The utility model discloses a vacuum sealing machine. The vacuum sealing machine comprises a base body, a bottom box, a bag opening heat sealing device, a vacuumizing device and a bag feeding induction mechanism, wherein the bottom box is arranged below the base body; the bag opening heat sealing device and a vacuumizing groove are correspondingly arranged on the connecting faces of the base body and the bottom box; the vacuumizing device communicates with the vacuumizing groove through a pipeline; and the bag feeding induction mechanism is arranged on the base body and positioned above the vacuumizing groove. According to the vacuum sealing machine, the bag feeding induction mechanism is arranged above the vacuumizing groove, so that detection of the bag feeding induction mechanism is stable and reliable, and the bag feeding induction mechanism is not prone to being damaged; and the vacuum sealing machine is simple in structure and low in cost.

A non-powered cooler system with an integrated powered vacuum sealer wherein the outer body may be made up of a hard casing of hard plastic material or soft waterproof material. A battery powered vacuum sealer for use in connection with the non-powered cooler or otherwise. The non-powered cooler having a supplemental compartment configured to hold a battery powered appliance, such as a vacuum sealer, or a volume of food.

An object is to provide an automatic filling and packaging device which enhances the efficiency of packaging work and which suppresses the occurrence of defective products to achieve satisfactory yield. In an automatic filling and packaging device, a locating means, a pair of upper gusset nails, a pair of intermediate gusset nails, a pair of lower gusset nails, and a blade-equipped sealing device are formed into a unit as a unit main body, and the unit main body and the pusher member are formed to be able to freely move close to and apart from each other. In this way, as compared with a conventional automatic filling and packaging device, it is possible to reduce the total time in which one article to be packaged is filled into one packaging bag and then the opening end portion thereof is sealed, with the result that it is possible to enhance the efficiency of packaging work.

The utility model discloses a vacuum sealing machine driven by air pressure. The inner cavity of a seat body is provided with a lifting seat that slides in the vertical direction. A positive air pressure pushing mechanism for driving the lifting seat to move up and down is installed above the lifting seat. A bottom platform is arranged at the lower part of the inner cavity of the seat body. A bag opening heat sealing device is arranged on the bottom surface of the lifting seat or the top surface of the bottom platform. A control circuit is electrically connected to the bag opening heat sealing device. The lifting seat after moving downward when vacuuming or sealing is pressed against the bottom platform. The utility model has the advantages of simple structure, stable and reliable action, and lower cost.

Pet food bags, and methods of making the same, contain a seal that resists air exchange more than conventional bags thereby protecting nutritional ingredients that are susceptible to oxidation.

An apparatus makes packages from a web of bags includes an indexing mechanism, an opening arrangement, engagement devices, and a sealing arrangement. The indexing mechanism moves the web. The opening arrangement opens a bag to form an opening so that a product can be placed into the bag. The engagement devices engage the bag and close the opening. Each engagement device includes a base, a first link, a second link, a sliding pivot, and a finger. The first link is pivotably connected to the base, and the second link is pivotably connected to the first link. The sliding pivot pivots with respect to the base and allows the second link to slide through the sliding pivot member. The finger is connected to the second link. The engagement devices pull a first and second sides of the bag in opposite directions. The sealing arrangement seals the opening of the bag.

A sealing station configured to heat seal a wall made from heat-sealable film material, preferably metal-free heat-sealable film material, onto one another wall of heat-sealable material, e.g. another wall of heat-sealable film material, to create a sealed seam. The sealing station comprises an impulse sealing device comprising a first jaw and a second jaw, wherein at least the first jaw comprises at the respective front surface thereof at least one, e.g. a single elongated, impulse heatable member that extends along the respective front surface and that is covered by a heat-resistant non-stick covering.

An ice bagging and dispensing apparatus has at least one ice making machine; an ice hopper for receiving ice from the at least one ice making machine; an ice bagging machine for bagging ice from the ice hopper; an ice bag conveyor for conveying bagged ice from the ice bagging machine to an ice storage chamber, the ice bag conveyor positioned below the ice storage chamber; a carriage for moving and lifting the bag of ice into the ice storage chamber; one or more supports for supporting one or more bags of ice in the ice storage chamber above the ice bag conveyor; and, one or more consumer access doors to the ice storage chamber. This maintains first-in, first out (FIFO) principles.

A device (1) for evacuating gas from a package (50) in a packaging apparatus, the package (50) having an open end (55), the open end (55) having a terminal portion (54), a non-terminal portion (52), and an intermediate portion (53) located between the terminal portion (54) and the non-terminal portion (52) of the open end (55), the device (1) comprising a vacuum chamber (10) having an elongated opening (14) extending along a longitudinal axis of the vacuum chamber (10), an evacuation means configured for providing the vacuum chamber (10) with an internal vacuum pressure that is lower than an ambient pressure outside the vacuum chamber (10), means for moving (30) a package (50) relative to the vacuum chamber (10), and a control unit (60) programmed for controlling the means for moving (30) to relatively move a package (50) to be evacuated with respect to the vacuum chamber (10), the package (50) and the means for moving (30) each being arranged with respect to the vacuum chamber (10) so that a main movement direction (40) of packages (50) placed on the means for moving (30) and the longitudinal axis of the vacuum chamber (10) are substantially parallel to one another, the package (50) to be evacuated being positioned so that, during the relative movement of the package (50) with respect to the vacuum chamber (10), a terminal portion (54) of the open end (55) of the package (50) relatively moves within the vacuum chamber (10) and a non-terminal portion (52) of the open end (55) relatively moves outside the vacuum chamber (10), an intermediate portion (53) of the open end (55) passing through and relatively moving along the opening (14), and activating the evacuation means to provide the vacuum chamber (10) with the internal vacuum pressure. A packaging process using the gas evacuation device and a packaging apparatus including the device are also disclosed.

A method for handling containers (I) of collapsible type in a filling machine (20) comprising consecutively arranged stations (S1, S2, S3, S4, S5, S6) comprising a filling station (S3) and a gas filling station (S5), the method comprising intermittently moving the containers (I) to the consecutively arranged stations (S1, S2, S3, S4, S5, S6), supplying, at the filling station (S3), liquid product into the product compartment (5) and supplying, at the gas filling station (S5), gas into the handle compartment (7). The filling station (S3) and the gas filling station (S5) are operated such that liquid product is supplied to the product compartment (5) of one of the containers (I) while gas is supplied to the handle compartment (7) of another of the containers (I). The step of supplying gas at the gas filling station (S5) comprises providing a first gas flow (Qi) at a first pressure (Pi) and delivering said first gas flow (Qi) from the nozzle (30) to the handle compartment (7) via said inlet (11), and subsequently providing a second gas flow (Q.sub.2) at a second pressure (P.sub.2), lower than said first pressure (P.sub.1), and delivering said second gas flow (Q.sub.2) from the nozzle (30) to the handle compartment (7) via said inlet (11) for establishing a target pressure (P.sub.T) inside said handle compartment (7) corresponding to said second pressure (P.sub.2).