A food mixing machine includes a mixer body including a column and a head extending from the column. A rotatable output member extends downward from the head for receiving a mixer tool. A bowl support is mounted for vertical movement along the column between a lowered position away from the head and a raised position toward the head. A drive assembly is linked to selectively drive the rotatable output member. A user interface, including a touch-screen display, is located on the mixer body. A controller is associated with the user interface, wherein the controller is configured to communicate mixing machine condition information via the touch-screen display.

Present Automatic machine for making flat edibles (1) mainly comprises of Dispensing module (2), Kneading Module (3), Dough-arm Module (4), Pressing Module (5), Flat edible arm Module (6), Baking Module (7), Electronic Module (8), Body and Structural parts (9). Said Dispensing module (2) is provided to dispense the raw materials for preparing the flat edibles wherein said raw materials generally, but not exclusively include flour, water and oil, said Kneading Module (3) is for kneading of raw materials dispensed, said Dough-arm Module (4) transfers the dough from Kneading module (3) to Pressing Module (5), said Pressing Module (5) facilitates in pressing the dough into flat round edible, said Flat edible arm Module (6) transfers flat round edible from the Pressing Module (5) to Baking Module (7) and Baking Module (7) to outside tray, said Electronic module (8) controls the working of present Automatic machine for making flat edibles (1).

An automatic bread maker includes a housing; a baking pan disposed inside the housing to mix or heat bread ingredients and disposed with an upwardly facing entrance; and a hanging rack disposed inside the housing that accommodates a bread ingredient box and a stock bin disposed below the hanging rack and above the upwardly facing entrance. The hanging rack is disposed with a sawtooth blade that faces upwardly to pierce the bread ingredient box and the stock bin is disposed with a drop opening that faces the upwardly facing entrance and that has a size that is smaller than that of the entrance so that, when the bread ingredient box is pierced, the bread ingredients drop down into the stock bin, and wherein a driver is further disposed to control opening and closing of a cover of the stock bin to discharge at least a portion of the bread ingredients.

An automatic bread maker includes a housing; a baking pan disposed inside the housing to mix or heat bread ingredients and disposed with an upwardly facing entrance; and a hanging rack disposed inside the housing that accommodates a bread ingredient box and a stock bin disposed below the hanging rack and above the upwardly facing entrance. The hanging rack is disposed with a sawtooth blade that faces upwardly to pierce the bread ingredient box and the stock bin is disposed with a drop opening that faces the upwardly facing entrance and that has a size that is smaller than that of the entrance so that, when the bread ingredient box is pierced, the bread ingredients drop down into the stock bin, and wherein a driver is further disposed to control opening and closing of a cover of the stock bin to discharge at least a portion of the bread ingredients.

A bread making method includes providing an automatic bread maker; providing a bread ingredient box and putting bread ingredients into a first accommodating room and packaging; placing an outer wall of the bread ingredient box face down on a hanging rack provided with a sawtooth blade above a baking pan inside the automatic break maker, causing the sawtooth blade to pierce the outer wall of the bread ingredient box and allowing the bread ingredients to drop into a stock bin for temporary storage, controlling covers of the stock bin to open as required, causing at least some of the bread ingredients to drop into the baking pan and adding water; processing the bread ingredients and the water into a working dough by mixing, stirring and kneading, to provide a first dough; resting, fermenting and degassing the first dough; heating and baking the first dough in the baking pan.

A bread making method includes providing an automatic bread maker; providing a bread ingredient box and putting bread ingredients into a first accommodating room and packaging; placing an outer wall of the bread ingredient box face down on a hanging rack provided with a sawtooth blade above a baking pan inside the automatic break maker, causing the sawtooth blade to pierce the outer wall of the bread ingredient box and allowing the bread ingredients to drop into a stock bin for temporary storage, controlling covers of the stock bin to open as required, causing at least some of the bread ingredients to drop into the baking pan and adding water; processing the bread ingredients and the water into a working dough by mixing, stirring and kneading, to provide a first dough; resting, fermenting and degassing the first dough; heating and baking the first dough in the baking pan.

The disclosure discloses a bevel planetary gear mechanism applied to a stand mixer, including a center bevel gear (2), a first bevel planetary gear (10), a second bevel planetary gear (3), a third bevel planetary gear (4), an internal bevel gear (5) and a bevel planetary gear bracket (11), wherein, the center bevel gear (2) is mounted on a spindle (1); the first bevel planetary gear (10), the second bevel planetary gear (3) and the third bevel planetary gear (4) are all engaged with the center bevel gear (2); the internal bevel gear (5) surrounds the first bevel planetary gear (10), the second bevel planetary gear (3) and the third bevel planetary gear (4) and are engaged with such three gears. By using the bevel planetary gear mechanism provided by the disclosure, the stand mixer has a pitched kneading hook, thereby improving the kneading effect of the stand mixer.

The disclosure discloses a bevel planetary gear mechanism applied to a stand mixer, including a center bevel gear (2), a first bevel planetary gear (10), a second bevel planetary gear (3), a third bevel planetary gear (4), an internal bevel gear (5) and a bevel planetary gear bracket (11), wherein, the center bevel gear (2) is mounted on a spindle (1); the first bevel planetary gear (10), the second bevel planetary gear (3) and the third bevel planetary gear (4) are all engaged with the center bevel gear (2); the internal bevel gear (5) surrounds the first bevel planetary gear (10), the second bevel planetary gear (3) and the third bevel planetary gear (4) and are engaged with such three gears. By using the bevel planetary gear mechanism provided by the disclosure, the stand mixer has a pitched kneading hook, thereby improving the kneading effect of the stand mixer.

A food mixing machine includes a mixer body including a column and a head extending from the column. A rotatable output member extends downward from the head for receiving a mixer tool. A bowl support is mounted for vertical movement along the column between a lowered position away from the head and a raised position toward the head. A drive assembly is linked to selectively drive the rotatable output member. A user interface, including a touch-screen display, is located on the mixer body. A controller is associated with the user interface, wherein the controller is configured to communicate mixing machine condition information via the touch-screen display.

A food mixing machine includes a mixer body including a column and a head extending from the column. A rotatable output member extends downward from the head for receiving a mixer tool. A bowl support is mounted for vertical movement along the column between a lowered position away from the head and a raised position toward the head. A drive assembly is linked to selectively drive the rotatable output member. A user interface, including a touch-screen display, is located on the mixer body. A controller is associated with the user interface, wherein the controller is configured to communicate mixing machine condition information via the touch-screen display.