This application provides an enhanced method and equipment for forging bow-shape Conjointed rake with one-piece steel. The methods of the present application include: S1: heating the rectangular blank to target temperature; S2: stamping the rectangular blank to mold rake tooth with rake handle blank reserved at both sides, and conduct cutting at the shoulder; S3: horizontally forging and stamping the rake handle blanks at both sides respectively to columnar; S4: heating the rake handle blank locally, stretching the rake handle blank with roll forging machine to mold rake handle, and bending the rake handle back in reverse to the rake tooth; S5: bending the rake handle stretched out from the sides inward and forge the two ends of the rake handle together to form the main body of the bow-shape rake; S6: placing the main body of the bow-shape rake between the convex stamping equipment to stamp the rake tooth.

This application provides an enhanced method and equipment for forging bow-shape Conjointed rake with one-piece steel. The methods of the present application include: S1: heating the rectangular blank to target temperature; S2: stamping the rectangular blank to mold rake tooth with rake handle blank reserved at both sides, and conduct cutting at the shoulder; S3: horizontally forging and stamping the rake handle blanks at both sides respectively to columnar; S4: heating the rake handle blank locally, stretching the rake handle blank with roll forging machine to mold rake handle, and bending the rake handle back in reverse to the rake tooth; S5: bending the rake handle stretched out from the sides inward and forge the two ends of the rake handle together to form the main body of the bow-shape rake; S6: placing the main body of the bow-shape rake between the convex stamping equipment to stamp the rake tooth.

A pallet truck has a pressed and non-welded fork structure. The fork structure includes an elongate body portion and an outboard end portion integrally formed with the body portion. The body portion has a top wall and opposing sidewalls integrally formed with the top wall. The outboard end portion projects from the body portion and includes a tip sidewall defining a tip region for guiding entry of a fork assembly beneath a pallet.

A pallet truck has a pressed and non-welded fork structure. The fork structure includes an elongate body portion and an outboard end portion integrally formed with the body portion. The body portion has a top wall and opposing sidewalls integrally formed with the top wall. The outboard end portion projects from the body portion and includes a tip sidewall defining a tip region for guiding entry of a fork assembly beneath a pallet.

This application provides an enhanced method and equipment for forging bow-shape Conjointed rake with one-piece steel. The methods of the present application include: S1: heating the rectangular blank to target temperature; S2: stamping the rectangular blank to mold rake tooth with rake handle blank reserved at both sides, and conduct cutting at the shoulder; S3: horizontally forging and stamping the rake handle blanks at both sides respectively to columnar; S4: heating the rake handle blank locally, stretching the rake handle blank with roll forging machine to mold rake handle, and bending the rake handle back in reverse to the rake tooth; S5: bending the rake handle stretched out from the sides inward and forge the two ends of the rake handle together to form the main body of the bow-shape rake; S6: placing the main body of the bow-shape rake between the convex stamping equipment to stamp the rake tooth.

A soil manipulating device for digging and raking soil includes a base plate, which defines a first plane and which has a first edge that is attached to a first end of a shaft. A set of tines is attached to and extends from a second edge of the base plate. Each tine defines an associated second plane and has opposed edges, which are serrated. At least one of the tines has an associated second plane which intersects the first plane. The shaft can be grasped in one or both hands of a user, positioning the user to insert the tines into soil to manipulate the soil by using the tines to cut into the soil. Various embodiments of soil manipulators can be used to perform a variety of digging and raking tasks while in a substantially upright posture and in a lowered posture, such as while sitting or knelling.

A soil manipulating device for digging and raking soil includes a base plate, which defines a first plane and which has a first edge that is attached to a first end of a shaft. A set of tines is attached to and extends from a second edge of the base plate. Each tine defines an associated second plane and has opposed edges, which are serrated. At least one of the tines has an associated second plane which intersects the first plane. The shaft can be grasped in one or both hands of a user, positioning the user to insert the tines into soil to manipulate the soil by using the tines to cut into the soil. Various embodiments of soil manipulators can be used to perform a variety of digging and raking tasks while in a substantially upright posture and in a lowered posture, such as while sitting or knelling.

A soil manipulating device for digging and raking soil includes a base plate, which defines a first plane and which has a first edge that is attached to a first end of a shaft. A set of tines is attached to and extends from a second edge of the base plate. Each tine defines an associated second plane and has opposed edges, which are serrated. At least one of the tines has an associated second plane which intersects the first plane. The shaft can be grasped in one or both hands of a user, positioning the user to insert the tines into soil to manipulate the soil by using the tines to cut into the soil. Various embodiments of soil manipulators can be used to perform a variety of digging and raking tasks while in a substantially upright posture and in a lowered posture, such as while sitting or knelling.

A soil manipulating device for digging and raking soil includes a base plate, which defines a first plane and which has a first edge that is attached to a first end of a shaft. A set of tines is attached to and extends from a second edge of the base plate. Each tine defines an associated second plane and has opposed edges, which are serrated. At least one of the tines has an associated second plane which intersects the first plane. The shaft can be grasped in one or both hands of a user, positioning the user to insert the tines into soil to manipulate the soil by using the tines to cut into the soil. Various embodiments of soil manipulators can be used to perform a variety of digging and raking tasks while in a substantially upright posture and in a lowered posture, such as while sitting or knelling.

A pallet truck has a pressed and non-welded fork structure. The fork structure includes an elongate body portion and an outboard end portion integrally formed with the body portion. The body portion has a top wall and opposing sidewalls integrally formed with the top wall. The outboard end portion projects from the body portion and includes a tip sidewall defining a tip region for guiding entry of a fork assembly beneath a pallet.