Abstract: An anti-slip torque tool with integrated engagement features includes a torque-tool body, at least one pair of diametrically opposing engagement features, and an intermediate feature. The pair of diametrically opposing engagement features includes a first opposing feature and a second opposing feature and functions as engagement features around the head portion of the fastener that needs to be removed. The first opposing feature and the second opposing feature are radially distributed around a rotational axis of the torque-tool body. The first opposing feature and the second opposing feature are terminally connected to each other by the intermediate feature. The torque-tool body is outwardly extended from the first opposing feature, the second opposing feature, and the intermediate feature thus delineating an opening to receive the head portion of the fastener.

Abstract: A tool holding apparatus includes a socket holder and at least one retaining knob. The socket holder is configured as an elongated body, wherein at least one channel that traverses into the elongated body is extended along the elongated body. The retaining knob that receives a drive socket or other similar tool apparatus includes a male body, a pedestal, and a base. The male body is adjacently connected the pedestal. The base is adjacently connected to the pedestal, opposite of the male body. The base and the pedestal are slidably engaged within the channel, and the male body is externally positioned to the elongated body thus allowing the engagement between the socket holder and the retaining knob. At least one magnet or a spring loaded ball is respectively integrated into the elongated body or the male body to securely attach a drive socket to the tool holding apparatus.

Abstract: An anti-slip torque tool that utilizes a plurality of grooves to prevent slippage and facilitate torque transfer to a fastener. The tool includes a wrench torque-tool body and an at least one engagement element. The wrench torque-tool body includes a plurality of internal sidewalls, a first base, and a second base. Further, each of the internal sidewalls includes a bracing surface. The engagement element includes a first pair of grooves and a second pair of grooves, wherein each further includes a primary cavity and a secondary cavity. The engagement element is laterally integrated into a specific sidewall to provide additional gripping action. The first pair of grooves and the second pair of grooves are positioned offset from each other, along the bracing surface of the specific sidewall. The primary cavity and the secondary cavity each traverse normal and into the bracing surface from the first base to the second base.