CN216519435U - Marine gearbox in special arrangement form - Google Patents

Abstract

The utility model discloses a special arrangement type marine gearbox, which relates to the field of gearboxes and comprises a box body, wherein an output shaft, a reversing transmission shaft and an input shaft are arranged in the box body, the output shaft is arranged above the input shaft to form vertical eccentric output, and a connecting line among the axes of the output shaft, the reversing transmission shaft and the input shaft of the gearbox is triangular. The beneficial effects of the utility model are as follows: the requirement of lower input and upper output can be met, and the gear box has a stable hydraulic oil supply system and works normally. And the output speed of the output shaft of the gear box is lower due to the fact that the output shaft of the gear box slips when the diesel engine idles. The market demand of the current rapid development is met, and the blank of the corresponding field in China is filled.

Description

Marine gearbox in special arrangement form

Technical Field

The utility model relates to the field of gear boxes, in particular to a special arrangement type marine gear box.

Background

The marine gearbox has the requirement of reversing and driving, and the traditional arrangement form is upper input and lower output. The propulsion unit of the boat is also at the bottom of the boat, since the diesel engine output is in the form of a flywheel and is located below the diesel engine. The gearbox output shaft is often arranged proximate the bottom of the boat. However, in order to maximize the utilization of the output power of the diesel engine, if the power output is required to be performed at a near-center position of the diesel engine, the gear box must be designed to have a structure with a lower input and an upper output. At present, the marine gearbox in China generally adopts an upper input and lower output structural form, and a special structural gearbox with lower input and upper output does not exist.

Furthermore, since the input rotation speed of the gearbox is relatively high, if the gearbox input member is arranged at the lower part of the gearbox, there also arises a problem that the oil pressure of the gearbox hydraulic system is difficult to stabilize.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, and provides a special arrangement type marine gearbox, which effectively meets the structural requirements of lower input and upper output of the gearbox and enables the gearbox to work stably for a long time.

The purpose of the utility model is achieved by the following technical scheme: the marine gearbox in the special arrangement form comprises a box body, wherein an output shaft, a reversing transmission shaft and an input shaft are arranged in the box body, the output shaft is arranged above the input shaft to form vertical eccentric output, and connecting lines among the axes of the output shaft, the reversing transmission shaft and the input shaft of the gearbox are triangular;

as a further technical scheme, one end of the input shaft is connected and driven by a diesel engine flywheel through a gear box input coupling, an input shaft sequential transmission gear is fixedly arranged on the input shaft, a sequential piston, a sequential return spring and a sequential clutch seat are arranged in the input shaft sequential transmission gear, and a sequential inner friction plate is arranged on the sequential clutch seat; the input shaft is also provided with a forward driving gear which rotates relatively, and a forward driving gear seat of the forward driving gear is provided with a forward outer friction plate which is used for being matched with a forward inner friction plate to form a forward clutch;

as a further technical scheme, the forward drive gear of the input shaft is normally meshed with a reverse drive gear fixedly arranged on a reverse drive transmission shaft, a reverse piston, a reverse return spring and a reverse clutch seat are arranged in the reverse drive gear, and a reverse inner friction plate is arranged on the reverse clutch seat; a reverse driving gear which rotates relatively is also arranged on the reverse transmission shaft, and a reverse driving outer friction plate is arranged on a reverse driving gear seat of the reverse driving gear and is used for being matched with a reverse inner friction plate to form a reverse clutch;

as a further technical scheme, the forward driving gear and the reverse driving gear are respectively and constantly meshed with an output gear fixedly arranged on an output shaft, and the output shaft outputs power outwards through an output coupling;

as a further technical scheme, an oil pump is further arranged on the box body, one end of the oil pump is communicated with an oil pool arranged at the bottom of the box body through an oil suction port of the oil pump, and the oil pool is used for containing working oil of the gearbox; the other end of the oil pump is connected with a forward and backward electromagnetic valve, a forward working oil pipe and a backward working oil pipe are arranged on the forward and backward electromagnetic valve, a forward working oil circuit is arranged in the input shaft, a backward working oil circuit is arranged in the backward transmission shaft, and the forward working oil pipe is communicated with the forward working oil circuit through a forward working oil inlet arranged on the box body to supply oil for forward working condition working of the gear box; the reversing working oil pipe is communicated with a reversing working oil way through a reversing working oil inlet arranged on the box body to supply oil for the working condition work of reversing the gear box; and the input shaft is provided with an oil baffle cover along the periphery of the lower part of the transmission gear in a semi-surrounding manner, and the oil baffle cover is fixed on the box body above the oil pool.

As a further technical scheme, the oil inlet end of the oil pump is communicated with an oil pump oil suction port through an oil pump oil inlet pipe, and the oil pump oil suction port sucks the gear box working oil in the oil suction pool through the oil pump oil suction pipe; the oil outlet end of the oil pump is communicated with the reversing electromagnetic valve through an oil outlet pipe of the oil pump.

As a further technical scheme, an oil outlet end of the oil pump is connected with a slip valve through an oil inlet pipe of the slip valve, and the slip valve is used for adjusting the oil pressure output by the oil pump.

As a further technical scheme, when the forward and backward electromagnetic valve is arranged at a forward parking position, the oil pump conveys the working oil of the gear box to a forward working oil path of the input shaft through a forward working oil pipe, so that a forward piston presses an inner friction plate and an outer friction plate of the forward, namely a forward clutch is combined, the reverse clutch is separated, and the output shaft outputs the power of the diesel engine according to the forward working condition of the gear box; at the moment, the slip valve is started, so that the working oil pressure in the in-vehicle working oil way is reduced, the rotating speed of the output shaft is reduced, and the in-vehicle working condition that the output rotating speed of the gear box is lower under the idling state of the diesel engine is realized.

As a further technical scheme, when the reversing and driving electromagnetic valve is arranged at a reversing parking space, the oil pump conveys the working oil of the gearbox to a reversing working oil path of the reversing transmission shaft through a reversing working oil pipe, so that a reversing piston presses a reversing inner friction plate and a reversing outer friction plate, namely a reversing clutch is combined, the reversing clutch is separated, and the output shaft outputs the power of the diesel engine according to the reversing working condition of the gearbox; and starting the slip valve to reduce the working oil pressure in the reversing working oil way, and reducing the rotating speed of the output shaft, thereby realizing the reversing working condition that the output rotating speed of the gear box is lower under the idling state of the diesel engine.

As a further technical scheme, the oil suction pipe of the oil pump is arranged below the oil blocking cover, so that the working oil thrown out by the input shaft and the forward driving gear is blocked by the oil blocking cover.

As a further technical scheme, the oil blocking cover is formed by connecting two sections of circular arc structures and is fixed on the inner wall of the box body through bolts.

As a further technical scheme, the output shaft is supported on the box body through a bearing A and a bearing B, the reverse drive shaft is supported on the box body through a bearing D and a bearing E, and the input shaft is supported on the box body through a bearing C and a bearing F.

As a further technical scheme, a gearbox bracket and a cooler are arranged on the box body, and the cooler is used for cooling the working oil of the gearbox.

As a further technical scheme, one end of the input shaft, which is far away from the input coupling of the gearbox, is sleeved with a PTO output belt pulley.

The utility model has the beneficial effects that: the requirement of lower input and upper output can be met, and the gear box has a stable hydraulic oil supply system and works normally. And the output speed of the output shaft of the gear box is lower due to the fact that the output shaft of the gear box slides when the diesel engine idles. The market demand of the current rapid development is met, and the blank of the corresponding field in China is filled.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a sectional view a-a of fig. 1.

Figure 3 is a B-B cross-sectional view of bitmap 1.

Fig. 4 is a schematic view of an installation structure between the oil baffle cover and the oil suction pipe of the oil pump.

Fig. 5 is a front view of the oil deflector.

Fig. 6 is a structural side view of the oil deflector.

Fig. 7 is a schematic structural view of the oil pump.

Description of reference numerals: 1. a gearbox housing; 2. an oil suction port of an oil pump; 3. a cooler; 4. a reversing electromagnetic valve; 5. a slip valve; 6. a gearbox input coupling; 7. a bearing A; 8. a box body; 9. an output shaft; 10. the input shaft is sequentially driven to drive a gear; 11. passing an outer friction plate; 12. an inner friction plate is sequentially driven; 13. an output coupling; 14. an output gear; 15. a bearing B; 16. a PTO output pulley; 17. driving gear of forward running; 18. a bearing C; 19. an oil suction pipe of an oil pump; 20. forward driving gear seat; 21. a forward return spring; 22. forward the piston; 23. a bearing D; 24. a reverse drive gear; 25. a reversing outer friction plate; 26. a reversing inner friction plate; 27. a reverse drive gear seat; 28. a reverse drive gear; 29. a bearing E; 30. an oil sump; 31. a reversing transmission shaft; 32. a reversing working oil way; 33. a reverse return spring; 34. a reversing piston; 35. an oil shield; 36. a bearing F; 37. an input shaft; 38. a bolt; 39. an oil inlet pipe of an oil pump; 40. an oil pump; 41. an oil outlet pipe of the oil pump; 42. working oil pipes are sequentially turned; 43. a reversing working oil pipe; 44. an oil inlet pipe of a slip valve; 45. a reversing working oil inlet; 46. a forward working oil inlet; 47. the working oil circuit is followed.

Detailed Description

The utility model will be described in detail below with reference to the following drawings:

example (b): as shown in fig. 1 to 7, the marine gearbox with the special arrangement form comprises a box body 8, an output shaft 9, a reverse drive shaft 31 and an input shaft 37 are arranged in the box body 8, the output shaft 9 is arranged above the input shaft 37 to form vertical eccentric output, the reverse drive shaft 31 is arranged on the left upper side or the right upper side of the output shaft 9, and connecting lines among the axes of the output shaft 9, the reverse drive shaft 31 and the input shaft 37 of the gearbox are triangular (refer to fig. 1).

As shown in fig. 2, one end of the input shaft 37 is connected and driven by a diesel engine flywheel through a gearbox input coupling 6, an input shaft forward driving transmission gear 10 is fixedly installed on the input shaft 37, a forward driving piston 22, a forward driving return spring 21 and a forward driving clutch seat are arranged in the input shaft forward driving transmission gear 10, and a forward driving inner friction plate 12 is arranged on the forward driving clutch seat; the input shaft 37 is also provided with a forward driving gear 17 which rotates relatively, and a forward outer friction plate 11 is arranged on a forward driving gear seat 20 of the forward driving gear 17 and is used for being matched with a forward inner friction plate 12 to form a forward clutch.

As shown in fig. 3, the input shaft forward drive gear 10 is normally engaged with a reverse drive gear 24 fixedly mounted on a reverse drive transmission shaft 31, a reverse piston 34, a reverse return spring 33 and a reverse clutch seat are arranged in the reverse drive gear 24, and a reverse inner friction plate 26 is arranged on the reverse clutch seat; the reverse drive shaft 31 is also provided with a reverse drive gear 28 which rotates relatively, and a reverse drive gear seat 27 of the reverse drive gear 28 is provided with a reverse outer friction plate 25 which is used for matching with a reverse inner friction plate 26 to form a reverse clutch. The forward driving gear 17 and the reverse driving gear 28 are respectively and constantly meshed with an output gear 14 fixedly arranged on an output shaft 9, and the output shaft 9 outputs power outwards through an output coupling 13.

As shown in fig. 1 and 7, an oil pump 40 is further disposed on the box 8, an oil inlet end of the oil pump 40 is connected to the oil pump inlet 2 through an oil pump inlet pipe 39, the oil pump inlet 2 is communicated with an oil pool 30 disposed at the bottom of the box 8, the oil pool 30 is used for containing gearbox working oil, and the oil pump inlet 2 sucks the gearbox working oil in the oil pool 30 through an oil pump inlet pipe 19. The oil outlet end of the oil pump 40 is communicated with the reversing solenoid valve 4 through an oil pump oil outlet pipe 41, the reversing solenoid valve 4 is provided with a reversing working oil pipe 42 and a reversing working oil pipe 43, the input shaft 37 is internally provided with a reversing working oil way 47, the reversing transmission shaft 31 is internally provided with a reversing working oil way 32, and the reversing working oil pipe 42 is communicated with the reversing working oil way 47 through a reversing working oil inlet 46 arranged on the box body 8 to supply oil for the working condition working of the gearbox; the reversing working oil pipe 43 is communicated with the reversing working oil way 32 through a reversing working oil inlet 45 arranged on the box body 8, and supplies oil for the working condition of reversing the gear box.

Referring to fig. 7, a slip valve 5 is connected to the oil outlet end of the oil pump 40 through a slip valve oil inlet pipe 44, and is used for adjusting the oil pressure output by the oil pump 40. When the reversing and passing electromagnetic valve 4 is arranged at a passing position, the oil pump 40 conveys the gear box working oil to a passing working oil path 47 of the input shaft 37 through a passing working oil pipe 42, so that the passing piston 22 presses the passing inner friction plate 12 and the passing outer friction plate 11 tightly, namely the passing clutch is combined, the reversing clutch is separated, and the output shaft 9 outputs the power of the diesel engine according to the passing working condition of the gear box; at this time, the slip valve 5 is started to reduce the working oil pressure in the forward working oil path 47, so that the rotating speed of the output shaft 9 is reduced, and the forward working condition that the output rotating speed of the gear box is lower under the idle state (without flameout) of the diesel engine is realized. When the reversing and driving electromagnetic valve 4 is arranged at a reversing position, the oil pump 40 conveys the gearbox working oil to the reversing working oil path 32 of the reversing transmission shaft 31 through the reversing working oil pipe 43, so that the reversing piston 34 presses the reversing inner friction plate 26 and the reversing outer friction plate 25 tightly, namely, the reversing clutch is combined and the reversing clutch is separated, and the output shaft 9 outputs the diesel engine power according to the reversing working condition of the gearbox; at this time, the slip valve 5 is started to reduce the working oil pressure in the reversing working oil path 32, and the rotating speed of the output shaft 9 is reduced accordingly, so that the reversing working condition that the output rotating speed of the gear box is lower under the idling state (without flameout) of the diesel engine is realized.

Referring to the attached drawings 2 and 4-6, the input shaft is provided with an oil blocking cover 35 along the lower periphery of the transmission gear 10 in a semi-surrounding manner, and the oil blocking cover 35 is fixed on the box body 8 above the oil pool 30. The oil pump oil suction pipe 19 is arranged below the oil baffle cover 35, so that the working oil thrown out by the input shaft 37 and the forward driving gear 17 is prevented by the oil baffle cover 35, and the working oil with a large amount of bubbles and serious mixed flow is isolated by the oil baffle cover 35. And the oil at the oil suction port 2 of the oil pump can be ensured to be stable without generating a plurality of bubbles and mixing, thereby solving the problems of meter jump and fluctuation of a hydraulic system of the gear box and ensuring the gear box to work normally. The oil blocking cover 35 is formed by connecting two sections of circular arc structures, and the oil blocking cover 35 is fixed on the inner wall of the box body 8 through two bolts 38.

Preferably, the output shaft 9 is supported on the housing 8 through a bearing a7 and a bearing B15, the reverse drive shaft 31 is supported on the housing 8 through a bearing D23 and a bearing E29, and the input shaft 37 is supported on the housing 8 through a bearing C18 and a bearing F36. And the box body 8 is provided with a gear box bracket 1 and a cooler 3, and the cooler 3 is used for cooling gear box working oil. The PTO output pulley 16 is sleeved on the end of the input shaft 37 remote from the gearbox input coupling 6.

The working process of the utility model is as follows:

when the forward and backward electromagnetic valve 4 is arranged at a forward parking space, the oil pump 40 conveys the gear box working oil to a forward working oil path 47 of the input shaft 37 through a forward working oil pipe 42, so that the forward piston 22 presses the forward inner friction plate 12 and the forward outer friction plate 11 tightly, namely the forward clutch is combined, the reverse clutch is separated, the forward driving gear 17 rotates along with the forward transmission gear 10 of the input shaft and rotates according to the reduction ratio of the forward driving gear 17 to the output gear 14, and the output shaft 9 outputs the diesel engine power according to the forward working condition of the gear box. At this time, the slip valve 5 is started to reduce the working oil pressure in the forward working oil path 47, the pressing force of the forward piston 22 is reduced, the forward inner and outer friction plates (forward clutch) start to slip, the output gear 14 does not rotate according to the reduction gear ratio of the number of teeth of the forward driving gear 17 and the output gear 14, the rotating speed of the output gear 14 is reduced, the rotating speed of the output shaft 9 is reduced accordingly, and the forward working condition that the output rotating speed of the gear box is lower in the idle state (no flameout) of the diesel engine is realized.

When the reversing solenoid valve 4 is set to reverse position, the oil pump 40 delivers the gear box working oil to the reversing working oil path 32 of the reversing transmission shaft 31 through the reversing working oil pipe 43, so that the reversing piston 34 presses the reversing inner friction plate 26 and the reversing outer friction plate 25, i.e. the reversing clutch is combined and the reversing clutch is separated, the reversing driving gear 28 rotates along with the reversing transmission gear 24 and rotates according to the reduction ratio of the reversing driving gear 28 and the output gear 14, and the output shaft 9 outputs the diesel engine power according to the reversing working condition of the gear box. At this time, the slip valve 5 is started to reduce the working oil pressure in the reversing working oil path 32, reduce the working oil pressure of the reversing piston 34, reduce the pressing force, start slipping the reversing inner and outer friction plates (reversing clutch), prevent the output gear 14 from rotating according to the reduction ratio of the number of teeth of the reversing driving gear 28 and the output gear 14, reduce the rotating speed of the output shaft 9, and realize the reversing working condition that the output rotating speed of the gear box is lower in the idling state (without flameout) of the diesel engine.

The hydraulic system of the gear box can work stably and must have a suitable oil pool, the bottom of the gear box is designed with an oil baffle cover 35 which can baffle the oil thrown out from the clutch part of the input shaft driving transmission gear 10, the oil pump oil suction pipe 19 is arranged at the lower part of the oil baffle cover 35, and the oil with a large amount of bubbles and serious mixed flow is separated by the oil baffle cover. The problem of unstable meter jump and pressure drift of a gearbox hydraulic system and the like, which cannot work normally is solved. The oil thrown out from the input shaft part of the gear box and the forward driving gear is blocked by the oil blocking cover to form a stable oil pool, and the working requirement of a hydraulic system of the gear box is met.

It should be understood that equivalent alterations and modifications of the technical solution and the inventive concept of the present invention by those skilled in the art should fall within the scope of the appended claims.

Claims (10)

1. The utility model provides a marine gearbox of special type arrangement form which characterized in that: the reversing gear box comprises a box body (8), wherein an output shaft (9), a reversing transmission shaft (31) and an input shaft (37) are arranged in the box body (8), the output shaft (9) is arranged above the input shaft (37) to form vertical eccentric output, and connecting lines among the output shaft (9), the reversing transmission shaft (31) and the input shaft (37) of the gear box are triangular;

one end of the input shaft (37) is connected and driven by a diesel engine flywheel through a gearbox input coupling (6), an input shaft sequential transmission gear (10) is fixedly arranged on the input shaft (37), a sequential piston (22), a sequential return spring (21) and a sequential clutch seat are arranged in the input shaft sequential transmission gear (10), and a sequential inner friction plate (12) is arranged on the sequential clutch seat; the input shaft (37) is also provided with a forward driving gear (17) which rotates relatively, and a forward driving outer friction plate (11) is arranged on a forward driving gear seat (20) of the forward driving gear (17) and is used for being matched with a forward inner friction plate (12) to form a forward clutch;

the reversing transmission gear (10) of the input shaft is normally meshed with a reversing transmission gear (24) fixedly arranged on a reversing transmission shaft (31), a reversing piston (34), a reversing return spring (33) and a reversing clutch seat are arranged in the reversing transmission gear (24), and a reversing inner friction plate (26) is arranged on the reversing clutch seat; a reverse driving gear (28) which rotates relatively is also arranged on the reverse transmission shaft (31), and a reverse outer friction plate (25) is arranged on a reverse driving gear seat (27) of the reverse driving gear (28) and is used for being matched with a reverse inner friction plate (26) to form a reverse clutch;

the forward driving gear (17) and the reverse driving gear (28) are respectively and normally meshed with an output gear (14) fixedly arranged on an output shaft (9), and the output shaft (9) outputs power outwards through an output coupling (13);

the gearbox is characterized in that an oil pump (40) is further arranged on the box body (8), one end of the oil pump (40) is communicated with an oil pool (30) arranged at the bottom of the box body (8) through an oil suction port (2) of the oil pump, and the oil pool (30) is used for containing gearbox working oil; the other end of the oil pump (40) is connected with a forward and backward driving electromagnetic valve (4), a forward driving working oil pipe (42) and a backward driving working oil pipe (43) are arranged on the forward and backward driving electromagnetic valve (4), a forward driving working oil way (47) is arranged in the input shaft (37), a backward driving working oil way (32) is arranged in the backward driving transmission shaft (31), and the forward driving working oil pipe (42) is communicated with the forward driving working oil way (47) through a forward driving working oil inlet (46) formed in the box body (8) to supply oil for forward working condition working of the gearbox; the reversing working oil pipe (43) is communicated with the reversing working oil way (32) through a reversing working oil inlet (45) arranged on the box body (8) and supplies oil for the reversing working condition work of the gearbox; the input shaft is provided with an oil baffle cover (35) along the periphery of the lower part of the transmission gear (10) in a semi-surrounding manner, and the oil baffle cover (35) is fixed on the box body (8) above the oil pool (30).

2. Marine gearbox in accordance with a special arrangement of claim 1, characterised in that: the oil inlet end of the oil pump (40) is communicated with the oil suction port (2) of the oil pump through an oil inlet pipe (39) of the oil pump, and the oil suction port (2) of the oil pump sucks the gear box working oil in the oil pool (30) through an oil suction pipe (19) of the oil pump; the oil outlet end of the oil pump (40) is communicated with the reversing electromagnetic valve (4) through an oil pump oil outlet pipe (41).

3. Marine gearbox in accordance with claim 2, characterised in that: the oil outlet end of the oil pump (40) is connected with a slip valve (5) through a slip valve oil inlet pipe (44) and used for adjusting the oil pressure output by the oil pump (40).

4. Marine gearbox according to a special arrangement of claim 3, characterised in that: when the reversing and forwarding electromagnetic valve (4) is arranged at a forwarding parking space, the oil pump (40) conveys the working oil of the gear box to a forwarding working oil path (47) of the input shaft (37) through a forwarding working oil pipe (42), so that a forwarding piston (22) presses an inner friction plate (12) and an outer friction plate (11) of the forwarding, namely a forwarding clutch is combined, the reversing clutch is separated, and the output shaft (9) outputs the power of a diesel engine according to the forwarding working condition of the gear box; at the moment, the slip valve (5) is started, so that the working oil pressure in the forward working oil way (47) is reduced, the rotating speed of the output shaft (9) is reduced, and the forward working condition that the output rotating speed of the gear box is lower under the idling state of the diesel engine is realized.

5. Marine gearbox according to a special arrangement of claim 3, characterised in that: when the reversing and driving electromagnetic valve (4) is arranged at a reversing position, the oil pump (40) conveys the working oil of the gear box to a reversing working oil path (32) of the reversing transmission shaft (31) through a reversing working oil pipe (43), so that a reversing piston (34) presses a reversing inner friction plate (26) and a reversing outer friction plate (25), namely a reversing clutch is combined and a reversing clutch is separated, and the output shaft (9) outputs the power of the diesel engine according to the reversing working condition of the gear box; at the moment, the slip valve (5) is started, so that the working oil pressure in the reversing working oil way (32) is reduced, the rotating speed of the output shaft (9) is reduced, and the reversing working condition that the output rotating speed of the gear box is lower in the idling state of the diesel engine is realized.

6. Marine gearbox in accordance with claim 2, characterised in that: the oil suction pipe (19) of the oil pump is arranged below the oil shield (35) to ensure that the working oil thrown out by the input shaft (37) and the forward driving gear (17) is shielded by the oil shield (35).

7. A special arrangement form of marine gearbox according to any one of claims 1-6, wherein: the oil blocking cover (35) is formed by connecting two sections of circular arc structures, and the oil blocking cover (35) is fixed on the inner wall of the box body (8) through bolts (38).

8. Marine gearbox according to a special arrangement according to claim 1, characterised in that: the output shaft (9) is supported on the box body (8) through a bearing A (7) and a bearing B (15), the reverse drive shaft (31) is supported on the box body (8) through a bearing D (23) and a bearing E (29), and the input shaft (37) is supported on the box body (8) through a bearing C (18) and a bearing F (36).

9. Marine gearbox according to a special arrangement according to claim 1, characterised in that: and the gearbox support (1) and the cooler (3) are arranged on the box body (8), and the cooler (3) is used for cooling the working oil of the gearbox.

10. Marine gearbox in accordance with a special arrangement of claim 1, characterised in that: and one end of the input shaft (37) far away from the input coupling (6) of the gear box is sleeved with a PTO output belt pulley (16).

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