专利摘要:
An internal combustion engine with a main combustion chamber defined by the cylinder and the piston has a separate ignition chamber located in the cylinder head which communicates with the main combustion chamber through a narrow channel. The channel terminates tangentially in the chamber and the flow of combustible mixture into the chamber generates therein a vortex which aids in ignition and combustion. The chamber includes spark-producing electrodes but does not receive additional fuel. In order to improve the ignition process, i.e., to lower the energy required for ignition, the walls of the ignition chamber are cooled to a controlled degree by changing the size of an air gap when the chamber expands or contracts, thereby changing the heat flow from the ignition chamber to the cooled portions of the engine.
公开号:SU1009281A3
申请号:SU772480960
申请日:1977-05-13
公开日:1983-03-30
发明作者:Лач Райнхард
申请人:Роберт Бош Гмбх (Фирма);
IPC主号:
专利说明:

Fig.}
FIELD OF THE INVENTION The invention relates to mechanical engineering / in particular to engine-building, namely to internal combustion engines with forced ignition.
A forced-ignition internal combustion engine is known, comprising a main combustion chamber and an ignition chamber communicating with it via a tangential channel, housed in a glass mounted in the cylinder head and adjacent to its cooling cavity, and provided with a means of ignition and a temperature control device installed between fl3 camera and cavity by cooling. However, a well-known engine is not reliable enough.
The purpose of the invention is to increase reliability.
The goal is achieved by the fact that in the internal combustion engine with forced ignition, the ignition chamber containing the main combustion chamber and the ignition chamber communicated with it through a tangential channel is placed in a glass fixed in the cylinder head and equipped with a means of ignition and a device for temperature control, installed between the ignition chamber and the cooling cavity, a device for regulating the temperature of the chamber, the burning is made in the form of a closed and paritelnoy container embracing ignition chamber partly filled with an evaporating cooling medium and is provided with the stopper wall, the latter have a capillary structure.
The ignition chamber can be provided with a cooling cavity.
Potassium or sodium stabilized with an inert gas, such as helium or argon, can be used as a volatile cooling medium.
FIG. 1 p The dependence of the energy Q required to ignite the mixture, as a function of the air excess factor D; in fig. 2 -. the dependence of the energy Q required for igniting the mixture, as a function of the temperature T of the mixture at the moment of ignition for various L; in fig. 3 - dependence of the distance A to the wall, the ignition chamber on the speed U and the temperature T of the air-fuel mixture, (where T is the indicated relationship for an engine with an unregulated thermal state of the ignition chamber; T 2 is a specified relationship for an engine with an adjustable thermal state of the ignition chamber, A - thickness
boundary layer); Fig, 4 - the proposed engine; in fig. 5 is also an option; in fig. 6 — the upper part of the ignition chamber of FIG. five; in fig. 7 - the same, option; on
FIG. 8 - a variant of the proposed engine; in fig. 9 shows section A-A in FIG. eight.
The engine (Fig. 4) contains the main combustion chamber 1 and the ignition chamber 3 communicated with it by means of the tangential channel 2. The housing 4 of the chamber 3 is firmly welded with the glass 5, which is fixed in the cylinder head b of the cylinder (not shown) with
5 help thread, fixed key 7 and is adjacent to the cavity 8 of the cooling head 6. Through the wall of the chamber 3, opposite to the channel 2, the first electrode 9 is introduced into it 9. The chamber
3 plugs equipped with a device
to regulate its temperature. This device is a heat-conducting plate 10, made of copper and firmly welded to the electrode holder 11, with a gap
12 to the grind plate 10 and the housing 4 of the chamber 3 and with a gap 13 between the housing 4 and the glass 5. The gap 12 can be changed by rotating the plate 10 or the electrode holder 11.
0 The body 4 is made of a metal with good thermal conductivity and a relatively large coefficient of thermal expansion, for example copper. Electrode holder 11
5 bears on itself an insulator -14 with a pin 15 for a connecting cable. ignition. The insulator 14 in the plate 10 passes into the tube 16, in which the second electrode 17 is placed. Between
0 electrodes 9 and 17 there is a gap punched by a spark during ignition. To lock the plate 10 relative to the cup 5, a co-nut 18 is used. Instead of electrodes 9 and 17, conventional spark plugs (not shown) can be used.
In the embodiment (Fig. 5) between the housing 4 of the chamber 3 and 10 can be installed elastic ring 19, for example from asbestos. The plate 10 is screwed up along the thread in the head 6. In addition, in the plate 10 a slot 20 is made to compensate for the thermal expansion of the electrode holder 11. The electrodes 9 and 17 are interconnected by an elastic
5 element 21, for example a curved wire. The presence of the ring 19 with thermal deformation of the housing 4 provides the best heat dissipation.
In the embodiment (fig. B), for thickening heat from electrode 9, thickening 22 serves, at the place of formation of which tube 16 has a smaller thickness, which creates conditions of more intense heat transfer 5 to body 4 or, to plate 10.
In the version. 7) the body 4 is made elongated with a conical surface, which increases its thermal deformation and heat transfer surface. Due to the reduction of the thermal load at the site of pickup. The electrode 9 can be inserted further into the chamber 3. In order to provide a spark under any circumstances, a ground electrode 23 is introduced into the chamber 3.
In the embodiment (FIG. 8), the temperature control device is made in the form of a closed evaporation tank 24, which encloses the housing 4. On the other hand, the container 24 is bounded by a heat-conducting element 25 and closed by a lid 26 welded to the glass 5. In the lid 26 for additional cooling of the glass 5, a cooling cavity 27 is formed. The container 24 has an evaporation part 28 adjacent to the housing 4 near the channel 2, and a condenser part 29 located at the lid 26. In the evaporation part 28 there is a ring 30 of fine mesh. In addition, tank 24 is provided with restrictive walls 31 with a capillary structure and is partially filled with an evaporating cooling medium, which can be used as sodium or potassium stabilized with an inert gas, such as helium or argon. .
In the place of the exit of the electrode 9 into the chamber 3, the wall of the housing 4 is made with a protrusion 32 ...
The engine works as follows.
The air-fuel mixture is fed from the main Ks1mer 1 to the ignition chamber 3 through the tangential channel 2, which ensures satisfactory. smooth mixing of air and fuel due to swirling of the flow and potential turbulence. In the region of the near-boundary boundary layer, the velocity of the mixture is small and there are slight fluctuations in it, i.e. the degree of turbulence is small .. Electrode 9 is introduced into this near-wall boundary layer to a small depth, which creates very favorable conditions for igniting even very poor
10 mixtures. The ignition of the mixture is provided by a sliding spark, which slips between the electrode 9 and the wall of the housing 4. In the variants (fig.7.7), the spark jumps between-. do electrode 9 and electrode 23
5 of the ground or the protrusion 32. In order to minimize the amount of energy required to ignite the mixture, the temperature of the body 4 of the chamber 3 is changed to a temperature
0 close to ignition temperature. This is achieved by self-regulation due to the fact that the housing 4 expands with increasing temperature, as a result, the gap 12
5 and at a relatively lesser extent, the gap 13 is reduced, with the result that more heat is removed to the glass 5 and from it to the head b and the cavity 8. This causes cooling.
0 housing 4, increasing the gaps 12 and 13, reducing heat dissipation and reheating the housing 4.
In the embodiment (.Fig. In) temperature control body 4 camera
5 3 is provided by the transfer of heat from the housing to the evaporation part 28 of the vessel 24. As a result, the sodium (potassium) evaporates, the vapor enters the condensate part 29, and the condensed sodium again
0 enters the evaporation part of the capillaries of the walls 31.
Thus, the implementation of the present invention will improve the reliability of the engine.
five
/ten
(puzJ
; / Gg
R

FIG. 3
 DH
It
No
Z
Fi.5
权利要求:
Claims (3)
[1]
1. INTERNAL COMBUSTION ENGINE WITH FORCED * IGNITION, containing the main combustion chamber and an ignition chamber communicated with it via a tangential channel, located in a glass fixed in the cylinder head and adjacent to its cooling cavity, and equipped with an ignition device and a temperature control device installed between the ignition chamber and the cooling cavity, characterized in that, in order to increase reliability, the device for controlling the temperature of the ignition chamber is made in the form closed-evaporation tank, covering the ignition chamber, partially filled with an evaporating cooling medium and provided with boundary walls, the latter having a capillary structure.
[2]
2. The engine according to π. 1, characterized in that the glass of the ignition chamber is provided with a cooling cavity.
[3]
3. The engine according to paragraphs. 1 and 2, characterized in that potassium or sodium stabilized with an inert gas, for example helium or argon, is used as an evaporating cooling medium.
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同族专利:
公开号 | 公开日
SE7705565L|1977-11-15|
FR2351256A1|1977-12-09|
DE2621554C2|1982-10-21|
GB1580399A|1980-12-03|
BR7703127A|1978-01-31|
JPS52139811A|1977-11-22|
US4170979A|1979-10-16|
FR2351256B1|1982-09-10|
SE437180B|1985-02-11|
DE2621554A1|1977-11-24|
引用文献:
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DE2831452A1|1978-07-18|1980-01-31|Bosch Gmbh Robert|INTERNAL COMBUSTION ENGINE WITH A MAIN COMBUSTION CHAMBER AND A IGNITION DEVICE INSERTED IN A IGNITION CHAMBER|
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法律状态:
优先权:
申请号 | 申请日 | 专利标题
DE2621554A|DE2621554C2|1976-05-14|1976-05-14|Internal combustion engine|
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