CN207375667U - A kind of ocean seismic exploration haulage cable winch storehouse - Google Patents

Abstract

A kind of ocean seismic exploration haulage cable winch storehouse, including hoist room and operation room, hoist room is internally provided with self-adjustable ocean seismic exploration haulage cable winch, motor in winch drives live roller by driving chain, live roller drives rotation axis by reduction box, reel is installed in rotation axis, there are three-stage speed change gear and automatic adjustment gear shaft in reduction box, automatically adjusting gear shaft includes support shaft, positive gear shaft, adjustment gear axis and reverse gear axis, the piston portion of brake system is mounted on close to the position of secondary gear, and pass through conduit and be connected with brake part, it is braked for countershaft brake part.The application is integrated with entire seismic acquisition configuration, and the hydraulic pressure storehouse for being not required volume larger is run using two-wire synchronization conduction pattern, and automatic adjustment gear shaft can rotate automatically, protect reduction gearing and motor, prolong the service life；Part drag is transferred on winch frame by autobrake system, alleviates the load of reel and gear.

Description

A kind of ocean seismic exploration haulage cable winch storehouse

Technical field

The utility model is related to a kind of winch storehouse, more particularly to a kind of ocean seismic exploration haulage cable winch storehouse.

Background technology

Ocean seismic exploration haulage cable winch is one of important component in marine seismic prospectiong, in marine seismic prospectiong Very important effect is played in operation process.At present, the earthquake winch used in offshore seismic exploration is generally hydraulic pressure strand Vehicle, volume and weight is larger, is fixed on research vessel, can not dismantle, and cost and maintenance cost are high, and operating type is substantially solid Fixed, flexibility is inadequate, is affected by ship situation.There is also have problems in the construction process.First, earthquake winch volume It is bigger, the sight of rear operating personnel is blocked, and noise is also bigger during winch operation, rear operating personnel cannot send out in real time Situation that is existing or hearing front cable laying end, when being in an emergency, it is impossible to make a response in time；2nd, winch dynamical system list One, when breaking down, maintenance cycle is long；3rd, during folding and unfolding towing cable, due to seawater velocity, flow direction, wind speed, wind direction etc. because Not knowing for element, causes towing cable unbalance stress, and different so as to cause the tractive force to winch, a certain moment is present with more than its work( The situation of rate influences the service life of winch；When the 4th, carrying out operation, it is intended to be attached instrument and equipment installation and debugging, process Complicated and easily error, repeatedly dismounting have an effect on the stability of entire acquisition system.In view of the above-mentioned problems, the utility model provides A kind of ocean seismic exploration haulage cable winch storehouse.

The content of the invention

The purpose of this utility model is to provide a kind of ocean seismic exploration haulage cable winch storehouse, it good can solve above-mentioned Problem.

A kind of ocean seismic exploration haulage cable winch storehouse, it is characterised in that including warehouse, warehouse is divided into hoist room and operation room Two parts, the hoist room are internally provided with self-adjustable ocean seismic exploration haulage cable winch and for monitoring winch operation The monitoring camera of state, hoist room, lateral surface are equipped with rolling screen door；It is external that the operation room is equipped with cabinet, display, winch Control panel and operation console, wherein, the external control panel of winch is mounted on operation console, realizes the control to winch, is shown Device is hung on operation room wall, and display includes navigation indicator, earthquake-capturing display, monitoring display device, is equipped in cabinet Earthquake-capturing host and monitoring host computer；Hanging ring is additionally provided at the top of warehouse；

The self-adjustable ocean seismic exploration haulage cable winch includes pedestal, reel and includes brake system Control cabinet, rotation axis is equipped with above pedestal, the reel is mounted in the rotation axis, and the control cabinet is mounted on winch base Top, and one end of rotation axis is connected with the control cabinet；

Wherein, it is equipped with control panel outside control cabinet, control cabinet is internally provided with reduction box and two AC asynchronous motors, and one Platform is spare；The AC asynchronous motor is driven live roller by driving chain, which passes through reduction box Realize the driving to rotation axis；

The reduction box is internally provided with the level-one linkage gear of live roller coaxial linkage, by level-one linkage gear simultaneously Two secondary gears of driving, two secondary linkage gears that coaxial linkage is distinguished with two secondary gears are cascaded by two two The tertiary gear that moving gear drives simultaneously；The tertiary gear is fixed in the rotation axis to realize the drive to the reel It is dynamic；The secondary linkage gear of the secondary gear and its coaxial linkage is fixed on automatic adjustment gear shaft；The brake system System includes the piston portion being sleeved on automatic adjustment gear shaft and the brake part for being braked to the rotation axis；

The automatic adjustment gear shaft includes support shaft, be cased with successively in support shaft positive gear shaft, adjustment gear axis and Reverse gear axis and the tension spring between positive gear shaft and adjustment gear axis, positioned at adjustment gear axis and reverse gear Tension spring between axis；Positive gear shaft and one end that adjustment gear axis docks positive tooth that be equipped with multiple structures identical, and it is each Parallel to the axis of positive gear shaft, another side is bevel edge on one side of positive tooth；The adjustment gear axis and positive gear shaft pair The one end connect is equipped with multiple reversed teeth to match with positive gear shaft positive tooth；The adjustment gear axis and reverse gear axis The one end being connected to each other is equipped with the identical reverse symmetry tooth of multiple structures, and one side of each reverse symmetry tooth is parallel to adjustment gear axis Axis, another side is bevel edge, and each reverse symmetry tooth and the reversed tooth are symmetrical one by one；The reverse gear axis is with adjusting One end that section gear shaft is connected to each other is equipped with multiple positive symmetric teeths to match with adjustment gear axis reverse symmetry tooth, and each Positive symmetric teeth and the positive tooth are symmetrical one by one；

The secondary gear is fixed on reverse gear axis, and the secondary linkage gear is fixed on positive gear shaft；

Tertiary gear, level-one linkage gear and the adjustment gear axis can only rotate in situ, secondary linkage gear and Secondary gear can slide by a small margin vertically；

The piston portion of the brake system is mounted on close to the position of secondary gear, and piston portion includes including hydraulic oil The first oil storage chamber, first oil storage chamber is equipped with piston towards secondary gear one side, is additionally provided with piston inside the first oil storage chamber Return spring；

The brake system brake part include one it is being connected by conduit with the first oil storage chamber, include hydraulic oil The second oil storage cabin, the second oil storage cabin is equipped with for the movable brake block braked to rotation axis, is equipped in the second oil storage cabin The resetting spring of the activity brake block；

There is the front panel of the control panel emergency stop button, speed governing button, selection of Motor switch and set direction to open Close and extend to the operation of above-mentioned switch and button the external interface of the external control panel of winch beyond control panel.

The AC asynchronous motor and live roller, level-one linkage gear and secondary gear, secondary linkage gear and The radius of gyration of tertiary gear is than being respectively 1/2,1/6,1/2.

The piston portion of the brake system is by the way of being nested on the outside of automatic adjustment gear shaft come close to two level The section of first oil storage chamber of gear, i.e. piston portion is circular ring shape, and is sleeved on the outside of automatic adjustment gear shaft, and annular diameters It is greater than automatic adjustment gear shaft diameter to be rubbed to avoid be subject to automatic adjustment gear shaft, the first oil storage chamber is towards secondary gear Piston is equipped on one side, and piston cross-section is similarly circular ring shape, and annular diameters are more than automatic adjustment gear shaft diameter.

The rotation axis is equipped with the one piece annular convex platform coaxial with rotation axis, and the movable brake block of the brake part leads to The mode of the annular raised head face of friction is crossed to realize the braking to rotation axis.

The advantages of the utility model：A. entire seismic acquisition configuration is integrated with, reduces shadow of the seismic acquisition configuration by ship Ring, enable it is any have work on outer deck ship, and system is integrally fixed, and only need to start shooting test can regular employee Make.B. in offshore earthquake towing winch generally using hydraulic wireline winch, the utility model using AC asynchronous motor as power, The hydraulic pressure storehouse for being not required volume larger reduces the whole height of winch, and AC asynchronous motor operation sound very little, rear Operating personnel can have found or hear the situation at front cable laying end in real time, when being in an emergency, can make a response in time； C. winch is run using two-wire synchronization conduction pattern, has not only shared the operating pressure of each component, but also is provided for whole system hidden Shape guarantee；D. using bi-motor pattern, when a motor breaks down, but spare motor is switched fast, when saving operation Between.E. reduction box is equipped with automatic adjustment gear 9, when tractive force is excessive suffered by winch, can rotate automatically, preferable to protect Reduction gearing and motor, greatly prolong its service life；F. autobrake system is equipped with, part drag is transferred to strand On frame, the load of reel and gear is alleviated, use reliability greatly improves；G. external interface 702 is equipped with, will be controlled Panel 7 individually leads to operation room, and equipped with monitoring camera 128, winch operating personnel can realize pair twist in operation room Vehicle operates.

Description of the drawings

Fig. 1 ocean seismic exploration haulage cable winches storehouse overall schematic

Fig. 2 marine seismic streamer winch overall schematics

Fig. 3 control cabinet structure diagrams

Fig. 4 reduction box gear structure inside figures

Fig. 5 automatically adjusts gear schematic diagram

Fig. 6 brake system structure diagrams

Fig. 7 control panels function key display figure

Wherein, pedestal 1, reel 2, control cabinet 3, AC asynchronous motor 4, reduction box 5, tertiary gear 501, secondary linkage Gear 502, secondary gear 503, level-one linkage gear 504, live roller 6, control panel 7, emergency stop button 701 are external to connect Mouth 702, speed governing button 703, selection of Motor switch 704, set direction switch 705, driving chain 8 automatically adjust gear shaft 9, Positive gear shaft 901, adjustment gear axis 902, reverse gear axis 903, brake system 10, piston 101, the first oil storage chamber 102, the Two oil storage cabins 103, movable brake block 104, conduit 105, return spring 106, resetting spring 107, rotation axis 11, warehouse 12 twist Workshop 121, rolling screen door 122, the external control panel 123 of winch, cabinet 124, display 125, operation room 126, hanging ring 127, prison Control camera 128, operation console 129.

Specific embodiment

Fig. 1 is ocean seismic exploration haulage cable winch storehouse overall schematic, and warehouse 12 divides for hoist room 121 and operation room 126 Two parts, the hoist room 121 are internally provided with self-adjustable ocean seismic exploration haulage cable winch and for monitoring winch The monitoring camera 128 of operating status, 121 lateral surface of hoist room are equipped with rolling screen door 122；The operation room 126 is equipped with cabinet 124th, the external control panel 123 of display 125, winch and operation console 129, wherein, the external control panel 123 of winch is mounted on On operation console 129, the control to winch is realized, display 125 is hung on 126 wall of operation room, and it is aobvious that display 125 includes navigation Show device, earthquake-capturing display, monitoring display device, earthquake-capturing host and monitoring host computer are equipped in cabinet 124；12 top of warehouse It is additionally provided with hanging ring 127.Be integrated with entire seismic acquisition configuration, reduce the complexity of system, reduce marine seismic acquisition by The influence of ship, enable it is any have work on outer deck ship, and system is integrally fixed, and only need to start shooting test can be just Formula works.

Fig. 2 is ocean seismic exploration haulage cable winch overall schematic, including winch base 1, reel 2 and includes brake The control cabinet 3 of system 10,1 top of winch base are equipped with rotation axis 11, and the reel 2 is mounted in the rotation axis 11, the control Case 3 processed is mounted on 1 top of winch base, and one end of rotation axis 11 is connected with the control cabinet 3, and wherein earthquake towed cable is wrapped in On reel.

Fig. 3 control cabinet structure diagrams, 3 outside of control cabinet are equipped with control panel 7, and control cabinet 3 is internally provided with reduction box 5 and two Platform AC asynchronous motor 4, one spare；The AC asynchronous motor 4 drives live roller 6 by driving chain 8 Dynamic, which realizes the driving to rotation axis 11 by reduction box 5.

Fig. 4 is reduction box gear structure inside figure, and reduction box 5 is internally provided with the cascade with 6 coaxial linkage of live roller Moving gear 504, two secondary gears 503 driven simultaneously by level-one linkage gear 504 and two secondary gears 503 are same respectively Two secondary linkage gears 502 of axis linkage, the tertiary gear 501 driven simultaneously by two secondary linkage gears 502；It is described Tertiary gear 501 is fixed in the rotation axis 11 to realize the driving to the reel 2；The secondary gear 503 and its same The secondary linkage gear 502 of axis linkage is fixed on automatic adjustment gear shaft 9；The brake system 10 includes piston portion With brake part, the piston portion is sleeved on automatic adjustment gear shaft 9, and the rotation axis 11 is made in the brake part It is dynamic；

Fig. 5 is automatic adjustment gear schematic diagram, and automatic adjustment gear shaft 9 includes support shaft, is cased with successively just in support shaft To gear shaft 901, adjustment gear axis 902 and reverse gear axis 903 and positioned at positive gear shaft 901 and adjustment gear axis 902 Between tension spring, the tension spring between adjustment gear axis 902 and reverse gear axis 903；Positive gear shaft 901 is with adjusting tooth One end that wheel shaft 902 docks is equipped with the identical positive tooth of multiple structures, and one side of each positive tooth is parallel to positive gear shaft 901 axis, another side are bevel edge；One end that the adjustment gear axis 902 dock with positive gear shaft 901 is equipped with multiple and just The reversed tooth to match to the positive tooth of gear shaft 901；The adjustment gear axis 902 and reverse gear axis 903 be connected to each other one End is equipped with the identical reverse symmetry tooth of multiple structures, and one side of each reverse symmetry tooth is parallel to the axis of adjustment gear axis 902 Line, another side are bevel edge；The reverse gear axis 903 is equipped with multiple with adjusting tooth with one end that adjustment gear axis 902 is connected to each other The positive symmetric teeth that the reverse symmetry tooth of wheel shaft 902 matches；

The secondary gear 503 is fixed on reverse gear axis 903, and the secondary linkage gear 502 is fixed on positive tooth On wheel shaft 901；Tertiary gear 501, level-one linkage gear 504 and the adjustment gear axis 902 can only rotate in situ, two level Linkage gear 502 (being fixed with positive gear shaft 901) and secondary gear 503 (being fixed with reverse gear axis 903) can be along rotations Axis slides.

During normal work, secondary gear 503 is rotated synchronously with secondary linkage gear 502, when 2 tractive force of reel is excessive or During system slowdown, automatically adjust gear shaft 9 in power conduction orientation by reverse gear axis 903 to adjustment gear axis 902 again to just Become reverse conduction to gear shaft 901, at this moment bevel edge stress between adjustment gear axis 902 and reverse gear axis 903, when the two turns When fast different, the two distance gradually increase, distance rotates an angle when being more than the vertex of tooth and is adjusted automatically.Similarly, if When speed is gradually accelerated, bevel edge stress between positive gear shaft 901 and adjustment gear axis 902, when acceleration is excessive, the two away from From gradual increase, distance rotates an angle when being more than the vertex of tooth and is adjusted automatically.It solves because of reel 2 and motor speed Nonsynchronous problem, avoiding each component may be damaged.

Fig. 6 is brake system structure diagram, and the piston portion of brake system 10 is mounted on close to secondary gear 503 Position, piston portion include including the first oil storage chamber 102 of hydraulic oil, and first oil storage chamber 102 is towards secondary gear 503 Piston 101 is equipped on one side, the return spring 106 of piston 101 is additionally provided with inside the first oil storage chamber 102, and return spring 106 is in pressure Contracting state；The brake part of brake system 10 includes second oil storage being connected by conduit 105 with the first oil storage chamber 102 Storehouse 103, the second oil storage cabin 103 are equipped with for the movable brake block 104 braked to rotation axis 11, in the second oil storage cabin 103 Resetting spring 107 equipped with the activity brake block 104, resetting spring 107 are in tensional state.When tractive force suffered by reel 2 is big When to a certain extent or system slowdown is too fast, automatic adjustment gear 9 is adjusted, and reverse gear axis 903 is displaced outwardly, into And 503 extrusion piston 101 of secondary gear is driven, pressure is allowed to make rotation axis 11 by liquid conductive to brake block 104 Dynamic, after the completion of adjusting, return spring 106 makes entire brake system return to original position with resetting spring 107.Accelerate reel The efficiency of deceleration, and part drag is transferred on winch base 1, the load of each gear is alleviated, use reliability is significantly It improves.

Plate function key display figure, the front panel of control panel 7 have emergency stop button 701, speed governing button to Fig. 7 in order to control 703rd, switch 704 and set direction switch 705 and external connect what above-mentioned switch and button extended to beyond control panel 7 Mouth 702.When winch works, the choosing of speed governing button 703 is gone into minimum, unscrews emergency stop button 701, by 704 selection electricity of switch 1 gear of machine presses " putting " or " receipts " key in set direction switch 705, adjusts speed governing button 703 and controls cable laying (take-up) speed It works, if going out an emergency, whole power-off is carried out by emergency stop button 701.It will will be controlled by translation interface 702 Panel 7 processed individually leads to operation room, and equipped with monitoring camera 128, and winch operating personnel can realize pair in operation room Winch operates.

During using the utility model, whole system need to be only lifted to the quarter deck of research vessel, open rolling screen door 122.Ship Low speed moves ahead, and manipulates the direction of rotation of each function key control reel on the external control panel 123 of winch, and then to earthquake Towing cable into the water, passes through monitoring display device real-time monitored cable laying situation in payout process.After the completion of cable laying, you can open installation Seismic detector in cabinet carries out earthquake-capturing work.

The 26S Proteasome Structure and Function of obvious the utility model has following characteristics：

A. entire seismic acquisition configuration is integrated with using winch storehouse 12, reduce seismic acquisition configuration is influenced by ship, is made Can it is any have work on outer deck ship, and system is integrally fixed, and only need to start shooting test can life's work.

B. equipped with monitoring camera 128 above winch, and by external interface 702, control panel 7 is individually led to Operation room, winch operating personnel can realize in operation room operates winch.

C. control cabinet 3 this device is employed, each component is integrated in one, solves waterproof in moist marine environment The problem of moisture-proof, substantially increases the stability of system operation.

D. using power of the AC asynchronous motor 4 as winch, reasonable integral structure, stable working, run noise it is small, Convenient operating maintenance reduces to earthquake winch of the weight more than 2.5t less than 1t.

E. reduction box 5 has been shared the operating pressure of each component, and has been entire system using the operation of two-wire synchronization conduction pattern System ground normal operation provides double shield.

F. 3 grades of settings of slowing down, AC asynchronous motor 4 and live roller 6, level-one linkage gear 504 and two level are employed Gear 503, secondary linkage gear 502 and the radius of gyration ratio of tertiary gear 501 are respectively 1/2,1/6,1/2, can will be exchanged Rotating speed is 0-1rad/s when the rotating speed 0-1440rad/min of asynchronous motor 4 is converted to reel 2.

G. reduction box 5 is provided with automatic adjustment gear shaft 9, during normal work, secondary gear 503 and secondary linkage gear 502 rotate synchronously, when 2 tractive force of reel is excessive or during system slowdown, automatically adjusts the conduction orientation of power in gear shaft 9 by anti- Positive gear shaft 901 is arrived again to adjustment gear axis 902 to gear shaft 903 and becomes reversed, at this moment adjustment gear axis 902 and forward direction Bevel edge stress between gear shaft 901, when the two rotating speed difference, the two is apart from gradually increasing, when distance is more than the vertex of tooth certainly It is dynamic to be adjusted.Similarly, if speed is gradually accelerated, bevel edge stress between reverse gear axis 903 and adjustment gear axis 902, when When acceleration is excessive, the two distance gradually increase, distance is adjusted automatically when being more than the vertex of tooth.It solves because of 2 He of reel The nonsynchronous problem of motor speed, avoiding each component may be damaged.

H. autobrake system 10 is employed, when 2 tractive force of reel is excessive to a certain extent or when system slowdown is too fast, Automatic adjustment gear 9 is adjusted, and reverse gear axis 903 is displaced outwardly, and then drives 503 extrusion piston 101 of secondary gear, pressure Power is allowed to brake rotation axis 11, that is, is improved the efficiency of reel deceleration, and incited somebody to action by liquid conductive to brake block 104 Part drag is transferred on winch base 1, alleviates the load of each gear, and use reliability greatly improves.

I. control cabinet 3 is equipped with two AC asynchronous motors 4, and one spare.It, can be fast when a motor breaks down Speed switches to spare motor, reduces the maintenance time of equipment, improves work efficiency.

J. external interface 702 is equipped with, control panel 7 can be individually led to outside car, winch operating personnel can be in winch Preceding operation winch works, and solves the problems, such as that rear operating personnel are non-intuitive to front end folding and unfolding cable situation.

Claims (4)

1. a kind of ocean seismic exploration haulage cable winch storehouse, it is characterised in that including warehouse (12), warehouse (12) is divided into hoist room (121) it is internally provided with self-adjustable marine seismic prospectiong with operation room (126) two parts, the hoist room (121) and drags Cable winch and for monitoring the monitoring camera of winch operating status (128), hoist room (121) lateral surface is equipped with rolling screen door (122)；The operation room (126) is equipped with cabinet (124), display (125), the external control panel of winch (123) and behaviour Make platform (129), wherein, the external control panel of winch (123) is mounted on operation console (129), realizes the control to winch, is shown Device (125) is hung on operation room (126) wall, and display (125) is aobvious including navigation indicator, earthquake-capturing display, monitoring Show device, earthquake-capturing host and monitoring host computer are equipped in cabinet (124)；Hanging ring (127) is additionally provided at the top of warehouse (12)；

The self-adjustable ocean seismic exploration haulage cable winch includes pedestal (1), reel (2) and includes brake system The control cabinet (3) of system (10), pedestal (1) top are equipped with rotation axis (11), and the reel (2) is mounted in the rotation axis (11), The control cabinet (3) is mounted on above winch base (1), and one end of rotation axis (11) is connected with the control cabinet (3)；

Wherein, control panel (7) is equipped with outside control cabinet (3), control cabinet (3) is internally provided with reduction box (5) and two alternating current asynchronous Motor (4), one spare；The AC asynchronous motor (4) is driven live roller (6) by driving chain (8), The live roller (6) realizes the driving to rotation axis (11) by reduction box (5)；

The reduction box (5) is internally provided with the level-one linkage gear (504) of live roller (6) coaxial linkage, by level-one and links Two secondary gears (503) of gear (504) while driving, two two that coaxial linkage is distinguished with two secondary gears (503) Grade linkage gear (502), by two secondary linkage gears (502) and meanwhile driving tertiary gear (501)；The tertiary gear (501) it is fixed in the rotation axis (11) to realize the driving to the reel (2)；The secondary gear (503) and its same The secondary linkage gear (502) of axis linkage is fixed on automatic adjustment gear shaft (9)；The brake system (10) includes being sleeved on Automatically adjust the piston portion on gear shaft (9) and the brake part for being braked to the rotation axis (11)；

The automatic adjustment gear shaft (9) includes support shaft, and positive gear shaft (901), adjustment gear are cased with successively in support shaft Axis (902) and reverse gear axis (903) and the tension spring between positive gear shaft (901) and adjustment gear axis (902), Tension spring between adjustment gear axis (902) and reverse gear axis (903)；Positive gear shaft (901) and adjustment gear axis (902) one end of docking is equipped with the identical positive tooth of multiple structures, and one side of each positive tooth is parallel to positive gear shaft (901) axis, another side are bevel edge；The adjustment gear axis (902) is equipped with more with one end that positive gear shaft (901) is docked A reversed tooth to match with positive gear shaft (901) positive tooth；The adjustment gear axis (902) and reverse gear axis (903) one end being connected to each other is equipped with the identical reverse symmetry tooth of multiple structures, and one side of each reverse symmetry tooth is parallel to adjusting The axis of gear shaft (902), another side are bevel edge, and each reverse symmetry tooth and the reversed tooth are symmetrical one by one；It is described anti- The one end being connected to each other to gear shaft (903) and adjustment gear axis (902) is equipped with multiple reverse symmetries with adjustment gear axis (902) The positive symmetric teeth that tooth matches, and each positive symmetric teeth and the positive tooth are symmetrical one by one；

The secondary gear (503) is fixed on reverse gear axis (903), and the secondary linkage gear (502) is fixed on forward direction On gear shaft (901)；

Tertiary gear (501), level-one linkage gear (504) and the adjustment gear axis (902) can only rotate in situ, two cascades Moving gear (502) and secondary gear (503) can slide by a small margin vertically；

The piston portion of the brake system (10) is mounted on the position close to secondary gear (503), and piston portion includes including The first oil storage chamber (102) of hydraulic oil, first oil storage chamber (102) are equipped with piston on one side towards secondary gear (503) (101), the return spring (106) of piston (101) is additionally provided with inside the first oil storage chamber (102)；

The brake part of the brake system (10) include one it is being connected by conduit (105) with the first oil storage chamber (102), The second oil storage cabin (103) of hydraulic oil is included, the second oil storage cabin (103) is equipped with the activity braked to rotation axis (11) Brake block (104), the interior resetting spring (107) for being equipped with the activity brake block (104) of the second oil storage cabin (103)；

The front panel of the control panel (7) has emergency stop button (701), speed governing button (703), selection of Motor switch (704) (705) are switched and the operation of above-mentioned switch and button is extended into the winch beyond control panel (7) with set direction The external interface (702) of external control panel (123).

2. ocean seismic exploration haulage cable winch storehouse as described in claim 1, it is characterised in that the AC asynchronous motor (4) with live roller (6), level-one linkage gear (504) and secondary gear (503), secondary linkage gear (502) and tertiary gear (501) the radius of gyration is than being respectively 1/2,1/6,1/2.

3. ocean seismic exploration haulage cable winch storehouse as described in claim 1, it is characterised in that the brake system (10) Piston portion by the way of being nested on the outside of automatic adjustment gear shaft (9) come close to secondary gear (503), i.e. piston portion The section of first oil storage chamber (102) is circular ring shape, and is sleeved on the outside of automatic adjustment gear shaft (9), and annular diameters are greater than certainly Dynamic adjustment gear axis (9) diameter is to avoid being subject to the friction for automatically adjusting gear shaft (9), and the first oil storage chamber (102) is towards two level Gear (503) is equipped with piston (101) on one side, and piston cross-section is similarly circular ring shape, and annular diameters are more than automatic adjustment gear shaft (9) diameter.

4. ocean seismic exploration haulage cable winch storehouse as described in claim 1, it is characterised in that the rotation axis (11) is equipped with The one piece annular convex platform coaxial with rotation axis (11), the movable brake block (104) of the brake part pass through the annular convex platform that rubs The mode of end face realizes the braking to rotation axis (11).