FR3054536A1 - TELESCOPIC DEVICE FOR CLIMBING HYDRAULIC JACKS FOR GROUND OR IMMERSION - Google Patents

Abstract

The present invention relates to a lifting mechanism by hydraulic jacks assembled in small volume cluster, intended to obtain a sequential or continuous telescopic displacement of a number of segments determined according to the stroke required for a given application (see Figure-3) . This original hydraulic motor can be used in land or underwater installation. This device is adapted to operate with aqueous fluids, mineral oils or biodegradable synthetic fluids. The device operates up to 450 bar pressure. This device can be totally immersed in a neutral fluid or be installed on the surface. The hydraulic generation required for the power supply and the automation will be installed near the device, in a room protected from bad weather. This hydraulic mechanism has been developed for all lifting applications involving reduced dead volumes, such as lifting tables, slab formwork, assembly props, moving bottoms for private or public pools, etc. The peculiarity of this device is to allow the upward or downward movement of a load in a horizontal plane between two heights and to maintain it in any intermediate stationary position. The clusters of cylinders are distributed homogeneously to obtain a horizontal displacement of the horizontal plane.

Description

054 536

01152 ® FRENCH REPUBLIC

NATIONAL INSTITUTE OF INDUSTRIAL PROPERTY © Publication number:

(only to be used for reproduction orders) © National registration number

COURBEVOIE © Int Cl ⁸ : B 66 F3 / 28 (2017.01)

PATENT INVENTION APPLICATION

A1

©) Date of filing: 07.26.16. (© Priority: (© Applicant (s): DB INDUSTRIES Société anonyme - FR. @ Inventor (s): DANIEL BAR. ®) Date of availability of the request: 02.02.18 Bulletin 18/05. ©) List of documents cited in the preliminary search report: See the end of this booklet (© References to other related national documents: (® Holder (s): DB INDUSTRIES Société anonyme. ©) Extension request (s): © Agent (s): DB INDUSTRIES.

154) TELESCOPIC DEVICE OF HYDRAULIC CYLINDERS IN A CLUSTER FOR EARTH OR UNDERWATER MOUNTING.

FR 3 054 536 - A1

The present invention relates to a lifting mechanism by hydraulic cylinders assembled in a small volume cluster, intended to obtain a sequential or continuous telescopic movement of a number of segments determined according to the stroke necessary for a given application (see FIG. 3). .

This original hydraulic motor can be used in land or submerged mounting. This device is suitable for operating with aqueous fluids, mineral oils or biodegradable synthetic fluids. The device works up to 450 bar pressure.

This device can be completely immersed in a neutral fluid or be installed on the surface. The hydraulic generation necessary for the power supply and the automation will be installed near the device, in a room protected from the weather.

This hydraulic mechanism has been developed for all lifting applications involving reduced dead volumes, such as lifting tables, slab formwork, props, mobile bottoms for private or public pools, etc.

The particularity of this device is to allow the upward or downward movement of a load in the horizontal plane between two heights and to maintain it in any intermediate stationary position.

The cylinder clusters are distributed homogeneously in order to obtain a horizontal displacement of the horizontal plane.

i.

PATENT OF INVENTION: TELESCOPIC DEVICE OF HYDRAULIC CYLINDERS IN A CLUSTER FOR EARTH OR UNDERWATER MOUNTING

DESCRIPTION OF THE INVENTION

The present invention relates to a lifting mechanism by hydraulic cylinders assembled in a small volume cluster, intended to obtain a sequential or continuous telescopic movement of a number of segments determined according to the stroke necessary for a given application.

This original hydraulic motor can be used in land or submerged mounting. This device is suitable for operating with aqueous fluids, mineral oils or biodegradable synthetic fluids. The actuators, components and hydraulic connections involved in this device operate at pressures up to 450 bar.

This device can be completely immersed in any neutral fluid or be installed on the surface. The hydraulic generation necessary for the supply and automation of the “Telescopic Device for Hydraulic Cylinders in Clusters” is generally installed near the device, in a room protected from the weather.

This hydraulic mechanism has been developed for all lifting applications involving reduced dead volumes, such as lifting tables, slab formwork, props, mobile bottoms for private or public pools, etc.

This invention, “Telescopic Device for Hydraulic Cylinders in Cluster” will be subsequently called “DTVHG”.

These “DTVHG” devices are specially adapted for aqueous hydraulic fluids and synthetic biodegradable fluids, which are completely miscible, in order to be consistent with the principles of nature protection. The mechanism proposed in this description is adapted to operate with pressurized and filtered fresh water when it is a piece of equipment immersed in a specific aqueous environment. In the case of terrestrial equipment, the mechanism can also operate with biodegradable mineral or synthetic oils.

The special feature of the "DTVHG" devices is that it allows the movement in any horizontal plane of any mobile surface between two heights and keeps it in any intermediate stationary position. This specificity is mainly dedicated to applications whose height must be adjusted according to uses such as: movable pool bottom, formwork, shoring, etc.

File: DTVHG -ROI

2.

The principle of hydraulic transmission of the "DTVHG" system allowing the perfectly horizontal movement of a surface is innovative and original. The functional description of the invention relates to the mechanism of a movable pool bottom. Figure -1 represents the principle of the “Telescopic Device of Hydraulic Cylinders in Cluster” within the framework of a submerged application.

The upward or downward movement of the movable bottom of the pool is obtained by the simultaneous linear movement of the clusters of actuators installed. The height of the movable floor can be adjusted to an intermediate value between the low position and the high position, limited by the stroke of the cylinders installed (see Figure-2).

The displacement of the cylinders in “Cluster” is vertical. These units fixed to the basin structure by their rear flanges offer direct transmission to the movable floor. As a result, unless the units mentioned are installed in pits, a minimum height of the movable floor that cannot be used. The telescopic deployment of the cylinders is sequential by 400 mm stroke or continuous by parallel feeding of all the cylinders in each cluster. The maximum height is determined by the number of cylinders making up the “Cluster” (see Figure-3). The synchronized upward and downward movements of the linear “cluster” cylinder units are controlled by a hydraulic pressurized and secure water automation system, specifically adapted to the present application. All the components involved are made of stainless or unalterable materials.

In the case of a basin with a depth of 2.50 meters, a “Cluster” will consist of 7 cylinders, each having a stroke of 400 mm, the total stroke of the 4 stages mentioned will be 1600 mm (see Figure- 4) according to the kinematics described below.

The cylinders of the lower level (1.1 & 1.2), shown in red, are fixed by the rod flanges (5.1 & 5.5) on the basin structure; this pair of cylinders (red) is integral with the cylinders of the second level (2.1 & 2.2), represented in green, by a part assembling the four cylinders drums; as a result, when the lower pair of cylinders (red) deploys, it drives the second level cylinder pair (green). By mechanical implication, the pair of jacks (3.1 & 3.2), shown in yellow, attached to the pair of green jacks, is driven by an assembly part identical to that mentioned before, to ensure the movement of the third level. The last level is obtained by the jack (4), shown in blue, which ensures the last stroke segment as well as the centering of the force applied to the movable bottom structure. The symmetrical positioning of the “Clusters”, the constant flow regulation in each of the seven segments of this system and the synchronization between the “Clusters” composing the system, will allow the moving bottom of the mobile bottom of the pool mentioned in horizontal plane (see Figure- 4).

File: DTVHG -ROI

3.

Claims (4)

1. Telescopic Cluster Hydraulic Cylinders (DTVHG) intended for lifting applications involving a reduced dead volume and requiring a displacement in horizontal plane of any mobile surface between two heights and to maintain it in any intermediate stationary position, said device being a lifting mechanism by hydraulic cylinders of small volume assembled in a cluster to obtain a sequential or continuous telescopic movement of a number of segments determined according to the stroke necessary for a given application, characterized in that the DTVHG device described in (figure -3) has four segments composed of a couple of two hydraulic cylinders (1.1 & 1.2) assembled together, the cylinder rods each comprising a fixing plate (5.1 & 5.2) necessary to support the device to drive the second couple two hydraulic cylinders (2.1 & 2.2) assembled together and whose drums are firstly secured by an assembly part with the barrels of the jacks (1.1 & 1.2) and also with the barrels of the pair of jacks (3.1 & 3.2) forming the third segment, the latter being secured by an assembly part on these rods with the barrel (4) which forms the fourth segment. 2. Telescopic Device for Hydraulic Cluster Cylinders according to claim 1., characterized in that the stroke of each cylinder making up the cluster is identical (FIG. 3) in order to obtain a total stroke equal to the sum of the four segments as well as '' a minimum height and a reduced volume when all the rods are retracted (figure-2 & figure-3). 3. Telescopic Device for Hydraulic Cylinders in Cluster according to claim 1., characterized in that this original motorization can be used in terrestrial or submerged mounting because the materials composing the DTVHG are adapted to operate at pressures up to 450 bar with aqueous fluids, mineral oils or biodegradable synthetic fluids in an air (Figure-2) or submerged (Figure-1) environment. 4. Telescopic Device of Hydraulic Cylinders in Cluster according to any one of the preceding claims, characterized in that the DTVHG device intended for the motorization of the mobile funds of entirely submerged swimming pools (figure-4) is actuated by an aqueous hydraulic fluid of composition analogous to the aqueous medium in which it is immersed. File: DTVHG -ROI 1/4 DRAWINGS