DE3018043A1 - Heater for reinforced concrete - melts ice and snow by using resistance heating wire embedded in concrete block - Google Patents

Abstract

The heater consists of a resistance wire (2) embedded in the concrete and fixed to the reinforcing bars (7). The resistance wire forms loops and runs in parallel lengths across the concrete. The resistance wire has a lead sheath and is connected to connectors (3) connected to the external supply wires (4) -- parts of which are also embedded in the concrete. The connectors are also embedded. The heater is especially for concrete stairways and other surfaces used for walking to keep such surfaces free of ice and snow.

Description

Description The invention relates to a prefabricated building element that can be walked on, preferably made of reinforced concrete, in particular a step or platform with cladding.

The steps or the pedestal plates of house entrances form if they are icy or deeply snowed in winter, a significant source of danger. the The use of Streusal-z-only partially reduces the risk, as it has a thawing effect only starts some time after spreading. In addition, road salt fails very much low temperatures and at great depths of snow. A mechanical one is therefore often used Tried removing the ice or snow. However, it is easy especially with high-quality stairs or platform plates made of natural stones or a high-quality facing layer can damage the surface this layer.

Otherwise, the high-quality surface can be damaged also come with the use of salt, since the chemically aggressive salt solution both destroys the stone material as well as the concrete.

It is the object of the invention to provide a prefabricated building element that can be walked on, preferably from reinforced concrete to indicate on which the formation of a layer of ice or snow reliably prevented, or in the case of a gentle removal of one already existing ice or snow layer can be taken care of.

The object is achieved in that the prefabricated element has a heating conductor for electrical heating. By equipping the prefabricated element with a heating conductor, it is easy and simple to heat it up to the point where that there is no formation of an ice or snow layer, or that after formation a layer of ice or snow can be gently defrosted. Switching on of the electrical current is optionally carried out by hand using a thermocouple temperature monitor or by a timer.

There are already electrically heated bridges and airfield runways known, but no prefabricated elements in standard sizes are used here. The known electrical heating systems are individual structural measures with a heating conductor laying in pipes or the like, so that of these Use cases cannot be deduced from the precast part application. the Concrete block industry is an industry that cannot be compared with the civil engineering industry can be.

In an embodiment of the invention it is provided that the heating conductor is poured. This results in a particularly favorable construction of the prefabricated structure elements, in which the heating conductor is completely protected and also in the -Transport and cannot be damaged during loading.

In addition, there is a particularly good, lossless heat transfer Reached by the heating conductor on the prefabricated element.

In a further embodiment of the invention it is provided that the heating conductor is attached to the reinforcement and in particular rests on part of the reinforcement. In this way, the introduction of the heating conductor is in a precisely defined Zone of the prefabricated element particularly simple.

The horizontal course of the heating conductor can also be used can easily be fixed. In addition, the reinforcement also ensures an advantageous Distribution of the heat in the prefabricated element, so that it is due to the laying the reinforcement an advantageous equalization of the surface temperature of the Prefabricated component results.

In a further embodiment of the invention it is provided that the heating conductor is laid in the form of a closed loop, being inside the loop runs in parallel tracks. By laying in a closed.

This loop with inner parallel paths results in another one Improvement of the heat distribution in the prefabricated building element. In addition, the Prefabricated element only one exit point for the heating conductor or its supply lines on.

In a further embodiment of the invention it is provided that the heating conductor has a lead sheath. Through the lead jacket, which may still be covered with plastic a particularly good heat transfer from the heating conductor to the concrete is achieved, In addition, the heating conductor is insensitive to damage and cannot to be kinked so easily.

In a further embodiment of the invention it is provided that the heating conductor via fixed sleeves that are cast into the prefabricated building element that can be walked on, with its electrical lead is connected. By using solid sleeves and not screw or plug connections, the operational reliability of the heating conductor is advantageous elevated.

The sleeves are specially protected by the co-pouring, so that all sensitive parts of the heating conductor system, namely the heating conductor and - its connecting sleeve with the supply lines are located within the prefabricated element. Only the supply lines that have a standard length and are lacquered are located outside the prefabricated componenti, so the high level of immunity to interference of the electrical Heating conductor system, which is necessary because of the impossibility of repairs, achieved. The impossibility of repairs, the prefabricated element would have to be used for repair purposes The main obstacle so far was the heatable prefabricated building elements with cast-in heating conductors.

In a further embodiment it is provided that when laying in precast concrete stages laying in 4 parallel heating conductor tracks takes place, which are located between 2 and 4 cm below the surface and between themselves have a distance of about 7 cm. By the invention The installation depth and the conductor spacing according to the invention result in an optimal one Surface heating of the stage using a relatively short and simple to be laid heating conductor. It is provided9 that the 4 heating conductor tracks are advantageously arranged somewhat asymmetrically in the step, since the rear part the step is partially covered by the step above, the heating conductor are therefore relocated more towards the front towards the front edge of the step0 In development the invention is provided that the length load W / m of the heating conductor between 15 and 40 W / m, but in particular 30 W / m. This length load This is advantageous for standard heating loops with a heating conductor length of 3.4 m the stage heating with the lowest power consumption0 The power consumption of a normal level is only 100 watts. For heating an external staircase with 5 steps so only a heating power of 500 watts is necessary. The necessary heating power is significantly less than if the ~ heating conductor was not laid optimally, e.g. in two Continuous laying pipes running in the longitudinal direction of the steps, the heating-up time takes only 30 - 60 minutes depending on the outside temperature, In development the invention is further provided that the exit point of the supply lines laterally on the back of the step or platform plate, in particular next to the support is. In this way, a particularly cheap and protected installation of the Reach feed lines that are led along the step support. So are the supply lines are protected and can be routed at the same time.

The invention is explained in more detail with reference to drawings that show a show particularly advantageous embodiment and from which further details are removable.

The figures show in detail: Fig. 1 a step in the Top view, FIG. 2 shows a longitudinal section through a step, and FIG. 3 shows a partial view a step or a platform.

In fig. 1 denotes 1 the step and 2 the cast-in conductor loop with the individual parallel conductor tracks 2 ', 2 ", 2"', 2 "" of the closed Heat conductor cables. The heating conductor loop 2 ends at the sleeves 3 in which they is connected to their leads 4.

The parallel heating conductor tracks 2 'to 2' '' 'are advantageous somewhat moved to the front of step 1.

This takes into account that the back of the step is through the leading edge the step above or covered by the front edge of the platform plate is. The two feed lines 4 leave the stage 1 at the entry point 5, they advantageously have a standard length and are so long that they can also be used for larger ones Stairs do not have to be extended. They are e.g. 5 nl long. The supply lines for the individual steps are bundled into the building.

Fig. 2 shows the stage 1 on its support 6. The stage is with a reinforcement 7 provided, e.g. structural steel mesh, on its upper, in particular 3 cm below the surface, the heating conductor 2 is fixed in place is.

In Fig. 3, which is a partial section through a step or platform plate with Vlorsatzschale shows, 8 denotes the facing shell, which is a component represents the stage. The heating conductor. is placed directly on the reinforcement and fixed there in a manner not shown. Otherwise, the stair step is made or the platform plate in the usual way.

The invention is not limited to steps and platform plates. It can also be used for all prefabricated elements. For example also pedestrian walkways etc. with prefabricated building elements in the form of accessible flats Mistake. These plates can also be used advantageously with the heating system according to the invention be provided.

Claims (10)

Attachment to the patent application Electrically heated, accessible prefabricated building element Claims 1. 3-accessible prefabricated construction element, preferably made of reinforced concrete, in particular A step or platform with a facing shell, which is not possible It is indicated that it has a heating conductor (2) for electrical heating. 2. Prefabricated component according to claim 1, d a d u r c h g e -k e n n z e I ne t that the heating conductor (2) is cast. 3. Prefabricated component according to claim 1 or 2, -d a d u r c h g e k e nn z e i h n e t that the heating conductor (2) is attached to the reinforcement (7) and in particular rests on part of the reinforcement (7). 4. Prefabricated component according to claim 1, 2 or 3, d a d u r c h g e k It is noted that the heating conductor (2) is in the form of a closed loop is relocated. 5. Prefabricated component according to claim 1 ;, 2, 3 or 4, d a -d u r c h it is noted that the Xeizleiter (2) within the loop in parallel running tracks (2 '- 2' '' '). 6. Prefabricated component according to claim 1,?, 3, 4 or 5, since -d u r c h it is noted that the heating conductor (2) has a lead sheath. 7. Prefabricated component according to claim 1N 2, 3, 4, 5 or 6, d a d u.r c h g e k-e n n z e i-c h n e t that the heating conductor (2) has fixed sleeves (3) that are poured into the accessible prefabricated element - (i), with its electrical Feed line (4) is connected. 8. Prefabricated component according to claim 5, d a d u r c h g e -k e n n z e i c h n e t that when laying in concrete prefabricated stages, laying in four parallel heating conductor tracks (2 '- 2' '' ') between 2 and 4 cm below the surface and a distance of approx. 7 cm. 9. Prefabricated component according to one of the preceding claims, d a d u r c h e k e n e i c h n e t that the length load W / m of the heating conductor (2) between 15 and 40 W / m, but in particular 30 W / m. 10. Prefabricated component according to one of the preceding claims d a d u r c h e k e n n n z e i c h n e t that the exit point (5) of the supply line (4) laterally on the back of the step or platform plate, in particular next to the support (6) is. - Description -