DE19637575A1 - Standard pipe element for distributor stations - Google Patents

Abstract

The standard pipe element (11) is for modular distribution stations. It has straight tubular body (51), open at both ends, which defines a passage channel (52). The tube has a connection with a coupling part (57) at one end, and a second connector at the opposite end, with a complementary coupling part (53). The tubular body also has several side connector branches (12-14) with threads (66-68) and parallel directions of openings. The first coupling part has an inner thread, the second one has a matching outer thread, and at least one has a sealing ring (55), e.g. a polytetrafluoroethylene ring. A conical ring shoulder (54) on the tube side of the outer thread acts as sealing surface.

Description

The invention relates to a unified tube element for the modular construction of heating systems, ins especially for the construction of such distribution stations Heating systems, as well as such pipe elements included of the modular system, one built with the tubular elements te distribution station and the use of pipe elements.

Due to locally different requirements Distribution stations for heating systems still handcrafted according to the specifications of an individual design built. The connection conditions are from the district heating prescribed by utilities.

The distribution station as a central element of a Heating system has the task of hot water as heat transfer with the right temperature and the right one Provide quantity, this of course with economy should be as good as possible. To usually must be a heat taken from a district heating network sluggish, e.g. hot water, hot water or steam, so  are treated that in the to the individual heat ver users leading hot water flow of the desired Temperature and with a predetermined pressure in the requ amount flows. Such a distribution station along with a whole number of manifolds corresponding branches valves, pumps and from brisk necessary sensors on, over which a corresponding control device the desired Regulate operation. To monitor the process are additional display devices such as thermometers, pressure gauges ter or combined thermomanometers in large numbers to provide. The use of district heating requires regulation Technical variety to optimally use district heating use, that is to cool the heat transfer medium. To in Optimal control of the process for every operating case many sensors are required. Their number and Alignment is different for almost every distribution station.

In the manual establishment of such distributors stations are made from individually cut tubes pieces welded together. Be on the pipe pieces side openings for welding sleeves pulled out drills. This approach is not only expensive but moreover prone to errors. After the construction underlying plan for distribution stations mostly only related to the essential points of view remain Executing craftsman degrees of freedom in the attachment of elements that are sometimes considered less important, such as venting. He usually just puts them on a suitable place in the system, which is not always really suitable. In the wrong place placed ventilators, however, leave air in the heater system, which is then circulated with the hot water becomes. In addition to unwanted splashing noises thereby the effectiveness of the heating system.  

Finally, are built in a conventional manner Distribution stations and heating systems are often complex and cumbersome in maintenance and repair.

Based on this, it is an object of the invention a way to create heating systems and ins special distribution stations quickly and inexpensively build up. Possible errors are largely be reduced. In addition, emphasis is placed on maintenance and Ease of repair laid.

This task is accomplished through a standardized pipe element with the features of claim 1 solved.

The unified or standardized Rohrele ment has a straight tubular body with ends Connection or coupling means on each other are complementary. This allows similar Rohrele elements are strung together by the pipe elements with their coupling halves forming coupling means be interconnected. The coupling agent can both solder sleeves and other couplings, such as screw connections. The latter are because their simple assembly and because of their retrofit Alignment is an advantage.

The stem pipe of the pipe element has at least branch off two, preferably three or more, laterally de side connections on which pipes, fittings, Sensors, measuring instruments and the like can be connected are. The side connections are preferably also with an appropriate coupling agent, such as Internal thread. The nominal diameter of the sides connections is, for example, half the nominal diameter of the tubular body. The tubular elements form an endless extendable strand, the pipe elements of which are auxiliary are medium tight and can be rotated into any position. Through the  fixed length of the trunk tubes in a grid dimension the pipe system comes in a modular dimension.

The unified pipe element can be independent of with the concrete design of a distribution station given dimensions are prefabricated in large numbers. Due to the number of pieces, the production can be automated, wherein the tubular element in casting or pressing technology, for example. made of cast brass. Made in such a way blank are only at one end of the pipe Internal thread, at the opposite pipe end External thread and internal thread on the side connections to provide.

For assembly, the pipe elements, for example their externally threaded side with a PTFE ring are provided as a seal, so together screws that each have an external thread End of a pipe element in the ver with internal thread screwed end of another tubular element becomes. A PTFE ring as a sealant allows one any orientation of the side connections of neighboring Pipe elements to each other. It can be the side connections both in the same and in the opposite direction as well as be set at an angle to each other without that the tightness of the screw connection between the Pipe elements suffer from it. The reliability of that achieved individual seals is so high that despite the Large number of pipes in a distribution station elements and sealing points overall with high Si security a tight system is obtained. In addition the pipe elements can be glued together. The Connection is both as a pure socket-pipe connection as well as a glued screw connection.

To a defined system of the sealing ring between Two pipe elements can be obtained at one end  of the tubular element following the external thread Sealing shoulder should be provided. This serves as a seal surface and can be conical or flat. On on its other side, the sealing ring acts with a Ring surface together, which the internally threaded Surrounding the opening of the tubular element.

With the ready-made standardized pipe elements can a distribution station without or almost without Welding work to be set up. Appropriate accordingly existing pipe strands are made from individual pipe elements screwed together, which does not require any spacers are. The pipe strands thus obtained have a Large number of side connections on which the requ other fittings and branches can. Even after assembly can be done without welding Changes can be made at any time, for example by Plug removed and additional lines, sensors or the like connected or existing openings be closed.

It when the position of the Side connections and their distance from each other like this it is specified that it also has the screw connections adjacent pipe elements screwed together is constant. It is possible to use the pages to lay connections in a fixed grid dimension, which is possible if possible to be connected to the position of the connections Fittings or devices is matched. The length of the The main pipe and the position of the side connections is open other fittings, especially valves or jet pumps, Voted.

A corresponding modular system contains in addition a number of the tube elements mentioned advantageously se a selection of blind plugs with which the Pipe element at its ends and on its sides  is closable. The plugs are preferred wise self-sealing, so that the entire Distribution station can be manufactured using screw technology. A pre-assembled distribution station can be easily divided into parts be disassembled, for example for transport in buildings or through narrow building openings.

By building a distribution station according to the Define the grid dimensions of a modular system Assembly errors that are otherwise caused by doubts could set exact pipe lengths and the like, excluded or minimized. For example, gives the blueprint a distribution station before that one to a Saugan connection of a jet pump leading supply line on the the side branch of a pipe adjacent to the jet pump element is to be arranged, is the connection position of the feeding pipe precisely defined. That way For example, ensure that a vent ventilation device or air collection chamber formed by a tubular element and in immediate neighborhood of the suction connection of the jet pump is arranged. The arrangement of an air collection chamber Suction port opposite the jet pump, that is at a spatial distance of less than 20 cm the dissolved in the water and carried in bubble form Bubble out air at this point. The one with a vent air valve or a breather provided mer records this. As a result of the existing gerin pressure and not too high flow rate air has enough time from the water to the Vent chamber and it will not come with cracked. This creates air that is otherwise in the cycle would be removed, effectively removed.

Further features of advantageous embodiments of the Invention are the subject of dependent claims.

In the drawing, embodiments of the Invention shown. Show it:

Fig. 1 is a standardized using tube elements constructed distribution station of a heating system, in a schematic view,

Fig. 2 connecting tube elements of DISTRIBUT station of FIG. 1 in a schematic side view,

Fig. 3 is a standardized tubular element for the construction of distribution stations for the heating and tenansicht in Be and in a different scale,

Fig. 4, the unified tubular element according to FIG. 3 in longitudinal section,

Fig. 5 fen, the tubular element according to FIGS. 3 and 4 in specific-automated representation with a plurality of blind stop, on a different scale, and

Fig. 6 a using the unified pipe elements according to FIGS. 3 to 5 built distribution station for a hot water heating system with a hot water heated custom water tank.

description

The illustrated in Fig. 1 distribution station 1 belongs to a not further shown Warmwasserhei wetting system, which is supplied at a terminal 01 by a lead VL with hot water and 02 being cooled water is delivered to a return RL at its terminal. From the distribution station 1 , a single heating circuit with hot water of the desired temperature and the required pressure in the appropriate amount is fed via a flow line 5 . The flow line 5 is connected to a connection 04 of the distribution station 1 . The return from the heating circuit, not shown, is formed by a return line 6 , which leads to a connection 03 of the distribution station 1 .

The centerpiece of the distribution station 1 is a jet pump 7 , which is arranged in a first line 8 , on which the connection 01 is also formed and which is held vertically on a frame or scaffold hanging from a wall (not shown). Parallel to the strand 8 , a further strand 9 is held on the frame, which contains the connection 02 . Both strands 8 , 9 held at a distance from one another on the frame are composed of screwed, unitary tube elements 11 , each having three lateral connections 12 , 13 , 14 . Their position on the individual tube elements 11 is such that they are at least equidistantly spaced apart in the vertical direction and thus lie in a uniform grid.

The sockets 12 , 13 , 14 are used to connect branching lines, such as a suction line 16 , which connects the strands 8 and 9 to one another. With corresponding elbows 17 , 18 , the suction line 16 connects the lowermost connector 14 of the uppermost tubular element 11 in the strand 9 to the lowest connector 14 of the uppermost tubular element 11 in the strand 8 . The other connecting pieces 12 , 13 of the two upper tubular elements 11 of the strands 8 and 9 are closed by self-sealing blind plugs.

The regulated by means of a servomotor 19 jet pump 7 is connected to its suction port 21 by means of two union nuts and a connecting piece 22 to the lower end of the Rohrelemen tes 11 arranged in the line 8 above. A vent valve 23 is screwed into the opposite, upper end of the tubular element 11 . This can be manually operated or an automatic bleeder.

With its propellant connection 24 , the jet pump 7 is connected via a further connecting piece 25 to a further pipe element 11 arranged vertically below the jet pump 7 in the line 8 , the connections 12 , 13 of which are closed with self-sealing blind plugs.

In the nozzle 14 , a branching pipe 26 is screwed, which leads via an electrically controlled valve 27 to the connection 14 of an in the strand 9 to ordered pipe element. The other two connecting pieces 12 , 13 of this tubular element 11 are closed by self-sealing blind plugs, which also applies to all connecting pieces of the tubular elements 11 which are no longer required.

The strands 8 , 9 contain measuring and display elements 28 , such as. Manometers and thermometers, which, as is necessary, are provided on corresponding connections of the tubular elements 11 of the strands 8 , 9 . In addition, a variety of different sensors are net angeord on the nozzle, which are connected to the control device. Due to the large number of existing connectors, the sensors can be attached to any required location within a grid. As many sensors can be set as customers want.

A branching of the jet pump 7 output 29 carries external threads at its distal end 7 of the jet pump. On this, a tubular element 11 is screwed up, the nozzle 12 point upwards. Before the running line 5 is screwed into this neck, while the neck 13 is closed with a blind plug. The nozzle 14 is seen with a measuring the flow temperature and the flow pressure measuring instrument 31 ver. At the end, the tube element 11 in question is closed by a sensor 32 , which is connected to the control device (not shown). The sensor sits in a corresponding screw cap 33 , which is screwed directly onto the end of the tubular element 11 .

For further control of the heating circuit connected to the distribution station 1 , an electrically actuated line regulating valve 34 is arranged between the return line 6 and the line 9 and is guided by the control device. Additionally or alternatively, it can be manually operated.

In FIGS. 3 and 4, the tubular element 11 produced in mass production precisely and with uniform quality is shown separately. It is formed in one piece, for example from brass, and preferably consists of the same material as the fittings and the jet pump 7 present at the distribution station 1 . This allows a sort of pure metal detection without expensive material sorting when the distribution station 1 has had its day.

The preformed in casting or pressing technique Rohrele element 11 has a tubular base body 51 or a trunk tube, which or which is penetrated by a longitudinally through the channel 52 . At a lower end in FIG. 4, the base body 51 is provided with an external thread 53 which is delimited by an annular surface 54 on the base body side. This can be both flat and conical. On the external thread 53 there is a sealing ring 55 , which is made, for example, of PTFE and has a rectangular cross section. The cross section of the tubular elements 11 is designed according to the power requirement and is 1 '', 1½ '', 2 '' etc.

At the opposite end of the base body 51 is provided with an internal thread 57 which fits to the external thread 53 of the other end. The external thread 53 and the internal thread 57 thus form complementary or associated coupling means which serve to connect the tubular elements 11 to one another. Alternatively, the sealing ring 55 can sit in the provided with Innenge thread 57 section of the tubular element 51 .

At the upper end in FIG. 4 of the base body 51 , this is provided on the outside with a hexagonal profile 58 in order to allow the fitting of a wrench of suitable nominal width and thus to allow the targeted rotation of the tubular element and the tightening of the screw connection to a neighboring tubular element. The hexagonal profile can also be formed at another location.

On the base body 51 , the side nozzle 12 , 13 , 14 are integrally formed, the respective openings 61 , 62 , 63 lead into the channel 52 . Each opening 61 , 62 , 63 is surrounded by a flat surface 64 , which can serve as a sealing surface if necessary. Each nozzle 12 , 13 , 14 is each provided with an internal thread 66 , 67 , 68 . The nominal size of the openings 61 , 62 , 63 or the threads 66 , 67 , 68 is preferably half the size of the nominal size of the internal thread 57 . E.g. The internal thread 57 can be imperial and the respective internal thread 66 , 67 , 68 of a connecting piece 12 , 13 , 14 can be half-inch.

The openings 61 , 62 , 63 have such opening directions that the central axes 71 , 72 , 73 lie in a common plane. The distances A and B between the central axes 71 , 72 and 72 and 73 coincide with each other. The distances A, B also coincide with the sum of the distance C of the central axis 71 from an annular flat surface 74 provided at the upper end, which also serves as a sealing surface, and the distance D from the central axis 73 to the flat surface 54 plus an addition for the sealing ring 55 is measured. The dimensional allowance for the sealing ring 55 corresponds to the compressed sealing ring 55 when the tubular elements 11 are screwed together as shown in FIG. 2. As can be seen, the nozzles 12 , 13 , 14 lie here in a uniform, equidistant grid. The tube elements 11 thus form a modular system with which the distribution station 1 can be screwed together without welding work being necessary.

The modular system, as illustrated in FIG. 5, is supplemented by a set of blind plugs 81 , 82 , 83 with which openings which are not required can optionally be closed. The blind plugs 81 , 82 for the openings provided with internal thread carry a sealing ring and external thread. The blind plug 83 is designed as a screw cap. When using sealing rings as a sealing element and when tightening the blind plugs with a specified torque ( 30 Nm), they are reliably tight.

In addition, the modular system can include other tubular elements, the connections of which are twice or half the size of the connections of the tubular elements 11 .

To the modular system can also include prefabricated insulating pieces 84 , which are formed with two shells and have a recess 85 for receiving a Rohrele element 11 . The recesses 85 of the two shell halves result in the outer contour of the tubular element 11 .

The distribution station schematically illustrated in FIG. 1 is assembled as follows:
On a support rail frame attached to a wall of the room, for example, 11 strands 8 , 9 screwed together from individual tubular elements are attached. After the required alignment of the tubular elements with each other, the corresponding connecting lines 16 , 26 and the measuring and display elements 28 and other fittings are fastened to the connecting pieces 12 , 13 , 14 . The remaining nozzles 12 , 13 , 14 are closed with blind plugs. Connections 01 , 02 , 03 and 04 are also screwed on. After a necessary insulation with insulating pieces 84 and the electrical connection of corresponding elements, the distribution station 1 is fully assembled. If there are no gross assembly errors, the individual elements of the distribution station 1 are positioned in the correct place. This applies in particular to the degassing chamber formed by the upper tubular element 11 in line 8 . This is inevitably formed in that the suction line 16 is connected as intended to the lower connecting piece 14 of the respective tubular elements 11 in immediate vicinity to the suction port 21 of the jet pump 7 .

During assembly, regardless of whether the Forward should be arranged on the right or left, always using the elements of the modular system. This allows forward and reverse from left and right be exchanged without the manufacturing facilities something needs to be changed.

The distribution station 1 described so far works as follows:
At the connection 01 of the hot water supply, hot water is offered at high temperature and high pressure. According to the heat requirement in the downstream heating system, the control device, not shown, adjusts the jet pump 19 so that the hot water rising in the line 8 with a corresponding amount of cooled return water is mixed. This is mentioned on the suction line 16 ago. Flow water with the appropriate pressure and temperature is discharged via the flow line 5 .

In the area of the nozzle 14 , that is, in the immediate vicinity of the suction port 21 of the jet pump 7 , a low pressure is present, the return water flowing here relatively calmly. Air dissolved in water can therefore bubble out and entrained gas bubbles can rise and collect in the tubular element 11 . An automatic vent or the vent valve 23 allow the air to be discharged. The degassing chamber formed by the tubular element 11 is therefore not arranged at the highest point of the entire heating system, but rather at the suction connection of the jet pump 7 which is more suitable for this.

The pipeline 26 is used for the direct transfer of water from the supply to the return with low and very low power requirements.

In Fig. 6 a modified embodiment of a distribution station 1 'is illustrated. In addition to the strand 8, this contains two strands 9 a, 9 b connected to returns 6 a, 6 b, which are likewise formed from standardized tubular elements 11 and, if necessary, can be arranged in different planes. The tubular elements 11 and the connecting pieces 12 , 13 , 14 can thus be arranged in a spatial grid. The distribution station 1 'is used to supply two independent heating circuits via corresponding Vorlaufleitun gene 5 a, 5 b. E.g. can the one heating circuit radiator and the other heating circuit hot water heating contain th. Deviating from the Ver described above distribution station 1 is in the distribution station 1 'in the line 9 a another jet pump 7 ' arranged, the element via a line 91 and a corresponding connection 92nd is supplied with hot water as a blowing agent. In the strand 9 a vertically below the jet pump 7 'arranged pipe element 11 is closed at its top with a blind plug.

Slightly offset to the rear, that is, in Fig. 1 into the plane of the drawing, the strand 9 b is arranged, which is connected to the strand 9 a with a suction line 16 '. The suction line 16 'is in the immediate vicinity of the suction port 21 ' of the suction pump 7 'angeord net. A second transfer possibility of return water from the strand 9 b into the strand 9 a forms a line 93 which connects the tube elements 11 arranged at the bottom in the strands 9 a, 9 b in each case at their connecting pieces 14 . The strand 9 b is closed on its underside with the blind plug 83 .

Otherwise, the description of the distribution station 1 applies accordingly, with the exception of the statements relating to the venting or degassing chamber.

In particular for the construction of distribution stations for hot water heating systems, a standardized pipe element 11 is provided, the length and connecting dimensions of which are preferably matched to, or correspond to, frequently used fittings occurring in distribution stations, such as, for example, jet pumps or valves. The pipe element is a straight, continuous piece of pipe which is provided with an internal thread at one end and with an external thread at its opposite end. Branching off laterally, several, preferably three, nozzles are arranged, which are provided with an internal thread. On the otherwise one-piece tubular element 11 is a sealing element, preferably a PTFE ring 54 , angeord net, which seals the tubular elements 11 fluid-tight when they are screwed together.

The tubular elements 11 are preferably prefabricated in a predetermined size, which enables the construction of very different distribution stations in a broad range of services. Blind plugs 81 , 82 , 83 and insulating elements 84 complement the tubular elements to form a modular system with which distribution stations 1 can be constructed purely using screw and / or adhesive technology with few additional tubular elements.

Claims (25)

1. Unified pipe element ( 11 ) for the modular construction of heating systems, in particular for the construction of distribution stations ( 1 ) of such heating systems,
with a straight tubular body ( 51 ) which is open at both ends and defines a through channel ( 52 ), which has at one end a first connection provided with a first coupling means ( 57 ) and at its opposite end a second termination which is connected to a complementary to the first coupling means ( 53 ) is provided second coupling means ( 53 ),
wherein the tubular body ( 51 ) has a plurality of branching side connections ( 12 , 13 , 14 ) which are provided with threads ( 66 , 67 , 68 ) and which have opening directions ( 72 , 72 , 73 ) which are parallel to one another. 2. Pipe element according to claim 1, characterized in that the first coupling means ( 53 ) is an internal thread and the second coupling means ( 57 ) is a matching external thread. 3. Pipe element according to claim 1, characterized in that at least one of the coupling means ( 53 , 57 ) is provided with a sealing means ( 55 ). 4. Pipe element according to claim 3, characterized in that the sealing means ( 55 ) is a sealing ring. 5. Pipe element according to claim 4, characterized net that the sealing ring is a PTFE ring.   6. Pipe element according to claim 1, characterized in that in connection to the external thread ( 57 ) on the tube side serving as a sealing surface ring shoulder ( 54 ) is formed. 7. Pipe element according to claim 6, characterized in that the annular shoulder ( 54 ) is conical. 8. Pipe element according to claim 1, characterized in that the opening directions of the side connections ( 12 , 13 , 14 ) are set at right angles to a longitudinal direction ( 52 a) defined by the through-channel ( 52 ). 9. Pipe element according to claim 1, characterized in that the side connections ( 12 , 13 , 14 ) with respect to their positions in relation to the effective length of the tubular body ( 51 ) are set such that when several re same tubular elements ( 11 ) with each other are screwed, the center distances of the side connections ( 12 , 13 , 14 ) over the coupled coupling means ( 53 , 57 ) of adjacent pipe elements ( 11 ) are constant. 10. Pipe element according to claim 1, characterized in that the length of the tubular body ( 51 ) and the center distances of the side connections ( 12 , 13 , 14 ) are determined according to a modular system. 11. Pipe element according to claim 1, characterized in that the side connections ( 12 , 13 , 14 ) are mutually the same length. 12. Pipe element according to claim 1, characterized in that the side connections ( 12 , 13 , 14 ) are provided with an internal thread ( 66 , 67 , 68 ). 13. Pipe element according to claim 1, characterized in that each side connection ( 12 , 13 , 14 ) each has a connection opening which is surrounded by a seat surface ( 64 ) for a sealant. 14. Pipe element according to claim 1, characterized in that the seat surface ( 64 ) is a flat surface. 15. Modular system, in particular for the modular construction of distribution stations (l) of heating systems, the modular system comprising a plurality of mutually identical pipe elements ( 11 ) according to one or more of the preceding claims. 16. Modular system according to claim 15, characterized in that it contains blind plugs ( 82 ) which are assigned to the side connections ( 12 , 13 , 14 ). 17. Modular system according to claim 15, characterized in that it contains blind plugs ( 83 ) which are assigned to the first coupling means ( 53 ) of a tubular element ( 11 ). 18. Modular system according to claim 15, characterized in that it contains blind plugs ( 57 ) which are assigned to the second coupling means ( 57 ) of a tubular element ( 11 ). 19. Modular system according to claim 16, 17 or 18, characterized in that the blind plugs ( 81 , 82 , 83 ) are each provided with a sealing element. 20. Modular system according to claim 15, characterized in that it contains prefabricated insulating bodies ( 84 ) which, in the assembled state, have an interior ( 85 ) for receiving the tubular element ( 11 ). 21. Distribution station for a heating system, which is mounted using the tubular elements ( 11 ) or the building system according to the preceding claims. 22. Distribution station according to claim 21, characterized ge indicates that they are essentially screwdriving is mounted. 23. Distribution station according to claim 21, characterized in that it contains at least one ventilation chamber ( 95 ) which is arranged in the vicinity of a suction connection ( 21 ) of a jet pump ( 7 ) and which has a ventilation valve ( 23 ). 24. Distribution station according to claim 23, characterized in that the ventilation chamber ( 95 ) is arranged in a vertical direction, unified tube element ( 11 ), to the lower connection ( 53 ) of which the suction connection ( 21 ) of the jet pump ( 7 ) is connected and on whose lowest side connection ( 14 ) a line ( 16 ) for supplying return water to the suction connection ( 21 ) is connected. 25. Use of a tubular element ( 11 ) or a modular system according to one of the preceding claims for building a distribution station ( 1 ) of a heating system.