CN106081969A - Tilting elevator and the method being used for running tilting elevator - Google Patents

Abstract

The present invention relates to a kind of tilting elevator (3), this tilting elevator includes: at least one guide rail (5), the conveying slide (4) that can support movably in tilting elevator (3) of this guide rail pull rope for guiding at this guide rail, container (7) can be placed to carry on slide, and this conveying slide is for moving to container (7) " loaded " position (B) from initial position (A)；nullFirst rope (1a) and the second rope (1b)，Described first and second ropes are guided towards conveying slide (4) by least one first rope dish (11a) for the first rope (1a) and the second deflection mechanism (22b) for the second rope (1b) by capstan winch (8)，And in order to move conveying slide (4)，Described first and second ropes prevent movably passing through the first conveying slide rope dish (44a) for the first rope (1a) and the second conveying slide rope dish (44b) for the second rope (1b) can be arranged in conveying slide (4) place with deflecting，Wherein，It is provided with the equalizer bar (10) that can move around run-on point (9)，Wherein，First rope (1a) and can be able to be fastened on from equalizer bar (10) towards equalizer bar (10) guiding from conveying slide (4) by the second rope dish (11b) by the first deflection mechanism (22a) and the second rope (1b).In addition the present invention relates to the method for running such tilting elevator.

Description

Tilting elevator and the method being used for running tilting elevator

Technical field

The present invention relates to tilting elevator, comprising: at least one guide rail, the conveying slide that can support movably in tilting elevator of this guide rail pull rope for guiding at this guide rail, container can be placed to carry on slide, and described conveying slide is for moving to container " loaded " position from initial position；First rope and the second rope, described first and second ropes are guided towards conveying slide by least one first rope dish for the first rope and the second deflection mechanism for the second rope by capstan winch, and, in order to move conveying slide, the first and second ropes prevent movably passing through the first conveying slide rope dish for the first rope and the second conveying slide rope dish for the second rope can be arranged at conveying slide with deflecting.In addition the present invention relates to the method for running such tilting elevator.

Background technology

For run metallurgical furnace it is known that, the waste material being stored in trench is filled in container, in so-called waste material container, the edge of the load port of the load shaft that this container can be pivotally supported in tilting elevator and can move until be positioned on metallurgical cupola well.In this place, container is pivoted by the tipple that utilization is arranged at inclined lift car, in order to waste material is inserted in metallurgical cupola well by load port.If waste material container arrives on top, then shaft valve opens wide and waste material is given to shaft by tumbling of container.Waste material vehicle is moved by capstan winch along with cable traction.Two ropes are upwards guided around two rope dishes (being described below cord guidance means) of bottom by capstan winch redundantly.If vehicle moves in the terminal location of bottom, then must stop capstan winch, thus, be not result in line relaxation and can hang very straight (aush ngen) from the rope in rope dish.The position of rope is determined by the rotating speed of angle encoders and reel.But due to externalities (such as load, temperature), the actual terminal location of rope has deviation.So that do not rely on externalities to detect the mechanism of the position of rope, when vehicle moves in the end position of bottom.

Therefore, the first task of the present invention is that a kind of tilting elevator is described, this tilting elevator solves above-mentioned problem.Second task of the present invention is the method for running such tilting elevator.

First task is solved by a kind of tilting elevator of explanation, this tilting elevator includes: at least one guide rail, the conveying slide that can support movably in tilting elevator of this guide rail pull rope for guiding at this guide rail, container can be placed to carry on slide, and this conveying slide is for moving to container " loaded " position from initial position；First rope and the second rope, described first and second ropes are guided towards conveying slide by least one first rope dish for the first rope and the second deflection mechanism for the second rope by capstan winch, and in order to move conveying slide, described first and second ropes prevent movably passing through the first conveying slide rope dish for the first rope and the second conveying slide rope dish for the second rope can be arranged at conveying slide with deflecting, wherein, being provided with can be around the equalizer bar of run-on point motion, wherein, equalizer bar (10) can support in online property guide unit with moving, and wherein, first rope and can be able to be fastened at equalizer bar towards equalizer bar guiding from conveying slide by the second rope dish by the first deflection mechanism and the second rope.Here, equalizer bar can be bearing in linear guide unit movably.Advantageously, equalizer bar the most also meets the function of tensioning rope.Thus, it also is able to be described as tensioning weight.

Second task is by illustrating that a kind of method for running tilting elevator solves, this tilting elevator includes: at least one guide rail, the conveying slide that can support movably in tilting elevator of this guide rail pull rope for guiding at this guide rail, container can be placed to carry on slide, and this conveying slide is for moving to container " loaded " position from initial position；nullFirst rope and the second rope，Described first and second ropes are guided towards conveying slide by least one first rope dish for the first rope and the second deflection mechanism for the second rope by capstan winch，And in order to move conveying slide，Prevent from described first and second ropes movably passing through for the first conveying slide rope dish of the first rope and be used for the second conveying slide rope dish of the second rope and can be arranged in deflecting at conveying slide，Wherein，Balance by rope can be produced around the equalizer bar of run-on point motion，First rope can be guided and fastening towards equalizer bar from conveying slide by the second rope dish by the first deflection mechanism and the second rope，Wherein，Equalizer bar (10) can be bearing in the linear guide unit with two guide elements with moving，Wherein，First guide element especially elongated hole and the second guide element are described run-on points，Thus produce tensioning and the tensioning of the second rope of the first rope.

Conveying slide is moved by capstan winch along with cable traction.This is upwards guided around two cord guidance means of bottom by band rope redundantly by capstan winch.First rope deflects towards the direction of conveying slide followed by the first rope dish.In this place, this rope is deflected by the first conveying slide rope dish and is directed to equalizer bar by the first deflection mechanism.Next second rope towards the direction deflection of conveying slide and by the second conveying slide rope dish and is directed to equalizer bar by the second deflection mechanism at the first rope Pan Chu at this.

Here, equalizer bar can be it may be said that work as seesaw.According to the present invention, equalizer bar is responsible for as rope balance, and two rope same intensity all the time ground load.If a rope is shorter than another rope, then when not having equalizer bar, shorter rope stands whole load and longer rope is not loaded.This is by being now avoided by according to the equalizer bar of the present invention, because this equalizer bar ensure that the uniform load of two ropes.Additionally, cause pulse when container/conveying slide loads.But, by the present invention, this is advantageously not resulted in the overload of the rope being tensioned, but is lifted by equalizer bar slight and buffer.Therefore, equalizer bar also serves as pulse buffer.

List other favourable measure in the dependent claims, this measure can at random combination with one another for obtain further advantage.

Preferably, the first conveying slide rope dish is less than the second conveying slide rope dish.Utilize two different size of rope dishes it is possible that the rope rope dish/deflection mechanism being led to top abreast when not having angle to offset alongside one another.

Equalizer bar has the horizontal axis of level.Preferably, equalizer bar has the gradient of the horizontal axis around this level.That is, equalizer bar turns forward, especially turn forward with ζ=8 ° at this.Thus, vertical rope bundle namely the rope bundle such as come through cord guidance means from capstan winch are not touched.

Preferably, the first rope dish is parallel to the first deflection mechanism ground and the second rope dish is arranged on common axis with being parallel to the second deflection mechanism.Described common axis has first end region and the second end region.In a preferred design, the first rope dish and the first deflection mechanism are arranged in first end region, and the second rope dish and the second deflection mechanism are arranged in the second end region.In addition, it is provided with the first cord guidance means of bottom, next first rope towards the first rope dish and can be guided towards conveying slide by capstan winch by this cord guidance means, and it being provided with the second cord guidance means of bottom, next the second rope towards the second deflection mechanism and can be guided towards conveying slide by capstan winch by this cord guidance means.First rope can be guided towards equalizer bar by the first deflection mechanism by carrying slide, and the second rope can be guided towards equalizer bar by the second deflection mechanism by carrying slide.First and second ropes do not overlap.Perpendicular is guided from the rope of cord guidance means to deflection mechanism/rope dish.

In a preferred design, the first rope dish and the first cord guidance means and the second deflection mechanism and the second cord guidance means orient in vertical plumb line towards each other.

Equally, the spacing that the first rope dish and the first deflection mechanism are had is equal to the second rope dish and the spacing of the second deflection mechanism.

Equally, the first rope dish and the second rope dish have identical rope dish diameter, and the first deflection mechanism and the second deflection mechanism have identical deflection mechanism diameter.Here, rope dish diameter is more than deflection mechanism diameter.Here, the design of reversing certainly is also feasible.

Equalizer bar can be designed as the lever of both sides, and this lever is with the identical lever arm of length, and this lever arm can be rotatably supported at run-on point.Thereby, it is possible to seesaw function for balance rope is better achieved.

Equalizer bar is preferably fastened at tilting elevator.Equally, it is possible at least one sensor is set at equalizer bar.Here, equalizer bar can be bearing in linear guide unit in a preferred design movably.Here, linear guide unit is elongated hole, the most vertical elongated hole, utilize this elongated hole to be able to carry out elevating movement by equalizer bar.It is to say, equalizer bar can rotate not only about run-on point, and make to realize to be directed to and predetermined vertical motion downward or upward.Here, vertical motion is limited by elongated hole.Therefore, linear guide unit includes two guide elements, and wherein, the first guide element is designed as elongated hole and the second guide element is designed as run-on point.Therefore, the run-on point of equalizer bar is not fixed, but is guided by bearing pin and elongated hole.Here, elongated hole can such as be milled in equalizer bar and be located at the middle part between two lever arms of equalizer bar；Described run-on point can be designed as bearing pin.Advantageously, equalizer bar the most also meets the function of rope tension.Thus, it also is able to be described as tensioning weight.If conveying slide and container arrive the stowage position of bottom, then capstan winch is the most somewhat rotated further.Rope continues to be kept under tension by being declined by equalizer bar.But before equalizer bar is positioned in the position of its underpart, such as, it is arranged on the proximity switch at equalizer bar and causes the operation of capstan winch to stop.Rope now continues to keep (as expected) to beat under tension and not from dish/deflection mechanism.

Preferably, it is possible at least one sensor is set at equalizer bar.Moving upward/moving downward by equalizer bar, time in the terminal location that the conveying slide with container moves to bottom, sensor can detect towards the correct movement in the terminal location of the bottom of the conveying slide with container.The most advantageously, linear guide unit is furnished with sensor, the position of the bottom of this sensor detection equalizer bar.

In a preferred design, capstan winch includes reel, especially single-body type or catamaran type reel, and described reel is fastened on capstan winch framework, and wherein, reel can be driven by drive mechanism by electro-motor.Equally, capstan winch can have pulleying protection department.Extra in running brake, it is possible to advantageously two disk brakes of fastening.Pulleying protection department ensures that the rope correct winding on reel and lax rope identification trigger urgent chopper in emergency.For emergency, additionally also two disk brakes are fastened at capstan winch in running brake.

Move at least one guide rail for by conveying slide additionally, conveying slide has at least two with the front-wheel of wheelspan.Preferably, conveying slide includes at least two main support, and wherein, the first conveying slide rope dish and the second conveying slide rope dish can be integrated in main support, thus the first rope and the second rope move towards outside the wheelspan of conveying slide.

Thus, rope tendency is moved towards outside the wheelspan of conveying slide especially waste material vehicle.Here, conveying slide rope dish can be integrated in the main support of vehicle.Thus, in the scope of the center of gravity that the position of conveying slide rope dish is positioned at container.Thus, the synchronization of vehicle is almost identical when running up with operation downwards.Accordingly, for waste material vehicle, just dropping out/waste material that dropped out do not damages rope.Preferably, the first conveying slide rope dish and the second conveying slide rope dish different size, thus rope wiping the most against each other.Here, conveying slide dish is integrated in the main support of vehicle.Thus avoiding, when during raising at container especially waste material container, in adverse conditions, waste material drops from vehicle, this waste material can drop between track and can damage rope.

In addition avoid, under in vehicle valve, the waste material of clamping connection moves to vehicle and rope can be damaged.

In a special design, equalizer bar has buffer part, especially the buffer part of hydraulic pressure or spring.It is possible to the rope balance realizing being buffered.

Tilting elevator is especially suitable for performing the method according to the invention.Equally, tilting elevator can especially be applied in steel mill, but is not limited to this application.

Accompanying drawing explanation

Other feature, characteristic and the advantage of the present invention obtain from following explanation referring to the drawings.Schematically show at this:

Fig. 1: tilting elevator,

Fig. 2: with the rope tendency of the tilting elevator of equalizer bar,

Fig. 3: equalizer bar.

Detailed description of the invention

Although the present invention specifically illustrates especially by preferred embodiment and describes, but the invention is not restricted to disclosed example.Variant in this can be derived by those skilled in the art, and is defined by following Patent right requirement without departing from protection scope of the present invention, such as this protection domain.

Fig. 1 schematically illustrates tilting elevator 3, this tilting elevator is with guide rail 5, the conveying slide 4(container 7 that can support movably in tilting elevator 3 of this guide rail pull rope for guiding at this guide rail is placed into this conveying slide), this conveying slide is used for container 7 from initial position A moves to " loaded " position B with load port 6 of the metallurgical cupola well (not shown) for melting unit.First, conveying slide 4 is positioned in initial position A.In this initial position A, draw towards the direction of " loaded " position B with the container 7 of waste material filling.In " loaded " position B, the waste material being positioned in container 7 container 7 around in the anterior region being positioned at this container transverse to guide rail 5 be longitudinally oriented and empty to load in shaft (not shown) time the pivot axis (not shown) that is perpendicular to drawing trend is tumbled.Guide rail 5 has gradient α with respect to the horizontal plane.Container 7 moves along with cable traction.

Fig. 2 schematic section shows the tilting elevator 3 according to the present invention.This tilting elevator has the first rope 1a and the second rope 1b.First rope 1a and the second rope 1b is guided towards the first rope dish 11a guiding and the second cord guidance means 12b around bottom towards the second arrangement for deflecting 22b around the first cord guidance means 12a of bottom by capstan winch 8 redundantly.Rope 1a next by less rope dish 11a towards conveying slide 4(Fig. 1) direction deflection.In conveying slide 4 (Fig. 1), now guide towards the first deflection mechanism 22a around the first conveying slide rope dish 44a deflection, and thus the first rope 1a is guided towards equalizer bar 10.Rope 1b next by the second deflection mechanism 22b towards conveying slide 4(Fig. 1) direction deflection.In conveying slide 4 (Fig. 1), now guide towards the second rope dish 22b around the second conveying slide rope dish 44b deflection, and thus the second rope 1b is guided towards equalizer bar 10.The run-on point 9 of equalizer bar 10 is positioned on the slide block (Kulissenstein) that can move.The guidance part of this slide block is fastened at the steel construction of tilting elevator 3.Equalizer bar 10 is thus fastened at tilting elevator 3 indirectly by run-on point 9.It should be noted that the first conveying slide rope dish 44a has the diameter less for conveying slide rope dish 44b than second.Thus it is possible that rope 1a, 1b are alongside one another is directed to rope dish 11a, b/ deflection mechanism 22a, b in the case of not having angle skew abreast.Additionally, the first rope dish 11a and the second rope dish 11b has the rope dish diameter 33 less for deflection mechanism 22b than the first deflection mechanism 22a and second.

Here, the first rope dish 11a is parallel to the first deflection mechanism 22a and the second rope dish 11b is parallel to the second deflection mechanism 22b and is arranged on common axis 13.Here, the first rope dish 11a and the first deflection mechanism 22a is arranged in the first end region of described axis, and the second rope dish 11b and the second deflection mechanism 22b is arranged in the second end region of axis 13.Additionally, the spacing that the first rope dish 11a and the first deflection mechanism 22a is had is equal to the second rope dish 11b and the spacing of the second deflection mechanism 22b.

The driving means of capstan winch 8 includes the single-body type reel being fastened on capstan winch framework.This reel is driven by drive mechanism 19 by electro-motor 17.Pulleying protection department ensures that rope 1a, 1b correct winding on reel and lax rope identification trigger urgent chopper in emergency.For emergency, additionally also two disk brake (not shown) are fastened at capstan winch 8 in running brake 18.

First rope 1a and the second rope 1b is thus fastened at the equalizer bar 10 that can move.Equalizer bar 10 has run-on point 9, and equalizer bar can move around described run-on point.

Fig. 3 particularly illustrates such equalizer bar 10.Equalizer bar 10 is designed as the lever of both sides at this, and this lever is with the identical lever arm of length, and this lever arm can be rotatably supported at run-on point 9.Equalizer bar 10 has the horizontal axis 14 of level.Preferably, equalizer bar 10 has the gradient of the horizontal axis 14 around this level, that is, equalizer bar 10 turns forward, especially turns forward with ζ=8 ° at this.Thus, vertical rope bundle namely from capstan winch 8(Fig. 2) such as through cord guidance means 12a, 12b(Fig. 2) the rope bundle that comes is not touched.

Equalizer bar 10 can be bearing in linear guide unit movably.Linear guide unit includes the vertical elongated hole 16 as the first guide element and the run-on point 9 as the second guide element, utilizes described elongated hole to be able to carry out elevating movement by equalizer bar 10.Here, elongated hole 16 can such as milling, and run-on point 9 is bearing pin.

Equalizer bar 10 1 aspect undertakes the function of rope balance.Equalizer bar 10 is responsible for as rope balance, and two rope 1a, 1b same intensity all the time ground load.If a rope is shorter than another rope, then when not having equalizer bar 10, shorter rope stands whole load and longer rope is not loaded.In order to avoid this point, being mounted with the equalizer bar 10 probably worked as seesaw, this equalizer bar ensure that the uniform load of two ropes 1a, 1b.

Second function of equalizer bar 10 is by rope tension.Therefore, this equalizer bar also is able to referred to as tensioning weight.The run-on point 9 of equalizer bar 10 is not fixed, but is guided by bearing pin and vertical elongated hole 16.If container 7(Fig. 1) arrive bottom initial position A(Fig. 1), then capstan winch 8(Fig. 2) be the most somewhat rotated further.Rope 1a, 1b continue to be kept under tension by being declined by equalizer bar 10.Before equalizer bar 10 is positioned in the position of its underpart, proximity switch 20 causes capstan winch 8(Fig. 2) operation stop.Rope 1a, 1b now continue to keep (as expected) to beat under tension and not from rope dish.

3rd function of equalizer bar 10 is the function of pulse buffer.When load vessel 7, (Fig. 1) can cause pulse.But, this is not resulted in the overload of the rope being tensioned, but is lifted by tensioning weight slight and buffer.

Equally, at least one sensor (not shown) (it is preferred that being two sensors) is arranged at equalizer bar 10.These sensors are advantageously disposed on inside linear guide unit or at linear guide unit.Moving upward/moving downward by equalizer bar 10, will conveying slide 4(Fig. 1) when moving to (Fig. 1) in the initial position A of bottom, sensor can detect and carry slide 4(Fig. 1 towards container 7/) in correct movement.

Here, linear guide unit is integrated in steel construction.

Container 7(Fig. 1) include for conveying slide 4(Fig. 1 mobile at least one guide rail) at least two front-wheel.Additionally, conveying slide 4(Fig. 1) include at least two main support.First conveying slide rope dish 44a(Fig. 2) and second conveying slide rope dish 44b(Fig. 2) so can be integrated in main support as the first variant being different from described above, thus the first rope 1a and the second rope 1b conveying slide 4(Fig. 1) wheelspan outside move towards.Thus hinder, when waste material vehicle raise during in adverse conditions waste material from container 7(Fig. 1) drop time, this waste material can drop between track and damage rope.Additionally, at container 7(Fig. 1) when tumbling, not every waste material can be from container 7(Fig. 1) slide, but can crooked (verkanten) in the lower section of container valve.If elevator again downward away from, the most this crooked waste material damages rope equally.But, avoid now this point.

Reference list

1a the first rope

1b the second rope

3 tilting elevator

4 conveying slides

5 guide rails

6 load port

7 containers

8 capstan winches

9 run-on points

10 equalizer bars

11a the first rope dish

11b the second rope dish

22a the first deflection mechanism

22b the second deflection mechanism

44a first carries slide rope dish

44b first carries slide dish

12a the first cord guidance means

12b the second cord guidance means

13 common boss

The horizontal axis of 14 levels

16 elongated holes

17 motors

18 running brakes

19 drive mechanisms

20 proximity switches

A initial position

B " loaded " position

33 rope dish diameters

34 deflection mechanism diameters.

Claims (21)

1. a tilting elevator (3), this tilting elevator includes: at least one guide rail (5), the conveying slide (4) that can support movably in tilting elevator (3) of this guide rail pull rope for guiding at this guide rail, container (7) can be placed to carry on slide, and this conveying slide is for moving to container (7) " loaded " position (B) from initial position (A)；nullFirst rope (1a) and the second rope (1b)，Described first and second ropes are guided towards conveying slide (4) by least one first rope dish (11a) for the first rope (1a) and the second deflection mechanism (22b) for the second rope (1b) by capstan winch (8)，And in order to move conveying slide (4)，Described first and second ropes prevent movably passing through the first conveying slide rope dish (44a) for the first rope (1a) and the second conveying slide rope dish (44b) for the second rope (1b) can be arranged in conveying slide (4) place with deflecting，It is characterized in that，The equalizer bar (10) that setting can be moved around run-on point (9)，Wherein，Equalizer bar (10) can support in online property guide unit with moving，Wherein，First rope (1a) and can be able to be fastened on from equalizer bar (10) towards equalizer bar (10) guiding from conveying slide (4) by the second rope dish (11b) by the first deflection mechanism (22a) and the second rope (1b).

2. according to the tilting elevator (3) including at least one guide rail (5) described in claim 1,

It is characterized in that, the first conveying slide rope dish (44a) is less than the second conveying slide rope dish (44b).

3. according to the tilting elevator (3) including at least one guide rail (5) described in claim 1 or 2,

It is characterized in that, equalizer bar (10) has the horizontal axis (14) of level, and equalizer bar (10) has the gradient of the horizontal axis (14) around level.

4. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, the first rope dish (11a) is with being parallel to the first deflection mechanism (22a) and the second rope dish (11b) is arranged on common axis (13) with being parallel to the second deflection mechanism (22b).

5. according to the tilting elevator (3) including at least one guide rail (5) described in claim 4,

It is characterized in that, described common axis (13) has first end region and the second end region, and the first rope dish (11a) and the first deflection mechanism (22a) are arranged in first end region, and the second rope dish (11b) and the second deflection mechanism (22b) are arranged in the second end region.

6. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, first cord guidance means (12a) of bottom is set, next first rope (1a) towards the first rope dish (11a) and can be guided towards conveying slide (4) by capstan winch (8) by this cord guidance means, and second cord guidance means (12b) of bottom is set, next second rope (1b) towards the second deflection mechanism (22b) and can be guided towards conveying slide (4) by capstan winch (8) by this cord guidance means, and wherein, first rope (1a) can be guided towards equalizer bar (10) by the first deflection mechanism (22a) from conveying slide (4), and wherein, second rope (1b) can be guided towards equalizer bar (10) by the second deflection mechanism (11b) from conveying slide (4).

7. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, second cord guidance means (12b) of the first rope dish (11a) and first cord guidance means (12a) of bottom and the second deflection mechanism (22b) and bottom orients in vertical plumb line towards each other.

8. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, the spacing that the first rope dish (11a) and the first deflection mechanism (22a) are had is equal to the second rope dish (11b) and the second deflection mechanism (22b) spacing each other.

9. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, first rope dish (11a) and the second rope dish (11b) have identical rope dish diameter (33), and the first deflection mechanism (22a) and the second deflection mechanism (22b) have identical deflection mechanism diameter (34), and wherein, rope dish diameter (33) is more than deflection mechanism diameter (34).

10. according to the tilting elevator (3) including at least one guide rail (5) described in claim 1,

It is characterized in that, linear guide unit includes elongated hole, the most vertical elongated hole (16), utilizes this elongated hole to be able to carry out elevating movement by equalizer bar (10).

11. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, equalizer bar (10) is designed as the lever of both sides, and this lever is with the identical lever arm of length, and this lever arm can be rotatably supported at run-on point (9) place.

The 12. tilting elevator (3) including at least one guide rail (5) as according to any one of aforementioned claim 11 and 9-10, it is characterized in that, linear guide unit includes two guide elements, wherein, the first guide element is designed as elongated hole and the second guide element is designed as run-on point (9).

13. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, proximity switch (20) is arranged on equalizer bar (10) place and/or is arranged on tilting elevator (3) place.

14. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, at least one sensor is arranged on equalizer bar (10) place, but described sensor is preferably two.

15. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, capstan winch (8) includes reel, especially single-body type reel or catamaran type reel, and described reel is fastened on capstan winch framework, and wherein, reel can be driven by drive mechanism (19) by electro-motor (17).

16. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, capstan winch (8) has overtravel protection portion and additionally also fastens two disk brakes in running brake (18).

17. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, equalizer bar (10) has buffer part, especially the buffer part of hydraulic pressure and/or spring.

18. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, conveying slide (4) has at least two front-wheel with wheelspan and moves at least one guide rail for carrying slide (4), and carry slide (4) and include at least two main support, and, first conveying slide rope dish (44a) and the second conveying slide rope dish (44b) are integrated in main support, thus the first rope (1a) and the second rope (1b) move towards outside the wheelspan of conveying slide (4).

19. by the tilting elevator (3) including at least one guide rail (5) in any one of the preceding claims wherein,

It is characterized in that, container (7) is for accommodating fusing object for the container that this fusing object is carried towards the load port (6) of cupola well, and tilting elevator (3) is arranged in steel mill.

20. 1 kinds of methods being used for running tilting elevator (3), this tilting elevator includes: at least one guide rail (5), the conveying slide (4) that can support movably in tilting elevator (3) of this guide rail pull rope for guiding at this guide rail, container (7) can be placed to carry on slide, and this conveying slide is for moving to container (7) " loaded " position from initial position；First rope (1a) and the second rope (1b), described first and second ropes are guided towards conveying slide (4) by least one first rope dish (11a) for the first rope (1a) and the second deflection mechanism (22b) for the second rope (1b) by capstan winch (8), and in order to move conveying slide (4), described first and second ropes prevent from movably passing through the first conveying slide rope dish (44a) for the first rope (1a) and the second conveying slide rope dish (44b) for the second rope (1b) in the deflection of conveying slide (4) place, it is characterized in that,

Balance by rope can be produced around the equalizer bar (10) that run-on point (9) move, first rope (1a) is guided and fastening towards equalizer bar from conveying slide (4) by the second rope dish (11b) by the first deflection mechanism (22a) and the second rope (1b), wherein, equalizer bar (10) can be bearing in the linear guide unit with two guide elements with moving, wherein, first guide element especially elongated hole and the second guide element are described run-on point (9), thus produce tensioning and the tensioning of the second rope (1b) of the first rope (1a).

21. according to the method described in claim 21 or 22,

It is characterized in that, the first conveying slide rope dish (44a) has ratio the second conveying slide rope dish (44b) less diameter, thus the first rope (1a) and the second rope (1b) is alongside one another does not has angle to guide with offseting abreast.