A body support assembly includes a seat assembly and backrest assembly supported by a tilt control assembly. Methods of using and assembling the body support assembly are provided.

A body support assembly includes a seat assembly and backrest assembly supported by a tilt control assembly. Methods of using and assembling the body support assembly are provided.

A body support assembly includes a seat assembly and backrest assembly supported by a tilt control assembly. Methods of using and assembling the body support assembly are provided.

A body support assembly includes a seat assembly and backrest assembly supported by a tilt control assembly. Methods of using and assembling the body support assembly are provided.

A rocking chair includes support bodies and a seat body. Support legs are mounted on the support bodies. A rocking frame assembly is mounted on the seat body. Two opposite parts of the seat body are defined as first and seconds matching surfaces. First and second blocking parts are formed on the first and second matching surfaces, respectively. The first and second blocking parts define offset rotation angle spaces on a path of relative rotation of the support bodies and the seat body. Elastic components are mounted in the offset rotation angle spaces, and the first and second blocking parts are driven by the relative rotation of the support bodies and the seat body to rotate oppositely along a rotation angle direction to squeeze the elastic components, thus causing the elastic components to generate an elastic force for the seat body to rock back and forth on the support bodies.

A rocking chair includes support bodies and a seat body. Support legs are mounted on the support bodies. A rocking frame assembly is mounted on the seat body. Two opposite parts of the seat body are defined as first and seconds matching surfaces. First and second blocking parts are formed on the first and second matching surfaces, respectively. The first and second blocking parts define offset rotation angle spaces on a path of relative rotation of the support bodies and the seat body. Elastic components are mounted in the offset rotation angle spaces, and the first and second blocking parts are driven by the relative rotation of the support bodies and the seat body to rotate oppositely along a rotation angle direction to squeeze the elastic components, thus causing the elastic components to generate an elastic force for the seat body to rock back and forth on the support bodies.