CN114229600A

CN114229600A - A electric wire coiling mechanism for municipal works

Info

Publication number: CN114229600A
Application number: CN202111622984.3A
Authority: CN
Inventors: 毕金水
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-28
Filing date: 2021-12-28
Publication date: 2022-03-25

Abstract

The invention discloses an electric wire winding device for municipal engineering, which comprises a lower side plate and an upper side plate, wherein the lower side plate and the upper side plate are circular plates with the same size, a first winding shaft is rotatably arranged between the circle centers of the lower side plate and the upper side plate, a handle is arranged at one end of the first winding shaft extending to the upper part of the upper side plate, a plurality of sliding blocks are arranged on the lower side plate and the upper side plate in a sliding manner, the sliding blocks can slide along the radial line direction of the circular plates, the sliding blocks are uniformly distributed along the circumferential direction of the first winding shaft around the axis of the first winding shaft, and a compression roller mechanism is arranged between two corresponding sliding blocks on the lower side plate and the upper side plate. The invention can adapt to winding more and more wires; the wound electric wire is prevented from being loose and fluffy, so that the first winding shaft can wind the longer electric wire; effectively protect the electric wire by the coiling not by moisture erosion, also can avoid on external dust impurity falls the electric wire, the effectual life who prolongs the electric wire.

Description

A electric wire coiling mechanism for municipal works

Technical Field

The invention relates to the technical field of municipal engineering, in particular to an electric wire winding device for municipal engineering.

Background

The municipal engineering refers to urban public utilities engineering such as urban roads, bridges, water supply and drainage, sewage treatment, urban flood control, gardens, road greening, street lamps, environmental sanitation and the like. The method mainly comprises the following steps: a. road traffic engineering. Such as roads, overpasses, squares, traffic facilities, railways, subways and other rail traffic facilities; b. river and lake water system engineering. Hydraulic structures such as riverways, bridges, water diversion channels, irrigation and drainage pump stations, gate bridges and the like; c. underground pipeline engineering. Common pipelines for water supply, drainage, power supply, communication, gas supply and heat supply and the like; d. overhead bar line engineering. Power supply pole lines, communication pole lines, trackless pole lines and overhead pipelines with different voltage levels.

In the pipeline engineering in the municipal field, sometimes the power supply line can be damaged and broken, and other fault phenomena need to be changed from the original old electric wire to a new electric wire, wherein, because the length of the electric wire is relatively long, the electric wire needs to be wound up to save the temporary space, and meanwhile, an electric wire winding device needs to be used. However, the conventional wire winding device has the following disadvantages: 1. the electric wire is easy to be fluffy and loose after being wound, so that the electric wire is irregular and messy, is not beneficial to carrying and subsequent taking out, and simultaneously shortens the length of the electric wire capable of being wound; 2. and no protective barrier exists, so that the risk of corroding the electric wire by external moisture exists, external dust is easy to scatter on the electric wire, and the service life of the electric wire is shortened.

Disclosure of Invention

The invention aims to provide an electric wire winding device for municipal engineering, which aims to solve the problems that the electric wire is easy to be fluffy and loose after being wound, so that the electric wire is irregular and messy, is not convenient to carry and take out subsequently, and meanwhile, the length of the wound electric wire is shortened; the protection barrier is not arranged, the risk that external moisture corrodes the electric wire exists, external dust is easy to scatter on the electric wire, and the service life of the electric wire is shortened.

In order to realize the purpose of the invention, the invention adopts the following technical scheme: an electric wire winding device for municipal engineering comprises a lower side plate and an upper side plate, wherein the lower side plate and the upper side plate are circular plates with the same size, a first winding shaft is rotatably arranged between the circle centers of the lower side plate and the upper side plate, a handle is arranged at one end, extending to the upper side of the upper side plate, of the first winding shaft, a plurality of sliding blocks are arranged on the lower side plate and the upper side plate in a sliding mode, the sliding blocks can slide along the radial line direction of the circular plates, the sliding blocks are uniformly distributed around the axis of the first winding shaft along the circumferential direction of the first winding shaft, and a compression roller mechanism is arranged between two corresponding sliding blocks on the lower side plate and the upper side plate;

the compression roller mechanism comprises an installation shaft and a side compression roller, the installation shaft is vertically arranged between two corresponding sliding blocks on the lower side plate and the upper side plate, the side compression roller is rotatably installed on the installation shaft, and the axes of the side compression roller and the installation shaft are overlapped;

be equipped with the frame between the top of installation axle, the bottom, be equipped with second winding shaft, cylinder type casing between the interior top surface of frame, the interior bottom surface, the second winding shaft is located the axis position department of cylinder type casing, be equipped with clockwork spring between the inner wall of second winding shaft and cylinder type casing, clockwork spring is last to be rolled up there is the isolation cloth, the outer end of isolation cloth is equipped with first absorption accessory, preceding, the back both ends of cylinder type casing are equipped with export and second adsorption element respectively, first absorption accessory can adsorb on export and second adsorption element.

Preferably, when the first winding shaft rotates and winds the electric wire, the side wall of the wound electric wire is simultaneously pressed inwards by a plurality of side pressure rollers, when the diameter of a cylinder formed by the wound electric wire increases, the outer side of the wound electric wire is pressed outwards by the side pressure rollers, and the side pressure rollers drive the sliding block to slide outwards along the radial line direction of the circular plate through the mounting shaft so as to adapt to winding more and more electric wires.

Preferably, when the first absorbing part is pulled outwards, the first absorbing part drives the outer end of the isolating cloth to move outwards, the spring is compressed by the inner end of the isolating cloth and stores elastic potential energy, then the first absorbing part is absorbed on the adjacent second absorbing part, and an integral isolating layer is formed between the head and the tail of the isolating cloth and surrounds the periphery of the wound electric wire.

Preferably, a plurality of bar-shaped sliding grooves are formed in the lower side plate and the upper side plate, the bar-shaped sliding grooves are distributed along the radial line direction of the lower side plate and the radial line direction of the upper side plate, the sliding block is arranged in the bar-shaped sliding grooves in a sliding mode, and elastic pieces are arranged between the two sides of the sliding block and the inner end and the outer end of the bar-shaped sliding grooves respectively.

Preferably, the frame includes roof, bottom plate and riser, the roof horizontal fixation is on the top of installation axle, the bottom plate horizontal fixation is in the bottom of installation axle, the riser is vertical to be fixed between the outer end of roof, bottom plate, the position department that the cylinder type casing is located between riser and the side pressure roller.

Preferably, the cross section of the outlet is a rectangular frame opening, the first adsorption piece is a rectangular plate body, the second adsorption piece is of a cuboid structure, the first adsorption piece is a magnet block, and the outlet and the second adsorption piece are made of ferromagnetic materials.

Preferably, the top end and the bottom end of the first winding shaft are respectively connected with the lower side plate and the upper side plate through bearings in a rotating mode, the elastic part is a rectangular spiral spring, and the number of the sliding blocks on the lower side plate and the number of the sliding blocks on the upper side plate are three.

Preferably, the side pressing roller is made of an elastic material, the outer surface of the side pressing roller is a smooth surface, the height of the side pressing roller is L1, the distance between the top surface of the lower side plate and the bottom surface of the upper side plate is L2, and L2= L1+10 mm.

Compared with the prior art, the electric wire winding device for municipal works, which adopts the technical scheme, has the following beneficial effects:

when the first winding shaft rotates and winds the electric wire in the using process, the side wall of the wound electric wire is simultaneously pressed inwards by the plurality of side pressure rollers, when the diameter of a cylinder formed by the wound electric wire is increased, the outer side of the wound electric wire is pressed outwards by the side pressure rollers, and the side pressure rollers drive the sliding block to slide outwards along the radial line direction of the circular plate through the mounting shaft so as to adapt to winding more and more electric wires;

when the sliding block moves outwards, the rectangular spiral spring is extruded and stores elastic potential energy, so that the side pressing rollers have the tendency of moving inwards, the plurality of side pressing rollers jointly press the wound electric wire, the wound electric wire is more compact, the wound electric wire is prevented from being loose and fluffy, and the first winding shaft can wind the longer electric wire; when the electric wire is drawn out, the diameter of a cylinder formed by the wound electric wire is reduced, the sliding block slides inwards along the strip-shaped sliding groove under the action of elastic potential energy of the rectangular spiral spring, and the sliding block drives the side pressure roller to move inwards and restore to the initial position through the mounting shaft so as to facilitate the next electric wire winding operation;

thirdly, after the electric wire is wound, when the first absorbing part is pulled outwards, the first absorbing part drives the outer end of the isolating cloth to move outwards, meanwhile, the spring is compressed by the inner end of the isolating cloth and stores elastic potential energy, then the first absorbing part is adsorbed on the adjacent second adsorbing part, a whole isolating layer is formed between the heads and the tails of the isolating cloth and surrounds the periphery of the wound electric wire, wherein the isolating cloth is impermeable and airtight plastic cloth, the wound electric wire is effectively protected from being corroded by moisture, external dust and impurities can be prevented from falling onto the electric wire, and the service life of the electric wire is effectively prolonged.

Drawings

Fig. 1 is a perspective view of an embodiment of the wire winding device for municipal works according to the present invention.

Fig. 2 is a top view of the embodiment.

Fig. 3 is a perspective view of three roller mechanisms and a first winding-spool position in an embodiment.

FIG. 4 is a front view of the position of the press roller mechanism, the frame and the cylindrical shell in the embodiment.

Fig. 5 is a cross-sectional view taken at a-a in fig. 4 of the embodiment.

FIG. 6 is a top sectional view of the roll mechanism, the spacer fabric and the cylindrical casing in the embodiment.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

An electric wire coiling mechanism for municipal works as shown in fig. 1-3, including lower plate 1 and upper plate 3, lower plate 1, upper plate 3 is the circular slab that the size is the same, upper plate 3 is located lower plate 1 directly over the position department, lower plate 1 is parallel to each other with upper plate 3, lower plate 1, it is equipped with first winding axle 2 to rotate between the centre of a circle of upper plate 3, first winding axle 2 vertical distribution, it is concrete, the top of first winding axle 2, the bottom is respectively through bearing and lower plate 1, rotate between the upper plate 3 and connect, the one end that first winding axle 2 extends to the upper plate 3 top is equipped with handle 21, handle 21 is long frame type structure, the parcel has the rubber sleeve on the handle 21.

In the using process, a user winds the inner end of the electric wire 5 on the first winding shaft 2, then grasps the handle 21 by hand and applies rotating force, the handle 21 drives the first winding shaft 2 to rotate around the axis of the first winding shaft 2, meanwhile, the first winding shaft 2 rotates relative to the lower side plate 1 and the upper side plate 3 under the action of the bearing, the first winding shaft 2 rotates and winds the electric wire 5, so that the electric wire 5 is wound on the first winding shaft 2, in addition, the lower side plate 1 and the upper side plate 3 respectively block the wound electric wire 5 from the positions of the two ends of the first winding shaft 2, so that the wound electric wire 5 forms a cylindrical structure, the wound electric wire 5 is prevented from being scattered, and the construction operation of municipal engineering is facilitated.

As shown in fig. 1 to 4, a plurality of sliding blocks 52 are slidably disposed on both the lower side plate 1 and the upper side plate 3, the sliding blocks 52 can slide along the radial line direction of the circular plate, the plurality of sliding blocks 52 are uniformly distributed around the axis of the first winding shaft 2 along the circumferential direction thereof, and preferably, the number of the sliding blocks 52 on both the lower side plate 1 and the upper side plate 3 is three. Specifically, lower plate 1, a plurality of bar spout 51 have all been seted up on the upper plate 3, bar spout 51 is along lower plate 1, the radial line direction of upper plate 3 distributes, slider 52 slides and sets up in bar spout 51, slider 52 adopts rectangular body type structure, preferably, slider 52's cross section adopts the I shape structure, the slider 52 of I shape structure and the flange cooperation of bar spout 51's inboard, avoid slider 52 to break away from bar spout 51, ensure safe handling, slider 52's both sides and bar spout 51 in, be equipped with elastic component 53 between the outer end respectively. The elastic member 53 is a rectangular coil spring.

As shown in fig. 1-4, a roller mechanism 4 is disposed between two corresponding sliders 52 on the lower side plate 1 and the upper side plate 3, and the roller mechanisms 4 are vertically distributed. Specifically, the platen roller mechanism 4 includes a mounting shaft 41 and a side platen roller 42, the mounting shaft 41 is vertically provided between two corresponding sliders 52 on the lower and

upper side plates

1 and 3, the side platen roller 42 is rotatably mounted on the mounting shaft 41, the axes of the side platen roller 42 and the mounting shaft 41 are overlapped, and the side platen roller 42 is rotatable around the axis of the mounting shaft 41. The side compression roller 42 is made of elastic materials, the electric wire 5 is prevented from being damaged, the outer surface of the side compression roller 42 is smooth, the friction resistance between the side compression roller and the electric wire 5 is reduced, the electric wire 5 is favorably wound, the height of the side compression roller 42 is L1, the top surface of the lower side plate 1 and the distance between the bottom surfaces of the upper side plate 3 are L2, L2= L1+10mm, the distance between the top end of the side compression roller 42 and the bottom surface of the upper side plate 3 and the distance between the bottom end of the side compression roller 42 and the top surface of the lower side plate 1 are 5mm, the bottom surface of the upper side plate 3 and the top surface of the lower side plate 1 are prevented from blocking the end portion of the side compression roller 42, the side compression roller 42 is favorably rotated around the axis of the mounting shaft 41, the side compression roller 42 rolls relative to the electric wire 5, and the friction resistance is reduced.

In the using process, when the first winding shaft 2 rotates and winds the electric wire 5, the side wall of the wound electric wire 5 is simultaneously pressed inwards by the plurality of side pressing rollers 42, when the diameter of the cylinder formed by the wound electric wire 5 increases, the outer side of the wound electric wire 5 is pressed outwards by the side pressing rollers 42, and the side pressing rollers 42 drive the sliding blocks 52 to slide outwards along the radial line direction of the circular plate through the mounting shafts 41 so as to adapt to winding more and more electric wires 5.

When the sliding block 52 moves outwards, the rectangular coil spring is squeezed and stores elastic potential energy, so that the side pressing rollers 42 have a tendency of moving inwards, the plurality of side pressing rollers 42 jointly squeeze the wound electric wire 5, the wound electric wire 5 is more compact, the wound electric wire 5 is prevented from being loose and fluffy, and the first winding shaft 2 can wind the longer electric wire 5; when the electric wire 5 is drawn out, the diameter of the cylinder formed by the wound electric wire 5 is reduced, the slide block 52 slides inwards along the strip-shaped slide groove 51 under the action of the elastic potential energy of the rectangular coil spring, and the slide block 52 drives the side pressing roller 42 to move inwards through the mounting shaft 41 and restore to the initial position, so that the next operation of winding the electric wire 5 is facilitated.

As shown in fig. 3 and 4, a frame 43 is disposed between the top end and the bottom end of the installation shaft 41, specifically, the frame 43 includes a top plate, a bottom plate and a vertical plate, the top plate is horizontally fixed on the top end of the installation shaft 41, the bottom plate is horizontally fixed on the bottom end of the installation shaft 41, the top plate and the bottom plate have the same structure, the vertical plate is vertically fixed between the outer ends of the top plate and the bottom plate, and the cylindrical shell 44 is located between the vertical plate and the lateral pressure roller 42. In the using process, when the slide block 52 moves, the slide block 52 drives the mounting shaft 41 to move, and the mounting shaft 41 drives the top plate, the bottom plate and the vertical plate to move, so that the frame 43 can drive the cylindrical shell 44 and parts inside the cylindrical shell to move, and the diameter of a cylinder formed by the wound electric wires 5 is increased or reduced.

As shown in fig. 5 and 6, a second winding shaft 45 and a cylindrical housing 44 are disposed between the inner top surface and the inner bottom surface of the frame 43, the second winding shaft 45 and the cylindrical housing 44 are vertically distributed, the second winding shaft 45 is located at the axis position of the cylindrical housing 44, a clockwork spring is disposed between the second winding shaft 45 and the inner wall of the cylindrical housing 44, an isolation cloth 46 is wound on the clockwork spring, the outer end of the isolation cloth 46 is provided with a first suction device 48, the front end and the rear end of the cylindrical housing 44 are respectively provided with a leading-out opening 47 and a second suction device 49, and the first suction device 48 can be sucked on the leading-out opening 47 and the second suction device 49. Concretely, the cross section of export 47 is the rectangle frame mouth, first adsorption piece 48 is the rectangular plate body, first adsorption piece 48 vertical distribution, second adsorption piece 49 adopts the cuboid structure, wherein, export 47, first adsorption piece 48 is the same with second adsorption piece 49's frame size, can increase first adsorption piece 48 and export 47 or second adsorption piece 49's area of contact, improve the absorption dynamics, avoid first adsorption piece 48 to follow export 47 or second adsorption piece 49 and unexpected the droing, first adsorption piece 48 adopts the magnet piece, export 47, second adsorption piece 49 all adopts ferromagnetic material.

As shown in fig. 5 and 6, after the electric wire 5 is wound, when the first absorbing part 48 is pulled outwards, the first absorbing part 48 drives the outer end of the separating cloth 46 to move outwards, and the spring is compressed by the inner end of the separating cloth 46 and stores elastic potential energy, then the first absorbing part 48 is absorbed on the adjacent second absorbing part 49, and a plurality of separating cloths 46 form an integral separating layer between the head and the tail and surround the periphery of the wound electric wire 5, wherein the separating cloth 46 is made of impermeable and airtight plastic cloth, so that the wound electric wire 5 is effectively protected from being corroded by moisture, external dust impurities can be prevented from falling onto the electric wire 5, and the service life of the electric wire 5 is effectively prolonged. In addition, as shown in fig. 6, a distance is left between the isolation cloth 46 and the outer side of the electric wire 5, so that the isolation cloth 46 can be prevented from being adhered and wrapped on the electric wire 5, and the use is convenient; when the electric wire 5 needs to be pulled out for use, the first suction attachment 48 is held by hand and a pulling force is applied to make the first suction attachment 48 separate from the second suction attachment 49, then the first suction attachment 48 is moved towards the direction of the adjacent outlet 47, during the period, under the elastic force of the spiral spring, the second winding shaft 45 reversely rotates and winds up the insulation cloth 46, so that the insulation cloth 46 is wound on the second winding shaft 45, then the first suction attachment 48 is tightly attached to the outlet 47, the outlet 47 absorbs the first suction attachment 48, and the integral insulation layer formed between the heads and the tails of the insulation cloths 46 disappears, so that the user can pull out the wound electric wire 5 conveniently and use the electric wire.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The electric wire winding device for the municipal engineering comprises a lower side plate (1) and an upper side plate (3), wherein the lower side plate (1) and the upper side plate (3) are circular plates with the same size, a first winding shaft (2) is rotatably arranged between the circle centers of the lower side plate (1) and the upper side plate (3), and a handle (21) is arranged at one end, extending to the upper side of the upper side plate (3), of the first winding shaft (2), the electric wire winding device is characterized in that a plurality of sliding blocks (52) are arranged on the lower side plate (1) and the upper side plate (3) in a sliding mode, the sliding blocks (52) can slide along the radial line direction of the circular plates, the sliding blocks (52) are uniformly distributed around the axis of the first winding shaft (2) along the circumferential direction of the first winding shaft, and a compression roller mechanism (4) is arranged between two corresponding sliding blocks (52) on the lower side plate (1) and the upper side plate (3);

the compression roller mechanism (4) comprises a mounting shaft (41) and a side compression roller (42), the mounting shaft (41) is vertically arranged between two corresponding sliding blocks (52) on the lower side plate (1) and the upper side plate (3), the side compression roller (42) is rotatably mounted on the mounting shaft (41), and the axes of the side compression roller (42) and the mounting shaft (41) are overlapped;

be equipped with frame (43) between the top of installation axle (41), the bottom, be equipped with second winding axle (45), cylinder type casing (44) between the interior top surface of frame (43), the interior bottom surface, second winding axle (45) are located the axis position department of cylinder type casing (44), be equipped with clockwork spring between the inner wall of second winding axle (45) and cylinder type casing (44), it has isolation cloth (46) to coil on the clockwork spring, the outer end of isolation cloth (46) is equipped with first adsorption part (48), preceding, back both ends of cylinder type casing (44) are equipped with export (47) and second adsorption part (49) respectively, first adsorption part (48) can adsorb on export (47) and second adsorption part (49).

2. The electric wire winding device for municipal engineering according to claim 1, wherein: when the first winding shaft (2) rotates and winds the electric wire (5), the side wall of the wound electric wire (5) is simultaneously pressed inwards by a plurality of side pressing rollers (42), when the diameter of a cylinder formed by the wound electric wire (5) increases, the outer side of the wound electric wire (5) is pressed outwards by the side pressing rollers (42), and the side pressing rollers (42) drive the sliding blocks (52) to slide outwards along the radial line direction of the circular plate through the mounting shafts (41) so as to adapt to winding more and more electric wires (5).

3. The electric wire winding device for municipal engineering according to claim 1 or 2, wherein: when the first absorbing piece (48) is pulled outwards, the outer end of the isolating cloth (46) is driven by the first absorbing piece (48) to move outwards, meanwhile, the clockwork spring is compressed by the inner end of the isolating cloth (46) and stores elastic potential energy, then the first absorbing piece (48) is absorbed on the adjacent second absorbing piece (49), and a plurality of isolating cloths (46) form an integral isolating layer between the head and the tail and surround the periphery of the wound electric wire (5).

4. The electric wire winding device for municipal engineering according to claim 1, wherein: all seted up a plurality of bar spout (51) on curb plate (1), the curb plate (3) down, bar spout (51) distribute along the radial line direction of curb plate (1), curb plate (3) down, slider (52) slide and set up in bar spout (51), be equipped with elastic component (53) between the both sides of slider (52) and the inside and outside end of bar spout (51) respectively.

5. The electric wire winding device for municipal engineering according to claim 1, wherein: frame (43) includes roof, bottom plate and riser, the roof horizontal fixation is on the top of installation axle (41), the bottom plate horizontal fixation is on the bottom of installation axle (41), the riser is vertical to be fixed between the outer end of roof, bottom plate, cylinder type casing (44) are located the position department between riser and side pressure roller (42).

6. The wire winding device for municipal engineering according to claim 5, wherein: the cross section of export (47) is the rectangle frame mouth, first absorption piece (48) are the rectangular plate body, second absorption piece (49) adopt the cuboid structure, first absorption piece (48) adopt the magnet piece, export (47), second absorption piece (49) all adopt ferromagnetic material.

7. The wire winding device for municipal engineering according to claim 4, wherein: the top end and the bottom end of the first winding shaft (2) are respectively connected with the lower side plate (1) and the upper side plate (3) through bearings in a rotating mode, the elastic piece (53) adopts a rectangular spiral spring, and the number of the sliding blocks (52) on the lower side plate (1) and the upper side plate (3) is three.

8. The electric wire winding device for municipal engineering according to claim 1, wherein: the side compression roller (42) is made of elastic materials, the outer surface of the side compression roller (42) is a smooth surface, the height of the side compression roller (42) is L1, the distance between the top surface of the lower side plate (1) and the bottom surface of the upper side plate (3) is L2, and L2= L1+10 mm.