The present disclosure relates to removing residual air in a packaged product. In particular, the present disclosure is directed to a residual air reduction device and to methods of using such device to reduce the amount of residual air in a packaged product. Such a device is employed during the manufacturing process to release air trapped in a product matrix and/or in a head space of the package as the package contacts the device. In some embodiments, the device and methods of the disclosure are useful in reducing residual air in a pouch package by at least 5% in comparison to a pouch package manufactured without use of the device and/or methods described herein.

The present disclosure relates to a discharge apparatus for discharging a plurality of flexible spouted containers, the apparatus comprising: a container support comprising a support element with an elongated opening for carrying a row of spouts of a plurality of spouted containers from an inlet to an outlet, wherein the inlet of the support element is configured to receive successive batches of spouted containers in the elongated opening; a biasing unit configured to move at least a subset of the spouts received inside the elongated opening in the support element towards the outlet, wherein the biasing unit further is configured to continuously apply a biasing force to the subset of spouts to continuously discharge the containers from the outlet.

A flexible funnel positioned at a filling station of a fill machine. The flexible funnel directs a product dispensed at the filling station of the filling machine into a pouch. The flexible funnel having a rigid upper portion and a plurality of fingers. The rigid upper portion includes an open top end and an open bottom end. Each of the plurality of elongated fingers hingedly connected to the upper portion. The rigid upper portion has a regular polygon shape having a plurality of sides, and each of the plurality of fingers is individually articulatable with respect to one of the plurality of sides of the upper rigid portion.

The apparatus (1) according to the invention for packing bulk material into a container (2) comprises a provisioning device (3) for the container (2). The container (2) has a filling side with a filling opening arranged therein. The apparatus (1) further comprises a gripping device (4) for gripping of the substantially closed and empty container (2) by the provisioning device (3). The apparatus optionally comprises a conveying device (5) for conveying the container (2) to a packing device (6). The apparatus further optionally comprises a container-opening device (9) for opening the container (2). The gripping device (4) has a detection device (7) for detecting the position of the container on and/or in the provisioning device (3). The apparatus (1) additionally has a positioning device for positioning the container on the basis of said detected position.

A machine for forming filter bags for infusion products, starting from pieces of filter material feeding along a feed line, includes: a movement carousel rotating continuously about an axis; a plurality of grippers positioned along, and movable continuously with, the carousel, each gripper configured for retaining a respective piece of filter material; a plurality of operating stations positioned along, and movable continuously with, the carousel; each operating station associated with a gripper and configured to operate on the piece of filter material to form, at least partly, a filter bag along a predetermined angular stretch of rotation of the carousel; a plurality of translation devices, associated with the carousel and configured for translating a gripper along a direction parallel to the axis to bring the corresponding gripper to the respective pieces of filter material at least for a stretch of the feed line.

Provided is a filling apparatus including: a conveyor line configured to intermittently convey spout-equipped bags, which are suspended so that spouts protruding from one side of the spout-equipped bags, the bags being flat, are located on an upper side and the bags are located on a lower side, in a width direction of the suspended spout-equipped bags on a movement straight line; a printing apparatus disposed in the middle of the conveyor line and configured to print manufacturing information on the suspended spout-equipped bags; and nozzles configured to fill the suspended spout-equipped bags with a liquid material through the spouts. The conveyor line is further configured to convey the spout-equipped bags so that fronts of the spout-equipped bags directly face the printing apparatus.

An automatic bag loading system includes a transfer arm configured to grab a bag and transfer the bag from a conveyor a bag gripper, which then rotates the bag to a filling station. The system further includes a detection device to detect a location of a leading edge of the bag between the conveyor and the bag gripper.

A bag clamping device for a material bag filling system is provided. A filling tube portion of a material bag can be blown to be in an upright state from a collapsed state through displacement and lift of an X-axis rail, a Y-axis rail and a Z-axis rail and blow of a pair of blowers. A pair of electric clamps is configured to clamp the filling tube portion. A pair of cantilevers is displaced to the bottom of a material filling device. The filling tube of the material filling device is displaced in a Z direction to enter the material bag for blowing air and filling the material. Through a conveyor belt displaced at the bottom in an X direction to carry the material bag with the filled material to a sealing device for sealing, so as to complete the packaging.

A system for manufacturing tamper evident packaging, for example a bag with a tamper evident seal, includes a noncontact sealing device, a manufacturing conveyor, and in some implementations, a tensioning device and a closure device. The manufacturing conveyor conveys the bag to opposing pairs of in-feed belts of the non-contact sealing device, wherein the belts hold opposing sides of the bag together and a laser with an outlet positioned between a first pair of the belts spot welds the bag along a specified line to fuse the opposing sides of the bag together proximate an opening of the bag. In implementations including the tensioning device and the closure device, the tensioning device draws the opposing sides of the bag together prior to the bag entering the noncontact sealing device, and the closure device applies a removably coupleable closure to the bag after the bag exits the non-contact sealing device.

In the present invention, an insertion object (300) and backing-equipped shrink film packaging (200) are lined up in series along the insertion direction. An introduction guide body (120) comprises: a head part (121) having an outer diameter smaller than the inner diameter of the a shrink film (220); and an air-blowing port (122) that blows air from the inside thereof toward the outer surface thereof. There are an insertion preparation means in which the introduction guide body (120) is gradually introduced into the shrink film (220) of the backing-equipped shrink film packaging (200) by the sliding movement of a slider device (130), and the shrink film (220) is inflated by air, and an insertion means in which the insertion object (300) is gradually inserted into the inflated shrink film (220), and the insertion object (300) is pulled or pushed to a prescribed position by the insertion means.