CN111664037A - Preheating system and preheating method for engine crankcase - Google Patents

Abstract

The invention discloses an engine crankcase preheating system, which comprises a controller, an air heating device and a pipeline communicated with a crankcase, wherein outside air is heated by the air heating device and then is input into a channel on the crankcase through the pipeline, the air heating device is electrically connected with the controller, and the controller is connected with a storage battery on a vehicle to realize power supply; the preheating method mainly comprises three steps of combustor operation, heat exchanger operation and crankshaft device preheating. The invention has reasonable structural layout and smooth pipeline connection, realizes the high-efficiency preheating of the crankcase by the design of the heat exchanger, reduces the frictional resistance between moving parts of the engine at low temperature, reduces the initial starting torque and ensures that the engine can quickly reach the starting rotating speed.

Description

Preheating system and preheating method for engine crankcase

Technical Field

The invention relates to the technical field of automobile power systems, in particular to an engine crankcase preheating system and a preheating method thereof.

Background

When the engine is started, the resistance of compressed gas in a cylinder and the friction resistance between moving parts of the engine must be overcome. Particularly, at low temperatures, the viscosity of lubricating oil increases, the frictional resistance between moving parts of the engine increases, and the low temperatures cause a power shortage of the battery, making it more difficult to start the engine, especially a compression ignition type diesel engine. At present, common methods for improving the cold start of the engine mainly increase the temperature in the cylinder, including preheating by a glow plug, preheating by intake air, and the like. These methods, however, do not improve the frictional resistance between the moving parts. Therefore, reducing the frictional resistance between moving parts of the engine is one of the important measures to improve the cold start performance of the engine.

Disclosure of Invention

The invention aims to provide an engine crankcase preheating system, which preheats a crankcase before an engine is started, reduces the friction resistance between moving parts of the engine at low temperature, reduces the initial starting torque and enables the engine to quickly reach the starting rotating speed.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention relates to an engine crankcase preheating system which comprises a controller, an air heating device and a pipeline communicated with a crankcase, wherein outside air is heated by the air heating device and then is input into a channel on the crankcase through the pipeline, the air heating device is electrically connected with the controller, and the controller is connected with a storage battery on a vehicle to realize power supply.

The air heating device is of a split structure and comprises a combustor, a heat exchanger and a connecting pipeline, the combustor is electrically connected with the controller, an air outlet of the combustor is communicated with the heat exchanger through a pipeline, and the heat exchanger is connected with a channel on the crankcase through a heat exchanger air outlet pipe.

Preferably, the combustor is provided with a power line, an air inlet, an air outlet and an oil pipe, the other end of the power line is connected with a storage battery on the vehicle to realize power supply, the air inlet is connected with an air filter on the vehicle through a pipeline, the other end of the oil pipe is connected with an oil tank on the vehicle, and the air outlet is connected with an inner cavity air inlet of the heat exchanger through a pipeline.

Preferably, the controller is connected with the storage battery on the vehicle to realize power supply.

Preferably, a heat exchanger air inlet pipe and an air outlet are arranged on the heat exchanger, one end of the heat exchanger air inlet pipe is communicated with the air inlet of the heat exchanger, and the other end of the heat exchanger air inlet pipe is communicated with the fan.

Preferably, the air inlet of the fan is connected with an air filter on the vehicle through a pipeline.

Preferably, the heat exchanger is of a double-cavity structure and comprises an inner cavity and an outer cavity, an air inlet of the inner cavity is connected with an air outlet of the combustor through a pipeline, an air outlet of the inner cavity is communicated with outside air, an air inlet of the outer cavity is connected with an air inlet pipe of the heat exchanger, and an air outlet of the outer cavity is connected with a channel on the crankcase through an air outlet pipe of the heat exchanger.

Preferably, a breather is further arranged on the crankcase and is communicated with an air outlet of the engine crankcase through a pipeline.

Preferably, the air heating device is of an integral structure and comprises a burner, a hearth, a gas cavity and a connecting pipeline, wherein one end of the burner is provided with a power line, an air inlet and an oil pipe, the other end of the power line is connected with a storage battery on a vehicle to realize power supply, the air inlet is connected with an air filter on the vehicle through a pipeline, the other end of the oil pipe is connected with an oil tank on the vehicle, the other end of the burner extends into the hearth, and the gas cavity is wrapped outside the hearth; an exhaust port is arranged on the hearth and is communicated with the outside air; the gas cavity is provided with a heat exchanger gas inlet pipe, the other end of the heat exchanger gas inlet pipe is communicated with a fan, a gas inlet of the fan is connected with an air filter on a vehicle through a pipeline, and an outlet end of the gas cavity is connected with a passage on the crankcase through a heat exchanger gas outlet pipe.

A warm-up method using the engine crankcase warm-up system as described above, comprising the following processes:

the first process and the operation of a combustor: the combustor works: by turning on a starting switch of the preheating system, the starting switch is arranged on a control panel of a cab or is controlled by an electric switch on an engine controller, the combustor starts to work normally under the control of the controller to produce high-temperature exhaust gas, and the high-temperature exhaust gas is discharged through the air outlet;

and the process II comprises the following steps of: high-temperature exhaust gas generated in the first process enters an inner cavity of the heat exchanger through a pipeline communicated with an air outlet, cold air enters an outer cavity of the heat exchanger through an air inlet pipe of the heat exchanger under the action of the fan, heat of the high-temperature exhaust gas is transferred to the cold air in the outer cavity, and the cold air is heated to form high-temperature gas; and the cooled exhaust gas is discharged to the atmosphere through an exhaust port.

And step three, preheating a crankshaft device: in the second process, high-temperature gas in the outer cavity of the heat exchanger enters the crankcase through the heat exchanger gas outlet pipe and the channel under the driving action of the fan, each friction pair and the cylinder sleeve piston in the crankcase are heated, and finally the gas is exhausted from the respirator outlet through the special exhaust port or the respirator.

Preferably, an ignition device, an oil pump and a power fan are arranged inside the combustor, the oil pump is communicated with an oil tank on a vehicle through an oil pipe, the power fan is communicated with the air inlet, and the ignition device ignites mixed gas formed by fuel oil conveyed by the oil pipe and air input by the air inlet to form flame and high-temperature exhaust, and the flame and the high-temperature exhaust are discharged through the air outlet.

Compared with the prior art, the invention has the beneficial technical effects that:

according to the preheating system for the engine crankcase, a process of converting cold air into a high-temperature heat source is realized through the design of the combustor and the heat exchanger, the temperature of the cold air below minus 40 ℃ can be increased to 100-150 ℃, and the high-temperature gas can quickly preheat each friction pair, piston and cylinder sleeve of a crankshaft in the crankcase, so that the starting resistance of the engine is effectively reduced; when cold air enters, the cold air is filtered through an air filter on the vehicle, so that the cleanliness is higher, the working environment of the equipment is maintained more conveniently, and the service life of the equipment is prolonged; in addition, compared with the prior art, water content is very high in the burning exhaust that conventional preheated, account for carminative more than 5%, a large amount of steam can produce dilution to the lubricating oil between the spare part, can further increase the frictional force between the spare part of high-speed operation, thereby reduce the life of equipment, this natural air heat exchange of preheating the system intensifies the back, water content greatly reduced, account for high temperature exhaust below 0.05%, be less than the requirement of machine oil water content, can not cause machine oil dilution, the life of equipment has effectively been guaranteed.

Generally speaking, the device is independent of a vehicle, and by skillfully connecting the heat exchanger with the combustor, the high-efficiency preheating of the crankcase can be realized by only utilizing a small amount of power supply of a storage battery and a small amount of oil supply of an oil tank on the vehicle, the friction resistance between a crankshaft and a bearing bush and between a piston and a cylinder sleeve in the crankcase is reduced, the starting torque is greatly reduced, the engine can smoothly reach the starting rotating speed under the harsh low-temperature condition, and the starting efficiency is improved to a certain extent. The invention has reasonable structural layout and smooth pipeline connection, realizes the high-efficiency preheating of the crankcase by the design of the heat exchanger, reduces the frictional resistance between moving parts of the engine at low temperature, reduces the initial starting torque and ensures that the engine can quickly reach the starting rotating speed.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a first schematic diagram of an engine crankcase preheating system according to the present invention;

FIG. 2 is a schematic diagram of an engine crankcase preheating system of the present invention;

description of reference numerals: 1. a burner; 2. a power line; 3. an air inlet; 4. an air outlet; 5. an oil pipe; 6. a controller; 7. a heat exchanger; 8. a fan; 9. a heat exchanger air inlet pipe; 10. an air outlet pipe of the heat exchanger; 11. an exhaust port; 12. a channel; 13. a crankcase; 14. a respirator; 15. a respirator outlet; 16. a hearth; 17. a gas chamber.

Detailed Description

As shown in fig. 1 and 2, an engine crankcase preheating system includes a controller 6, an air heating device and a pipeline communicated with a crankcase 13, wherein outside air is heated by the air heating device and then is input into a channel 12 on the crankcase 13 through the pipeline, the air heating device is electrically connected with the controller 6, and the controller 6 is connected with a storage battery on a vehicle to realize power supply.

The first embodiment is as follows:

as shown in fig. 1, the air heating device is a split structure and comprises a burner 1, a heat exchanger 7, a controller 6 and a connecting pipeline, wherein the burner 1 is electrically connected with the controller 6, an air outlet 4 of the burner 1 is communicated with the heat exchanger 7 through a pipeline, and the heat exchanger 7 is connected with a passage 12 on a crankcase 13 through a heat exchanger air outlet pipe 10. Specifically, the passage 12 is communicated with a long hole processed on the side wall of the crankcase so as to increase the flow of high-temperature air introduced to the running parts of the crankcase; the channel 12 and the elongated hole are in a bolt connection or a welding or a buckling mode, and the shape and the arrangement mode of the elongated hole are related to the arrangement mode of the engine.

Specifically, be provided with power cord 2, air inlet 3, gas outlet 4 and oil pipe 5 on combustor 1, the other end of power cord 2 links to each other with the battery on the vehicle and realizes the power supply, air inlet 3 links to each other with the air cleaner on the vehicle through the pipeline, the other end of oil pipe 5 links to each other with the oil tank on the vehicle, gas outlet 4 pass through the pipeline with the inner chamber air inlet of heat exchanger 7 is connected. Specifically, the combustor 1 can be purchased from existing equipment of other equipment plants, and the structure of the combustor is not limited to one type, and other combustors capable of meeting the function can be adopted.

The controller 6 is connected with the storage battery on the vehicle to realize power supply. And a heat exchanger air inlet pipe 9 and an air outlet 11 are arranged on the heat exchanger 7, one end of the heat exchanger air inlet pipe 9 is communicated with an air inlet of the heat exchanger 7, and the other end of the heat exchanger air inlet pipe is communicated with the fan 8. Specifically, the air inlet of the fan 8 is connected with an air filter on the vehicle through a pipeline, so that the entering air can be further purified, the cleanliness of the interior of the crankshaft is ensured, and the service life of the crankshaft is prolonged.

The heat exchanger 7 is of a double-cavity structure and comprises an inner cavity and an outer cavity, wherein an air inlet of the inner cavity is connected with the air outlet 4 of the combustor through a pipeline, an air outlet 11 of the inner cavity is communicated with outside air, an air inlet of the outer cavity is connected with the air inlet pipe 9 of the heat exchanger, and an air outlet of the outer cavity is connected with a passage 12 on the crankcase 13 through an air outlet pipe 10 of the heat exchanger. The crankcase 13 is also provided with a breather 14, and the breather 14 is communicated with an air outlet of the engine crankcase through a pipeline. The heat exchanger 7 is designed as a gas-gas heat exchanger, and a shell-and-tube heat exchanger can be specifically adopted.

The working process of this embodiment is as follows:

firstly, a crankcase preheating system assembles and connects a combustor and a heat exchanger together according to design; in particular at low temperatures, i.e. generally below-40 ℃, the method of preheating the crankcase comprises the following steps:

1) operation of the burner 1: by opening a starting switch of the preheating system, the starting switch is arranged on a control panel of a cab or is controlled by an electric switch on an engine controller, the system is controlled by a controller 6, an ignition device, an oil pump and a power fan are arranged in the combustor 1, the oil pump is communicated with an oil tank on a vehicle through an oil pipe 5, the power fan is communicated with the air inlet 3, a mixed gas formed by fuel oil conveyed by the oil pipe 5 and air input by the air inlet 3 is ignited by the ignition device to form flame and high-temperature exhaust, and the high-temperature exhaust is exhausted through the air outlet 4, wherein the temperature of the high-temperature exhaust can reach 600-1000 ℃.

2) The operation of the heat exchanger: in the heat exchange process, specifically, high-temperature exhaust gas generated by combustion of the combustor 1 enters an inner cavity of a heat exchanger 7 through a pipeline communicated with the air outlet 4, heat exchange is formed between the inner cavity and an outer cavity of the heat exchanger, cold air in the outer cavity is heated, the temperature of the cold air is-40 ℃, and the heated temperature is raised to 100-150 ℃; the temperature of the gas in the inner cavity is reduced to 50-120 ℃ after heat exchange, and then the cooled gas in the inner cavity is discharged to the atmosphere through the exhaust port 11.

3) Preheating a crankshaft device: the air heated in the outer cavity of the heat exchanger 7 enters the crankcase 13 through the heat exchanger air outlet pipe 10 and the channel 12 under the driving action of the fan 8, and heats each friction pair and cylinder sleeve piston in the crankcase, and finally the air is exhausted from the respirator outlet 15 through a special exhaust port or a respirator 14 of the engine. In the heating process, the heating time is 6-12 minutes, the heated components in the crankcase can be preheated to 10-50 ℃, and the difference of preheating and temperature rise exists according to the distance.

Example two:

as shown in fig. 2, the air heating device is an integral structure and comprises a burner 1, a hearth 16, a gas cavity 17 and a connecting pipeline, wherein one end of the burner 1 is provided with a power line 2, an air inlet 3 and an oil pipe 5, the other end of the power line 2 is connected with a storage battery on a vehicle to realize power supply, the air inlet 3 is connected with an air filter on the vehicle through a pipeline, the other end of the oil pipe 5 is connected with an oil tank on the vehicle, the other end of the burner 1 extends into the hearth 16, and the gas cavity 17 is wrapped outside the hearth 16; an exhaust port 11 is arranged on the hearth 16, and the exhaust port 11 is communicated with the outside air; the gas cavity 17 is provided with a heat exchanger gas inlet pipe 9, the other end of the heat exchanger gas inlet pipe 9 is communicated with a fan 8, the gas inlet of the fan 8 is connected with an air filter on a vehicle through a pipeline, and the outlet end of the gas cavity 17 is connected with a channel 12 on the crankcase 13 through a heat exchanger gas outlet pipe 10.

During specific work, an ignition device, an oil pump and a power fan are arranged inside the combustor 1, the oil pump is communicated with an oil tank on a vehicle through an oil pipe 5, the power fan is communicated with the air inlet 3, a mixed gas formed by fuel oil conveyed by the oil pipe 5 and air input by the air inlet 3 is ignited by the ignition device to form 600-1000 ℃ flame and high-temperature exhaust, the flame and the high-temperature exhaust bypass the hearth 16 for heat exchange and then are exhausted through the exhaust port 11, and the temperature of the high-temperature exhaust after heat exchange is reduced to 50-120 ℃; the cold air entering through the fan 8 absorbs heat and heats up in the gas cavity 17, and then enters the crankcase 13 through the heat exchanger air outlet pipe 10 and the channel 12. In the process, the temperature of the cold air is-40 ℃, and the temperature of the high-temperature gas heated in the gas cavity 17 is up to 100-150 ℃. In the heating process, the heating time is 6-12 minutes, the heated components in the crankcase can be preheated to 10-50 ℃, and the difference of preheating and temperature rise exists according to the distance.

Specifically, all power components are electrically connected with the controller 6, a microprocessor is placed in the controller, the microprocessor can control the running time of each component according to setting, and can also send out corresponding control instructions according to the set temperature or signal transmission of other sensing devices. Any suitable microprocessor may be employed for the application of the device and the programming of the program required for starting the engine based on various signals input to the microprocessor is a relatively easy matter for those skilled in the computer and engine arts.

Therefore, when the preheating system works, after the operation reaches the preset time, the operation is stopped through the microprocessor set in the controller 6, namely, the preheating process of the crankcase is completed, and then the engine starting stage is started.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solutions of the present invention can be made by those skilled in the art without departing from the spirit of the present invention, and the technical solutions of the present invention are within the scope of the present invention defined by the claims.

Claims (10)

1. An engine crankcase preheating system characterized in that: including controller (6), air heating device and with the pipeline of crankcase (13) intercommunication, the outside air process air heating device heaies up the back and imports high temperature air through the pipeline extremely in passageway (12) on crankcase (13), air heating device with controller (6) electricity is connected, controller (6) link to each other with the battery on the vehicle and realize the power supply.

2. The engine crankcase preheating system according to claim 1, wherein: the air heating device is of a split structure and comprises a combustor (1), a heat exchanger (7) and a connecting pipeline, wherein the combustor (1) is electrically connected with the controller (6), an air outlet (4) of the combustor (1) is communicated with the heat exchanger (7) through a pipeline, and the heat exchanger (7) is connected with a channel (12) on a crankcase (13) through a heat exchanger air outlet pipe (10).

3. The engine crankcase preheating system according to claim 2, wherein: the utility model discloses a heat exchanger, including combustor (1), be provided with power cord (2), air inlet (3), gas outlet (4) and oil pipe (5) on combustor (1), the other end of power cord (2) links to each other with the battery on the vehicle and realizes the power supply, air inlet (3) link to each other through the air cleaner on pipeline and the vehicle, the other end of oil pipe (5) links to each other with the oil tank on the vehicle, gas outlet (4) pass through the pipeline with the inner chamber air inlet of heat exchanger (7) is connected.

4. The engine crankcase preheating system according to claim 2, wherein: the heat exchanger (7) is provided with a heat exchanger air inlet pipe (9) and an air outlet (11), one end of the heat exchanger air inlet pipe (9) is communicated with an air inlet of the heat exchanger (7), and the other end of the heat exchanger air inlet pipe is communicated with the fan (8).

5. The engine crankcase preheating system according to claim 4, wherein: and the air inlet of the fan (8) is connected with an air filter on the vehicle through a pipeline.

6. The engine crankcase preheating system according to claim 4, wherein: the heat exchanger (7) is of a double-cavity structure and comprises an inner cavity and an outer cavity, wherein an air inlet of the inner cavity is connected with an air outlet (4) of the combustor through a pipeline, an air outlet (11) of the inner cavity is communicated with outside air, an air inlet of the outer cavity is connected with an air inlet pipe (9) of the heat exchanger, and an air outlet of the outer cavity is connected with a channel (12) on the crankcase (13) through an air outlet pipe (10) of the heat exchanger.

7. The engine crankcase preheating system according to claim 1, wherein: the crankcase (13) is also provided with a breather (14), and the breather (14) is communicated with an air outlet of the engine crankcase through a pipeline.

8. The engine crankcase preheating system according to claim 1, wherein: the air heating device is of an integral structure and comprises a combustor (1), a hearth (16), a gas cavity (17) and a connecting pipeline, wherein a power line (2), an air inlet (3) and an oil pipe (5) are arranged at one end of the combustor (1), the other end of the power line (2) is connected with a storage battery on a vehicle to realize power supply, the air inlet (3) is connected with an air filter on the vehicle through a pipeline, the other end of the oil pipe (5) is connected with an oil tank on the vehicle, the other end of the combustor (1) extends into the hearth (16), and the gas cavity (17) is wrapped outside the hearth (16);

an exhaust port (11) is formed in the hearth (16), and the exhaust port (11) is communicated with the outside air;

the air purifier is characterized in that a heat exchanger air inlet pipe (9) is arranged on the air cavity (17), the other end of the heat exchanger air inlet pipe (9) is communicated with a fan (8), an air inlet of the fan (8) is connected with an air filter on a vehicle through a pipeline, and an outlet end of the air cavity (17) is connected with a channel (12) on the crankcase (13) through a heat exchanger air outlet pipe (10).

9. A preheating method using the engine crankcase preheating system according to claim 1 to 8, characterized in that: the method comprises the following steps:

the first process is that the combustor (1) works: by turning on a starting switch of the preheating system, the starting switch is arranged on a control panel of a cab or is controlled by an electric switch on an engine controller, the combustor (1) starts to normally work under the control of the controller (6) to produce high-temperature exhaust gas, and the high-temperature exhaust gas is discharged through the gas outlet (4);

and the second process is that the heat exchanger (7) works: high-temperature exhaust gas generated in the first process enters an inner cavity of the heat exchanger (7) through a pipeline communicated with the air outlet (4), cold air enters an outer cavity of the heat exchanger (7) through the air inlet pipe (9) of the heat exchanger under the action of the fan (8), heat of the high-temperature exhaust gas is transferred to the cold air in the outer cavity, and the cold air is heated to form high-temperature gas; the exhaust gas after temperature reduction is discharged to the atmosphere through an exhaust port (11);

and step three, preheating a crankshaft device: in the second process, high-temperature gas in the outer cavity of the heat exchanger (7) enters the crankcase (13) through the heat exchanger gas outlet pipe (10) and the channel (12) under the driving action of the fan (8) to heat each friction pair and cylinder sleeve piston in the crankcase, and finally the gas is discharged from the respirator outlet (15) through a special gas outlet or a respirator (14).

10. The warm-up method of an engine crankcase warm-up system according to claim 9, characterized in that: the combustor is characterized in that an ignition device, an oil pump and a power fan are arranged inside the combustor (1), the oil pump is communicated with an oil tank on a vehicle through an oil pipe (5), the power fan is communicated with the air inlet (3), fuel oil conveyed by the oil pipe (5) and mixed gas formed by input air of the air inlet (3) are ignited by the ignition device to form flame and high-temperature exhaust, and the flame and the high-temperature exhaust are discharged through the air outlet (4).

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