The invention relates to a method for producing rotomolded products, and to an installation for carrying out such a method. The method is characterized by the simultaneous use of a plurality of spherical receptacle members, each without a dedicated rotary drive, each of which containing at least one molding die that is suppliable with raw material, and by the simultaneous use of a plurality of processing devices which are operated in a mutually independent manner, each for carrying out at least one of a plurality of production steps, using in each case one of the spherical receptacle members, wherein a plurality of processing devices which are configured as rotating stations are used in a temporally parallel or temporally overlapping manner, and/or wherein a plurality of processing devices which are configured as cooling stations are used in a temporally parallel or temporally overlapping manner, and/or wherein a plurality of processing devices which are configured as supply stations are used in a temporally parallel or temporally overlapping manner, and/or wherein a plurality of processing devices which are configured as retrieval stations are used in a temporally parallel or temporally overlapping manner, and wherein the spherical receptacle member conjointly with the content thereof and without the rotary drive is in each case retrieved from the processing device which has just terminated a processing step, said spherical receptacle member thereafter being fed to a processing device that is immediately vacant for the respective next processing step.

The invention relates to a method for producing rotomolded products, and to an installation for carrying out such a method. The method is characterized by the simultaneous use of a plurality of spherical receptacle members, each without a dedicated rotary drive, each of which containing at least one molding die that is suppliable with raw material, and by the simultaneous use of a plurality of processing devices which are operated in a mutually independent manner, each for carrying out at least one of a plurality of production steps, using in each case one of the spherical receptacle members, wherein a plurality of processing devices which are configured as rotating stations are used in a temporally parallel or temporally overlapping manner, and/or wherein a plurality of processing devices which are configured as cooling stations are used in a temporally parallel or temporally overlapping manner, and/or wherein a plurality of processing devices which are configured as supply stations are used in a temporally parallel or temporally overlapping manner, and/or wherein a plurality of processing devices which are configured as retrieval stations are used in a temporally parallel or temporally overlapping manner, and wherein the spherical receptacle member conjointly with the content thereof and without the rotary drive is in each case retrieved from the processing device which has just terminated a processing step, said spherical receptacle member thereafter being fed to a processing device that is immediately vacant for the respective next processing step.

A spider for a rotary molding process is provided. The spider includes an upper mold enclosure, a lower mold enclosure, and a clamping assembly. The lower mold enclosure is configured to selectively cooperate with the upper mold enclosure to facilitate retention of a mold housing therebetween. The clamping assembly comprises a collar, a plurality of brace members, and a clamping member. Each brace member is coupled with each of the collar and the upper mold enclosure. The clamping member is rotatably coupled with the lower mold enclosure and is rotatable about an axis in a clamping and unclamping direction. The axis extends through the collar. The collar is spaced from the upper mold enclosure along the axis. Rotation of the clamping member in the clamping direction facilitates translation of the collar towards the lower mold enclosure to facilitate urging of the upper mold enclosure and the lower mold enclosure together.

A spider for a rotary molding process is provided. The spider includes an upper mold enclosure, a lower mold enclosure, and a clamping assembly. The lower mold enclosure is configured to selectively cooperate with the upper mold enclosure to facilitate retention of a mold housing therebetween. The clamping assembly comprises a collar, a plurality of brace members, and a clamping member. Each brace member is coupled with each of the collar and the upper mold enclosure. The clamping member is rotatably coupled with the lower mold enclosure and is rotatable about an axis in a clamping and unclamping direction. The axis extends through the collar. The collar is spaced from the upper mold enclosure along the axis. Rotation of the clamping member in the clamping direction facilitates translation of the collar towards the lower mold enclosure to facilitate urging of the upper mold enclosure and the lower mold enclosure together.

The present invention is a system for producing an object from a material that contains a hardenable base material using rotational moulding, wherein the system is comprised of a robotic arm and a die that can be attached to the robotic arm. The die contains a die cavity defined by a die wall, wherein the die is configured for receiving the material in the die cavity. The current invention also involves a method for production of an object of a material containing a hardenable base material using rotational moulding.

The present invention is a system for producing an object from a material that contains a hardenable base material using rotational moulding, wherein the system is comprised of a robotic arm and a die that can be attached to the robotic arm. The die contains a die cavity defined by a die wall, wherein the die is configured for receiving the material in the die cavity. The current invention also involves a method for production of an object of a material containing a hardenable base material using rotational moulding.

The present invention is a system for producing an object from a material that contains a hardenable base material using rotational moulding, wherein the system is comprised of a robotic arm and a die that can be attached to the robotic arm. The die contains a die cavity defined by a die wall, wherein the die is configured for receiving the material in the die cavity. The current invention also involves a method for production of an object of a material containing a hardenable base material using rotational moulding.

The present invention is a system for producing an object from a material that contains a hardenable base material using rotational moulding, wherein the system is comprised of a robotic arm and a die that can be attached to the robotic arm. The die contains a die cavity defined by a die wall, wherein the die is configured for receiving the material in the die cavity. The current invention also involves a method for production of an object of a material containing a hardenable base material using rotational moulding.

A molded fiber part former includes a first forming mold defining a first mold area and at least one fluid inlet. The molded fiber part former also includes a wall substantially surrounding the first mold area. The molded fiber part former includes a fluid channel disposed adjacent to and surrounding the wall, wherein the channel is fluidically connected to the at least one fluid inlet and defines a fluid channel outlet.

A molded fiber part former includes a first forming mold defining a first mold area and at least one fluid inlet. The molded fiber part former also includes a wall substantially surrounding the first mold area. The molded fiber part former includes a fluid channel disposed adjacent to and surrounding the wall, wherein the channel is fluidically connected to the at least one fluid inlet and defines a fluid channel outlet.