AUTOMATED SYSTEM FOR HANDLING CONTAINERS

Abstract

An automated system (1) for handling containers is described, comprising a vertically arranged telescopic fork (10) which comprises a fixed base (5) and at least one slider (20, 30) telescopically sliding with respect to the fixed base (5) on a series of rollers (14) which support the at least one slider (20, 30), further comprising thrusting means (21) driven by actuators (22) and configured for thrusting the containers inside a shelving, or for removing them, following the movement of the slider (20, 30) to which they are connected, the automated handling system (1) further comprising a supplying system (15), installed on the slider (30) to electrically supply the actuators (22) of the thrusting means (21), the supplying system (15) comprising energy accumulating means (16) configured to store the electric energy for supplying the electric moto-reducers (22).

Claims

1. An automated system for handling containers comprising: a vertically arranged, telescopic fork which comprises a fixed base and at least one slider telescopically sliding with respect to the fixed base on a series of rollers which support the at least one slider, further comprising thrusting means driven by actuators and configured for thrusting the containers inside a shelving, or for extracting them, following the movement of the slider to which they are connected, the automated handling system further comprising a supplying system, installed on the slider to electrically supply the actuators of the thrusting means, the supplying system comprising energy accumulating means configured to store the electric energy for supplying the electric moto-reducers, wherein the actuators are connected to the slider and the thrusting means comprise at least one rod configured to project from the end slider which pass them from a first position, which does not project from the slider, to a second projecting position which allows getting the rod in contact with the container to thrust and store it in the shelf, following the telescopic sliding of the slider to which it is connected.

2. The automated system for handling containers of claim 1, wherein the supplying system further comprises sliding contacts configured to connect the energy accumulating means to an external electric supply, in order to re-charge them when the slider goes back to its initial position, with the telescopic fork retracted.

3. The automated system for handling containers of claim 1, wherein the energy accumulating means are a battery of capacitors.

4. The automated system for handling containers of claim 1, comprising two telescopic forks, vertically arranged and mutually facing, spaced by a space useful to house a container to be thrust in a shelving, or to remove it therefrom through the thrusting means.

5. The automated system for handling containers of claim 1, wherein the actuators are electric moto-reducers.

6. The automated system for handling containers of claim 1, wherein the rod is configured to project from the end slider following a rotation around a longitudinal axis with respect to the telescopic movement of the fork.

7. The automated system for handling containers of claim 1, further comprising a wireless connecting module configured for transmitting the commands to the actuators of the thrusting means.

8. The automated system for handling containers of claim 1, wherein the telescopic fork comprises an intermediate slider, telescopically sliding on a first series of rollers with respect to the fixed base, and an end slider, telescopically sliding on a second series of rollers with respect to the intermediate slider, the actuators being connected to the end slider which further comprises the supplying system and the thrusting means configured for thrusting the containers in the shelving.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] The present invention will be better described by some preferred embodiments thereof, provided as a non-limiting example, with reference to the enclosed drawings, in which:

[0015] FIG. 1 shows a perspective view of an automated system for handling containers according to the invention; and

[0016] FIG. 2 shows a perspective view of an enlarged part of an automated system for handling containers according to the invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0017] With reference to the Figures, a preferred embodiment of the automated system 1 for handling containers according to the present invention, is shown and described, the system 1 comprising a telescopic fork 10 of a known type, vertically arranged and comprising a fixed base 5 and at least one slider, or moving element 20, 30 telescopically sliding with respect to the fixed base 5 on a series of rollers 14 with vertical axis, connected to the base 5 and/or to the slider 20, 30, which support the at least one slider 20, 30, further comprising thrusting means 21 driven by actuators 22 and configured for thrusting the containers inside a shelving, or for withdrawing them, following the movement of the slider 20, 30 to which they are connected.

[0018] Preferably, the automated system 1 for handling containers according to the present invention comprises two telescopic forks 10 vertically arranged and mutually facing, spaced by a space useful to house a container to be thrusted in a shelving, or to withdraw it through the thrusting means 21.

[0019] The telescopic fork 10 of the automated system 1 for handling containers according to the present invention comprises, in a preferred way, an intermediate slider 20 with respect to the fixed base 5, telescopically sliding on a first series of rollers with vertical axis, supported for example by the fixed base 5, and an end slider 30, telescopically sliding with respect to the intermediate slider 20 on a second series of rollers 14 with vertical axis, supported for example by the end slider 30, which further comprises the thrusting means 21 configured for thrusting the containers in the shelving.

[0020] The actuators 22, for example electric moto-reducers, are connected to the end slider 30 and the thrusting means 21 preferably comprise at least one rod, configured to project from the end slider 30, for example following a rotation by 90° around a longitudinal axis, with respect to the telescopic movement of the fork, which passes it from a vertical position, which does not project from the end slider 30, to a horizontal position, projecting from the end slider 30, which allows getting the rod 21 in contact with the container to thrust and store it on the shelf, following the telescopic sliding of the end slider 30 to which it is connected.

[0021] The end slider 30 can be, for example, a first slider or a second slider, respectively when the telescopic fork 10 of the automated handling system 1 comprises one or two telescopic sliders.

[0022] The automated handling system 1 of the invention further comprises a supplying system 15, installed on the slider, preferably on the end slider 30, to electrically supply the actuators 22 of the thrusting means 21; the supplying system 15 comprising energy accumulating means 16, for example installed on an electronic card, preferably a battery of capacitors 16, configured to store the electric energy to supply the electric moto-reducers 22, for example to provide the necessary power to supply ten rotation cycles of the at least one rod 21.

[0023] In a preferred way, the supplying system 15, in particular the electronic card, further comprises sliding contacts 25 of a known type to connect the energy accumulating means 16 to an external electric supply 26, in particular also comprising the sliding contacts, in order to re-charge them when the slider goes back to its initial position, with the telescopic fork 10 retracted.

[0024] The supplying system 15, in particular the electronic card, further comprises a wireless connecting module 18, for example of the Bluetooth type, configured to transmit the commands to the actuators 22 of the thrusting means 21.

[0025] The automated handling system 1 of the invention further comprises actuating means of the sliders 20, 30 of a known type, for example comprising chains and/or rack-type mechanisms configured to transfer the motion from motor means to the sliders 20, 30, and a control system of the motor means, of the position or of the limit stroke of the sliders 20, 30, comprising a logic control unit, also known.

[0026] Advantageously, the automated handling system of the invention allows making a reliable system, with a life of three million cycles, with reduced overall sizes, which allow recovering useful space between the shelves of the automated handling system, which allows in particular to optimize the space for containers with reduced sizes.