EP1101882A1 - Lift - Google Patents

Abstract

Each lift cabin guide rail (40) is formed by two or more corner profiles (9). The lift cabin (12) with vertical sliding doors (25, 26) travels up and down a preferably free-standing guide frame (8) containing at least two supporting corner profiles.

Description

The invention relates to an elevator installation, in particular one Small goods elevator with preferably self-supporting Guide construction, according to the generic term of Claim 1.

To the transmission of structure-borne noise when moving one Elevator cabin along its route and when opening and Closing the vertical sliding doors from the Leadership facilities to reduce the building, it is known to use the guidance facilities self-supporting auxiliary construction essentially free-standing and without a force-introducing connection in a building to install the elevator shaft provided. So you have for example in French patent specification FR 1570002 the guidance devices of the cabin and Vertical sliding doors with one made of bent sheet metal parts composite auxiliary construction connected with Exception of the shaft door cutouts as in the vertical direction closed channel is formed. It is further from there known, using sheet metal corner profiles Connection plates for absorbing thrust forces with each other connect to. In addition, two form the front of the cabin facing corner profiles bent towards the cabin Vertical edges that act as a guide for the Vertical sliding doors serve.

This auxiliary construction leads to a satisfactory, low-noise integration of the Small goods lifts in the building, but is very expensive built and requires additional space in the Well, the assembly of the sheet metal parts in the confined space difficult and expensive.

The aim of the invention is to provide an elevator with a To create a guide structure of the type mentioned at the beginning, which avoids the disadvantages mentioned, in particular simply and is inexpensive to manufacture and an improved Use of the footprint allowed.

According to the invention, this goal is achieved by an elevator with the features specified in claim 1 in particular achieved by the cabin guide rails through Vertical edges of the corner profiles are formed.

According to the invention thus form corner profiles of the self-supporting Aid construction also the guide rail for the cabin. This eliminates the need for separate guide rails for the cabin, which is why the manufacture and assembly of the Guide construction according to the invention are inexpensive. The reduced number of assemblies and / or parts of the Elevator system reduces material and material costs Partial management and simplifies the entire logistics right up to assembly. The arrangement of the Cabin guide rail on the side of the cabin as part of the Corner profile also allows the distance between the Guide structure and cabin and reduce one improved utilization of the footprint of the elevator to reach.

In the execution of the guide construction there are four Corner profiles according to the invention by means of suitable Cross struts to accommodate the supporting and managerial staff mutually fixed and the cabin is along two Guide rails guided according to the backpack principle. This ensures a particularly stable linear cabin movement along the driveway.

An exact alignment of the cabin front with the Vertical sliding doors are ensured that the Cabin and the vertical sliding doors in at least the two corner profiles facing the cabin front each on same corner profile are performed. By the inventive physical unity in an assembly, is the alignment, or position of these two guides to each other constructively fixed and permanently reproducible. The one with the Precise guidance achievable according to the invention also allows the Distance of the vertical sliding door assembly to the cabin minimize. Especially for small goods lifts, e.g. a food elevator, this offers the advantage that in the Compared to conventional lifts of this type, none or at least less food through the gap in the Elevator shaft get what an unsanitary and counteracts unpleasant odors.

A particularly precise alignment of the front of the cabin the vertical sliding doors is based on the aforementioned Execution achievable with a guide construction in which all four corner profiles using horizontal and diagonal arranged struts together to a stiff Leadership construction are summarized. The one another facing vertical longitudinal edges of two opposite Corner profiles form two on each side of the cabin mutually parallel management levels in which the cabin is led. The cabin, especially theirs Feed opening cross-section on the front of the cabin and the limited by framing the vertical sliding door

Stop openings are thus in alignment with each other aligned without the above levels and paragraphs Appearance disturbed. Goods to be transported or Loads can thus get into or out of the cabin unhindered to be spent. These are advantages that are specific to Use as a food transport elevator is of particular importance receive.

In such an embodiment with two management levels is a compact construction of Achieving guide structure and cabin in which the vertical longitudinal edges, the guide rails, two opposite corner profiles arranged facing each other are and therefore the design of the cabin smaller width dimension can be represented.

A further increase in this footprint saving Construction can be achieved that the vertical Long edge forming corner profile legs one to the cabin executed folding of the kind that the Management level is shifted so far towards the cabin that the width dimension of the cabin provided Guide means is at least partially compensated. The there is an additional advantage Reinforcement of the corner profile primarily in one saving the footprint of the elevator or a better one Utilization of the building provided Shaft cross-section.

A preferred development of the invention sees one modular design based on the modular principle Guide construction from standardized horizontal and Diagonal struts and corner profiles. Independent of Lifting height of the cabin or of the elevator specific The length of the guideway is standardized in the corner profiles Lengths, preferably in three standard lengths. The selected length or height of the Guide construction is then used when using a Connecting device by assembling one suitable combination of the different standard corner profiles shown. By manufacturing the corner profiles in The standard lengths are the cutting waste and the total costs decreased.

In this context, it is also advantageous if the Corner profiles are continuously perforated in two rows. Such one Equidistant hole pattern is used on the one hand to attach the Struts, machine supports and mounts of electrical Components and the like, on the other hand, find the Locks of the vertical slider to accommodate them. Combined with in this way perforated corner profiles can also in Struts manufactured with uniform length with standardized Perforation must be provided, which makes the assembly special facilitated.

Furthermore, the modular structure simplifies assembly the guide construction itself, as well the assembly of add-on parts and assemblies. When mounting the Guide construction according to the invention in the elevator shaft is exclusively with slim, in the case of perforated To handle corner profiles, weight-reduced components in contrast to conventional constructions Assembly in tight spaces e.g. by Screw it together, make it much easier.

One is particularly easy and inexpensive to manufacture Sheet metal rolled or bent corner profile, the Long edges of both legs of the corner profile preferably are lapped and the cabin guide rail or Form the vertical slide guide rail.

Other dependent claims include additional ones expedient and advantageous versions of the by Features of claim 1 given invention.

Figur 1,

eine Draufsicht des erfindungsgemässen Kleingüteraufzugs,

Figur 2,

schematisch eine perspektivische Ansicht eines Höhenabschnitts der erfindungsgemässen Führungskonstruktion mit einer ersten Ausführung des Eckprofils und mit Kabine,

Figur 5,

eine Draufsicht auf ein zweites Ausführungsbeispiel der erfindungsgemässen Eckprofilführung,

Figur 4,

eine Draufsicht eines dritten Ausführungsbeispiels der Eckprofilführung,

Figur 5,

schematisch eine Draufsicht eines Kleingüteraufzugs mit einer erfindungsgemässen Führungskonstruktion mit nur zwei Eckprofilen.

Preferred embodiments of the invention are shown in the drawing and described in detail below. Show it:

Figure 1,

a plan view of the small goods elevator according to the invention,

Figure 2,

schematically a perspective view of a height section of the guide structure according to the invention with a first embodiment of the corner profile and with cabin,

Figure 5,

a plan view of a second embodiment of the corner profile guide according to the invention,

Figure 4,

a plan view of a third embodiment of the corner profile guide,

Figure 5,

schematically a top view of a small goods elevator with a guide structure according to the invention with only two corner profiles.

Figure 1 shows the installation conditions of a small goods lift 1 in an elevator shaft 2. Shaft walls 3, 4, 5 border three sides an essentially square footprint 6 and a vertical shaft room, while shaft 2 for fourth side by a building side Shaft wall 7 is limited with two stops. On the Footprint 6 in elevator shaft 2 is free-standing and without load-bearing connection to shaft walls 3,4,5 of the Small goods elevator 1 with an inventive self-supporting vertical guide structure 8 mounted. The guide structure 8 is in this Embodiment of four corner profiles 9, the means Horizontal struts 10 and diagonal struts 11 in their position are fixed to each other.

Along the guide structure 8 is a cabin 12 of the Small goods lift 1 in cabin guide levels 13, 14 vertically movable on both sides of the cabin side wall 15 guided. The cabin management levels 13, 14 are according to the invention by cabin guides 16 in each corner of the self-supporting guide structure 8 defines what is described in more detail below.

To raise and lower the cuboid cabin 12 is a Drum drive 17 with rope drum 18 and electrical Gear motor 19 on a machine support 20 on the side upper end mounted on the outside of the guide structure 8. The rope 21 runs as a symmetrical rope loop over a Deflection roller mounted on the side of the cabin floor and will either open according to the selected cabin calls the cable drum 18 unwound on or from this; accordingly, the cabin 12 is thereby up or moved down. There is a distance in the area of each stop 22 parallel to the cabin front 23 Vertical sliding door assembly 24 to the guide structure 8 grown. The known vertical sliding door assembly 24 includes, among other things, an upper slide 25 and one lower slide 26, for example, as here shown, by means of two each via a deflection roller 27 guided ropes 28 or chains synchronously in opposite Directions are moved along a slide guide 29 can.

The guide structure 8 of the in Figure 1 and Figure 2 shown embodiment essentially consists of four load-bearing multi-part corner profiles 9 together, the each the corner edge of a stake out by its arrangement rectangular base of the guide structure 8 train and by means of horizontal struts 10 and Diagonal struts 11 to one another above the shaft height reaching rigid self-supporting framework-like Guide structure 8 are connected. Horizontal struts 10 am connect the upper end of the guide structure 8 each two adjacent corner profiles 9 and lay the mutual Distance of the guide rails 40.41 fixed. As circulating Stiffening support them when moving the cabin 12 Initiation or support of the driving forces of the Drum drive 17 via the machine frame 20 in the Guide construction 8.

Each of the four corner profiles 9 essentially forms perpendicular side legs 30 and Wide legs 31 made over the entire length of the Corner profile 9 are continuously perforated in two rows. This Perforation 32 with uniform hole spacing 33 and Hole diameter serves on the one hand for fastening the struts 10,11, the machine support 20 and the brackets of electrical components, e.g. the pit switch on the other hand for receiving and fastening one or several slide locks 35 (Figure 2).

The corner profiles 9 consist of those in FIGS. 1 and 2 shown execution not from a single continuous profile piece, but each of two in Longitudinally butting together Corner profile pieces 36.37 with standard length. The kick 38 bridges a butt strap 39, the inside of the two each end to be connected to the Corner profile pieces 36,37 placed and screwed to them. The butt plate 39 is apart from the areas of Guide rails 40,41 complementary to the inner surface of the Corner profile pieces 36.37 and ensures an aligned, in Transition from a precisely aligned longitudinal direction Corner profile piece 36 to the other 37. Alternatively to that here shown embodiment, the butt flap complementary to the outer wall of the corner profile pieces 36, 37 created and screwed to them. However, builds the corner profile 9 and the entire guide structure 8 with the inside butt flap 39 at the same Bending resistance moment smaller.

In contrast, it is essential that the butt plate 39 perpendicular to the longitudinal direction of the corner profile 9 a two-dimensional alignment of those to be connected Corner profile pieces 36.37 causes. The multi-dimensional Alignment represents an almost steady run when moving the cabin 12 via the joint 38.

The length of the corner profile pieces 36, 37 is identical here shown; but according to the invention corner profile pieces in three different lengths can be provided. This facilitated by short and as light as possible piece weights the assembly of the guide structure 8 and stops at lengths the guide structure 8 to the desired dimension, the corner profile drop low.

The vertical edges of the side legs 30 and Width legs 31 of each of the four corner profiles 9 are lapped and serve as guide rails 40 for the cabin 12 and as a guide rail 41 for the vertical slide 25, 26 (Figure 3).

Figure 3 shows a plan view of a corner area of the Guide construction according to the invention from FIGS. 1 and 2, in which the cabin guide 16 and the Vertical slide guide 29 on one and the same corner profile 9 are trained. This can cause deviations in the Vertical slide guide level 53 opposite the cabin front 23 can be reduced to a minimum. The cabin guide 16 consists essentially of one on the cabin side wall 15 attached cabin guide shoe 42 with a U-shaped Recess that with a cabin guide rail 40 in Longitudinally slidably engaged. In the embodiment shown in Figure 2 are each Cabin guide rail 40 two in the direction of movement Cabin 12 spaced-apart cabin guide shoes 42 attached to the cabin side wall 15. The four Cabin guide shoes 42 together form the Cabin management level 13 here according to the backpack principle guided cabin 12. Includes vertical slide guide 29 a slide guide shoe 43, which is stationary with one of the Slider 25, 26 is connected and by means of a U-shaped Recess on one Vertical slide guide rail 41 slides in the longitudinal direction.

In the embodiment of the Corner profile 44 according to the invention consists of a Guide profile 45 and a complementary support profile 46. Guide 45 and support profile 46 are thus separated each in turn in standardized lengths producible and are then offset in the longitudinal direction connected with each other. The carrier profile 46 takes over Function of the butt plate 39 and serves at the same time Stiffening of the guide profile 45.

It is also advantageous with regard to profile production a multi-part corner profile 47 according to one in Figure 4 embodiment shown from a cabin profile part 48 and a slide profile part 49, one of which with the Cabin guide rail 40 and the other with the Vertical slide guide rail 41 provided separately is prefabricated. Aside from the areas of Guide rails 40.41, both profile parts 48.49 over wide areas are complementary and result together the corner profile 47 according to the invention with two Guide rails 40.41. The complementary ones Profile areas provide an exact alignment of the Profile parts 48,49 secure to each other and replace separate ones Butt flaps with a longitudinally offset arrangement both profile parts 48.49 to each other. Both profile parts 48.49 are in turn provided with an equidistant perforation 32 and screwed together.

In Figures 1 to 4 it is shown that each of the vertical cabin guide rail 40 forming Side legs 30, 30 'one executed towards the cabin 12 Bend 61 forms. The bevel 61 offsets the Cabin guide rail 40 or the cabin guide level 13, 14 so far in the direction of cabin 12 that the width dimension of the guide shoes 42 provided on the cabin side is compensated becomes. This affects a reduced footprint 6 the elevator 1 or a better utilization of the shaft cross-section provided on the building side. At the same time it stiffens the corner profiles 9,44,47 additionally.

Figure 5 shows an embodiment of the inventive Guide construction 50 with only two corner profiles 51 and 52. The corner profiles 51, 52 have a U-shaped here Cross section and are facing towards each other free Profile legs 54,55 and 56,57 arranged and again by means of horizontal and / or diagonal struts to one self-supporting guide structure 50 stiffened. Also at this version, the corner profiles are 51.52 in standardized lengths with continuous perforation prefabricated. The longitudinal edges of the free profile legs 54,55 of the corner profile 52 and the free longitudinal edges of the free profile leg 56,57 of the corner profile 51 form a Vertical slide guide level 59 and one Cabin guide rail 60, which run parallel to one another and their distance through the choice of the width of the profile webs 58, 59 can be selected minimally according to the invention. How described using the previous exemplary embodiment, slide two cabin guide shoes 42 on one of the Profile legs 55 and 57 and carry the backpack-hung Cabin 12 in the cabin management level 60 in vertical Direction. Two vertical slider shoes 43 each Profile legs 54 and 56 carry a vertical slide Vertical slide assembly 24 in the vertical slide guide plane 61.

In contrast to the execution of the guide structure 8 is the guide structure 50 shown in FIG. 5 is not freestanding, but with the help of fasteners in horizontal levels to the shaft wall and / or to the respective Stop floor supported or secured. she is characterized by a particularly inexpensive and easy to assemble construction.

Reference list

1.

Small goods lift

2nd

Elevator shaft

3rd

Shaft wall

4th

Shaft wall

5.

Shaft wall

6.

Footprint

7.

Shaft wall

8th.

Guide construction

9.

Corner profile

10th

Horizontal strut

11.

Diagonal strut

12th

cabin

13.

Cabin management level

14.

Cabin management level

15.

Cabin side wall

16.

Cabin guidance

17th

Drum drive

18th

Rope drum

19th

Electric gear motor

20th

Machine carrier

21.

rope

22.

distance

23.

Cabin front

24th

Vertical slide assembly

25th

Upper slider

26.

Lower slider

27.

Pulley

28

Rope (slider)

29.

Slide guide

30th

Side thighs

31

Broad legs

32.

Perforation

33.

Hole spacing

34.

Door contact

35.

Sliding lock

36.

Corner profile piece

37.

Corner profile piece

38.

Push

39.

Bumper

40.

Cabin guide rail

41.

Vertical slide guide rail

42.

Cabin guide shoe

43.

Slider guide shoe

44.

Corner profile

45.

Leadership profile

46.

Beam profile

47.

Corner profile

48.

Cabin profile part

49.

Slider profile part

50.

Guide construction

51.

Corner profile

52.

Corner profile

53.

Vertical sliding door management level

54.

Profile leg

55.

Profile leg

56.

Profile leg

57.

Profile leg

58.

Profile web

59.

Profile web

60.

Cabin management level

61.

Vertical slide management level

Claims (10)

Elevator system, in particular small goods lift (1), with a preferably self-supporting guide construction (8.50) from at least two load-bearing corner profiles (9,47,51,52), along which a cabin (12) in vertical Direction between several stops with Vertical sliding doors (25, 26) is movable, as a result characterized that at least two corner profiles (9,44,47,51,52) one cabin guide rail each (40,51,52). Elevator system according to claim 1, characterized in that the cabin guide rails (40) as vertical edges of the Corner profiles (9,44,47,51,52) are formed. Elevator system according to claim 1 or 2, characterized characterized that the corner profiles (9,47,51,52) by means of horizontally arranged struts (10) and / or diagonally arranged struts (11) are releasably connected to each other. Elevator system according to claim 1, 2 or 3, characterized marked that the corner profiles (9,44,47,51,52) at least one vertical to the cabin front (23) Form the running cabin guide level (13, 14, 60). Elevator system according to claim 4, characterized in that four corner profiles (9,44,47,51,52) into one Guide construction (8) are summarized and the mutually facing vertical longitudinal edges of two opposite corner profiles (9,44,47) each to the side of the Cabin (12), mutually parallel guide levels (13, 14) form in which the cabin (12) is guided. Elevator system according to one of claims 1 to 5, characterized characterized that each of the cabin guide rail (40) corner profile legs (30) forming a cabin (12) executed fold (61) of the type that the Management level (13, 14) so far towards the cabin (12) is offset that the width dimension of the cabin side provided guide means (42) at least partially is compensated. Elevator installation according to one of claims 1 to 6, characterized characterized in that the corner profiles (9,44,47,51,52) one for Cabin front (23) parallel vertical sliding door management level (53.61). Elevator system according to one of claims 1 to 7, characterized characterized in that the corner profiles (9,44,47,51,52) a have regular perforations (32) throughout. Elevator system according to claim 4, characterized in that a machine support (20) and fasteners from Elevator components (35, 34) with the Guide construction (8.50) can be connected. Elevator system according to claim 1, characterized in that the guide construction (8.50) is modular Corner profile rail pieces (36,37), horizontal struts (10) and Diagonal struts (11) each with standardized Dimensioning is established.

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