RU2193006C2 - Telescopic ladder and tower crane member moving up and down the ladder - Google Patents

Abstract

FIELD: tower cranes. SUBSTANCE: invention relates to device combing telescopic extensible ladders with movable member moving up and down the ladders and designed for use on tower crane with telescopic mast. Telescopic mast consists of three members and it is furnished with telescopic extensible ladder also consisting of three members 14, 15 and 16. Corresponding member of telescopic ladder is coupled with corresponding member of said telescopic mast. Member 14 said ladder coupled with lower outer member of telescopic mast has two vertical uprights 22 of square or rectangular cross-section intercoupled by cross members 23. Member 16 of said ladder coupled with upper and inner members of telescopic mast is also provided with two vertical uprights 24 of square or rectangular cross-section intercoupled by cross members 25. Members 15 of said telescopic ladder coupled with intermediate member of telescopic mast has vertical uprights 26 with toothed cross-section enclosing vertical uprights 22, 24 of two other members 14, 16 of ladder. Movable member directed by said ladder has guide frame. Bearing structure 32 of guide frame has two identical systems of guide rollers arranged, respectively, in base of guide frame and on its top. First guide rollers 33 are arranged opposite to left-hand and right-hand side surfaces of said ladder, and other guide rollers 37, 38, 39, 40, 41 and 42 clamp, in pairs, vertical uprights 22, 24, 26 of members 14, 15, 16 of telescopic ladder passing in concave parts 27 of vertical uprights 26 of said member 15 of telescopic ladder. Said movable member is made, particularly, in form of control cab of said tower crane. EFFECT: provision of smooth non-interrupter transfer from one member of ladder to other member by reliable and fitted-to device of simple and compact design. 3 cl, 5 dwg

Description

 The present invention generally relates to the field of construction of tower cranes and, more specifically, relates to a device combining telescopic sliding ladders with a movable element moving along these stairs, and intended for use on a tower crane with a telescopic mast, consisting of three sliding elements and equipped with telescopic telescopic ladders, also consisting of three elements, with one element of the ladder connected to each mast element given a crane.

 The expression "movable element" in the following statement should be understood as any transport element having the ability to move in the vertical direction along the fully or partially spaced mast of a given crane. Such a movable element may be, for example, a control cabin of a crane, a freight elevator, a passenger elevator, a protective cabin for a crane operator.

 Currently, the construction of tower cranes is already known, in which the mast contains ladders that serve, among other things, as guides for a particular moving element. For example, Swiss patent 665825 and European patent application 0175052 describe tower cranes in which staircases act as guides for the elevator car. Mention may also be made of French patent application 9604980 dated April 16, 1996 in the name of the applicant, in which said ladders serve as guides for a crane operator's cab moving along these ladders.

 Considering the Swiss patent 665826 mentioned above in more detail, it can be noted that this document describes a tower crane with a telescopic mast consisting of two elements and also equipped with a telescopic telescopic ladder consisting of two main elements connected respectively to two elements of the telescopic mast. The upper element of the above-mentioned staircase has racks of rectangular profile, and the lower element of this staircase has U-shaped racks, covering the racks of the upper element of the staircase from three of their four sides. On this sliding ladder, a movable frame equipped with four rolling rollers and four guide rollers is mounted with the possibility of rolling, moreover, these guide rollers have a V-shaped groove and said movable frame is rigidly connected to the cab of this crane.

 In this case, the telescopic sliding ladder, in addition to its two main elements, contains a certain “guide” element of relatively small length, which has a profile corresponding to the profile of the lower element of the ladder, but which is mounted with the possibility of sliding on the upper element of this ladder. Thus, in the process of lifting the cab of a given crane, the movable frame first rolls directly along the lower element of the ladder, and then after reaching the top of this lower element of the ladder, this movable frame joins the said guide element in the waiting position, and then carries this guide an element by which in a subsequent movement the direction of this movable frame is provided along the upper element of the staircase. Thus, a special guide element is necessary here in order to ensure alignment of the profiles between the two main elements of the above-mentioned stairs.

 In such a construction, the said guide element of the ladder can be jammed during its movement due to the presence of significant frictional forces, since this element does not contain any rolling rollers. A simple stop device provides a drive connection between the movable frame and the said guide element, while a special locking system will be at least necessary to ensure safety, in particular, to exclude the case when the movable frame will no longer be guided by lowering the cab during lowering guiding element, which can even lead to the fall of the cab.

 Thus, the technical solution proposed in Swiss patent 665825 is rather complicated and at the same time insufficiently reliable and even dangerous, and its use is limited to a tower crane with a telescopic telescopic mast, consisting of only two elements. The document under consideration does not offer any technical solutions applicable for a telescopic telescopic mast of a crane, consisting, for example, of three elements.

 The aforementioned European patent application 0175052 is also limited to the disclosure of a telescopic telescopic ladder consisting of two elements, and this document does not describe any details of the guiding means of the movable element, in particular with regard to a smooth and inextricable transition from one element of the ladder to another.

 In general, it can be said that the documents mentioned above demonstrate technical solutions that seem insufficient to ensure the proper direction of the mentioned movable element in all directions, while also guaranteeing the perception of forces associated with the load, which necessarily turns out to be offset with respect to the rolling path formed by telescopic sliding ladders .

 The purpose of the invention is to eliminate the totality of the above disadvantages by determining the design of the telescopic telescopic ladder and the movable element guided by these ladders, designed specifically for a telescopic telescopic mast consisting of three elements. The proposed device constantly provides a guiding function in the proper form and in the directions forward, backward, right and left, as well as the perception of the forces associated with the displaced load. At the same time, a smooth and inextricable transition from one element of the staircase to its other element is ensured in order to implement a generally reliable and well-fitted device that confidently provides its guiding function while maintaining the relative simplicity and compactness of the design.

 To achieve the objectives of the object of the invention is a telescopic telescopic ladder and a movable element guided along this ladder, for use on a tower crane with telescopic telescopic mast, consisting of three elements and equipped with telescopic telescopic ladders, also consisting of three elements, with one element such a ladder is associated with the corresponding mast element of a given crane.

The proposed device is characterized in that:
- the ladder element associated with the lower outer element of the telescopic mast is fixed in its upper part and in its lower part on this mast element and has two vertical racks of square or rectangular cross section, interconnected by transverse beams;
- the ladder element associated with the upper inner element of the telescopic mast is fixed in its upper part to this mast element and has two vertical posts of square or rectangular cross section, interconnected by transverse rails, the length of this element of the ladder being equal to the length of the above-mentioned element of this ladder ;
- the ladder element associated with the intermediate element of the telescopic mast is mounted in its upper part on this mast element and has two vertical posts having a toothed or corrugated profile in cross section, representing in its middle a concave part and one on the other side of of this middle concave part are two convex parts capable of covering the corresponding vertical posts of two other elements of the staircase, the transverse crossbars connecting the said middle convexes e parts of its two vertical posts and the width of this element of the staircase is equal to the width of the other two elements of this staircase;
the movable element guided by this ladder contains a guide frame, which includes:
supporting structure with a horizontal section of a U-shape, covering this ladder on its front side and on its sides;
the first guide rollers with horizontal axes of rotation, placed against the right and left sides of the ladder and capable of rolling along the right and left sides of the vertical racks of the ladder elements associated with the outer and inner elements of the telescopic mast, as well as along the convex covering parts of the ladder element, associated with the intermediate element of the telescopic mast;
other guide rollers with horizontal axes of rotation perpendicular to the axes of rotation of the first rollers mentioned above, distributed on the right and left sides of the stairs, taking place on one and the other sides of the respective vertical posts of the three elements of the stairs, with central rollers located in the concave part of the vertical posts with a toothed or corrugated profile of the ladder element associated with the intermediate element of the telescopic mast of the crane.

 Thus, the telescopic telescopic ladder contains two elements of the usual type and one element of a special design, the racks of which have a special profile in cross section, which ensures, using their convex covering parts, a sliding connection with the other two elements of this ladder, and also provides with its concave middle part of the passage of at least one guide roller belonging to the movable element, which should be directed along this ladder.

The design of the fastening of the three elements of the ladder to the corresponding elements of the telescopic telescopic mast of the crane provides the possibility of unhindered sliding and shifting of this ladder. The cross-sectional profiles of vertical racks selected for the three elements of the proposed telescopic telescopic ladder allow us to ensure the minimum overall dimensions of this ladder in its folded state and thus satisfy the requirements for permissible road dimensions when transporting this crane on roads. The profile selected here also implements a “natural” guiding function in four directions, forming angles of 90 ^° between them, for the guiding frame on which the vehicle is placed, such as, for example, a crane control cabin.

 Thanks to the guide roller systems described above, the guide frame of the movable element allows the guiding function to be provided at a sufficiently high level of safety due to the fact that during its passage through each of the three elements of the staircase there are always rollers that compress this element of the staircase. Located in two mutually perpendicular directions, these rollers provide a guiding function in the lateral direction and a guiding function in the front to back and vice versa, as well as the perception of lateral forces and / or forces directed from front to back or vice versa, related to the load transported by said guide frame.

 The configuration of the device proposed by this invention also ensures the continuity of the guide function in the vertical direction when moving from one element of the stairs to another element of it.

In accordance with a preferred embodiment of the invention, the guide rollers belonging to the guide frame of the movable element comprise two systems of eight guide rollers each located respectively at the base and at the top of said guide frame, each of these roller systems comprising:
- two large guide rollers, located respectively against the left and right sides of the stairs;
- six smaller guide rollers distributed in two groups of three rollers in each and located respectively on the right and left sides of the stairs, and these rollers pairwise compress the vertical racks of the stair elements associated with the outer, inner and intermediate elements of the telescopic mast, and the central roller of each group of three rollers passes in the concave part of the vertical rack with a toothed or corrugated transverse profile of the ladder element associated with the intermediate element Ohm the mentioned mast.

In any case, the invention will be better understood from the following description of an example of a practical implementation of a telescopic telescopic ladder device and a movable element guided by these ladders, intended for use on a tower crane, where reference is made to the drawings in the appendix, on which:
FIG. 1 is a schematic side view of a tower crane equipped with a device that is an object of the present invention, the movable element in this case being depicted as a control cabin for this tower crane;
figure 2 is a schematic side view of telescopic telescopic ladders of this crane with their attachment points to the mast elements of this crane;
figure 3 is a horizontal cross section illustrating profiles of vertical racks of various elements of the stairs;
4 is an isolated schematic view of a special cross-sectional profile of a ladder element associated with an intermediate element of a telescopic telescopic mast of a given crane;
FIG. 5 is a schematic perspective view of a movable member, namely, a control cabin for a given crane, indicating the portion of the ladder that guides this movable member.

 Figure 1 schematically shows a tower crane, which contains a fixed base chassis 1, on which is mounted with the possibility of rotation relative to the vertical axis 2 another movable chassis 3. In the rear of this movable chassis 3 is mounted a counterweight 4, and in its front part is mounted on horizontal rotary axis 5 telescopic telescopic mast 6. This tower crane is equipped with a boom 7 (shown in figure 1 only partially) mounted on top of the mast 6. Braces 8 connect swivel chassis 3 with a telescopic telescopic mast 6, while the rear holding device 9 connects this movable or swivel chassis with a lifting boom 7.

 The telescopic telescopic mast 6 consists of a lower outer element 10, an intermediate element 11 and an upper inner element 12. Each element 10, 11 and 12 of the telescopic telescopic mast 6 has, for example, a square or rectangular cross section, which can also be polygonal.

 The telescopic telescopic mast 6 is equipped with a ladder 13, which also has a telescopic telescopic structure and consists of three ladder elements 14, 15 and 16, respectively connected with the three elements 10, 11 and 12 of the telescopic mast 6. This telescopic telescopic ladder 13 is shown schematically in FIG. 2 in a partially expanded position.

 The first element of the telescopic ladder 14, connected with the outer element 10 of the telescopic mast, is mounted on this outer element 10 of the mast at one lower attachment point 17 and at one upper attachment point 18. In order to enable folding of this telescopic ladder, the second element 15 of this ladder associated with the intermediate element 11 of the telescopic mast, is mounted on this intermediate element 11 of the mast only at one upper mounting point 19. In addition, the third element 16 of the telescopic ladder is connected the first inner member 12 of the telescopic mast is fixed to this inner element 12, only one upper attachment point 20, as shown schematically in Figure 2.

 A telescopic telescopic ladder 13 serves as a guide for some element that is movable in the vertical direction and able to move along the mast 6, moreover, this movable element in the example of the invention illustrated in the drawings in the appendix is a control cabin of this tower crane . To perform this function, the elements 14, 15 and 16 of the telescopic telescopic ladder 13 have configurations and relative positions schematically shown in FIGS. 3 and 4.

 The first element 14 of the telescoping telescopic ladder contains two vertical racks 22, which have a square profile in cross section and are connected by transverse beams 23. The third element 16 of this ladder also contains two vertical racks 24 with square cross-section, connected by transverse beams 25. These two elements 14 and 16 of the telescopic telescopic ladder are the same width so that their vertical racks 22 and 24, respectively, are located opposite each other the folded position of the ladder 13.

 The second element of the telescopic telescopic ladder 15 has a more complex and specific configuration, which is graphically presented in figure 4. This element 15 of this staircase has two vertical posts 26, which in cross section have a toothed or corrugated profile, which can be described as containing a middle concave part 27 located between the two convex parts 28 and 29. The cross bars 30 of this element 15 of this staircase connect the middle concave parts 27 of the two vertical posts 26 are interconnected. The width of this second staircase element 15 is equal to the width of the first and second elements 14 and 15 of the staircase.

 In the folded position of the telescopic telescopic ladder 13, the second ladder element 15 takes place between its first element 14 and its third element 16. The convex parts 28 of the vertical struts 26 of the second element 15 of this ladder cover the corresponding vertical racks 22 of the first ladder element 14. Other convex parts 29 of the vertical struts 26 of the second element 15 of the stairs cover the corresponding vertical columns 24 of the third element 16 of this staircase.

 As can be seen in FIG. 5, the control cabin of the tower crane 21 is mounted on a guide frame 31 located behind and on the side of this cabin 21. The guide frame 31 contains a supporting frame 32 made of pipes, which extends vertically to the height of this cabin 21 and which has a horizontal cross section of a U-shape, covering the ladder 13 from its front side and from its two sides perpendicular to the crossbars of this ladder.

 The supporting frame 32 of the guide frame 31 contains two identical systems of guide rollers located respectively at the base of this guide frame 31 and at its top. Each of these systems contains eight guide rollers. Figure 3 illustrates the relative positioning of these eight rollers for one of the two guide systems.

Two large guide rollers 33 and 34, respectively having horizontal axes of rotation 35 and 36, are located one against the right side of the ladder 13 and the other against the left side of the ladder. Depending on the degree of extension of this telescopic ladder 13 and the actual position of the control cabin 21 of this tower crane, the large guide rollers 33 and 34 can respectively roll:
- along the right and left side surfaces of the uprights 22 of the first element 14 of the ladder, and / or
- along the convex parts 28 and 29 of the uprights 26 of the second element of this staircase 15, and / or
- along the right and left side surfaces of the vertical struts 24 of the third element 16 of the stairs.

Six smaller guide rollers, indicated in FIG. 3 by numbers 37 to 42, are provided in the structure of said guide frame, and these smaller rollers have horizontal axes of rotation perpendicular to the axes of rotation 35 and 36 of the large guide rollers 33 and 34. The first group of three small guide rollers 37, 38 and 39, located at the same distance from each other, is provided on the right side of the telescopic ladder 13, and the second group of three small guide rollers 40, 41 and 42, located xx at equal distances from each other, it is provided on the left side of this ladder 13. The mentioned small guide rollers compress the vertical posts of the elements 14, 15 and 16 of this ladder in pairs. In other words:
- vertical racks 22 of the first element 14 of the telescopic ladder are crimped on the right by a pair of rollers 37 and 38, and on the left by a pair of rollers 40 to 41, each pair of these guide rollers containing one outer roller and one central roller;
- vertical racks 24 of the third element 16 of the telescopic ladder are crimped on the right by a pair of small guide rollers 38 and 39, and on the left by a pair of small guide rollers 41 and 42, each pair of these rollers containing one outer roller and one central roller;
- vertical racks 26 of the second element 15 of the telescopic ladder are crimped to the right by a pair of small guide rollers 37 and 39, and to the left by a pair of small guide rollers 40 and 42, each pair of these rollers containing two outer rollers.

 In addition, both central rollers 38 and 41 extend in the middle concave parts 27 of the two vertical posts 26 of the second element 15 of the telescopic ladder.

 As can be seen in FIG. 5, the movable element of this tower crane guided by the telescopic ladder 13 further comprises an access platform 43 to the control cabin of this crane 21, this platform 43 comprising a passage hatch with a hinged lid and is located against the ladder 13, as well as against the front door 44 of the control cabin 21.

 The guide frame 31, on which the control cabin 21 of this tower crane is mounted, can be raised or lowered along its telescopic ladder 13 using any suitable means in this case, such as a rope or cable, usually driven by a winch, which itself is driven in action manually or using an engine of one type or another. These lifting means themselves contain special safety devices designed to exclude the possibility of falling of the guide frame 31, and therefore the entire movable element 21 such as the control cabin of this tower crane in case of stopping the supply of drive energy.

 In FIG. 1 schematically shows several different positions of said movable element, namely a lower position, some intermediate position and an upper position in which a control cabin 21 of a given tower crane may be. Two systems, each consisting of eight guide rollers 33, 34 and 37 to 42 of the guide frame 31, provide a high level of security during the movement of the cabin 21 due to the fact that for each element 14, 15 and 16 of the telescopic ladder these guide rollers compress vertical racks 22, 24 or 26, and the normal functioning of this guide frame is possible with any fully or partially extended position of the telescopic mast 6. In addition, the device in accordance with the invention m provides a perception of forces arising due to the offset load relative to the ladder guide 13, which in this case is illustrated cabin 21 forward and simultaneously shifted laterally with respect to the ladder 13.

 It goes without saying that the present invention is not limited to the only form of implementation of this device telescopic telescopic ladder and movable element guided by this ladder, which was described above as an example. On the contrary, this invention covers all possible options for its implementation and application, consistent with the stated principle. In particular, it will not go beyond the scope of the invention to impart to the movable element any configuration and any other function: transporting people, transporting goods, protecting personnel. In the same sense, the telescopic ladder can be lifted both outside and inside the telescopic mast of the crane.

Claims (3)

 1. The device telescopic sliding ladder and a movable element guided by these stairs, designed for use on a tower crane with a telescopic telescopic mast, consisting of three elements and equipped with a telescopic telescopic ladder, also consisting of three elements, and the elements of this ladder are connected with the corresponding elements telescopic mast of the tower crane, characterized in that the element (14) of the above-mentioned ladder associated with the lower outer element ntom (10) of the telescopic mast, fixed in its upper part (at point 18) and in its lower part (at point 17) on this element (10) of the mentioned mast and has two vertical posts (22) of square or rectangular cross section, connected between the crossbars (23); the element (16) of the above-mentioned ladder connected to the upper inner element (12) of the telescopic mast is fixed in its upper part (at point 20) to this mast element (12) and has two vertical posts (24) of square or rectangular cross section, connected between the crossbeams (25), and the width of this element (16) of the staircase is equal to the width of the above-mentioned element (14) of the staircase; the element (15) of the above-mentioned ladder connected with the intermediate element (11) of the telescopic mast is fixed in its upper part (at point 19) to this mast element (11) and has two vertical posts (26) of the toothed transverse profile, which is in its middle the concave part (27) and on one and on the other side of this middle concave part (27) two convex parts (28, 29) capable of covering the corresponding vertical posts (22, 24) of the other two elements (14, 16) of this sliding telescopic ladder, with the crossbeams (30) of this element (1 5) this staircase connects the aforementioned middle concave parts (27) of its two vertical posts (26) and the width of this element (15) of the staircase is equal to the width of the other two elements (14, 16) of this staircase; the movable element (21) guided along this ladder (13) contains a guide frame (31), which includes a supporting structure (32) having a U-shape in horizontal cross section, covering this telescoping telescopic ladder (13) with its front sides and its two sides; the first guide rollers (33, 34) with horizontal rotary axes (35, 36), located against the side surfaces of the right and left telescopic ladders (13) and capable of rolling along the side surfaces of the right and left vertical racks (22, 24) elements (14, 16) of this ladder associated with the outer (10) and internal (12) elements of the telescopic mast, as well as along the convex parts (28, 29) of the element (15) of the telescopic ladder associated with the intermediate element (11) of the telescopic masts; other guide rollers (positions 37 to 42) with horizontal axes of rotation perpendicular to the axes (35, 36) of rotation of the above rollers (33, 34), and distributed on the right and left sides of this telescopic ladder (13), occupying one place and on the other side of the corresponding vertical struts (22, 24, 26) of the three elements (14, 16, 15) of the telescopic ladder, with central rollers (38, 41) passing in the concave parts (27) of the vertical racks (26) of the toothed profile element (15) of the telescopic ladder associated with the intermediate element volume (11) of this telescopic mast.  2. The device according to claim 1, characterized in that the said rollers belonging to the guide frame (31) of the movable element (21) contain two systems of guide rollers, each of which consists of eight guide rollers (33, 34, 37 - 42) located respectively at the base and at the top of the guide frame (31), each of the mentioned systems of guide rollers containing two large guide rollers (33, 34) located respectively against the left and right sides of the telescopic ladder (13); six smaller guide rollers (37 - 42), divided into two groups, each of which contains three rollers (37, 38, 39; 40, 41, 42), located respectively on the right and left sides of this telescopic ladder (13) moreover, the said guide rollers (37 - 42) pairwise cover vertical racks (22, 24, 26) of various elements (14, 16, 15) of the telescopic ladder, respectively connected with the outer (10), inner (12) and intermediate (11) elements of the telescopic mast of the tower crane, and the central ro the face (38, 41) of each group of three guide rollers passes in the concave part (27) of the upright (26) corresponding to the intermediate element (11) of the telescopic mast.  3. The device according to claim 1 or 2, characterized in that the movable element (21), guided by a ladder (13), is a control cabin of a tower crane.

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