NL8104321A - Water heating boiler - has part of solar-heated circuit inside insulated tube in upper boiler half with downward flow through circuit - Google Patents

Abstract

The boiler (1) is intended for heating water by heat exchange with tube coil (20,21) of a circuit (18-22) connected to a solar collector and containing a heat transfer liquid. The boiler has heat-insulated top (2), bottom (3) and side walls (4), and water supply (15-17) and delivery connections (12-14) and contains a vertical tube (5) in heat-insulating material at sample distance from the sides (4). This tube is open at both ends (6,7), extends to near the top (2) and surrounds part (20) of the circuit (18-22). Above its lower end (7), the boiler contains up to half (9) its total volume (9,10) whilst at least one delivery connection (12) is arranged above, and at least one (13,14) below the level of this tube end (7). About half (20) the heat transfer surface is within the tube (5) and the liquid flows downwards through the heat exchanger (20,21).

Description

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Boiler with different drain zones

The invention relates to a boiler with water, which is at least largely heated therein by heat-exchanging contact with a range extending through the bioliferous liquid-pipe circuit, which is connected to at least one solar heat collector for heating the liquid, which boiler contains a heat-insulating top, bottom and vertical circumferential wall and is provided with liquid and water supply and discharge connections, as well as with an altbans largely standing pipe made of heat-insulating material all around the inside of the boiler circumferential wall. 10 is provided at the bottom with an opening and the top end of which extends close to the boiler top wall is open, which section with radial distance gives part of the said liquid line circuit path.

Boilers of this type are known, in which the aforementioned 15 practically extends from the bottom of the boiler, that is to say over the entire boiler arc, the heat exchanging surfaces of the path of the heating liquid pipe circuit extending through the boiler mainly through the lower pipe section - which for this purpose is a widened chamber is surrounded, and the liquid heated in the collector is fed upwards from below and thus heats the water first of all in the bottom of the chamber - ie in the widened area at the bottom -. This then ascends into the chamber and further up the tube. Initially, the heated water will rise in the tube and the water will exit at the top. The water will gradually be displaced, starting at the top of the boiler, by water rising from the bottom and falling down from the top of the house.

Sr therefore a heating of the boiler water takes place from top to bottom. In the tube of the intended, known boilers, openings are furthermore arranged at the side. The rising water can hereby leave the tube leg sideways, insofar as the temperature of the locally surrounding water has the same temperature.

The difficulty with boiler water heating by means of a liquid, which is heated in solar heat collectors, exists 8104321 Ο) '> 11 3 5> 9 1 Ο 0 y 1 ’; ) 0 1; ^ '* 1 Ο Ο) 1 J> 1 1) ϊ η ι ι)) ΐο) ΐο ο ι 5 113)>'> 1 »000 00 Τ '» 01 10 0) 1 -2- herein, which in a toiler of reasonable water consumption capacity, the water temperature usually does not reach the level required for the intended purposes. Although, due to the above-mentioned heating from above, in the known boiler of the type mentioned in the preamble, some improvement is achieved compared to the boiler without the use of an internal riser, that is to say through the layers from top to bottom. finding heating, or at least some water with a higher temperature becoming available, the highest attainable temperature level in the upper boiler section 10 proves to be disappointing in moderate sunshine.

The object of the invention is now an improvement, as a result of which the highest achievable water temperature in the upper boiler section is higher, and thus such a boiler reliably has a higher efficiency of hot water, in particular for consumption purposes.

For this purpose, a boiler of the type mentioned in the preamble according to the invention is further characterized in that the fully open bottom end of the upright tube is at a height, above which at most about half of the boiler content is located and the boiler peripheral wall contains at least one hot water tap above that tube below end 20 and i & a below, while that tube surrounds at least about half of the heat exchange area of said path of the liquid line circuit, said circuit being arranged for substantially downward flow of that path through the , solar heated liquid.

The described layer-wise heating from above thus concentrates considerably reinforced in the upper boiler section with at most half the contents of the water. Due to this smaller amount of water - compared to the total boiler capacity - faster and higher heating takes place. The purposefully applied countercurrent principle of the straining of the heated liquid in the range of the liquid line circuit located in the boiler relative to the flow of the heat-rising tube. heating water, boiler water, and because an important part of the total heat-exchanging surface of that liquid pipe circuit pathway is located in the interior of the pipe, the heat from the liquid is moreover certainly considerably more complete in the water of the boiler, so that an important improvement in efficiency is achieved in this respect as well.

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Depending on the sun conditions and the intended diff. purpose of use for the boiler water, another choice of vessel concerns the pipe length.

In the lower part, the rest-5 of the heated liquid is almost completely delivered to the surrounding boiler water. As a whole, compared to the hitherto known embodiments, there is a comparatively larger temperature difference between the most heavily heated water at the top of the boiler and the more moderately heated water. The highest attainable water temperature in the boiler in any case is not significantly higher.

A further important advantage of the invented boiler consists in the fact that as the solar intensity decreases, for example in the evening, the less hot liquid introduced into the interior of the boiler than before can practically have no lowering distortion on the water temperature at the top of the boiler.

In this connection, in accordance with the invention, it is important that, in further detail of the inventive concept, the liquid line from its liquid supply connection at the top of the boiler is made heat-insulating up to the level of the pipe top end.

20 Qm to ensure even better separation of temperature between the upper part of the boiler - which is intended for supplying the heated boiler water, in particular for consumption purposes - and the lower boiler part, without of course breaking the communication between the two boiler parts, according to the invention it is also possible for the pipe bottom end to protrude around a collar which partially bridges the distance to the inner side of the cylinder pulling edge.

In order to stratify, i.e. layered heating of. furthermore, according to the invention, it is also possible, according to the invention, to promote the boiler water as much as possible in the lower boiler section and to prevent mixing of the layers with different temperatures, which are therefore decreasing downwards. portion of the heat exchange surface of the said liquid line circuit path extending in the boiler, which is not surrounded by the tube, at decreasing heights gradually going further away from the vertical boiler axis on average. Thus it is promoted that the heat exchange "from the liquid to the boiler water in the lower boiler section 8104321 3. - "> 3, 3 - · 0 JO» 3 i J »-3 3 3 * yt 1 - 'O 3'). <Ί

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τ O v J -j ··> 5 3 -j O'30'j O '»oo oo O -J o -1 + - op- - in top view - placed slightly side by side for the different downward falling temperatures takes place.

If, on the other hand, that heat exchange were to take place at directly superimposed locations, this would occur from vertical currents and thereby promote the mixing of the boiler water in the lower boiler section.

Drainage at different heights is thus also possible in the lower boiler section, as well as trouvens in the upper boiler section, of course, as the tap location at the circumference of the boiler is higher, the water temperature will also be correspondingly higher,

The disturbance of the layered temperature build-up in the boiler is further prevented, in accordance with a further measure according to the invention, when the cold water supply connection at the bottom of the boiler is provided with a large number of fine spray openings spread over a considerable part of the bottom wall surface. . Preferably, those cold water spray openings at the bottom of the boiler are then on the inside of the boiler bottom wall, that is, they are ribbed downwards.

The invention will be further elucidated, with reference to the token, in which an embodiment of a boiler according to the invention is shown schematically only by way of example for the invention.

The single figure of the token shows an upright boiler constructed according to the invention. This is generally denoted by reference numeral 1 and filled with water. The boiler is bounded by a heat-insulating top 2 and bottom wall 3 and a heat-insulating circumferential wall 1+. A vertical pipe 5, also consisting of heat-insulating material, is mounted on the inside of the boiler on 30, unspecified in the drawing. The pipe is on its top end 6 extending close to the boiler top wall 2 and on its bottom end 7. completely open and has a wide horizontal distance to the inside of the boiler perimeter wall 1+. A collar 8, also made of heat-insulating material, protrudes around the tube at the bottom end 7, obliquely downwards.

This bridges in part by the distance just mentioned.

The portion 9 of the internal space of the boiler located above the level of the collar 8 is in the present case 8104321. ί * "> J Ο j · * i» * · · 2. · 2 5> "- i / J) g; 3 7 ^ 7 1:>>> 1 *. i j ”7 -. *» ** · * ·? 9>! * 3 * * -5- over kQt% of the entire boiler capacity. The bottom part of the boiler interior is indicated with the reference number 10.

With reference numerals 11 and 12, 13, 1¼, 5 drain connections, respectively, are shown in the drawing. indicated in the top edge 2 and the circumferential edge k of the boiler 1, with the bypass valves being omitted.

The reference numeral 15 denotes the cold water supply connection in the boiler bottom wall 3. This discharges into a spray piece 16, which extends over a large part of the inside of the boiler bottom 3, which has a large number of small nozzles 17 on its underside, i.e. on the inside of the boiler bottom 3, i.e. facing down.

The reference numerals 18, 19, 20, 21 and 22 denote a part 15 of a liquid circulation circuit connected to a solar heat collector system - which is not further shown in the drawing. The liquid is kept therein in the arrow direction shown in the figure, as far as necessary, using a circulating pump which is likewise not shown in the drawing.

20 The heating of that liquid area in the solar thermal generator and of that circuit. The heat accumulated in the liquid in the circuit parts 20 and 21 is intended to be released by heat exchange to the water in the boiler.

The feed line section 18 contains an expansion device at the top, at the reference numeral 23, and enters horizontally, at the reference numeral 2 at the top, through the boiler periphery from the boiler 2k. A thermometer is indicated by 25.

The branch 19 following on from branch 18 is provided with heat insulation 2β all around from the boiler circumference of the boiler at reference number 2k to the open pipe top 6.

The branches 19, 20 and 21 together form the path of the aforementioned liquid line circuit extending through the internal boiler spaces 9 and 10 which lie within the boiler. The branch 20, in the present case indicated by scbematiscb, has been used for ample heat exchange of the heat from the liquid heated in the voile heat collectors with the water 27 contained within the tube 5 around the branch 20, in order to obtain this water 27 to heat and 8104321 1? -} t it; ο ·> ·} ο ο * 3 · *> 1 1 -V ··) i'i · »Ο 1) α ο ο J> ο ί ι · ϊ) * · ί> -j 4: j *» * > Ο “> Τ>? -> Ί * '> - - -) -6- to rise in the tube to exit the open top at the top of the reference 6 and the colder water located down the tube 5 at the top of the boiler downward to crowd out.

There thus finds one. intensive heating by the hottest arriving liquid from the upper part 9 of the contents of the boiler, with a temperature gradually decreasing downwards. Thus, the hottest consumption water is drawn off from the drain connection 11 and slightly less hot consumption water at the drain connection 12.

The residual heat of the liquid in the above-mentioned range 19, 10, 20, 21 of the liquid line circuit is then released into branch 21. This is in heat-exchanging contact with the lower part 10. of the internal boiler room. The exchange device - also schematically indicated in this case as windings - gradually moves from the level of the collar 8 downwards, as shown in the drawing, gradually from the central heating area of the boiler to the side, to indicate at reference 29 steps and transition there into the conduit section 22 which returns to the solar thermal collector system.

The aforementioned collar 8 at the bottom of the tube 4 also helps to separate the higher heated upper boiler content area 9 from the less warm, lower boiler retention section 10 without insulating the communication between the two aforementioned boiler content sections 9 and 10. . It is clear that via the drain connections 13 and 10 shown in the figure. 1 ^ less hot water can be drawn off, for example for use purposes, such as in particular also for heating purposes.

The invention is of course not limited to the exemplary embodiment shown in the drawing, which is described above, but numerous variants are possible with respect thereto, within the scope of the invention.

8104321

Claims (6)

1. Boiler with water, which is at least largely heated therein by heat-exchanging contact with a range extending from the boiler-of a liquid pipe circuit, which is connected to at least one solar heat collector for heating the liquid, each boiler a heat -insulating "top, bottom and vertical circumferential edge and is provided with liquid and water supply and drainage connections, as well as a stand-up tube, at least largely spaced around the inside of the boiler extension, from heat-insulating material, is provided at the bottom with an opening and 10 of which the top end extending near the boiler top wall is open, each tube having a radial distance part of the said liquid pipe circuit section amped, characterized in that the open end of the standing tube is in an arc, above this there is approximately the half of the boiler contents and the boiler extract of at least one heating vessel that has a tapping connection above that tube bottom end and e & i below, while that tube is at least approximately half the side of the heat dissipation surface of said section of the liquid line circuit, said circuit being adapted for substantially downward flow of that section through the solar-heated liquid. Boiler according to claim 1, characterized in that the liquid pipe from its liquid supply connection at the top of the boiler is heat-insulating up to the level of the pipe top end. 3. Boiler as claimed in claim 1 or 2, characterized in that at the tube bottom end protrudes around a collar which partially bridges the distance to the inside of the boiler peripheral wall. 4. Boiler according to at least one of the preceding claims, characterized in that the part of the heat exchange surface of the said liquid pipe circuit extending in a decreasing arc gradually decreases from the pipe end to the bottom of the boiler and does not surround the pipe, surrounded by the pipe. removed from the vertical boiler center line. Boiler according to at least one of the preceding claims, characterized in that the cold water supply connection at the bottom of the boiler 35 is provided with a large number, over a considerable part of the 8104321 ο: ο -ν »· 'ο ·> · ι >: · 3 ν '·· *' - ° '* ·. -> ι οι. ο ι ο ι - * ~ I '- .. · ·'> • Ό -> 3} 3J -5 0 '· ’0 .---)' -8- boiler bottom wall surface scattered fine nozzles. 6. Boiler according to conelusion 5 », characterized in that the cold water spray openings at the bottom of the boiler are directed inside the boiler bottom. r 8104321