FR2962428A1 - ELEVATOR INSTALLATION OF LOW DIMENSIONS INTENDED TO BE MOUNTED IN A BUILDING OR BUILDING - Google Patents

Abstract

The present invention relates to a low-profile elevator installation comprising an elevator duct (1) delimited by vertical duct walls (2), a duct bottom (3) and a duct ceiling, a cabin ( 5) supported by an arch structure (6) guided by cabin guides (7), a drive motor (8) actuating a driving pulley (9) driving at least one elongate hanger member for moving vertically in the sheath (2) said arch structure (6) and a counterweight (11) guided by counterweight guides (12), the guide assembly (7, 12), guide rails (7) and guides counterweight (12) extends along the stroke of the car (5) between one of the sheath walls (2) and said car (5) and the drive motor (8) is recessed. in one of the sheath walls (2).

Description

DESCRIPTION

The present invention relates to the field of elevator installations intended to be mounted in buildings or buildings, inside or outside thereof, and relates to a small elevator installation.

It is known that an elevator is a device that makes it possible to move people or objects in height by serving defined levels or floors by means of a cabin that moves in a vertical duct arranged at the inside or outside a building or building.

An elevator installation generally comprises a vertical elevator shaft with sheath walls, a shaft ceiling and a shaft bottom, an elevator car supported by a vertical arcade or stirrup structure guided in vertical motion. the sheath by cab guides, a drive motor, such as a permanent magnet electric motor, which actuates a driving pulley driving by adhesion at least one elongated member of hanger, cable-type, belt or chain, which is hanging the arch and a counterweight. The latter has the function to allow in particular to counterbalance and balance the load of the cab, to increase the adhesion of the cables on the drive pulley or reduce the power required to drive the cabin moving in the sheath. Cabin guides are generally constituted by two guide rails, or other rigid guide segments, forming a guide plane extending substantially vertically along the stroke of the cabin, the cabin then sliding vertically between said rails with slides integral with the arch structure and each sliding support on the inner or outer face of said guide rails. The counterweight, meanwhile, is guided by counterweight guides usually consisting of two guide rails, between which moves the counterweight, extending vertically in a plane generally substantially parallel or perpendicular to the guide plane of the cabin. In many current buildings, the engine is placed in the upper part of the duct, outside the cabin sliding system and -2- counterweight, in a room or a machine room located (e) above the sheath and the top floor, especially outside the building. Today, architects are demanding that elevator installations no longer include machinery spaces or other buildings located at the top and outside of a building or building, particularly because of their unsightly appearance and their lack of space. the need to create specific access. To meet this demand, the elevator manufacturers therefore proposed to install the machine room in the elevator shaft, 10 in the lower or upper part of the latter. However, the current architectural constraints require duct dimensions increasingly reduced and therefore a small footprint of the elevator installation and in particular the drive members and their accessories and guide systems of the cabin and the counterweight. To remedy this problem, the manufacturers have proposed elevator installations without room or machine room and have developed elevator installations to minimize its bulk. Thus, it has been proposed that the elongated hanger member be driven via halyard pulleys fixed to the booth or to the yoke and / or the counterweight to divide the load and to use a motor and a drive pulley of smaller dimensions. However, these pulleys increase the mounting and maintenance time and their rapid rotation generates, on the one hand, vibrations and, on the other hand, significant wear of said hauling pulleys and elongated members hanger they receive. In addition, these haul pulleys, in particular a high number of hauling pulleys, significantly reduce the efficiency of the installation and generate additional space in the duct going against current demands for reducing the size of the installations. elevator. It is the same for the elongated suspension members which wear and deteriorate faster when they pass on small pulleys with rapid rotation, especially on a multiplicity of small pulleys such as pulleys hauling. In addition, in the case where the engine is disposed in the upper part of the duct, it causes noise nuisance for the apartments on high floors and the operator who intervenes in the lower part of the duct for maintenance and maintenance of the elevator does not see the engine that is hidden by the cabin. On the other hand, the installation of a motor and its accessories in the upper part of the sheath is long and not easy and maintenance interventions are binding for the operator who can easily access the engine and safely. In addition, in current installations, accessibility to the engine roof of a cabin or inside the latter by a roof hatch, does not allow to observe said engine and its accessories in operation.

In the case where the engine is located in the lower part of the sheath, it is exposed to the risk of flooding, especially when it is placed in a bowl forming a portion of the sheath extending substantially from the lower threshold of the race from the cabin to the bottom of the shaft. Finally, the placement of the drive motor in the sheath, in the upper part or in the lower part of the sheath presents a risk for the maintenance operator who can be crushed by the cabin during an ascent or descent abnormal of the cab depending on whether the operator intervenes in the upper or lower part of the sheath. The present invention aims to overcome these disadvantages by providing an elevator installation occupying a reduced space in the duct meeting the current architectural and safety requirements, and to obtain assembly times lower than those of existing installations, and that a decrease in the cost of manufacture and assembly.

For this purpose, the present invention relates to an elevator installation intended to be mounted in a building or a building, inside or outside thereof, comprising an elevator shaft bounded by walls of vertical duct, a duct bottom and a duct ceiling, an elevator car supported by an arcade structure guided by cabin guides, of the type guide rails or similar segments, a drive motor operating a driving pulley driving at least one elongate hanger member, of the cable, belt, chain, lifting or the like type, making it possible to move said arcade structure vertically in the sheath and a counterweight guided by counterweight guides, said cabin guides and said guides; counterweight forming a guide assembly and is essentially characterized in that: the guide assembly extends along the stroke of the car between one of the sheath walls or p main cladding aroi and said cabin, - the driving motor is embedded in said main cladding wall, - the driving pulley, possibly cooperating with at least one fixed deflection pulley, is functionally arranged in the internal space of the cladding. between said main cladding wall and the guide assembly, the rotational drive shaft of said drive pulley extending substantially perpendicular to said main cladding wall, and in that it comprises a pulley system fixed return that can allow the drive pulley to provide a direct drive of the arch structure and the counterweight.

The invention will be better understood, thanks to the following description, which refers to a preferred embodiment, given by way of non-limiting example, and explained with reference to the accompanying diagrammatic drawings, in which: FIG. 1 represents a partial perspective view of an elevator installation according to the present invention, - Figure 2 shows a longitudinal sectional view of an elevator installation according to the present invention, oriented towards the main duct wall, - the FIG. 3 represents a cross-sectional view, under the fixed pulley system, of an elevator installation according to the present invention; FIG. 4 represents a cross-sectional view above the fixed pulley system of an installation; according to the present invention, - Figure 5 shows a longitudinal sectional view of an elevator installation according to the present invention showing the cabin and the arch structure, with a profile view of the latter. The figures show a small elevator installation intended to be mounted in a building or a building, inside or outside thereof, comprising an elevator shaft 1 delimited by vertical duct walls 2, a duct bottom 3 and a duct ceiling 4, an elevator car 5 supported by an arcade structure 6 guided by car guides 7, of the type of guide rails or similar segments, a motor of drive 8 driving a driving pulley 9 driving at least one elongate member of the hanger 10 for moving vertically in the sheath 2 said arch structure 6 and a counterweight 11 guided by counterweight guides 12, said cabin guides 7 and said guides counterweight 12 forming a guide assembly 7, 12. According to the present invention, in such an installation: - the guide assembly 7, 12 extends, along the course of the car 5, between the walls of sheath 2 and said booth 5, the driving motor 8 is embedded in one of the sheath walls 2, and the driving pulley 9 is functionally arranged in the internal space of the sheath 1, between said sheath wall. 2 and the guide assembly 7, 12, the drive shaft 9 'in rotation of said drive pulley 9 extending substantially perpendicular to said main sheath wall 2. In addition, still in accordance with the present invention such an installation comprises a system of fixed return pulleys 13, 14, 15, 15 ', possibly cooperating with at least one fixed deflection pulley 16, capable of enabling the driving pulley 9 d provide a direct drive of the arch structure 6 and the counterweight 11. Direct drive of the cab 5 and the counterweight 11, a drive without hauling. Referring now to FIGS. 1, 2 and 5, it can be seen that the drive motor 8 can be embedded in the main sheath wall 2 being housed with clamping and locking in the operating position in a receiving housing 8 formed in said main sheath wall 2, possibly passing through said wall. Preferably, such a drive motor 8 can be clamped and held locked in the receiving housing 8 'by means of one or more parts 8' making it possible to absorb vibrations and shocks, each part 8 'being able to be of the type known under the trademark "Silentblock" or the like. In a preferred embodiment of the sheath 1, it can be terminated at its lower part by a bowl 17 forming a portion of - E - the sheath 1 extending substantially from the lower threshold of the stroke of the cabin 5 until at the bottom of sheath 3 and the drive motor 8 can be positioned at the bottom of the sheath 1 in said bowl 17 or substantially above it (Figures 1, 2 and 5).

Thus, the position of the drive motor 8 above the bottom of the sheath, at a distance from the latter and more particularly above the bowl 17 makes it possible to avoid, during an abnormal presence of water in the bowl 17, any risk of deterioration of said motor 8. In addition, the position of the drive motor 8 in the lower part of the sheath 1, in particular substantially above the bowl 17 and, preferably, below the lower threshold of the stroke of the cabin 5, allows an operator involved in the lower part of the sheath 1, in particular in the bowl 17, to be able to observe safely both the operation of the drive motor 8 and the drive pulley 9 and other organs of the elevator installation. These may be, for example, the parachute brake system, not shown, disposed under the cab 5 and usually consisting of a stirrup coming to press on a guide rail 7 of the cabin 5 in case of abnormal acceleration of the latter or the slides 19 generally fixed under the brake system parachute to each lower corner concerned of the arch structure 6, ensuring the sliding of the cabin 5 on the car guides 7 (Figure 2). In a preferred embodiment of the system of return pulleys 13, 14, 15, 15 'it may comprise a first return pulley 13 providing direct drive of the arch structure 6 supporting the cabin 5, a second return pulley 14 providing direct drive of the counterweight 11 and a pulley frame 15, 15 'adapted to support the first and second pulleys 13 and 14 (Figures 1, 2, 4 and 5). Preferably, the first return pulley 13 and the second return pulley 14 may be oriented substantially perpendicularly with respect to each other. In addition, the pulley frame may be constituted by two crosspieces 15, 15 ', substantially parallel to each other, fixed substantially horizontally and obliquely to the main sheath wall 2 and to one of the other sheath walls 2 adjacent to the latter, the first return pulley 13 can be oriented substantially perpendicular to said cross members 15, 15 ', while the second pulley 14 can be oriented substantially parallel to said cross-members 15, 15'. On the other hand, preferably, the second return pulley 14 can be fixed between the two crosspieces 15, 15 'so that the elongate hanger members 10 pass between said crosspieces 15, 15' and the first return pulley 13 can to be fixed transversely on the crosspieces 15, 15 'overhanging the latter so that the elongated members of the hanger 10 pass on either side of all of said cross members 15, 15'. Preferably, an end portion of the pulley frame 15, 15 'can be housed in a receiving housing 2' formed in the corresponding upper part of the main sheath wall 2 and can be disposed in said housing 2 'by through one or more pieces of the type known under the trademark "Silentblock" or the like, as can be seen in Figure 1 and Figure 4. More particularly, the present invention may provide that the cross member 15 the pulley frame 15, 15 'closest to the main sheath wall 2 is fixed on the latter by one of its free ends being fixed in the receiving housing 2' of said main sheath 2 and that the one of the free ends of the other cross 15 'to be fixed on one of the cab guides 7 located near said receiving housing 2' or on one of the fasteners 20 for fixing the cab guide 7 on the main cladding wall 2. On the other hand, the present invention may provide an overlap, preferably a slight overlap, between the first pulley 13 and the second pulley 14 located one above the other and with a horizontal offset between them. Preferably, one of the strands connecting the second pulley 14 to the counterweight may come substantially in line with the first lateral face of the first pulley 13. The present invention may further comprise a deflection pulley 16 of each elongated member of suspension 10 which can be arranged functionally in the internal space of the sheath 1, between the sheath wall 2 housing the drive motor 8 and the guide assembly 7, 12. The drive shaft 16 'in rotation of said deflection pulley 16 may extend preferably substantially perpendicularly to the main cladding wall 2 and the deflection pulley 16 may be located preferably close to the driving pulley 9, receiving the or each elongated member of the hanger 10 is between said driving pulley 9 and the first return pulley 13 providing direct drive of the arch structure 6 (FIGS. 1 and 2), or between said driving pulley 9 and the second return pulley 14 ensuring the direct drive of the counterweight 11. It will be understood that when the strand of the or each elongated member of the hanger 10 connecting the driving pulley 9 to the second return pulley 14, respectively to the first return pulley 13, extends vertically between them and that the strand of the or each elongated member of hanger 10 connecting the driving pulley 9 to the first return pulley 13, respectively the second return pulley 14, is inclined with respect to a vertical axis, an angular correction must be made to bring the inclined strand concerned in a substantially vertical axis, in order to avoid any stall of the or each elongated member of the hanger 10, because of its inclination, the corresponding return pulley 13 or 14 . It is the role of such a deflection pulley 16 which then makes it possible to bring the inclined strand concerned of the or each elongate member of the hanger 10 in a substantially vertical axis between the driving pulley 9 and the return pulley 13 or 14 corresponding, tangentially to the latter. Furthermore, the deflection pulley 16 may preferably be attached to the cab guides 7 and / or the counterweight guides 12 and / or the main sheath wall 2. In a preferred embodiment of the arch structure 6, it may advantageously have an L-shaped profile, the horizontal portion of the L extending substantially perpendicularly to the main cladding wall 2 and which may constitute a support seat and the frame 25 on which can rest the cabin 5 with holding and locking in position, while the vertical portion of the L, forming the rear portion of the arcade structure 6 located opposite the main duct wall 2, may comprise a sliding space 6 'able to receive part or all of the guiding assembly 7, 12, the counterweight 11 and the elongate hanger members 10 which then traverse vertically the rear portion of said arcade structure 6 located opposite the main sheath wall 2, as can be seen in particular in Figure 1 and Figure 3. The arch structure 6 may further comprise an upper cross member 18 for attachment or hooking ge extending substantially parallel to the main sheath wall 2 above the cab 5 and in front of the guide assembly 7, 12 located between said upper cross member 18 and the main sheath wall 2. The or each elongated member of the hanger 10 can then be fixed at a point of attachment or attachment 18 'on the upper rail 18. Preferably the seat of the arch structure 6 can be constituted by two forks 6 "extending substantially horizontally in the sheath 1, spaced from each other appropriately and each forming the base of a part or part of L-shaped support and side frame, said parts being connected together rigidly by at least one transverse reinforcement element 6 "'. The upper crossmember 18 can be fixed in the arch structure by fixedly connecting the upper parts of the two vertical branches of the L-shaped supporting and reinforcing parts. In addition, the vertical branches can advantageously delimit between them a space constituting the sliding space 6 'adapted to receive a portion or, preferably, the entire guide assembly 7, 12, the counterweight 11 and the elongated members of the hanger 10. It can also be seen in FIG. of cabins 7 are located between the two lifting forks 6 "and each lifting fork 6" may comprise one or more sliders 19, for example of the rolling roller type, preferably of plastic material for reducing noise, bearing rolling against the outer side face of the corresponding car guide 7 (Figure 2). It will be understood that the sliding can be, for example, sliding or rolling (rollers). The attachment point (s) 18 'may preferably be located towards the center of gravity of the cabin assembly 5 and the arch structure 6, so as to clear the race counterweight 11 and for better sliding of the cabin 5 via the arch structure 6, thanks to a reduced cantilever. Preferably, the car guides 7 may consist of two guide rails on which slide the slides 19 integral with the arch structure 6 and the counterweight guides may also consist of two guide rails 12, between which slides the counterweight vertically 11, located between the two guide rails 7 of the cabin 5 substantially in the plane containing the latter or in a plane parallel to, preferably near, the latter. On the other hand, the guide rails 7 of the cabin 5 and the guide rails 12 of the counterweight 11 can be fixed on the main sheath wall 2 - 10 - by means of fasteners 20, for example in the form of shaped or rigid platinum, or other fastening element or attachment. Advantageously the present invention can provide that the guide rails 7 of the cabin 5 and the guide rails 12 of the counterweight 11 form pairs of guide rails 7, 12 mixed composed of a guide rail 7 and a guide rail 12, each pair of guide rails 7, 12 being fixed to the main sheath wall 2 by means of an attachment piece 20 common to the guide rails 7, 12 of said guide pair concerned.

Thus, thanks to an elevator installation according to the present invention, the cabin guides 7 and the counterweight guides 12 can be advantageously fixed on a single sheath wall 2 or main sheath wall 2, leaving the other sheath walls 2 free, allowing access to the cabin 5 to choose on one or the other sides, which can not be obtained with current facilities comprising including pulleys integral with the arch structure 6 and / or the In addition, the fact that a portion, or preferably all, of the guide assembly 7, 12, of the counterweight 11 and the elongate hanger members 10 can pass through the arch structure 6, particularly its part rear, more particularly between the two pieces of support and L-shaped lateral reinforcement of said arch structure, makes it possible to slide the guide assembly 7, 12, the counterweight 11 and the elongated members of the hanger 10 in this space ed uit, which has the effect of reducing by the same amount the space occupied by the installation according to the present invention in the sheath 1. The driving motor 8 of an installation according to the present invention which can be housed in the thickness of one of the sheath walls 2, at all levels, will preferably be positioned at the bottom of the sheath for two main reasons: - the maintenance of the drive motor 8 can be achieved safely from the sheath bottom 3 and, where appropriate, preferably from the bowl 17, in order to be able to observe, in operation, for example the drive motor 8, the elongate hanger member 10, the brake system and the pulleys the driving motor 8 is remote from the living quarters, and the orientation of the driving pulley 9, with the embedding of said motor 8 in one of the sheath walls 2, makes it possible to use a pulley - 11- motor 9 of large dimensions, this without hindrance r the interior space of the duct 1, while reducing the sound level compared to existing installations. Note that the present invention may provide an electrical maintenance device ensuring the non-serving the lowest observation level for a speaker standing upright in the bowl 17 to protect the latter protruding from said bowl 17 in this position . In addition, the direct drive of the cab 5 and the counterweight 11 without hauling makes it possible to reduce the number of pulleys and the length of the elongated hanger members 10 and therefore the cost price of the installation as well as the complexity of mounting in the machine. sheath 1 and leaving the assembly time. On the other hand, the fact that the installation according to the present invention does not comprise hauling pulleys, unlike current installations and in particular the installations where the drive motor is arranged in the lower part of the sheath 1, makes it possible to provide a sheath 1 with a bowl of small dimensions, while meeting the safety standards.

Furthermore, the fixing of the guiding assembly 7, 12 on a single sheath wall 2 and the possibility of attaching a pair of cab guide 7 and counterweight guide 12 with common fastening parts 20 makes it possible the time saving in the assembly, to leave the possibility to establish three access to the cabin 5.

In addition, the drive motor 8 may preferably be an electric motor and more particularly a synchronous motor of flat type permanent magnets. On the other hand, the elongated hanger members may preferably be traction sheave cables or sheathed cables with the possibility of friction drive. Finally, the guide rails 7 and 12 may have a T-shaped cross-section and a pair of guide rails 7 and 12 may be composed of a T-shaped guide rail 7 and a T-shaped guide rail 12 which may They are mounted in opposition to one another (FIG. 3 and FIG. 4) and are preferably each fastened to the outer face of the base of the T on the corresponding fastening parts 20 (FIG. 3 and FIG. ). Of course, the invention is not limited to the embodiment described and shown in the accompanying drawings. Modifications are possible, particularly from the point of view of the constitution of the various elements or by substitution of technical equivalents, without departing from the scope of protection of the invention.

Claims (11)

REVENDICATIONS1. A small elevator installation intended to be mounted in a building or building, comprising an elevator shaft (1) delimited by vertical shaft walls (2), a duct bottom (3) and a duct ceiling (4), an elevator car (5) supported by an arch structure (6) guided by car guides (7), of the guide rails or the like, a driving motor (8) actuating a driving pulley (9) driving at least one elongate hanger member (10) and a counterweight (11) guided by counterweight guides (12), said cab guides (7) and counterweight guides 12 forming a set of guide (7, 12), characterized in that: - the guide assembly (7, 12) extends, along the stroke of the car (5), between one of the sheath walls (2 ) or main sheath wall (2) and said cabin (5), - the drive motor (8) is embedded in said main sheath wall (2), - the driving pulley (9), possibly cooperating with at least one fixed deflection pulley (16), is arranged functionally in the inner space of the sheath (1), between said main sheath wall (2) and the guide assembly (7, 12), the driving axis (9 ') in rotation of said driving pulley (9) extending substantially perpendicularly to said main sheath wall (2), and in that it comprises a system fixed return pulley (13, 14, 15, 15 ') capable of enabling the driving pulley (9) to provide a direct drive of the arch structure (6) and the counterweight (11). 2. Installation according to claim 1, characterized in that the sheath (1) ends at its lower part by a bowl (17) forming a portion of the sheath extending substantially from the lower threshold of the stroke of the cab ( 5) to the bottom of the sheath (3) and in that the drive motor (8) is positioned in the lower part of the sheath (1) in or substantially above the said bowl (17). 3. Installation according to any one of claims 1 to 2, characterized in that the system of return pulleys (13, 14, 15, 15 ') - 14 - comprises a first return pulley (13) ensuring the direct drive of the arch structure (6) supporting the cabin (5), a second return pulley (14) providing direct drive of the counterweight (11) and a frame (15, 15 ') carrying said first (13) ) and second (14) return pulleys. 4. Installation according to claim 3, characterized in that the first return pulley (13) and the second return pulley (14) are oriented substantially perpendicularly relative to each other. 5. Installation according to claim 4, characterized in that the pulley frame consists of two crosspieces (15, 15 '), substantially parallel to each other, fixed substantially horizontally and obliquely to the main sheath wall (2). and to one of the sheath walls (2) adjacent to the latter, the first return pulley (13) being oriented substantially perpendicular to said crosspieces (15, 15 '), while the second pulley (14) is oriented substantially in parallel said sleepers (15, 15 '). 6. Installation according to any one of claims 3 to 5, characterized in that it comprises a deflection pulley (16) of each or each elongated member of the hanger (10), said deflection pulley (16) being arranged functionally in the inner space of the sheath (1), between the main sheath wall (2) and the guiding assembly (7, 12), the driving shaft (16 ') in rotation of said pulley of deflection (16) extending substantially perpendicular to said main cladding wall (2) and in that said deflection pulley (16) is preferably located close to the driving pulley (9) and is adapted to receive the or each member lengthened hanger (10) is between said driving pulley (9) and the first return pulley (13) providing direct drive of the arch structure (6), or between said driving pulley (9) and the second of return pulley (14) providing direct drive of the counterweight (11). 7. Installation according to any one of claims 1 to 6, characterized in that the arch structure (6) has an L-shaped profile, the horizontal portion of the L extending substantially perpendicular to the duct wall (2 ) and providing a support and frame seat on which the cab (5) is resting and locked in position, while the vertical part of the L, forming the rear part of the arcade structure (6), comprises a sliding space (6 ') adapted to receive a part or all of the guide assembly (7, 12), the counterweight (11) and the elongate hanger members (10) which then traverse vertically rear part of the arch structure (6). 8. Installation according to claim 7, characterized in that the arch structure (6) further comprises an upper cross member (18) attachment or attachment extending substantially parallel to the sheath wall (2) main body above the cabin (5) and in front of the guide assembly (7, 12) located between said upper cross member (18) and the main sheath wall (2) and that the or each elongate member of suspension (10) is fixed at a point of attachment or attachment (18 ') on said upper cross member (18). 9. Installation according to claim 8, characterized in that the seat of the arch structure is constituted by two forks (6 ") extending substantially horizontally in the sheath (1), spaced apart from each other suitably and each forming the base of an L-shaped support and side frame member, said parts being rigidly connected together by at least one transverse reinforcing element (6 "') and that the upper cross-member (18' ') ) connects the upper part of the two vertical branches of said L-shaped side support and frame members, said vertical legs delimiting between them a space constituting the sliding space (6 ') receiving a part or the whole of the set of guiding (7, 12), counterweight (11) and elongate hanger members (10). 10. Installation according to any one of claims 1 to 9, characterized in that the cab guides (7) consist of two guide rails on which slide slides (19) integral with the arch structure (6) and in that the counterweight guides consist of two guide rails (12) located between the two guide rails (7) of the cab (5), substantially in the plane containing the latter or in the vicinity, said guide rails ( 7) of the cabin (5) and said guide rails (12) of the counterweight (11) being fixed to the main sheath wall (2) by means of fasteners (20). 11. Installation according to any one of claims 1 to 10, characterized in that the drive motor (8) is an electric motor, more particularly a synchronous electric motor flat type and permanent magnets.