LU502627B1 - Adjustable single power source automatic device for winding and unwinding cables - Google Patents

Abstract

The application relates to winding and arranging cables, and in particular to an adjustable single power source automatic for winding and unwinding cables. The application comprises a frame, where one side of that frame is fixedly connected with a driving motor, the drive motor is axially connected with a first friction wheel, the first wheel is in contact connection with a second friction wheel, the second wheel is in transmission connection with a winding reel, the winding reel is in rotational connection with the frame, one end of the first friction wheel away from the driving motor is in transmission connection with a speed regulating and arranging mechanism, and the axes of the first friction wheel and the second friction wheel are vertical. The power is transmitted to the reel through friction transmission, and when the force is overloaded, the friction transmission will interrupt the power transmission.

Description

DESCRIPTION LU502627

ADJUSTABLE SINGLE POWER SOURCE AUTOMATIC DEVICE FOR WINDING AND UNWINDING CABLES

TECHNICAL FIELD The application relates to the technical field of winding and arranging cables, and in particular to an adjustable single power source automatic for winding and unwinding cables.

BACKGROUND The cable reel is a cable winding device which provides power supply, control power supply or control signals for large-scale mobile equipment; cable reels are widely used in port portal cranes, container cranes, ship loaders, tower cranes and other heavy machinery and equipment with similar working conditions; the cable is mainly wound on a cable reel for winding and unwinding.

In the prior art, due to the irregular winding arrangement of cable reels in the winding process, in the actual use process, the cables are often squeezed with each other, which leads to the phenomenon that the cables are stuck in the winding process, thus causing the cable to break.

To solve the above problems, Chinese patent CN 208747372 U discloses a cable reel with a cable guide mechanism, by arranging the crank assembly at one side of the winding drum, the crank assembly drives the guide wheel assembly to move left and right, thereby realizing the function of orderly winding the cable, however, in the process of use, if there is a cable jam accident, this structure can't protect the cable, and the cable will be broken due to overload.

SUMMARY The application aims to provide an adjustable single power source automatic for winding and unwinding cables for solving the problems, according to the application, the power is transmitted to the winding reel through the friction transmission, and when the force is overloaded, the friction transmission can interrupt the power transmission, thereby playing the role of protecting a cable. LU502627 In order to achieve the purpose, the application provides the following scheme: an adjustable single power source automatic for winding and unwinding cables, comprises a frame, where one side of that frame is fixedly connected with a driving motor, the drive motor is axially connected with a first friction wheel, the first friction wheel is in contact connection with a second friction wheel, the second friction wheel is in transmission connection with a winding reel, the winding reel is in rotational connection with the frame, one end of the first friction wheel which is far away from the driving motor is in transmission connection with a speed regulating and arranging mechanism, and the axes of the first friction wheel and the second friction wheel are vertical.

Optionally, the speed regulating and arranging mechanism comprises a crank rod with one end connected with the first friction wheel shaft, the other end ofthe crank rod is slidably hinged with a vertical connecting rod, one side of the vertical connecting rod far away from the crank rod is fixedly connected with a cable arranging plate, and the cable arranging plate is slidably connected with the frame, an adjusting part is arranged at the sliding hinge of the crank rod and the vertical connecting rod.

Optionally, the adjusting part comprises a first chute arranged on the crank rod, the first chute is arranged close to the vertical connecting rod, and the vertical connecting rod is provided with a vertical chute, the first chute and the vertical chute are penetrated with adjusting cylindrical pins.

Optionally, one side of the frame far away from the driving motor is fixedly connected with a slide rail, and a slide block is slidably fitted on the slide rail, and the slide block is fixedly connected with the cable arranging plate.

Optionally, the first friction wheel and the second friction wheel are conical, and the side walls of the first friction wheel and the second friction wheel are inclined by 45 degrees.

Optionally, the roughness of the first friction wheel and the second friction wheel is Ra0.8.

Optionally, the top of the flat cable plate is rotatably connected with two first grooved rollers, and the two first grooved rollers are vertically arranged in parallel.

Optionally, both ends of the reel are detachably connected with an anti-dropping flange, and the anti-dropping flange is connected with the reel through threads.

The application has that follow technical effects: LU502627 According to the application, the first friction wheel is driven to rotate by the driving motor, the first friction wheel drives the second friction wheel to rotate by the friction force, so that the second friction wheel drives the winding reel to rotate, the winding function 1s realized, the cable arranging function of the cable is realized through the speed regulating cable arranging mechanism, so that the cable is prevented from being twisted when being displaced; the maximum transmission torque 1s arranged between the first friction wheel and the second friction wheel; when accidents such as cable clamping and the like occur, the winding reel cannot continue to rotate due to being pulled by the cable; at this time, a sliding phenomenon occurs between the first friction wheel and the second friction wheel, the transmission of power is stopped, the overload protection function is achieved, and the cable is prevented from being damaged due to excessive pulling force.

BRIEF DESCRIPTION OF THE FIGURES In order to more clearly explain the embodiments of the present application or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly introduced below. Obviously, the drawings in the following description are only some embodiments of the present application. For a person of ordinary skill in the art, other drawings can be obtained according to these drawings without paying creative labor.

FIG. 1 is a schematic structural diagram of the present application.

FIG. 2 is a schematic structural diagram of embodiment 2 of the present application.

FIG. 3 is an enlarged partial view of a in FIG. 2.

FIG. 4 is an enlarged partial view of b in FIG. 2.

Reference numeral: 1. Frame; 2. Drive motor; 3. First friction wheel; 4. Second friction wheel; 5. Winding reel; 6. Crank rod; 601. First chute; 7. Vertical connecting rod; 701. Vertical chute; 8. Cable arranging plate; 801. First grooved roller; 9. Slide rails; 901. Sliding block; 10. First bracket I; 1001. First speed change wheel I; 1002. Second speed change wheel I; 1003. First friction ring I; 1004. Guide bracket I; 1005, driving shaft I; 1006. Gear set I; 1007. Servo motor I;

1008. Guide roller I; 11. First bracket II, 1101. First speed change wheel II; 1102. Second speed change wheel II; 1103. First friction ring II; 1104. Guide bracket II; 1105. Driving rotating shaft

II; 1106. Gear set II; 1107. Servo motor II; 1108. Guide roller IT. LU502627

DESCRIPTION OF THE APPLICATION In the following, the technical solutions in the embodiments of the present application will be clearly and completely described with reference to the drawings in the embodiments of the present application. It is obvious that the described embodiments are only part of the embodiments of the present application, but not all of the embodiments. Based on the embodiments in the present application, all other embodiments obtained by a person of ordinary skill in the art without creative labor are within the scope of the protection of the present application.

In order that the above objects, features and advantages of the present application can be more clearly understood, the present application will be described in further detail with reference to the accompanying drawings and specific embodiments.

Embodiment 1 As shown in FIG. 1, the application provides an adjustable single power source automatic for winding and unwinding cables, which comprises a frame 1, where one side of the frame 1 is fixedly connected with a driving motor 2, the drive motor 2 is axially connected with a first friction wheel 3, the first friction wheel 3 is in contact connection with a second friction wheel 4, the second friction wheel 4 is in transmission connection with a winding reel 5, the winding reel is in rotational connection with the frame 1, one end of the first friction wheel 3 which is far away from the driving motor 2 is in transmission connection with a speed regulating and arranging mechanism, and the axes of the first friction wheel 3 and the second friction wheel 4 are vertical.

According to the application, the first friction wheel 3 is driven to rotate by the driving motor 2, the first friction wheel 3 drives the second friction wheel 4 to rotate by the friction force, so that the second friction wheel 4 drives the winding reel 5 to rotate, the winding function is realized, the cable arranging function of the cable is realized through the speed regulating cable arranging mechanism, so that the cable is prevented from being twisted when being displaced, the maximum transmission torque is arranged between the first friction wheel 3 and the second friction wheel 4; when accidents such as cable clamping and the like occur, the winding reel cannot continue to rotate due to being pulled by the cable; at this time, a sliding phenomend:#502627 occurs between the first friction wheel 3 and the second friction wheel 4, the transmission of power is stopped, the overload protection function is achieved, and the cable is prevented from being damaged due to excessive pulling force.

To further optimize the scheme, the speed regulating and arranging mechanism comprises a crank rod 6 with one end connected with the first friction wheel 3, the other end of the crank rod 6 is slidably hinged with a vertical connecting rod 7, one side of the vertical connecting rod 7 far away from the crank rod 6 is fixedly connected with a cable arranging plate 8, and the cable arranging plate 8 is slidably connected with the frame 1, an adjusting part is arranged at the sliding hinge of the crank rod 6 and the vertical connecting rod 7.

The first friction wheel 3 drives the crank rod 6 to rotate, and the crank rod 6 drives the vertical connecting rod 7 to move left and right, thus driving the cable arranging plate 8 to move left and right. In the winding process, with the movement of the cable arranging plate 8, the cable is arranged left and right.

To further optimize the scheme, the adjusting part comprises a first chute 601 arranged on the crank rod 6, the first chute 601 is arranged close to the vertical connecting rod 7, and the vertical connecting rod 7 is provided with a vertical chute 701, the first chute 601 and the vertical chute 701 are penetrated with adjusting cylindrical pins.

The adjusting cylindrical pin slides in the vertical sliding groove 701 and can be locked relative to the first sliding groove 601, and the speed and the stroke of the flat cable can be adjusted by adjusting the position of the adjusting cylindrical pin in the first sliding groove 601.

To further optimize the scheme, one side of the frame 1 far away from the driving motor 2 is fixedly connected with a slide rail 9, and a sliding block 901 is slidably fitted on the slide rail 9, and the sliding block 901 is fixedly connected with the cable arranging plate 8.

To further optimize the scheme, the first friction wheel 3 and the second friction wheel 4 are conical, and the side walls of the first friction wheel 3 and the second friction wheel 4 are inclined by 45 degrees.

To further optimize the scheme, the roughness of the first friction wheel 3 and the second friction wheel 4 is Ra0.8.

To further optimize the scheme, the top of the cable arranging plate 8 is rotatably connected with two first grooved rollers 801, and the two first grooved rollers 801 are vertically arranged 14502627 parallel.

The cable is clamped between the two first grooved rollers 801 by arranging the two first grooved rollers 801, and the first grooved rollers 801 rotate along with the taking-in and taking-out of the cable, so that the cable is prevented from falling off and being wound in the process of arranging the cable, and the safety is greatly improved.

To further optimize the scheme, both end of the winding reel 5 are detachably connected with an anti-dropping flange which is not shown in the figure, and the anti-dropping flange is in thread connection with the winding reel 5. By arranging the anti-dropping flange, the cable can be prevented from dropping off from both ends of the winding reel 5 in the winding process to cause an accident.

Embodiment 2 As shown in FIG. 2- FIG. 4, the automatic winding and arranging device of this embodiment is different from embodiment 1 only in that, a first friction speed regulate mechanism is axially connected between the first friction wheel 3 and the crank rod 6, and a second friction speed regulate mechanism is axially connected between the second friction wheel 4 and the winding reel 5; the first friction speed regulating mechanism comprises a first bracket I 10 fixedly connected in the frame 1, a first speed changing wheel I 1001, a second speed changing wheel I 1002, the axe of that first shift wheel I 1001 and the second shift wheel I 1002 are parallel, a first friction ring I 1003 is frictionally contacted between the first speed change wheel I 1001 and the second speed change wheel I 1002, and the inner side of the first friction ring I 1003 is slidably connected with a first speed regulating driving part; the first speed regulating drive part includes a guide bracket I 1004 provided inside the first friction ring I 1003, the guide bracket I 1004 has a semi-arc structure, and a driving rotate shaft I 1005 is fixedly connected between two ends of that guide bracket I 1004, the axis of that drive shaft I 1005 is perpendicular to the axis of the first speed change wheel I 1001, and the drive shaft I 1005 is rotatably connected with the first bracket I 10, the driving rotating shaft 1005 is axially connected with a gear set I 1006, wherein the gear set I 1006 is two helical gears which are mutually vertically arranged, one helical gear is axially connected with the driving rotating shaft I 1005, and the other helical gear shaft is connected with a servo motor I 1007, the machih&/502627 body of the servo motor I 1007 is fixedly connected with the first bracket I 10, the guide bracket I 1004 is provided with three guide rollers I 1008 at equal intervals, the outer side of the guide rollers I 1008 is provided with a guide groove which is arranged in contact with the inner side of the first friction ring I 1003.

The first speed change wheel I 1001 is axially connecte with that first friction wheel 3, the second speed change wheel I 1002 is fixedly connected with one end of the crank rod 6, the side walls of the first gear I 1001 and the second gear I 1002 are curved conical structures, the side wall of the first speed change wheel I 1001 has a concave curved surface structure, the side wall of the second speed change wheel I 1002 has a convex curved surface structure, and the side wall curvatures of the first speed change wheel I 1001 and the second speed change wheel I 1002 are matched with the radius of the first friction ring I 1003.

By controlling the servo motor I 1007 to rotate, the guide bracket I 1004 is driven to rotate, and the guide bracket I 1004 drives the first friction ring I 1003 to realize angular swing, therefore, the frictional contact point between the first speed change wheel I 1001 and the second speed change wheel I 1002 changes, so that different rotational speeds occur between them, as the power input is input by the first friction wheel 3, the rotation speed of the crank rod 6 can be changed when the rotation speed is transmitted to the crank rod 6, and the left-right moving speed of the cable arranging plate 8 is also changed after the rotation speed of the crank rod 6 is changed, since the end portion of the crank lever 6 moves circumferentially during rotation, this movement results in a situation where the left-right movement speed of the cable arranging plate 8 does not move uniformly, by controlling the rotation speed of the servo motor I 1007, the movement of the cable arranging plate 8 can be matched, so that the cable arranging plate 8 can move left and right at a uniform speed, the cable movement in the cable winding and arranging process is more uniform, and the cable clamping accident is further prevented. At the same time, because the first speed-changing wheel I 1001, the second speed-changing wheel I 1002 and the first friction ring I 1003 are used for friction transmission of power, the friction force cannot be completely transmitted to the output end when a cable clamping accident occurs, thereby realizing power interruption and protecting the cable.

The second friction speed regulating mechanism comprises a first bracket II 11 fixedly connected in the frame 1, the first bracket II 11 is rotatably connected with a first speed changé/502627 wheel II 1101, a second speed change wheel II 1102, the axes of the first speed-changing wheel II 1101 and the second speed-changing wheel II 1102 are parallel, a first friction ring II 1103 is in frictional contact between the first speed-changing wheel II 1101 and the second speed-changing wheel II 1102, and the inner side of the first friction ring II 1103 is slidably connected with a second speed-regulating drive part; the second speed regulating drive part comprises a guide bracket II 1104 arranged inside the first friction ring II 1103, and the guide bracket II 1104 has a semi-arc structure, a driving rotating shaft II 1105 is fixedly connected between the two ends of the guide bracket II 1104, the axis of the driving rotating shaft II 1105 is perpendicular to the axis of the first speed change wheel II 1101, the driving rotating shaft IT 1105 is rotationally connected with the first bracket II 11, the driving rotating shaft II 1105 is axially connected with a gear set II 1106, wherein the gear set II 1106 is two helical gears vertically arranged with each other, one helical gear is axially connected with the driving rotating shaft II 1105, and the other helical gear shaft is connected with a servo motor II 1107, the machine body of the servo motor II 1107 is fixedly connected with the first bracket II 11, the guide bracket II 1104 is provided with three guide rollers II 1108 at equal intervals, the outer side of the guide roller II 1108 is provided with a guide groove which is arranged in contact with the inner side of the first friction ring I 1003.

The first speed change wheel II 1101 is pivotally connected to the spool 5, the second speed change wheel I 1002 is pivotally connected to the second friction wheel 4, the side wall of that first speed change wheel II 1101 and the second speed change wheel II 1102 have curved conical structures, the side wall of the first speed change wheel II 1101 has a concave curved surface structure, the side wall of the second speed change wheel II 1102 has a convex curved surface structure, the side wall curvatures of the first speed change wheel II 1101 and the second speed change wheel II 1102 match the radius of the first friction ring II 1103.

The operate principle of that second friction speed regulating mechanism 1s the same as that of the first friction speed regulate mechanism, the winding speed of the winding reel 5 can be controlled by control different speed changes of the second friction speed regulating mechanism, and better winding effect can be realized by matching the movement of the cable arranging plate

8.

In the description of the present application, it is to be understood that the ternk§/502627 "longitudinal", "transverse", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer" and the like indicate an orientation or positional relationship based on that shown in the drawings, for convenience of description only, and do not indicate or imply that the indicated devices or elements must have a particular orientation, be constructed and operate in a particular orientation, and are therefore not to be construed as limiting the present application.

The above-mentioned embodiments are only for describing the preferred embodiments of the present application and are not intended to limit the scope of the present application. On the premise of not departing from the design spirit of the present application, various modifications and improvements made to the technical scheme of the present application by those of ordinary skill in the art should fall within the protection scope determined by the claims of the present application.

Claims (8)

CLAIMS LU502627

1. An adjustable single power source automatic for winding and unwinding cables, characterized by comprising a frame (1), where one side of the frame (1) is fixedly connected with a driving motor (2), the drive motor (2) is axially connected with a first friction wheel (3), the first friction wheel (3) is in contact connection with a second friction wheel (4), the second friction wheel (4) is in transmission connection with a winding reel (5), the winding reel (5) 1s in rotational connection with the frame (1), one end of the first friction wheel (3) which is far away from the driving motor (2) is in transmission connection with a speed regulating and arranging mechanism, and the axes of the first friction wheel (3) and the second friction wheel (4) are vertical.

2. The adjustable single power source automatic for winding and unwinding cables according to claim 1, characterized in that the speed regulating and arranging mechanism comprises a crank rod (6) with one end connected with the first friction wheel (3), the other end of the crank rod (6) is slidably hinged with a vertical connecting rod (7), one side of the vertical connecting rod (7) far away from the crank rod (6) is fixedly connected with a cable arranging plate (8), and the cable arranging plate (8) is slidably connected with the frame (1), an adjusting part is arranged at the sliding hinge of the crank rod (6) and the vertical connecting rod (7).

3. The adjustable single power source automatic for winding and unwinding cables according to claim 2, characterized in that the adjusting part comprises a first chute (601) arranged on the crank rod (6), the first chute (601) is arranged close to the vertical connecting rod (7), and the vertical connecting rod (7) is provided with a vertical chute (701), the first chute (601) and the vertical chute (701) are penetrated with adjusting cylindrical pins.

4. The adjustable single power source automatic for winding and unwinding cables according to claim 2, characterized in that one side of the frame (1) far away from the driving motor (2) is fixedly connected with a slide rail (9), and a sliding block (901) is slidably fitted on the slide rail (9), and the sliding block (901) is fixedly connected with the cable arranging plate (8).

5. The adjustable single power source automatic for winding and unwinding cables according to claim 1, characterized in that the first friction wheel (3) and the second friction wheel (4) are conical, and the side walls of the first friction wheel (3) and the second friction wheel (4) are inclined by 45 degrees. LU502627

6. The adjustable single power source automatic for winding and unwinding cables according to claim 1, characterized in that the roughness of the first friction wheel (3) and the second friction wheel (4) is Ra0.8.

7. The adjustable single power source automatic for winding and unwinding cables according to claim 2, characterized in that the top of the cable arranging plate 8 is rotatably connected with two first grooved rollers (801), and the two first grooved rollers (801) are vertically arranged in parallel.

8. The adjustable single power source automatic for winding and unwinding cables according to claim 1, characterized in that two ends of the winding reel (5) are detachably connected with anti-dropping flanges, and the anti-dropping flanges are connected with the winding reel (5) through threads.