CN221093156U - Winder capable of pulling wires at constant speed - Google Patents

Abstract

The utility model provides a winder of acting as go-between at uniform velocity, includes pivoted wheel hub and rear panel, wheel hub installs on the rear panel, is provided with into line gear mounting bracket on the rear panel, installs a pair of line gear on the line gear mounting bracket, is provided with first gear installation axle on the line gear mounting bracket, installs first synchronous pulley and cylindrical gear on the first gear installation axle, is provided with the motor mounting panel on the line gear mounting bracket, and first servo motor and second servo motor are installed to the bottom of motor mounting panel, installs first drive pulley on the work shaft of first servo motor, installs the cable sensor who is used for responding to first synchronous belt speed on the motor mounting panel. The reel of the constant-speed stay wire ensures that the rotation speed of the hub is basically consistent with the wire pulling speed of the wire, ensures that the wire pulling speed is in a basically constant-speed state, and realizes the constant-speed stay wire of the reel under the condition of not reducing the wire running speed of the wire.

Description

Winder capable of pulling wires at constant speed

Technical Field

The utility model relates to the technical field of cable reels, in particular to a reel with uniform-speed stay wire.

Background

The winder is also called a winder and a reel, long cables including a power wire and the like can be wound on a hub of the winder, the cables are pulled out of the hub when the winder is used, the hub is reversed through a spring or other force application mechanisms when the winder is not used, the cables are recycled on the hub, the running speed of the cables is generally required to be stable when the cables are pulled, the hub with limited driving force such as a motor-driven rotating hub is difficult to match with the running speed of the cables, because the cables are wound on the hub, the winding radius of the cables on the hub is always reduced along with the fact that the cables are pulled off the hub, and the linear pulling speed of the cables on the hub is reduced when the rotating speed of the hub is unchanged, namely, the rotating speed of the hub is different from the linear pulling speed of the cables, so that the constant-speed cable pulling requirement cannot be met.

The patent with the publication number CN102372196A discloses a uniform speed wire returning winder of a dust collector, which comprises a supporting plate provided with a cambered surface guard plate, an inner side wheel disc, an outer side wheel disc, a wire winding wheel which is used for connecting the inner side wheel disc and the outer side wheel disc into a whole, a coil spring box arranged in a circular groove of the outer side wheel disc and a coil spring arranged in the coil spring box, wherein one side, close to the supporting plate, of the guard plate is inwards bent to form a curved side surface, and a brake assembly which is outwards displaced along with centrifugal force is arranged on the inner side wheel disc to realize the uniform speed wire returning. According to the uniform-speed wire returning winder, the brake component which is increased along with centrifugal force and is displaced outwards is arranged on the outer edge of the inner wheel disc of the winder, when the wire returning speed is too high, the brake piece of the brake component is moved outwards and rubs against the curved side surface of the guard plate to generate friction resistance, so that the wire returning speed is reduced, the winder is enabled to return wire at a uniform speed, a series of problems caused by the fact that the wire returning speed of the winder is too high are prevented, the wire returning efficiency is reduced by reducing the wire returning speed, and the uniform-speed wire pulling is achieved without reducing the wire returning speed.

Disclosure of utility model

In order to overcome the defects of the prior art, the utility model aims to provide a wire winder capable of uniformly pulling wires, which enables the rotation speed of a hub to be basically consistent with the wire pulling speed of a wire, ensures the wire pulling speed to be in a basically uniform state and realizes the uniform wire pulling of the wire winder under the condition of not reducing the wire moving speed of the wire.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The utility model provides a winder of acting as go-between at uniform velocity, its includes pivoted wheel hub and rear panel, wheel hub installs on the rear panel, be provided with into line gear mounting bracket on the rear panel, it installs a pair of line gear to go into on the line gear mounting bracket, a pair of line gear intermeshing, be provided with first gear installation axle on the line gear mounting bracket, install first synchronous pulley and cylindrical gear on the first gear installation axle, first synchronous pulley is coaxial with the cylindrical gear, cylindrical gear with one of a pair of line gear is gone into line gear engagement, be provided with the motor mounting panel on the line gear mounting bracket, first servo motor and second servo motor are installed to the bottom of motor mounting panel, first servo motor is close to first synchronous pulley, install first drive pulley on the work shaft of first servo motor, be close to first synchronous pulley and first synchronous pulley department and install the cable sensor who is used for responding to first synchronous belt speed on the motor, first synchronous pulley is installed to the second synchronous pulley on the second synchronous pulley installation axle, second synchronous pulley is connected with second synchronous pulley, second synchronous pulley is installed to second synchronous pulley and second synchronous pulley, second synchronous pulley is connected with first synchronous pulley, second synchronous pulley is installed to the second synchronous pulley.

Preferably, the wire inlet gear mounting frame is provided with two rotating shafts, the pair of wire inlet gears are respectively arranged at one ends of the two rotating shafts, a cable is wound on the wire winder, and the outer end of the cable passes through the space between the two rotating shafts.

Preferably, the outer surface of the cable is in contact with the outer surfaces of the two rotating shafts.

Preferably, the rear panel is mounted on a mounting bracket.

Preferably, a mounting bottom plate is arranged at the bottom of the mounting bracket.

Compared with the prior art, the utility model has the following advantages:

The rotation speed of the hub of the reel is dynamically changed, so that the rotation speed of the hub of the reel is basically consistent with the wire drawing speed of the cable, the wire drawing speed is ensured to be in a basically constant state, and the reel is used for realizing the wire drawing at a constant speed under the condition of not reducing the wire running speed of the cable.

Drawings

Fig. 1 and 2 are schematic views of a reel of the constant speed wire drawing of the present utility model in two different directions of view.

Detailed Description

The utility model is further described below with reference to the accompanying drawings and examples:

Examples: referring to fig. 1 to 2, a wire winder for pulling wire at a constant speed comprises a rotating hub 1 and a rear panel 2, wherein the hub 1 is rotatably mounted on the rear panel 2, a wire inlet gear mounting frame 3 is arranged on the rear panel 2, a pair of wire inlet gears 4 are mounted on the wire inlet gear mounting frame 3, the pair of wire inlet gears 4 are meshed with each other, a first gear mounting shaft 5 is arranged on the wire inlet gear mounting frame 3, a first synchronous pulley 6 and a columnar gear 7 are mounted on the first gear mounting shaft 5, the first synchronous pulley 6 is coaxial with the columnar gear 7, the columnar gear 7 is meshed with one wire inlet gear 4 of the pair of wire inlet gears 4, a motor mounting plate 8 is arranged on the wire inlet gear mounting frame 3, a first servo motor 9 and a second servo motor 10 are mounted at the bottom of the motor mounting plate 8, the first servo motor 9 is close to the first synchronous pulley 6, a first driving pulley 11 is arranged on the working shaft of the first servo motor 9, a first synchronous belt 12 is wound on the first driving pulley 11 and the first synchronous pulley 6, a cable induction sensor 13 for inducing the speed of the first synchronous belt 12 is arranged on the motor mounting plate 8 close to the first synchronous belt 12, a second gear mounting shaft 14 is arranged on the rear panel 2, a second synchronous pulley 15 and a second connecting gear 16 are arranged on the second gear mounting shaft 14, the second synchronous pulley 15 is coaxial with the second connecting gear 16, an internal gear disk 17 is arranged on the hub 1, the second connecting gear 16 is meshed with the internal gear disk 17, a second driving pulley 18 is arranged on the working shaft of the second servo motor 10, the second drive pulley 18 and the second timing pulley 15 are wound with a second timing belt 19.

Preferably, the wire inlet gear mounting frame 3 is provided with two rotating shafts 20, the pair of wire inlet gears 4 are respectively arranged at one ends of the two rotating shafts 20, the wire winder is wound with a wire 21, and the outer end of the wire 21 passes through the space between the two rotating shafts 20.

Preferably, the outer surfaces of the cables 21 are in contact with the outer surfaces of the two shafts 20.

Preferably, the rear panel 2 is mounted on a mounting bracket 22, and a mounting plate 23 is provided at the bottom of the mounting bracket 22, and the reel can be fixed in the working position by the mounting plate 23.

When the wire winder of the constant-speed wire drawing works, the first servo motor 9 and the second servo motor 10 work, the second servo motor 10 drives the second driving belt pulley 18 and the second synchronous belt 19 to rotate, the second synchronous belt pulley 15 and the second connecting gear 16 are driven to rotate, the second connecting gear 16 drives the inner gear disc 17 and the hub 1 to rotate, the hub 1 releases the wire 21, the first servo motor 9 drives the first driving belt pulley 11 and the first synchronous belt 12 to rotate, the first synchronous belt pulley 6 and the columnar gear 7 are driven to rotate, the columnar gear 7 drives the pair of wire entering gears 4 to rotate, the two rotating shafts 20 are driven to rotate, the wire 21 pulls wires outwards from the two rotating shafts 20, the wire sensing sensor 13 senses the rotating speed of the first synchronous belt 12, the wire sensing sensor 13 is in signal communication with the second servo motor 10, the rotating speed of the second servo motor 10 is controlled, the rotating speed of the second servo motor 10 is continuously adjusted (the rotating speed of the second servo motor 10 is gradually increased along with the continuous pulling of the wire) so as to adapt to the fact that the wire 21 is continuously pulled out of the hub 1, the radius of the wire is reduced, the wire is pulled out of the wire 1 on the hub 1, the wire is pulled out from the hub 1, and the constant-speed is reduced, and the speed of the wire is consistent with the wire drawing speed is achieved, and the wire speed is kept constant, and the wire drawing speed is achieved.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present utility model.

Claims (5)

1. The utility model provides a winder of acting as go-between at uniform velocity, includes pivoted wheel hub and rear panel, wheel hub installs on the rear panel, its characterized in that: the novel synchronous belt is characterized in that an incoming gear mounting frame is arranged on the rear panel, a pair of incoming gears are arranged on the incoming gear mounting frame and meshed with each other, a first gear mounting shaft is arranged on the incoming gear mounting frame, a first synchronous belt wheel and a cylindrical gear are arranged on the first gear mounting shaft, the first synchronous belt wheel is coaxial with the cylindrical gear, a second gear mounting shaft is arranged on the rear panel and meshed with one incoming gear of the pair of incoming gears, a motor mounting plate is arranged on the incoming gear mounting frame, a first servo motor and a second servo motor are arranged at the bottom of the motor mounting plate, the first servo motor is close to the first synchronous belt wheel, a first driving belt wheel is arranged on a working shaft of the first servo motor, a cable sensing sensor for sensing the speed of the first synchronous belt wheel is arranged on the first gear mounting plate in a way, a second servo motor is arranged on the second gear mounting shaft in a way, the second synchronous belt wheel is connected with the second synchronous belt wheel in a way, the first synchronous belt wheel is connected with the second synchronous belt wheel in a way, and the first synchronous belt wheel is arranged on the second synchronous belt wheel, and the first synchronous belt wheel is connected with the second synchronous belt wheel in a coaxial way, and the first synchronous belt wheel is connected with the first synchronous belt wheel.

2. The constant velocity wire reel of claim 1, wherein: the wire inlet gear mounting frame is provided with two rotating shafts, the pair of wire inlet gears are respectively arranged at one ends of the two rotating shafts, a cable is wound on the wire winder, and the outer end of the cable passes through the space between the two rotating shafts.

3. The constant velocity wire reel of claim 2, wherein: the outer surface of the cable is contacted with the outer surfaces of the two rotating shafts.

4. A constant velocity wire reel as defined in claim 3, wherein: the rear panel is mounted on a mounting bracket.

5. The constant velocity wire reel of claim 4 wherein: the bottom of the mounting bracket is provided with a mounting bottom plate.