FR2971682A1 - Rotary display unit, has column including support plate fixed to hollow casing and supported on radiated surface, and rings fixed inside casing in coaxial manner, where each ring has bore to be fixed on shaft of central pillar - Google Patents

Abstract

The display unit (100) has a central pillar (102) including a shaft whose lower end is provided with a foot and upper end is provided with a support unit having a radiated surface. A column (104) comprises a hollow casing and a support plate that is fixed to the hollow casing and supported on the radiated surface. The column has rings fixed inside the casing in a coaxial manner. Each ring has a central bore to be fixed on the shaft. The foot has three fingers rotatable around a horizontal axis between a seated position and a retracted position.

Description

The present invention relates to a rotary display. A rotary display of the state of the art generally consists of a structure on which are fixed hooks for the introduction of elements to present.

The structure is generally heavy and the rotation is possible through the introduction of ball bearings that can get stuck when the structure is slightly deformed. The rotation becomes difficult. An object of the present invention is to provide a rotary display which does not have the drawbacks of the prior art and which in particular is easy to produce and whose rotation does not require the introduction of complex mechanical elements. For this purpose, there is provided a rotary display comprising: - a central pillar comprising a shaft, a foot at the lower end of said shaft, and a bearing means having a radiated surface and disposed at the upper end of said shaft; a column comprising a hollow formwork, a support plate fixed to said hollow formwork and intended to rest on said radiated surface, and at least two rings coaxially fixed inside said hollow formwork and each having a bore provided for fit on said shaft. Advantageously, the shaft has an orifice and the rotary display comprises a lug mounted on a spring element and movable within said orifice between a position projecting from the surface of the shaft and a retracted position inside. of the tree. Advantageously, the lug has an introduction slope oriented from bottom to top and from the inside to the outside of the shaft and a substantially horizontal locking slope disposed above the blocking slope. Advantageously, the foot comprises a plate integral with the lower end of the shaft and at least three fingers, each mounted on said plate, movable in rotation about a horizontal axis between a seating position in which the ends free fingers are spaced apart and a retracted position in which the free ends of the fingers are collected. Advantageously, for each finger, the plate has a window and a fin extending vertically with respect to said plate and above it, said finger passing through said window and having an end movably mounted on said fin about said horizontal axis. .

Advantageously, the rotary display comprises, for each finger, a spring element designed to elastically constrain said finger in the sitting position. The characteristics of the invention mentioned above, as well as others, will appear more clearly on reading the following description of an exemplary embodiment, said description being made in connection with the attached drawings, among which: FIG. . 1 shows a rotary display according to the invention, FIG. 2 shows a central pillar of the rotary display of FIG. 1, FIG. 3 shows an exploded view of the column of the rotary display of FIG. 1, 1 o and FIG. 4 shows a section through a vertical plane of the rotary display of FIG. 1. In the following description, the terms relating to a position are taken with reference to a display stand rotatable, i.e. standing as shown in FIG. 1. FIG. 1 shows a rotary display 100 which comprises a central pillar 102 and a column 104 rotatably mounted on the central pillar 102 about a vertical axis. The column 104 is here hexagonal but it can be of all the desired forms. The column 104 serves here to support hooks 106 for suspending elements to present. Of course, the method of fixing the elements to be presented on the column 104 may be different. Fig. 2 shows the central pillar 102 which comprises a shaft 202 which here takes the form of a cylinder of revolution, a foot 204 fixed to the lower end of the shaft 202 to ensure its seating on the ground, and a means 206 The shaft 202 defines the vertical axis of rotation of the column 104. The support means 206 is here a sphere, but it could also s' act of any element having a radiated surface disposed at the upper end of the shaft 202. The support means 206 may be glued, welded, to the upper end of the shaft 202. FIG. 3 shows an exploded view of the column 104. The column 104 has a hollow formwork 302 consisting of plates and here taking the form of a cylindrical surface, a support plate 304 which is fixed horizontally to the hollow formwork 302 and a superior sliding means 306 and a lower sliding means 308. In the embodiment of the invention, the support plate 304 is attached to the upper end of the hollow formwork 302.

The two sliding means 306 and 308 are spaced apart from each other so as to limit the angular displacement of the column 104 around a horizontal axis and they are arranged below the support plate 304. Each means of sliding 306, 308 consists of a plate 310 fixed horizontally inside the hollow formwork 302 and pierced with a hole 312, and a ring 314 fixed inside said hole 312. Each ring 314 has a bore central vertical axis provided for engaging on the shaft 202, whose diameter is adapted to the diameter of the shaft 202 and is made of a material facilitating sliding, such as polyoxymethylene. It is said that the diameter of the central bore is adapted to the diameter of the shaft 202 if its diameter is sufficiently large to allow the passage of the shaft 202 in the central bore, and, if its diameter is small enough to avoid excessive deflections of the ring 314 around the shaft 202. The difference between the two diameters is of the order of 0.5 mm. The bores of the rings 314 are arranged coaxially with each other. Of course, it is possible to put more than two sliding means. Fig. 4 shows the upper part of the rotary display 100 in section. The assembly of the rotary display 100 consists in: - fixing the support means 206 at the upper end of the shaft 202 so as to have its radiated face outwards, - threading the column 104 on the shaft 202 so that the shaft 202 is successively threaded into the central bore of the ring 314 of the lower sliding means 308, then into the central bore of the ring 314 of the upper sliding means 306, and - continuing threading the column 104 until the support plate 304 bears on the radiated surface of the support means 206 so as to make a point connection or sphere-plane between them.

The two sliding means 306 and 308 ensure the rotational guidance of the column 104 around its vertical axis of rotation and the locking in translation of the point link. The point connection makes it possible to transfer the weight of the column 104 and the elements to be presented directly to the shaft 202 and then to its foot 204. The rotary display 100 is easy to produce and the rotation thus produced does not lock and generates no noise. To prevent the removal of the column 104, a lug 208 is mounted protruding from the surface of the shaft 202. The wall of the shaft 202 has an orifice 212 and the lug 208 is movable within said shaft. orifice 212 between a position projecting from the surface of the shaft 202, and a retracted position inside the shaft 202 where it retracts during the threading of the column 104. The lug 208 is mounted on a spring element such as a leaf spring 210 which repositions it in the projecting position after the retraction.

The leaf spring 210 is mounted inside the shaft 202. The mounting of the lug 208 and the leaf spring 210 is to introduce them into the shaft 202 before the attachment of the support means 206. The pin 208 has an introduction slope 402 oriented from bottom to top and from the inside to the outside of the shaft 202 and a substantially horizontal locking slope 404. The insertion slope 402 is disposed above the locking slope 404. During the threading of the column 104, each ring 314 successively slides on the insertion slope 402 in order to push the pin 208 for retract inside the shaft 202 and thus allow the passage of said ring 314. After the passage of each ring 314, the lug 208 returns to its initial position under the effect of the leaf spring 210. The withdrawal of the column 104 is prevented by the fact that during the lifting of the column 104, the ring 314 of the upper sliding means 306 abuts against the locking slope 404 which because of its orientation does not allow to retract the The distance between the top of the radiated surface 206 and the locking slope 404 is less than the distance between the support plate 304 and the ring 314 of the upper sliding means 306.

The foot 204 comprises a plate 256 and at least three fingers 252 mounted on said plate 256. In the embodiment of the invention shown in Figs. 1 and 2, there are five fingers 252 to ensure the stability of the rotary display 100. The plate 256 is here a circular plate integral with the lower end of the shaft 202 and extends horizontally in a plane perpendicular to the 202. Each finger 252 is movable between a retracted position and a seating position. The passage from the retracted position to the sitting position and vice versa is performed, for each finger 252, by rotation about a horizontal axis 254. FIGS. 1 and 2 show the fingers 252 in the sitting position in which the free ends of the fingers 252 are spaced apart. In the retracted position, the free ends of the fingers 252 are brought closer to each other and the fingers 252 are placed in the extension of the shaft 202 and in the space of the hollow formwork 302. For each finger 252, the plate 256 has a window 258 and a fin 260 which extends vertically with respect to said plate 256 and above it and which is provided to support the axis of rotation 254 of said finger 252. Each finger 252 passes through the window 258 and an end of said finger 252 is movably mounted on the fin 260 by means of a screw-nut system 262 around the horizontal axis 254, while the free end of said finger 252 extends beyond 256. To ensure automatic placement in the seating position, the foot 204 comprises for each finger 252, a spring member 264 which is provided to elastically constrain the finger 252 in the seating position. In the embodiment of the invention shown in FIG. 2, the spring element 264 consists of a torsion spring which is mounted on the screw-nut system, one end of which bears under the finger 252 and whose other end is supported under the plate 256 In the sitting position, each finger 252 abuts against a rim of the corresponding window 258 and under the effect of the spring element 264, this abutment is retained. It is thus easy to store the rotary display 100 in a transport case. The top of the rotary display 100 is inserted into the transport crate and as the rotary display 100 is introduced into the transport crate, the fingers 252 retract into the retracted position.

Conversely, during unpacking of the rotary display 100, the progressive exit of the foot 204 causes the return to the seating position of the fingers 252 as and when they exit the transport case. Of course, depending on the shape of the fingers 252, it is possible to provide that the axis of rotation is disposed below the plate 256, and that therefore the fins 260 are fixed under the plate 256. Of course, the The present invention is not limited to the examples and embodiments described and shown, but it is capable of numerous variants accessible to those skilled in the art. 10

Claims (6)

1) rotary display (100) comprising: - a central pillar (102) comprising a shaft (202), a foot (204) at the lower end of said shaft (202), and a bearing means (206) having a radiated surface and disposed at the upper end of said shaft (202), - a column (104) having a hollow formwork (302), a support plate (304) fixed to said hollow formwork (302) and provided to bear on said radiated surface, and at least two rings (314) coaxially secured within said hollow form (302) and each having a bore adapted to engage said shaft (202). 2) rotary display (100) according to claim 1, characterized in that the shaft (202) has an orifice (212) and in that the rotary display (100) comprises a lug (208) mounted on a spring element ( 210) and movable within said port (212) between a position protruding from the surface of the shaft (202) and a retracted position within the shaft (202). 3) rotary display (100) according to claim 2, characterized in that the lug (208) has an introduction slope (402) oriented from below upwards and from the inside to the outside of the shaft ( 202) and a substantially horizontal locking slope (404) disposed above the blocking slope (404). 4) rotary display (100) according to one of claims 1 to 3, characterized in that the foot (204) comprises a plate (256) integral with the lower end of the shaft (202) and at least three fingers (252), each being mounted on said plate (256), rotatable about a horizontal axis (254) between a seating position 25 in which the free ends of the fingers (252) are spaced apart and a position d retraction in which the free ends of the fingers (252) are gathered. 5) rotary display (100) according to claim 4, characterized in that for each finger (252), the plate (256) has a window (258) and a fin (260) extending vertically relative to said plate ( 256) and above, said finger (252) passing through said window (258) and having an end movably mounted on said fin (260) about said horizontal axis (254). 6) rotary display (100) according to one of claims 4 or 5, characterized in that it comprises, for each finger (252), a spring element (264) provided for elastically constraining said finger (252) in a sitting position.