IT9003559A1 - UNIVERSAL ELEVATOR FOR THE PERSON WITH ELECTRONIC CONTROL. - Google Patents

Description

Description of the Patent for Industrial Invention entitled: "UNIVERSAL ELEVATOR FOR THE PERSON WITH ELECTRONIC CONTROL".

DESCRIPTION

The invention relates to a column elevator that can be operated electronically by the operator who arrives on a pad that can be moved vertically between said columns. The vehicle is supported on swivel wheels to allow manual movement to the parking point. They are currently used for outdoor work to be carried out at a certain height from the ground such as for example on suspended power lines, on trees, for external interventions on buildings and in relation to, self-propelled machines with an elevating part in which one or more operators. However, these means are not compatible to operate inside buildings. Currently, for the work and interventions to be carried out at a certain height from the floor, in particular in the premises of modern rational building such as for example finishing or restoration of premises, the removal or storage of things in the warehouse and so on. in order, one must use stairs and / or scaffolding. Types of modular staircases that can be transformed into a movable bridge structure on wheels are currently used. These means do not allow a reliability for professional use in relation to their intrinsic fragility and in any case do not create a pitch with an adequate structure and predisposed to reach different heights. The invention provides a lift of a new conception of particular use for operating inside buildings of modern rational construction which can be used by the occasional operator stationed on a platform set up with a protective cage and portable, electronically controlled, at the desired height. Basically the apparatus employs on trolley 1 the pair of profile columns 2 with internally, set on bearing terminals 3 supported by the frame crosspieces 4, the pair of shafts 5 with intermediate thread 6 engaged in the central spiral duct 7 of bodies 8 with amplitude related to that of their sliding channels which support, on brackets 9 passing in opposite longitudinal guide slots 10, the interposed pad 11. On the platform 12, in a space protected by the curved shape 13, there is a gearmotor 14 with a toothed wheel 15 which, in a symmetrical pattern by means of the chain 16, transmits the movement to the pair of pinions 17 located on the lower ends of the shafts 5. The operator , standing on the pad 11 with the electronic commutator 18 which transmits on line 19, determines the intervention of the relays that control the direction of rotation of the motor shaft and in relation to the ascent or descent of the pad 11 to the desired point between set travel limits. Essentially, the synchronous movement of the threaded parts 6 of the shafts 5, engaged in the spiral ducts 7 of the bodies 8, imposes on them an equal sliding movement in the channels of the profile columns 2, determining the raising or lowering of the pad in relation to the direction of commanded movement. Embodiment of the invention is illustrated purely by way of indication in the drawings of Tables 1 and 2. With reference to Table 1, fig. 1 is a side view of the elevator with the pad 11 at the lower limit and observable in a dashed view the same at the upper limit. Fig. 2 is a front view of the same elevator with the pad 11 at the upper limit and in a broken view the same at the lower limit. Fig. 3 is a detail of longitudinal section to highlight the mechanism which determines the lifting of the pad 11 in the support column. Fig. 4 is an upside-down view of the elevator to show, on the frame platform 1, the symmetrical arrangement of the movement compartment described. Fig. 5 is a view of the electronic diagram which determines the intervention of the relays to control the movement according to the desired direction of rotation. The switch 20 in position 21, through the spiral cable 22 passing through the limit switch 23, energizes the coil of the relay 24 which transmits current to the gearmotor 25 thus making it turn clockwise. The same switch 20 in position 26, again through the spiral cable 22 passing through the limit switch 27, energizes the relay coil 28 which transmits current to the gearmotor 25 making it turn counterclockwise. In Table 2 fig. 6 is a perspective view of the elevator with the operator just arriving on the pad 11 while restoring the protection cage by applying the sleeper 29 in position before intervening on the electronic control 18. Fig.

7 is a perspective view of the same elevator of fig. 6 with stand 11 reaching the upper travel limit. The pad 11 provides a protective cage consisting of a frame with a fixed part with four uprights 30 and three connecting parapets 31 which can be completed, after the operator has climbed onto the pad 11, by applying a sleeper 29 for the insertion of its pins. 32 in the profile ducts of the front uprights 30. For use, the operator manually moves the movable lift on wheels with grip on one of its parapets 31 to the desired parking point, then accesses the stand 11 and, using the electronic control 18, reaches the height of approval. In the embodiments, the shape of the elevator, the materials, the movement apparatuses, the various kinematic mechanisms as well as the electronic control system may otherwise be provided and related to the specific requirements of use.

Claims (4)

CLAIMS 1) Universal lift for the person with electronic control, characterized by the fact that it uses on a trolley (1) a pair of profile columns (2) with internally, set on small legs (3) supported by the frame crosspieces (4), a pair of shafts (5) with intermediate threading (6) passing through a central spiral duct (7) of bodies (8) with an amplitude related to that of their sliding channels which support, on brackets (9) passing in opposing longitudinal guide slots (10 ), the intermediate pitch (11). On the platform (12), in a space protected by a curved shape (13), there is a gearmotor (14) with a toothed wheel (15) which, in a symmetrical pattern by means of a chain (16), transmits movement to a pair of pinions (17 ) placed on the lower ends of the shafts (5). The operator, standing on the pad (11) with the electronic commutator control (18) that transmits on line (19), determines the intervention of the relays that control the direction of rotation of the motor shaft and in relation to the ascent or the descent of the pitch (11) to the desired point between pre-established travel limits. 2) Universal lift for the person with electronic control, as per the previous claim, characterized by the fact that the switch (20) in a position (21), through the spiral cable (22) passing through the limit switch (23), excites the coil of the relay (24) which transmits current to the gearmotor (25) thus making it turn clockwise. The same switch (20) in another position (26), again through the spiral cable (22) passing through the limit switch (27), excites the relay coil (28) which transmits current to the gearmotor (25) making it turn in the direction counterclockwise. 3) Universal lift for the person with electronic control, as per the previous claims, characterized by the fact that the pad (11) provides a protection cage consisting of a frame with a fixed part with four uprights (30) and three connecting parapets (31). ) which can be completed, after the operator has climbed onto the apron (11), by applying a sleeper (29) to insert its pins (32) into the profile ducts of the front uprights (30). 4) Universal lift for the person with electronic control, as per the previous claims, characterized by the fact that for use the operator manually moves the movable lift on wheels with grip on one of its parapets (31) up to the parking point desired, then accesses the pitch (11) and, by means of the electronic control (18), reaches the desired height.