CH663069A5 - Peg - Google Patents

Abstract

This metal peg of overall cylindrical shape has two pointed ends (1, 2), and has a disc-shaped swelling (3) at its middle. In order to assemble two pieces of wood together, it is sufficient to drive one of the ends of the peg into one of the pieces, to place the other piece over the other point of the peg, then to hammer in order to drive the peg in until the two pieces encounter the swelling (3), which acts as a stop. This peg is very simple to use and prevents the carpenter from having to measure and make holes before driving the peg therein, as is the case in traditional methods. <IMAGE>

Description

       

  
 

** ATTENTION ** start of the DESC field may contain end of CLMS **.

 



  CLAIMS
 1. Dowel, characterized in that it has a bulge (3) between its two ends (1, 2).



   2. Dowel according to claim 1, characterized in that its two ends are pointed.



   3. Anchor according to claim 1, characterized in that it has a circular section and that the bulge has the shape of a disc whose axis is that of the ankle.



   4. Dowel according to claim 1, characterized in that the bulge (3) is equidistant from the two ends.



   5. Dowel according to claim 1, characterized in that it has successive notches (4).



   6. Dowel according to claim 2 and one of claims 3, 4 or 5.



   7. Dowel according to claim 3 and one of claims 4 or 5.



   8. Dowel according to claims 2, 3 and 4.



   9. Dowel according to claims 2, 3 and 5.



   10. Anchor according to claims 2, 3, 4 and 5.



   Usually used in carpentry, especially in cottage constructions, and more particularly for the assembly of planks or parts of planks, dowels which are generally made of wood. These anchors are mostly of round section. In order to fix them securely, the hole in which they are inserted has a usually square section, a width slightly less than the diameter of the dowel. It therefore undergoes a certain pressure and a deformation under the action of the edges of the hole when it is pressed into it. This pressure ensures a solid fixation of the ankle.



   The use of these classic dowels therefore requires the carpenter to carefully and exactly measure the location of the holes he must make in the planks, then to trace and mortise them. This is precision work which takes a fair amount of time.



   The present invention aims to provide an anchor which eliminates the obligation to measure and mortise, and allows almost immediate assembly. It also aims to provide an anchor of increased strength and dimensions smaller than those of wooden pegs.



   The invention is described in claim 1.



   The drawings show, by way of examples, two embodiments of the invention.



   Figure 1 is a perspective view of a pin in a first embodiment.



   Figure 2 is a perspective view of a pin in a second embodiment.



   The pin shown in Figure 1 has two ends I and 2 pointed. The dowel has a circular section and is cylindrical over its entire length, except at the ends which have a conical or frustoconical shape. In the middle, the ankle has a bulge 3, which here has the shape of a disc whose axis coincides with that of the ankle.



   The dowel shown in Figure 2 has the same general shape as that of Figure 1, but it has a succession of notches 4 which allow the wood fibers to hang there, preventing the dowel from coming out of its hole. Such an effect is all the better provided when the notches have a flat face facing the bulge, and an oblique face facing the other side.



   The anchor can be made of metal (steel, brass, aluminum, etc.) or other materials such as certain synthetic materials.



   Many manufacturing processes can be used: turning, bar turning, molding, stamping, drawing, threading, etc.

 

   The dowel may have a square, oval, triangular, or any other shape that may be suitable.



   However, preferably, it will be of round section, made of metal, and turned or turned.



   Its use is very simple. It is enough to push one side into one of the parts to be assembled, then to place the other part on the other end, by positioning it, and to strike or press on this other part until the two pieces are applied to the disc-shaped bulge which acts as a stop.



   The time saved compared to traditional methods is considerable. In addition, the strength of such dowels, when made of metal, is much higher, and their size is significantly less than that of traditional wooden dowels.


    

Claims (10)

CLAIMS  1. Dowel, characterized in that it has a bulge (3) between its two ends (1, 2).  2. Dowel according to claim 1, characterized in that its two ends are pointed.  3. Anchor according to claim 1, characterized in that it has a circular section and that the bulge has the shape of a disc whose axis is that of the ankle.  4. Dowel according to claim 1, characterized in that the bulge (3) is equidistant from the two ends.  5. Dowel according to claim 1, characterized in that it has successive notches (4).  6. Dowel according to claim 2 and one of claims 3, 4 or 5.  7. Dowel according to claim 3 and one of claims 4 or 5.  8. Dowel according to claims 2, 3 and 4.  9. Dowel according to claims 2, 3 and 5.  10. Anchor according to claims 2, 3, 4 and 5.  Usually used in carpentry, especially in cottage constructions, and more particularly for the assembly of planks or parts of planks, dowels which are generally made of wood. These anchors are mostly of round section. In order to fix them securely, the hole in which they are inserted has a usually square section, a width slightly less than the diameter of the dowel. It therefore undergoes a certain pressure and a deformation under the action of the edges of the hole when it is pressed into it. This pressure ensures a solid fixation of the ankle.  The use of these classic dowels therefore requires the carpenter to carefully and exactly measure the location of the holes he must make in the planks, then to trace and mortise them. This is precision work which takes a fair amount of time.  The present invention aims to provide an anchor which eliminates the obligation to measure and mortise, and allows almost immediate assembly. It also aims to provide an anchor of increased strength and dimensions smaller than those of wooden pegs.  The invention is described in claim 1.  The drawings show, by way of examples, two embodiments of the invention.  Figure 1 is a perspective view of a pin in a first embodiment.  Figure 2 is a perspective view of a pin in a second embodiment.  The pin shown in Figure 1 has two ends I and 2 pointed. The dowel has a circular section and is cylindrical over its entire length, except at the ends which have a conical or frustoconical shape. In the middle, the ankle has a bulge 3, which here has the shape of a disc whose axis coincides with that of the ankle.  The dowel shown in Figure 2 has the same general shape as that of Figure 1, but it has a succession of notches 4 which allow the wood fibers to hang there, preventing the dowel from coming out of its hole. Such an effect is all the better provided when the notches have a flat face facing the bulge, and an oblique face facing the other side.  The anchor can be made of metal (steel, brass, aluminum, etc.) or other materials such as certain synthetic materials.  Many manufacturing processes can be used: turning, bar turning, molding, stamping, drawing, threading, etc.    The dowel may have a square, oval, triangular, or any other shape that may be suitable.  However, preferably, it will be of round section, made of metal, and turned or turned.  Its use is very simple. It is enough to push one side into one of the parts to be assembled, then to place the other part on the other end, by positioning it, and to strike or press on this other part until the two pieces are applied to the disc-shaped bulge which acts as a stop.  The time saved compared to traditional methods is considerable. In addition, the strength of such dowels, when made of metal, is much higher, and their size is significantly less than that of traditional wooden dowels. ** ATTENTION ** end of the CLMS field may contain start of DESC **.