Form panel spacing device

Information

  • Patent Grant
  • 4109893
  • Patent Number
    4,109,893
  • Date Filed
    Monday, July 19, 1976
    48 years ago
  • Date Issued
    Tuesday, August 29, 1978
    46 years ago
  • Inventors
  • Examiners
    • Husar; Francis S.
    • McQuade; John
    Agents
    • Mason, Fenwick & Lawrence
Abstract
A device for ensuring the spacing of form panels during the pouring of concrete walls including a spacing cone in the shape of a frustum of a cone provided with a wear resisting flange moulded around the larger base.
Description

This invention relates to a device for maintaining desired spacing of form panels during the pouring of concrete walls.
In casting concrete walls, a form composed of panels often made from metal, wood or the like are positioned in the desired location. To maintain spacing between these panels, panel spacing cones are used to separate the panels. These cones are in fact frustums, but they will be called cones hereinafter, so as to comply with the terminology of the building art.
The presently known cones are generally made from a plastic material. However, so that their price remains reasonable, each cone must contain the smallest possible volume of plastic. Nevertheless, it must at the same time be robust and have smooth surfaces which only slightly adhere to the concrete. To decrease the cost of said cones, most of the hitherto existing cones have a conical central hole. In this case, the centering of the cone on the threaded rod during assembly is difficult.
Moreover, when it is desired to extract these cones, they are generally struck with any appropriate tool on the conventional small base thereof. This operating procedure results in the cones falling to the ground, with the consequent risk of breakage, accidents or loss. In addition, it is obviously desirable to be able to reuse the cones several times. It is necessary for the edges to remain clean and undercut areas will form which increase the hooking of the cones in the concrete wall, making their extraction even more difficult.
A further disadvantage of the known panel spacing cones is that the plastic material is very sensitive to shocks and offers little resistance to wear, particularly at the edges. When the edge of the large base is worn, it becomes difficult to expel the cone from the concrete.
Furthermore, at the time of removing the panels when the concrete has set, it is necessary to seal the holes left by the panel spacing cones. These holes are difficult to seal by conventional means. It is necessary to have personnel who have been specially trained in finishing work. Moreover, this sealing work takes a long time to perform and the quality of the seal obtained is often inadequate. Thus, in summarizing, the conventional solutions are relatively unsatisfactory and very time-consuming.
The object of the present invention is to obviate the above disadvantages and proposes a device for ensuring the spacing of panels during the pouring of concrete walls, which is simple, cheap and easy to install and remove. It also proposes to solve in advantageous manner the problems caused by the sealing of holes left by panel spacing cones.
To this end, the invention relates to a device for ensuring the spacing of panels during the pouring of concrete walls including, a frustum having a wear-resisting flange, molded about its large base.
This flange makes it possible to reuse the cone several times, in that it can be removed from its location without being held back by a fin.
According to another feature of the invention, the device is made from plastic material.
According to another feature of the invention, the two bases of the cone are not planar. Each of them is formed by a very flat cone, whose point is turned towards the inside of the panel spacing cone.
As a result of this feature, a slight crushing of the plastic material at the two ends of the cone is possible during tightening. The system is then tight and cannot fill with cement slurry.
According to another feature of the invention, the device is hollow and the inner walls are provided with ribs permitting its centering on a clamping rod, during the positioning between the panels.
As a result of these ribs, the cone axis can coinside or be parallel with the threaded rod axis, which increases the rigidity of the cone during tightening.
According to another feature of the invention, the ribs are interrupted at a short distance from the large end of the cone, in order to permit the engagement of an extracting tool, no matter what the length of the cone.
In order not to reduce the stability of the cone only every alternate rib can be interrupted over a length of about 15 mm. This arrangement makes it possible to provide a support for a tearing away tool. This tool is introduced between the ribs of the cone until the latter are interrupted. The tool is then rotated so as to bring it in front of the rib, followed by pulling in order to separate and extract the cone.
Moreover, in order to obtain panel spacings greater than those permitted by the use of a single cone, it is possible to fit end to end two plastic cones, whereby the small ends of the two cones face one another. In this case, it is impossible to strike against the small ends of the cone in order to withdraw the same. In the same way, it is also frequently necessary to have to place the small end on the inaccessible face of a wall -- even in the case of a single cone.
According to another feature of the invention, a wear-preventing flange is moulded around the large face of each cone.
A tool for extracting the cones may include a rod having at one end an extraction head carrying cutout whose shape is complementary to that of the ribs of the cone and at the other end an abutment. A tube having a handle slides along the rod. Movement of the tube along the rod is limited by the abutment and the weight of the handle is sufficient to extract the cone when the tube impacts the abutment.
The rod may include two diametrically opposite pins which strike against the ribs when the extraction head is rotated to the desired position relative to the cone.





This arrangement makes it possible to extract the cones very easily, without danger and without risk of loss or breakage, because the cones no longer fall to the ground after extraction.
In order to be able to use the extractor with one hand, the extraction head and the rod to which it is fixed must not be able to rotate relative to the handle. Thus, the rod and the tube which slides thereon have a cross-section which is other than cylindrical. This section can be square, triangular or the like.
According to another feature of the invention, the handle has a stop which limits the displacement of the rod during the introduction of the apparatus into the cone.
When the extraction head is introduced between the ribs, and then following the rotation thereof in order to make it face the ribs, the heavy handle is put into use, which, under the impulse of the shock on striking against the abutment fixed to the rod, detaches the cone from the concrete and moves it away. This arrangement limits damage to the edges of the large ends of the cones, which can then be recovered on the extractor instead of falling freely to the ground, as is in the case when they are removed by striking with a mallet on the small end.
A conical frustum shaped concrete plug serves to seal the holes left in the walls at the time of removing spacing cones. The dimensions of the concrete plug are slightly less than those of the hole w350000000000000000000000000000000000000000000000000000000000000000
Priority Claims (2)
Number Date Country Kind
75 22883 Jul 1975 FR
75 37168 Dec 1975 FR
US Referenced Citations (5)
Number Name Date Kind
1850402 Lampert Mar 1932
2502672 Royther Apr 1950
3514070 McArdle May 1970
3648961 Farrow Mar 1972
3785610 Dagiel Jan 1974
Foreign Referenced Citations (1)
Number Date Country
1198134 Dec 1959 FR