CN220537206U - Cable reel's reel device - Google Patents

Abstract

A coil feeding and discharging device of a cable coiling tool comprises a frame, a power device, a transmission mechanism and a lifting mechanism; the power device comprises a power source and a power output rotating shaft connected with the power source; the power output rotating shaft is rotationally connected to the frame; the lifting mechanism comprises a swinging lifting plate; the swing lifting plate is composed of two support columns and a connecting rod connected with the tail ends of the two support columns; the head ends of the two support columns face upwards, and the head ends of the two support columns are respectively connected with a clamping mechanism for supporting a disc shaft; the two support columns are respectively connected to the frame in a rotating way, and the rotation axes of the two support columns are overlapped and parallel to the ground; the transmission mechanism is a conversion mechanism for rotary motion and linear operation; the power output rotating shaft is connected with the rotary motion input mechanism of the conversion mechanism; the swing lifting plate is connected to the linear motion output mechanism of the conversion mechanism, and the connection position deviates from the rotation axis of the support column. The utility model greatly reduces the labor intensity of workers and improves the production efficiency.

Description

Cable reel's reel device

Technical Field

The utility model belongs to equipment for cable production, and particularly relates to a winding device of a cable drum for winding up and winding down of a cable drum.

Background

In the operation processes of cable production, storage, transportation and the like, the procedures of winding and unwinding the cable coil (coil tool) are indispensable, and in the paying-off procedure of the cable coil, the cable coil is required to be put on a paying-off rack, and then the cable is wound on the cable coil. Generally, the wire coil is put on the pay-off rack by adopting modes such as travelling crane, even manual lifting and the like, so that the labor intensity is high and the efficiency is low.

Disclosure of Invention

The utility model provides a quick lifting disc loading and unloading mechanism which can replace a travelling crane, reduces labor intensity, increases efficiency and solves the problems in the prior art.

The utility model provides a use manpower sparingly, save time, the cable drum utensil's of quick lift device of putting on or off a wall, includes frame, power device, drive mechanism and elevating system;

the power device comprises a power source and a power output rotating shaft connected with the power source; the power output rotating shaft is rotationally connected to the frame;

the lifting mechanism comprises a swinging lifting plate; the swinging lifting plate is composed of two support columns and a connecting rod connected with the tail ends of the two support columns, the head ends of the two support columns face upwards, and the head ends of the two support columns are respectively connected with a clamping mechanism for supporting a disc shaft; the two support columns are respectively connected to the frame in a rotating way, and the rotation axes of the two support columns are overlapped and parallel to the ground;

the transmission mechanism is a conversion mechanism for rotary motion and linear operation;

the power output rotating shaft is connected with the rotary motion input mechanism of the conversion mechanism; the swing lifting plate is connected to the linear motion output mechanism of the conversion mechanism, and the connection position deviates from the rotation axis of the support column.

Further, at least one support column of the two support columns is connected with a linear motion output mechanism of the conversion mechanism.

Specifically: the power source is a motor, and the power output rotating shaft is a motor output shaft; the transmission mechanism comprises a speed reducer and a screw rod mechanism; the input shaft and the output shaft of the speed reducer are mutually perpendicular; the output shaft of the motor is connected with the input shaft of the speed reducer, and the screw rod of the screw rod mechanism is connected with the output shaft of the speed reducer;

the machine base of the speed reducer is connected with a pore plate, and the pore plate is provided with a hole for power supply and a motor output shaft to pass through; the motor and the speed reducer are respectively connected to two sides of the pore plate; the top of the pore plate is connected with a shaft sleeve, the axis of the shaft sleeve is parallel to the input shaft of the speed reducer, and one side surface of the frame is connected with a shaft which is in fit connection with the shaft sleeve;

the nut of the screw mechanism is rotationally connected to the support column, and the rotation axis is perpendicular to the screw rod of the screw mechanism.

Specifically: the two support columns are respectively connected with a hinge shaft, and the hinge shafts are connected with the frame through bearing devices.

The bearing device is positioned at the bottom of the frame, the hinge shaft is close to the tail end of the support column, and the connection position of the linear motion output mechanism of the conversion mechanism and the swinging lifting plate is between the head end of the support column and the hinge shaft. Specifically, a nut of the screw mechanism is connected to a position between the head end of the support column and the hinge shaft.

Further: the speed reducer is a T-shaped speed reducer with an input shaft and two output shafts, the axes of the two output shafts are the same, one output shaft is connected with a screw rod of a screw rod mechanism, and the other output shaft is connected with a hand wheel; the input shaft of the speed reducer is connected with the output shaft of the motor through a clutch mechanism.

Under the condition of power supply, a motor can be used as a power source, and under the condition of no power supply, the output shaft of the motor can be disconnected, and a hand wheel is directly adopted.

Further: the clamping mechanism for supporting the disc shaft is a retaining ring; the retaining ring comprises a fixed half ring and a rotary half ring; the head part of the fixing semi-ring is rotationally connected with the tail part of the rotating semi-ring, and the tail part of the fixing semi-ring is detachably connected with the head part of the rotating semi-ring through a bolt structure.

The utility model has the advantages that: the clamping mechanism part of the swingable lifting plate can be lifted quickly, so that the purpose of quickly loading and unloading discs is achieved, and the efficiency of loading and unloading discs is improved.

The utility model greatly reduces the labor intensity of workers, improves the production efficiency and solves the technical problems mentioned in the background art.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present utility model.

Fig. 2 is a schematic diagram of a front view structure according to an embodiment of the present utility model.

Fig. 3 is a schematic left-view structure of an embodiment of the present utility model.

Fig. 4 is a schematic top view of an embodiment of the present utility model.

Fig. 5 is a schematic diagram of the structure of the front disc in the embodiment of the present utility model.

Fig. 6 is a schematic structural diagram of the disc according to the embodiment of the present utility model.

In the above figures, the clamping mechanism is not shown as a retainer half ring for clarity of illustration.

Fig. 7 is a schematic structural diagram of a clamping mechanism according to an embodiment of the utility model.

In the figure: the device comprises a motor 1, an orifice plate 2, a shaft sleeve 3, a screw mechanism 4, a nut 5, a swing lifting plate 6, a hinge shaft 7, a bearing device 8, a frame 9, a support column 10, a connecting rod 11, a clamping mechanism 12, a speed reducer 13, a rotary half ring 14, a fixed half ring 15 and a disc 16.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and detailed description below:

referring to fig. 1 to 4, a device for winding and unwinding a cable drum comprises a frame 9, a power device, a transmission mechanism and a lifting mechanism;

the power device comprises a power source and a power output rotating shaft connected with the power source; the power output rotating shaft is rotationally connected with the frame (in the example, the power source is a motor, and the whole motor needs to rotate to meet the requirement of the swinging motion of the swinging lifting plate by the action characteristic of the screw rod mechanism);

the lifting mechanism comprises a swinging lifting plate; the swing lifting plate is composed of two support columns 10 and a connecting rod 11 connected with the tail ends of the two support columns; the head ends of the two support columns face upwards, and the head ends of the two support columns are respectively connected with a clamping mechanism 12 for supporting a disc shaft; the two support columns 10 are respectively connected to the frame 9 in a rotating way, and the rotation axes of the two support columns are overlapped and parallel to the ground;

the transmission mechanism is a conversion mechanism for rotary motion and linear operation;

the power output rotating shaft is connected with the rotary motion input mechanism of the conversion mechanism; the swing lifting plate is connected to the linear motion output mechanism of the conversion mechanism, and the connection position deviates from the rotation axis of the support column. Under this structure, after the power take off pivot is from passing, through conversion mechanism conversion motion mode, promote swing lifter plate, swing lifter plate rotates. Meanwhile, due to the characteristic of linear motion, the power output rotating shaft also rotates (is not autorotation, and the rotating axis is parallel to the rotating axis of the swinging lifting plate).

At least one support column of the two support columns is connected with a linear motion output mechanism of the conversion mechanism.

In this embodiment: the power source is a motor 1, and the power output rotating shaft is a motor output shaft; the transmission mechanism comprises a speed reducer 13 and a screw rod mechanism 4, and an input shaft and an output shaft of the speed reducer are mutually perpendicular; the output shaft of the motor is connected with the input shaft of the speed reducer, and the screw rod of the screw rod mechanism is connected with the output shaft of the speed reducer;

the machine base of the speed reducer is connected with a pore plate 2, and the pore plate is provided with a hole through which a power supply and a motor output shaft pass; the motor and the speed reducer are respectively connected to two sides of the pore plate; the top of the pore plate is connected with a shaft sleeve 3, the axis of the shaft sleeve is parallel to the input shaft of the speed reducer, and one side surface of the frame is connected with a shaft which is in fit connection with the shaft sleeve;

the nut 5 of the screw mechanism is rotatably connected to the support column 10 with the axis of rotation perpendicular to the screw of the screw mechanism.

In this example, two support columns are respectively connected with a hinge shaft 7, and the hinge shaft is connected to a frame 9 through a bearing device 8. The bearing device is positioned at the bottom of the frame, and the hinge shaft is close to the tail end of the support column; the connection position of the linear motion output mechanism (namely the nut of the screw rod mechanism matched with the screw rod) of the conversion mechanism and the swinging lifting plate is between the head end of the support column and the hinge shaft.

The further improvement may be that the speed reducer 13 is a T-type speed reducer (T-type double-output shaft speed reducer) with two output shafts of one input shaft, the axes of the two output shafts are the same, one output shaft is connected with a screw rod of the screw rod mechanism, and the other output shaft is connected with a hand wheel; the input shaft of the speed reducer is connected with the output shaft of the motor through a clutch mechanism. The clutch mechanism is in the prior art, specifically can be that a sleeve is connected to the end part of an input shaft of the speed reducer, an output shaft of the motor stretches into the sleeve, pin holes are formed in the sleeve and the output shaft of the motor, and bolts are installed in the pin holes. And removing the bolts, and then the clutch mechanism is in a separated state.

Referring to fig. 7, in this example, the clamping mechanism 12 for supporting the disc shaft is a snap ring; the retaining ring comprises a fixed half ring 15 and a rotary half ring 14; the head part of the fixing semi-ring is rotationally connected with the tail part of the rotating semi-ring, and the tail part of the fixing semi-ring is detachably connected with the head part of the rotating semi-ring through a bolt structure.

The disc feeding and discharging device can be used as independent equipment and can be installed on other equipment needing to rapidly feed and discharge discs, such as a rack 9 of a cable paying-off mechanism in the example. The gear motor 1 drives the screw rod 4 to rotate, the nut 5 moves linearly along the screw rod 4, and the nut 5 drives the swing lifting plate 6 to swing by taking the hinge shaft 7 as the circle center.

The upper disc and lower disc device can be lifted quickly, so that the purpose of quickly feeding and discharging discs is achieved, and the efficiency of feeding and discharging discs is improved. When in use, the upper and lower disc devices of the embodiment are suitable for pay-off frames for passive pay-off. If the wire coil is required to be put down actively, further improvement is needed, and a power device and a transmission mechanism are additionally arranged for the wire coil to drive the wire coil to rotate for winding/unwinding.

Referring to fig. 5 and 6, in the use process of the disc loading and unloading device of this example, the disc loading process is:

firstly, starting the motor 1 to rotate positively, and further driving a screw rod of the screw rod mechanism 4 to rotate; while the nut 5 moves linearly along the screw; simultaneously, the nut 5 drives the swing lifting plate 6 to swing by taking the hinge shaft 7 as the center of a circle;

then, the tray 16 is rolled onto the swing lifting plate 6 and positioned by a clamping mechanism;

then, the motor 1 is started again to rotate reversely, the motor 1 drives the screw rod of the screw rod mechanism 4 to rotate, the nut 5 moves linearly along the screw rod, and meanwhile, the nut 5 drives the swing lifting plate 6 to swing by taking the hinge shaft 7 as the circle center;

thus, the tray 16 is quickly lifted and stopped after being in place, and the tray is put on.

The process of the lower disc is the reverse process of the upper disc process.

Claims (7)

1. The upper and lower disc device of the cable reel is characterized by comprising a frame, a power device, a transmission mechanism and a lifting mechanism;

the power device comprises a power source and a power output rotating shaft connected with the power source; the power output rotating shaft is rotationally connected to the frame;

the lifting mechanism comprises a swinging lifting plate; the swing lifting plate is composed of two support columns and a connecting rod connected with the tail ends of the two support columns; the head ends of the two support columns face upwards, and the head ends of the two support columns are respectively connected with a clamping mechanism for supporting a disc shaft; the two support columns are respectively connected to the frame in a rotating way, and the rotation axes of the two support columns are overlapped and parallel to the ground;

the transmission mechanism is a conversion mechanism for rotary motion and linear operation;

the power output rotating shaft is connected with the rotary motion input mechanism of the conversion mechanism; the swing lifting plate is connected to the linear motion output mechanism of the conversion mechanism, and the connection position deviates from the rotation axis of the support column.

2. The cable reel of claim 1 wherein at least one of the two support posts is connected to a linear motion output mechanism of the conversion mechanism.

3. The cable reel feeding and discharging device as recited in claim 1, wherein said power source is a motor and said power output shaft is a motor output shaft; the transmission mechanism comprises a speed reducer and a screw rod mechanism; the input shaft and the output shaft of the speed reducer are mutually perpendicular; the output shaft of the motor is connected with the input shaft of the speed reducer, and the screw rod of the screw rod mechanism is connected with the output shaft of the speed reducer;

the machine base of the speed reducer is connected with a pore plate, and the pore plate is provided with a hole for power supply and a motor output shaft to pass through; the motor and the speed reducer are respectively connected to two sides of the pore plate; the top of the pore plate is connected with a shaft sleeve, the axis of the shaft sleeve is parallel to the input shaft of the speed reducer, and one side surface of the frame is connected with a shaft which is in fit connection with the shaft sleeve;

the nut of the screw mechanism is rotationally connected to the support column, and the rotation axis is perpendicular to the screw rod of the screw mechanism.

4. The cable reel mounting and dismounting device as set forth in claim 1, wherein the two support columns are respectively connected with a hinge shaft, and the hinge shaft is connected to the frame through a bearing device.

5. The cable reel mounting and dismounting device as set forth in claim 4, wherein the bearing means is located at the bottom of the housing and the hinge axis is located near the end of the support post; the connection position of the linear motion output mechanism of the conversion mechanism and the swinging lifting plate is between the head end of the support column and the hinge shaft.

6. The device for feeding and discharging a cable reel according to claim 3, wherein the speed reducer is a T-type speed reducer with two output shafts of an input shaft, the axes of the two output shafts are the same, one output shaft is connected with a screw rod of a screw rod mechanism, and the other output shaft is connected with a hand wheel; the input shaft of the speed reducer is connected with the output shaft of the motor through a clutch mechanism.

7. The cable reel feeding and discharging device as recited in claim 1, wherein said holding mechanism for supporting the reel shaft is a snap ring; the retaining ring comprises a fixed half ring and a rotary half ring; the head part of the fixing semi-ring is rotationally connected with the tail part of the rotating semi-ring, and the tail part of the fixing semi-ring is detachably connected with the head part of the rotating semi-ring through a bolt structure.