CN205076572U - A cable winch for netsonde - Google Patents

Abstract

The utility model discloses a cable winch for netsonde belongs to winch machinery technical field. This cable winch is including receiving cable mechanism and arranging cable mechanism, it includes first base to receive cable mechanism, a driving assembly, a sliding ring subassembly that is used for being connected with the equipment on water electricity of netsonde, and rotationally install on first base the hollow shaft with be used for twining the cylinder of cable, drive assembly is connected with the one end transmission of cylinder, the one end of hollow shaft and the coaxial fixed connection of the other end of cylinder, the other end and the coaxial fixed connection of sliding ring subassembly of hollow shaft, the cable passes the cylinder in proper order and the hollow shaft is connected with sliding ring subassembly electricity, row's cable mechanism includes the second base, arranges cable ware and drive assembly, and drive assembly rotationally installs on the second base, and row's cable ware passes through drive assembly to be installed on the second base, arranges the cable ware and sets up relatively with the cylinder, and the moving direction who just arranges the cable ware is parallel with the axial direction of cylinder. The utility model discloses can be so that cable winch and netsonde simultaneous working.

Description

A kind of cable winch for net monitor

Technical field

The utility model belongs to winch field of mechanical technique, particularly a kind of cable winch for net monitor.

Background technology

Net monitor is the electronics fishing aid equipment of a kind of large-scale ocean factory-trawler indispensability, is mainly used in the state etc. measuring traw mouth.In order to the remote high speed communication between the underwater probe of net monitor and marine equipment can be realized, length is usually adopted to transmit communication signal at the cable of about 2000m.Because cable length is longer, thus need a kind of can the cable winch of quickly retracting cable.Existing common cable winch generally includes base, actuating device and cylinder.Cylinder and actuating device are arranged on base respectively, and cylinder is driven by actuating device and does rotating campaign, thus realizes the folding and unfolding of cable.

Realizing in process of the present utility model, contriver finds that prior art at least exists following problem:

When cable winch works, need first by one end dismounting be positioned on marine equipment of cable, and then be installed on cylinder, last ability head roll folding and unfolding cable, operation very loaded down with trivial details, because cable winch operationally must cut off the connection between underwater probe and marine equipment, cause net monitor normally to work, thus net monitor cannot be worked with cable winch simultaneously.To be subsidized by national high-tech research development project (863 Program) the research of the problems referred to above and the project of solution.

Utility model content

In order to solve the problem that common cable winch cannot work with net monitor simultaneously, the utility model embodiment provides a kind of cable winch for net monitor.Described technical scheme is as follows:

The utility model embodiment provides a kind of cable winch for net monitor, described cable winch comprises take-up mechanism and cable sector, described take-up mechanism comprises the first base, be arranged on the driven unit on described first base, for the slip ring assembly be electrically connected with the marine equipment of described net monitor, and the hollow shaft be installed in rotation on described first base and the cylinder for being wound around described cable, one end of described driven unit and described cylinder is in transmission connection, one end of described hollow shaft is coaxially fixedly connected with the other end of described cylinder, the other end of described hollow shaft is coaxially fixedly connected with described slip ring assembly, described cable is electrically connected with described slip ring assembly through described cylinder and described hollow shaft successively,

Described cable sector comprises the second base, cable-remover and transmission component, described transmission component is installed in rotation on described second base, described cable-remover is movably arranged on described second base by described transmission component, described cable-remover and described cylinder are oppositely arranged, and the moving direction of described cable-remover is parallel with the axial direction of described cylinder.

In a kind of implementation of the present utility model, described slip ring assembly comprises the rotor that is electrically connected with described cable and the stator for being electrically connected with described marine equipment, described rotor coaxial is fixed on described hollow shaft, and described rotor is electrically connected with described stator rotationally.

In another kind of implementation of the present utility model, described cylinder comprises cylindrical shell and is disposed on two gussets in described cylindrical shell, two described gussets are all coaxially arranged with described hollow shaft, described cylindrical shell and described gusset are provided with through hole, and described cable is electrically connected with described slip ring assembly through the through hole of described cylindrical shell and the through hole of described gusset successively.

In another kind of implementation of the present utility model, described cable-remover comprise first row cable seat and two row cavils, described two row cavil intervals be vertically mounted on described first row cable seat, described first row cable seat is arranged on described transmission component.

In another kind of implementation of the present utility model, described transmission component comprises and is separately positioned on reverse-flighted screw on described second base and polished rod, described reverse-flighted screw and described polished rod arranged in parallel, described first row cable seat is threaded with described reverse-flighted screw, described cable-remover also comprises second row cable seat, described second row cable seat is arranged on described polished rod movably, and described second row cable seat is connected with described first row cable seat by described two row's cavils.

In another kind of implementation of the present utility model, described cable sector also comprises drive sprocket, driven sprocket and chain, described drive sprocket is coaxially fixedly connected with described hollow shaft, described driven sprocket is coaxially fixedly connected with described reverse-flighted screw, and described drive sprocket is in transmission connection by described chain and described driven sprocket.

In another kind of implementation of the present utility model, described cable sector also comprises handwheel, and described handwheel is coaxially arranged on one end of described reverse-flighted screw.

In another kind of implementation of the present utility model, described cable sector also comprises chain wheel cover, one end of described chain wheel cover is arranged on described first base, the other end of described chain wheel cover is arranged on described second base, and described chain wheel cover is arranged between described hollow shaft and described slip ring assembly, described chain wheel cover is located at outside described drive sprocket, described driven sprocket and described chain.

In another kind of implementation of the present utility model, described take-up mechanism also comprises slip ring box, and described slip ring box is arranged on described chain wheel cover, and described slip ring box is located at outside described slip ring assembly.

In another kind of implementation of the present utility model, described first row cable seat is threaded with described reverse-flighted screw.

The beneficial effect that the technical scheme that the utility model embodiment provides is brought is:

By cable winch being divided into take-up mechanism and cable sector two parts, and be take-up mechanism configuration slip ring assembly, hollow shaft and cylinder, cylinder is coaxially arranged on hollow shaft, slip ring assembly is arranged on one end of hollow shaft, cable can be electrically connected with slip ring assembly through cylinder and hollow shaft successively, thus cable can be electrically connected with marine equipment by slip ring assembly, and then cable winch can be worked simultaneously with net monitor.And by arranging cable-remover and transmission component in cable sector, make cable-remover can do back and forth movement by transmission component along the axial direction of cylinder, thus make that cable can be orderly be wound on cylinder, avoid, when folding and unfolding cable, disorder cable phenomenon occur.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, below the accompanying drawing used required in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the front view of the cable winch that the utility model embodiment provides;

Fig. 2 is the birds-eye view of the cable winch that the utility model embodiment provides;

In figure, each symbol represents that implication is as follows:

1-take-up mechanism, 11-first base, 12-driven unit, 121-HM Hydraulic Motor, 122-retarder, 13-slip ring assembly, 131-rotor, 132-stator, 14-hollow shaft, 15-cylinder, 151-cylindrical shell, 152-gusset, 153-through hole, 16-slip ring box, 2-cable sector, 21-second base, 22-cable-remover, 221 first row cable seats, 222-arranges cavil, 223-second row cable seat, 23-transmission component, 231-reverse-flighted screw, 232-polished rod, 24-drive sprocket, 25-driven sprocket, 26-handwheel, 27-chain wheel cover, 3-cable.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with accompanying drawing, the utility model embodiment is described in further detail.

The utility model embodiment provides a kind of cable winch for net monitor, as shown in Figure 1, this cable winch comprises take-up mechanism 1 and cable sector 2, take-up mechanism 1 comprises the first base 11, be arranged on the driven unit 12 on the first base 11, for the slip ring assembly 13 be electrically connected with the marine equipment (not shown) of net monitor, and the hollow shaft 14 be installed in rotation on the first base 11 and the cylinder 15 for being wound around cable 3, driven unit 12 is in transmission connection with one end of cylinder 15, one end of hollow shaft 14 is coaxially fixedly connected with the other end of cylinder 15, the other end of hollow shaft 14 is coaxially fixedly connected with slip ring assembly 13, cable 3 is electrically connected with slip ring assembly 13 through cylinder 15 and hollow shaft 14 successively.

Composition graphs 2, cable sector 2 comprises the second base 21, cable-remover 22 and transmission component 23, transmission component 23 is installed in rotation on the second base 21, cable-remover 22 is movably arranged on the second base 21 by transmission component 23, cable-remover 22 and cylinder 15 are oppositely arranged, and the moving direction of cable-remover 22 is parallel with the axial direction of cylinder 15.

Preferably, the first base 11 and the second base 21 can weld togethers, to improve the stability of cable winch.

In above-mentioned implementation, net monitor can comprise underwater probe (not shown) and marine equipment, and underwater probe and marine equipment are electrically connected by cable, to realize the remote high speed communication between underwater probe and marine equipment.

The present embodiment is by being divided into take-up mechanism 1 and cable sector 2 two parts by cable winch, and configure slip ring assembly 13, hollow shaft 14 and cylinder 15 for take-up mechanism 1, cylinder 15 is coaxially arranged on hollow shaft 14, slip ring assembly 13 is arranged on one end of hollow shaft 14, cable can be electrically connected with slip ring assembly 13 through cylinder 15 and hollow shaft 14 successively, thus cable can be electrically connected with marine equipment by slip ring assembly 13, and then cable winch can be worked simultaneously with net monitor.And by arranging cable-remover 22 and transmission component 23 in cable sector 2, make cable-remover 22 can do back and forth movement by transmission component 23 along the axial direction of cylinder 15, thus being wound on cylinder 15 of making that cable can be orderly, avoid, when folding and unfolding cable, disorder cable phenomenon occurs.

Refer again to Fig. 1, particularly, two gussets 152 that cylinder 15 comprises cylindrical shell 151 and is disposed in cylindrical shell 151, two gussets 152 are all coaxially arranged with hollow shaft 14, cylindrical shell 151 and gusset 152 are provided with through hole 153, and cable 3 is electrically connected with slip ring assembly 13 through the through hole 153 of cylindrical shell and the through hole 153 of gusset successively.Preferably, through hole 153 can with cable 3 interference fit, cable 3 is fixed by through hole 153, avoids cable 3 and produce unnecessary rocking in cylindrical shell 151.

Particularly, driven unit 12 comprises HM Hydraulic Motor 121 and retarder 122, and the output shaft of HM Hydraulic Motor 121 is connected with cylinder 15 by retarder 122.Preferably, retarder 122 can be planetary reduction gear, to play the effect of deceleration increment.Easy understand, this cable winch can also comprise Hydraulic Pump (not shown), and Hydraulic Pump is communicated with HM Hydraulic Motor 121, and Hydraulic Pump is used for providing hydraulic energy for HM Hydraulic Motor 121.

Particularly, slip ring assembly 13 comprises the rotor 131 that is electrically connected with cable 3 and the stator 132 for being electrically connected with marine equipment, and rotor 131 is coaxially fixed on hollow shaft 14, and rotor 131 is electrically connected with stator 132 rotationally.In above-mentioned implementation, rotor 131 by hollow shaft 14 along with cylinder 15 rotates, stator 132 with keep relative static between marine equipment, utilize the contact relation be electrically connected rotationally between rotor 131 and stator 132, the cable 3 be connected with rotor 131 can be electrically connected with marine equipment rotationally by stator 132, avoid cable 3 because of the rotation of cylinder 15 by the problem twisted off.

In the utility model embodiment, cable-remover 22 comprise first row cable seat 221 and two row cavil 222, two row cavil 222 intervals be vertically mounted on first row cable seat 221, first row cable seat 221 is arranged on transmission component 23.Preferably, two row's cavils 222 are all connected with first row cable seat 221 bearing, to make between two row's cavils 222 cable 3 that passes can arrange cavil 222 and produce friction of rolling with two, thus the friction coefficient reduced between cable 3 and row's cavil 222, improve the service life of cable 3 and row's cavil 222.

Particularly, transmission component 23 comprises and is separately positioned on reverse-flighted screw 231 on the second base 21 and polished rod 232, reverse-flighted screw 231 and polished rod 232 arranged in parallel, first row cable seat 221 is threaded with reverse-flighted screw 231, cable-remover 22 also comprises second row cable seat 223, second row cable seat 223 is arranged on polished rod 232 movably, and second row cable seat 223 is connected with first row cable seat 221 by two row's cavils 222.By being clamped between first row cable seat 221 and second row cable seat 223 by two row's cavils 222, the stability of cable-remover 22 is improved.

Particularly, reverse-flighted screw 231 is provided with forward screw thread and reverse thread, pitch between forward screw thread and reverse thread is equal, and forward screw thread is identical with the section form of reverse thread, and the screw channel of forward screw thread is communicated with the end, two ends of the screw channel of reverse thread at reverse-flighted screw 231.Easy understand, the inwall of first row cable seat 221 is provided with the screw thread (not shown) matched with reverse-flighted screw 231, in the course of the work, when the forward threaded engagement of screw thread and reverse-flighted screw 231, first row cable seat 221 can move from left to right, when first row cable seat 221 moves to the low order end of reverse-flighted screw 231, screw thread on first row cable seat 221 automatically disengages forward screw thread, be meshed with reverse thread by the screw channel of low order end simultaneously, thus make first row cable seat 221 can from right toward left movement, to realize the back and forth movement of first row cable seat 221.It should be noted that, the hand of spiral of forward screw thread and reverse thread can change according to the actual requirements accordingly, only as an example, the utility model does not limit this sense of motion of above-mentioned forward screw thread and the first row cable seat 221 corresponding to reverse thread difference.

In the utility model embodiment, cable sector 2 also comprises drive sprocket 24, driven sprocket 25 and chain (not shown), drive sprocket 24 is coaxially fixedly connected with hollow shaft 14, driven sprocket 25 is coaxially fixedly connected with reverse-flighted screw 231, and drive sprocket 24 is in transmission connection by chain and driven sprocket 25.In the course of the work, hollow shaft 14 drives drive sprocket 24 coaxial rotating, thus drive sprocket 24 can be rotated by chain-driving driven sprocket 25, and then makes driven sprocket 25 drive reverse-flighted screw 231 to rotate, for cable sector 2 provides power.

Particularly, cable sector 2 also comprises handwheel 26, and handwheel 26 is coaxially arranged on one end of reverse-flighted screw 231, when drive sprocket 24 or driven sprocket 25 or chain cannot work, reverse-flighted screw 231 can be rotated, to realize the emergency driving function of cable sector 2 by handwheel 26.

In the utility model embodiment; cable sector 2 also comprises chain wheel cover 27; one end of chain wheel cover 27 is arranged on the first base 11; the other end of chain wheel cover 27 is arranged on the second base 21; and chain wheel cover 27 is arranged between hollow shaft 14 and slip ring assembly 13; chain wheel cover 27 is located at outside drive sprocket 24, driven sprocket 25 and chain, to play the effect of protection drive sprocket 24, driven sprocket 25 and chain.

Particularly, take-up mechanism 1 also comprises slip ring box 16, and slip ring box 16 is arranged on chain wheel cover 27, and slip ring box 16 is located at outside slip ring assembly 13, to play the effect of protection slip ring assembly 13.

The utility model embodiment is by being divided into take-up mechanism and cable sector two parts by cable winch, and be take-up mechanism configuration slip ring assembly, hollow shaft and cylinder, cylinder is coaxially arranged on hollow shaft, slip ring assembly is arranged on one end of hollow shaft, cable can be electrically connected with slip ring assembly through cylinder and hollow shaft successively, thus cable can be electrically connected with marine equipment by slip ring assembly, and then cable winch can be worked simultaneously with net monitor.And by arranging cable-remover and transmission component in cable sector, make cable-remover can do back and forth movement by transmission component along the axial direction of cylinder, thus make that cable can be orderly be wound on cylinder, avoid, when folding and unfolding cable, disorder cable phenomenon occur.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1., for a cable winch for net monitor, described cable winch comprises take-up mechanism and cable sector, it is characterized in that,

Described take-up mechanism comprises the first base, be arranged on the driven unit on described first base, for the slip ring assembly be electrically connected with the marine equipment of described net monitor, and the hollow shaft be installed in rotation on described first base and the cylinder for being wound around described cable, one end of described driven unit and described cylinder is in transmission connection, one end of described hollow shaft is coaxially fixedly connected with the other end of described cylinder, the other end of described hollow shaft is coaxially fixedly connected with described slip ring assembly, described cable is electrically connected with described slip ring assembly through described cylinder and described hollow shaft successively,

Described cable sector comprises the second base, cable-remover and transmission component, described transmission component is installed in rotation on described second base, described cable-remover is movably arranged on described second base by described transmission component, described cable-remover and described cylinder are oppositely arranged, and the moving direction of described cable-remover is parallel with the axial direction of described cylinder.

2. cable winch according to claim 1, it is characterized in that, described slip ring assembly comprises the rotor that is electrically connected with described cable and the stator for being electrically connected with described marine equipment, and described rotor coaxial is fixed on described hollow shaft, and described rotor is electrically connected with described stator rotationally.

3. cable winch according to claim 1, it is characterized in that, described cylinder comprises cylindrical shell and is disposed on two gussets in described cylindrical shell, two described gussets are all coaxially arranged with described hollow shaft, described cylindrical shell and described gusset are provided with through hole, and described cable is electrically connected with described slip ring assembly through the through hole of described cylindrical shell and the through hole of described gusset successively.

4. cable winch according to claim 1, it is characterized in that, described cable-remover comprise first row cable seat and two row cavils, described two row cavil intervals be vertically mounted on described first row cable seat, described first row cable seat is arranged on described transmission component.

5. cable winch according to claim 4, it is characterized in that, described transmission component comprises and is separately positioned on reverse-flighted screw on described second base and polished rod, described reverse-flighted screw and described polished rod arranged in parallel, described first row cable seat is threaded with described reverse-flighted screw, described cable-remover also comprises second row cable seat, and described second row cable seat is arranged on described polished rod movably, and described second row cable seat is connected with described first row cable seat by described two row's cavils.

6. cable winch according to claim 5, it is characterized in that, described cable sector also comprises drive sprocket, driven sprocket and chain, described drive sprocket is coaxially fixedly connected with described hollow shaft, described driven sprocket is coaxially fixedly connected with described reverse-flighted screw, and described drive sprocket is in transmission connection by described chain and described driven sprocket.

7. cable winch according to claim 5, is characterized in that, described cable sector also comprises handwheel, and described handwheel is coaxially arranged on one end of described reverse-flighted screw.

8. cable winch according to claim 6, it is characterized in that, described cable sector also comprises chain wheel cover, one end of described chain wheel cover is arranged on described first base, the other end of described chain wheel cover is arranged on described second base, and described chain wheel cover is arranged between described hollow shaft and described slip ring assembly, described chain wheel cover is located at outside described drive sprocket, described driven sprocket and described chain.

9. cable winch according to claim 8, is characterized in that, described take-up mechanism also comprises slip ring box, and described slip ring box is arranged on described chain wheel cover, and described slip ring box is located at outside described slip ring assembly.

10. cable winch according to claim 1, is characterized in that, described driven unit comprises HM Hydraulic Motor and retarder, and the output shaft of described HM Hydraulic Motor is connected with described cylinder by described retarder.