CN201635843U - Double-cylinder engine throttle valve of electronic fuel injection motorcycle - Google Patents

Abstract

Disclosed is a double-cylinder engine throttle valve of an electronic fuel injection motorcycle. A valve body is provided with a first main air inlet passage and a second main air inlet passage. A door plate is arranged in each main air inlet passage and divides the interior of the corresponding main air inlet passage into a front cavity and a rear cavity, a crossbeam is disposed above the first main air inlet passage and the second main air inlet passage, an air supply guide passage is disposed in the crossbeam, one end of the air supply guide passage is communicated with the rear cavity of the first main air inlet passage through a first shunt passage, the other end of the air supply guide passage is communicated with the rear cavity of the second main air inlet passage through a second shunt passage, the air supply guide passage is further communicated with the front cavity of the first main air inlet passage via a main air supply passage, the cross beam is connected with a boss, an idling bypass control valve is disposed in the boss, and a valve head of the idling bypass control valve can radially extend into the main air supply passage. The double-cylinder engine throttle valve not only is easy in processing and manufacturing and lower in cost, is large in adjustment range of air flow, can accurately control quantity of air supplied to the rear cavities of the two main air inlet passages, and is favorable for balancing air supply quantity of the rear cavities of the two main air inlet passages.

Description

Motorcycle with electronic fuel injection system twin cylinder engine closure

Technical field

The utility model relates to a kind of motorcycle member, particularly the twin cylinder engine closure on the motorcycle with electronic fuel injection system.

Background technique

Motorcycle with electronic fuel injection system adopts engine management control system-EMS to replace air inlet, fuel feeding and combustion process that traditional Carburetor is controlled motor.Closure is the device of electronic fuel injection engine control gas handling system, and the main effect of closure is: by changing throttle position sensor, make motor have desirable air inflow under different rotating speeds, make it be issued to best air fuel ratio at various work condition states.Closure is installed on the motor, is used for controlling the air inflow (being commonly called as throttle) that enters the firing chamber, and the aperture of throttle position sensor is big more, and air inlet is many more, and engine speed is high more.By changing the aperture of throttle, can reach the purpose of control engine speed height.

At present, the closure of twin cylinder engine generally is made of parts such as valve body, door sheet, door-hinge, throttle position sensor, cable quadrant, spring, idle adjusting screw and throttle limiting boards, two main air intakes wherein have been arranged side by side on the valve body, be provided with a sheet in each main air intake, two interior door sheets of main air intake are installed on the same door-hinge, one end of this door-hinge is installed throttle position sensor, the other end mounting spring, idle adjusting screw and cable quadrant.The throttle limiting board is mainly used to fixedly throttle drag-line, and throttle all can make drag-line that rational backguy stroke is arranged when any aperture.Described door sheet is separated into two chambeies, front and back with the inside of corresponding main air intake, is communicated with by air supply passage between the front/back cavity of same main air intake, and flow adjustment screw all is housed on each air supply passage.The air part of each main air intake ante-chamber of above structure flows to back cavity by the gap between door sheet and the main air intake chamber wall, and another part flows to back cavity by air supply passage, and the size of air supply passage flow is controlled by flow adjustment screw.The existing deficiency of tradition closure is:

1, the diameter of air supply passage is too little, has only about 2mm, and to the requirement height of machining accuracy, machining, detection debug difficulties can increase cost of production on the one hand; On the other hand, too little to the regulation range of gas flow, tonifying Qi effect during startup especially when the low temperature environment startup needs a large amount of tonifying Qi, is difficult to satisfy needed air inflow requirement.

2, what of air compensation two air supply passages screw adjusted air compensation by separately can't detect, and when the engine thermal machine because the air compensation deficiency can cause unstable idle speed, start situations such as difficulty.In addition, all influential to Finished Motorcycle of motorcycle performance, driving and discharging.

The model utility content

Technical problem to be solved in the utility model is to provide a kind of motorcycle with electronic fuel injection system twin cylinder engine closure that can accurately control air compensation.

The technical solution of the utility model is as follows: a kind of motorcycle with electronic fuel injection system twin cylinder engine closure, comprise valve body, the door sheet, door-hinge and idling bypass control valve (BCV), first main air intake and second main air intake wherein have been arranged side by side on the valve body, be equipped with a sheet in each main air intake, before this sheet is separated into the inside of corresponding main air intake, two chambeies, back, described first, the top of second main air intake is provided with crossbeam, have the tonifying Qi sluice way in this crossbeam, one end of described tonifying Qi sluice way is communicated with the back cavity of first main air intake by first runner, the other end of tonifying Qi sluice way is communicated with the back cavity of second main air intake by second runner, and the tonifying Qi sluice way also communicates with the ante-chamber of first main air intake by main tonifying Qi road; Be connected with boss on described crossbeam, the idling bypass control valve (BCV) is housed in this boss, the valve head of described idling bypass control valve (BCV) can upwards stretch in the main tonifying Qi road from the footpath.

The utility model is provided with crossbeam above first, second main air intake, crossbeam works to increase join strength between first main air intake and second main air intake on the one hand, on the other hand, tonifying Qi sluice way in the crossbeam communicates with the back cavity of two main air intakes respectively by first runner and second runner, like this in the idling tonifying Qi, air in the first main air intake ante-chamber enters the tonifying Qi sluice way by main tonifying Qi road, is distributed to the back cavity of two main air intakes respectively by first, second runner by the tonifying Qi sluice way again.The valve head of idling bypass control valve (BCV) can freely stretch, and upwards stretches in the main tonifying Qi road from the footpath, controls what of air compensation by the idling bypass control valve (BCV).Because the flexible at every turn step angle of idling bypass control valve (BCV) is constant, therefore can accurately control to two main air intake back cavities mend into air quantity, to guarantee the best air inflow of motor under each rotating speed, Finished Motorcycle of motorcycle performance, driving and discharging have effectively been improved.

The diameter in described main tonifying Qi road is 7.9～8.1mm, and the diameter of tonifying Qi sluice way is 6.5～7.5mm, and the diameter of first runner and second runner is 6.5～7.5mm.Above structure is lower to the requirement of machining accuracy, and machining is easy, and it is convenient to detect debugging; And the aperture of each passage is bigger, and is also big to the regulation range of gas flow, can improve the effect of idling tonifying Qi, the tonifying Qi requirement when being particularly useful for motorcycle and starting under low temperature environment.

For convenience processing makes gas flow more smooth and easy, and described first runner and second runner all are obliquely installed, and this runner is 45～55 ° with angle between the corresponding main air intake.

Footpath at described first runner upwards has the flow equilibrium adjustment hole, and this flow equilibrium adjustment hole is connected with first runner, and in the flow equilibrium adjustment hole flow adjustment screw is installed.Flow adjustment screw can be regulated the gas flow that passes through from first runner.Because entering the gas of tonifying Qi sluice way from main tonifying Qi road is certain, the gas flow that passes through when first runner is little, and then the gas flow that passes through of second runner is big; Otherwise the gas flow that passes through when first runner is big, and then the gas flow that passes through of second runner is little.Like this by same flow adjustment screw can two main air intake back cavities of balance air compensation, not only simple, convenient, and control is reliable, and air compensation what can accurately detect, unstable idle speed when having eliminated the engine thermal machine, start disadvantage such as difficulty,

Processing reduces cost for convenience, and valve body, crossbeam and boss are monolithic construction.

Beneficial effect: the utility model distributes by same main tonifying Qi road air inlet and then to the back cavity of two main air intakes, the each several part aperture of air supply passage is bigger, not only be easy to manufacturing, cost is lower, and it is big to the regulation range of gas flow, can accurately control to two main air intake back cavities mend into air quantity, the air compensation that helps two main air intake back cavities of balance, and it is simple to operate, good reliability, guaranteed the best air inflow of motor under each rotating speed, effectively improved the Finished Motorcycle of motorcycle performance, driving and discharging are specially adapted to the tonifying Qi requirement under low temperature environment.

Description of drawings

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

Fig. 2 is the A-A sectional view behind the dismounting flow adjustment screw among Fig. 1.

Embodiment

The utility model is described in further detail below in conjunction with drawings and Examples:

As Fig. 1, shown in Figure 2, the utility model is by valve body 1, door sheet 2, door-hinge 3, flow adjustment screw 4, idling bypass control valve (BCV) 5, throttle position sensor 6, cable quadrant 7, parts such as spring 8 and throttle limiting board 9 constitute, the first main air intake 1a and the second main air intake 1b wherein have been arranged side by side on the valve body 1, middle part in each main air intake is equipped with a sheet 2, two interior door sheets 2 of main air intake are installed on the same door-hinge 3, one end of this door-hinge 3 is installed throttle position sensor 6, the other end mounting spring 8 and cable quadrant 9, the next door of cable quadrant 9 is provided with throttle limiting board 7.The setting type of described door sheet 2, door-hinge 3, throttle position sensor 6, cable quadrant 7, spring 8 and throttle limiting board 9 is same as the prior art, does not do at this and gives unnecessary details.

As can be known, the door sheet 2 in each main air intake is separated into forward and backward two chambeies with the inside of corresponding main air intake from Fig. 1, Fig. 2.Be provided with crossbeam 1c above described first, second main air intake 1a, 1b, this crossbeam 1c and valve body 1 are integral.In crossbeam 1c, have tonifying Qi sluice way 1d, tonifying Qi sluice way 1d horizontal arrangement, diameter is 6.5～7.5mm.The end of described tonifying Qi sluice way 1d is communicated with the back cavity of the first main air intake 1a by the first runner 1e, and the other end of tonifying Qi sluice way 1d is communicated with the back cavity of the second main air intake 1b by the second runner 1f.The diameter of the described first runner 1e is 6.5～7.5mm, and the first runner 1e is obliquely installed, and the angle between this first runner 1e and the first main air intake 1a is 45～55 °.Upwards have flow equilibrium adjustment hole 1i in the footpath of the described first runner 1e, this flow equilibrium adjustment hole 1i is connected with the first runner 1e, and among the flow equilibrium adjustment hole 1i flow adjustment screw 4 is installed, the head of flow adjustment screw 4 can stretch among the first runner 1e.

From Fig. 1 and in conjunction with Fig. 2 as can be known, the diameter of the described second runner 1f is 6.5～7.5mm, and the second runner 1f also is obliquely installed, and the angle between this second runner 1f and the second main air intake 1b is 45～55 °.Described tonifying Qi sluice way 1d communicates with the ante-chamber of the first main air intake 1a by main tonifying Qi road 1g near the position of the first runner 1e, and the diameter of main tonifying Qi road 1g is 7.9～8.1mm.Be connected with boss 1h on described crossbeam 1c, this boss 1h and valve body 1 are integral, and are positioned at the top of the first main air intake 1a.Idling bypass control valve (BCV) 5 is housed in boss 1h, and the valve head of idling bypass control valve (BCV) 5 can upwards stretch in the main tonifying Qi road 1g from the footpath.

Gas is as follows by principle of the present utility model:

The air of the second main air intake 1b ante-chamber flows to back cavity by the gap between the door sheet 2 and the second main air intake 1b chamber wall.The air part of the first main air intake 1a ante-chamber flows to back cavity by the gap between the door sheet 2 and the first main air intake 1a chamber wall, another part enters tonifying Qi sluice way 1d by main tonifying Qi road 1g, be divided into two-way then, one the road enters the back cavity of the first main air intake 1a from the first runner 1e, and another route second runner 1f enters the back cavity of the second main air intake 1b.What of air compensation are the distance that idling bypass control valve (BCV) 5 stretches into main tonifying Qi road 1g by its valve head accurately control, the air compensation that flow adjustment screw 4 comes two main air intake back cavities of balance to distribute by the distance that radially screws in the first runner 1e.

Claims (5)

1. motorcycle with electronic fuel injection system twin cylinder engine closure, comprise valve body (1), door sheet (2) and door-hinge (3), first main air intake (1a) and second main air intake (1b) wherein have been arranged side by side on the valve body (1), be equipped with a sheet (2) in each main air intake, before this sheet (2) is separated into the inside of corresponding main air intake, two chambeies, back, it is characterized in that: described first, second main air intake (the 1a, top 1b) is provided with crossbeam (1c), have tonifying Qi sluice way (1d) in this crossbeam (1c), one end of described tonifying Qi sluice way (1d) is communicated with the back cavity of first main air intake (1a) by first runner (1e), the other end of tonifying Qi sluice way (1d) is communicated with the back cavity of second main air intake (1b) by second runner (1f), and tonifying Qi sluice way (1d) also communicates by the ante-chamber of main tonifying Qi road (1g) with first main air intake (1a); Be connected with boss (1h) on described crossbeam (1c), idling bypass control valve (BCV) (5) is housed in this boss (1h), the valve head of described idling bypass control valve (BCV) (5) can upwards stretch in the main tonifying Qi road (1g) from the footpath.

2. motorcycle with electronic fuel injection system twin cylinder engine closure according to claim 1, it is characterized in that: the diameter in described main tonifying Qi road (1g) is 7.9～8.1mm, the diameter of tonifying Qi sluice way (1d) is 6.5～7.5mm, and the diameter of first runner (1e) and second runner (1f) is 6.5～7.5mm.

3. motorcycle with electronic fuel injection system twin cylinder engine closure according to claim 1 and 2 is characterized in that: described first runner (1e) and second runner (1f) all are obliquely installed, and each runner is 45～55 ° with angle between the corresponding main air intake.

4. motorcycle with electronic fuel injection system twin cylinder engine closure according to claim 3, it is characterized in that: upwards have flow equilibrium adjustment hole (1i) in the footpath of described first runner (1e), this flow equilibrium adjustment hole (1i) is connected with first runner (1e), and in the flow equilibrium adjustment hole (1i) flow adjustment screw (4) is installed.

5. motorcycle with electronic fuel injection system twin cylinder engine closure according to claim 1 is characterized in that: described valve body (1), crossbeam (1c) and boss (1h) are monolithic construction.

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