DE10232577A1 - Counterweight for a sectional door has cable drum on end of rotary shaft, wound cable, helical torsion spring, holder and torsional force absorbent spring - Google Patents

Abstract

A cable drum (5) is on at least one end of a rotationally mounted shaft (4) and has wound onto it a traction cable (6) connected to the leaf of the sectional door. A helical torsion spring(7) is held at one end of the spring on a fixed holder (8)and, at the other end of the spring, on the shaft. At at least one end, the helical spring has an end section (12) consisting of several coils with diameter less than that of a section of spring designed to absorb torsional forces (13)and positioned between two spring ends,

Description

The invention relates to a weight compensation device for a sectional door
a rotatable shaft,
a rope drum on at least one end of the shaft, on which a pull rope connected to the door leaf of the sectional door is wound, and
at least one torsion spring designed as a coil spring,
wherein the coil spring is held on a spring end on a stationary receiving part and on the other spring end on a receiving body attached to the shaft.

A weight balancer with the described features is known from practice (company publication "Novoferm assembly instructions for sectional door" FMD 10.93). The torsion spring consists of a cylindrical coil spring with tightly wound Turns. If the weight balancer for very large load changes must be interpreted, e.g. for applications in underground car parks of office buildings or Apartment buildings, become longer Springs used. Due to the specified door leaf width, the Coil spring length however, there are limits. It is also conceivable to enlarge the Winding diameter of the torsion spring. It is disadvantageous that the stationary receiving part with an associated bearing bracket for the shaft as well as the receiving body attached to the shaft can be changed constructively have to. These parts are stored in different sizes consuming.

The invention is based, which Weight balancing device described above for a higher load designed without making design changes to the attachment the coil spring must be made.

The task is at the beginning described weight compensation device according to the invention solved, that the coil spring is at least at one spring end has several turns existing spring end section, the Winding diameter is smaller than the winding diameter of one for absorbing torsional forces dimensioned spring body section between the spring end portion and the other spring end. Preferably is the coil spring on both ends of the spring with a tapered spring end section educated. The spring end sections are dimensioned so that for all applications Receiving parts or receiving body can be used in standard dimensions. The winding diameter of the spring body between the spring end sections according to the operational stress dimensioned. Because of the increase in the winding diameter accompanying larger use of materials high number of load changes can be achieved.

According to a preferred embodiment of the invention the spring end section is designed as a truncated cone spring or has a frustoconical shape Section on which there are one or more cylindrical end turns connect. The spring end of the frustoconical Section or the portion formed by cylindrical end turns always designed so that a standardized receiving body or a standardized receiving part can be used.

The spring body between the spring end sections is useful as cylindrical coil spring formed. One of a cylindrical shape different shape of the spring body However, it should not be excluded. The spring body can for example barrel-shaped be formed or have one or more constrictions from spring coils, whose turn diameter is the diameter of the last turn of the Spring end section corresponds and the torsion spring on the shaft Center.

The invention is described below one is just an exemplary embodiment illustrative drawing explained. They show schematically

1 a weight compensation device on a sectional door,

2 a section of the weight balancing device in one opposite 1 enlarged view.

In 1 is a sectional gate 1 with a weight balancer 2 for the door leaf 3 shown. The weight balancer 2 consists in its basic structure of a rotatably mounted shaft 4 , a rope drum 5 at least one end of the shaft 4 on the one with the door leaf 3 of the sectional door connected rope 6 is wound, and at least one as a coil spring 7 trained torsion spring. The coil spring 7 consists of tightly wound turns and is at a spring end on a stationary receiving part 8th and at the other end of the spring at one on the shaft 4 strengthened receiving body held. Combined with 2 it becomes clear that the stationary receiving part 8th is designed as a fixed spring head on a bearing bracket that also serves to support the shaft 10 is screwed on. The one on the shaft 4 attached receptacle 9 forms a clamping head which, after loosening the locking screws 11 is rotatable. By turning the clamping head, the torsion spring is preloaded 7 adjustable.

The 2 you can see that the coil spring 7 at their spring ends a spring end section consisting of several turns 12 has, whose turn diameter d is smaller than the turn diameter D of the dimensioned spring body section for absorbing torsional forces 13 between the spring end sections 12 , The spring end sections 12 have frustoconical sections 14 on which there are some cylindrical end turns 15 connect. The spring end turns 15 are on the receiving part 8th or the receiving body 9 customized. The recording part 8th and the receiving body 9 are designed as standard parts, the size and shape of which can be determined independently of the stress to which the weight balancing device is exposed. The spring body 13 between the spring end sections 12 is designed as a cylindrical coil spring, the winding diameter D being determined in accordance with the load on the weight balancing device. By appropriately defining the winding diameter D, very high load changes can be achieved. The weight compensation device according to the invention 1 It is therefore particularly suitable for sectional doors in underground car parks of office buildings and large residential complexes, where high demands are placed on the number of load cycles.

Claims (5)

Weight compensation device for a sectional door with a rotatably mounted shaft ( 4 ), a rope drum ( 5 ) on at least one end of the shaft ( 4 ), on the one with the door leaf ( 3 ) rope connected to the sectional door ( 6 ) is wound up, and at least one as a coil spring ( 7 ) trained torsion spring, the coil spring ( 7 ) at one end of the spring on a stationary receiving part ( 8th ) and at the other end of the spring at one on the shaft ( 4 ) attached receiving body ( 9 Is held), characterized net gekennzeich that the coil spring ( 7 ) a spring end section consisting of several turns at at least one spring end ( 12 ), whose turn diameter (d) is smaller than the turn diameter (D) of a spring body section dimensioned to absorb torsional forces ( 13 ) between the spring end section ( 12 ) and the other end of the spring. Weight balancing device according to claim 1, characterized in that the spring end portion ( 12 ) is designed as a truncated cone spring or a frustoconical section ( 14 ), on which one or more cylindrical end turns ( 15 ) connect. Weight compensation device according to claim 1 or 2, characterized in that the spring body between the spring end portions ( 12 ) is designed as a cylindrical coil spring. Weight compensation device according to claim 1 or 2, characterized in that the spring body between the spring end portions ( 12 ) has a shape deviating from a cylindrical shape. Weight compensation device according to claim 4, characterized in that that the spring body one or more constrictions comprises spring coils, the coil diameter of which corresponds to the diameter corresponds to the last turn of the spring end section.