Outdoor advertising structure with a tilting, lowerable screen

Abstract

The invention relates to an outdoor advertising structure with a tilting, lowerable screen, formed by a pedestal and a screen whereon the advertisement is placed, and which does not put up resistance to the passage of wind. The invention has a mechanism that allows the screen to tilt during strong winds and to return to the vertical position when the wind stops or loses strength. It also has a mechanism that allows the advertising material exhibited on the screen to be constantly and uniformly held taut, especially when said advertising material is made of a type of canvas or similar material. The pedestal is formed by two tubes of different diameters, which, by means of a lifting mechanism, allow the upper screen to be lowered in order to replace the exhibited advertisement, or to carry out repairs and/or maintenance. The invention reduces to minimum accidents that occur when carrying out any intervention, as well as the likelihood of the structure collapsing. It also reduces costs relating to materials, production, cranes, transportation, lying of foundations and maintenance. The invention also reduces the amount of graffiti and undoubtedly improves the aesthetics of the urban landscape.

Claims

1. Outdoor billboard that can be tilted and lowered, and does not put up resistance to the wind, comprising: a pedestal comprising: a first hollow tube having a base; a second hollow tube having a lower end and an upper end and having a smaller diameter that the first hollow tube, said second hollow tube being slidable inside the first hollow tube so that the second tube can be lowered and lifted; means for lowering the second hollow tube inside the first hollow tube and for lifting the second hollow tube out of the first hollow tube, said means comprising a mechanism including a moto-reducer employing sprockets and chains holding the second hollow tube; a screen having: a front and a rear surface; an upper end having an upper profile having two notches along its length and at least one supplementary notch across its length, which allows to hold additional advertising elements in order to make them stand out from the upper edge of the screen; a lower end; an advertising material placed on a surface of the screen, having a perimeter hem forming a perimeter bag having an upper portion and a lower portion wherein the upper portion and the lower portion are inserted on a notch of a corresponding profile; a rod, inserted along the upper portion of the perimeter bag and supported by a notch of the upper profile, for preventing the advertising material from coming out of the notch; wherein the lower end of the screen having a tension mechanism to keep advertising material in constant tension over the front or rear surface of the screen; wherein the lower end of the screen is pivotally connected to the upper end of the second hollow tube; and a tilting mechanism, allowing the screen to pivot and tilt over the upper end of the second hollow tube according to the force of the wind and returning to a vertical position, said tilting mechanism comprising a counterweight suspended from a steel wire connected to the lower end of the screen and located inside the first hollow tube and second hollow tube, said counterweight exerting a constant downward force on the lower end of the screen, and wherein the steel wire exits the second hollow tube trough the upper end to be connected to the lower end of the screen.

2. Outdoor billboard according to claim 1 wherein the tension mechanism to keep advertising material in constant tension comprising a flute located along the lower end of the screen, said flute having a hollow interior including a pair of rollers attached therein, each roller being inserted in the lower portion of a perimeter bag of an advertising material, each roller having hooks attached to their edges to hook the lower portion of the advertising material and each roller being driven by a spring, each spring having a first and a second end, wherein the first end of each spring is attached to an inner wall of the flute, and the second end of each spring is attached to an edge of the roller, so that each spring exerts a force on a correspondent roller thus pulling the anchor which in turn rolls and pulls the advertising material towards the inside of the flute to keep it constantly and evenly tightened.

3. Outdoor billboard according to claim 1, wherein the means for lowering the second hollow tube inside the first hollow tube and for lifting the second hollow tube out of the first hollow tube comprising: a motor-reducer located on the base of the first hollow tube, driven by a spinning a lever inserted through a hole on the lower portion of the first hollow tube, said motor-reducer transmitting its force through a traction element consisting of a serrated wheel on an element that is preferably formed by a section of a chain and a section of a wire, which by using a pulley installed on the upper part of the first hollow tube, pushes and slides the second hollow tube inside the first hollow tube, wherein the second hollow tube slides into and out the first hollow tube by contacting rods located on the upper part of the first hollow tube for protecting the surface of the second hollow tube from any friction that may damage the finishing.

4. Outdoor billboard according to claim 1, wherein the tilting mechanism further comprising two sets of pulleys located at the upper end of the second hollow tube, wherein the steel wire passes between the set of pulleys, thus allowing the steel wire to work with no friction during times of strong winds.

5. Outdoor billboard according to claim 1, wherein the tension mechanism to keep advertising material in constant tension comprising a flute located along the lower end of the screen, said flute having a hollow interior including a pair of rollers attached therein, each roller being inserted in the lower portion of a perimeter bag of an advertising material, and each roller being driven by a spring, each spring having a first and a second end, wherein the first end of each spring is attached to an inner wall of the flute, and the second end of each spring has a hook to hook the lower portion of the advertising material, so that each spring pulls the lower portion of the advertising material towards the inside of the flute guided by a correspondent roller to keep it constantly and evenly tightened.

6. Outdoor billboard according to claim 1, wherein the lower end of the screen is attached to a pendulum pivoting over a shaft.

Description

SHORT DESCRIPTION OF THE FIGURES

(1) FIG. 1) shows a frontal view of the outdoor advertising structure (0), in which the screen (4) is in a vertical position.

(2) FIG. 2) shows a lateral view of the structure (0) with the screen (4) also in a vertical position.

(3) FIG. 3) shows the screen (4) tilting, according to the wind flow.

(4) FIG. 4) shows the screen (4) in a retracted position, once it is lowered up to some centimeters above the ground.

(5) FIG. 5) shows the mechanism that turns the weight of one part of the structure into the counterweight required for tilting the screen (4) and taking it back to its vertical position.

(6) FIG. 6) shows a mechanism that allows the screen (4) to tilt and to go back to its vertical position by using a tightening spring (28) fixed to the foundation of the structure.

(7) FIG. 7) shows a mechanism that uses a compression spring (29) to allow the screen (4) to tilt and go back to its vertical position.

(8) FIGS. 8) and (8-A) show a mechanism that allows the screen (4) to tilt and go back to its original position operating both ways, using two torsion springs (30) installed on shaft 17.

(9) FIG. 9) shows a mechanism that allows the screen (4) to tilt and go back to its vertical position by using a pneumatic piston fixed to the foundation of the structure.

(10) FIG. 10) shows an adjustment mechanism for the advertising material (32) that uses a series of rollers (11) installed along the screen (4), provided with hooks that anchor and keep the advertising material (32) tight by using the strength of the springs (10).

(11) FIG. 11) shows a mechanism that tightens the advertising material (32) by using rollers (11), on which the advertising material (32) is rolled and tightened, fixing it with the hooks found on the springs (10).

(12) FIG. 12) shows the upper profile (5) of the screen (4) showing two longitudinal notches fixed to the advertising material (32) through the insertion of rods (34).

(13) FIG. 13) shows the operation of a winch (31) as a lifting mechanism to move the tube with the smaller diameter (3) through the tube with the bigger diameter.

(14) FIG. 14) shows a lifting mechanism that uses a zipper (34) or jagged rod to move the tube with the smaller diameter (3) inside the tube with the bigger diameter (1).

(15) FIG. 15) shows the crank used to operate the motor-reducer (16).

(16) FIG. 16) shows the mechanism used to release the locks (24) that lock tube (1) to tube (3).

(17) FIGS. 17) and (18) show the locks (13) that hold and fix the spring (26) to the tube (3), as well as the mechanism used to release such locks automatically while lowering the screen (4).

(18) FIG. 19) shows the plates (15) installed on the upper part of the tube (1) and the lower part of the tube (3), which conically assemble and hold both tubes.

(19) FIG. 20) shows a lateral perspective view of the upper profile (5), showing two notches (N), (N) and a supplementary notch (S).

(20) FIG. 21) shows a lateral view of the upper profile (5), showing two notches (N), (N) and a supplementary notch (S) holding additional advertising elements (A).

(21) FIG. 22) shows a lateral perspective view of the advertising material (32).

(22) FIG. 23) shows a lateral view of the advertising material (32) showing the hems (H) forming a perimeter bag (B).

DETAILED DESCRIPTION OF THE INVENTION

(23) In general, this invention consists of an outdoor advertising structure (O) with a screen that can be tilted and lowered. Such screen (4), when being struck by the wind, tilts and then goes back to its vertical position, using a mechanism that consists of a counterweight (2) suspended by a wire, preferably made of steel, within the pedestal, formed by tubes (1) and (3) that support the structure.

(24) The flute (9), that is the tube that supports the screen (4), transmits the force of the wind to the inner mechanism of the structure, in this case, the counterweight (2), in order to balance the screen (4), which, in case of strong wind or sudden wind gusts, will stay tilted or in a completely horizontal position, as long as the wind persists.

(25) The mechanism that allows the screen (4) to tilt and then go back to its vertical position, in addition to the counterweight, can include tension springs (28), contraction springs (29), and/or torsion springs (30). It can also use the very weight of the structure through a set of pulleys (see FIG. 5), rods or levers; of a piston or pneumatic device compressing a gas when the screen is tilted (see FIG. 9); or any other device with a retractile function; or a combination of one or more mechanisms such as the ones mentioned above.

(26) When the wind is not so strong or when it is not strong enough, the screen (4) will be vertically aligned, as shown in FIG. 1). While in vertical position, the lifting mechanism, formed by the counterweight (2), exerts enough tension on the wire (23) to keep both sets of pulleys (7 and 8) aligned, one on top of the other. These pulleys allow the wire (23) to work with no friction during times of strong winds and they enable the realignment of the components involved in the tilting of the screen (4), or when the spring (26) is articulated in order to lower the screen (4) and lift it back again.

(27) The advertising material (32), in this case a canvas, or any other material to be tightened, can be fixed to the screen (4) by bending and vulcanizing the hems (H) on each side of the canvas, forming a perimeter bag (B).

(28) The upper side is inserted into a longitudinal notch (N) on the upper profile (5) of the screen (4) (see FIG. 12). Once the bag is inserted into the profile (5) longitudinal notch (N), a rod (34) is inserted along the bag (B), which will be used as a lock and prevent the advertising material (32) from coming out of the notch (N) when applying tension for adjustments (see FIG. 12). FIG. 10) shows how the final adjustment will be performed inside the flute (9) through the rollers (33) anchored to the advertising material (32) with the use of hooks (11); which, in addition to working as lids for one of the edges of the rollers (33), are able to spin through springs (10) which allows the advertising material (32) to roll in order to be tightened. In FIG. 11), the rollers do not have hooks on the edges, but these hooks are added to the springs (10) in order to tighten the advertising material (32). Once the advertising material (32) is rolled on these rollers (33), it will stay tightened even during strong winds, discarding the possibility of vibration shaking the advertising material (32), as the wind cannot enter the space between both sides of the screen (4), extending the useful live and durability of the screen (4) components and the advertising material (32) itself.

(29) The profile (5), according to FIG. 12, shows at least one supplementary notch (S) across its length, which allows the advertiser to hold additional advertising elements (A) in order to make them stand out from the upper edge of the screen (4), making advertisements more versatile and attractive.

(30) In case of wind, using as a solid rod as central axis provided with rotational elements, in this case four rowlocks (17), the screen (4) is tilted by inversely pushing the pendulum (6), which pulls the wire (23), through the ball joint (12) in order to lift the counterweight (2) located inside the tube (1).

(31) Using the very weight of the structure (see FIG. 5); using the energy stored by a pneumatic mechanism, such as a piston (see FIG. 9); or adding tension springs (28), compression springs (29) or torsion springs (30), are some of the mechanisms that allow the screen to tilt and go back to its vertical position (see FIGS. 6, 7 and 8). These mechanisms could help, or even replace the counterweight (2) during this process. The type of mechanism to use will mainly depend on the shape and size of the screen (4); the height of the structure and the weather conditions that predominate in the region where the structure is installed.

(32) When the screen (4) is to be lowered for maintenance, replacement of advertisement or repairs, we must manually carry out the transition from the position in FIG. 2, to the position shown in FIG. 4, using lifting mechanisms such as a motor-reducer (16); a winch (31) according to FIG. 13); or a zipper or serrated rod (34) as the one shown in FIG. 14), which is pushed by the force of a worm drive (35). In this case, the force of a motor-reducer (16) will be used, which is located on the foundation (25) of the structure, inserting and spinning a lever (see FIGS. 15 and 16) through a hole on the lower part of the tube (1). The motor-reducer (16), through a traction element consisting of a serrated wheel (20), transmits the strength on an element that is preferably formed by a section of a chain (19) and a section of a wire (18), just as it is shown in FIGS. 1), (2) and (3). When activating the motor-reducer (16), we can see that the wire (18), by using a pulley (21) installed on the upper part of the tube (1), pushes and slides tube (3) inside tube (1). Both lowering and lifting tube (3) are performed through rods (14) located on the upper part of tube (1), protecting the surface of the tube (3) from any friction that may damage the finishing.

(33) It is worth mentioning that the lever shown in FIG. 15) is provided with a die whose inner part is different from the common dies used to adjust nuts or screws, in order to prevent unauthorized people from tampering the operation of the structure.

(34) While the screen is being lowered, the tilting mechanism, formed by the counterweight (2), will enter into contact with the plate that holds the motor-reducer (16) and it will lean on such plate at the lower part of tube (1), which will cause the screen (4) to tilt and rotate on its axis. After rotating 180 degrees, the screen (4) will be in a vertical position on one side of tube (1), as shown in FIG. 4.

(35) The procedure to change the screen (4) would not be possible if the locks (24) are not released from the lower part of the structure; such locks lock tube (1) to tube (3). In order to do this, we insert and rotate the lever, as shown in FIG. 16. Likewise, before tube (3) is lowered, the locks (13) holding the spring (26) fixing it to tube (3) must be released.

(36) This can be done manually or automatically while the tube is being lowered, using the mechanism shown in FIG. 18.

(37) It is worth mentioning that the bolts (22) will work as axis for the spring (26) to rotate and cause a misalignment in axis (17) from its initial position, allowing the screen (4) to align vertically and in parallel to the tube (1), while descending, as shown in FIG. 4.

(38) Once maintenance and/or the replacement of the advertisement have been performed, we must take the screen (4) back to its original vertical position. In order to do this, we must insert the lever (see FIG. 15) into the motor-reducer (16) and make it spin until tube (3) ascends and is conically assembled through the plates (1) installed on both the upper part of tube (1) and the lower part of tube (3), as shown in FIG. 19. At least four plates welded to the outer part of the tube (3), go up until reaching the same number of welded plates on the outer part of tube (1), these plates have a plastic cover to separate the plates, preventing them from damages caused by being in contact for large periods of time. The plates (15), along with the locks (24), achieve a perfect fastening of the tube with the smaller diameter (3) and the tube with the bigger diameter (1), preventing movements that can cause wear or malfunctions in the structure.