The present invention relates to a fast door, the operation of which is secure.
In the technical field of fast doors, that is to say doors comprising a flexible screen which can pass rapidly from a closing position to an opening position, a constant preoccupation is the securitization of the operation of these doors. These doors can be made to carry out a large number of open/close cycles and failures may regretfully occur which are liable to result in a rapid descent of the screen. The screen may thus fall on a person, with consequent risk of injury.
In the case of a roll-up door, that is to say a door whose raising is realized by the rotation of a shaft on which the screen is wound, it is known through document EP-A-819 204 to provide an indicator strap, whereof one end is fixed on the winding shaft, while the other end is fixed to the base of the screen. This indicator strap is inactive in the raising of the screen. On the other hand, it proves extremely useful in case of malfunction of the door. In fact, this strap is coupled to a moving member which assumes a warning position when the tension of the strap is less than a predetermined tension.
In the case of a folding door, that is to say a door whose raising is realized by traction straps connected, on the one hand, to the winding shaft and, on the other hand, to the lower edge of the screen, one or all of these straps can be coupled to the moving member known through document EP-A-819 204. Said moving member assumes a warning position when the tension of one of the straps is less than a predetermined tension.
The lowering of the tension in the indicator strap or in one of the tension straps can be due to a number of causes. These can include:
The moving member, such as described in document EP-A-819-204, is generally satisfactory, insofar as it allows an alarm to be triggered in case of an obstacle placed in the trajectory of descent of the screen or in case of intrusion.
Nevertheless, the reliability of this member is open to improvement.
One object of the invention is therefore to provide a fast door having a security device which works by monitoring the tension of a strap and is extremely reliable.
Another object of the invention is to propose a security device which can be easily adapted to existing fast doors.
To this end, the subject of the invention is essentially a fast door closing an aperture made in a partition and comprising
Thus, the idea behind the invention is to engage a strap in a tension detector which tilts when the tension of the strap is not equal to the normal tension. The tension detector does not interfere with the operation of the door when this is working normally. On the other hand, when the screen meets an obstacle in the course of its descent, the shaft continues its rotation and the strap passing through the tension detector slackens, inevitably producing a tilting of the latter.
The tension detector also tilts toward its abnormal working position in the case of an intrusion attempt via the lower edge of the screen. A raising of the lower edge of the screen likewise produces a lowering of tension in the strap passing through the tension detector.
The high reliability of the door tension detector according to the invention is due to the fact that the strap passes directly into a moving element, the tilting of which allows an abnormal working of the door to be signaled.
According to one advantageous embodiment, the moving element of the tension detector is pulled toward the second, so-called abnormal working position by a return spring.
Preferably, the displacement of the moving element from its normal working position to its abnormal working position triggers a warning.
In one embodiment, the tension detector comprises a cylinder which is rotatable about its axis and in which a slit is made which passes through its axis and in which the strap is engaged.
This embodiment proves extremely advantageous in terms of operating reliability and compactness, which allows existing doors to be equipped with a tension detector according to the invention.
In addition, it will be noted that the moving cylinder is supported by two end plates.
One advantageous characteristic of the invention provides that the cylinder is provided with a pin traversing a circular-arc-shaped groove made in one of the end plates, this pin making contact with a finger connected to warning means when the cylinder is in the abnormal working position.
By adjusting the position of the finger, it is thus possible to adjust the sensitivity of the device. According to the adjustments, a slight angular course of the pin (and hence of the cylinder) or a marked angular course of the pin can, at the discretion of a user, trigger a warning.
It will be noted that the detector has at least one cylindrical roller, by which the strap can be guided toward the moving cylinder. As a result of this characteristic, it will further be seen that the detector is an autonomous element which can be very easily installed on an existing door.
According to two possible embodiments:
In this latter scenario, the strap could pose a safety problem, especially if a person were to pass an arm into said strap. To avoid this type of drawback, the strap can conceivably be fixed to the lower edge of the screen by connecting means capable of rupturing under a predetermined force.
According to a number of options:
Thus, the safety problem is resolved and, in the event of a breakage of the connection between the strap and the screen, the strap no longer has any tension; the tension detector device then assumes its abnormal working configuration.
For a clear understanding thereof, the invention is described with reference to the appended drawing representing, by way of non-limiting example, several embodiments of doors according to the invention.
In the following description, those elements which are common to the different embodiments bear identical reference numerals.
In
On the other hand, and as can be seen in
As can be seen in
This tension detector 6 has a cylinder 8 in which there is made a diametral slit 9 traversing the cylinder 8. The cylinder 8 is supported by two end plates 10, themselves fixed on a base plate 11.
The cylinder is connected to each of the end plates 10 by a hinged joint, which allows a rotation of the cylinder relative to these latter. A return spring pulls the cylinder 8 into a position in which the slit 9 is orientated in a direction perpendicular to the base plate 11.
It will be noted, moreover, that one of the end plates is provided with a circular-arc-shaped groove 13, in which runs a pin 14 integral with the cylinder 8. This groove 13 extends over an angular sector of the order of 180° and corresponds to the two extreme positions of the cylinder 8.
The end plate 10 supports a pick-up 17, to which is adjoined a finger 16 located on the course of the pin 14.
It will equally be noted that the tension detector 6 is equipped with two cylindrical rollers 19 placed on either side of the cylinder 8. The operation of the tension detector is therefore as follows.
As can be seen in
In this configuration, the strap 7 slides in the tension detector according to the upward or downward movements of the screen 21.
It will be noted, moreover, that in this configuration the pin 14 is located at the bottom of the course of the circular-arc-shaped groove.
In the case of an abnormal event, for example a breakage of the strap 7 as illustrated in
The consequence of this absence of tension in the strap 7 is that the return spring which acts upon the cylinder 8 of the tension detector 6 pivots said cylinder.
Several types of alarms can then be triggered: this may take the form of a sound alarm; equally, the motor driving the rotation of the shaft 2 may be ordered to immediately stop its action or reverse its direction of rotation in order to raise the screen 21 up again using an unbroken traction strap 3.
In another case of abnormal working of the screen, that is to say in case of an intrusion attempt through raising of the lower edge 8 of the screen 21 when the door is in the closed position, the tension detector 6 acts in the same manner. In fact, the raising of the lower edge of the screen 21, to which one end of the strap 7 is fixed, gives rise to a lowering of the tension of said strap. When this tension reduction reaches a certain value, the return spring acts upon the cylinder 8 and tilts the latter toward its position in which it is found illustrated in
This can equally trigger a visual 22 or sound alarm indicating an anomaly on the door in question.
One advantage which is important to note is that the tension detector 6, as represented, constitutes a compact module that can be fitted to existing doors which are devoid of a security system.
In addition, it should be pointed out that this tension detector can also be fitted to roll-up doors, as is shown by
In this case, the door is equipped with an indicator strap 25, which does not participate in the raising of the screen 21, but merely follows the movements of the screen and is thus representative of a normal working of the screen.
When the screen lowers onto an obstacle 20, as is shown by
The consequence of this tension reduction is that the return spring which acts upon the cylinder 8 of the tension detector 6 pivots the latter until it is back in the configuration illustrated in
This can then trigger a sound or visual alarm or trigger an action to re-raise the screen 21.
The described invention has the numerous advantages as previously described. In fact, doors which are thus defined (whether they are of the folding or roll-up type) therefore have a secure operation, insofar as any malfunction is detected with great reliability.
Of course, the invention is not limited to the door previously described by way of non-limiting example, but, on the contrary, embraces all embodiments thereof.
Number | Date | Country | Kind |
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04.06781 | Jun 2004 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB05/01761 | 6/22/2005 | WO | 9/4/2007 |