RU170687U1 - System for complex processing of containers - Google Patents

Abstract

The utility model relates to the field of devices for processing containers, in particular, it can be used for filling and packaging food liquids, for example, dairy products, wines, oils and others. System for complex processing of containers made in the form of a sealed chamber containing at least one device for washing containers, at least one device for filling containers, at least one device for sealing containers, a transportation system made in the form carousel mounted rotatably around a vertical axis (X); characterized in that the carousel device is equipped with a rotary grip, carrying out the capture and rotation of the tank at an angle of 180º ± α from the axis (X) of the carousel device; and the fact that the supply of the washing solution to the tank is carried out from a device located along the axis (X) of rotation of the carousel device. The technical result is the minimization of microbiological contamination of containers and bottling and capping zones, increasing the reliability of the device, reducing power consumption, weight and dimensions of the device.

2 s.p. f-ly, 3 ill.

Description

The utility model relates to the field of devices for processing containers, in particular, it can be used for filling and packaging food liquids, for example, dairy products, wines, oils and others.

A known machine for filling and packaging products (RF patent for utility model No. 150853, 09/26/2014), comprising a washing unit, a filling unit, and a blocking unit arranged sequentially one after another along a conveyor designed to move at least one bottle from one node to another, and the conveyor is made in the form of a closed loop with the formation of two branches - the upper and lower and is equipped with at least one grip for the bottle, characterized in that the bottle washing unit is located on the outside of the closed loop t ansportera under its lower branch, filling and plugging assembly unit arranged on the outside of the closed loop conveyor on its upper branch, each gripper for bottles on the conveyor is designed as a neck retainer.

The closest to the proposed device in terms of minimizing dimensions and energy consumption is a technical solution (prototype) is an apparatus and system for processing containers (WO / 2010/032217, 09/18/2009). The container processing apparatus includes at least one station for processing (marking, labeling, washing, filling, capping) containers; a horizontal base with a guide formed on it and a conveyor for transporting containers, dynamically connected to the guide and forming a closed loop. The device is characterized in that the base is mounted on a frame with a given height from the floor; all containers handling stations are placed sequentially on one base; the movement of containers along them is carried out along the conveyor formed by the upper part supporting the containers and the lower chain installed in the guide and providing the specified movement of the containers.

The disadvantages of the known devices are:

- large dimensions due to significant interoperational movements along one or two branches of the conveyor,

- high energy consumption for moving bottles and maintaining excess pressure in a large sealed chamber,

- the difficulty of minimizing microbiological contamination of containers and bottling and capping zones during interoperational movements.

The technical result of the proposed technical solution is to minimize the microbiological contamination of containers and filling and capping zones, reducing energy consumption, weight and dimensions of the device.

The specified technical result is achieved by the fact that the System for complex processing of containers, made in the form of a sealed chamber, containing at least one device for washing containers, at least one device for filling containers, at least one device for sealing containers , a transportation system made in the form of a carousel device mounted for rotation around a vertical axis (X); according to the proposal, it is additionally equipped with a rotary gripper installed on the carousel device and carrying out the gripping and rotation of the tank at an angle of 180 ° ± α from the axis (X) of the carousel device; and a device for supplying a washing solution to a container located along the axis (X) of rotation of the carousel device.

The use of rotary grippers at the tank washing position and the supply of washing solutions along the central axis of the main table prevented washing liquids from reaching the periphery of the carousel device and allowed placing the tank washing process on one carousel device in close proximity to other technological processes - filling containers and corking them. This made it possible to refuse additional interoperational movements of containers, due to which the dimensions of the System and, accordingly, the cost were reduced. Also, due to the exclusion of energy costs for interoperational movements and a decrease in the costs of maintaining excess pressure in the smaller working chamber, the total energy consumption of the System is reduced. Placing all technological operations in one compact chamber allows to guarantee a minimum of microbiological contamination of containers and filling zones.

The system of complex processing of tanks is illustrated by drawings, which show the relative positions of the devices in a plan view (Fig. 1) and in a view perpendicular to the axis (X), in the tank installation position (Fig. 2) and in the tank washing position (Fig. 3).

System for complex processing of containers, made in the form of a sealed chamber (1), containing at least one device (2) for washing containers (3), at least one device for filling (4) containers, at least one device for corking containers (5), a transportation system made in the form of a carousel device (6), mounted for rotation around a vertical axis (X), characterized in that the carousel device is equipped with a rotary grip (7), carrying out the capture and rotation of the tank (3 ) at an angle of 180º ± α from the axis (X) of the carousel (6); and the fact that the supply of the washing solution to the tank (3) is carried out from the device (8) located along the axis (X) of rotation of the carousel device (6).

The system operates as follows. Purified air is supplied into the sealed chamber (1), and overpressure is created to prevent contaminated air from entering from outside. The container (3) is fixed on the rotary device (6) in the installation position using a rotary grip (Fig. 2). The carousel (6) with the containers attached to it rotates one position, for example, using a step drive. If there is a container at the washing position, the gripper rotates on an axis to the center of the table, where the solution is fed into a container installed vertically and turned upside down (Fig. 3). In this case, the washing solutions flow down from the tank under the action of gravity without the possibility of falling into neighboring technological zones.

According to the proposal, in this position, the neck of the tank being washed is lower than the neck of the tanks in the filling (4) and capping (5) positions, which additionally prevents the possibility of the washing solutions entering due to accidental spraying into the filling and capping zones located sequentially behind the washing zone.

According to the proposal in this position, for a more complete emptying of the washing solutions, the tank can be rotated by a rotary gripper at an angle α ≤ 30º depending on the geometry of the tank and the properties of the washing solutions.

Rinse the containers and lids with a disinfectant solution. If necessary, in the same position can be dried containers.

After rinsing, the gripper returns the tank to its original position, the carousel (6) rotates one step, moving the washed tank to the filling position, while the next tank is set to the washing position.

Devices for filling (4) containers and for corking (5) containers are located on the same base sequentially on the periphery of the carousel device (6). The filling of the tank is carried out dosed, for example, by an electromagnetic flow meter. At the same time, a membrane-type valve is used to cut off the product, which guarantees the absence of stagnant zones and a high-quality washing of product channels in a circulating mode.

The cycle is repeated, while the lid is already put on the filled tank and twisted in the next step. All operations take place simultaneously, i.e. during rinsing the product is poured, the cap is put on and the cap is screwed in at different positions.

Thus, the proposed System of complex processing of containers provides the most compact arrangement of the main technological units for processing containers without the use of additional complex mechanisms, which also increases the reliability of the design.

This unit is included in the line of low-capacity units (up to 600 l / h). Due to the simplicity of construction and small dimensions, the installation can be used in small enterprises, such as peasant farms. Moreover, the use of this installation is economical and ensures high quality of the finished product.

Claims (3)

1. System for complex processing of containers, made in the form of a sealed chamber (1), containing at least one device (2) for washing containers (3), at least one device for filling (4) containers, at least at least one device for capping containers (5), a transportation system made in the form of a carousel device (6), mounted for rotation around a vertical axis (X), characterized in that the carousel device is equipped with a rotary grip (7), which carries out the capture and capacity rotation (3) an angle of 180º ± α from the axis (X) of the carousel (6); and the fact that the supply of the washing solution to the tank (3) is carried out from the device (8) located along the axis (X) of rotation of the carousel device (6). 2. The system according to p. 1, characterized in that the angle α ≤ 30º. 3. The system according to claim 1 or 2, characterized in that when the container is installed in the washing position (2), the rotary gripper sets the neck of the washed tank below the neck of the tanks in the filling (4) and capping (5) positions.

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