EP3279128A1 - Method and apparatus for transporting passengers and/or goods - Google Patents

Abstract

The invention relates to a method and a device for transporting people and / or goods in a ropeless lift system, the method being characterized in that the level of a fluid in controlled by the principle of communicating tubes shafts is changed variable and thereby on the Liquid floating lift pulp can be selectively positioned with baskets for receiving persons and / or goods and weight elements in at least one designed as a hoistway manhole. The device is characterized in that a liquid is arranged in at least two shafts connected to each other according to the principle of communicating tubes and at least one of the shafts is formed as a lift shaft, wherein in the lift shaft a lift pulpit is arranged floating on the liquid and the lift pulpit a basket Having ground and under the floor arranged weight elements.

Description

The invention relates to a method and a device for transport and persons and / or goods and is applicable for example in the realization of elevators in or on buildings.

For the transport of persons and / or goods in the vertical direction a variety of solutions are known. For a long time, the principle of lifts has been used, which are moved up and down by wire ropes. Likewise, solutions are known in which the drive is realized via racks or hydraulic drives. Lifts with an inclined position, for example in the mountains, are also known.

That's how it describes DE 102013113259 A1 an elevator system in which the car is connected via a cable with a counterweight.

From the DE 202006000137 U1 is known a lift with a hydraulic drive.

A disadvantage of all the known solutions is that only rectilinear movements can be realized.

The invention is therefore an object of the invention to provide a method and apparatus for transporting goods and / or people, which allow inexpensive, reliable and with simple means and an arcuate movement of the transport device.

This object is achieved by the features in the characterizing part of claims 1 and 12. Advantageous embodiments of the invention are contained in the subclaims.

A particular advantage of the invention is that a completely novel movement principle for the transport device is realized by a liquid is arranged in at least two interconnected with each other on the principle of communicating ducts shafts, and at least one of the shafts is designed as a lift shaft, wherein in the Lift shaft a lift pulpit is arranged floating on the liquid, and the Liftkanzel has a basket with bottom and under the floor arranged weight elements.
According to the invention, the level of the liquid in controlled by the principle of communicating tubes shafts controlled variable and the floating on the liquid lift pulp with baskets for receiving the persons and / or goods and weight elements can be selectively positioned in at least one designed as a lift shaft shaft become.

A particular advantage of the invention results from the fact that the lift shaft can be formed vertically or arcuately and is arranged on the outer wall or in the interior of a building. Other forms of building or façade inclinations with different angles to the outside or inside are also possible.

Another advantage of the invention is the good controllability of the position of the lift pulpit, which is realized by the fluid having a viscous constitution.

Another advantage of the invention is the variable design of lift shaft and lift pulpit construction, wherein the lift shaft may have a circular cross-section and the lift pulpit may be spherical or the lift shaft may have a rectangular cross-section just like the lift pulpit.
An exact guidance of the lift pulpit results from the fact that first spacers and / or between the outer wall of the lift pulpit and the inner wall of the lift shaft second spacers are arranged between the basket and the inner wall of the lift pulpit. These spacers may be wheel-shaped or spherical and elastic.

An effective electric power supply results from the fact that the weight elements are batteries.

A further advantage of the invention is the optimal view of the persons to be transported, which results from the fact that the lift shaft and / or the lift pulpit consist at least partially of transparent material. The movement of the liquid with the lifting pulley floating on it is made possible by the fact that a fluid reservoir and pumps are arranged below the shafts. The lift shaft and the lift pulpit have vacuum doors.

A particular advantage of the invention results from the fact that the batteries are charged when charging the lift pulpit on the doors via power charging ports. For an effective movement the lift pulpit in the lift shaft, it is important that the distance between the lift shaft and the lift pulpit is kept constant. It is also important for the realization of the invention that the weight of the weight elements exceeds the weight of the persons and / or goods.

Fig. 1

eine Prinzipdarstellung eines Gebäudes mit gebogener Außenkontur und nach dem Prinzip der kommunizierenden Röhren miteinander verbundenen Schächten;

Fig. 2

eine Prinzipdarstellung eines Gebäudes mit gebogener Außenkontur und Liftschächten mit Liftkanzeln;

Fig. 3

eine senkrechte Schnittdarstellung durch eine kugelförmige Liftkanzel; und

Fig. 4

eine waagerechte Schnittdarstellung durch eine kugelförmige Liftkanzel.

The invention will be explained below with reference to embodiments shown at least partially in the figures.
Show it:

Fig. 1

a schematic diagram of a building with curved outer contour and on the principle of communicating tubes interconnected shafts;

Fig. 2

a schematic representation of a building with a curved outer contour and lift shafts with lift pulpits;

Fig. 3

a vertical sectional view through a spherical lift pulpit; and

Fig. 4

a horizontal sectional view through a spherical lift pulpit.

How out Fig. 1 can be seen, connected to the arcuate outer contour of a building interconnected shafts 1 a, 1 b. The shafts 1 a, 1 b have in their interior a liquid 2, on which a lift pulpit 3 is arranged to float. The shafts 1 a and 1 b operate on the principle of communicating tubes or vessels with each other, which means that the liquid level in the shaft 1 a by the same amount increases as the liquid level in the shaft 1 b decreases and vice versa.

Fig. 2 also shows a building with arcuate outer contour and disposed on the outer contour lift shafts 1 c. In addition to the arcuate lift shafts 1c on the outer contour, vertically formed lift shafts 1c are also arranged in the interior of the building. Altogether are at the from the Fig. 2 to be seen embodiment five lift shafts 1c arranged, two of which on the outer contour arcuate lift shafts 1c and three vertically formed in the interior of the building lift shafts 1 c. In each elevator shaft 1 c is a spherical shaped Liftkanzel 3 floating on the liquid 2 is arranged. The lift shafts 1 c may also have a rectangular cross-section in a further embodiment, in which case also the lift pulpit 3 has a rectangular cross-section.

In order to realize a regular elevator operation, a lift shaft 1 c is always connected by default to a compensating shaft, wherein only on the liquid 2 in the elevator shaft 1 c, a lift pulpit 3 is arranged.

• Erdgeschoss oder eine 0-Ebene,
• 300 m als erster Obergeschoss, beispielsweise für Restaurants, Büros, Hotels etc.,
• 600 m als zweites Obergeschoss für Appartements, Hotels etc.,
• 1.000 m als letztes und höchstes Obergeschoss für Aussichtsplattform, Restaurant und ähnliches.

To realize a panoramic lift, however, it is possible to connect two lift shafts 1 c with each other according to the principle of communicating tubes and to arrange a lift pulpit 3 on the liquid 2 on each elevator shaft 1 c. An entry and exit can be provided here in the end positions above and below.
In a further embodiment of such a panoramic lift or pendulum lift, it is possible to arrange the following stations in a building of about 1,000 m in height:

• Ground floor or 0 level,
• 300 m as the first floor, for example for restaurants, offices, hotels etc.,
• 600 m as second floor for apartments, hotels etc.,
• 1,000 m as the last and highest floor for observation deck, restaurant and the like.

The two lift shafts 1 c as communicating vessels are arranged opposite each other parallel to the corners of the building so that this function is visible from the outside. As a certain attraction, it is also possible to program a stop at half height, for example at a height of 500 m, where the two lift pulpits can hold 1 c at the same height and the persons can see each other.
Below the building, a fluid reservoir 13 is arranged, which cooperates with pumps 14.
The lift shafts 1c and the lift pulpit 3 are formed in the present embodiment, at least partially made of transparent material, such as acrylic Plexiglas. The liquid 2 is preferably transparent. This allows the transported persons a clear view from the lift pulpit 3 through the elevator shaft 1 c in the area.

In addition to the arcuate concave or convex design of the lift shafts 1 c to the semi-circular shape, it is also possible to form the lift shafts 1 c spiral.

The liquid 2 in the shafts 1a, 1b, 1c has a viscous consistency. Temperature control, ie controlled heating or cooling, ensures that this viscous consistency is maintained even when there are temperature fluctuations outside or inside the building.

In addition to the pumps 14 for moving the liquid 2 further pumps can be arranged, which serve as air pumps. The task of these air pumps is to generate under- and overpressure in the elevator shaft 1 c. In this way, the work of the pump 14 is supported and improved for the liquid 2. Thus, if the liquid 2 is pumped up with the lift pulpit 3, a negative pressure is generated above the lift pulpit 3 by the air pumps, which has a positive effect on the upward movement of the lift pulpit 3. Conversely, during the downward movement of the lift pulpit 3 in the elevator shaft 1c, air is pressed in above the lift pulpit 3 to assist the work of the fluid pumps 14.

The 3 and 4 show now the basic structure of the lift pulpit 3, wherein Fig. 3 a vertical sectional view through the lift pulpit 3 and the Fig. 4 a horizontal sectional view through the lift pulpit 3 is.

How out Fig. 3 can be seen, the spherical Liftkanzel 3 a basket 4 with a bottom 5, under which weight elements 6 are arranged. The weight elements 6 are in the present embodiment, accumulators 12 for the electric power supply. Furthermore, 12 ballast weights 11 are arranged under the accumulators 12 and batteries. The basket 4 is used to hold people and has in its interior a control panel 16 for controlling the up and down movement and the door opening and other actions.
The overall system of the transport device is based on the weight of the weight elements 6 always exceeding the weight of the persons and / or goods. Furthermore, 4 holder handles and / or folding seats are arranged for the passengers inside the basket. Between the basket 4 and the inner wall 7 of the Liftkanzel 3 first spacer 8 and between the outer wall 10a and the lift pulpit 3 and the inner wall 10b of the elevator shaft 1c second spacer 9 are arranged. The first spacers 8 and the second spacers 9 serve to realize always the same distance between the basket 4 and the pulpit 3 and between the pulpit 3 and the elevator shaft 1c. The first and second spacers 8, 9 are wheel-shaped or spherical and elastic.

Out Fig. 4 is again especially the arrangement of the first spacer 8 between the basket 4 and the inner wall 7 of the lift pulpit 3 clearly. If the spacers are designed as a ball, the underside of the basket should have dents in, for example, 1/3 of the ball size. Likewise seen from the outside, the basket 4 should have a collar in the area of the floor 5, which reduces the distance between the basket 4 and the lift pulpit 3. Both of these features, ie both dents and wreath should avoid leaving the spacer ball under the passenger basket and thus making the necessary distance between the two suddenly too small and possibly causing friction.

The outer wall 10a of the lift pulpit 3 is coated in the present embodiment with transparent nanoparticles to achieve a very smooth and solid surface. The lift shaft 1 c and the lift pulpit 3 have vacuum doors 15, which ensure a safe entry and exit of persons. At the lift pulpit 3 and the elevator shaft 1c, contacts are provided to immediately connect the accumulators 12 to a power charging port at a stop of the lift pulpit 3 and to charge the accumulators 12 in this manner. In a particular embodiment, the liquid comprises 2 vegetable gelling agents derived from marine algae.

The invention is not limited to the embodiments shown here. Rather, it is possible to realize by variation of the means and features further embodiments, without departing from the scope of the invention.

LIST OF REFERENCE NUMBERS

1a, 1b

shaft

1c

lift shaft

2

liquid

3

lift pulpit

4

basket

5

ground

6

weight elements

7

inner wall

8th

first spacers

9

second spacers

10

outer wall

10a

Exterior wall of the lift pulpit

10b

Inner wall of the lift shaft

11

ballast weight

12

Accumulator / battery

13

fluid reservoir

14

pump

15

vacuum doors

16

control panel

Claims (15)

Device for transporting persons and / or goods,
characterized in that
in at least two shafts (1a, 1b) connected to each other according to the principle of communicating tubes, a liquid (2) is arranged and the liquid level through pumps (14) in the well (1a) increases by the same amount as the liquid level in the well ( 1 b) decreases and vice versa and at least one of the shafts (1 a, 1 b) is designed as a lift shaft (1 c), wherein in the lift shaft (1 c) a lift pulpit (3) is arranged to float on the fluid (2) and the lift pulpit (3 ) comprises a basket (4) with bottom (5) and below the bottom (5) arranged weight elements (6). Apparatus according to claim 1, characterized in that the lift shaft (1c) is formed vertically or arcuately and is arranged on the outer wall or in the interior of a building. Apparatus according to claim 1, characterized in that the liquid (2) has a viscous constitution. Apparatus according to claim 1, characterized in that the lift pulpit (3) is spherical and the elevator shaft (1c) has a circular cross section or that the lift pulpit (3) and the elevator shaft (1c) have a rectangular cross section. Device according to at least one of the preceding claims, characterized in that between the basket (4) and the inner wall (7) of the lift pulpit (3) first spacers (8) and / or between the outer wall (10a) and the Liftkanzel (3) and the inner wall (10b) of the lift shaft (1c) second spacers (9) are arranged. Apparatus according to claim 5, characterized in that the first spacers (8) and the second spacers (9) are formed radförmig or spherical and elastic. Apparatus according to claim 1, characterized in that the weight elements (6) are batteries and / or ballast weights (11) and / or electronic control elements. Apparatus according to claim 1, characterized in that the lift shaft 1c and / or the lift pulpit (3) at least partially made of transparent material. Device according to one of the preceding claims, characterized in that below the shafts (1a, 1b, 1c), a fluid reservoir (13) and the pumps (14) are arranged. Device according to one of the preceding claims, characterized in that the lift shaft (1 c) and the lift pulpit (3) have vacuum doors (15). Device according to claim 7, characterized in that the batteries (11) are charged by current-charging port when the lift pulpit (3) stops. Method for transporting persons and / or goods in a ropeless lift system, characterized in that the level of a liquid (2) can be controlled in a controlled manner by means of pumps (1a, 1b) interconnected in accordance with the principle of communicating tubes ) in the well (1a) increases by the same amount as the liquid level in the well (1 b) decreases and vice versa and thereby on the liquid (12) floating lift pulp (3) with baskets (4) for receiving the persons and / or Goods and weight elements (6) in at least one designed as a lift shaft (1 c) shaft (1 a, 1 b) are selectively positioned. A method according to claim 12, characterized in that the level of the liquid (2) is controlled by pumping. A method according to claim 12, characterized in that the distance between the lift shaft (1c) and the liftable pulpit (3) is kept constant. A method according to claim 12, characterized in that the weight of the weight elements (6) exceeds the weight of the persons and / or goods.

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