FUEL ENRICHMENT SIMPLE STARTING DEVICE AND METHOD OF CARBURETOR

Abstract

This present invention relates to the field of carburetor, in particular, relates to a fuel enrichment simple starting device and method of carburetor, using pre-injection technology to achieve engine fuel enrichment start, That is, in the first step squeeze the purge bulb, pre-inject the quantitative fuel, and then use the choke of the large volume air to achieve simple start, steps: the first step, squeeze the purge bulb; the second step, close the choke; the third step, pull the engine starter to the engine running; the fourth step, increase and decrease the throttle to normal running. If using the fuel enrichment simple starting device and method of carburetor in the present invention, the engine can be started completely by above four steps, the starting device has the advantages of simple operation, less starting times and easy to start at low temperature (such as 0 C.).

Claims

1. A fuel enrichment simple starting device of carburetor, comprising a fuel pump chamber, a metering chamber, a purge bulb, a throttle bore, a choke and a fuel pump diaphragm, wherein the starting device comprise three fuel circuits connected to the fuel enrichment chamber, the three fuel circuits are an fuel inlet passage, a fuel purge passage and a fuel enrichment starting passage respectively.

2. The fuel enrichment simple starting device of carburetor of claim 1, wherein the bottom of the purge bulb has a prime force transmission passage leading into the fuel pump chamber.

3. The fuel enrichment simple starting device of carburetor of claim 1, wherein one side of the fuel pump diaphragm is provided with a fuel enrichment chamber.

4. The fuel enrichment simple starting device of carburetor of claim 1, wherein the inlet of the fuel inlet passage is provided with a check valve with the spring.

5. The fuel enrichment simple starting device of carburetor of claim 1, wherein the fuel enrichment starting passage is provided with a check valve with a metering jet.

6. The fuel enrichment simple starting device of carburetor of claim 5, wherein the check valve with a metering jet is provided with a spring.

7. The fuel enrichment simple starting device of carburetor of claim 1, wherein the fuel enrichment starting passage is also provided with a pressure balance hole and connect with the air of the choke direction.

8. The fuel enrichment simple starting device of carburetor of claim 1, wherein a venturi is provided between the throttle bore and the choke bore.

9. The fuel enrichment simple starting device of carburetor of claim 1, wherein the fuel pump diaphragm forms a pump with a check valve with the spring and a check valve with a metering jet.

10. The fuel enrichment simple starting device of carburetor of claim 1, wherein a separated remote control structure is used between the Purge bulb and the main body of the carburetor, the purge bulb and the main body of the carburetor are connected by a fuel tube.

11. The fuel enrichment simple starting method of carburetor, comprising the following steps: First step, squeeze the purge bulb, pre-inject the quantitative fuel; Second step, close the choke; Third step, pull the engine starter to the engine running; Fourth step, increase and decrease the throttle to normal running.

12. The fuel enrichment simple starting method of carburetor of claim 11, wherein the first step, when the operator squeezes the (fuel cup) purge bulb, a positive pressure is generated during the pressing operation, and a negative pressure is generated during the releasing operation, and use the positive pressure generated when squeeze the purge bulb, pre-inject the quantitative fuel into the throttle bore.

13. The fuel enrichment simple starting method of carburetor of claim 11, wherein the bottom of the purge bulb has a prime force transmission passage leading into the fuel pump chamber, the positive pressure and the negative pressure are introduced into the fuel pump chamber to drive the fuel pump diaphragm to produce reciprocating movement, when the operator squeezes the purge bulb, the air of carburetor will be discharged out through a fuel purge passage, and a portion of the fuel will enter the fuel pump chamber through the prime force transmission passage at the bottom of the purge bulb, the fuel pump diaphragm drives the fuel in the fuel enrichment chamber, the fuel is ejected from the check valve with a metering jet of the fuel enrichment starting passage.

14. The fuel enrichment simple starting method of carburetor of claim 11, wherein when the operator releases the purge bulb, a negative pressure generated by the purge bulb, and the fuel in the fuel container is sucked into the metering chamber of the carburetor, the excess fuel enters the fuel enrichment chamber and the fuel purge passage of the carburetor, so repeatedly, the fuel is injected into the throttle bore of the carburetor from the fuel enrichment starting passage.

15. The fuel enrichment simple starting method of carburetor of claim 11, wherein when the operator squeezes the purge bulb, the start fuel under the pressure of the fuel pump diaphragm is injected into the carburetor through the check value of the fuel enrichment starting passage, the check valve of the fuel inlet passage is closed at this time.

16. The fuel enrichment simple starting method of carburetor of claim 11, wherein when the operator releases the purge bulb, the self-resilience of the purge bulb forms a negative pressure against the fuel pump diaphragm, at this time the check valve of the fuel inlet passage is opened, and suck in the fuel, the check valve with a metering jet of the fuel enrichment starting passage is closed, the fuel cavity is filled with fuel, to prepare for the second fuel injection cycle.

17. The fuel enrichment simple starting method of carburetor of claim 15, wherein when the operator releases the purge bulb, the self-resilience of the purge bulb forms a negative pressure against the fuel pump diaphragm, at this time the check valve of the fuel inlet passage is opened, and suck in the fuel, the check valve with a metering jet of the fuel enrichment starting passage is closed, the fuel cavity is filled with fuel, to prepare for the second fuel injection cycle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0030] FIG. 1 is a schematic view of optimal embodiment in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor.

[0031] FIG. 2 is a rear view of the embodiment of FIG. 1 in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor.

[0032] FIG. 3 is a left view of the embodiment of FIG. 1 in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor.

[0033] FIG. 4 is a top view removing the purge bulb and pump cover of the embodiment of FIG. 1 in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor.

[0034] FIG. 5 is a A-A section view of the embodiment of FIG. 1 in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor.

[0035] FIG. 6 is a B-B section view of the embodiment of FIG. 1 in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor.

[0036] FIG. 7 is a C-C section view of the embodiment of FIG. 2 in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor.

[0037] FIG. 8 is a D-D section view of the embodiment of FIG. 1 in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor.

[0038] FIG. 9 is a E-E section view of the embodiment of FIG. 3 in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor.

[0039] FIG. 10 is a F-F section view of the embodiment of FIG. 4 in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor.

[0040] FIG. 11 is a structure schematic view of optimal embodiment in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor.

NUMBER DESCRIPTION IN THE DRAWINGS

[0041] Fuel pump chamber 1, Metering chamber 2, Purge bulb 3, Check valve 4, throttle bore 5, Choke 6, Venturi 7, Fuel pump diaphragm 8, Fuel inlet passage 9, (Pump power) Prime force transmission passage 10, Check valve with a metering jet 11, Fuel enrichment chamber 12, Fuel enrichment starting passage 13, Fuel purge passage 14, Pressure balance hole 15, Fuel tube 16.

DETAILED DESCRIPTION

[0042] In order to understand the present invention better and clearly, a detail description with embodiment s is provided. But the present invention will be apparent various changes and modifications without exceeding the broader spirit and scope of the present invention as defined by claims. However, the following embodiments are just used to explain, and not limit the present invention.

Embodiment 1

[0043] As shown in FIGS. 1-7, a schematic view of optimal embodiment in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor. The fuel enrichment simple starting device of carburetor in the present invention, comprising a fuel pump chamber 1, a metering chamber 2, a Purge bulb 3, a throttle bore 5, a choke 6 and a fuel pump diaphragm 8, the starting device comprise three fuel circuit connected to the fuel enrichment chamber 12, the three fuel circuit are an fuel inlet passage 9, a fuel purge passage 14 (as show in FIG. 10) and a fuel enrichment starting passage 10 respectively. When squeeze the purge bulb, pre-inject the quantitative fuel, and then use the choke of the large volume air to achieve simple start. The starting device has the advantages of simple operation, less starting times and low temperature (such as 0 C.) easy to start.

[0044] As shown in FIG. 6, a B-B section view of the embodiment of FIG. 1 in accordance to the invention, the fuel enrichment simple starting device and method of carburetor.

[0045] In the embodiment, one side of the fuel pump diaphragm 8 is provided with a fuel enrichment chamber 12.

[0046] As shown in FIG. 7, a C-C section view of the embodiment of FIG. 2 in accordance to the invention, the fuel enrichment simple starting device and method of carburetor.

[0047] In the embodiment, the bottom of the purge bulb 3 has a hole connecting with the fuel pump chamber 1, the positive pressure and the negative pressure are introduced into the fuel pump chamber 1 to drive the fuel pump diaphragm 8 to produce reciprocating movement, when the operator squeezes the purge bulb 3, the air of carburetor will be discharged out through a fuel purge passage 14, and a portion of the fuel will enter the fuel pump chamber 1 through the (pump power) prime force transmission passage 10 at the bottom of the purge bulb 3, the fuel pump diaphragm 8 drives the fuel in the fuel enrichment chamber 12, the fuel is ejected from the check valve with a metering jet 11 of the fuel enrichment starting passage.

[0048] In the embodiment, the inlet of the fuel inlet passage 9 is provided with a check valve 4 with the spring.

[0049] In the embodiment, the fuel enrichment starting passage 13 is provided with a check valve with a metering jet 11. The fuel in the fuel enrichment chamber 12 go through the check valve with a metering jet 11 into the throttle bore 5 of carburetor, and the aperture flow of the different engine metering jet may be different, depending on the match of the carburetor, as well, by changing the shape, diameter or depth of the fuel enrichment chamber 12 to change the amount of fuel pump, the engine can be matched by above means, but not limited by the above.

[0050] In the embodiment, the check valve with a metering jet 11 is provided with a spring.

[0051] In the embodiment, the fuel enrichment starting passage 13 is also provided with a pressure balance hole 15 and connects with the air of the choke direction, the purpose is to avoid the engine in the normal work to generate the negative pressure, actively suck out the fuel from the starting fuel enrichment chamber of carburetor.

[0052] As shown in FIG. 8, a D-D section view of the embodiment of FIG. 1 in accordance to the invention, the fuel enrichment simple starting device and method of carburetor.

[0053] In the embodiment, a venturi 7 is provided between the throttle bore 5 and the choke 6.

[0054] In the embodiment, the fuel pump diaphragm 8 forms a pump with the fuel inlet passage 9 and the check valve in the fuel enrichment starting passage 13 (as shown in FIG. 7). When the operator squeezes the purge bulb 3, the start fuel under the pressure of the fuel pump diaphragm 8 is injected into the carburetor through the check value of the fuel enrichment starting passage 13, the check valve 4 of the fuel inlet passage 9 is closed at this time; when the operator releases the purge bulb 3, the self-resilience of the purge bulb 3 forms a negative pressure against the fuel pump diaphragm, at this time the check valve of the fuel inlet passage 9 is opened, and suck in the fuel, the check valve with a metering jet 11 of the fuel enrichment starting passage 13 is closed, the fuel cavity is filled with fuel, to prepare for the second fuel injection cycle.

[0055] The working principle of the fuel enrichment simple starting device of carburetor in the present invention, when the operator squeezes the purge bulb, a positive pressure is generated during the pressing operation, and a negative pressure is generated during the releasing operation, the bottom of the purge bulb has a hole connecting with the fuel pump chamber 1, the positive pressure and the negative pressure are introduced into the fuel pump chamber 1 to drive the fuel pump diaphragm 8 to produce reciprocating movement. When the operator squeezes the purge bulb, the air of carburetor will be discharged out through a fuel purge passage 14, and a portion of the fuel will enter the fuel pump chamber 1 through the prime force transmission passage 10 at the bottom of the purge bulb 3, the fuel pump diaphragm 8 drives the fuel in the fuel enrichment chamber 12, the fuel is ejected from the check valve with a metering jet 11 of the fuel enrichment starting passage 13; when the operator releases the purge bulb 3, a negative pressure generated by the purge bulb 3, and the fuel in the fuel container is sucked into the (measuring) metering chamber 2 of the carburetor, the excess fuel enters the fuel enrichment chamber 12 and the fuel purge passage 14 (as shown in FIG. 10) of the carburetor, so repeatedly, the fuel is injected into the throttle bore 5 of the carburetor from the fuel enrichment starting passage 13.

[0056] The fuel enrichment simple starting method of carburetor, comprising the following steps: [0057] First step, squeeze the purge bulb, pre-inject the quantitative fuel; [0058] Second step, close the choke; [0059] Third step, pull the engine starter to the engine running; [0060] Fourth step, increase and decrease the throttle to normal running.

[0061] The starting method has the advantages of simple operation, less starting times and easy to start at low temperature (such as 0 C.).

[0062] Squeeze the purge bulb, that is a standard step when the engine starts, the purpose is to suck the fuel of the fuel container into the metering chamber 2 of the carburetor, after the metering chamber 2 of carburetor is filled with fuel, more fuel will through the fuel purge passage 14, and return to the fuel container by the duckbill check valve.

[0063] In the embodiment, the first step, when the operator squeezes the purge bulb, a positive pressure is generated during the pressing operation, and a negative pressure is generated during the releasing operation, and use the positive pressure generated when squeeze the purge bulb, pre-inject the quantitative fuel into the throttle bore 5, and then use the choke of the large volume air to achieve simple start.

[0064] In the embodiment, the bottom of the purge bulb 3 has a prime force transmission passage 10 leading into the fuel pump chamber 1, the positive pressure and the negative pressure are introduced into the fuel pump chamber 1 to drive the fuel pump diaphragm 8 to produce reciprocating movement, when the operator squeezes the purge bulb 3, the air of carburetor will be discharged out through a fuel purge passage 14, and a portion of the fuel will enter the fuel pump chamber 1 through the (pump power) prime force transmission passage 10 at the bottom of the purge bulb 3, the fuel pump diaphragm 8 drives the fuel in the fuel enrichment chamber 12, the fuel is ejected from the check valve with a metering jet 11 of the fuel enrichment starting passage 13.

[0065] In the embodiment, when the operator releases the purge bulb 3, a negative pressure generated by the purge bulb 3, and the fuel in the fuel container is sucked into the metering chamber 2 of the carburetor, the excess fuel enters the fuel enrichment chamber 12 and the fuel purge passage 14 of the carburetor, so repeatedly, the fuel is injected into the throttle bore 5 of the carburetor from the fuel enrichment starting passage 13 to achieve start.

[0066] In the embodiment, when the operator squeezes the purge bulb 3, the start fuel under the pressure of the fuel pump diaphragm 8 is injected into the carburetor through the check value of the fuel enrichment starting passage 13; the check valve 4 of the fuel inlet passage 9 is closed at this time.

[0067] In the embodiment, when the operator releases the purge bulb 3, the self-resilience of the purge bulb 3 forms a negative pressure against the fuel pump diaphragm, at this time the check valve of the fuel inlet passage 9 is opened, and suck in the fuel, the check valve with a metering jet 11 of the fuel enrichment starting passage 13 is closed, the fuel cavity is filled with fuel, to prepare for the second fuel injection cycle.

[0068] In the embodiment, the choke 6 is a choke of the large volume air, compared with the present technique, the choke panel area is small, increase air volume, and the size of the choke panel depends on the matching of the different engines. Increasing air volume when the engine start, compared with the present technique, the user do not need to manually open the choke to position, to achieve preheat engine.

Embodiment 2

[0069] Another structure schematic view of optimal embodiment in accordance to the present invention, the fuel enrichment simple starting device and method of carburetor; a separated remote control structure is used between the purge bulb 3 and the main body of the carburetor, the purge bulb 3 and the main body of the carburetor are connected by a Fuel tube 16. Other structures and operations are same with the first embodiment, and therefore, the description will be omitted.

[0070] In summary, the fuel enrichment simple starting device and method of carburetor in the invention has the following advantages: use pre-injection technology to achieve engine fuel enrichment start, that is, in the first step squeeze the purge bulb, pre-inject the quantitative fuel, and then use the choke of the large volume air to achieve simple start; simple operation, less starting times and easy to start at low temperature (such as 0 C.).

[0071] Specific embodiments described above, the technical problem solved by the present invention, technical solutions, and beneficial effects were further explanation. It should be understood that the above description is only the specific embodiments of the present invention, and not limit the invention, within the spirit and principles of the present invention, made any modifications, equivalent replacements and improvements; they should be included in the scope of the invention as defined by claims.