicon steel sheet to be transferred, and grabbing of the silicon steel sheet is further achieved.

It will be appreciated that the suspension member 42 may be a member such as a tray, etc. capable of suspending a silicon steel coil, and the suspension member 42 may be connected to the inner side, the bottom, etc. of the silicon steel coil, and only needs to suspend the silicon steel coil.

In this embodiment, further, as shown in fig. 1-2, the suspension 42 includes hooks. Specifically, when the transfer seat 30 moves towards the silicon steel coil, the lifting hook can be driven to enter the inner ring of the silicon steel coil, and the sliding frame 41 moves upwards under the driving of the first driving module 50, so that the lifting hook can suspend the silicon steel coil through the inner ring of the silicon steel coil.

In this embodiment, further, in order to prevent the silicon steel coil from being damaged when the suspension member 42 is suspended, as shown in fig. 1-2, an elastic supporting block 421 is provided on the surface of the suspension member 42, and the elastic supporting block 421 is used for supporting the silicon steel coil. Specifically, the elastic supporting function of the elastic supporting block 421 can prevent the suspension member 42 from wearing the silicon steel coil, thereby effectively preventing the silicon steel coil from wearing in the suspension process.

In this embodiment, as shown in fig. 1, the carriage 41 is provided with a first rack 411, the first rack 411 extends in the height direction of the mounting frame 10, the first driving module 50 includes a first motor 51 and a first gear 52, the first motor 51 is fixed to the transport supporting frame 20, and the first gear 52 fixes the shaft of the first motor 51 and meshes with the first rack 411. Specifically, after the transferring seat 30 moves to drive the suspension member 42 of the grabbing module 40 to connect with the silicon steel coil, the first motor 51 is started, and a driving force acting on the first rack 411 and upwards is generated through the transmission of the first gear 52, so that the sliding frame 41 is driven to slide upwards, and the suspension member 42 suspends the silicon steel sheet to be transferred.

In this embodiment, to compensate for the lack of the driving force of the first motor 51, as shown in fig. 1-2, the first driving module 50 further includes a driving cylinder 53, where the driving cylinder 53 is fixed to the transfer seat 30 and connected to the sliding frame 41, for driving the sliding frame 41 to slide along the transfer seat 30. Specifically, when the driving force of the first motor 51 is insufficient to hoist the silicon steel sheet, the driving cylinder 53 may further provide the driving force of the suspended silicon steel sheet to the carriage 41, thereby achieving the suspension of the silicon steel sheet under the common driving of the first motor 51 and the driving cylinder 53.

In the present embodiment, further, the driving cylinder 53 is a hydraulic cylinder.

In the present embodiment, the suspension and transfer of the transfer device to the silicon steel sheet of 2 tons or more can be realized by the common driving of the driving cylinder 53 and the first motor 51.

In the present embodiment, as shown in fig. 1 to 2, two driving cylinders 53 are provided, and the two driving cylinders 53 are located on both sides of the carriage 41, respectively. Specifically, the two driving cylinders 53 are driven together, so that the stress of the suspension piece 42 when the silicon steel coil is suspended can be effectively balanced, and stable transportation of the silicon steel coil is further protected.

In this embodiment, as shown in fig. 1-2, the sliding rails 412 are disposed on two sides of the sliding frame 41, the sliding rails 412 extend toward the height direction of the mounting frame 10, the sliding blocks 31 are fixed on the transferring seat 30, and the sliding blocks 31 are slidably connected with the sliding rails 412. Specifically, the sliding frame 41 is slidably connected with the sliding blocks 31 on the transferring seat 30 through the sliding rails 412 on two sides, so as to realize stable sliding of the sliding frame 41 along the transferring seat 30.

In this embodiment, as shown in fig. 2, the silicon steel roll transferring device further includes a second driving module 60, the second driving module 60 includes a second motor 61 and a second gear 62, the transferring support frame 20 is provided with a second rack 21, the second rack 21 extends toward the width direction of the mounting frame 10, the second motor 61 is fixed on the transferring seat 30, and the second gear 62 is fixed on the shaft of the motor and is meshed with the second rack 21.

Specifically, after the transfer support frame 20 moves to one side of the silicon steel roll to be transferred on the longitudinal shearing line through sliding along the mounting frame 10, the second motor 61 is started, the second motor 61 generates a driving force acting on the second rack 21 towards the direction of the warehouse body under the transmission of the second gear 62, and the transfer seat 30 moves to the silicon steel roll towards the direction of the longitudinal shearing line under the reverse acting force of the second rack 21.

In this embodiment, as shown in fig. 1-2, the silicon steel roll transferring device further includes a third driving module 70, the third driving module 70 includes a third motor 71 and a transmission shaft 72, the two sides of the mounting frame 10 are provided with third racks 11, the third racks 11 extend towards the length direction of the mounting frame 10, the third motor 71 is fixed on the transferring support frame 20, the transmission shaft 72 is fixed on the shaft of the third motor 71 and is rotationally connected with the transferring support frame 20, the transmission shaft 72 is provided with a third gear 721, and the third gear 721 is meshed with the third racks 11. Specifically, when the third motor 71 is started, the transmission shaft 72 is driven to rotate, so that the third gear 721 generates a force acting on the third rack 11 along the length direction of the mounting frame 10, and further drives the transfer support frame 20 to move along the length direction of the longitudinal shearing line.

In order to achieve the above technical objective, the present utility model further provides a silicon steel roll transfer system, as shown in fig. 3, comprising a slitting line 10a, a warehouse body 20a and the silicon steel roll transfer device 30a, wherein the silicon steel roll transfer device 30a is disposed between the slitting line 10a and the warehouse body 20a.

Specifically, the silicon steel coil transfer system is characterized in that the silicon steel coil transfer device 30a is arranged between the longitudinal shearing line 10a and the warehouse body 20a, and then transfer of the silicon steel coil can be achieved without manual carrying, so that manpower consumed in the silicon steel coil transfer process is effectively reduced, and the transfer efficiency of the silicon steel coil is improved.

In this embodiment, a transfer trolley is disposed on one side of the warehouse body 20a, and the transfer device transfers the silicon steel coil to a tray of the transfer trolley, and the transfer trolley places the silicon steel coil on the tray to the warehouse body 20a.

The silicon steel coil transfer system provided by the utility model has the following specific working principle: when the silicon steel roll of the longitudinal shear line 10a is transferred to the warehouse body 20a, the third motor 71 is started to drive the transmission shaft 72 to rotate, so that the third gear 721 drives the transfer support frame 20 to move along the length direction of the longitudinal shear line 10a, the transfer support frame 20 is moved to one side of the silicon steel roll to be transferred, then the second motor 61 is started, the transfer seat 30 is driven to move towards the longitudinal shear line 10a by the second gear 62 to the silicon steel roll, the lifting hook enters the inner ring of the silicon steel roll, the first motor 51 is started, the sliding frame 41 is driven by the first gear 52 to slide upwards, the lifting hook hangs the silicon steel roll, if the hanging force of the lifting hook is insufficient, the driving cylinder 53 can further provide driving force for the sliding frame 41 according to the weight of the silicon steel roll, after the lifting hook hangs the silicon steel roll, the suspended silicon roll can be transferred to the warehouse body 20a by the driving of the second motor 61 and the third motor 71, and after the silicon steel roll is transferred to the warehouse body 20a, the first motor 51 is started to stably transfer the suspended silicon steel roll to the final transfer roll placed on the tray of the warehouse body 20a.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims (10)

1. A silicon steel coil transfer device for transferring a silicon steel coil from a longitudinal shear line to a warehouse body, comprising:

the mounting frame is arranged between the longitudinal shearing line and the warehouse body;

the transferring support frame is connected with the mounting frame in a sliding manner along the extending direction of the longitudinal shearing line;

the transferring seat is connected with the transferring support frame in a sliding manner and can move to the longitudinal shearing line and the warehouse body through sliding along the transferring support frame;

the grabbing module is connected with the transfer seat;

the first driving module is in driving connection with the grabbing module and is used for driving the grabbing module to grab the silicon steel roll of the longitudinal shearing line when the transfer seat moves to the longitudinal shearing line.

2. The silicon steel roll transfer device of claim 1, wherein the grabbing module comprises a sliding frame and a suspension piece, the sliding frame is slidably connected to the transfer seat along the height direction of the mounting frame, the suspension piece is fixed to the sliding frame, and the first driving module is connected to the sliding frame and is used for driving the sliding frame to slide along the mounting frame, so that the suspension piece suspends the silicon steel roll.

3. The silicon steel roll transfer device as recited in claim 2, wherein the carriage is provided with a first rack extending in a height direction of the mounting frame, the first drive module includes a first motor and a first gear, the first motor is fixed to the transfer support frame, and the first gear fixes a crankshaft of the first motor and engages with the first rack.

4. The silicon steel roll transfer device of claim 2, wherein the first drive module further comprises a drive cylinder secured to the transfer seat and coupled to the carriage for driving the carriage to slide along the transfer seat.

5. The silicon steel coil transfer device as set forth in claim 4 wherein there are two drive cylinders, one on each side of the carriage.

6. The silicon steel coil transfer device according to claim 2, wherein sliding rails are arranged on two sides of the sliding frame, the sliding rails extend towards the height direction of the mounting frame, and the transfer seat is fixed with a sliding block which is in sliding connection with the sliding rails.

7. The silicon steel coil transfer device as set forth in claim 2 wherein the surface of the suspension is provided with an elastic support block for supporting the silicon steel coil.

8. The silicon steel roll transfer device as recited in any one of claims 1 to 7 further comprising a second drive module including a second motor and a second gear, the transfer support frame being provided with a second rack extending in a width direction of the mounting frame, the second motor being fixed to the transfer seat, the second gear being fixed to a crankshaft of the motor and engaged with the second rack.

9. The silicon steel coil transfer device according to any one of claims 1 to 7, further comprising a third driving module, wherein the third driving module comprises a third motor and a transmission shaft, third racks are arranged on two sides of the mounting frame and extend towards the length direction of the mounting frame, the third motor is fixed on the transfer support frame, the transmission shaft is fixed on a shaft of the third motor and is in rotational connection with the transfer support frame, a third gear is arranged on the transmission shaft, and the third gear is meshed with the third racks.

10. A silicon steel coil transfer system, characterized by comprising a longitudinal shearing line, a warehouse body and the silicon steel coil transfer device according to any one of claims 1-9, wherein the silicon steel coil transfer device is arranged between the longitudinal shearing line and the warehouse body.