RU2001121649A

RU2001121649A - End clamping device (options) and tension clamp for a tensile element, lifting system (options) and method of sealing a tensile element

Info

Publication number: RU2001121649A
Application number: RU2001121649/28A
Authority: RU
Inventors: Педро С. БАРАНДА; Деннис Дж. РЕХМЕР; Ричард Дж. ЭРИКСОН
Original assignee: Отис Элевейтэ Кампэни
Priority date: 1998-12-31
Filing date: 1999-12-17
Publication date: 2003-07-10

Claims

1. An end clamping device for a tensile element with an elastomeric coating, comprising a lock and a wedge, characterized in that the lock has at least one cheek surface, the wedge has an axial line and at least one clamping surface located at a predetermined angle to the axial lines, and the wedge is located inside the lock with the location of at least one clamping surface adjacent to the surface of the cheek, and the specified angle has a value at which the voltage created by the normal force is less than the value of max mally allowable compressive stress for the elastomeric coating.

2. The device according to claim 1, characterized in that between the clamping surface and the surface of the cheek is located working in tension.

3. The device according to claim 2, characterized in that the tensile element is installed sandwiched between the clamping surface and the surface of the cheek with the normal force acting between them, created by the tensile force in the tensile element.

4. The device according to claim 3, characterized in that the normal force F _n is determined by the formula

F _n = T / tanϕ,

where T is the tensile force, and ϕ is the given angle.

5. The device according to claim 4, characterized in that the minimum predetermined angle is determined in accordance with the formula

ϕ = tan ^-1 (T / (σ _s * L * W)),

where L is the length of the clamping surface, a W is the width of the clamping surface, and σ _c is the value of the maximum allowable compressive stress of the tensile element.

6. The device according to claim 5, characterized in that the tensile element consists of an inner load-bearing element of the first material and the outer part of the second material, the outer part determining the adhesion surface of the tensile element, and the stress generated by normal force is less maximum allowable compressive stress for the outside.

7. The device according to claim 6, characterized in that the values of said length L and angle ϕ are limited by the value of the permissible compressive stress for the outer material.

8. The device according to claim 7, characterized in that the outer material has a value of the maximum allowable compressive stress, mainly in the range from 2.5 MPa to 5 MPa.

9. The device according to claim 5, characterized in that the predetermined angle has values generally ranging from 9 to 10 °, and the length of the clamping surface is about 140 mm

10. The device according to claim 1, characterized in that the tensile element has a substantially circular cross-sectional shape or a substantially rectangular cross-sectional shape.

11. The device according to claim 3, characterized in that the tensile element has a substantially rectangular cross section and comprises a main part, an end part and a female part, the lock having a first cheek surface and a second cheek surface, the wedge has a first clamping surface and a second clamping surface located on opposite sides of the plane passing through the center line and comprises a male section having a semicircular shape and located mainly tangentially between the first clamping surface and the second pressing surface, the main part of the tensile element being located between the first pressing surface and the first surface of the cheek, the covering part is located on the male section, and the end part is located between the second pressing surface and the second surface of the cheek.

12. The device according to claim 11, characterized in that the section of the wedge with a semicircular shape has a diameter mainly in the range from 60 to 70 mm

13. The device according to claim 11, characterized in that the lock has a hole and a window, the main part and the end part of the tensile element being located passing through the hole, and the wedge is inserted into the window.

14. The device according to claim 11, characterized in that the wedge contains two ribs located orthogonally from each edge of the first and second clamping surfaces to form a channel for laying a tensile element between them and having contact with the surface of the cheek with the restriction of normal from this surface strength.

15. The device according to item 13, characterized in that it further comprises a connecting rod mounted attached to the lock coaxially with the hole.

16. The device according to p. 15, characterized in that it further comprises a hinge block, rotatably connected with a lock, and the connecting rod is mounted attached to the hinge block.

17. The device according to claim 1, characterized in that at least one pressing surface or surface of the cheek is made textured with an increase in its coefficient of friction.

18. The device according to claim 3, characterized in that at least one clamping surface or surface of the cheek contains locking elements of mechanical retention of the tensile element.

19. An end clamping device for a tensile element having an elastomeric coating comprising a lock and a wedge, characterized in that the wedge has a pressing surface with a length L and an angle ϕ, and the tensile element is installed wrapped around the wedge with the possibility of a tensile action on it force T and has a width W and a maximum allowable compressive stress σ _s , the length and angle being related by the formula

ϕ≥tan ^-1 (T / σ _c * L * W)).

20. A lifting system having a cabin, a counterweight, and a tensile element mounted passing between the counterweight and the cabin and connected at its ends to at least the cabin or the counterweight by means of an end clamping device, characterized in that it comprises a lock having at least one surface of the cheek, a wedge having an axial line and at least one clamping surface located at a predetermined angle to the axial line, and a connecting rod for fastening the end clamping device along the edge it least to the cabin or counterweight, wherein the wedge is disposed within the lock located at least one clamping surface adjacent the surface of the cheek, and a tensile member disposed between the pressing surface and the surface of the cheek.

21. The lifting system according to claim 17, characterized in that the tensile element has a substantially rectangular cross section and comprises a main part, an end part and a female part, wherein the lock has a first cheek surface and a second cheek surface, the wedge has a first clamp the surface and the second clamping surface located on different sides of the plane passing through the center line and contains a male section having a semicircular shape and located mainly tangentially between the first clamping surface the surface and the second pressing surface, the main part of the tensile element being located between the first pressing surface and the first surface of the cheek, the covering part is located on the male section, and the end part is located between the second pressing surface and the second surface of the cheek.

22. A tension clamp for clamping the main and end parts of the tensile element folded together, characterized in that it comprises a first plate with a groove for accommodating the main part of the tensile element, and a second plate with a groove for placing the end portion of the tensile element, each of the first and second plates is made at least one hole of the installation of the fastening element with compression between the plates of the main and end parts of the tensile element.

23. The tension clip according to item 22, wherein the plates are essentially flat, and at least one of the ends of the plates has a guide edge comprising a rounded portion.

24. A lifting system having a cabin, a counterweight, and a tensile element with a main and end parts mounted passing between the counterweight and the cabin and connected at its ends to at least the cabin or the counterweight by means of an end clamping device with a wedge and a lock, the system being provided tension clamp, characterized in that the tension clamp contains a first plate with a groove for placing the main part, and a second plate with a groove for placing the end part, and in each of the first and second plates you olneno at least one installation hole of the fastening element with compression between plates stacked along the main and end portions running on a tensile element.

25. The method of sealing a tensile element having a width W and an elastomeric coating with a maximum allowable compressive stress σ _s , characterized in that the tensile element is first introduced into the lock hole, and the tensile element around the wedge is wrapped with a clamping surface having a length L and located at an angle ϕ, then the tensile element is brought back through the hole and the tensile force T is applied to it with the tensile element clamped between the wedge and the lock ohm, and apply a tensile force T in accordance with the formula

ϕ≥tan ^-1 (T / (σ _s * L * W)).

26. The method according A.25, characterized in that during the clamping of the working element in tension, they are compressed to a voltage level below the value of the maximum allowable compressive stress for the element working in tension.

27. The method according A.25, characterized in that the tensile element is positioned with its sides folded to each other, two plates are placed on both sides of the tensile element, a group of fasteners is inserted through the plates, then the fasteners are fixed and clamp two folded together with each other parts of the tensile element between the plates.