CN211496377U - Automatic winding device for electric power engineering - Google Patents

Abstract

The utility model discloses an automatic coiling device for electric power engineering, which relates to the technical field of electric power engineering cable recovery accessories and solves the technical problem that the prior coiling device is time-consuming and labor-consuming when manually recovering a larger cable, and comprises a base, wherein the front end of the base is provided with an inclined plate, a groove is arranged on the base, a hydraulic cylinder is embedded in the groove, and a bearing plate is arranged at the telescopic end of the hydraulic cylinder, the utility model can support an auxiliary coiling shaft by pushing the bearing plate through the hydraulic cylinder, prevent the heavier cable from damaging the shaft, a driving device adopts a mode of motor and belt pulley transmission, can quickly coil the coiling shaft, one end of the cable is fixed in a wire clamping groove, the other end of the cable passes through a wire blocking fork, the wire blocking fork can adjust the cable, so that the cable is uniformly wound on the coiling shaft, and passes through a resetting part, the cable stopping fork can reciprocate on the cross beam, so that cables can be orderly coiled in a row.

Description

Automatic winding device for electric power engineering

Technical Field

The utility model relates to an accessory technical field is retrieved to electric power engineering cable specifically is an electric power engineering uses automatic spiral device.

Background

Along with the development of society and the improvement and improvement of science and technology, the living standard of people is gradually improved, the electric power is used everywhere in our life, the most important part for transmitting electric power is the cable, the cable needs to be recovered after the cable is used and is used after being recovered to be coiled, therefore, the cable needs to be coiled by a coiling machine, for example, in the utility model patent of a cable coiling device for electric power engineering and the publication number CN208814379U, the utility model discloses a cable coiling device for electric power engineering, the cable coiling device comprises a reciprocating screw rod, a bottom plate, side plates and rolling shafts, the side plates are arranged on two sides of the bottom plate, the reciprocating screw rod penetrates through the side plates and is arranged above the bottom plate, a slide block is arranged on the reciprocating screw rod in a sliding way, a limit groove is arranged on the slide block, a driven wheel is arranged on one end of the reciprocating screw rod and is arranged on the, the both sides of roller bearing are equipped with the limiting plate, the outside that the one end of roller bearing is located the curb plate is equipped with the second stopper, the one end that the roller bearing deviates from the second stopper is equipped with the action wheel, the side end face welding that the action wheel deviates from the roller bearing has the carousel, the surface of carousel is equipped with the handle, the one end that the handle deviates from the carousel is equipped with first stopper, the roll-up device who connects through belt transmission from driving wheel and action wheel, but current roll-up device adopts manual mode drive lapping, because partial cable is thicker and the volume is great, the user wastes time and energy when the rolling from this to the work efficiency of roll-up device has been.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides an automatic spiral device for electric power engineering has solved thereby current winding device and has adopted manual recovery to take up the technical problem that wastes time and energy when line to great cable.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: an automatic wire coiling device for electric power engineering comprises a base, wherein an inclined plate is installed at the front end of the base, a groove is formed in the base, a hydraulic cylinder is embedded in the groove, a bearing plate is installed at the telescopic end of the hydraulic cylinder, support plates are installed on two sides of the bearing plate respectively on the base, a through hole is formed in the left support plate, a first bearing is embedded in the through hole, a mounting groove is formed in the inner wall surface of the right support plate, a second bearing is embedded in the mounting groove, a shaft rod is fixedly installed between the first bearing and the inner ring of the second bearing, one end of the shaft rod penetrates through the first bearing, a wire coiling shaft is fixedly installed on the shaft rod, a driving device is installed at the penetrating end of the shaft rod and is fixedly connected with the base, a pair of cross beams with the same structure, a moving block is slidably mounted on the cross beams, and a reset part is mounted between the pair of cross beams on the supporting plate;

the driving device comprises a motor, the motor is fixedly arranged on the base and is positioned on one side of the left supporting plate, a first driving wheel is arranged on the penetrating end of the shaft lever, a coupler is arranged on the driving end of the motor, a second driving wheel is arranged on the coupler, and the first driving wheel is connected with the second driving wheel through a belt;

the reset portion comprises a spring, reset grooves are formed in the supporting plate and located between the pair of cross beams respectively, the spring is fixedly installed in the reset grooves respectively, and top plates are installed on the spring respectively.

Preferably, a fixing block is mounted on the winding shaft, and a wire clamping groove is formed in the fixing block.

Preferably, a pair of vertical rods with the same structure are mounted on the upper wall surface of the moving block, and the top ends of the pair of vertical rods are respectively of a smooth spherical structure.

Preferably, the inclined plate is inclined at an angle of 30 degrees.

Preferably, a supporting block is installed between the motor and the base.

Preferably, a connecting plate is arranged between the supporting plate and the base.

Advantageous effects

The utility model provides an automatic coiling device for electric power engineering has solved current coiling device and has adopted manual recovery thereby to take up time-consuming and energy-consuming technical problem when line to great cable, the utility model discloses a pneumatic cylinder promotes the loading board and can makes the auxiliary winding reel support, prevents that thicker cable overweight from destroying the spool, and drive arrangement adopts motor and belt pulley transmission's mode, can make the quick lapping of spool, and cable one end is fixed in the card wire casing, and the other end passes the stop line fork, and the stop line fork can be adjusted the cable for the cable evenly twines on the spool, through the portion that resets, can make stop line fork reciprocating motion on the crossbeam, make the orderly in bank spiral of cable.

Drawings

Fig. 1 is a schematic view of the structure of an automatic winding device for power engineering.

Fig. 2 is a schematic diagram of a partially enlarged structure of an automatic wire winding device for power engineering.

In the figure: 1-a base; 2-an inclined plate; 3-a groove; 4-a hydraulic cylinder; 5-a bearing plate; 6-a support plate; 7-a through hole; 8-a first bearing; 9-a second bearing; 10-shaft lever; 11-a spool; 12-a cross beam; 13-a moving block; 15-a motor; 16-a first drive wheel; 17-a coupling; 18-a second transmission wheel; 19-a belt; 20-a spring; 21-a reset groove; 22-a top plate; 23-fixing blocks; 24-wire clamping grooves; 25-erecting a rod; 26-a support block; 27-connecting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: an automatic wire coiling device for electric power engineering comprises a base 1, wherein an inclined plate 2 is installed at the front end of the base 1, a groove 3 is formed in the base 1, a hydraulic cylinder 4 is embedded in the groove 3, a bearing plate 5 is installed at the telescopic end of the hydraulic cylinder 4, supporting plates 6 are respectively installed on two sides of the bearing plate 5 on the base 1, a through hole 7 is formed in the supporting plate 6 on the left side, a first bearing 8 is embedded in the through hole, an installation groove is formed in the inner wall surface of the supporting plate 6 on the right side, a second bearing 9 is embedded in the installation groove, a shaft lever 10 is fixedly installed between the inner rings of the first bearing 8 and the second bearing 9, one end of the shaft lever 10 penetrates through the first bearing 8, a wire coiling shaft 11 is fixedly installed on the shaft lever 10, a driving device is installed at the penetrating end of the, a pair of cross beams 12 with the same structure are fixedly installed above the winding shaft 11 between the supporting plates 6, a moving block 13 is installed on each cross beam 12 in a sliding mode, a reset portion is installed between each pair of cross beams on the supporting plates 6, the driving device comprises a motor 15, the motor 15 is fixedly installed on the base 1 and located on one side of the supporting plate 6 on the left side, a first driving wheel 16 is installed at the penetrating end of the shaft rod 10, a coupler 17 is installed at the driving end of the motor 15, a second driving wheel 18 is installed on the coupler 17, the first driving wheel 16 is connected with the second driving wheel 18 through a belt 19, the reset portion comprises springs 20, reset grooves 21 are respectively formed between each pair of cross beams 12 on the supporting plates 6, the springs 20 are respectively and fixedly installed in the reset grooves 21, and top plates 22 are respectively installed on the springs 20, the winding shaft 11 is provided with a fixing block 23, the fixing block 23 is provided with a wire clamping groove 24, the upper wall surface of the moving block 13 is provided with a pair of vertical rods 25 with the same structure, the top ends of the vertical rods 25 are respectively of a smooth spherical structure, the inclination angle of the inclined plate 2 is 30 degrees, a supporting block 26 is arranged between the motor 15 and the base 1, and a connecting plate 27 is arranged between the supporting plate 6 and the base 1.

The detailed connection means is a technique known in the art, and the following mainly describes the working principle and process, and the specific operation is as follows.

Example (b): as can be seen from fig. 1-2 of the specification, in use, one end of a cable to be wound passes through a pair of vertical rods 25, and one end of the cable is fixed on a wire clamping groove 24, at this time, a motor 15 is started, the motor 15 is electrically connected with an external power supply through a lead, at this time, a driving end of the motor 15 rotates, a second driving wheel 15 rotates, as a first driving wheel 16 is connected with the second driving wheel 15 through a belt 19, the second driving wheel 15 rotates, the second driving wheel 15 drives a shaft rod 10 to rotate under the action of a first bearing 8 and a second bearing 9, at the same time, a winding shaft 11 rotates, the winding shaft starts to wind, during winding, a moving block 13 moves on a cross beam 12, when the moving block 13 contacts with any side top plate 22, a spring 20 is compressed, and the top plate 22 pushes the moving block 13 to move in a reverse direction through the principle of mutual action of, the cable is coiled on the winding shaft 11 in a row, after the cable is coiled, the hydraulic cylinder 4 is started, the hydraulic cylinder 4 is electrically connected with an external power supply through a wire, the telescopic end of the hydraulic cylinder 4 extends out at the moment, the bearing plate 5 is jacked up until the bearing plate 5 is connected with the cable, and the cable is supported.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Claims (6)

1. An automatic coiling device for electric power engineering comprises a base (1) and is characterized in that an inclined plate (2) is installed at the front end of the base (1), a groove (3) is formed in the base (1), a hydraulic cylinder (4) is embedded in the groove (3), a bearing plate (5) is installed at the telescopic end of the hydraulic cylinder (4), supporting plates (6) are installed on two sides of the bearing plate (5) on the base (1) respectively, a through hole (7) is formed in the supporting plate (6) on the left side, a first bearing (8) is embedded in the through hole, a mounting groove is formed in the inner wall surface of the supporting plate (6) on the right side, a second bearing (9) is embedded in the mounting groove, a shaft rod (10) is fixedly installed between the inner rings of the first bearing (8) and the second bearing (9), and one end of the shaft rod (10, a winding shaft (11) is fixedly installed on the shaft lever (10), a driving device is installed on the penetrating end of the shaft lever (10), the driving device is fixedly connected with the base (1), a pair of cross beams (12) with the same structure are fixedly installed above the winding shaft (11) between the supporting plates (6), a moving block (13) is installed on the cross beams (12) in a sliding mode, and a reset part is installed between the pair of cross beams on the supporting plates (6);

the driving device comprises a motor (15), the motor (15) is fixedly installed on the base (1) and located on one side of the supporting plate (6) on the left side, a first driving wheel (16) is installed on the penetrating end of the shaft lever (10), a coupling (17) is installed on the driving end of the motor (15), a second driving wheel (18) is installed on the coupling (17), and the first driving wheel (16) is connected with the second driving wheel (18) through a belt (19);

the reset portion comprises a spring (20), a pair of reset grooves (21) are formed between the cross beams (12) on the supporting plate (6), the spring (20) is fixedly installed in the reset grooves (21) respectively, and a top plate (22) is installed on the spring (20) respectively.

2. The automatic winding device for the electric power engineering as claimed in claim 1, wherein a fixing block (23) is mounted on the winding shaft (11), and a wire clamping groove (24) is formed in the fixing block (23).

3. The automatic winding device for electric power engineering as claimed in claim 1, wherein a pair of vertical rods (25) with the same structure are mounted on the upper wall surface of the moving block (13), and the top ends of the pair of vertical rods (25) are respectively of a smooth spherical structure.

4. The automatic wire winding device for electric power engineering as claimed in claim 1, wherein the inclined plate (2) is inclined at an angle of 30 degrees.

5. An automatic wire winding device for electric power engineering as claimed in claim 1, characterized in that a support block (26) is installed between the motor (15) and the base (1).

6. An automatic wire winding device for electric power engineering as claimed in claim 1, characterized in that a connection plate (27) is installed between the support plate (6) and the base (1).

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