Abstract: Systems and methods for providing food intervention, pumping up, and tenderization are discussed. While such systems can include any suitable component, in some cases, they include a needleless spray nozzle head that injects injectade into food without requiring the head to contact the food. In some cases, the head comprises an elongated needleless spray bar that defines multiple internal fluid channels that extend from a first end to a second end of the spray bar. In some cases, the head comprises a manifold system with a first manifold portion at the first end and a second manifold portion at the second end of the spray bar. In some cases, the first manifold portion directs the injectade towards the second end, and the second manifold portion directs the injectade towards the first end of the elongated needleless spray bar. Other implementations are described.

Abstract: Systems and methods for providing food intervention, pumping up, and tenderization are discussed. While such systems can include any suitable component, in some cases, they include a needleless spray nozzle head that injects injectade into food without requiring the head to contact the food. In some cases, the head comprises an elongated needleless spray bar that defines multiple internal fluid channels that extend from a first end to a second end of the spray bar. In some cases, the head comprises a manifold system with a first manifold portion at the first end and a second manifold portion at the second end of the spray bar. In some cases, the first manifold portion directs the injectade towards the second end, and the second manifold portion directs the injectade towards the first end of the elongated needleless spray bar. Other implementations are described.

Abstract: Systems and methods for providing food intervention, pumping up, and tenderization are discussed. While such systems can include any suitable component, in some cases, they include a needleless spray nozzle head that injects injectate into food without requiring the head to contact the food. In some cases, the head comprises an elongated needleless spray bar that defines multiple internal fluid channels that extend from a first end to a second end of the spray bar. In some cases, the head comprises a manifold system with a first manifold portion at the first end and a second manifold portion at the second end of the spray bar. In some cases, the first manifold portion directs the injectate towards the second end, and the second manifold portion directs the injectate towards the first end of the elongated needleless spray bar. Other implementations are described.

Abstract: Systems and methods for providing food intervention, pumping up, and tenderization are discussed. While such systems and methods can include any suitable component, in some cases, they include an injectate reservoir, a filter, a first pump configured to force injectate from the injectate reservoir and through the filter, a nozzle configured to inject injectate into a food product without having the nozzle contact the food, and a valve that is configured to selectively open and close to regulate when and how much of the injectate that passes through the filter is forced out of the nozzle. In some cases, the described systems further include a chiller configured to cool injectate in the reservoir, a sensor configured to determine a distance between the nozzle and food item, an actuator configured to move the nozzle, and/or a computer processor that controls an amount of injectate sprayed from the nozzle. Other implementations are described.

Abstract: Systems and methods for providing food intervention, pumping up, and tenderization are discussed. While such systems can include any suitable component, in some cases, they include a needleless spray nozzle head that injects injectade into food without requiring the head to contact the food. In some cases, the head comprises an elongated needleless spray bar that defines multiple internal fluid channels that extend from a first end to a second end of the spray bar. In some cases, the head comprises a manifold system with a first manifold portion at the first end and a second manifold portion at the second end of the spray bar. In some cases, the first manifold portion directs the injectade towards the second end, and the second manifold portion directs the injectade towards the first end of the elongated needleless spray bar. Other implementations are described.

Abstract: Systems and methods for providing food intervention, pumping up, and tenderization are discussed. While such systems and methods can include any suitable component, in some cases, they include an injectade reservoir, a filter, a first pump configured to force injectade from the injectade reservoir and through the filter, a nozzle configured to inject injectade into a food product without having the nozzle contact the food, and a valve that is configured to selectively open and close to regulate when and how much of the injectade that passes through the filter is forced out of the nozzle. In some cases, the described systems further include a chiller configured to cool injectade in the reservoir, a sensor configured to determine a distance between the nozzle and food item, an actuator configured to move the nozzle, and/or a computer processor that controls an amount of injectade sprayed from the nozzle. Other implementations are described.

Abstract: Systems and methods for providing food intervention, pumping up, and tenderization are discussed. While such systems and methods can include any suitable component, in some cases, they include an injectate reservoir, a filter, a first pump configured to force injectate from the injectate reservoir and through the filter, a nozzle configured to inject injectate into a food product without having the nozzle contact the food, and a valve that is configured to selectively open and close to regulate when and how much of the injectate that passes through the filter is forced out of the nozzle. In some cases, the described systems further include a chiller configured to cool injectate in the reservoir, a sensor configured to determine a distance between the nozzle and food item, an actuator configured to move the nozzle, and/or a computer processor that controls an amount of injectate sprayed from the nozzle. Other implementations are described.

Abstract: Systems and methods for providing food intervention, pumping up, and tenderization are discussed. While such systems and methods can include any suitable component, in some cases, they include an injectade reservoir, a filter, a first pump configured to force injectade from the injectade reservoir and through the filter, a nozzle configured to inject injectade into a food product without having the nozzle contact the food, and a valve that is configured to selectively open and close to regulate when and how much of the injectade that passes through the filter is forced out of the nozzle. In some cases, the described systems further include a chiller configured to cool injectade in the reservoir, a sensor configured to determine a distance between the nozzle and food item, an actuator configured to move the nozzle, and/or a computer processor that controls an amount of injectade sprayed from the nozzle. Other implementations are described.

Abstract: A cable lasher is provided for securing a utility cable, such as a telephone or transmission cable, to a support strand strung in the air between adjacent utility poles. The lasher is pulled forwardly along the support strand and releases lashing wire from a drum at the rear of the lasher. The lasher has a pair of drive wheels that rotate on the support strand. The drive wheels translate linear motion of the lasher into rotational motion of the drum as the lasher moves forwardly. Lashing wire is released from the rotating drum and helically wrapped around the cable and the strand. Tension in the lashed wire is maintained by an adjustable latch assembly which prevents the lasher from moving rearwardly to unwind the wire.

Abstract: A cable lasher is provided for securing a utility cable, such as a telephone or transmission cable, to a support strand strung in the air between adjacent utility poles. The lasher is pulled forwardly along the support strand and releases lashing wire from a drum at the rear of the lasher. The lasher has a pair of drive wheels that rotate on the support strand. The drive wheels translate linear motion of the lasher into rotational motion of the drum as the lasher moves forwardly. Lashing wire is released from the rotating drum and helically wrapped around the cable and the strand. Tension in the lashed wire is maintained by an adjustable latch assembly which prevents the lasher from moving rearwardly to unwind the wire.