DE4124507C1 - Panel radiator for heating public transport vehicles - comprises top and bottom flues and parallel vertical channels and uses externally heated water flowing in heating channel - Google Patents

Abstract

The radiator uses a partly filled closed heating circuit on the hot pipe principle, and is made up of tp and bottom flues linked by parallel vertical channels at right angles to the two headers. A heating channel is also flowable with externally heated hot water pipe conductively joined to the bottom radiator flue. The system channels (11-13) are of copper, heat conductively joined to an aluminium radiation heating surface (17). Water serves as a heating medium and the bottom flue (12) is formed from the outside pipe (14a) of a double pipe (18) whose inner pipe (14b) forms the hot water channel (15). USE/ADVANTAGE - Omnibuses. Water heating medium flows through noncorroding copper pipes so only heat passes from these to aluminium radiation surface in low cost environmentally acceptable design.

Description

The invention relates to a panel radiator, in particular for buses, according to the preamble of claim 1.

Such panel radiators are used to pass over the alien heatable heating duct created heat to a large distribute radiating surface, for which the principle of the so-called Heat pipe is used.

Heat pipes are known. Below is an evacuated, hermetically sealed cavity of good heat-conducting Understood material with an evaporative and condensable heat transfer medium filled to a fraction is. At the hot point of the heat pipe, at the over the Heating channel is supplied with thermal energy, this evaporates Heat transfer medium and spreads quickly inside the Heat pipe. At the heat emitting points of the heat pipe the evaporating medium condenses and condenses releasing its heat to the wall of the heat pipe. The Condensate creeps through capillary action and gravity back to the heat supply points of the heat pipe.  

A known panel radiator of the type mentioned (DE 31 44 089 C1) consists of a two-layer design Part composite laminate, e.g. B. made of aluminum, in which Heat pipe duct system through characteristics in one layer is realized. The heating duct is U-shaped and runs parallel to the lower collecting duct. Between the heating duct and heat pipe duct system is a wider one in the laminate Leave the stripes up to the mutual flat position of the Heating duct on the back of the heat pipe duct system bent over and permanent and heat-conducting on the contact sides is connected, e.g. B. by furnace soldering or heat conductive Bonding. The heat pipe duct system is usually included CFCs filled to a fraction.

The generally known environmental intolerance of CFCs a switch to a more environmentally friendly heat transfer medium in the Heat pipe duct system, primarily water offers. However, it has been shown that with water filling and corresponding degree of evacuation of the channel system pitting the aluminum surfaces occurs. By appropriate changeover the manufacturing material for the panel radiator, for. B. on Stainless steel, these corrosion phenomena can be avoided, but the manufacturing costs increase in an unacceptable Way.

The invention has for its object a To create panel radiators of the type mentioned, the operated in an environmentally friendly manner with the heat transfer medium water is and is inexpensive to manufacture.

The task for a panel radiator is the one in the preamble of claim 1 defined genus according to the invention by the Features solved in the characterizing part of claim 1.  

In the panel radiator according to the invention Heat transfer medium water conducted in copper pipes, the are not susceptible to corrosion by water, and the heat of the heat transfer medium water is through the copper pipes Heat conduction on the still existing aluminum Transfer heat radiation surface of the panel radiator. The Water no longer comes with the good thermal conductivity Aluminum surface of the panel radiator in contact. in the Comparison to the manufacture of the panel radiator Stainless steel is the manufacturing cost for the invention Panel radiators much lower. Through training of the lower collecting duct as a double pipe with an internal one Heating tube, the construction volume of the panel radiator becomes small held and is not larger than that of the known Panel radiators.

The invention is based on one shown in the drawing Embodiment described in more detail below. Show it:

Fig. 1 is a side view of a cut-off at the top of the heating panel,

Fig. 2 is a plan view of the heating panel according to the arrow II in Fig. 1,

Fig. 3 is a section along the line III-III in Fig. 2,

Fig. 4 shows a section along the line IV-IV in Fig. 2.

The panel radiator for the passenger compartment of buses and coaches, which can be seen in side view in FIG. 1 and in plan view in FIG. 2, has a hermetically sealed duct system 10 , which consists of an overhead collecting duct 11 and a bottom collecting duct 12 and a large number of them there are transverse vertical channels 13 which are parallel to one another and which are connected at the ends to the two collecting channels 11 , 12 . The individual channels 11-13 of the duct system 10 are made of copper tubes, with the lower collecting channel 12 is formed by the outer tube 14 a of a copper double tube 14, the inner tube 14 b a Heizwasserkanal 15 is coupled to the cooling water system of the engine of the bus connectable is. The outer tube 14 a, b at both of its end faces to the outer wall of the inner tube 14 toward dichtgelötet while the inner tube 14 b is open at the front and here connecting bushes 16 supports, via which the Heizwasserkanäle 15 can be connected to each of a plurality of surface heaters in one behind the other stringing.

The channel system 10 is filled to a fraction with water with a corresponding degree of evacuation and is connected in a heat-conducting manner to a large-area radiation surface 17 made of aluminum, which forms the front of the radiator, in order to radiate the heat energy extracted from the heating water. The mechanical fastening of the duct system 10 and the heat coupling of the duct system 10 to the radiation surface 17 takes place essentially by means of pipe clips 18 which are U-shaped in cross section and which grip the vertical tubes 13 in a form-fitting manner almost over their entire length and with brackets 19 protruding at right angles on the back of the radiation surface 17 are attached. The vertical tubes 13 lie directly on the radiating surface 17, and this contact point and the interlocking clamps 18, there is a good thermal contact between the vertical pipes 13 and the radiating 17th In addition, the double pipe 14 is also fastened to the back of the radiation surface 17 by means of two pipe clamps 20 arranged at a distance from one another. The pipe clamps 20 are designed similarly to the pipe clamps 18 , but have a larger inner diameter in the U-shaped part and a significantly smaller axial length in accordance with the larger outer diameter of the double pipe 14 . The pipe clamps 18 , 20 are fastened to the radiation surface 17 by riveting, spot welding, soldering, gluing or the like. The connection is made so that there is good heat transfer from the pipe clamp 18 or 20 to the radiation surface 17 . The individual copper pipes are connected to each other by soldering.

Claims (4)

1. Flat panel radiators, in particular for buses, with a duct system that works according to the heat pipe principle, hermetically sealed and filled to a fraction with a heat transfer medium, each consisting of an upper and lower collecting duct and a plurality of transverse ducts running parallel to one another and parallel to one another at the ends are connected to the two collecting ducts, and to a heating duct which is in heat-conducting connection with the lower collecting duct and through which externally heated heating water can flow, characterized in that the ducts ( 11-13 ) of the duct system ( 10 ) are formed by copper pipes which have a radiation surface ( 17 ) made of heat-conducting aluminum, that water is used as the heat transfer medium and that the lower collecting duct ( 12 ) is formed by the outer tube ( 14 a) of a double tube ( 18 ) consisting of coaxial tubes ( 14 a, 14 b), the Inner tube ( 14 b) the heating water duct ( 15 ) represents. 2. Panel radiator according to claim 1, characterized in that the thermally conductive connection between the copper pipes ( 11-13 ) of the channel system ( 10 ) and the radiating surface ( 17 ) is made by pressing, riveting, spot welding, soldering, gluing or the like. 3. Panel radiator according to claim 2, characterized in that the vertical copper pipes ( 13 ) in each case in an almost over the entire axial length of the copper pipe ( 13 ) extending, in cross-section U-shaped pipe clamp ( 18 ) substantially positively received and the Pipe clamps ( 18 ) are attached in a heat-conducting manner under the vertical copper pipes ( 13 ) to the radiation surface ( 17 ) on the rear side thereof facing away from the passenger compartment. 4. Panel radiator according to claim 2 or 3, characterized in that the double tube ( 14 ) by means of at least one U-shaped cross-section, the double tube ( 14 ) positively enclosing pipe clamp ( 20 ) on the radiating surface ( 17 ) on its rear side facing away from the passenger compartment is attached thermally.