SE525035C2 - Spacers - Google Patents

Abstract

A spacer in a construction element (1) comprises an inner thread (5) provided in the construction element (1), a spacer screw and a support foot (6). The spacer screw has a thread for cooperation with the inner thread (5). The support foot (6) is intended for abutment against a support surface. The distance between the support foot (6) and the construction element (1) is adjustable by rotation of the spacer screw. The support foot (6) has a first engagement means (9) by means of which it is fixable in the construction element (1). The spacer screw and the support foot (6) have mutually corresponding engagement means by means of which the spacer screw is fixable in or on the support foot (6) and the first engagement means of the support foot (6) is releasable from the construction element (1). <IMAGE>

Description

Transport of building elements with pre-assembled spacers can then become very bulky and thus costly.

TROUBLESHOOTING It is thus desired to achieve a spacer that provides adequate damping and otherwise functions well. At the same time, it must be easy to transport and mount the building elements and later adjust the spacer to a suitable height.

TROUBLESHOOTING The objective underlying the invention is achieved if the spacer initially indicated is characterized in that the support foot has a first engaging member, by means of which it is attachable to the building element, that the spacer screw and the support foot have corresponding engaging means by means of which the spacer screw or on the support foot and the first engaging means of the support foot is releasable from the building element.

Additional advantages are obtained if the spacer is additionally given one or more of the features according to claims 2-8.

COMPILATION OF DRAWING FIGURES The invention will now be described on the basis of the accompanying drawings. In these: Fig. 1 shows a section through a building element with a damping support foot arranged therein, which is included in the spacer according to the invention; Fig. 2 is a straight side view of the building element, the depressing support foot and a spacer clamp included in the invention; and Fig. 3 is a section corresponding to that in Fig. 1 where the spacer screw according to Fig. 2 continues a piece into the building element and the damping support foot. fi g 4 a section through the support foot, showing an attachment to the base. 10 15 20 25 30 35 40 (n. Fx) 01 CD c 4 (fi 3 PREFERRED EMBODIMENT Fig. 1 shows a building element in the form of a board, for example for a supporting layer for a floor covering. The building element 1 is provided with a number of holes 2, in which spacers 3 can be arranged.In the hole 2, in the preferred embodiment, a bushing 4 is arranged, which is internally threaded, however, it is conceivable that a corresponding thread 5 is arranged on the inside of the hole 2 in some other way.

A damping support foot 6 is arranged in the hole 2. The support foot 6 is preferably pre-assembled in the hole 2.

The building element 1, which may be a slab or a rule, has in all cases some extent in the room, ie the building element 1 has its substantial extent in a plane, as is the case with a slab, or substantially along a line, as is the case with a rule. The extent of the building element 1 depends on the type of building element 1 and the stresses that it is expected to withstand. In many cases the building element 1 itself is thin in relation to the space behind or under the mounted building element 1. In the case where one wants to install equipment, such as pipes under a floor, the space in height below the floor is quite large, and this means that the spacer 3 must have a longitudinal extent which substantially exceeds the thickness of the building element 1.

The internal thread 5 arranged in the building element 1 is, as indicated above, either arranged directly in the building board 1 or in a loose bushing 4 arranged in the hole 2. The bushing 4 is in the preferred embodiment made of plastic, but other materials are also conceivable. The bushing 4 is preferably arranged by pressing in or snapping into the hole 2.

The damping support foot 6 has a damping coating 7 and has a transverse dimension which is larger than the hole 2. The damping coating 7 is intended to rest against the base on a sufficiently large surface for a soft material to be used without the pressure becoming so great that the damping coating 7 is deformed too much. The support foot 6 can be made of a number of different materials, for example metal, plastic or hard rubber, while the damping coating is preferably made of some rubbery elastic material.

The damping support foot 6 is pre-assembled in the hole 2 in the building element 1. This means that it protrudes from the building element 1 only to a lesser extent, which provides good possibilities for storing and transporting building elements 1 with pre-assembled 10 15 20 25 30 35 40 LW r J » UI CD L. ~ J (11 4 damping support feet 6 in an economically efficient manner. The foot 6 has an upwardly directed sleeve 8, which is directed upwards and is provided with an external thread 9.

The length of the sleeve 8 is less than the thickness of the building element 1, so that the sleeve 8 and its thread 9 are completely absorbable in the internal thread 5 of the building element 1, in order to provide a minimally projecting damping support foot 6.

The sleeve 8 is further provided with an internal engaging member 10, which in the preferred embodiment is an internal thread.

Fig. 2 shows a side view of the building element 1 and the ice-screwed, damping support foot 6. A spacer screw 11 is arranged above the building element 1, which is about to be inserted into the hole 2 in the building element 1. The spacer screw 11 has an upper portion 12, which is threaded and whose length is optional and advantageously variable, for example by cutting. The cutting is advantageously carried out after the spacer screw 11 has been adjusted to its final position. The upper portion 12 is thus provided with a first external thread 13, which fits into the internal thread 5 arranged in the building element. A lower portion in the form of a projection or a pin 14 is provided with an engaging member 15, which in the preferred embodiment the mold is a second, external thread, which fits into the internal thread 10 of the sleeve 8. damping support foot 6. It is thereby allowed that the support foot 6 is detached from the internal thread 5 of the building element 1, before the external thread 13 of the upper part 12 engages with the internal thread of the building element 1. The sum of the length of the internal thread 10 and the length of the internal thread 5 in the building element 1 is thus less than the length of the pin 14.

Fig. 3 shows a sectional view of the spacer 3, which comprises the spacer screw 11, the support foot 6 and the internal thread 5 of the building element 1. In the figure the spacer screw 11 and the support foot 6 are connected to each other via the second external thread 15 and the sleeve 8 The spacer screw 11 has come into engagement with the inner thread 5 of the bushing 4 with its upper part 12. Before that, the outer thread 9 of the support foot 6 has been loosened from the inner thread 5 of the building element 1. This loosening did not take place until the pin 14 of the spacer screw 11 .

The total length of the spacer screw 11 is selectable, which gives a very high ibilibility for the areas of use of the building elements 1. The distance between the building element 1 and the base depends on the length of the spacer screw 11 and insertion into the internal thread 5. The distance is variable from a distance which only allows 10 C 20 that the damping foot fits under the building element 1 to a considerable length on the spacer, which, however, must still provide stability to the construction as a whole.

Fig. 4 shows a section through the support foot 6 and the pin 14 of the spacer screw 11.

The spacer screw 11 is advantageously hollow, so that a screw, bolt or other fastening member 16 is attachable to the base 17. The support foot 6 has a central hole 18 and the spacer screw 11 a corresponding hole 19 for easy passage of the fastening member 16, but it It is also conceivable to design the fastening member 16 so that it is able to pierce the bottom and support foot 6 of the spacer screw 11 only at the fastening in the base 17. In this case, the material in the spacer screw 11 and the support foot 6, respectively, should also be selected so that piercing is possible.

ALTERNATIVE EMBODIMENTS The engaging member 10 in the foot 6 has been described above as a thread. However, it is quite possible to modify the object of the invention so that the interaction between the engaging member 10 and the pin 14 of the spacer screw 11 takes place with some other type of engagement. An example of such a type of procedure could be a bayonet socket. The essential thing is that the spacer screw 11 is able to actuate the foot 6 so that it is unscrewed from the thread 5.

In the above description, the internal thread 5 arranged in the building element 1 has been manufactured as arranged in a loose bushing 4, which is inserted in the hole 2 in the building element 1. Of course, it is possible to arrange the internal thread 5 in the building element 1 in another way. , for example directly in its material.

In the preferred embodiment, it has been described how the support foot 6 in the pre-assembled position has been threaded into the internal thread 5 of the building element. Alternatively, it is quite possible to keep the support foot 6 in the pre-assembled position with some other type of engaging means. Some examples are a frictional engagement provided by a specially arranged fi-friction layer, an elastic ring around the sleeve 8 or slits in the sleeve 8 which allow pressing into the hole 2. It is quite possible to vary the engaging member for the pre-assembled position further. It is conceivable that the support foot is provided with engaging means which co-operate with the underside of the building element 1 rather than with the hole 2 or its thread 5. An example is upwardly directed projections on the upper side of the support foot 6. The projections are arranged so that they can be pressed into the building element 1 around the hole 2. Common to the different methods, however, is that it should be fairly easy to release the support foot 6 from the pre-assembled position during assembly and subsequent adjustment of the building element 1.

W | J LTT CD (d U? The extension can be further modified within the scope of the appended claims.

Claims (9)

10 15 20 25 30 35 40 Un r .J and CD t. J (Ii 7 PATENT REQUIREMENTS Spacer means for a building element (1) comprising an internal thread (5) arranged in the building element (1), a spacer screw (1 1), with a thread (13) for co-operation with the internal thread (5), and a support foot ( 6) intended for abutment against a support surface, wherein the distance between the support foot and the building element is changeable by rotation of the spacer screw, characterized in that the support foot (6) has a first engaging member (9), by means of which it is attachable to the building element ( 1), that the spacer screw (1 1) and the support foot (6) have corresponding engaging means (10, 15) by means of which the spacer screw (1 1) is attachable in or on the support foot (6) and the first engaging member of the support foot is releasable from the building element ( 1). Spacer (3) according to claim 1, characterized in that the support foot (6) and the spacer screw (11) are manufactured in two separate parts (6, 11). Spacer (3) according to claim 1 or 2, characterized in that the first engaging member of the support foot (6) is releasably attachable to the internal thread (5) - A spacer (3) according to claim 3, characterized in that the first engaging member (9) of the support foot (6) is a thread. A spacer (3) according to any one of claims 1-4, characterized in that the engaging means (10, 15) of the support foot (6) and the spacer (1 1) are threads. Spacer (3) according to one of Claims 1 to 5, characterized in that the support foot (6) is pre-assembled in the internal thread (5) of the building element (1). Spacer (3) according to one of Claims 1 to 6, characterized in that the support foot (6) has a largest transverse dimension which exceeds the transverse dimension of the thread (5) arranged in the building board (1). Spacer (3) according to claim 5, characterized in that the length of the external engaging member (15) of the spacer knife (1 1) exceeds the sum of the length of the internal engaging member (10) of the support foot (6) and the internal thread of the building board (1). (5). A spacer (3) according to any one of claims 1-8, characterized in that the internal thread (5) of the building board (1) is provided in a bushing (4) arranged in the building element (1).