ES2358942A1 - Adjustable mezzanine floor - Google Patents

Abstract

The invention relates to a mezzanine floor provided with a system for extending all of the components thereof, which allows the floor to be installed anywhere and moved to other locations, wherein one structure can be adapted to different spaces without any changes having to be made to said structure. The structure is formed by four extendable posts (1) which support two extendable beams (12) by means of a capital (7). Connectors are used to connect a series of extendable joists (17) to the aforementioned beams and the level floor (21) is installed on said joists. The invention also includes a staircase (22) secured to the top part of the structure by means of connectors.

Description

Adjustable mezzanine

The present invention relates to a mezzanine provided with an extension system in all its components, which allows placement in any suitable place as well as the change of location, being able to adapt the same structure to other architectural spaces without the need for carry out masonry work or changes in the structure.

It has its field of application within the industry of auxiliary components of construction and singularly in the auxiliary industry of the mezzanines.

In this sector of the technique, those prevail effective developments and specifically dedicated to the function in question, that give rise to a system of simple installation, with Low cost and technically appreciable results. The System features presented in this invention are adapted perfectly to this concept, offering the state of the art a novel, simple, simple and manufacturing embodiment highly economical

They know each other in this industry sector Some models that do not contribute to the state of the art novel features proposed by the present invention. He state of the art provides fixed mezzanines, custom made according to the details of the location where it will be installed and other type of modular mezzanines consisting of fixed modules of preconceived sizes and that have to undergo an adaptation to place at the time of installation.

Facing the news provided by this invention, the known mezzanines have the following Disadvantages: Cannot be reused for other locations, due to that reason to despise the installed mezzanine and install a new one in the case of transfer to another place. Necessary specialized personnel to carry out the installation of known mezzanines. The cost of transport of these conventional mezzanines is higher than the one proposed by the present invention, because it involves the use of trucks sufficient length to accommodate components necessarily of fixed measures. It takes more time for your dedication installation. Modular mezzanines being constituted by modules subject to each other, have a lower firmness than proposed by the present invention. They are less versatile. its Installation is complicated. They are accompanied by works by brickwork.

It implies the displacement of an operator to take measurements of the location where the Mezzanine with the consequent economic cost. The manufacture of you are conventional mezzanine because it is necessary Producing it in units is significantly more expensive than proposed by this invention. For the same reason you cannot have an adequate stok, assuming time dilation of service.

Faced with these described drawbacks, the The present invention provides solutions to the state of the art novel, simple and easy to execute that result in following advantages:

They can be reused for other sites, it is not necessary to despise the installed mezzanine and install a new one in the case of transfer to another place. It is not necessary to specialized personnel to carry out the installation of the mezzanine proposed by the present invention. The cost of transport is lower than that of conventional mezzanines, because The use of large vehicles is not necessary. Time dedicated to its installation is noticeably inferior. The firmness that offers the mezzanine proposed by the present invention is superior to that offered by modular mezzanines. It's more versatile. Its installation is not complicated. It is not accompanied by works of masonry. It is not necessary to move an operator to take measurements of the location where the Mezzanine with the consequent economic savings. The making It has a lower cost to be able to manufacture in series, since the measures of its components are always the same. For the same reason it you can have an adequate stok, assuming savings in service time.

All these conjugated elements give rise to a final result in which differentiating characteristics are provided significant compared to the state of the art.

Thus, the invention is constituted from four pillars of steel or a material thereof characteristics composed of tubes with telescopic relationship. A circular metal plate, with holes to hold it to the ground by screws, it is welded off-center in the bottom of the bottom tube, leaving the widest area oriented towards the inside of the structure and thus prevent the pillar from being Too much distance from the wall. The two tubes that form the pillar you have matching perforations that through a pin They regulate the height of the structure. At the upper end of the pillar there is a capital of the same material, formed by a plate bent at right angles, welded to the pillar on one side and attached the other side by screws to a beam, described more ahead. The bent right angle plate that forms the capital has on the side welded to the pillar a reinforcement plate welded to the pillar and to the capital.

To the capital, it is united in a way solidarity with screws, a steel beam whose cut in Section presents a rectangular shape. One of the major sides of the rectangle, presents an opening in the entire length of the beam with sufficient amplitude to accommodate a connector, formed by a plate of the same material as the previous components, bent at an angle straight. One side of the connector is coupled by screws inside the rectangle formed by the beam, the other side of the connector, fits in the same way inside a joist, similar to the beam although smaller in size. On the side from the opposite beam to the one that is cut in its entire length, there are some perforations coinciding with the perforations of the capital and the connector, also has other perforations larger than They act of passing cables.

The beams and joists are composed of two parts inserted into each other, with telescopic relationship that fixing them by bolts through their perforations they will give the width and depth of the mezzanine. Each beam is joined by its ends to a pillar, forming a beam and two pillars one set and the mezzanine consists of two sets one anterior and other posterior joined by joists which in turn they support the flat floor, formed by plates of a hard material, screwed to the joists. The floor is placed on this ceiling definitive according to the use to which the mezzanine is intended.

On the most convenient side of the structure there is a staircase made by two stringers, formed by beams Extendable provided at its upper ends with a connector, formed by a plate bent twice at right angles, joined by screws, one side to the stringers and the other two sides to one beam or joist and to the ground. The lower end of the beams that form the ladder incorporate other anchors formed by a plate bent at the right angulation depending on the tilt of the ladder.

United by screws to the perforations of both beams are located the steps of resistant material.

A different embodiment is manufactured with other material with sufficient strength and rigidity to Withstand the design load.

Another different embodiment is constituted by More than four pillars.

Another different embodiment incorporates pillars of polygonal shape

Indistinctly the base plate located in the lower end of the pillar, has a polygonal shape.

Indistinctly the reinforcement plate of the capital located at the top end of the pillar, is shaped polygonal.

Differently the profile of the beams and joists are shaped like sigma, zeta, omega or "u".

Another different embodiment is constituted by Profile beams and joists of square shape.

In a different way the mezzanine incorporates a railing located at the top,

Indistinctly the staircase has railing.

In another different embodiment, the ladder can fold down, with the axis of rotation in its part higher.

Alternatively the ladder is hidden under the mezzanine beams moving horizontally inwards is

Indistinctly the ladder is held by a foot that hangs from the bottom of the ladder in one of its lateral so that free passage is allowed under it.

The staircase pivots differently towards a side, having the axis of rotation in one of its stringers or in the support beams of the steps and folding handrails.

In another different embodiment the ladder is it places inside the mezzanine, between two joists, opening a hollow in the floor of the upper floor for access.

Differently the union of the elements Adjustable is carried out by means of tabs incorporated in the pieces, so that it is not necessary to use hardware or other fasteners

For a better understanding of this memory descriptive, accompanying some drawings that by way of example not limiting describe a preferred embodiment of the invention:

Figure 1.- Overview

Figure 2.- Pillar

Figure 3.- Capital

Figure 4.-Beam

Figure 5.- Connector of the beam to the beam

Figure 6.- Ladder

Figure 7.- Ladder connector to the mezzanine

Figure 8.- Stair base plate

In these figures the following stand out numbered items:

one.-

Pillar

2.-

Top piece of the pillar

3.-

Bottom piece of the pillar

4.-

Pillar base plate

5.-

Perforations of the lower part of the pillar

6.-

perforations of the upper part of the pillar

7.-

Capital

8.-

Face from the capital welded to the pillar

9.-

Face of the beam securing capital

10.-

Capital perforations

eleven.-

Reinforcement plate capital

12.-

Beam

13.-

Longitudinal section of the beam

14.-

Beam to joist connector

fifteen.-

Beam perforations

16.-

Beam parts

17.-

Joist

18.-

Beam connector face to the beam

19.-

Beam connector perforations a joist

twenty.-

Connector face attached to the joist

twenty-one.-

Ground floor

22.-

Stairs

2. 3.-

Ladder connector

24.-

Sliding Perforations

25.-

Plate welded to the edge of the ladder connector

26.-

Clamping plate of the stairs

27.-

Plate perforations welded

28.-

Stair Beams

29.-

Ladder Base Connector

30.-

Base connector face to the beam

31.-

Base connector face to ground

32.-

Drilling the base connector to ground

33.-

Steps

3. 4.-

Barrette

A preferred embodiment of the invention is constitutes from four pillars (1) of steel, cylindrical, composed of two pieces (2 and 3) that fit one inside the other, one located at the top (2) and of smaller diameter, that slides into the other (3) located at the bottom and of greater diameter, with sufficient tolerance to allow its glide. The lower part (3) has at one end of a plate (4) of the same material, round, with several perforations, is welded to the abutment in an off-center manner. The piece bottom (3) of the pillar (1) has at least two perforations (5) at the same level and opposite located at the other end where it is located the base plate (4) mentioned above. The other piece of pillar (2), smaller in diameter than the lower part (3), has full length and spaced apart from equal perforations (6) to that of the lower part (3) of the pillar (1). Joining with a pin (34) the perforations of the lower part (3) with one of the practiced in the upper part (2), the height of the mezzanine. At the upper end of the smaller diameter piece (2) of the pillar (1) a capital (7) of the same material is placed, formed by a plate folded at right angles so that It has two vertical faces, one of them (8) wide equal to the upper part (2) of the pillar (1), it is welded to it, the another face (9) of width equal to the beam (12), described more ahead, it has some perforations (10) coinciding with others practiced on the beam (12). On the outside of this same face (9), at least one reinforcement plate (11) is in the form of arc, whose flat part is welded to the capital (7) and to the piece upper (2) of the pillar (1) together.

The capital (7), already described, is attached in solidarity with screws, a beam (12) thereof material than the previous components, rectangular, with a longitudinal section (13) on one of the major sides of the rectangle, practiced in all its extension with sufficient amplitude to accommodate a connector (14), described below. In the face opposite to this cut (13) there are perforations (15) throughout the beam length (12) coinciding with the perforations of the capital (7).

These beams (12), like the pillars (1), they are composed of two pieces (16) inserted one inside the another, with enough tolerance to allow it to slide and that fixing them by bolts through their perforations (15) they will give the width of the mezzanine.

To the connector (14) mentioned above and which described below a joist is attached by screws (17) in the same way, material and composition as the beams (12), of the same length and somewhat smaller in section, its extensibility Regulates the depth of the structure. Incorporates in each of its ends a connector (14) formed by a plate of the same material that the previous components, bent at right angles, remaining two faces perpendicular to each other. One of these faces (18) has the sufficient dimension to fit inside the rectangle formed by the beam and with the necessary perforations (19) coinciding with those practiced on the beam (12) and attached to it by screws The other side of the connector (20) has the measurements necessary to be coupled in the same way as before end of the joist (17). Each of its ends is coupled to the corresponding beam (12) by the connector (14) above described, arranging the entire length of the beams (12) the enough joists (17) to support the weight to which it is intended the structure.

Each beam (12) is joined at its ends to a pillar (1), forming a beam (12) and two pillars (1) a set and the mezzanine is formed by two sets one previous and another later joined by joists (17) which in turn support the flat floor (21), formed by plates of a hard material, screwed to the joists (17). On this ceiling (21) is place the final floor according to the use for which the mezzanine.

On the most convenient side of the structure there is a ladder (22) formed by two extensible beams (28) provided at its upper ends with a connector (23), formed by a plate bent at right angles (26) in which in each of its faces incorporates a perforation in the form of a slide (24), which is bolted to a beam (12) or joist (17) using the perforations available to them and to the ground (21). This plate and welded to the edge of one of its faces in the direction vertical, another plate (25) that forms an angle with the previous one superior to 90º, and that gives the inclination to the ladder (22), this plate (25) has perforations (27) coinciding with the perforations of the beams (28) that support and they form the ladder (22) to which they are attached by screws. The other end of the beams (28) that form the ladder (22) incorporate other connectors (29) formed by a plate folded in right angle at which one of its faces (30) is bolted to each one of the beams (28). The other side of the plate (31) has the minus a perforation (32) by which the ladder joins (22) to the ground by expansion anchor.

United by screws to the perforations of both beams (28), the steps (33) of material are located resistant.

Claims (21)

1. Adjustable mezzanine consisting of four steel pillars or a material of the same characteristics composed of tubes with telescopic relationship, a circular metal plate, with holes to hold it to the ground by means of screws, is welded off-center in the base of the lower tube, leaving the widest area oriented towards the interior of the structure, the two tubes that form the pillar have coincident perforations that by means of a pin regulate the height of the structure, at the upper end of the pillar there is a capital of the same material, characterized in that the capital is formed by a plate bent at right angles, welded to the pillar by one of its sides and attached to the other side by means of screws to a beam. 2. Adjustable mezzanine according to claim 1, characterized in that the right angle bent plate that forms the capital has a reinforcement plate welded to the pillar and the capital on the welded side. 3. Adjustable mezzanine according to claims 1 and 2, characterized in that a steel beam whose sectional section has a rectangular shape is attached to the capital by screws. 4. Adjustable mezzanine according to claims 1 to 3, characterized in that one of the major sides of the rectangle, which draws the profile of the beam, has an opening along the entire length of the beam with sufficient amplitude to accommodate a connector. 5. Adjustable mezzanine according to claims 1 to 4, characterized in that the connector is formed by a steel plate bent at right angles and one side of the connector is coupled by screws inside the rectangle formed by the beam, the other side of the connector, fits in the same way inside a joist, similar to the beam although smaller in size. 6. Adjustable mezzanine according to claims 1 to 5, characterized in that there are perforations on the side of the beam opposite to the one that is cut in its entire length, coinciding with the perforations of the capital and of the connector and other larger perforations that act as a passing cables. 7. Adjustable mezzanine according to claims 1 to 6, characterized in that the beams and joists are composed of two pieces inserted into each other, with telescopic relationship that fixing them by means of pin screws through their perforations will give the width and depth of the mezzanine. 8. Adjustable mezzanine according to claims 1 to 7, characterized in that each beam is joined at its ends to a pillar, a beam and two pillars forming a set and the mezzanine is formed by two sets, one anterior and one posterior joined by the joists in turn they support the flat floor, formed by plates of a hard material, screwed to the joists and because on this floor the final floor is placed according to the use to which the mezzanine is intended. 9. Adjustable mezzanine according to claims 1 to 8, characterized in that on the most convenient side of the structure there is a ladder made of two stringers, formed by extensible beams provided at its upper ends with a connector. 10. Adjustable mezzanine according to claims 1 to 9, characterized in that the ladder connector with the mezzanine is formed by a plate bent twice at right angles, connected by screws, one side to the stringers and the other two sides to a beam or joist and floor. 11. Adjustable mezzanine according to claims 1 to 10, characterized in that the lower end of the beams that form the ladder incorporates other anchors formed by a plate folded at the appropriate angle depending on the inclination of the ladder. 12. Adjustable mezzanine according to claims 1 to 11, characterized in that the mezzanine consists of more than four pillars. 13. Adjustable mezzanine according to claims 1 to 11, characterized in that the pillars are polygonal in shape. 14. Adjustable mezzanine according to claims 1 to 11, characterized in that the profile of the beams and joists are in the form of sigma, zeta, omega or "u". 15. Adjustable mezzanine according to claims 1 to 11, characterized in that the profile of the beams and joists is square. 16. Adjustable mezzanine according to claims 1 to 11, characterized in that the ladder can be folded up, with the axis of rotation at its top. 17. Adjustable mezzanine according to claims 1 to 11, characterized in that the ladder is hidden under the beams of the mezzanine by moving it horizontally into it. 18. Adjustable mezzanine according to claims 1 to 11, characterized in that the ladder is held by a foot that hangs from the bottom of the ladder on one of its sides so that free passage is allowed under it. 19. Adjustable mezzanine according to claims 1 to 11, characterized in that the ladder pivots to the side, the axis of rotation having one of its stringers or the support beams of the steps and the folding handrails. 20. Adjustable mezzanine according to claims 1 to 11, characterized in that the ladder is located within the mezzanine, between two joists, opening a gap in the floor of the upper floor for access. 21. Adjustable mezzanine according to claims 1 to 11, characterized in that the joining of the adjustable elements is carried out by means of tabs incorporated in the pieces, so that it is not necessary to use screws or other fasteners.