An evaporative fuel treatment apparatus includes a fuel tank, a fuel pump, an adsorber, a purge mechanism, a supercharger and an electronic control unit. The fuel pump is configured to draw fuel that is supplied from the fuel tank to the internal combustion engine. The adsorber is provided inside th
An evaporative fuel treatment apparatus includes a fuel tank, a fuel pump, an adsorber, a purge mechanism, a supercharger and an electronic control unit. The fuel pump is configured to draw fuel that is supplied from the fuel tank to the internal combustion engine. The adsorber is provided inside the fuel tank and configured to adsorb evaporative fuel developed inside the fuel tank. The purge mechanism is configured to carry out purging for introducing fuel, desorbed from the adsorber, into an intake pipe of the internal combustion engine. The supercharger is configured to feed air into the intake pipe. The electronic control unit is configured to increase an amount of heat that is transferred from the fuel pump to the adsorber on the condition that an intake negative pressure in the intake pipe is higher than a predetermined threshold.
대표청구항▼
1. An evaporative fuel treatment apparatus comprising: a fuel tank configured to store fuel for an internal combustion engine;a fuel pump configured to draw fuel that is supplied from the fuel tank to the internal combustion engine;an adsorber provided inside the fuel tank and configured to adsorb e
1. An evaporative fuel treatment apparatus comprising: a fuel tank configured to store fuel for an internal combustion engine;a fuel pump configured to draw fuel that is supplied from the fuel tank to the internal combustion engine;an adsorber provided inside the fuel tank and configured to adsorb evaporative fuel developed inside the fuel tank;a purge mechanism configured to carry out purging for introducing fuel, desorbed from the adsorber, into an intake pipe of the internal combustion engine;a supercharger configured to feed air into the intake pipe; andan electronic control unit operatively connected to the fuel pump, the electronic control unit is configured to control the fuel pump to increase an amount of heat that is transferred from the fuel pump to the adsorber on a condition that an intake negative pressure in the intake pipe is higher than a predetermined threshold. 2. The evaporative fuel treatment apparatus according to claim 1, wherein the purge mechanism includes a solenoid valve configured to change an opening degree of a purge line that communicates an inside of the adsorber with an inside of the intake pipe,the evaporative fuel treatment apparatus further comprises a negative pressure sensor provided downstream of the solenoid valve in the purge line, andthe electronic control unit is configured to determine whether the intake negative pressure in the intake pipe is higher than the predetermined threshold on the basis of a negative pressure measured by the negative pressure sensor. 3. The evaporative fuel treatment apparatus according to claim 1, wherein the purge mechanism includes a solenoid valve configured to change an opening degree of a purge line that communicates an inside of the adsorber with an inside of the intake pipe and a check valve provided downstream of the solenoid valve in the purge line, the check valve being configured to open when the intake negative pressure in the intake pipe is higher than the predetermined threshold and close when the intake negative pressure in the intake pipe is not higher than the predetermined threshold,the check valve is configured to generate a different signal between a valve open state and a valve closed state, andthe electronic control unit is configured to determine whether the intake negative pressure in the intake pipe is higher than the predetermined threshold on the basis of the signal generated by the check valve. 4. The evaporative fuel treatment apparatus according to claim 1, wherein the electronic control unit is configured to control the fuel pump to increase the amount of heat that is transferred from the fuel pump to the adsorber via the fuel. 5. The evaporative fuel treatment apparatus according to claim 4, wherein the electronic control unit is configured to control the fuel pump to increase the amount of heat that is transferred from the fuel pump to the adsorber via fuel discharged from the fuel pump. 6. The evaporative fuel treatment apparatus according to claim 1, wherein the electronic control unit is configured to increase a driving force of the fuel pump to increase the amount of heat that is transferred from the fuel pump to the adsorber. 7. The evaporative fuel treatment apparatus according to claim 1, further comprising: a suction line connected to the fuel pump and configured to introduce fuel from the fuel tank, a part of the suction line passing through an inside of the adsorber. 8. The evaporative fuel treatment apparatus according to claim 7, wherein the part of the suction line is formed such that a contact area of the part of the suction line with an adsorbent of the adsorber increases. 9. The evaporative fuel treatment apparatus according to claim 1, further comprising: a fuel supply line configured to supply fuel from the fuel tank to the internal combustion engine, a part of the fuel supply line passing through an inside of the adsorber. 10. The evaporative fuel treatment apparatus according to claim 9, wherein the part of the fuel supply line is formed such that a contact area of the part of the fuel supply line with an adsorbent of the adsorber increases. 11. The evaporative fuel treatment apparatus according to claim 1, further comprising: a fuel supply line configured to supply fuel from the fuel tank to the internal combustion engine; anda return line branched off from the fuel supply line and opening near an inner bottom portion of the fuel tank, a part of the return line passing through an inside of the adsorber. 12. The evaporative fuel treatment apparatus according to claim 11, wherein the part of the return line is formed such that a contact area of the part of the return line with an adsorbent of the adsorber increases. 13. An evaporative fuel treatment apparatus comprising: a fuel tank configured to store fuel for an internal combustion engine;a fuel pump configured to draw fuel that is supplied from the fuel tank to the internal combustion engine;an adsorber provided inside the fuel tank and configured to adsorb evaporative fuel developed inside the fuel tank;a purge mechanism configured to carry out purging for introducing fuel, desorbed from the adsorber, into an intake pipe of the internal combustion engine, the purge mechanism includes a solenoid valve configured to change an opening degree of a purge line that communicates an inside of the adsorber with an inside of the intake pipe;a negative pressure sensor provided downstream of the solenoid valve in the purge line, the negative pressure sensor measures a negative pressure;a supercharger configured to feed air into the intake pipe; andan electronic control unit configured to increase an amount of heat that is transferred from the fuel pump to the adsorber on a condition that an intake negative pressure in the intake pipe is higher than a predetermined threshold, the electronic control unit is configured to determine whether the intake negative pressure in the intake pipe is higher than the predetermined threshold on the basis of the negative pressure measured by the negative pressure sensor. 14. The evaporative fuel treatment apparatus according to claim 13, wherein the electronic control unit is configured to control the fuel pump to increase the amount of heat that is transferred from the fuel pump to the adsorber via the fuel. 15. The evaporative fuel treatment apparatus according to claim 14, wherein the electronic control unit is configured to control the fuel pump to increase the amount of heat that is transferred from the fuel pump to the adsorber via fuel discharged from the fuel pump. 16. The evaporative fuel treatment apparatus according to claim 13, wherein the electronic control unit is configured to increase a driving force of the fuel pump to increase the amount of heat that is transferred from the fuel pump to the adsorber. 17. An evaporative fuel treatment apparatus comprising: a fuel tank configured to store fuel for an internal combustion engine;a fuel pump configured to draw fuel that is supplied from the fuel tank to the internal combustion engine;an adsorber provided inside the fuel tank and configured to adsorb evaporative fuel developed inside the fuel tank;a purge mechanism configured to carry out purging for introducing fuel, desorbed from the adsorber, into an intake pipe of the internal combustion engine, the purge mechanism includes a solenoid valve configured to change an opening degree of a purge line that communicates an inside of the adsorber with an inside of the intake pipe and a check valve provided downstream of the solenoid valve in the purge line, the check valve being configured to open when an intake negative pressure in the intake pipe is higher than a predetermined threshold and close when the intake negative pressure in the intake pipe is not higher than the predetermined threshold, the check valve is configured to generate a different signal between a valve open state and a valve closed state;a supercharger configured to feed air into the intake pipe; andan electronic control unit configured to increase an amount of heat that is transferred from the fuel pump to the adsorber on a condition that the intake negative pressure in the intake pipe is higher than the predetermined threshold, the electronic control unit is configured to determine whether the intake negative pressure in the intake pipe is higher than the predetermined threshold on the basis of the signal generated by the check valve. 18. The evaporative fuel treatment apparatus according to claim 17, wherein the electronic control unit is configured to control the fuel pump to increase the amount of heat that is transferred from the fuel pump to the adsorber via the fuel. 19. The evaporative fuel treatment apparatus according to claim 18, wherein the electronic control unit is configured to control the fuel pump to increase the amount of heat that is transferred from the fuel pump to the adsorber via fuel discharged from the fuel pump. 20. The evaporative fuel treatment apparatus according to claim 17, wherein the electronic control unit is configured to increase a driving force of the fuel pump to increase the amount of heat that is transferred from the fuel pump to the adsorber.
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이 특허에 인용된 특허 (9)
Hazama,Tadashi, Fuel supply system with a cooling plate.
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