HU182722B - Swing mechanism - Google Patents

Abstract

A hinge fitting incorporating spiral springs 10, 11 is used in a folding bed or couch furniture fitting and comprises a shaft 5 mounted in plates 2 and 3 attached to the body frame 20 of the piece of furniture. The shaft 5 is secured against rotation to a holding plate 1 attached to a vertically mounted body 21. The loading action of the spring hinge is effected by adjustment of a screw 18. <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to a tilting mechanism which provides a single force and enables infinitely slow deceleration of vertical and horizontal bodies at an angle greater than 90 °. Such a tilting mechanism is mainly used in the furniture industry for folding beds and folding beds.

There are known bed tilting mechanisms which allow the beds to slide down mechanically or pneumatically. Mechanical solutions essentially involve tension springs which operate through lifting segments. Their disadvantages are that they operate with relatively high noise levels and do not provide delayed collapse of the bed bodies, so that they do not prevent them from colliding with the floor. Furthermore, they do not allow adjustment of the spring system at higher loads.

The known gas spring system, on the other hand, has the disadvantage that on the one hand its production is expensive and on the other hand it cannot be hidden. Such a solution is described, for example, in Swiss Patent No. 473,558.

It is an object of the present invention to overcome the above shortcomings.

Accordingly, the object of the present invention is to provide a tilting mechanism for 90 ° tilt range that is adjustable to different loads - different couch and bed sizes - has a silent, invisible operation, allows slopes and beds to be horizontally or vertically infinitely delayed of. and provides a collision-controlled collision with as little noise as possible when reaching a horizontal position. It also includes relatively low-cost manufacturing and a universal, more reliable design.

The object of the present invention has been solved by the fact that the tilting mechanism and the force balancing device form a single mounting unit, the power balancing device is arranged in a sliding bed frame, and a base plate and a stabilizing plate shaped thereto, in which the shaft is embedded which is mounted in a hole in the hub, the hub is mounted on a support plate, and the shaft is provided with lifters, in which they are pivotally mounted with a spring rod and a barrel with a base plate and a stabilizer plate. , wherein the adjusting screw engages with a guide bushing and an adjustable spring support, and helical springs are provided with one another between the adjustable spring support and the pressure rod with the spring support.

DETAILED DESCRIPTION OF THE INVENTION The invention will be described in more detail with reference to the drawing; which illustrates two exemplary embodiments of the present invention. In the drawing:

Figure 1 is a first example of a tilting mechanism according to the invention. top view of an embodiment; ....... ...... '

Figure 2 is a side view of the solution of Figure 1

Fig. 3 is a view of a second exemplary embodiment of a tilting mechanism according to the invention.

As shown in Figures 1 and 2, the tilting mechanism has a holding plate d screwed to a vertical body 21.

-2182.722

Furthermore, the stabilizer plate 2 and the base plate 3 of the blade mechanism are screwed to a body frame 20. The stabilizer plate 2 and the base plate 3 are provided with coaxial bearing bushes 4 in which 5 shafts are mounted. The shaft 5 is protected against axial displacement by safety pins 6. The end 22 of the shaft 5 extending beyond the base plate 3 in this case has a rectangular cross-section which can be inserted into the corresponding recess 19 of the hub fixed to the support plate 1.

The shaft 5 is equipped with lifts 7, which are bolted through a bore 8 to a press bar 9. The other end of the ram 9 is connected to a spring support 12, which in this case is formed as a tubular member. Within the spring 12, a single-axis inner spiral spring 10 and an outer spiral spring 11 are provided, which are seated on an adjustable spring support 13.

The adjustable spring support 13 is provided with a guide bushing 14 which is threadedly engaged by an adjusting screw 18. The adjusting screw 18 also has an adjusting nut 15 which is welded to a tube 16 provided with mounting pins 17 fixed in an opening formed in the stabilizing plate 2 and in the base plate 3.

The pivoting mechanism is pivoted about the axis 5 in the bearing bushes 4, while the body frame 20 is also pivoted together with the base plate 3.

The lifting system, which is pivotally connected to the axis 5, i.e. the lifters 7 and the pins 8, transfer the required forces to the force balancing system by turning the frame 20, which is then eccentric, which is then adjusted by the adjustable spring support 13 and adjusting screw 18 adjustable to the load.

The force balancing can be controlled by moving my circular orbit with a relatively slow tilt of the couch or bed frame, but against the floor with relatively little force. This is achieved by imposing a greater force just before it collides, which allows the body to close in force.

The invention is exemplified above. Thus, in the embodiment of the invention, the load-force control provides a uniform and delayed tilt and tilt of the body, as well as controlling the positioning force. The stabilizer plate 2, mounted on a base plate 3 fixed to the body frame 20, absorbs the required compressive force through the shaft 5 and the tube 16.

3 as another example! In the embodiment, the difference with respect to the embodiment of Figures 1 and 2 is only that the helical springs 10 and 11 are disposed here between the spring support 12 which is formed as a spring plate and the adjustable spring support 13.

When screwed into the guide portion 23 of the push rod 9 and the spring support 12, the guide sleeve 14 is insoluble connected to the adjustable spring support 13 through which it passes. The guide portion 23 of the push rod 9 and the guide sleeve 14 thus form a telescopic guide which serves as a position stabilizing unit for the spiral springs 10 and 11.

The adjusting screw 18, which is pivotally mounted on the tube 16, extends into the guide bushing 14 as far as the adjusting nut 15 permits.

The operating mode of the embodiment of Fig. 3 · is the same

-3182,722 with the solution of Figure 1 and Figure 2. However, it is noted that this second embodiment also has the additional advantage that this two-piece design, i.e. such design of the force compensating tilt mechanism, allows universal use in a variety of sizes for a variety of tilting body frames. By pre-fitting the springs, we make simple and reliable adjustments that can be tailored to the needs of the users.

Claims (3)

Patent claims 1. A tilting mechanism having a two-part mirror mirrored spiral spring force equalization for bed frames having an open or in-house design *, characterized in that the tilting mechanism and the force equalizing device form a single mounting unit, the force equalizing device is located in the tilting bed frame and 5 / and stabilizer plate / 2 / having shaft / 5 / embedded, shaft / 5 / overboard / 5 / overhang / 22 / which is correctly mounted in hub / 19 / hole on hub / 19 / support plate / 1 / is mounted, further on the shaft / 5 / lifts / 7 / are fastened in their holes by a pin / 8 / push rod / 9 / spring support plate / 12 / pivoting together, the base plate / 5 / and the stabilizer plate / 2 / is provided with a pipe 16 with an adjusting screw / 18 / and a adjusting nut / 15 /, where the adjusting screw has a fLQ / guide bushing / 14 / and and an external and internal helical spring (10, 11) is provided between the adjustable spring support (15) and the compression rod (9) connected to the spring support (12). 2. An embodiment of the tilting mechanism according to claim 1, characterized in that the shaft / 5 / has a rectangular cross-section and / or a hollow-shaped recess. An embodiment of a tilting mechanism according to claim 1, characterized in that the shaft (5) is embedded in bearing bushes (4) * which are fixed in the base plate (5) and in the stabilizer plate (2). An embodiment of the tilting mechanism according to claim 1, characterized in that the shaft (5) and the pin (8) are provided with a secure drinking pin (6) and the tube (16) is provided with mounting pins (17).