The present disclosure provides a full-automatic gene analysis apparatus and a gene analysis method, and relates to the field of medical detection technologies. The apparatus includes a body, a first taking and placing device, a second taking and placing device, a first lid opening and closing device, a second lid opening and closing device, a sample rack, a consumable rack, a PCR detection device and a centrifugal transfer device. The first taking and placing device is configured to take and place a sample tube or a PCR tube or perform a pipetting operation, a lid is automatically opened and closed by the lid opening and closing device; automatic transfer and centrifuging operations of the PCR tube are realized by the centrifugal transfer device; a PCR detection step is automatically performed by the second taking and placing device and the PCR detection device.

A cap attachment-detachment device includes an operation portion that moves in an up-and-down direction, and grips and rotates a cap so as to attach the cap to or attach the cap from a container. The operation portion includes a first grip claw, a second grip claw and the pressing member. The first grip claw and the second grip claw are provided to be opposite to each other and configured to be capable of applying an obliquely upward force inwardly to an upper portion of a side surface of the cap. The pressing member is configured to be capable of coming into contact with an upper surface of the cap.

A cap attachment-detachment device includes an operation portion that moves in an up-and-down direction, and grips and rotates a cap so as to attach the cap to or attach the cap from a container. The operation portion includes a first grip claw, a second grip claw and the pressing member. The first grip claw and the second grip claw are provided to be opposite to each other and configured to be capable of applying an obliquely upward force inwardly to an upper portion of a side surface of the cap. The pressing member is configured to be capable of coming into contact with an upper surface of the cap.

Method and apparatus are disclosed for capping a plurality of bottles enclosed and sealed in a plastic bag. The method comprises disposing the plurality of bottles in a tray in a predetermined array such that caps, disposed in a plate can be displaced for convenient capping in a single step. Ratchet tools are disclosed for facile threading of caps to bottles.

Method and apparatus are disclosed for capping a plurality of bottles enclosed and sealed in a plastic bag. The method comprises disposing the plurality of bottles in a tray in a predetermined array such that caps, disposed in a plate can be displaced for convenient capping in a single step. Ratchet tools are disclosed for facile threading of caps to bottles.

An apparatus for capping containers includes at least one capping head which is moveable between a position for picking up a cap and a position for applying the cap at a neck of a container, the grip element defining a receptacle for the cap and component for the removable retention of the cap within the receptacle. A second motor component is provided to actuate the movement of the grip element in an axial direction. The apparatus also includes a control and actuation unit functionally connected to the first and second motor components and is configured to receive in input a number of data items. The control and actuation unit is configured to actuate the first and second motor components as a function of the variation of the value over time of the number of data items.

Systems, methods, and apparatuses for sealing bottles with a Roll-on Pilfer Proof (ROPP) closure and a childproof overcap are provided. More specifically, the present disclosure relates to an overcap that can be placed onto or formed onto the ROPP closure. The overcap has a retainer that secures the overcap to the ROPP closure and allows the overcap to move relative to the ROPP closure in a longitudinal axis. The overcap moves between a first position or mode of operation where the overcap can rotate about the ROPP closure and a second position or mode of operation where the overcap engages the ROPP closure to transmit a twisting or torque force to the ROPP closure and open the bottle.

Systems, methods, and apparatuses for sealing bottles with a Roll-on Pilfer Proof (ROPP) closure and a childproof overcap are provided. More specifically, the present disclosure relates to an overcap that can be placed onto or formed onto the ROPP closure. The overcap has a retainer that secures the overcap to the ROPP closure and allows the overcap to move relative to the ROPP closure in a longitudinal axis. The overcap moves between a first position or mode of operation where the overcap can rotate about the ROPP closure and a second position or mode of operation where the overcap engages the ROPP closure to transmit a twisting or torque force to the ROPP closure and open the bottle.

The invention relates to a capping machine comprising a protected area from impurities, an unprotected area divided from the protected area by a parting wall, and an operating unit. The operating unit includes a container support element arranged in the protected area, an operating head arranged in the protected area and configured to apply one capsule on the relative container, a motor assembly arranged in the unprotected area and configured to drive motion of the operating head, a torque control head between the motor assembly and the operating head, and an annular bellows element coaxial with the vertical axis and within the protected area and one opposite axial end crossed in a sealed manner by an output shaft of the torque control head. The torque control head is arranged above the parting wall in the unprotected area and the output shaft crosses said opening and the entire bellows element.

A distribution unit for feeding lids (1) to necks (9) of containers (10) comprises a chute element (102) arranged for receiving a row of lids (1), an outlet opening (103) arranged for releasing said lids (1) one at a time, said outlet opening (103) being intended to be positioned above a conveying device (100) suitable for conveying said containers (10) along an advancement direction (F) so that each of said containers (10) interacts with said chute element (102) to remove a corresponding lid (1) from said outlet opening (103), said distribution unit (101) further comprising a guide element (105) having an active surface (106) extending on an opposite side of said chute element (102) with respect to said outlet opening (103) and arranged for interacting with said lids (1), said active surface (106) having a stepped profile.