DE3838712A1 - SWING FLOOR - Google Patents

Abstract

A resilient floor for sports halls or the like, with a number of resilient supports (2a, 2b) which are at a distance from one another and are mounted on a sub-floor (1) by means of blocks (4a, 4b) which are at a distance from one another in the direction of the resilient supports (2a, 2b), consists of a floor structure which rests upon the resilient supports (2a, 2b), each resilient support (2a, 2b) consisting of a continuous upper (7) and a continuous lower (8) slat, between which spacer elements (9a, 9b) are arranged. The blocks (4a, 4b) and the spacer elements (9a, 9b) are made of elastic material. <IMAGE>

Description

The invention relates to a swinging floor for sports halls or The like according to the preamble of patent claim 1.

A swinging floor according to the preamble of claim 1 is from DE-PS 12 55 900 known. In this vibrating floor is the Lower Gurtbrettlage by blocks of wood opposite the Supported underbody. Between the upper Gurtbrettlage and the Lower Gurtbrettlage are spacers made of wood pieces, such that the spacers between the upper and the lower Gurtbrettlage about midway between adjacent Blocks are provided. The vibration behavior of such Oscillating floor is essentially due to the elasticity of the determined upper and lower Gurtbrettlage. The burden of Upper Gurtbrettlage is through the spacers directly on the transmitted lower Gurtbrettlage, the rigidity of the  Festge the bottom Gurtbrettlage by the distance of the bearing blocks is set, so that the vibration behavior of the upper Gurtbrettlage by the vibration behavior of the lower Gurtbrettlage essential is determined. The spacer elements and / or the blocks bear on the other hand, not on the vibration behavior of the entire vibration floor at.

From DE-OS 19 07 190 a vibrating floor is known in which between the upper and lower Gurtbrettlage each Schwingträ gers elastic spacers are provided while the Lower belt board position due to wooden blocks on the underbody is supported. The upper Gurtbrettlage points in each case Dividing joints above each second spacer element. The Oscillation behavior of such a vibrating floor is here for one determined by the elastic spacers between upper and lower Gurtbrettlage and on the other by the Elasticity of the lower Gurtbrettlage between two the lower Gurtbrettlage supporting blocks. To the elasticity of the To limit the lower Gurtbrettlage, each vibrating carrier have between adjacent blocks additional blocks, the Wood and have a smaller thickness than the adjacent ones Blocks. In this way it is achieved that the lower Belt board position only over a certain area between the Both blocks can bend and thus the Schwingverhal th of the oscillatory carrier is limited in a predetermined manner.

DE-GM 83 29 011 relates to a vibrating carrier for Vibrating floors, whose lower Gurtbrettlage by elastic blocks supported on the underbody. Above each block are located on the lower Gurtbrettlage spacer elements Wood. The upper Gurtbrettlage is arranged so that in each case Above each spacer element the upper Gurtbrettlage subverted lie loosely separating joints. Using such a vibrating carrier Swing floor has no over the entire surface of the soil  uniform elasticity. Rather, such a Floating floor in the areas in which the spacer elements lie directly above the elastic blocks, opposite the rest Area of the vibrating floor to have sharp spring characteristics, i.e. the swinging floor is through over its entire surface distributed trained points with particularly hard spring events characterized. This swinging floor also has the Disadvantage that the upper Gurtbrettlage each above the Spacers should be provided with joints, which is to avoid transmission of vibrations in the neighboring area of the Floor is required and associated with high workload is.

The invention is based on the object, a To create a vibrating floor that extends over the entire floor area shows even vibration behavior and in particular no punctual areas with much lower spring properties Has.

This object is achieved by the features of characterizing part of claim 1.

Further embodiments of the vibrating floor resulting from the Dependent claims.

The development of vibrating floors has been shown according to the The prior art developed so that first the rockers Shaft by the elasticity of the upper and / or lower Gurtbrettlage was set alone. It has then been shown that a Improving the vibration behavior is achievable when the Spacers between upper and lower Gurtbrettlage elastic material and also a separation The upper seat belt position is made to a transmission to avoid vibrations in the surrounding areas.  

Finally, according to DE-GM 83 29 011 was provided, the blocks made of elastic material, while compared to the DE-OS 19 07 190 blocks of wood were used, whereby at Belt board layers, the joints in the area of the spacer elements have, the vibration behavior of the by such vibrating carrier formed swinging floor was considered optimized. about Surprisingly, it has now been found that according to available the invention of the use of elastic material for both Distance elements as well as for the blocks with the proviso to a uniform vibration over the entire floor area keep leads, if in contrast to DE-OS 19 07 190 and the DE-GM 83 29 011 the spacer elements and the lower belt board lay clogs not in vertically superimposed Arrangement are provided, but in the lateral direction offset from each other. In such a vibration floor kick in the prior art according to DE-OS 19 07 190 and DE-GM 83 29 011 occurring "points" extremely hard spring events shank in the area of the superimposed distance elements and blocks are not on, rather, the compliance is or elasticity of the vibrating floor compared to this state of the Technology across the entire area of the swing floor uniform.

The surprising effect of the vibrating floor according to the invention does not result from the lately sought Arrangement of superimposed spacer elements and Blocks, but starting from the swinging floor according to the DE-PS 12 55 900 by replacing the blocks used there and Spacers made of wood by spacers and blocks elastic material. The solution according to the present invention does not correspond to the development, as expressed by the DE-PS 12 55 900, DE-OS 19 07 190 and DE-GM 83 29 011, but provides a construction which is just opposite to vibrating trays according to DE-OS  19 07 190 and DE-GM 83 29 011.

Another advantage of the invention results according to a preferred embodiment in that the joints between Upper and lower Gurtbrettlage are symmetrical, i.e. that the joint of the upper Gurtbrettlage laterally offset to the joint of the lower Gurtbrettlage is provided and thus an overlap between the upper and lower Gurtbrettlage is created.

If the vibrating floor according to the invention as a general purpose floor can be used, e.g. for exhibition purposes, etc., it is advantageous if between the lower Gurtbrettlage abstüt zenden blocks are provided by additional additional blocks whose Thickness is less than the strength of the blocks. In this way The deflection of the lower seat belt position between the Blocks limited. In a swing floor or all-purpose floor with a vibration carrier of the type described above are the Both Gurtbrettlagen abge against a heavy load abge assures, while for a pure sports or gym floor the Additional blocks advantageously be omitted to a to ensure greater elasticity of the vibrating floor.

With the above-described construction of a vibrating floor can the upper Gurtbrettlage have a lower strength than the lower belt board position. This has the advantage that the swinging floor a higher sensitivity compared to lower Loads, e.g. versus the weight of children or Adolescents, while known swinging floors a Ansprech have sensitivity to higher loads, namely the Weight of adult persons, is parked.

An essential advantage of the vibrating floor according to the invention also to be seen in that partially in the prior art  required separation of the upper Gurtbrettlagen by the Making dividing joints is eliminated and thus the workload is reduced.

The invention thus creates a swinging floor, in particular a sports floor for gyms or the like that stands out an already at lower loads noticeable Spring characteristic distinguishes.

In the following, a preferred embodiment of the invention according to further characteristics of the Erindung described. It shows

Fig. 1 is a perspective partial sectional view of modern fiction, vibrating bottom plate,

FIG. 2 shows a side view of a vibration carrier for the oscillating floor according to FIG. 1 according to a modified embodiment, FIG.

Fig. 3 is a side view of a vibrating carrier according to FIG. 1 for explaining its vibration behavior, and

Fig. 4 is a Fig. 3 corresponding view of a known vibrating beam for explaining the differences of the vibration behavior of this known oscillating support with respect to FIG. 3.

In the following, a preferred embodiment of the fiction, contemporary vibrating floor is explained with reference to FIG. 1.

On a subfloor or subfloor 1 are a plurality of substantially mutually parallel and spaced apart vibrating beams 2 a , 2 b , etc. Each vibrating beam 2 a , 2 b is by blocks 4 a , 4 b , etc. bzw. 5 a , 5 b , etc. supported against the subfloor 1 . Each oscillating carrier consists of an upper Gurtbrettlage 7 and a lower Gurtbrettlage 8 , between which spaced spacer elements 9 a , 9 b , etc. are provided. On the vibrating beams 2 a , 2 b , etc. are provided in a direction to the vibrating beam 2 a , 2 b approximately vertical position boards 10 , which form a blindfloor. On the blank bottom defining boards 10 a load distribution layer 11 is provided according to the dargestell th embodiment, for example in the form of particleboard or plywood plate plates on which a floor covering 12 , for example in the form of a PVC layer, is arranged. Between the dummy bottom 10 and the chipboard 11 , a film may be provided which serves as protection against penetration of moisture. The false bottom 10 resulting boards and the chipboard 11 with the wear layer 12 give a floor structure, which can be optionally modified without the function described below the vibrating support for the entire swing floor is changed.

In the embodiment shown in Fig. 1, the blocks 4 a , 4 b are provided with a center-to-center distance to 50 cm to each other, while the spacer elements 9 a , 9 b respectively between the upper and lower Gurtbrettlage 7 , 8 approximately centrally between and above the blocks 4 a , 4 b , etc. are provided. This ensures that in the longitudinal direction of each oscillating carrier 2 a , 2 b seen a block 4 a , the spacer element 9 a , a block 4 b , etc. are arranged one behind the other in this order. A load acting on the upper Gurtbrettlage initially acts on the or the spacer elements 9 a , 9 b , and the load is transmitted to the lower Gurtbrettlage 8 . The distance elements 9 a , 9 b , which consist of elastic material according to the invention, have a damping characteristic. Thus, only a part, but the majority of ge on the upper Gurtbrettla 7 acting load on the spacers 9 a , 9 b transmitted to the lower Gurtbrettlage 8 . The lower Gurtbrettlage 8 is also supported by blocks 4 a , 4 b of elastic material, whereby the blocks 4 a , 4 b also co-determine the Schwingver hold the respective oscillating carrier.

Since the blocks and spacers are provided in mutually alternating manner in the longitudinal direction of the oscillating beams, ie the spacer elements 9 a , 9 b are provided laterally offset relative to the blocks 4 a , 4 b , results in a Vergleichmäßi tion with respect to the vibration behavior of each vibrating carrier in contrast to a vibrating carrier, in which according to DE-OS 19 07 190 and DE-GM 83 29 011 the spacer elements are provided directly above the blocks.

According to the above embodiment, the spacing elements 9 a , 9 b are so angeord net in the swing base according to the invention preferably that each spacer element when viewing the side of the oscillating carrier approximately centrally above two blocks 4 a , 4 b , etc. is arranged. According to a further modification of the oscillating floor, two or more spacer elements 9 a , 9 b may be provided above two adjacent blocks 4 a , 4 b , which in turn maintain a distance from each other. The approximately central arrangement of a spacer element above two adjacent blocks 4 a , 4 b is preferred. The blocks 4 a , 4 b , etc. have in the dargestell th embodiment, preferably rectangular or square shape, but can - if viewed horizontally - be formed kreisför mig.

Next is essential according to the present invention, that both the upper and the lower Gurtbrettlage 7 , 8 are continuous, ie no joints neither in the range of Distanzele elements 9 a , 9 b , still in the area of the blocks 4 a , 4 b are desired.

According to a preferred embodiment of the vibrating floor according to the invention, the upper Gurtbrettlage 7 has the dimension 16, 5 × 95 × 3500 mm, the lower Gurtbrettlage 8 the dimension 20.5 × 95 × 3500 mm (thickness-width-length). The spacers 9 a , 9 b have the dimension 60 × 100 × 5 mm, while the blocks 4 a , 4 b are dimensioned at 60 × 100 × 14 mm.

The spacers 9 a , 9 b , etc. of the invention Schwingbo dens preferably have a relation to the thickness of the blocks 4 a , 4 b lower strength, thereby ensuring that excessive deflection of the upper Gurtbrettlage 7 by the contact with the lower Gurtbrettlage. 8 is prevented. Both the spacers 9 a , 9 b and the blocks 4 a , 4 b according to a further embodiment preferably have a greater width compared to the width of the Gurtbrettlagen, so that a full support of the Gurtbrettlagen on the spacer elements 9 a , 9 b and / or the blocks 4 a , 4 b is ensured.

The upper and lower Gurtbrettlage 7 , 8 are, as shown in FIG. 2, provided in a mutually overlapping manner. This means that the joints of the upper Gurtbrettlage 7 are laterally offset from the joints of the lower Gurtbrettlage 8 . From Fig. 2 it is seen that the joint 13 of the upper Gurtbrettlage 7 in the area of one of Distanzelemen te 9 a , 9 b , etc., while a joint 14 of the lower Gurtbrettlage 8 is provided in the adjacent block 4 a . At a distance of 50 cm between the center of the pad 4 a and the middle of the block 4 b , this means that the joints 13 , 14 are offset by about half a distance between adjacent blocks 4 a , 4 b to each other.

It has been found that the use of spacers 9 a , 9 b and the use of blocks 4 a , 4 b in the form of elastic material surprisingly lead to a very good vibration behavior of the entire vibrating floor, being avoided by avoiding vertically stacked blocks 4 a etc. and distance elements 9 a , etc. a uniform vibration behavior or a uniform elasticity of the entire swing floor is guaranteed and no punctual areas with extremely hard Federvermö conditions occur. The strength of the spacers 9 a , etc. is in the illustrated embodiments advantageously 30% or 35 to 36% compared to the strength of the blocks 4 a and so on.

By means of a slight modification, the oscillating floor according to the invention can also be used as a general-purpose floor, which can be exposed to higher loads. According to this modification of the vibrating floor according to the invention additional blocks 20 a , 20 b are provided of elastic material, which are approximately centrally between, for example, the blocks 4 a , 4 b used. The additional blocks have a lower thickness than the blocks 4 a , 4 b , preferably about half the thickness of the blocks 4 a , 4 b . These additional blocks 20 a, 20 b serve to limit the deflection of the lower belt board. 8

The spacer elements 9 a , 9 b and / or the blocks 4 a , 4 b and / or the additional blocks 20 a , 20 b may be firmly connected to the associated Gurtbrettlagen, for example by gluing or screwing.

As elastic materials for the blocks 4 a , 4 b and / or the spacer elements 9 a , 9 b is preferably used polyurethane foam or plastic-bonded rubber fibers with a density of, for example, ~500 kg / m ³ and a compression set modulus, for example ~0.50 N. / mm ² .

The space between the individual oscillating beams 2 a , 2 b , etc. on the one hand and the unfinished bottom 1 and the blank 10 formed by the boards on the other hand is preferably at least partially filled by mats 25 made of plastic or breathable material, wherein the layer 25 preferably below Compliance with a predetermined distance to the blindfloor 10 is used to chen ermögli a ventilation of the blindfloor.

In the illustration of Fig. 3a, the case is assumed that a force F acts on the upper Gurtbrettlage in the region of the distance element 9 b . Here, the elasticity of the upper Gurtbrettlage 7 does not play the role influencing the consideration. The force F is thereby influenced by the elasticity of the spacer element 9 and b by the spring behavior of the lower belt board 8 in the region of the spacer element 9 b as well as by the elasticity of the two elastic blocks 4 b, 4 c was added. In the illustration of FIG. 3b, the force F acts on the upper Gurtbrettlage 7 approximately in the middle between the two Distanzele elements 9 b , 9 c , whereby the vibration behavior of the oscillating carrier is determined by the elasticity of the upper Gurtbrettlage and by the elasticity of the two elastic Distanzelemen te 9 b , 9 c and the elastic spacer block 4 c and additionally by the elasticity of the lower Gurtbrettlage 8 due to the force distribution and thus in the region of the spacers 9 b , 9 c on the underlying free-running portion of the lower Gurtbrettlage 8 acting force components , In both cases according to FIGS . 3a and 3b, therefore, the oscillatory behavior is determined by the lower Gurtbrettlage. In both cases, the vibration behavior of the vibrating floor is also determined by one or two of the spacer elements and by two or one of the elastic spacer blocks.

In contrast, the vibration behavior of the oscillating carrier is practically not influ- with impressed by the lower Gurtbrettlage, as shown in FIGS . 4a, 4b show in a known sprung floor of the type described in connection with DE-GM 83 29 011.

According to Fig. 4a, the force acts on the upper Gurtbrettlage 7 'approximately in the middle between the two spacers 9 ' b and 9 ' c , so that a force distribution occurs, which is not affected by the non-elastic spacers 9 ' b , 9 ' c is, as well as not by the underlying Gurtbrettlage 8 ', since these in the region of the spacer elements 9 ' b , 9 ' c each directly by means of the elastic support blocks 4 ' c and 4 ' b is supported. Thus, the vibration behavior in a vibration carrier of the manner shown in Fig. 4a is exclusively determined by the elastic support blocks 4 ' b and 4 ' c . Occurs the force in this known oscillating carrier on the upper Gurtbrettlage 7 'in the region of a spacer element 9 ' c or 9 ' b , the Schwingver keep this vibrating carrier determined neither by the upper Gurtbrettlage still by the lower Gurtbrettlage, but again exclusively by the lower elastic support block 4 ' c .

The above statements show that according to the present invention the vibration behavior of a vibrating floor with the invention used vibrating beam can be tuned in an optimal way, and by several components, namely the elastic Distance elements, the lower belt board position and the support pads as well as through the upper Gurtbrettlage itself.

In the embodiment described in connection with FIGS. 1 to 3 have the spacer elements 9 each have a width which corresponds approximately to the width of the blocks 4 and which is only a fraction of the total length of the belt boards, the belt boards preferably a length of about 3 m or 3.5 m. According to a modification, it is provided that the spacer elements 9 and / or the Abstützklötze 4 have a relation to the illustration of FIG. 1 to 3 substantially greater width, are thus provided extending in the form of strips parallel to the Gurtbrettlagen running. In such a case, the material for the Distanzele elements 9 and / or the blocks 4 is selected with a higher compliance than in connection with the block-shaped spacers 9 and 4 in the embodiments of FIGS . 1 to 3 has been described, so that the vibration behavior of Oscillating carrier in the manner described by the elasticity of the upper and / or lower Gurtbrettlage 7 , 8 is co-determined.

According to the DIN standards according to DIN 18 032 Part 2 the following apply Requirements for a surface elastic sports floor Type of the invention:

Power reduction (KA ₅₅) at least 53% Standard deformation vertical (St _v ) at least 2.3 mm Ball Reflection (BR) at least 90% Deflection trough (W ₅₀₀) maximum 50%

The values of the oscillating floor according to the invention will be described below in comparison with a swinging floor according to DE-GM 83 29 011 stated:

For the main criteria have force reduction and standard deformation Tests the following, at the usual six measurement points of one  Vibrations determined values, again in comparison with a swinging floor according to DE-GM 83 29 011:

From the above tabulated list it appears that the Inventive rocking floor according to the DIN regulations predetermined minimum values more than met and the maximum values far below.

Claims (8)

1. swinging floor for sports halls or the like, with a plurality of spaced apart vibrating beams, which are supported by spaced apart in the direction of the vibrating carrier blocks on a subfloor, with a resting on the vibrating carriers floor structure, each vibrating carrier consists of a continuous upper and a continuous lower belt board , between which spacer elements are arranged, characterized in that the blocks ( 4 a , 4 b ) and the spacer elements ( 9 a , 9 b ) consist of elastic material. 2. swinging floor according to claim 1, characterized in that the spacer elements ( 9 a , 9 b ) relative to the blocks ( 4 a , 4 b ) have smaller thickness. 3. swinging floor according to claim 1 or 2, characterized in that the upper Gurtbrettlage ( 7 ) of each oscillating carrier ( 2 a , 2 b ) has lower strength than the lower Gurtbrettlage ( 8 ). 4. swinging floor according to one of the preceding claims 1, characterized in that between the blocks ( 4 a , 4 b ) at least partially additional blocks ( 20 a , 20 b ) are provided, the strength of the thickness of the blocks ( 4 a , 4 b ) is smaller. 5. swinging floor according to claim 4, characterized in that the additional blocks ( 20 a , 20 b ) consist of elastic material. 6. swinging floor according to at least one of the preceding claims, characterized in that the blocks ( 4 a , 4 b ) and / or the spacer elements ( 9 a , 9 b ) have a greater width than the Gurtbrettlagen ( 7 , 8 ). 7. swinging floor according to at least one of the preceding claims, characterized in that in a conventional manner, the joint ( 13 ) of the upper Gurtbrettlage ( 7 ) is laterally offset to the joints ( 14 ) of the lower Gurtbrettlage. 8. swinging floor according to at least one of the preceding claims, characterized in that the spacer elements ( 9 a , 9 b ) and / or the blocks ( 4 a , 4 b ) consist of a material of high elasticity and in the form parallel to the Gurtbrettlagen extending strip are arranged.