A valve box riser extension is disclosed, including a valve box riser extension positioned between a valve box lid and a valve box. A rim is positioned about a perimeter of an exterior surface of the valve box riser extension. The rim is constructed as an inverted wedge having an acute incline angle surface lip portion. The lip portion allows dirt or other material to be placed thereon to prevent the valve box riser extension from being pulled out of the ground when removing the lid.

A control module of a vehicle includes a plurality of electromechanical functional elements arranged on a carrier plate and fixed in an interlocking and force-fitting manner to the carrier plate by clamping elements. The clamping elements are formed on a pressure plate that is secured to spacers of the carrier plate. To simplify production and fitting of the pressure plate provided with the clamping elements and to be able to use them with functional elements having different structural heights, the spacers have a slightly greater height than the structural height of the highest functional element. The pressure plate, for each of the functional elements, has at least one clamping element in the form of a clamping tab. The clamping tabs are each arranged at an opening in the pressure plate, which opening is partially closed by the clamping tabs, and are angled toward the carrier plate.

Various examples relate to electrically actuated valves. Various examples relate to actuators to be used for valves, e.g., shape—memory alloy actuators or solenoid actuators (151) or piezoelectric actuators. Various examples relate to a modular concept in which a valve can be formed by attaching an actuator component (601) to a housing. Various examples relate to a further modular concept in which multiple valve blocks, each valve block including one or more valves, can be fluidly coupled with each other.

The present invention relates to a valve assembly for blowing or draw-blowing preforms made of polymer material, applicable to a machine suitable to transform said preforms into bottles or containers.

In particular, the invention relates to a valve assembly (1) comprising a control block (2) and a blowing block (3), in which the blowing block (3) comprises an outer body (50) having a longitudinal axis, inside which a blowing cylinder ending at the bottom with a nozzle (58) suitable to be coupled with the neck of a container (C), is slidingly accommodated, and wherein the control block (2) receives pressurized air from at least one pressurized air source and sends it to said blowing block (3) according to a predetermined pressure profile dependent on the selected blowing cycle, in which the control block (2) comprises a plurality of valves for dispensing pressurized air at different pressures, and an air exhaust valve, characterized in that said valves are driven by pressurized air at a pressure between 15 and 40 bar.

A valve housing (1) has first and third openings (1.1, 1.3), and first and second actuating elements (6.1, 6.2) that are movable along a longitudinal axis of the housing (1). A return element (5) is between the actuating elements (6.1, 6.2), and exerts a force to keep the actuating elements (6.1, 6.2) in a rest position to close or open the first and third openings (1.1. 1.3). First and second wires (4.1, 4.2) are formed from a shape memory alloy. The first wire (4.1) is on the first actuating element (6.1) and the second wire (4.2) is on the second actuating element (6.2). An electric current to the first or second wire (4.1, 4.2) contracts the respective wire (4.1, 4.2) and moves the corresponding actuating element (6.1, 6.2) into an activated position against the force exerted by the return element (5).

Disclosed is a server rack system within an enclosed building and a process for directing air through a server facility. Air is channeled within a server rack assembly and then through a closed loop back again into the server rack assembly. Impediments may control the degree of airflow availability.

The present disclosure discloses an electromagnetic distributor and a toilet. The electromagnetic distributor comprises: a housing including a water inlet and at least two water outlets in communication with the water inlet; at least two solenoid valve cores, wherein the at least two solenoid valve cores correspond to the at least two water outlets; magnetic conducting part including at least two magnetic conducting chambers, wherein an electromagnetic loop is formed in each of the magnetic conducting chambers; wherein the at least two solenoid valve cores are respectively disposed in the at least two magnetic conducting chambers, and wherein each of the solenoid valve cores is configured to move away from or close to the corresponding water outlet under magnetic field generated by the corresponding electromagnetic loop, so as to independently control opening and closing of the corresponding water outlet. The toilet comprises the electromagnetic distributor according to any of the above.

A coolant control valve is provided that includes at least one actuator, a first rotary valve body and a second rotary valve body, each rotary valve body driveably connected to the at least one actuator. The second rotary valve body is arranged non-coaxially to the first rotary valve body.

A refrigerator appliance includes a water system. The water system has a fluid circuit and valve assembly. The valve assembly is configured to control flow through the fluid circuit. The valve assembly has a valve, at least one actuator disposed on the valve, and a framework configured to secure the at least one actuator to the valve. The framework has first and second upright members, a crossmember, and an electrical connector. The first and second upright members secured to the valve on opposing sides of the at least one actuator. The crossmember is secured to opposing ends of the first and second upright members relative to the valve such that the valve, first upright member, second upright member, and crossmember form a closed loop around the at least one actuator. The electrical connector is electrically connected to the at least one actuator and is secured to the crossmember.

A modular valve assembly is formed from multiple modular valves having a valve base and a valve actuator. Each base includes at least a first channel and a second channel and an internal passage forming an opening in the first channel so as to be in selective fluid communication with an exterior port of the valve base, and with the second channel being a through passage that is not in fluid communication with the internal passage. Adjacent valve bases are interconnectable in one of two orientations either with the first and second channels of one valve base being aligned with the first and second channels, respectively, of an adjacent valve base, or with the first and second channels of one valve base being aligned with the second and first channels, respectively, of an adjacent valve base. The valve bases may be provided with third and fourth channels for three-way operability.