A kneading element is rotary driven around a rotating shaft disposed in a bottom part in a pot to knead ingredients within the pot. The kneading element has a blade part that has a bottom surface circumferential edge that is substantially semi-elliptical, wherein an inclined surface is formed in a s
A kneading element is rotary driven around a rotating shaft disposed in a bottom part in a pot to knead ingredients within the pot. The kneading element has a blade part that has a bottom surface circumferential edge that is substantially semi-elliptical, wherein an inclined surface is formed in a side surface of the blade part, an erection surface is formed in a rotation direction back surface of the blade part, and the inclined surface is formed such that ingredients to be kneaded are rotated on the inclined surface. According to this configuration, because dough materials within the pot can be scooped up and rotated on the kneading element and furthermore flipped and tossed toward the inner circumferential surface of the pot, great pressure can be applied directly from the entire area of the inner circumferential surface of the pot to the dough material pressurized by the kneading element, whereby the entire area of the inner circumferential surface of the pot can be effectively used to knead the ingredients effectively.
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1. A kneading element of a kneader, which is rotary driven around a rotating shaft disposed in a bottom part in a pot, to knead ingredients within the pot, the kneading element comprising: a blade part having a bottom surface circumferential edge that is substantially semi-elliptical, whereinan incl
1. A kneading element of a kneader, which is rotary driven around a rotating shaft disposed in a bottom part in a pot, to knead ingredients within the pot, the kneading element comprising: a blade part having a bottom surface circumferential edge that is substantially semi-elliptical, whereinan inclined surface is formed in a side surface of the blade part,an erection surface is formed in a rotation direction back surface of the blade part, andthe kneading element rotates the ingredients to he kneaded on the inclined surface in a direction opposite to the rotation direction of the kneading element. 2. The kneading element of a kneader according to claim 1, wherein when the kneading element is sectioned along a plane surface that is orthogonal to the bottom surface of the blade part and includes the rotating shaft, a cross section of the inclined surface in a partial area from a rotation direction front side of the blade part to a rotation direction rear side of the blade part is in the shape of a curve bending on the bottom surface side of the blade part, and a curvature of the curve gradually decreases from the rotation direction front side to the rotation direction rear side. 3. The kneading element of a kneader according to claim 2, wherein the cross section of the inclined surface at a rotation direction rear end of the blade part is in the shape of a straight line or a curve bending on a side opposite to the bottom surface of the blade part. 4. The kneading element of a kneader according to claim 1, wherein projected parts are provided on a surface of the inclined surface. 5. A kneading element of a kneader, which is rotary driven around a rotating shaft disposed in a bottom part in a pot, to knead ingredients within the pot, the kneading element comprising: a first blade part and a second blade part, whereinthe first blade part and the second part are formed like being bonded with each other,the first blade part and the second blade part have bottom surface circumferential edges that are substantially semi-elliptical respectively,the length of a bottom surface straight line part of the first blade part is shorter than the length of a bottom surface straight line part of the second blade part,the first blade part and the second blade part are in contact with each other such that the bottom surface straight line parts of the first blade part and the second blade part hold, therebetween, a shaft center of the rotating shaft and a straight line passing through the shaft line, and such that a rotation direction rear end of a bottom surface curve part of the first blade part and a rotation direction front end of a bottom surface curve part of the second blade part are connected together in abutment to form a circular arc,a first inclined surface is formed in a side surface of the first blade part,a second inclined surface is formed in a side surface of the second blade part,an erection surface connected to a rotation direction front end of the first inclined surface is formed in a rotation direction back surface of the second blade part, andthe kneading element rotates the ingredients to be kneaded on the second inclined surface in a direction opposite to the rotation direction of the kneading element. 6. The kneading element of a kneader according to claim 5, wherein when the kneading element is sectioned along a plane surface that is orthogonal to a bottom surface of the second blade part and includes the rotating shaft, a cross section of the second inclined surface in a partial area from a rotation direction front side of the second blade part to a rotation direction rear side of the second blade part is in the shape of a curve bending on the bottom surface side of the second blade part, and a curvature of the curve gradually decreases from the rotation direction front side to the rotation direction rear side. 7. The kneading element of a kneader according to claim 6, wherein the cross section of the second inclined surface at a rotation direction rear end of the second blade part is in the shape of a straight line or a curve bending on a side opposite to the bottom surface of the second blade part. 8. The kneading element of a kneader according to claim 5, wherein projected parts are provided on a surface of the second inclined surface. 9. The kneading element of a kneader according to claim 5, wherein when the kneading element is sectioned along a plane surface that is orthogonal to a bottom surface of the first blade part and includes the rotating shaft, a cross section of the first inclined surface in a partial area from a rotation direction front side of the first blade part to a rotation direction rear side of the same is in the shape of a curve bending on the bottom surface side of the first blade part, and a curvature of the curve gradually decreases from the rotation direction front side to the rotation direction rear side. 10. The kneading element of a kneader according to claim 9, wherein the cross section of the first inclined surface at the rotation direction rear end of the first blade part is in the shape of a straight line or a curve bending on a side opposite to the bottom surface of the first blade part. 11. The kneading element of a kneader according to claim 5, wherein a projected part is provided on a surface of the first inclined surface. 12. A kneader, comprising: a pot;a kneading element for kneading ingredients within the pot; anddrive means for rotary driving the kneading element in a bottom part within the pot, whereinthe kneading element comprising:a blade part having a bottom surface circumferential edge that is substantially semi-elliptical, whereinan inclined surface is formed in a side surface of the blade part,an erection surface is formed in a rotation direction back surface of the blade part, andthe kneading element rotates the ingredients to be kneaded on the inclined surface in a direction opposite to the rotation direction of the kneading element. 13. A bread machine that can be installed with a kneading pot used for kneading ingredients for bread, and a baking pot used for baking kneaded dough mass of bread, wherein a kneading element attached in the kneading pot and kneading the ingredients for bread the kneading element comprising:a blade part having a bottom surface circumferential edge that is substantially semi-elliptical, whereinan inclined surface is formed in a side surface of the blade part,an erection surface is formed in a rotation direction back surface of the blade part, andthe kneading element rotates the ingredients to be kneaded on the inclined surface in a direction opposite to the rotation direction of the kneading element. 14. The bread machine according to claim 13, wherein the kneading pot and the baking pot are interchangeable. 15. The bread machine according to claim 13, wherein the kneading pot and the baking pot can be provided side-by-side.
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