This application claims priority to and the benefit of Korean Patent Application No. 10-2019-0123905, filed on Oct. 7, 2019, the entire contents of which are incorporated herein by reference.
The present disclosure relates to a socket module of a compression release type of engine brake, and an operation method of the engine brake using the same.
The statements in this section merely provide background information related to the present disclosure and may not constitute prior art.
In general, a brake system of an internal combustion engine vehicle uses a hydraulic pressure type of brake, but the engine brake is used to prevent premature abrasion of a brake pad during downhill driving or frequent sudden stops.
The compression release type of engine brake device, which is a type of engine brake, temporarily opens an exhaust valve near a compress top dead center of a piston during the basic four strokes of the engine, such that compressed air in a cylinder is discharged out of the cylinder and thus a braking effect is achieved by inducing a pumping loss of an expansion stroke.
In a compression release type of engine brake according to a conventional art, a socket module is applied between a valve bridge connected with a pair of exhaust valves, and an exhaust rocker arm.
In the socket module, the brake piston is provided inside the housing where the brake oil is introduced, and when the engine brake is operated, the brake piston moves downward to eliminate the gap between the exhaust rocker arm and the exhaust cam, thereby forcing the exhaust valve to be opened at the end of the compression stroke.
The exhaust valve is opened at the end of the compression stroke by the socket module to add braking force to the vehicle. However we have discovered that once the engine brake oil is introduced into the socket module, it is not exhausted, and thus the valve may be opened more by oil pressure formed in the socket module.
As shown in
In order to solve such a problem, meanwhile, a compression release type of engine brake with a reset bracket is provided on one side of the socket module, but the reset bracket must be applied to the outside of the reset module as well. Therefore, there is a drawback in which the overall size increases.
The above information disclosed in this Background section is only for enhancement of understanding of the background of the present disclosure, and therefore it may contain information that does not form the prior art that is already known to a person of ordinary skill in the art.
The present disclosure provides a socket module of a compression release type of engine brake that can automatically initialize a pressure inside the socket module by automatically exhausting the engine brake oil that has been introduced into the socket module during engine brake operation, and an operation method of the engine brake using the same.
In one form of the present disclosure, a socket module for a compression release type of engine brake is provided between an exhaust rocker arm rotating with respect to a rocker arm shaft and a valve bridge in contact with an exhaust valve of an engine. In particular, the socket module includes: a housing that includes an inlet through which brake oil is introduced, a brake piston mounting portion, and a reset member mounting portion configured to communicate with the brake piston mounting portion; a brake piston that is movable in the brake piston mounting portion; and a reset member that is provided in the reset member mounting portion, and that discharges brake oil by selectively contacting a push pin coupled to an upper portion of a cylinder head of the engine.
The housing includes a rounded mounting groove protruded upward from an upper center of the housing where an adjusting screw mounted to one end of the exhaust rocker arm is mounted.
The reset member mounting portion may include: a first passage connected with the brake piston mounting portion through a first outlet; and a second passage configured to discharge brake oil and connected with the first passage through a slanted surface. In particular, a diameter of the second passage is smaller than a diameter of the first passage.
The brake piston may be inserted into the brake piston mounting portion, and a receiving groove may be formed in an upper portion of the brake piston.
In some forms of the present disclosure, the socket module may further include a check valve that is disposed in the receiving groove, and opens and closes the inlet by being elastically supported by a check spring.
The reset member may include: a reset valve that is movably provided in the reset member mounting portion to open and close the outlet; and a reset spring that elastically supports a lower portion of the reset valve, and when the push pin pushes the reset valve, brake oil is discharged.
The reset valve may have a flow path groove that is concave inward from an upper exterior circumference of the reset valve, and an upper portion of the reset valve may be locked by a slanted surface so as to not escape in a downward direction.
In another form of the present disclosure, a method for operating the compression release engine brake using the socket module includes: a first step in which brake oil is introduced to the brake piston mounting side through the inlet of the housing; a second step in which the brake piston descends by hydraulic pressure of the brake oil and thus the exhaust rocker arm rotates in one direction with reference to the rocker arm shaft such that a roller and an exhaust cam of the exhaust rocker arm contact each other; a third step in which the exhaust cam contacts a brake cam lobe while rotating and thus the exhaust rocker arm presses a valve bridge while rotating in the other direction with reference to the rocker arm shaft such that an exhaust valve is opened; and a fourth step in which the push pin pushes a reset valve as the exhaust rocker arm rotates such that an outlet is opened.
The first step may include: a step in which the brake oil is introduced into a flow path in an adjusting screw; and a step in which a check valve is opened and thus the brake oil is introduced into the brake piston mounting portion through the inlet.
In the second step, the brake piston may be supported by the valve bridge such that the housing is lifted, and the roller and the exhaust cam may contact each other while the exhaust rocker arm rotates in one direction with reference to the rocker arm shaft.
In the third step, the exhaust rocker arm may rotate in the other direction with reference to the rocker arm shaft in a section where the brake cam lobe and the roller contact each other while the exhaust cam rotates, and the exhaust valve connected to the valve bridge may be opened while the valve bridge is pressed in a downward direction.
In the fourth step, the reset valve may move upward by the push pin disposed corresponding to the reset valve while the exhaust cam rotates, and a first outlet and a second outlet may be opened through a flow path groove formed in the reset valve, and the brake oil introduced into the brake piston mounting portion may be discharged through the first outlet and the second outlet.
After the fourth step, the brake oil may be discharged, and the reset valve moves upward by a restoring force of a reset spring that elastically supports the reset valve.
The compression release type of engine brake socket module according to an exemplary form of the present disclosure and the engine brake operation method of the engine brake using the same automatically exhaust the brake oil introduced into the housing during engine brake operation to initialize the pressure inside the housing such that there is an effect that can prevent the occurrence of stamping between the exhaust valve and engine piston.
In addition, the compression release type of engine brake socket module according to an exemplary form of the present disclosure and the operation method of the engine brake using the same apply a receiving groove formed as a rounded groove of the housing, thereby adjusting rotation of the exhaust rocker arm such that there is also an effect of preventing uneven wear of the housing by the adjusting screw by allowing the screw to move within the receiving groove regardless of the housing.
The oil in the socket module is exhausted every cycle, so that the valve lift can be maintained constant when the exhaust valve is opened by the main cam lobe.
In addition, effects obtained or predicted by the exemplary form of the present disclosure are disclosed directly or implicitly in a detailed description of an exemplary form of the present disclosure. That is, various effects predicted according to an exemplary form of the present disclosure will be disclosed in a detailed description to be described later.
Further areas of applicability will become apparent from the description provided herein. It should be understood that the description and specific examples are intended for purposes of illustration only and are not intended to limit the scope of the present disclosure.
In order that the disclosure may be well understood, there will now be described various forms thereof, given by way of example, reference being made to the accompanying drawings, in which:
The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way.
The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses. It should be understood that throughout the drawings, corresponding reference numerals indicate like or corresponding parts and features.
The present disclosure will be described more fully hereinafter with reference to the accompanying drawings, in which exemplary forms of the present disclosure are shown. As those skilled in the art would realize, the described forms may be modified in various different ways, all without departing from the spirit or scope of the present disclosure.
The drawings and description are to be regarded as illustrative in nature and not restrictive, and like reference numerals designate like elements throughout the specification.
In the following description, dividing names of components into first, second, and the like is to divide the names because the names of the components are the same as each other, and an order thereof is not particularly limited.
In general, the engine brake may be applied to inhibit or prevent the vehicle from causing premature wear of the brake pads applied to the foot brake when driving downhill or when frequently stopping suddenly.
The compression release type of engine brake is actuated in one of the four basic strokes of the engine, and opens an exhaust valve at the end of a compression stroke so that the engine can perform its braking function.
Referring to
As shown in
For this, the compression release type of engine brake according to some forms of the present disclosure will be described in detail.
Referring to
The roller 5 may contact or not contact an exhaust cam 20 installed on a camshaft.
The adjusting screw 7 is mounted to the other end of the exhaust valve 10 and is thus connected with a valve bridge 11 through a socket module 30 provided at a lower end thereof.
The valve bridge 11 is connected to the exhaust valve 10, and the exhaust valve 10 may be provided as a pair.
In addition, the exhaust cam 20 may be divided into a brake cam lobe section and a main cam lobe section according to a profile, and the brake cam lobe section and the main cam lobe section may be implemented by forming a brake cam lobe 23 and a main cam lobe 25 on the exhaust cam shaft 21.
The main cam lobe 25 may implement the exhaust stroke by contacting the roller 5, and the brake cam lobe 23 may open the exhaust valve 10 by contacting the roller 5 when the engine brake is operated.
In addition, a bias spring (not shown) is mounted to the exhaust rocker arm 1, and the bias spring lifts one end of the exhaust rocker arm 1, which corresponds to the roller 5, and the same time, provides an elastic force in a direction in which the other end of the exhaust rocker arm 1, which corresponds to the adjusting screw 7, to be closely attached to the valve bridge 11.
Accordingly, in a state before the engine brake operation (in the basic engine stroke), the roller 5 maintains a distance with the brake cam lobe 23 of the exhaust cam 20, and, in the exhaust stroke, the roller 5 is pushed upward only by the main cam lobe 25 of the exhaust cam 20.
That is, when brake oil for operation of the engine brake is not supplied, a gap is formed between the roller 5 provided at the other end of the exhaust rocker arm 1 and the exhaust cam 20 and thus the brake cam lobe 23 of the exhaust cam 20 and the roller 5 do not contact each other, thereby causing the engine brake not to work.
On the other hand, when the engine brake oil is supplied to operate the engine brake, the socket module 30 lifts up the other side of the exhaust rocker arm 1 such that the roller 5 and the exhaust cam 20 are in constant contact, and thus, at the end of the compression stroke, the exhaust rocker arm 1 is operated by the brake cam lobe 23 of the exhaust cam 20, so that the braking effect can be obtained.
The socket module 30 is applied between the exhaust rocker arm 1 and the valve bridge 11.
Referring to
The housing 40 includes a mounting portion 41 that protrudes upward from a center of an upper center thereof.
The mounting portion 41 includes a rounded mounting groove 41a provided therein such that the adjusting screw 7 is mounted thereto.
An inlet 43 connected with the mounting groove 41a is formed at a lower center of the mounting portion 41.
In addition, a brake piston mounting portion 45 is formed at a lower side of the inlet 43.
An upper end of the brake piston mounting portion 45 is connected with the inlet 43 inside the housing 40, and a lower end of the brake piston mounting portion 45 is opened.
An outlet 49 is formed at one side of the brake piston mounting portion 45.
A reset member mounting portion 50 is formed in a vertical direction on the outlet 49, and the reset member mounting portion 50 includes a first passage 50a and a second passage 50b, each having a different diameter.
The first passage 50a is communicated with a first outlet 49a that is connected with the brake piston mounting portion 45.
In addition, an upper portion of the first passage 50a may be closed by a cap 60.
The second passage 50b is provided at a lower side of the first passage 50a and connected with the first passage 50a through a slanted surface 51, and a diameter of the second passage 50b is smaller than that of the first passage 50a.
A second outlet 49b that penetrates side surfaces of the housing 40 is connected at one side of the second passage 50b.
The brake piston 70 and the reset member 100 are inserted into the housing 40.
The brake piston 70 is movably provided in the brake piston mounting portion 45, and is connected with the valve bridge 11.
The brake piston 70 is formed in a shape of a cylinder as a whole, and a receiving groove 71 that is concave downward is formed in the lower portion of the upper central portion.
In this case, a check valve 80 that opens and closes the inlet 43 is disposed in the receiving groove 71.
The check valve 80 is connected to a check spring 81 that is mounted to a center of the receiving groove 71 to open and close the inlet 43 while vertically driving.
The brake piston 70 operates in a vertical direction along the brake piston mounting portion 45 by brake oil introduced into the housing 40.
Meanwhile, the reset member 100 is inserted to be vertically operated through the reset member mounting portion 50 of the housing 40.
The reset member 100 includes a reset valve 110 that opens and closes the first and second outlets 49a and 49b of the housing 40 by being inserted into the reset member mounting portion 50.
A flow path groove 111 that is concave inward is formed at an exterior circumference of an upper side of the reset valve 110.
In this case, an upper end of the reset valve 110 is supported by being locked by the slanted surface 51 formed between the first passage 50a and the second passage 50b and thus supported so as to not escape in the downward direction.
In one form, a dimeter of the upper end of the reset valve 110 is larger than a portion of the reset valve 110 inserted into the second passage 50b corresponding to the first passage 50a.
The reset valve 110 is provided to be movable in a vertical direction by a reset spring 120 that elastically supports a lower end of the reset valve 110 from the outside the housing 40.
In a state that the reset valve 110 is inserted in the reset spring 120, a lower end of the reset spring 120 is fixed by a spring pin 121 mounted on the lower portion of the reset valve 110.
Here, the reset valve 110 is operated by a push pin 130 (refer to
The push pin 130 may be mounted to a top surface of the cylinder head S.
A method of operating the engine brake using the socket module 30 configured as described above is as follows.
Referring to
In this case, the check valve 80 that opens and closes the inlet 43 descends to open the inlet 43 and then is mounted inside the receiving groove 71.
Referring to
In this case, as the brake piston 70 relatively descends, the exhaust rocker arm 1 rotates relative to the rocker arm shaft 3, and the roller 5 and the exhaust cam 20 of the exhaust rocker arm 1 contact each other.
Subsequently, when the exhaust cam 20 rotates and thus the brake cam lobe 23 of the exhaust cam 20 and the roller 5 contact each other, an end portion of the exhaust rocker arm 1, corresponding to the roller 5, is lifted upward and rotates with reference to the rocker arm shaft 3 by the protruded brake cam lobe 23.
Due to such an operation, the valve bridge 11 is pressed downward and the exhaust valve 10 is opened. That is, at the end of the compression stroke, that is, near the compression stroke top dead center of the piston, the exhaust valve 10 is temporarily opened to discharge the compressed air in the cylinder out of the cylinder, thereby inducing a pumping loss of the expansion stroke to obtain a braking effect.
Referring to
In this case, the first outlet 49a and the second outlet 49b are opened through the flow path groove 111 of the reset valve 110.
The brake oil introduced into the brake piston mounting portion 45 is exhausted through the first outlet 49a and the second outlet 49b.
Referring to
Thus, the socket module of the compression release type of engine brake according to the exemplary forms of the present disclosure and the operation method of the engine brake using the same apply the reset member 100 to automatically exhaust the brake oil introduced into the housing 40 during engine brake operation.
In addition, the socket module of the compression release type of engine brake according to the exemplary forms of the present disclosure and the operation method of the engine brake using the same apply the receiving groove formed as a rounded groove of the housing to adjust the rotation of the exhaust rocker arm such that the adjusting screw moves within the receiving groove regardless of the housing when the exhaust rocker arm rotates, thereby preventing the housing from being worn by the adjusting screw.
The socket module of the compression release type of engine brake according to the exemplary forms of the present disclosure and the operation method of the engine brake using can reduce the cost by reducing the number of parts and weight by exhausting the brake oil with a simple structure applied with a push pin, and has the effect of downsizing as a whole.
The oil in the socket module is exhausted every cycle, so that the valve lift can be kept constant when the exhaust valve 10 is opened by the main cam lobe 25.
While this present disclosure has been described in connection with what is presently considered to be practical exemplary forms, it is to be understood that the present disclosure is not limited to the disclosed forms. On the contrary, it is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the present disclosure.
Number | Date | Country | Kind |
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10-2019-0123905 | Oct 2019 | KR | national |