ES2381077A1 - Device having a variable, self-adjusting slope for supporting objects having an inclined base - Google Patents

Abstract

The invention relates to a device having a variable, self-adjusting slope for supporting objects (1), said device being formed by a stationary frame (5) and a base (8) that can pivot in relation to the frame. The rear edge (11) of the base is connected to means (13) for maintaining the inclination, which means are secured to the stationary frame (5) and configured to determine an initial angle of inclination a between the pivoting base (8) and the horizontal axis, said angle decreasing when the object having an inclined base (1) is placed on the pivoting base (8), such that, together with inclination-locking means (14), it is possible to set the relative angle of inclination between the lower frame (6) and the pivoting base (8) to an angle ss having a value equal to the value of angle a formed by the inclined base (3) of the object (1) in relation to the horizontal plane perpendicular to the axis (4) of said object (1).

Description

Variable slope device self-adjustable for supporting base objects inclined

Field and Object of the Invention

The invention relates to a device of variable inclination whose regulation is automatic and which serves as auxiliary element for the support and support of basic objects inclined, and more specifically, within the field of high voltage installations, for the support and support of high voltage collars.

State of the art

Currently, the terminal collars, used in transformers of great power in the part of A.T. (high voltage), when these have not yet been assembled on the transformer cover must be placed in an upright position, to facilitate the work to be done on the transformer. In Sometimes such jobs carry accident risks for Operators and high times in assembly operations. The necklaces are fixed to the tops of the transformers, but before of this operation it is necessary to place them on the floor of the workshop, to perform on them assembly operations of different elements. Given the inclination, height and mass of these necklaces, there is a risk of tipping that could cause personal injury or materials, taking into account that usually the bosaje (collar) must remain a long time on the floor of the workshop.

More specifically, the A.T. They are positioned with its base placed on two wooden slats of about 150 mm high, one of them, and the other of a height somewhat lower, about 100 mm, thus creating a slope that is translates into a lower angle of inclination in the collar. Saying unevenness causes the tipping moment to disappear, or else this action is reduced, because the center of gravity, which previously it was outside the perimeter of the base, it is displaced backwards, thus moving away from the tipping point.

Occasionally, placing slats to reduce the angle is sufficient, but in a large part of the necklaces of A.T., those of greater length and strongly pronounced angle, this it is not enough because the projection of the center of gravity on the horizontal plane is outside the support flange, and in the case of staying inside, an apparently safe position, any tremor, shock or oscillation due to outside causes, could cause enough movement for the center of gravity to return to go through the point where overturning could be possible.

As it has been proven, in production of high power transformers of the main companies dedicated to this sector, it is observed that the poor security in the Clamping the sloping necklaces is remarkable. While the restraint It is different in each of these companies, none eliminates the risk completely, or choose to incorporate a definitive solution for the elimination of the risk of tipping due to the elimination of the inclination in one of the bases of the necklace.

The different ways of fastening used in the different companies are mainly by incorporating of frontal supports, such as slats or struts, which reduce the accentuation of the angle of inclination acting as chocks, but the risk does not disappear completely. Another method consists of clamping, in an inclined position, by means of straps from their hook elements, located on its outer perimeter, opposite each other and close to the top flange, and in addition to these straps, four wooden wedges hold the base flange attached to the pallet that  supports

Others, however, are placed so lying down, using this option as a method to eliminate completely the risk, although the connection work e incorporation of different elements on the collar in this position, are made more complex, to the point that, sometimes, you choose to change the position of the collar using The above mentioned methods.

Occasionally, due to the obvious risk from the bad placement of the necklaces, these can fall, damaging themselves and the element on which they could fall. The mass that these necklaces have is enough to be able to cause serious personal injury, in the event that a person suffered the fall by accident of one of them.

For all these reasons, a need for provide a device to support the mentioned collars with an optimal inclination that allows the collar to rest vertically, so that its axis of revolution, the center of gravity and normal to the ground are coincident, so counteract the angle of inclination of any possible collar and bear the load it exerts on the inclined base. Likewise, the device would serve for vertical support of any type of object with inclined base of electrical installations, or any type of facilities and / or workshops.

This objective is achieved through the invention as defined in claim 1, in the dependent claims are defined preferred embodiments of the invention.

Description of the invention

The present invention relates to a self-adjusting variable slope device for supporting any type of object with an inclined base, and more specifically for the support and support of high collars tension of the type of those comprising a tubular body with one of its bases inclined with respect to the axis of revolution of the body. He device is characterized in that it comprises a fixed frame, which at in turn it comprises a lower frame and a support structure perpendicular to said frame, a collapsible base, one of whose edges is connected to one of the crossbars of the lower frame of the fixed frame with the possibility of folding the folding base with with respect to the fixed frame. The rear edge opposite to that cited leading edge of the folding base comprises at least two points of connection of the folding base with maintenance means of the tilt fixed to the top of the support structure of the fixed frame, said means being configured to determine an initial inclination angle α of the base folding with respect to the lower frame of the fixed frame which decreases as the collar is seated on the folding base, allowing, in collaboration with means of blocking the tilt, operated by the inclined base of the collar, the fixing the relative inclination angle between the lower frame and the collapsible base, up to a value of said angle? equal to angle the that forms the inclined base of the tubular body with the horizontal plane perpendicular to the axis of revolution of the body tubular.

In a first aspect of the invention, the means tilt maintenance may comprise a pair of axes parallel to each other and contained in a horizontal plane, whose ends are fixed to the support structure of the fixed frame, on each of which is mounted respectively, a drum to one of whose ends is associated a toothed crown, being related the turning movement of both toothed crowns by a chain of roller links that rotates them so simultaneous. Surrounding each drum you can arrange guides collection of two first cables, which are rolled up respectively on each drum, one of the ends of the first cables fixed to the corresponding guide and the other end of each of the first wires to each of the points of connection arranged in the folding base.

Inside each drum you can arrange, externally coupled to the corresponding axes, two recovery springs, one of whose ends are fixed to the support structure by means of a through screw and the another end is connected to the crowned teeth by means of a Allen screw.

As regards the means of blocking the inclination, these may comprise a drive lever located next to the edge of lower elevation of the folding base, the which will be connected to a second cable, which starting from said lever, will run in a horizontal direction to reach a tensioner located at the bottom base of the support structure of the fixed frame, which varies the cable path 90º directing it towards an actuator that has rods whose end is connected to links, which are arranged between discs of separation strung respectively on the axes configured for move in the direction of the axis. Toothed crowns may have first teeth on the outer face of said crowns, located concentrically to the axes and facing seconds teeth located on the crossbar of the support, having the first and second teeth a complementary profile.

With the configuration described, under pressure exerted on the lever by the contact of the object with base inclined, or more specifically the collar, a tension will be transmitted on the second cable and therefore on the actuator which acts on the disks that will push the respective sets "drum-crown" toothed, until fit the first teeth with the second teeth to block the turn of the drums.

In this way, it is achieved that in the position of device rest, when the object has not yet been supported with inclined base, or more specifically the collar on it, the base foldable present a fixed initial inclination angle? the which is predetermined depending on the geometry, dimensions and weight of the necklaces to be used.

Normally, the object with inclined base, or more specifically the collar is manipulated, given its great weight, using a crane that allows the slow and gradual descent of the collar over the place where you want to place. In the case of using the device object of the present invention, first of all, the highest point of the base flange of the collar, which has greater sinus, comes into contact with a point of the collapsible base, since the necklace continues to descend, the collapsible base continues to yield, decreasing its inclination. At the moment that both surfaces are they find in parallel arrangement, the last point to get in Collar base flange contact, with the flip base, will be where it has the locking lever located. When it can turn freely, it will not oppose resistance to rotation when the collar depresses it by rotating it with respect to the base folding which causes its free end to pull the second cable which has connected to it, transmitting said second cable the shifting the lever to the locking actuator and specifically to the rods that compose it, which are will be responsible for pulling, in the downward direction, the links attached to the separation discs, and these discs push the drums directing the first teeth of the toothed crowns towards the welded teeth on the crossbar of the support structure of the fixed frame, thus being engaged and without possibility of turning.

Description of the drawings

Then it goes on to describe very brief a series of drawings that help to better understand the invention and that expressly relate to embodiments of said invention presented as illustrative examples and not Limitations of this one.

Figure 1 represents a side view of the self-adjusting variable slope device for supporting objects with an inclined base, and more specifically  high voltage collars, at the initial time of use of the device in which the collar approaches it.

Figure 2 represents a side view of the self-adjusting variable slope device for supporting high voltage collars, at the time that the collar rests stably on it.

Figure 3 shows a perspective view of the self-adjusting variable slope device for supporting high voltage collars object of the present invention in its initial resting position.

Figure 4 represents a perspective view of the inclination maintenance means that are part of the device object of the present invention, in which part of said means have been represented in an exploded way to appreciate more clearly the interior configuration of the same.

Figure 5 represents a side view of the tilt maintenance means that are part of the device object of the present invention.

Figure 6A represents a side view schematic of a portion of the maintenance means of the tilt, in the unlocked or idle position of the device.

Figure 6B represents a side view schematic of a portion of the maintenance means of the tilt, in the locked position of the device.

Description of an embodiment of the invention

The present invention relates to a self-adjusting variable slope device for supporting objects with an inclined base, or more specifically  high voltage collars (1), see figures 1 and 2, of the type of comprising a tubular body (2) with one of its bases (3) inclined with respect to the axis of revolution (4) of the tubular body (2).

The function of this device will be that of provide verticality to objects that have an inclined base and that must be waiting for stored time in some place. The verticality provided to these objects facilitate the realization of works on them in addition to It will significantly reduce the risk of tipping over.

The device comprises a fixed frame (5), a folding base (8), means of maintaining the inclination (13) and means of inclination blocking (14).

The fixed frame (5) comprises a lower frame (6) and a support structure (7) perpendicular to said frame (6). The lower frame (6) is formed by a plurality of profiles tubular, two lateral and one posterior (48), see figure 3, and one anterior which defines a leading edge (10) and the structure support (7) consists of a plurality of profiles (49, 34, 46) similar to those of the lower frame (6) arranged in such a way that they form an approximately prismatic spatial structure, having two horizontal profiles or crossbars (34, 46) located in the upper part of the support structure (7), being attached the frame (6) to the lower base of said support structure (7) of so that the frame (6) is located perpendicular to the aforementioned structure (7) as can be seen in figures 1 to 3.

For its part, the folding base (8) consists of a flat sheet that has an irregular polygonal shape with one side smaller than we will call front edge (9) and a back side greater, called the trailing edge (11) parallel to the leading edge (9).

The fixed frame (5) is related to with respect to the folding base (8) through the leading edge (10) of the fixed frame (6) and the leading edge (9) of the base (8), having the base (8) a movement of abatement with respect to the frame (5), thanks to a hinge (52), the frame (5) being supported resting on the ground and acting as a support element of the device.

On the other hand the greater side, denominated edge posterior (11) of the base (8) comprises two points (12-12 ') of connection of the folding base (8) with the tilt maintenance means (13), materializing said points (12-12 ') on each welded ring in the posterior vertices of the folding base (8).

More specifically, the means of tilt maintenance (13) are fixed on the part upper of the support structure (7) of the fixed frame (5) and they comprise a pair of axes (15-15 ') parallel between yes and contained in a horizontal plane, whose ends are fixed to the front (34) and rear (46) crossbars of the support structure (7) through respective nuts (45) and (47). On each of the axles (15-15 ') is mounted respectively a drum (16-16 ') to one of whose ends is associated a toothed crown (17-17 '), the turning movement of both toothed crowns being related (17) and (17 ') by a chain (18) of roller links that It spins them simultaneously.

The connection between the base (8) and the means of tilt maintenance (13) is achieved through first cables (20-20 '), one of whose ends (22-22 ') get hooked on the points (12-12 ') of the base (8), and the other end (21-21 ') of each cable will be fixed at corresponding guides (19-19 ') that surround each drum (16-16 '), which will serve to roll around them the first cables (20-20 '). The aforementioned guides (19-19 ') have as their main mission to make the winding on both drums (16-16 ') be uniform preventing the first wires (20-20 ') in their winding they are locked by the turn of the drums (16-16 ').

Inside each drum (16) and (16 ') is they have, externally coupled to the corresponding shafts (15) and (15 '), two recovery springs (23-23'), one whose ends are fixed to the support structure (7) using a through screw (36-36 ') and the other end is connected with toothed crowns (17-17 ') by means of an Allen screw (37-37 ').

For its part the means of blocking the tilt (14), comprise a drive lever (24) located next to the leading edge (9) of lower elevation of the base folding (8), for which it is practiced on the aforementioned area of the base a groove (50) for the passage of the lever (24) through the base, sticking out of it. The lever has the possibility of rotation with respect to the folding base, thanks to lugs that protrude from the base and a pin (elements not shown), having the lower end (51) of the lever (24) of a hole to which a second cable (25) is attached, which starting of said lever, runs in a horizontal direction to reach a tensioner (26) located at the bottom base of the support structure (7) of the fixed frame (5), fixed to one of the tubular profiles (49) constituting the same, said said varying tensioner (26) the trajectory of the second cable 90º directing it towards an actuator (27) having a plurality of rods (28) whose ends (41), hook-shaped, are connected to links (29a-29b) and (29a'-29b '), which are arranged between separation discs (30-31) and (30-31 ') strung respectively on the shafts (15-15 '), one of them (31-31') fixed to the crossbar (46) and the other (30-30 ') configured to move in the direction of the axis. Actually there are two pairs of links on each side of the two jagged "drum-crown" sets that make up the means of maintaining the inclination (13), but in the figures you can only see one of the aforementioned couples for each set so the other pair of links has not referenced in the drawings.

As can be seen in figure 5, in which being a side view, only one of the two is visible identical "drum-crown" sets that make up the means of maintenance of the inclination (13) and the tilt fixing means (14), links (29a-29b) are connected to lugs (42-43), which are respectively part of the discs (31) and (30), by pins (53) at one end of the links and at the other end, said links (29a-29b) are attached to each other and to the end (41) of the rods (28) by another pin (44). As seen in the Figure 4, there are a total of four rods (28), which are parallel to each other and are arranged on both sides of the discs (30-30 ', 31-31'), being connected two to two said rods by other inclined rods (54) and convergent to each other, until they coincide at a point (56) of which pull the second cable (25) when the lever (24) is operated.

To complete the means of blocking the tilt (14) toothed crowns (17-17 ') have first teeth (32-32 ') on the face external of these crowns, that is to say the faces that are faced to the corresponding crossbar (34) of the structure (7), being said first teeth located concentrically with respect to the axes (15-15 ') and placed so that they remain facing second teeth (33-33 ') fixed to the front cross member (34) of the support (7). The first teeth (32-32 ') cover the entire circumference of the toothed crowns (17-17 '), however the second teeth (33-33 ') cover only the crossbar width (34) and are arranged in two groups of teeth, located on both sides of the shaft equidistant to it, presenting said second teeth (33-33 ') the same curvature as the first teeth (32-32 ') and having a complementary profile for a perfect mutual gear between them.

Among the first (32-32 ') and second teeth (33-33 '), fixed at corresponding crown gear (17-17 '), by a plurality of screws, a spring is arranged (35-35 ') set to maintain a distance of separation between said first and second teeth, when the device is in rest position.

With the described configuration, the operation of the device will be as follows. In figure 1, the moment in which slings (40) attached to a crane (not represented) are ready to deposit the collar (1) on the base folding (8), at which time the angle of inclination between the base (8) and the bottom frame (6) is a predetermined angle α, which is usually set at approximately 32 °.

As the collar (1) descends on the base (8), this rotates by the weight of the collar with respect to the fixed frame assembly and specifically with respect to the frame lower (6), decreasing the angle α progressively, and by therefore descending the trailing edge (11) which pulls the points (12-12 ') to which the first cables (20-20 ').

Thanks to the springs (23-23 ') the drums (16-16 ') are in a state of pre-tension, when the necklace (1), or put another way, springs tend to pull the ends of the first cables (20-20 ') to keep the inclination of the base (8) stable at an angle? default that can be defined based on the constant of spring elasticity and base weight (8).

Once the base (8) begins to support the weight of the collar (1) and the base (8), the ends of the first cables (20-20 ') connected to the guides (19-19 ') which are fixed to the drums (16-16 ') pull them forcing them to turn with with respect to the corresponding axes (15-15 ') with what which proceeds to the gradual unwinding of the first cables, which were partially rolled in the guides (19-19 '), the turn being exactly the same in both sets "drum-crown" due to the existence of toothed crowns (17-17 ') of each set "drum-crown" and to the chain (18) that Synchronize your spinning movement. In figure 1, the direction of movement of the collar (1) and base (8) by arrows, during deposit of the collar (1) at the base (8).

Regarding the explanation of the operation of the inclination locking means (14), is refers only to one of the sets "drum-crown" that are part of the device, therefore only elements of said set, the operation of the other set being referenced with reference to "cousin" in the figures, identical to this first set.

As the collar (1) lowers, the angle tilt of the folding base (8) slowly decreases until you reach an angle? equal to the angle? that forms the inclined base (3) of the tubular body (2) with the plane horizontal perpendicular to the axis of revolution (4) of the body tubular (2). At that time the leading edge of the base (3) contact the lever (24), which rotates with respect to the base (8) and thanks to a lever effect, the end (51) of said lever (24) pull the second cable (25) and therefore pull the actuator (27) and due to the effect of the tensioner (26) there is a decrease in the ends (41) of the rods (28), which in turn pull the connecting pins (44) between links (29a-29b), arranged on one side of the discs (30-31), there will be another pair of links in the other diametrically opposite end not visible in the figures, causing a relative mutual tilting of the links (29a-29b) and also with respect to the lugs (42-43) of the disks (30-31) that tends to distance the discs (30-31) from each other and since one of the discs (31) is fixed to the structure (7), there will be a linear displacement of the set "drum-crown" on the shaft (15) that will cause the crown gear (17) and therefore the first teeth (32) are see pushed against the second teeth (33), overcoming the force spring elastic (35) being engaged with each other and, given that the second teeth (33) are fixed to the structure (7), will produce a fixation of the relative rotation of the drums (16) with with respect to the crossbar (34) of the structure (7) so it will look fixed the rotational movement of the drums (16) and therefore the unwinding of the first cables (20) with the angle fixed of inclination of the folding base (8) and therefore getting stability in the collar support (1) on the object device of the invention.

The moment the collar is raised (1) the process is the reverse and the spring (35) helps to disengage the first and second teeth (32-33), occurring the elevation of the base (8) and the winding of the first cables (20-20 ') due to the corresponding springs (23-23 ').

Additionally the folding base (8) in the near its front edge (9) has a stop (55) that acts as an additional security element to avoid possible accidental sliding of the inclined base (3) of the collar (1) on the folding base (8) during the process of lowering the collar until the tilt of the base is completely fixed (8).

Claims (3)

1. Self-adjusting variable slope device for supporting objects with an inclined base (1), of the type comprising a tubular body (2) with one of its bases (3) inclined with respect to the axis of revolution (4) of the tubular body (2) characterized in that the device comprises:

a fixed frame (5), comprising a lower frame (6) and a support structure (7) perpendicular to said frame (6)

one base folding (8), one of whose edges, the leading edge (9) is connected to one of the crossings (10) of the lower frame (6) of the fixed frame (5) with the possibility of folding the folding base (8) with respect to the fixed frame (5), and whose rear edge (11) opposite the aforementioned leading edge (9) comprises at least two points (12-12 ') of connection of the folding base (8) with means for maintaining the inclination (13) fixed to the upper part of the support structure (7) of the fixed frame (5), configured to determine an initial tilt angle α of the folding base (8) with respect to the lower frame (6) of the fixed frame (5) which decreases according to the object with base inclined (1) is seated in the folding base (8), allowing, in collaboration with tilt lock means (14), operated by the inclined base (3) of the inclined base object (1), fixing the relative inclination angle between the frame bottom (6) and the folding base (8), up to a value of said angle β equal to the angle the that forms the inclined base (3) of the tubular body (2) with the horizontal plane perpendicular to the axis of revolution (4) of the tubular body (2); the means of maintenance of inclination (13) comprising

?

a pair of axles (15-15 ') parallel to each other and contained in a plane horizontal, whose ends are fixed to the support structure (7) of the fixed frame (5), on each of which is mounted respectively

?

a drum (16-16 ') to one of whose ends is associated

?

a toothed crown (17-17 '), the turning movement being related of both toothed crowns (17) and (17 ') by

?

a chain (18) of links roller that rotates them simultaneously, getting ready, surrounding each drum (16-16 '),

?

guides (19-19 ') of collection of

?

two first cables (20-20 '), which are wound respectively on each drum (16-16 '), being one of the ends (21-21 ') of the first cables (20-20 ') fixed to the corresponding guide (19-19 ') and the other end (22-22') from each of the first cables (20-20 ') to each one of the connection points (12-12 ') arranged in the collapsible base (8);

and the means of tilt lock (14) comprising

?

a lever (24) of drive located next to the leading edge (9) of lower elevation of the folding base (8), which is connected to

?

a second cable (25), which starting from said lever, it runs in one direction horizontal to reach

?

a tensioner (26) located in the lower base of of to the support structure (7) of the fixed frame (5), which varies the trajectory of the second cable 90º routing it toward

?

an actuator (27) that has from

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rods (28) whose end is connected to

?

links (29a-29b) and (29a'-29b '), which have between

?

separation discs (30-31) and (30'-31 ') strung respectively in the axes (15-15 ') one of them (31-31 ') fixed to the crossbar (46) and the other (30-30 ') set to scroll in the shaft direction, whose crown teeth (17-17 ') have first teeth (32-32 ') on the face external of said crowns, located concentrically to the axes (15-15 ') and faced

?

second teeth (33-33 ') fixed to the front crossbar (34) of the support (7),

?

where the first (32-32 ') and second teeth (33-33') they have a complementary profile,

so that before a pressure exerted on the lever (24) by the contact of the objects with an inclined base (1) a voltage is transmitted on the second cable (25) and therefore on the actuator (27) which acts on the disks (30-31) and (30-31 ') that push the respective sets "crown drum" toothed (16-17)  and (16-17 '), until the first fit teeth (32-32 ') with the second teeth (33-33 ') to block drum rotation (16-16 ').

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2. Device according to the preceding claim, characterized in that inside each drum (16) and (16 ') are disposed, externally coupled to the corresponding axes (15) and (15'), two recovery springs (23- 23 '), one of whose ends is fixed to the support structure (7) by means of a through screw (36-36') and the other end is connected to the toothed crowns (17-17 ') by means of an Allen screw (37-37 '). 3. Device according to any of the preceding claims, characterized in that a spring (35-33 ') is attached between the first (32-32') and second teeth (33-33 '), fixed to the corresponding toothed crown (17-17'). -35 ') configured to maintain a separation distance between said first and second teeth in rest position.