Source: http://www.allindianpatents.com/patents/206798-shaft-magnet-equipment-for-producing-shaft-information-of-a-lift-installation
Timestamp: 2017-12-18 08:52:29
Document Index: 503325172

Matched Legal Cases: ['art 5', 'art 5', 'art 5', 'art 5', 'art 5', 'art 5', 'art 5', 'arts 5', 'arts 5', 'art 5', 'art 5', 'art 5']

Indian Patents. 206798:SHAFT MAGNET EQUIPMENT FOR PRODUCING SHAFT INFORMATION OF A LIFT INSTALLATION
SHAFT MAGNET EQUIPMENT FOR PRODUCING SHAFT INFORMATION OF A LIFT INSTALLATION
For the fastening of a shaft magnet to a guide rail there is provided a holder (5) with clip characteristics, which consists integrally of a foot part (5.1), a back part (5.2) and a front '" part (5.3), at which a recess (5.4) for reception of the shaft magnet is arranged. The foot part of the holder (5) comprises a respective reinforcing rib (5.5) at each side and a first chamfer (5.6) at the free end. The front part (5.3) with the recess (5.4) has a second chamfer (5.7). The foot part (5.1) and front part (5.3) in the rest state run slightly towards on~ another towards their free ends. On pushing of the holder (5) onto the guide rail the foot part (5.1) and front part (5.3) are lightly spread, whereby the holder (5) is firmly clipped to the guide rail by the spring properties of the back part (5.2). The shaft magnet can now be placed on the guide rail through the recess (5.4). The shaft magnet is firmly retained at the guide rail by its magnetic force. The holder (5) and shaft magnet are firmly connected with the guide rail without outside fastening means and can individually be easily released from the guide rail and be arranged again wherever desired along the guide rail height.
The invention relates to a shaft magnet equipment for generating shaft information of a lift installation, wherein at least one shaft magnet arranged in a lift shaft changes the switching state of a magnet switch, which is arranged at a lift cage, during travel of the lift cage in the lift shaft.
Magnets arranged in the lift shaft serve, together with magnet switches arranged at the lift cage, for the generation of shaft information. During travel of the lift cage in the lift shaft the magnet switches the magnet switch, which is usually constructed as a bistable switch, from one switching state into the other switching state, wherein the instantaneous position of the lift cage in the lift shaft is determined for the lift control from the position of the relevant magnets. The magnets arranged, for example, in the region of storeys are usually an'anged at fastening means, for example at rails with grooves, into which groove blocks are laid. The magnets are displaceable along the rails and are firmly screw-connected to the groove blocks of the rails by means of screws.
A disadvantage of the known equipment consists in that expensive fastening means for the magnets is necessary in the region of each storey, which causes substantial cost and mounting time.
Here the invention will create a remedy. The invention, as is characterised in claim 1, meets the object of avoiding the disadvantages of the known equipment and of bringing about a simplifying of the mounting of the shaft magnets.
The invention is more closely explained in the following by reference to drawings illustrating an embodiment, in which:
Fig. 1 shows a schematic illustration of a guide rail with shaft magnets placed in
Fig. 2 shows a holder. which is placed on the limb of the guide rail, with shaft magnet,
Fig. 3 shows the holder, which is placed on the guide rail, with shaft magnet in side
Fig. 4 shows a plan view of the holder. Fig. 5 shows a side view of the holder and
Fig. 6 shows a three-dimensional illustration of the holder.
A shaft component in the form of a guide rail for guidance of a lift cage in a lift shaft is denoted by 1 in Figs. 1 to 6. The guide rail 1 has a guide limb 1.1 and two holding limbs 1.2. Arranged at one holding limb 1.2 are shaft magnets 2, which change the switching stage of magnet switches arranged at the lift cage. On the basis of the switching states of the magnet switches, the lift control recognises the position of the lift cage in the lift shaft and can, for example, con'espondingly control the drive. The lowermost shaft magnet 2 shown in Fig. 1 during upward travel of the lift cage triggers, for example, the switching over of travel speed to crawling speed. Then the lift cage travels further at crawling speed up to the next storey magnet 2, which, for example, causes switching-off of the drive. The lift cage now stands at a storey 3. In rational manner, the same switching sequence results with the two upper shaft magnets 2 during downward travel of the lift cage.
Figs. 2 and 3 show the guide rail 1 arranged, for example, at a shaft wall 4, wherein the guide rail 1 is arranged at a spacing a from the shaft wall 4 due to fastening means, which are not illustrated. The spacing a allows pushing of a holder 5 with clip characteristics onto the holding limb 1.2 of the guide rail 1. The holder 5 can receive the shaft magnet 2 placeable on the guide rail 1.
Figs. 4 to 6 show details of the holder 5, which serves as holder and caliper for positioning the shaft magnets 2. The holder 5 is approximately U-shaped. Another shaping is also possible. The one-piece holder 5 consist of a foot part 5.1, a back part 5.2 and a front part 5.3, at which a recess 5.4, for example a bore, for reception of the shaft magnet 2 is arranged. The shape of the recess 5.4 conforms with the shaft magnet 2 to be received. A shaft magnet 2 which is, for example, rectangular requires a rectangular recess 5.4. The foot part 5.1 of the holder 5 has a respective reinforcing rib 5.5 at each side and a first chamfer 5.6 at the free end. The front part 5.3 with the recess 5.4 has a second, chamfer 5.7. The chamfers 5.6 and 5.7 facilitate the pushing of the holder 5 onto the holding limb 1.2 of the guide rail 1. The foot part 5.1 and front part 5.3 in the rest state run slightly towards one another towards their free ends. On pushing of the holder 5 onto the holding limb 1.1 the parts 5.1 and 5.3 are lightly spread, whereby the holder 5 is firmly clipped to the holding limb 1.2 by means of the parts 5.1 and 5.3 due to the spring properties of the back part 5.2. The shaft magnet 2 can now be placed on the holding limb 1.2 through the recess 5.4. The shaft magnet 2 is firmly retained by its magnetic force at the holding limb 1.2 of the guide rail 1. The holder 5 and the shaft magnet 2 are firmly connected with the guide rail directly and without outside fastening means and can individually be easily released from the guide rail 1 and be arranged again wherever desired along the guide rail height. The holder 5 or the shaft magnet 2 can also be arranged at the guide rail 1 or at other components of the lift shaft by outside fastening means.
In a further variant of embodiment, the shaft magnets 2 are arranged directly at the guide rail 1 without a holder 5.
The holder 5 and/or shaft magnet 2 can be arranged at the guide rail 1 and/or at other
I components of the lift shaft.
The shaft magnet 2 can, without further measures, be removed against its magnetic force from the guide rail 1 and the holder 5 can be withdrawn from the holding limb 1.2 against the friction forces produced on the guide rail 1 by the foot part 5.1 and front part 5.3.
1.	Shaft magnet equipment for generating shaft information of a lift installation, wherein at least one shaft magnet (2) arranged in a lift shaft by means of a holder (5) changes the switching state of a magnet switch, which is arranged at a lift cage, during travel of the lift cage in the lift shaft, characterised in that the holder (5) and/or the shaft magnet (2) are arranged at a component (1, 1.2) of the lift shaft without outside fastening means.
2.	Shaft magnet equipment according to claim 1, characterised in that the holder (5) is arranged at the component (1, 1.2) under the effect of a spring force and/or the shaft magnet (2) is arranged at the component (1. 1.2) under the effect of magnetic force.
3.	Shaft magnet equipment according to claim 1 or 2, characterised in that the holder (5) has clip characteristics and a recess (5.4), by which the shaft magnet (2) is placeable on the component (1) under the effect of its magnetic force, wherein the holder (5) and shaft magnet (2) are together firmly connected with the component (1) and are individually easily removable from the component (1).
4.	Shaft magnet equipment according to claim 3, characterised in that the holder (5) has a foot part (5.1). a back part (5.2) and a front part (5.3), wherein the foot part (5.1) and front part (5.3) are connected at one end with the back part (5.2) and in the rest state run slightly towards one another towards their free ends.
5.	Shaft magnet equipment according to claim 4, characterised in that the back part (5.2) has spring properties, wherein on pushing of the holder (5) onto the component (1) the foot part (5.1) and front part (5.3) are lightly spread and the holder (5) firmly clips to the component (1) by means of the spring properties of the back part (5.2)
6.	Shaft magnet equipment according to claim 4, characterised thereby in the foot part (5.!1) has reinforcing ribs (5.5) and a first chamfer (5.6) at the free end and the front part (5.3) has a second chamfer (5.7), wherein the chamfers (5.6, 5.7) facilitate the pushing of the holder (5) onto the component (1).
7. Shaft Magnet Equipment for generating shaft information of a
lift installation, substantially as hereinabove described and illustrated with reference to the accompanying drawings.
For the fastening of a shaft magnet to a guide rail there is provided a holder (5) with clip characteristics, which consists integrally of a foot part (5.1), a back part (5.2) and a front part (5.3), at which a recess (5.4) for reception of the shaft magnet is arranged. The foot part of the holder (5) comprises a respective reinforcing rib (5.5) at each side and a first chamfer (5.6) at the free end. The front part (5.3) with the recess (5.4) has a second chamfer; (5.7). The foot part (5.1) and front part (5.3) in the rest state run slightly towards one another towards their free ends. On pushing of the holder (5) onto the guide rail the foot part (5.1) and front part (5.3) are lightly spread, whereby the holder (5) is firmly clipped to the guide rail by the spring properties of the back part (5.2). The shaft magnet can now be placed on the guide rail through the recess (5.4). The shaft magnet is firmly retained at the guide rail by its magnetic force. The holder (5) and shaft magnet are firmly connected with the guide rail without outside fastening means and can individually be easily released from the guide rail and be arranged again wherever desired along the guide rail height.
785-mas-1999-abstract.pdf
785-mas-1999-claims duplicate.pdf
785-mas-1999-claims original.pdf
785-mas-1999-correspondance others.pdf
785-mas-1999-correspondance po.pdf
785-mas-1999-description complete duplicate.pdf
785-mas-1999-description complete original.pdf
785-mas-1999-drawings.pdf
785-mas-1999-form 1.pdf
785-mas-1999-form 26.pdf
785-mas-1999-form 3.pdf
785-mas-1999-form 5.pdf
785-mas-1999-other documents.pdf
785/MAS/1999
SEESTRSSE 55,CH-6052 HERGISWIL
1 JOSE LUIS LACARTE ESTALLO ALEJANDRO CASONA,13 E-50015 ZARAGOZA
B66B5/00
1 98 810821.3 1998-08-21 EUROPEAN UNION