Background of the invention From the patent concerning literature There is known a lot of production methods of solid or hollow shape profiles made from metallurgical materials, for example the section bars, tubes or another types of profiles.

There is known a method of forming the profiles of thc multiple male threads and a machiner that enables its execution from the description of the protected invention nr.

CS 214 213 B2. The substance of this method consists in having the profile of each thread formed by outer form cutter and chiplessly calibrated so that each of these threads is passed through by all disks of the calibrating too ! lengthwise. The caiibrating too ! for executing the process described above consists of the disk having al lcast three adjustable gripping jaws attache to the tool face. Each of these gripping jaws is equipped with the supporting jaw, each from them is equipped with swivel seated, axially deflected rolling wheels in this manner, that their symmetric axis is parallel to the lcad anglc. The described gear is then completed with the centric hole with the stop made in the body of the gear. the stopping and gripping means and tool-holding slide with camping jaw.

The simultaneous inside and outside tubes gear lo the cold forming, known from the description of the invention nr. CS 238 084 B 1. comprises the three disc-wheel system whose the outside diameter is gradcd so that its contour shape resembles to parabola. Then it has an inside grooving broach equipped on the periphery with symmetrically placed blades. The surface of those blades is axially chamfered in the ratio from 1: 500 to 1 : 2 (X) 0. The height and width of those blades ranges from 0,4 to 1,5 mm while the diameter ranges from 1,8 to 2,2 multiple of their width.

The publication of the protected invention CS 247 078 B2 contains the description of the method of rolling the two-layer tubes ribbed radially and the machinery for executing this process. The substance of this method consists in grooving the outside tube first, with the help of the rotating rolling disks, then after a rih is pullcd and finally the resulting shape of the rib is formed with the final forcing the outside tube on the core tube. The machiner for executing this process consists of three rolling adapters that each does consist of grooving, pulling, forming and supporting disk while the profile of the first part of the supporting disk taken along the direction of the rolling process is corresponding with the profile of the last forming disk. The profile of the second part is hollow and the outside diameter of the last supporting disk taken along the direction of the rolling process is bigger for about 0,1 to 0,8 mm then the outside diameter of the rest of the supporting disks. The invention CS 256 999 B2 does depend on the process described above and contains also the description of a gear in which a system of three outside forming disks is put together from forming rolls with conical tapers that are gripped on shaft with an axial deviation out of coaxial position with the tube to 2.5°.

The method of executing the ribs on bimetallic tubes along the description of the invention CS 249 134 B2 consists in roughening the core tube surface in two sections with the length equal from 0,8 to 3 multiple of their inside diamclcrs and their mutual distance is currently from 1,6 to 6 multiple of the outside diameter of the inside tube in respect to the length of the outside tube. After the said process is the outside tube pulled on the inside tube hereby that its ends are on the same level with the outside ends of roughened sections and the ends of the outside tube are climped along the length coming from 0,5 to 1,5 multiple of the length of the said roughened sections while the deformed part of the outside tube moves in

the direction to the centre of the inside tube in the distance proportional to the mechanical stress performed by clamping the tube. The like joined tubes would not move even during consequent rolling the ribs while cnergetica ! demands of operations described above are lower in comparision with some other still used methods of mutua ! fixing the core and outside tube.

Into the yet known state-of-the-art do belong also a lot of shape profiles or systems which are put together for various technical rasons, for example heat-exchanging tubes for heat-exchangers, section bars used in building industry, accurate section bars used as movable bars in cinematic systems or shape profiles used as decoration in building industry.

As an example there is possible to makc a mention of the heat-exchanging tube inside heating boilers known from the published application form of the invention CZ 3613-96 A3 or the heat-exchanging tube used in cooling agent lines according to the description to nr.

CZ 2008-96 A3, the heat-exchanging tube element according to the utility patent CZ 7484 Ul, the heat-exchanging clement of the so called tube-in-tube type known from the description of the patent CS 234 510 () Bl or the liquid stream rectifying gear according to the patent nr. CS 269 189 B1 or the tubular heat-exchanger with a gear evocating turbulent flow in inter-tubular area according to the publication on the registered utility patent nr.

CZ 5379 Ul.

Summary of the invention Among the main disadvantages of the products descrihcd above helongs especially the shape complicativeness that is directly beared upon the expensive production process consisting in the necessity of the acquisition of relatively expensive and highly specialised machines or specialised construction parts necessary to its manufacturing.

All of the above mentioned disadvantages can be in the major part done away with using the hollow profile with at least single threaded helix hy this invention whose principe consists in the constructing al least simplc-thrcaded helix with steep leading on either of

inside and outside surface while the shape of the inside and outside section of the shape profile are mutually corresponding.

The substance of production process o (' hollow shape profiles through drawing according to the invented method consists in the drawing of the shape profile by the rectilinear motion of the drawing carriage through at least onc form drawing die with at least one form broach, while the said form drawing die and the said broach are performing the forced rotary motion around the longitudinal axis of the drawn profile. Appropriately it is possible using the kinematically inverse way of mutual motion of the described parts so that the drawn profile does rotate positively in a stationary system of form either from the said drawing die and said form broach.

The form drawing die for the executing of the production method according to the described invention is made as at least one-part body comprising at least one direct, convex or concave form blade along the inside periphery. The direct or convex or concave blades along the periphery do have the shape of multiple helix.

One another advantage consists in having the cross-section in the form drawing die symmetrical shape in accordance with at least one axis.

The form broach for executing the invented method is also constructed like a body having at least one part; this body is equipped along the periphere with at least one direct, convex or concave profile blade with the shape advantageously derived from the form drawing die, while the said direct, convex or concave blades are placed along the periphery in the shape of multiple helix.

The form broach is also advantageously executed herewith so its cross-section has a symmetrical according to at least one axis.

Among the most important avantages reached hy using of the form profiles with at least on simple-threaded helix, method of their production and the form drawing dies and

broaches according to the invention appertain especially the possibility of quick and cheap production of various shape profiles to whose production common and cheap malerial can be also used, for example the usage of common welded stcel tubes for production of shape profiles to create the tubular heat-exchanging systems, hollow armouring and hardening profiles for building and earth works, decorating shape profiles for production of banisters, gates, wickets and so on meanwhile the weight of the armouring structure is significantly reduced. There can be reached in the described production process a significant reduction of building length of heat-exchanging elements thanks to increased surface of the hollow shape elements used to the production. On the contrary while observing the proportions there can be reached a significant increase of transferred thermal output contemporary disturbing laminar streaming of heat-exchanging liquids. The advantageous profile shape reached through the method and by using the means hy this invention does enable the improving of building systems strength characteristics whose production is donc hy using it, for example to produce the reinforced concrete. Fair-face elements produced according to present invention can imitate successfully profiles finished to this day by manual blacksmith manufacturing only with the contemporary and significantly reducing of the production costs etc. Joining elements connecting the hollow shape profiles together according to the invention can be also advantageously finished with the shape-corresponding section either in the shape of sleeve or pin that can be hollow or solid. The-like finished joint can he resisting enough to some inadvisable disconnection owing to the outside effects while using the suitable lead and observing necessary precision.

Brief description of the drawings The hollow shape profiles with al least onc single-threaded helix, the method of its production and form drawing dics and broachcs by the invention according to the present invention substance is described in detail through the mediation of execution examples represented by enclosed drawings containing simplifie figures. Fig. shows the cross- section view of an example of the shape profile by this invention Axonometric figure in the Fig. 2 and 3. Fig. 4 shows the axonometric view of différent pictures of shape profile form Fig. 1 whose production was done hy using the form drawing die and form broach with

mutually diverse cross-sections. Fig. 5 shows the schcmatiscd front view with a broken-out section through the drawing mill with both of profile broaches and drawing dies.

Detai ! ed description of the embodiments of the invention Fig. 1 illustrates the cross-section view through the hollow tubular profile I according to the invention, where the said profile is made like a tube with either of inside and outside cross-section in the form of the regular dodccagon with rounded-off and concave edges and when the said form of the described profile I is formed Icnghtwisc into the steep lead helix as it is perceptible from two mutually diverse pictures of'identical profiles I in the axonometric view in the Fig. 2 and Fig. 3.

Fig. 4 shows in the cross-section the other following example of profile I by the presented invention made by mutually partially diverse form broach 2 and form drawing die 6 by the following Fig. 5. The basic selection of the internal and external shape of the final profile 1 is executed as an regular (six-cornered star) with bevelled apexes and rounded-off edges while the internal shape of the said profile has on all concave apexes cavities in the shape of the regular parallelogram.

The front view with the broken-out section from the Fig. 5 shows schematically the drawing mill arrangement for the production of shape profiles J according to the invention.

There is a thrust hearing 5 placed in the partially figured frame 4 containing a rotatable seated broaching bar 3 with the step 8. The said broaching bar 3 comprises on its end a coaxial seated form broach 2 placed inside of the shape profile i. The said profile I is made from a common tubular profile tube. There is pivoted the shape profile on the outside periphery of the form drawing die 7 comprising form blades 6 from hard metal Thcse said mentioned blades 6 forming the outside surface of the said shape profile 1. The arrows aside of the form broach 2 and form drawing dic 7 show the sens of their rotation and the arrows on the left side of the described figure shows the direction in what the drawing truck is moved through the just executed shape profile 1. All the described configuration can be also connecte conversely, it means the form drawing die 7 is placed round the rotating shape profile I and in its interior there is placed the form hroach 2 and concurrently both form drawing die and

form broach pertorm the rectilinear motion. Considcring to the magnitude of shape changes in the final look of the profile I as well as to its division and complexity there is also possible to makc the form broach 2 and the form driving die 7 as divided components consisting of at least two joined parts or at least two separate units. This solving enables to reach the final shape of the said profile 1 according to the invention gradually. That way of manufacturing enables to eliminate all undesirable mechanical damages during the process of the production.