CN113562554A

CN113562554A - Shore power shipborne system

Info

Publication number: CN113562554A
Application number: CN202111112952.9A
Authority: CN
Inventors: 丁素英
Original assignee: Changzhou Yixinhong Machinery Co ltd
Current assignee: Changzhou Yixinhong Machinery Co ltd
Priority date: 2021-09-23
Filing date: 2021-09-23
Publication date: 2021-10-29
Anticipated expiration: 2041-09-23
Also published as: CN113562554B

Abstract

The invention relates to a shore power shipborne system which is used for collecting and releasing cables and comprises the following components: the winch comprises a frame, a winch shaft, a conductive sliding ring, a winch and a driving device, wherein the winch shaft is rotatably arranged in the frame; a speed reducer motor is arranged at the upper part of the frame, the driving end of the speed reducer motor is connected with an electromagnetic speed limiter, and two ends of the electromagnetic speed limiter are respectively connected with a wire feeding chain wheel and a driving chain wheel; a reciprocating screw rod wire arrangement device is also arranged in the frame, and a wire arrangement chain wheel is arranged on the reciprocating screw rod wire arrangement device; the top of the frame is also provided with a wire feeding system, the wire feeding system comprises two rows of driving wheels which are arranged up and down, one of the driving wheels in one row is a wire arranging wheel, and the wire arranging wheel is connected with a wire feeding chain wheel through a chain; the driving chain wheel is also connected with a driving flat cable chain wheel and a winch shaft through a chain. The system can realize automatic paying-off of the marine cable.

Description

Shore power shipborne system

Technical Field

The invention relates to a pay-off system, in particular to a shore power shipborne system.

Background

Boats and ships need use the commercial power when berthing the bank, and current system is generally through the manual work with the cable unwrapping wire to the bank connection commercial power, but to great boats and ships, the weight of cable is too big, and the manual work is difficult to the pulling, and current cable stirring dish can lead to the cable to loosen on the stirring because rocking of ship itself when on the ship simultaneously.

In view of the above-mentioned drawbacks, the present designer is actively making research and innovation to create a new type of cable pay-off system for ships, so that the cable pay-off system has more industrial utility value.

Disclosure of Invention

To solve the above technical problems, an object of the present invention is to provide a cable paying-off system for a ship, which can facilitate wire feeding and can be kept fixed when not in use.

The technical scheme of the invention is as follows:

a shore power on-board system for retrieving and releasing electrical cables, comprising:

the winch comprises a frame 100, a winch shaft 1 arranged in the frame 100 in a rotating mode, a conductive sliding ring 3 arranged on the winch shaft 1, and a winch 2 connected to the outside of the winch shaft 1;

a speed reducer motor 5 is arranged at the upper part of the frame 100, the driving end of the speed reducer motor 5 is connected with an electromagnetic speed limiter 6, and two ends of the electromagnetic speed limiter 6 are respectively connected with a wire feeding chain wheel 601 and a driving chain wheel 602;

the frame 100 is also internally provided with a reciprocating screw rod wire arranging device 4, and a wire arranging chain wheel 401 is arranged on the reciprocating screw rod wire arranging device;

the top of the frame 100 is further provided with a wire feeding system 7, the wire feeding system 7 comprises two rows of driving wheels arranged up and down, one of the two rows of driving wheels is a wire arranging wheel 701, and the wire arranging wheel 701 is connected with the wire feeding chain wheel 601 through a chain;

the driving sprocket 602 also drives the traverse sprocket 401 and the winch shaft 1 through chain connection.

Further, an electric cabinet 8 and a junction box 9 are arranged on one side of the frame 100.

Further, a control mainboard is arranged in the electric cabinet 8, the control mainboard is connected with a wireless transceiving system, and the wireless transceiving system can be connected with external mobile equipment to receive external commands.

Further, a visual detection system is further arranged in the frame 100, a mark is printed on the outside of the cable, the visual detection system is used for detecting the mark and sending mark information to the control main board, and the control main board controls the running of the speed reducer motor 5 according to an external command.

Furthermore, the driving wheels of the wire feeding system 7 are provided with concave wire feeding portions, the wire feeding portions are further provided with a plurality of telescopic clamping devices, each clamping device comprises a fixed block 7011 fixed to the wire feeding portion, arc-shaped supporting pieces 7012 connected to two ends of the fixed block 7011, and anti-slip pads 7013 are further arranged on the arc-shaped supporting pieces 7012.

Further, the indicia is printed onto the cable.

Further, the mark corresponds to the length of the cable.

Further, one end of the winch shaft 1 is also provided with a power-off brake 102 for braking.

Furthermore, one end of the electromagnetic speed limiter 6 is also connected with a stopper 10 for controlling the number of rotation turns of the winch shaft 1.

Further, the stopper 10 includes a stopper shaft 1001 connected to the electromagnetic speed limiter 6, a lead screw 1002 is disposed on the stopper shaft 1001, a first limit wheel 1003 and a second limit wheel 1004 which are disposed at intervals are connected to the lead screw 1002 through threads, the first limit wheel 1003 and the second limit wheel 1004 are both slidably disposed on a slide bar 1007, and a first limit switch 1005 located on one side of the first limit wheel 1003 and a second limit switch 1006 located on one side of the second limit wheel 1004 are further disposed in the stopper 10.

By the scheme, the invention at least has the following advantages:

(1) an electromagnetic speed limiter is arranged between the power system and the winch shaft, and the electromagnetic speed limiter is provided with certain tension and can control the tension when the cable is wound and unwound;

(2) the system drives the operation of the winch shaft, the reciprocating screw rod wire arranging device and the wire feeding system through a power system, reduces the number of driving systems and has high efficiency;

(3) the system is arranged on the control main board, and a wireless transceiving system is added, so that the wireless control of the whole system can be realized;

(4) the system is provided with the camera, so that the mark on the cable can be identified, and the accurate control of the cable discharging length is realized.

(5) The system is provided with the power-off brake on the winch shaft, so that the rotation of the winch shaft is limited under the condition of power failure, and the cable can be prevented from being loosened;

(6) the system is provided with the limiter, and can limit the number of turns of the winch through the adjustment of parameters to realize limiting protection.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate a certain embodiment of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of another embodiment of the present invention;

FIG. 3 is a schematic view of the stopper of the present invention;

FIG. 4 is a schematic structural view of a wire arranging wheel of the present invention;

in the figure: 100-a frame;

1-a winch shaft; 101-winch drive wheel; 102-a power-off brake;

2, a winch;

3-a conductive slip ring;

4-reciprocating screw mandrel wire arrangement device; 401-flat cable sprocket;

5-a reducer motor;

6-electromagnetic speed limiter; 601-wire feeding chain wheel; 602-a drive sprocket; 603-a first coupling; 604-a second coupling;

7-wire feeding system; 701-a wire arrangement wheel; 7011-fixed block; 7012-arc support sheet; 7013-non-slip mat; 702-an outlet;

8, an electric cabinet;

9-a junction box;

10-a stopper; 1001-stopper shaft; 1002-a screw rod; 1003-a first limit wheel; 1004 — a second limit wheel; 1005-a first limit switch; 1006-a second limit switch; 1007-sliding bar.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1 and 2, a shore power ship-borne system for reeling and unreeling cables according to a preferred embodiment of the present invention includes:

the winch comprises a frame 100, a winch shaft 1 arranged in the frame 100 in a rotating mode, a conductive sliding ring 3 arranged on the winch shaft 1, and a winch 2 connected to the outside of the winch shaft 1; the frame 100 is a steel frame made of stainless steel, and is generally coated with an anti-corrosion paint to cope with corrosion. A partition board is arranged in the frame 100, one side of the partition board is a working area, and the other side of the partition board is an installation area of the electric cabinet 8 and the junction box 9.

A speed reducer motor 5 is arranged at the upper part of the frame 100, the driving end of the speed reducer motor 5 is connected with an electromagnetic speed limiter 6 through a first connecting shaft 603, and two ends of the electromagnetic speed limiter 6 are respectively connected with a wire feeding chain wheel 601 and a driving chain wheel 602; the reducer motor 5 is a main driving system, and the electromagnetic speed limiter 6 is a mechanism having a certain tension when being electrified, and can keep a certain tension, prevent the cable from loosening under the action of external force, and can realize cable winding and unwinding when the driving force is greater than the tension.

The frame 100 is also provided with a reciprocating screw wire arranging device 4, a wire arranging chain wheel 401 is arranged on the reciprocating screw wire arranging device 4, the reciprocating screw wire arranging device 4 is an existing mature mechanism, and the wire arranging chain wheel 401 is used as a driving wheel of the reciprocating screw wire arranging device 4.

The top of the frame 100 is further provided with a wire feeding system 7, the wire feeding system 7 comprises two rows of driving wheels arranged up and down, one of the two rows of driving wheels is a wire arranging wheel 701, the wire arranging wheel 701 is connected with a wire feeding chain wheel 601 through a chain, the wire feeding chain wheel 601 is driven to drive the wire arranging wheel 701 to rotate, and a wire outlet 702 is formed between the two rows of driving wheels of the wire arranging system 7.

When the two rows of driving wheels are used for conveying, in order to allow that when cables with different diameters are wound and unwound, the cable with the smaller diameter may be smaller than a conveying channel formed by the two rows of driving wheels, four telescopic clamping devices are arranged on each driving wheel, taking a wire arranging wheel 701 as an example, each clamping device comprises a fixed block 7011 fixed to a wire feeding part of the wire arranging wheel 701, arc-shaped supporting pieces 7012 connected to two ends of the fixed block 7011, and anti-skidding pads 7013 are further arranged on the arc-shaped supporting pieces 7012. The arc supporting sheet 7012 can contract towards the center under the state of not being stressed, so that the cables can be clamped and conveyed (different sizes can be adapted), the non-slip mat 7013 is a rubber mat and can be adhered by glue, and the cables can be clamped more.

The driving sprocket 602 is also connected with the driving traverse sprocket 401 and the winch shaft 1 through a chain, and the traverse sprocket 401 and the winch shaft 1 can be driven to rotate simultaneously by the driving sprocket 602.

An electric cabinet 8 and a junction box 9 are further provided at one side of the frame 100.

One end of the electromagnetic speed limiter 6 is also connected with a stopper 10 for controlling the number of rotation turns of the winch shaft 1, and the specific electromagnetic speed limiter 6 is connected with the stopper 10 through a second coupler 604.

The stopper 10 includes the stopper axle 1001 of connecting the electromagnetic speed limiter 6, is provided with the lead screw 1002 on the stopper axle 1001, and threaded connection has first spacing wheel 1003 and the spacing wheel 1004 that the interval set up on the lead screw 1002, and first spacing wheel 1003 and the spacing wheel 1004 still all slide and set up to the slide bar 1007 on, still are provided with the first limit switch 1005 that is located first spacing wheel 1003 one side and the second limit switch 1006 that is located second spacing wheel 1004 one side in the stopper 10. The limiter 10 is equivalent to a material limit switch, the number of turns of the rotation of the limiter 10 and the number of turns of the corresponding take-up and pay-off of the winch 2 are set, and the power-off of the motor 5 of the speed reducer can be realized.

Be provided with the control mainboard in the electric cabinet 8, the control mainboard is connected with wireless receiving and dispatching system, but the outside mobile device of wireless receiving and dispatching system connection is used for receiving external command, and the control mainboard mainly is the operation that is used for controlling speed reducer motor 5, through outside handheld mobile device, can launch the order through the network and give wireless receiving and dispatching system, and after the control mainboard received the order, can realize the work to control speed reducer motor 5.

Still be provided with the visual detection system in the frame 100, the cable outside is printed with the mark, through with the cable outside different colours retreat old printing after-forming, the visual detection system is used for detecting the mark and sends mark information for the control mainboard, the operation of control mainboard according to external command control speed reducer motor 5, the visual detection system generally is the camera, this camera has integrated visual identification mechanism, this camera connection control mainboard simultaneously. Because the outside of cable is provided with the mark, this mark corresponds the distance that the cable receive and releases, can discern the mark through this camera to know the length of cable unwrapping wire, thereby the control mainboard can know the concrete length of cable unwrapping wire, if the order of unwrapping wire distance has been input in advance, then the control mainboard can realize accurate unwrapping wire.

The two rows of driving wheels of the thread feeding system 7 are each provided with a concave thread feeding portion, corresponding to the external portion of the driving wheel being sleeved with a concave ring mechanism, which is generally made of teflon.

One end of the winch shaft 1 is also provided with a power-off brake 102 for braking, the power-off brake 102 being intended to lock the winch shaft 1 in case of a power failure of the entire system, preventing the cable on the winch 2 from loosening due to the sloshing of the ship.

The working principle of the invention is as follows:

the cable normally twines on winch 2, and winch 2's inside has set up conductive sliding ring 3, and conductive sliding ring 3's carbon brush has connected the cable, and conductive sliding ring 3 main part is connected on-board junction box 9, and electrical equipment on the ship is connected simultaneously to junction box 9, can realize the normal power transmission of cable.

The winch shaft 1 is driven by the driving chain wheel 602, meanwhile, the winding displacement chain wheel 401 is synchronously driven, the cable winch shaft 1 is matched with the winding displacement chain wheel 401 to realize unwinding under the rotation, cables are conveyed to the outside through the wire feeding system 7, the wire feeding system 7 has power and is driven by the wire feeding chain wheel 601.

The electromagnetic speed limiter 6 provides power for the wire feeding chain wheel 601 and the driving chain wheel 602, in the system, the electromagnetic speed limiter 6 is connected with the speed reducer motor 5, the electromagnetic speed limiter 6 provides certain tension, and the cable on the winch 2 can be prevented from loosening under the action of small external force.

The marks are arranged on the cable of the system, and can be identified through the camera, so that the accurate control of the pull-out length of the cable is realized.

The electromagnetic speed limiter 6 arranged in the system is used as a physical speed limiter, and can realize power-off control on the speed reducer motor 5.

The invention has the following advantages:

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims

1. A shore power on-board system for retrieving and releasing electrical cables, comprising:

the winch comprises a frame (100), a winch shaft (1) rotatably arranged in the frame (100), a conductive sliding ring (3) is arranged on the winch shaft (1), and a winch (2) is connected to the outside of the winch shaft (1);

a speed reducer motor (5) is arranged at the upper part of the frame (100), the driving end of the speed reducer motor (5) is connected with an electromagnetic speed limiter (6), and two ends of the electromagnetic speed limiter (6) are respectively connected with a wire feeding chain wheel (601) and a driving chain wheel (602);

a reciprocating screw rod wire arranging device (4) is also arranged in the frame (100), and a wire arranging chain wheel (401) is arranged on the reciprocating screw rod wire arranging device;

the top of the frame (100) is also provided with a wire feeding system (7), the wire feeding system (7) comprises two rows of driving wheels which are arranged up and down, one of the driving wheels is a wire arranging wheel (701), and the wire arranging wheel (701) is connected with a wire feeding chain wheel (601) through a chain;

the driving chain wheel (602) is also connected with and drives the flat cable chain wheel (401) and the winch shaft (1) through a chain.

2. A shore power on-board system according to claim 1, wherein: an electric cabinet (8) and a junction box (9) are further arranged on one side of the frame (100).

3. A shore power on-board system according to claim 2, wherein: the electric control box (8) is internally provided with a control mainboard, the control mainboard is connected with a wireless receiving and transmitting system, and the wireless receiving and transmitting system can be connected with external mobile equipment and is used for receiving external commands.

4. A shore power on-board system according to claim 3, wherein: the cable is characterized in that a visual detection system is further arranged in the frame (100), a mark is printed on the outer portion of the cable, the visual detection system is used for detecting the mark and sending mark information to the control main board, and the control main board controls the running of the speed reducer motor (5) according to an external command.

5. A shore power on-board system according to claim 1, wherein: the drive wheel of sending line system (7) all is provided with the line portion of sending of indent, send the line portion to go up and still set up a plurality of telescopic clamping device, clamping device is connected to arc backing sheet (7012) at fixed block (7011) both ends including fixed block (7011) of sending the line portion still set up slipmat (7013) on the arc backing sheet (7012).

6. A shore power on-board system according to claim 5, wherein: the indicia is printed onto the cable.

7. A shore power on-board system according to claim 6, wherein: the indicia corresponds to a length of the cable.

8. A shore power on-board system according to claim 1, wherein: one end of the winch shaft (1) is also provided with a power-off brake (102) for braking.

9. A shore power on-board system according to claim 1, wherein: one end of the electromagnetic speed limiter (6) is also connected with a limiter (10) used for controlling the number of rotation turns of the winch shaft (1).

10. A shore power on-board system according to claim 9, wherein: the limiter (10) comprises a limiter shaft (1001) connected with the electromagnetic speed limiter (6), a lead screw (1002) is arranged on the limiter shaft (1001), a first limiting wheel (1003) and a second limiting wheel (1004) which are arranged at intervals are connected to the lead screw (1002) in a threaded manner, the first limiting wheel (1003) and the second limiting wheel (1004) are arranged on a sliding rod (1007) in a sliding manner, and a first limiting switch (1005) located on one side of the first limiting wheel (1003) and a second limiting switch (1006) located on one side of the second limiting wheel (1004) are further arranged in the limiter (10).