CN205064071U - Two -sided cooling plate of high -speed boat engine cooling system - Google Patents

Abstract

The utility model discloses a two -sided cooling plate of high -speed boat engine cooling system is equipped with the cold maze of oil on face of cooling plate body, the cold maze of oil comprises with the cold heat dissipation muscle of oil cold maze die cavity, and the cold labyrinth type intracavity of its petroleum company of the people's republic of china is equipped with the cold heat dissipation muscle of oil at least together, the cold heat dissipation muscle of oil highly be less than the cold maze of oil die cavity height, be equipped with the water -cooling maze on another face of cooling plate body, the water -cooling maze comprises water -cooling maze die cavity and liquid cooling muscle, and wherein water -cooling labyrinth type intracavity is equipped with one at least liquid cooling muscle. The utility model discloses synthesizing to have adopted and reducing the cold design of dispelling the heat the muscle height and increasing the water -cooling maze of oil, the area of contact of coolant oil and the cold heat dissipation muscle of oil can be guaranteed to the cold heat dissipation muscle height of its petroleum company of the people's republic of china, can guarantee the mobility of coolant oil again to reduce the temperature of coolant oil, the utility model discloses a cooling water cools off the coolant oil, so also can reduce the temperature of coolant oil to improve the cooling effect of coolant oil to the engine combustion chamber.

Description

The two-sided cooling plate of engine of high-speed boat cooling system

Technical field

The utility model belongs to engine of high-speed boat cooling system, particularly relates to a kind of two-sided cooling plate of engine of high-speed boat cooling system.

Background technique

Motor is the important component part of high-speed boat, and during its work, firing chamber can produce a large amount of heats.In order to ensure the normal work of motor, be provided with cooling system on the engine at present, this cooling system mainly comprises outer panel, the cooling plate of side inner panel and centre forms, and panel is equipped with end cap, during assembling, side inner panel is installed on the engine.At present, cooling plate is provided with oil cooling labyrinth near the plate face of motor side, this oil cooling labyrinth is made up of oil cooling labyrinth die cavity and oil cooling radiating fin, wherein be provided with at least one oil cooling radiating fin along its die cavity bearing of trend in the die cavity of oil cooling labyrinth, the height of this oil cooling radiating fin is consistent with the height of oil cooling labyrinth die cavity.

During engine operation, the cold oil in firing chamber by side inner panel goes out the filler opening that oil column enters oil cooling labyrinth, and along the flowing of oil cooling labyrinth, then flows to the oil return post side inner panel, and then flows to firing chamber from the oil outlet in oil cooling labyrinth.Lubricant oil follows above-mentioned oil circuit in the firing chamber of motor, back and forth flow between side inner panel and the oil cooling labyrinth of cooling plate, this cyclic process is called as Inner eycle, thus by the flowing of cold oil, the heat in firing chamber is taken away, and then cooled engine, cooled by oil cooling radiating fin while deep fat then flows in oil cooling labyrinth.

In use, we find that existing structure is not good to the cooling effect of engine chamber, so just can not ensure the normal work of motor, thus cause motor to burn out even scuffing of cylinder bore.

Model utility content

Technical problem to be solved in the utility model is the two-sided cooling plate providing a kind of engine of high-speed boat cooling system, for improving the cooling effect to engine chamber.

The technical solution of the utility model is as follows: a kind of two-sided cooling plate of engine of high-speed boat cooling system, have a trunnion shaft via hole (1a) at cooling plate body (1) middle part, a plate face of cooling plate body is provided with oil cooling labyrinth (2), described oil cooling labyrinth (2) comprises oil cooling labyrinth die cavity (2a) and oil cooling radiating fin (2b), wherein be provided with at least one oil cooling radiating fin (2b) along its die cavity bearing of trend in oil cooling labyrinth die cavity (2a), and the starting point of oil cooling radiating fin (2b) is provided with a filler opening (2c), this oil cooling radiating fin destination county is provided with an oil outlet (2d), and filler opening (2c) and oil outlet (2d) are all located in oil cooling labyrinth die cavity (2a), it is characterized in that: the height of described oil cooling radiating fin (2b) lower than oil cooling labyrinth die cavity (2a) highly, and the height difference between oil cooling radiating fin (2b) end face and oil cooling labyrinth die cavity (2a) end face is 5.5-6.5mm,

Another plate face of described cooling plate body (1) is provided with water-cooled labyrinth (3), this water-cooled labyrinth comprises water-cooled labyrinth die cavity (3a) and water-cooling muscle (3b), wherein be provided with at least one water-cooling muscle (3b) along its die cavity bearing of trend in water-cooled labyrinth die cavity (3a), and the height in water-cooled labyrinth die cavity (3a) is consistent with the height of water-cooling muscle (3b); The starting point of described water-cooling muscle (3b) is provided with a water intake (3c), this water-cooling muscle destination county is provided with a water outlet (3d), and water intake (3c) and water outlet (3d) are all located in water-cooled labyrinth die cavity (3a).

The utility model is on the basis of existing structure, the height of described oil cooling radiating fin (2b) is designed to lower than oil cooling labyrinth die cavity (2a) highly, and the height difference between oil cooling radiating fin (2b) end face and oil cooling labyrinth die cavity (2a) end face is 5.5-6.5mm;

Meanwhile, another plate face of described cooling plate body (1) is set up a water-cooled labyrinth (3), this water-cooled labyrinth comprises water-cooled labyrinth die cavity (3a) and water-cooling muscle (3b), wherein be provided with at least one water-cooling muscle (3b) along its die cavity bearing of trend in water-cooled labyrinth die cavity (3a), and the height in water-cooled labyrinth die cavity (3a) is consistent with the height of water-cooling muscle (3b); The starting point of described water-cooling muscle (3b) is provided with a water intake (3c), this water-cooling muscle destination county is provided with a water outlet (3d), and water intake (3c) and water outlet (3d) are all located in water-cooled labyrinth die cavity (3a).

In said structure, the utility model reduces the height of oil cooling radiating fin (2b), and the height difference between oil cooling radiating fin (2b) end face and oil cooling labyrinth die cavity (2a) end face is 5.5-6.5mm, can ensure that cold oil and oil cooling radiating fin (2b) have fully enough area of contact like this, thus allow cold oil cool better, cold oil can be allowed again to pass through from the region between oil cooling radiating fin (2b) end face and oil cooling labyrinth die cavity (2a) end face, thus improve the mobility of cold oil, so also can accelerate cold oil cooling, these two designs combine and comprehensively improve the cooling effect of cold oil to engine chamber.

Even more important design is, another plate face of cooling plate body (1) has been set up a water-cooled labyrinth (3), present two-sided cooling is cooled to like this with regard to becoming original one side, this seems simple change inventor and has but paid creative work, and it is also the core of this case.During work, water-cooled labyrinth (3) force cooling cold oil across cooling plate body (1), thus reduce the temperature of cold oil, thus can improve the cooling effect of cold oil to engine chamber.In the present case, water-cooled labyrinth (3) and oil cooling radiating fin (2b) be ingenious, organically cooperatively interact, and more effectively can improve the cooling effect of cold oil to engine chamber.

As important preferred, the height difference between described oil cooling radiating fin (2b) end face and oil cooling labyrinth die cavity (2a) end face is 5.9-6.1mm.Adopt above structural design, so just can take into account the area of contact of cold oil and oil cooling radiating fin (2b) and the mobility of cold oil, thus comprehensively improve the cooling effect to motor.

As decision design, in described oil cooling labyrinth die cavity (2a), be provided with three roads oil cooling radiating fin (2b), and be provided with three roads water-cooling muscle (3b) in described water-cooled labyrinth die cavity (3a).

Adopt above structural design, the number of described oil cooling radiating fin (2b) is moderate.If the number of oil cooling radiating fin (2b) is too much, although the area of contact of cold oil and oil cooling radiating fin (2b) can be increased, the mobility of cold oil can be reduced, will cooling effect be worsened like this; If the number of oil cooling radiating fin (2b) is very few, although the mobility of cold oil can be increased, but the area of contact of cold oil and oil cooling radiating fin (2b) can be reduced again, so equally also cooling effect can be worsened, so the number of oil cooling radiating fin (2b) needs special consideration.

Meanwhile, the number of described water-cooling muscle (3b) is moderate.If the number of water-cooling muscle (3b) is too much, although the area of contact of cooling water and water-cooling muscle (3b) can be increased, improve the cooling effect of cooling water to cold oil, but the mobility of cooling water can be reduced, the cooling effect of cooling water to cold oil will be worsened like this; If the number of water-cooling muscle (3b) is very few, although the mobility of cooling water can be increased, but the area of contact of cooling water and water-cooling muscle (3b) can be reduced again, so equally also can worsen the cooling effect of cooling water to cold oil, so the number of water-cooling muscle (3b) needs special consideration.Meanwhile, also need the matching problem considering oil cooling radiating fin (2b) and water-cooling muscle (3b), thus allow cooling water cool cold oil better, thus be convenient to cold oil cooled engine firing chamber.

For the ease of manufacturing, described oil cooling labyrinth (2) and water-cooled labyrinth (3) are monolithic construction with cooling plate body (1).

Beneficial effect: the utility model comprehensively have employed the design reducing oil cooling radiating fin height and increase water-cooled labyrinth, wherein oil cooling radiating fin height can ensure the area of contact of cold oil and oil cooling radiating fin, the mobility of cold oil can be ensured again, thus reduce the temperature of cold oil; Meanwhile, the utility model cools cold oil by cooling water, so more can reduce the temperature of cold oil, thus improves the cooling effect of cold oil to engine chamber.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the schematic diagram in another plate face of Fig. 1.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail:

As shown in Figure 1, 2, a kind of two-sided cooling plate of engine of high-speed boat cooling system, has a trunnion shaft via hole 1a in the middle part of cooling plate body 1, and a plate face of cooling plate body 1 is provided with oil cooling labyrinth 2.Oil cooling labyrinth 2 is made up of oil cooling labyrinth die cavity 2a and oil cooling radiating fin 2b, and the die cavity bearing of trend wherein along oil cooling labyrinth die cavity 2a in oil cooling labyrinth die cavity 2a is provided with at least one oil cooling radiating fin 2b, and the number of oil cooling radiating fin 2b is preferably three roads in the present case.The starting point of oil cooling radiating fin 2b is provided with a circular filler opening 2c, and the destination county of this oil cooling radiating fin 2b is provided with a circular oil outlet 2d, and filler opening 2c and oil outlet 2d is all located in the die cavity 2a of oil cooling labyrinth.During use, lubricant oil enters in filler opening 2c, and enters in the die cavity 2a of oil cooling labyrinth from filler opening 2c, and flows to oil outlet 2d along oil cooling radiating fin 2b, finally flows out two-sided cooling plate.The height of oil cooling radiating fin 2b is lower than oil cooling labyrinth die cavity 2a height, and the height difference between oil cooling radiating fin 2b end face and oil cooling labyrinth die cavity 2a end face is 5.5-6.5mm, and can more preferably 5.9-6.1mm.It should be noted that, the shape of oil cooling labyrinth die cavity 2a is that boundary dimension carrys out respective design according to product structure, and the trend of oil cooling radiating fin 2b is determined according to oil cooling labyrinth die cavity 2a, and it determines that mode is routine techniques means to those skilled in the art.Further, to the skilled in the art conventional design is belonged to oil outlet 2d in filler opening 2c.

As shown in Figure 1, 2, another plate face of cooling plate body 1 is provided with water-cooled labyrinth 3, and oil cooling labyrinth 2 and water-cooled labyrinth 3 are monolithic construction with cooling plate body 1, and by casting integrated shaping.Water-cooled labyrinth 3 is made up of water-cooled labyrinth die cavity 3a and water-cooling muscle 3b, and the die cavity bearing of trend wherein along water-cooled labyrinth die cavity 3a in water-cooled labyrinth die cavity 3a is provided with at least one water-cooling muscle 3b, and the number of water-cooling muscle 3b is three roads in the present case.The height of water-cooled labyrinth die cavity 3a is consistent with the height of water-cooling muscle 3b.The starting point of water-cooling muscle 3b is provided with a circular water intake 3c, and this water-cooling muscle destination county is provided with a circular water outlet 3d, and water intake 3c and water outlet 3d is all located in the die cavity 3a of water-cooled labyrinth.During use, cooling water goes out to enter in the die cavity 3a of water-cooled labyrinth from water intake 3c, and flows along water-cooling muscle 3b, and flows to water outlet 3d, finally flows out two-sided cooling plate.It should be noted that, the shape of water-cooled labyrinth die cavity 3a is that boundary dimension carrys out respective design according to product structure, and the trend of water-cooling muscle 3b is determined according to water-cooled labyrinth die cavity 3a, and it determines that mode is routine techniques means to those skilled in the art.Further, to the skilled in the art water intake 3c and water outlet 3d belongs to conventional design.In addition, all the other structures of the present utility model are identical with existing one side plate structure of cooling, do not repeat at this.

The foregoing is only preferred embodiment of the present utility model; it is not restriction with the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (4)

1. a two-sided cooling plate for engine of high-speed boat cooling system, has a trunnion shaft via hole (1a) at cooling plate body (1) middle part, a plate face of cooling plate body is provided with oil cooling labyrinth (2), described oil cooling labyrinth (2) comprises oil cooling labyrinth die cavity (2a) and oil cooling radiating fin (2b), wherein be provided with at least one oil cooling radiating fin (2b) along its die cavity bearing of trend in oil cooling labyrinth die cavity (2a), and the starting point of oil cooling radiating fin (2b) is provided with a filler opening (2c), this oil cooling radiating fin destination county is provided with an oil outlet (2d), and filler opening (2c) and oil outlet (2d) are all located in oil cooling labyrinth die cavity (2a), it is characterized in that: the height of described oil cooling radiating fin (2b) lower than oil cooling labyrinth die cavity (2a) highly, and the height difference between oil cooling radiating fin (2b) end face and oil cooling labyrinth die cavity (2a) end face is 5.5-6.5mm,

Another plate face of described cooling plate body (1) is provided with water-cooled labyrinth (3), this water-cooled labyrinth comprises water-cooled labyrinth die cavity (3a) and water-cooling muscle (3b), wherein be provided with at least one water-cooling muscle (3b) along its die cavity bearing of trend in water-cooled labyrinth die cavity (3a), and the height in water-cooled labyrinth die cavity (3a) is consistent with the height of water-cooling muscle (3b); The starting point of described water-cooling muscle (3b) is provided with a water intake (3c), this water-cooling muscle destination county is provided with a water outlet (3d), and water intake (3c) and water outlet (3d) are all located in water-cooled labyrinth die cavity (3a).

2. the two-sided cooling plate of engine of high-speed boat cooling system according to claim 1, is characterized in that: the height difference between described oil cooling radiating fin (2b) end face and oil cooling labyrinth die cavity (2a) end face is 5.9-6.1mm.

3. the two-sided cooling plate of engine of high-speed boat cooling system according to claim 1, it is characterized in that: in described oil cooling labyrinth die cavity (2a), be provided with three roads oil cooling radiating fin (2b), and be provided with three roads water-cooling muscle (3b) in described water-cooled labyrinth die cavity (3a).

4. the two-sided cooling plate of engine of high-speed boat cooling system according to claim 1, is characterized in that: described oil cooling labyrinth (2) and water-cooled labyrinth (3) are monolithic construction with cooling plate body (1).