CN218024635U - Motor-driven hank grinds tail-wire receive and release machine - Google Patents

Abstract

The utility model discloses a motor-driven hank-grinding tail wire picking and laying machine, which comprises a motor-driven hank-grinding machine, a wire arranging device, a frame, a transmission shaft, a wire coil and a clutch part; the wire coil is arranged on the rack through a transmission shaft; one end of the transmission shaft is in transmission connection with the motorized winching through the clutch part; the wire arranging devices are arranged on the rack at intervals by parallel wire coils and are in transmission connection with the transmission shaft; the winding displacement ware is equipped with the winding displacement slider, the transmission shaft drive the winding displacement ware, on the winding displacement ware the longitudinal reciprocating motion of winding displacement slider along the transmission shaft. The utility model has the characteristics of can receive line and unwrapping wire in order with the tail wire.

Description

Motor-driven hank grinds tail-wire receive and release machine

Technical Field

The utility model relates to a motor-driven hank grinds tail wire radio and tape player.

Background

In the construction of an electric power transmission line, a motor-driven winching machine is important hoisting and traction equipment in the construction of the electric power industry, the equipment has no take-up function and only has the hoisting and traction function, a tail rope is required to be taken up by adopting a manual auxiliary method in tower assembling construction, the hoisting precision of tower materials is often controlled by a method of manually loosening the tail rope because the reeling and unreeling precision of the motor-driven winching machine cannot meet the requirement, 3 to 4 persons are required to control the tail rope in heavier tower materials in actual work, the manpower is often not controlled, and particularly, the running and grinding events of a steel wire rope are very easy to occur in a new steel wire rope (with high oil content).

Disclosure of Invention

The utility model aims at providing a motor-driven hank grinds tail-wire winding and unwinding machine to prior art defect.

In order to realize the above, the utility model discloses an aim at, take following technical scheme:

a motor-driven winching tail wire take-up and pay-off machine comprises a motor-driven winching, a wire arranging device, a rack, a transmission shaft, a wire coil and a clutch part; the wire coil is arranged on the rack through a transmission shaft; one end of the transmission shaft is in transmission connection with the motorized winching through the clutch part; the wire arranging devices are arranged on the rack at intervals by parallel wire coils and are in transmission connection with the transmission shaft; the winding displacement ware is equipped with the winding displacement slider, the transmission shaft drive the winding displacement ware, on the winding displacement ware the longitudinal reciprocating motion of winding displacement slider along the transmission shaft.

As a further improvement of the technical proposal, the motor-driven winching tail wire radio-cassette player also comprises a corner device and a flexible shaft; the corner device comprises a first corner device and a second corner device; the first corner device is mounted on the motorized winching; the motorized winching machine is provided with a winching output shaft, and the winching output shaft is in transmission connection with the first corner device; the second corner device is arranged on the rack and is in transmission connection with the clutch part; the first corner device and the second corner device are in transmission connection through a flexible shaft.

As a further improvement of the technical scheme, the corner device comprises a first driving wheel, a second driving wheel and a supporting frame; a first driving wheel and a second driving wheel are arranged in the supporting frame; the first driving wheel is in meshing transmission connection with the second driving wheel.

As a further improvement of the technical scheme, the first transmission wheel and the second transmission wheel are in meshing transmission connection through helical gears.

As a further improvement of the technical scheme, the first driving wheel and the second driving wheel are in meshing transmission connection through worm gears and worms.

As a further improvement of the technical proposal, the clutch part comprises a clutch and a clutch operating handle; and the clutch is provided with a clutch control handle which is used for regulating the opening and closing of the clutch.

As a further improvement of the technical proposal, the motor-driven winching tail wire retracting and releasing machine of the utility model also comprises a driving wheel, a driving medium and a driven wheel; the driving wheel is arranged on the transmission shaft; the driven wheel is mounted on the wire arranging device; the driving wheel is in transmission connection with the driven wheel through a transmission piece.

As a further improvement of the technical scheme, a chain transmission structure is adopted between the driving wheel and the driven wheel.

As a further improvement of the technical scheme, the wire arranging device further comprises a wire arranging shaft, a guide rod and a clamping piece; one end of the winding displacement sliding block is arranged on the winding displacement shaft, the other end of the winding displacement sliding block is movably arranged on the guide rod, and the winding displacement shaft drives the winding displacement sliding block to move in a reciprocating mode; the clamping piece is arranged on the flat cable sliding block and used for clamping the tail cable to move back and forth along with the sliding block.

As a further improvement of the technical scheme, the winding displacement shaft adopts a bidirectional reciprocating screw rod.

Compared with the progress of the prior art, the utility model:

1. the utility model can wind the tail wire on the wire coil in order, and can extend the tail wire on the wire coil in order; the phenomenon of abrasion during the take-up of the tail wire can be overcome; when the wire is taken up, the clutch part is in a closed state, the motorized winch drives the transmission shaft to rotate through the clutch part, the transmission shaft drives the wire coil to rotate, and the wire arranging slide block on the wire arranging device is driven to longitudinally reciprocate along the wire coil; the wire coil rotates, the tail wire is pulled to be stored and wound on the wire coil, and the wire arranging slide block is used for orderly arranging and winding the tail wire on the wire coil; when the wire is paid off, the clutch part is in a separation state, the tail wire is pulled, the tail wire drives the wire coil to rotate, the wire coil drives the transmission shaft to rotate, and the transmission shaft drives the wire arranging slide block on the wire arranging device to longitudinally reciprocate along the wire coil, so that the ordered outward paying off is realized.

2. The utility model utilizes the angle turning device to realize that the motor-driven winching machine drives the transmission shaft to rotate, the motor-driven winching machine is provided with the first angle turning device, the frame is provided with the second angle turning device, and the first angle turning device is connected with the second angle turning device through the flexible shaft transmission; the angle turning device can be beneficial to changing a transmission route;

drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic structural view of a motorized winching tail line picking and laying machine of the present invention;

fig. 2 is a schematic structural view of the wire arranging device of the present invention;

fig. 3 is a schematic view of a transmission structure of the angle converter of the present invention;

fig. 4 is a schematic view of another transmission structure of the angle converter of the present invention;

names and serial numbers of the components in the figure: 1-a stranding and grinding output shaft, 2-a first corner turning device, 3-a flexible shaft, 4-a second corner turning device, 5-a transmission shaft, 6-a clutch, 7-a wire coil, 8-a driving wheel, 9-a transmission part, 10-a driven wheel, 11-a winding displacement shaft, 12-a winding displacement slide block, 13-a clutch operating handle, 14-a rack, 15-a motorized stranding and grinding device, 16-a guide rod, 17-a clamping part, 18-a bearing seat, 21-a supporting frame, 22-a first transmission wheel, 23-a second transmission wheel and 24-a short shaft.

Detailed Description

In order to make the technical solutions in the present application better understood, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings and embodiments, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and all other embodiments obtained by those skilled in the art without making creative efforts shall fall within the protection scope of the present application based on the embodiments in the present application.

Example 1:

as shown in fig. 1 to 4, a motorized winching tail wire picking and laying machine comprises a motorized winching, a wire arranging device, a rack 14, a transmission shaft 5, a wire coil 7 and a clutch part; the wire coil 7 is arranged on the rack 14 through the transmission shaft 5; one end of the transmission shaft 5 is in transmission connection with the motorized winching through the clutch part; the winding displacement device is provided with a rack 14 at intervals with parallel wire coils 7 and is in transmission connection with the transmission shaft 5; wherein, the winding displacement ware is equipped with winding displacement slider 12, the drive of transmission shaft 5 the winding displacement ware, on the winding displacement ware winding displacement slider 12 is along the longitudinal reciprocating motion of transmission shaft 5.

The structure that the wire coil is arranged on the rack through the transmission shaft is as follows: and one end of the transmission shaft penetrates through the wire coil, one end of the transmission shaft is rotatably connected with one side of the rack, and the other end of the transmission shaft penetrates through the bearing seat 18 to be connected with the clutch part. The motor-driven winching machine drives the transmission shaft to rotate, and the transmission shaft drives the wire coil to rotate through the clutch part.

The working mode is as follows:

when taking up the wire: the winding displacement slide block 12 is moved to correspond to one end of the wire coil, and then the tail wire penetrates through the winding displacement slide block 12 on the wire arranging device to be wound and fixed on the wire coil 7.

Starting the motor-driven winch; clutch portion is in the closure state, and motor-driven hank grinds and rotates through clutch portion drive transmission shaft 5, and when transmission shaft 5 drove drum 7 pivoted, transmission shaft 5 drive winding displacement ware work, then winding displacement slider 12 on the winding displacement ware along the longitudinal reciprocating motion of drum 7, and the drum rotates and accomodates the tail-wire and twine on it, and winding displacement slider 12 then drives the tail-wire and twine on the drum in order.

During paying off: the clutch part is adjusted to be in a separated state, the tail wire is pulled, the tail wire pulls the wire coil 7 to rotate, the wire coil 7 drives the transmission shaft 5 to rotate, and the transmission shaft 5 drives the wire arranging device to work, namely, the wire arranging slide block 12 on the wire arranging device slides along the longitudinal direction of the wire coil 7 in a reciprocating mode, so that the tail wire can be extended outwards from the wire coil in order.

Example 2:

compared with example 1, the difference is that: a transmission structure of a transmission shaft and a motor-driven winching is provided, and a corner device and a flexible shaft 3 are additionally arranged.

The corner device comprises a first corner device 2 and a second corner device 4; the first corner device 2 is mounted on the motorized winching; the motor-driven winching machine is provided with a winching machine output shaft 1, and the winching machine output shaft 1 is in transmission connection with a first corner device 2; the second corner device 4 is mounted on the frame 14 and is in transmission connection with the transmission shaft 5 through a clutch part; the first corner device 2 and the second corner device 4 are in transmission connection through a flexible shaft 3.

The working mode is as follows:

the motor-driven winching 15 drives the winching output shaft 1 to rotate, the winching output shaft 1 drives the flexible shaft 3 to rotate through the first corner device 2, the flexible shaft 3 drives the second corner device 4 to work, and the second corner device 4 drives the clutch part to work; when the clutch part is in a closed state, the clutch part drives the transmission shaft 5 to rotate, and the transmission shaft drives the wire coil 7 to rotate; when the clutch part is in a separated state, the clutch part has no transmission acting force on the transmission shaft 5, and the transmission shaft 5 cannot drive the wire coil 7 to rotate.

Example 3:

compared with example 1, the difference is that: a transmission structure form of the corner device is provided.

As shown in fig. 3 and 4, the corner device comprises a first transmission wheel 22, a second transmission wheel 23 and a support frame 21; a first driving wheel and a second driving wheel are arranged in the supporting frame; the first driving wheel is in meshing transmission connection with the second driving wheel.

The first transmission wheel 22 and the second transmission wheel 23 are both provided with short shafts 24. The short shaft 24 can be connected with the flexible shaft 3 and the transmission shaft 5 through a coupler.

Example 4:

compared with example 3, the difference is that: a transmission structure form of the first transmission wheel and the second transmission wheel is provided.

As shown in FIG. 3, the first driving wheel and the second driving wheel are in meshing transmission connection through helical gears.

Example 5:

the difference compared to example 3 is that: the other transmission structure form of the first transmission wheel and the second transmission wheel is provided.

As shown in fig. 4, the first driving wheel and the second driving wheel are in meshing transmission connection with each other through a worm gear.

Example 6:

compared with any of examples 1 to 5, the difference is that: one structural form of the clutch part is provided.

The clutch part comprises a clutch 6 and a clutch operating handle 13; the clutch 6 is provided with a clutch operating handle 13, and the clutch operating handle 13 is used for regulating and controlling the opening and closing of the clutch 6.

One way of mounting the clutch operating handle 13 is: the clutch operating handle is hinged with the frame, and one end of the clutch operating handle extends to the clutch and is connected with the clutch.

The clutch control handle regulates and controls the clutch to realize closing and separation, and when the clutch is closed, the motorized winching drives the transmission shaft to rotate; when the clutch is separated, the motor-driven winching machine cannot drive the transmission shaft to rotate.

Example 7:

the difference compared to any of examples 1 to 6 is that: a transmission connecting structure of a transmission shaft and a wire arranging device is provided, namely a driving wheel 8, a transmission part 9 and a driven wheel 10 are additionally arranged.

The driving wheel 8 is arranged on the transmission shaft 5; the driven wheel 10 is mounted on the wire arranging device; the driving wheel 8 is in transmission connection with the driven wheel 10 through a transmission piece 9.

Example 8:

the difference compared to example 7 is that: a transmission structure form of a driving wheel and a driven wheel is provided.

And a chain transmission structure is adopted between the driving wheel 8 and the driven wheel 10. That is, the driving wheel 8 and the driven wheel 10 are chain wheels, the transmission part 9 adopts a chain, and the two chain wheels are in transmission connection through the chain.

Example 9:

the difference compared to any of examples 1 to 8 is that: a sliding structure form of the flat cable sliding block is provided.

The wire arranging device further comprises a wire arranging shaft 11, a guide rod 16 and a clamping piece 17; one end of the winding displacement sliding block 12 is arranged on the winding displacement shaft 11, the other end of the winding displacement sliding block is movably arranged on the guide rod 16, and the winding displacement shaft 11 drives the winding displacement sliding block 12 to reciprocate; the clamping piece 17 is arranged on the flat cable sliding block 12 and is used for clamping the tail cable to move back and forth along with the sliding block.

Example 10:

the difference compared to example 7 is that: one form of construction of the creel shaft is given.

The winding displacement shaft 11 adopts a bidirectional reciprocating screw rod. The bidirectional reciprocating screw rod drives the wire arranging slide block to realize reciprocating movement along the bidirectional reciprocating screw rod.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (10)

1. The utility model provides a motor-driven hank grinds tail-wire receive and release machine which characterized in that: comprises a motorized winch, a wire arranging device, a frame (14), a transmission shaft (5), a wire coil (7) and a clutch part;

the wire coil (7) is arranged on the rack (14) through the transmission shaft (5);

one end of the transmission shaft (5) is in transmission connection with the motorized winching through the clutch part;

the wire arranging device is provided with wire coils (7) which are arranged on the rack (14) at intervals and in parallel and are in transmission connection with the transmission shaft (5);

the winding displacement device is provided with a winding displacement sliding block (12), the transmission shaft (5) drives the winding displacement device, and the winding displacement sliding block (12) on the winding displacement device moves longitudinally and reciprocally along the transmission shaft (5).

2. The motorized winching tail line pay-off and take-up machine of claim 1, wherein: the device also comprises a corner device and a flexible shaft (3);

the corner device comprises a first corner device (2) and a second corner device (4);

the first corner device (2) is arranged on the motorized winching;

the motor-driven winching machine is provided with a winching output shaft (1), and the winching output shaft (1) is in transmission connection with the first corner device (2);

the second corner device (4) is mounted on the rack (14) and is in transmission connection with the clutch part;

the first corner device (2) and the second corner device (4) are in transmission connection through a flexible shaft (3).

3. The motorized winching tail line pay-off and take-up machine of claim 2, wherein: the corner device comprises a first driving wheel, a second driving wheel and a supporting frame;

a first driving wheel and a second driving wheel are arranged in the supporting frame;

the first driving wheel is in meshing transmission connection with the second driving wheel.

4. The motorized winching tail reel of claim 3, wherein: the first driving wheel and the second driving wheel are in meshing transmission connection through helical gears.

5. The motorized winching tail line pay-off and take-up machine of claim 3, wherein: the first driving wheel and the second driving wheel are in meshing transmission connection through worm gears and worms.

6. The motorized winching tail line pay-out machine of any one of claims 1-5, wherein: the clutch part comprises a clutch (6) and a clutch operating handle (13);

the clutch (6) is provided with a clutch operating handle (13), and the clutch operating handle (13) is used for regulating and controlling the opening and closing of the clutch (6).

7. The motorized winching tail reel of claim 6, wherein: the device also comprises a driving wheel (8), a transmission piece (9) and a driven wheel (10);

the driving wheel (8) is arranged on the transmission shaft (5);

the driven wheel (10) is mounted on the wire arranging device;

the driving wheel (8) is in transmission connection with the driven wheel (10) through a transmission piece (9).

8. The motorized winching tail reel of claim 7, wherein: and a chain transmission structure is adopted between the driving wheel (8) and the driven wheel (10).

9. The motorized winching tail reel of claim 6, wherein: the wire arranging device also comprises a wire arranging shaft (11), a guide rod (16) and a clamping piece (17);

one end of the winding displacement sliding block (12) is arranged on the winding displacement shaft (11), the other end of the winding displacement sliding block is movably arranged on the guide rod (16), and the winding displacement shaft (11) drives the winding displacement sliding block (12) to move in a reciprocating mode;

the clamping piece (17) is arranged on the flat cable sliding block (12) and used for clamping the tail cable to move back and forth along with the sliding block.

10. The motorized winching tail reel of claim 9, wherein: the winding displacement shaft (11) adopts a bidirectional reciprocating screw rod.

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