A laminated rail for a sawmill bed comprises an outer plate having a middle body portion, a top portion, and a bottom portion; and an inner plate secured to the outer plate, the inner plate having a middle body portion, a top portion, and a bottom portion. The middle body portion of each of the inner plate and the outer plate may have substantially the same cross sectional tacking configuration to allow the inner plate to be matingly received by the outer plate. A channel may be formed between the top portion of the inner plate and the top portion of the outer plate, the channel being shaped and dimensioned to receive and secure a track in a sandwich grip.

Disclosed are embodiments for an engineered feature formed as a part of or on a chamber component. In one embodiment, a chamber component for a processing chamber includes a component part body having unitary monolithic construction. The component part body has an outer surface. An engineered complex surface is formed on the outer surface. The engineered complex surface has a first lattice framework formed from a plurality of first interconnected laths and a plurality of first openings are bounded by three or more laths of the plurality of laths.

A housing for a compressor or expander installation, vacuum pump, generator or similar, whereby this housing is made of metal plates, wherein at least one of the aforementioned metal plates is provided with one or more reinforcing profiles, respectively longitudinal profiles that extend in a certain longitudinal direction and transverse profiles that extend along a transverse direction that forms an angle to the aforementioned longitudinal direction, whereby the various metal plates and longitudinal profiles and/or transverse profiles are joined together solely by means of mechanical fasteners.

A housing for a compressor or expander installation, vacuum pump, generator or similar, whereby this housing is made of metal plates, wherein at least one of the aforementioned metal plates is provided with one or more reinforcing profiles, respectively longitudinal profiles that extend in a certain longitudinal direction and transverse profiles that extend along a transverse direction that forms an angle to the aforementioned longitudinal direction, whereby the various metal plates and longitudinal profiles and/or transverse profiles are joined together solely by means of mechanical fasteners.

A slide rail structure for fixing a power supply to a machine frame is disposed between the machine frame and the power supply. The machine frame includes at least two longitudinal left racks and at least two longitudinal right racks at two sides thereof. The slide rail structure includes two inner slide rails and two outer slide rails. One inner slide rail is laterally fixed to the two left racks, and the other inner slide rail is laterally fixed to the two right racks. The two outer slide rails are laterally locked to two sides of the power supply, respectively. The outer slide rails are slidably connected to the inner slide rails, respectively. Through the slide rail structure, the power supply won't sway left and right in the machine frame, thereby enhancing the stability of the power supply.

A slide rail structure for fixing a power supply to a machine frame is disposed between the machine frame and the power supply. The machine frame includes at least two longitudinal left racks and at least two longitudinal right racks at two sides thereof. The slide rail structure includes two inner slide rails and two outer slide rails. One inner slide rail is laterally fixed to the two left racks, and the other inner slide rail is laterally fixed to the two right racks. The two outer slide rails are laterally locked to two sides of the power supply, respectively. The outer slide rails are slidably connected to the inner slide rails, respectively. Through the slide rail structure, the power supply won't sway left and right in the machine frame, thereby enhancing the stability of the power supply.

A kit for forming a forge table and a forge pot for use therewith to carry a fuel for combustion so as to generate heat for heating a metallic workpiece. The forge table includes a tabletop with a central opening for receiving the forge pot. The forge pot includes a container for supporting the fuel and an air chamber fluidically communicated with the container and including an opening for fluidic communication with an external airflow source which generates an airflow for subsequent conveyance to the container for combusting the fuel. Each kit comprises interconnectable components made from rigid non-combustible sheet material. The airflow source is mounted in fluidic communication with the chamber and there is provided an intermediary valve component supported on the same mounting pegs carrying the source that is movably supported on the pegs so as to be operable to control passage of the airflow to the chamber.

A slide rail structure for fixing a power supply to a machine frame is disposed between the machine frame and the power supply. The machine frame includes at least two longitudinal left racks and at least two longitudinal right racks at two sides thereof. The slide rail structure includes two inner slide rails and two outer slide rails. One inner slide rail is laterally fixed to the two left racks, and the other inner slide rail is laterally fixed to the two right racks. The two outer slide rails are laterally locked to two sides of the power supply, respectively. The outer slide rails are slidably connected to the inner slide rails, respectively. Through the slide rail structure, the power supply won't sway left and right in the machine frame, thereby enhancing the stability of the power supply.

A slide rail structure for fixing a power supply to a machine frame is disposed between the machine frame and the power supply. The machine frame includes at least two longitudinal left racks and at least two longitudinal right racks at two sides thereof. The slide rail structure includes two inner slide rails and two outer slide rails. One inner slide rail is laterally fixed to the two left racks, and the other inner slide rail is laterally fixed to the two right racks. The two outer slide rails are laterally locked to two sides of the power supply, respectively. The outer slide rails are slidably connected to the inner slide rails, respectively. Through the slide rail structure, the power supply won't sway left and right in the machine frame, thereby enhancing the stability of the power supply.

The invention relates to a machine frame, such as for a packaging machine, comprising a plurality of supports, specifically at least one longitudinal support and at least one crossbeam. The machine frame according to the invention is characterized in that at least one of the supports is formed by a profile element having an open profile. According to a second aspect the invention relates to a fastening assembly comprising a machine frame according to the invention and at least one fastening element for fastening a functional module to a profile element by engagement in at least one mounting hole.