FR2931174A1 - Erectile terminal for controlling circulation on access path in ground, has circular section block with fin radially mounted in outward projecting part of block for rotatably engaging in cavity, and made of concrete covered with steel liner - Google Patents

Abstract

The terminal has a quill (2) housed in the ground, a circular section block sliding in the quill and a motorized maneuvering unit for maneuvering of ascending/descending. The block is associated indirectly through the motorized unit by a connection e.g. ball cap plate, allowing a rotation of the block around longitudinal axis. The block includes a fin radially mounted in outward projecting part of the block for rotatably engaging in a cavity (8) of the quill when the block is lifted, where the block is made of concrete covered with an inoxidizable or galvanized steel liner.

Description

REMOVABLE TERMINAL FOR ACCESS CONTROL. The invention relates to an erectile terminal for controlling traffic on an access road. To control traffic on an access road, it is known to use an erectile or retractable terminal in the ground. This terminal comprises a sleeve housed in the ground and in which sleeve slides a stud. In the access or retracted position, the stud is housed in the sheath and in the service position, the stud is partially out of said sheath to prevent the circulation of a vehicle. In its most common version, a motor means makes it possible to move the stud. It can be cables that wind on pulleys moved by electric motors or alternatively, electric or hydraulic cylinders are used. Due to their function, these terminals are more often in the service position than in the retracted position. In this service position, it will be noted that the weight of the stud constantly urges the operating means. We also note that the terminal is weakened. More precisely, almost all of the stud is outside the sheath and, in case of shock, it is the operating mechanism, carrying the stud, which collects the shock. Thus, even in the case of weak impact, the operating mechanism must be changed. Sometimes, it weakens the interface between the stud and the maneuvering means to limit the effects of impacts on these means of maneuver. In theory, the impact will break the connection between the stud and the mechanism before the mechanism is damaged. In some cases, it is desired that the stud can withstand strong impacts and the known terminals up to date are not always suitable. The invention proposes a solution. To this end, the subject of the invention is an erectile terminal comprising a sleeve intended to be housed in the ground, a circular section stud sliding in said sleeve and means for the motorized raising / lowering operation, this terminal being characterized in that, on the one hand, the stud is associated at least indirectly with motorized operation means by a connection allowing a rotation of the stud about its longitudinal axis and, on the other hand, the stud comprises 2

at least one radially mounted lug protruding outwardly from the stud to engage, by rotation, in a cavity when the stud has been lifted. The invention will be better understood from the following description given by way of non-limiting example with reference to the drawing which represents: FIG. 1: Vertical sectional view of a terminal in a retracted position FIG. 2: Sectional view vertical of a terminal in the operating position FIG 3: Horizontal sectional view of a sleeve FIG 4: Front view of a support. Referring to the figures, there is an erectile terminal 1 for controlling access. Classically, this erectile terminal comprises a sleeve 2 intended to be housed in the ground 3, a stud 4 of circular section sliding in said sleeve and a motorized means for the raising / lowering maneuver. This sheath anchored in the ground may be steel or concrete. The inner section 15 of this sleeve is, at the operating clearance, identical to the section of the stud. The motorized means 5 is often housed in the sheath. It comprises a motor 5A this possibly its transmission and a means 5B for guiding the block in translation. This motorized means acts from below the pad. It is integrated to the terminal or partly remote. By engine, include an electric motor, a hydraulic group but also a counterweight to assist a movement by hand. This motorized actuation means acts under the stud. According to one characteristic, on the one hand, the stud 4 is associated at least indirectly with the motorized operating means 5 by a link 6 allowing a rotation of the stud about its longitudinal axis and, on the other hand, the stud 4 comprises at least a lug 7 mounted radially outwardly projecting from the stud to engage, by rotation of the stud in a cavity 8 of the sleeve when the stud has been raised. Prior to its engagement in a cavity, the lug 7 moves in a vertical groove 9 which comprises the sleeve 2. 3

Here, three lugs 7 are provided on one level and three others on a second level. To reduce the number of vertical grooves 9, the lugs have the same angular setting. After engagement pins, can very slightly lower the pad so that the charge of the stud is fully reported on the pins. Thus, in the service position, the stud is not only held by the operating means 5 but also by the connection between the lugs 7 and the cavities 8. This last connection can be very strong. To enable this rotation, for example the association of the stud 4 and maneuvering means 5 is done with an interface 6 type ball crown or thrust ball. We will allow to lift the block indirectly with a motor acting essentially vertically while allowing rotation. In the example shown, the actuating means comprises a hydraulic jack 5A whose top of the rod is connected at least indirectly to the stud by a ball ring. Here, it is expected that the stud is hollow carried by a support 10 comprising fingers 11 for guiding in translation of the terminal. This allows in particular to use the concrete as the main material constituting the pad and use a support and steel guide fingers. This support serves as support for an actuator such as double-acting jack 12 producing the rotation of the stud. Indeed, if the rotation of the stud is performed by a motor 12, for example a jack, it is necessary that it is supported, by one end, on a reference surface which can only be the sleeve. The support is therefore used as the reference surface. The jack up / down acts either on the support and the stud is rotatably mounted on the support or the jack acts directly on the stud which is free to rotate relative to the rod of the cylinder and relative to the support. In the case shown, the stud is rotatably mounted on the support and the raising / lowering jack acts directly on the support. The rotation cylinder acts on the rotation of the stud by relying on the support. The support 10 has a base 13 with three arms each carrying a guide pin 11. This base also has a vertical tube 14 intended to partially house the body of the jack and its rod. The section of this tube will be sufficient to accommodate the external section of the jack which is supported on the base of the sleeve. This tube rises above the base and is capped by the stud which has an axial housing. The support and in particular the base present lives surfaces 15 of centering the stud relative to the support. The fingers 11 move in vertical grooves 20 of the sheath. The media does not turn. This stud may be concrete covered by a stainless steel jacket or galvanized. The advantage of this bicomponent pad is that the jacket protects the concrete from the shocks of a mass and the presence of the concrete prevents a cutting of the terminal with the aid of a torch. The lugs will be steel fixed to the liner or anchored in the concrete of the lug. With these provisions, after mounting the pad to a specific level it is rotated about its vertical axis so that the pins engage in the cavities. The stud is then locked on the sheath. In the event of impact, the forces will therefore be distributed over the lugs and the sheath and it is not the maneuvering means that take the shock. The rotation of the stud can be performed manually but also automatically. It is simple to constitute a sequential and automated control circuit of the hydraulic or electro-hydraulic type which under the effect of a general control 25 will mount the pad and then automatically rotate the pad by actuating the rotation cylinder. The hydraulic circuit pump will be actuated by an electric motor incidentally supplied with energy by a power supply line or a photovoltaic panel. The up and down control will be controlled by a remote control or will be executable after entering a code.

The control of the various steps that are the rise and then the rotation can be the subject of a programmed cycle.

Claims (9)

REVENDICATIONS1. Erectile terminal comprising a sleeve 2 intended to be housed in the ground, a stud 4 of circular section sliding in said sleeve and a motorized means for the raising / lowering maneuver this terminal being characterized in that, on the one hand, the plot is associated at least indirectly with the motorized means by a link 6 allowing a rotation of the stud around its longitudinal axis and, secondly, the stud4 comprises at least one lug 7 mounted radially outwardly projecting from the stud to come engage, by rotation, in a cavity 8 of the sleeve when the stud has been lifted. 2. Erectile terminal according to claim 1 characterized in that the connection between the motorized means and the stud is a ball crown. 3. Erectile terminal according to claim 1 or 2 characterized in that the pad 15 4 is carried by a support 10 whose base carries translational guiding fingers 11 in vertical grooves 20 of said sheath. 4. erectile terminal according to claim 3 characterized in that the base of the support 10 carries a tube 14 which is engaged in an axial housing of the stud. 20 5. erectile terminal according to claim 4 characterized in that the motorized means 5 comprises a cylinder 5A and the tube 14 of the support 10 has an internal section sufficient to accommodate the cylinder section. 6. An erectile terminal according to any one of claims 3 to 5, characterized in that the support has centering surfaces 25 with the stud. 7. erectile terminal according to any one of claims 3 to 6 characterized in that the rotation of the stud is obtained by a actuatorl2 double effect bearing on the support and on the stud. 8. erectile terminal according to claim 7 characterized in that it comprises a sequential and automated control circuit of the up / down and rotation of the stud. 9. Erectile terminal according to any one of the preceding claims characterized in that the stud is concrete covered with a steel jacket. 35