The present invention relates to a booster seat comprising a seat shell with a lower face for supporting the seat shell and an upper face, on which a seat base and lateral seat cushion regions and backrest regions that delimit the seat base laterally and rearwards are provided. The lower face of the seat shell has a stacking contour which is designed to provide a stacking capability on the upper face of the seat shell. The invention also relates to a booster seat comprising a strap system that has four eyelets, wherein one retaining strap is allocated to a pair of eyelets. Two eyelets are arranged in the front outer region of each lateral seat cushion region, while two eyelets are arranged in the rear outer region of each lateral seat cushion region or in the lateral outer region of the back region. The invention further relates to a method for producing a booster seat of this type.

The present invention relates to a booster seat comprising a seat shell with a lower face for supporting the seat shell and an upper face, on which a seat base and lateral seat cushion regions and backrest regions that delimit the seat base laterally and rearwards are provided. The lower face of the seat shell has a stacking contour which is designed to provide a stacking capability on the upper face of the seat shell. The invention also relates to a booster seat comprising a strap system that has four eyelets, wherein one retaining strap is allocated to a pair of eyelets. Two eyelets are arranged in the front outer region of each lateral seat cushion region, while two eyelets are arranged in the rear outer region of each lateral seat cushion region or in the lateral outer region of the back region. The invention further relates to a method for producing a booster seat of this type.

A non-metal seat comprising a non-metal frame work and a non-metal open mesh seating surface stretched across an opening in a base portion of the non-metal framework and a non-metal open mesh back rest surface stretched across an opening in a back support portion of the non-metal framework. The non-metal frame is constructed from plastic and the non-metal open mesh comprises a woven or knit open mesh panel comprising nylon, vinyl, or a combination thereof. The seat has a pivoting mechanism coupling the base portion to the back support portion such that the non-metal seat is a foldable seat.

A non-metal seat comprising a non-metal frame work and a non-metal open mesh seating surface stretched across an opening in a base portion of the non-metal framework and a non-metal open mesh back rest surface stretched across an opening in a back support portion of the non-metal framework. The non-metal frame is constructed from plastic and the non-metal open mesh comprises a woven or knit open mesh panel comprising nylon, vinyl, or a combination thereof. The seat has a pivoting mechanism coupling the base portion to the back support portion such that the non-metal seat is a foldable seat.

A body support structure includes a pair of laterally extending load bearing support segments each having an outer portion coupled to a support structure and an inner portion. Each of the load bearing support segments extends laterally inwardly from the outer portion, and the inner portions are laterally spaced apart so as to define a gap therebetween. A body support member is spaced forwardly from the pair of load bearing support segments. A plurality of links connect the load bearing support segments to the body support member.

A body support structure includes a pair of laterally extending load bearing support segments each having an outer portion coupled to a support structure and an inner portion. Each of the load bearing support segments extends laterally inwardly from the outer portion, and the inner portions are laterally spaced apart so as to define a gap therebetween. A body support member is spaced forwardly from the pair of load bearing support segments. A plurality of links connect the load bearing support segments to the body support member.

The present disclosure relates to a chair back assembly with an outer frame and an inner frame, wherein the outer frame is manufactured of different material than the inner frame to allow for a variety in support throughout the chair back assembly, resulting in localized support throughout the back of the chair. The availability of localized support results in an improvement in comfort and may also improve production in embodiments utilizing a foam covering. Specifically, the inner frame of the chair back assembly may include at least one vertical member and at least one horizontal member to provide additional support to the user.

A reclining chair having a seat, backrest and armrest is provided. The armrest has a first portion associated with the seat and a second portion associated with the backrest. The first and second armrest portions are slidable relative to each other between a first position associated with a raised backrest and a second position associated with a reclined configuration. The armrest also has a locking mechanism of the sliding between the first and second armrest portions, and the locking mechanism has first and second locking seats and a locking element configured to couple alternatively to the first-or to the second locking seat. A coupling of the locking element to the first locking seat is associated with the first position and a coupling of the locking element to the second locking seat is associated with the second position.

A reclining chair having a seat, backrest and armrest is provided. The armrest has a first portion associated with the seat and a second portion associated with the backrest. The first and second armrest portions are slidable relative to each other between a first position associated with a raised backrest and a second position associated with a reclined configuration. The armrest also has a locking mechanism of the sliding between the first and second armrest portions, and the locking mechanism has first and second locking seats and a locking element configured to couple alternatively to the first-or to the second locking seat. A coupling of the locking element to the first locking seat is associated with the first position and a coupling of the locking element to the second locking seat is associated with the second position.

A chair has a chair back including a frame, two supporting legs and a bearing plate. The frame is integrated to the supporting legs in an injection molding manner. The bearing plate is integrated to a bottom frame portion and two side frame portions of the frame in the injection molding manner so that a user can lean against the bearing plate. The two side frame portions are located on two opposite sides of the bottom frame portion. The hardness of the bearing plate is lower than the hardness of the frame, and the hardness of the frame is lower than the hardness of the supporting leg. Therefore, two members whose materials are different in hardness are possibly constitute a chair back formed in one piece.