Service Manual

ManualsBrandsToro ManualsSnowthrowersSnow Pup

101

102

103

104

105

106

107

108

109

110

Single Stage Snowthrower Service Manual 9 - 9

GAS POWER SHOVEL

At a point of piston travel slightly before bottom dead

center (BBDC) the fuel transfer ports, on the sides of

the cylinder walls, are uncovered and the compressed

fuel/air mixture in the crankcase is allowed to enter the

combustion chamber where they help expel the burnt

gases and charge the chamber for the following piston

stroke. Refer to Figure 201.

Figure 201 0530-05

Fuel System

Diaphragm Carburetor Theory

The Toro Gas Power Shovel is equipped with a Walbro

WTA-2 Diaphragm Carburetor. The Walbro Carburetor

operates on pressure differentials or alternating

pressure – vacuum pulses.

As the engine’s recoil starter is pulled, piston

movement in the cylinder causes the carburetor fuel

pump diaphragm to fluctuate.

Diaphragm movement causes fuel to be drawn from

the gas tank through the fuel inlet valve in the fuel

pump diaphragm. The fuel inlet valve opens during a

pressure pulse to allow fuel flow to the fuel outlet valve

in the pump diaphragm which is closed during a

pressure pulse.

As a vacuum pulse is developed within the carburetor,

the fuel inlet valve closes and the outlet valve opens,

which allows fuel to flow through the filter screen to the

metering chamber.

During the vacuum pulse, the metering diaphragm is

drawn up which causes the metering lever to pivot on

the metering lever pin. This in turn, causes the inlet

needle to lift off of the seat which allows fuel to flow to

the metering chamber. As the metering chamber fills

with fuel, spring pressure on the metering lever closes

the needle valve. Refer to Figure 204 to Figure 214.

Engine vacuum pulses then draw fuel up through the

nozzle check valve and the nozzle well and forces the

fuel into the carburetor throat. Increased air velocity at

the nozzle which is created by the venturi, develops a

low pressure area and atmospheric pressure pushes

fuel into the throttle bore to deliver the fuel to the

crankcase.

CARBURETOR ADJUSTMENT

Adjusting Carburetor

The carburetor has been adjusted at the factory, but an

adjustment may be required to compensate the

differences in fuel, temperature, and altitude.

1. Mixture Adjustment Screw (Figure 202) – Close

the screw by gently rotating it clockwise until a

slight seating resistance is felt. Next, rotate the

mixture adjusting screw one turn

counterclockwise.

IMPORTANT: Do not close the screw too tight

because the screw and seat will likely be

damaged.

Figure 202 0406-019