CS260864B1 - Fixation pile for horizontal reinforcing bars fixation during porous concrete elements production - Google Patents

Abstract

the needle is provided at the point of fixation of each rod linear retaining spring for pressing the rod to the side of the fixation needle, obstructed upper end on the fixing needle and provided with a catch at the lower end for carrying a rod, created by its deflection, wherein the bottom of the catch is shaped in an oblique downward direction to the fixing needle pointing slip

Description

BACKGROUND OF THE INVENTION The present invention relates to a fixing needle for fixing horizontal reinforcing bars, in the manufacture of parts, arranged in a vertical position in a vertical frame movable into a mold for casting the part.

In the mass production of reinforced concrete and concrete members, it is necessary to fix the reinforcement to the mold in which the members are cast.

For this purpose, a yoke and plastic spacers are currently used, which are fixed to the vertical metal fixing needles or to the reinforcement itself. When the aerated concrete is solidified, the fixing needles are pulled vertically, while the plastic elements remain in the panel and, if the horizontal is cut horizontally into narrower panels, the plastic elements are cut together with the aerated concrete.

A large number of stirrups of different dimensions and washers are needed in the manufacture of aerated concrete parts, but the fixing needles require only a relatively small amount. Plastic elements cannot be used in production technologies where the temperature of the material exceeds 70 ° C, because by this temperature they lose their mechanical, stability, cease to perform their function and the aerated concrete products are degraded.

Also used are rotating fixation needles, which have pins on the sides on which horizontal bars of reinforcement are laid, the rods having to be fastened to the fixation needles by clips. By rotating the fixation needles 90 around their axis after the aerated concrete has solidified, they can be removed from engagement with the reinforcement bars and pulled out vertically. The clips remain in the manufactured part.

In both cases, several workers are required to fix the reinforcement at the same time.

These drawbacks are eliminated with a fixing needle for fixing horizontal reinforcing bars of aerated concrete panels according to the invention, which comprises at the fixing point of each bar a linear retaining spring for pressing the bar to the side of the fixing needle attached to the upper end of the fixing needle and provided at its lower end, a rod-bearing catch formed by its bending, the lower portion of the catch being shaped obliquely downward to the fixation needle-facing chute.

The fixation needle of the invention eliminates the need for additional auxiliary elements such as yokes, spacers and clamps. There is no need to turn the fixing needles when pulling out of the aerated concrete part. The retaining spring is suitable for the whole range of products when properly sized and remains on the fixing needle.

Examples of fixation needles for fixation of horizontal aerated concrete reinforcing bars. FIG. 1 shows the angular fixation needle with a retaining spring without a bias for the rod, FIG. 2 the same fixation needle with a retaining spring provided with a bias for the rod, FIG. 3 a hairpin-shaped retaining spring, and FIG. 4 fixation needle of circular cross-section with retaining spring attached to the fixation needle by means of a collar.

A transverse groove 7 is formed on the vertical fixing needle 3 of the rectangular cross-section according to FIGS. 1 and 2, in which the bending of the retaining spring 2 for pressing the rod to the box of the fixing needle 3 is formed. The arms of the retaining spring 2 are directed downward and are supported under the groove 7 on the game pins 8 and the lower pins S lying lower than the upper pins 8. The upper pin 8 formed on the first side of the fixing needle 3 is coaxial with the upper pin 8 formed on the second side Fixing needles 3. The lower pins 9 are arranged in the same way. At the lower end, the retaining spring 2 is provided with a catch 4 for supporting the horizontal reinforcing bar 1 of the aerated concrete member. The catch 4 is formed by bending the retaining spring 2, wherein the lower part of the retaining 4 forms an inclined downwardly slope 10 towards the fixation needle 3. In the embodiment of FIG. 1, the retaining spring 2 is terminated by this chute 10;

and 3, the retaining spring 2 is terminated by an inclined ramp 5 following the chute 10 in that the lower end of the retaining spring 2 is bent in the opposite direction to the catch.

In the embodiment of FIG. 4, the retaining spring 2 is formed by a strip, at the upper end of which a sleeve 6 is provided, arranged in an engaging recess 11 on the fixing needle 3. The sleeve 8 is cylindrical of flexible sheet. Due to this design, the retaining spring 2 can be easily detached from and fixed to the fixing needle 3.

In the illustrated embodiments, the retaining spring 2 is formed by a strip, at the upper end of which a collar 6 is formed arranged in a tangential recess 11 on the fixing needle 3. The collar 6 is cylindrical of flexible sheet, vertically slit on the side facing away from the retaining spring. Due to this design, the retaining spring 2 can be easily detached from and fixed to the fixing needle 3.

In the embodiments shown, the retaining spring 2 is removable from the fixing needle 3, but it can also be fixedly connected to the fixing needle 3, for example by welding. However, a releasable connection is preferable, since the worn or destroyed retaining spring 2 can easily be replaced by another.

The retaining spring 2 is linear, thus formed by a longitudinal elastic member, for example a wire of circular or quadrangular cross-section or a strip. The retaining spring 2 may be simple, as in the embodiment of FIGS. 1 to 3.

The dimensions of the retaining spring 2 are chosen according to the weight of the reinforcement of the aerated concrete part, its material, its cross-section and possibly other requirements, for example in relation to the contact surfaces, its dimensions being determined by static calculation.

The fixing needle 3 according to the invention is operated as follows:

The fixing needles 3 with the retaining springs 2 attached thereto are placed in the frame. The reinforcing bars 1 are inserted from below between the fixing needle 3 and the retaining springs 2. The approach 5 facilitates this insertion very much since there is no need to deflect the ends of the retaining springs 2 from the fixing needle 3 by insertion as is the retaining spring 2 shown in FIG. 1.

After insertion, the rods 1, due to the elasticity of the retaining springs 2, remain inserted in the catches 4 and are pressed against the fixing needles 3 by the pressure springs 2. The rods 1 are thus firmly fixed.

After insertion of all bars 1, the frame with all the fixing needles 3 and reinforcing bars 1 is transferred into a mold which is filled with aerated concrete. After the aerated concrete has solidified, the fixing needles 3 are pulled upwards. In doing so, the rods 1 easily slip away from the retaining springs 2 from the retainers 4.

The fixation needle 3 according to the invention enables automation of fixation of the reinforcement of aerated concrete parts even if the reinforcement consists not only of horizontal bars, but also of mats with vertical bars connected to horizontal bars, it is therefore very suitable for mass, automated production of aerated concrete parts.

Claims (6)

Fixing needle for the fixation of horizontal reinforcing bars in the manufacture of aerated concrete, arranged in a vertical position in a vertical frame, movable into a mold for casting a part, characterized in that it has a linear holding spring (2) at the fixing point of each bar (1) for pushing the rod (1) to the side of the fixation needle (3j), fastened by the upper end to the fixing needle (3) and provided with a rod-bearing catch (4) formed at its lower end, diagonally down to the fixation needle (3) facing the chute (10). Fixing needle according to claim 1, characterized in that the lower end of the retaining spring (2) is bent in the opposite direction to the catch (4) into the inclined ramp (5) for the rod (1). Fixing needle according to Claims 1 and 2, characterized in that a collar (6) is provided at the upper end of the retaining spring (2), which surrounds the fixing needle (3). VYNALEZU Fixing needle according to claim 3, characterized in that the sleeve (6) is cylindrical, made of flexible sheet, vertically cut on the side facing away from the retaining spring (2) and the side parts of the sleeve (6j adjacent laterally to the fixing needle (3j). Fixing needle according to Claims 3 and 4, characterized in that the sleeve (6) is arranged in a tangential recess (11) on the fixing needle (3). Fixing needle according to Claims 1 and 2, characterized in that the retaining spring (2) is formed from a wire bent in the shape of a hairpin, the bend of which is located in the transverse groove (7) on the fixing needle (3) and each arm of which directed downwards, it lies between and is supported on the upper pin (8j and lower pin (9) and both upper pins (8) and both lower pins (9) are arranged simultaneously on both sides of the fixing needle (3).