FI127668B - Radiator with improved heating medium flow and method for improving the flow in a radiator - Google Patents

Abstract

The invention relates to an arrangement for controlling the flow in a radiator consisting of vertical and horizontal tubes and the drying radiator thus obtained. In a radiator with upper end connections with an inner tube extending to the lower end of a vertical pipe on the discharge side, the heating can be uniform. However, an air pocket is easily left at the top end of the vertical tube, and the lower horizontal tubes of tall radiators are poorly heated. According to the invention both the inlet side and the outlet side vesiyhteet placed in the vertical tube above the upper horizontal sides of the tube. In addition, the heat transfer medium outside the inner tube is prevented from passing above the plane which lies between the upper edge of the uppermost horizontal tube and one of the lower edges of the vertical tube.

Description

A radiator with improved heat transfer fluid flow and a method for improving the flow in the radiator

The present invention relates to an arrangement for controlling the flow in a coil, for example in a drying coil, and to the drying coil thus obtained, and in particular to a coil heated by circulating hot water, consisting mainly of tubes and often referred to as a towel coil.

The common towel radiator type has been known in various versions for a long time. The general principle is that there are usually a plurality of transverse, substantially horizontal pipe sections connecting said vertical pipes between two substantially vertical pipe sections. According to a conventional solution, the hot water supplied from the lower end of the second vertical pipe runs upwards of said pipe and along said cross-pipes to the second vertical pipe section and the water returns from its end.

There are situations in which it is expedient to arrange the water circulation of the radiator so that the incoming water, as well as the outgoing water, passes through the pipe connections at the upper end of the radiator. If the conventional radiator is arranged in this way, the flow only takes place through the upper cross-sections, while the lower cross-sections remain cold. It is clear that the operation of the battery will then be insufficient.

Solutions are known in which an attempt has been made to influence the internal circulation of the radiator by fitting an inner tube inside the normal tubes of the radiator, by means of which the flow can be directed to a certain part of the radiator. Examples of such solutions are given in EP-A-0 928 939 and 1 568 961 and in French-A-2842286.

Finnish patent 119,462 describes a radiator with upper end connections, in which an inner tube extending to the lower end of the vertical tube, the level of the lowest horizontal tube, is arranged on the outlet side. The arrangement makes the flow such that the radiator heats evenly.

In the solution of patent FI 119 462, the inlet and outlet connections are both at the upper ends of the vertical pipes.

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For aesthetic reasons, radiators have been introduced in which the connections remain covered behind the vertical pipes when the radiator is viewed directly from the front. Usually the radiator is intended to be mounted on a wall. In this case, if the connections are at the upper end and act as upper brackets and the wall brackets at the lower end of the radiator are located behind the vertical pipes, the radiator gives a symmetrical impression. The connections, which usually act as upper end fasteners, are then located below the top horizontal tube.

When used as an inner tube in accordance with EN 119 462, the outlet side of the upper end of the vertical pipe is easily air pocket. Nevertheless, the arrangement works satisfactorily when the number of horizontal tubes is low. Instead, when the height of the coil is increased and there are more horizontal tubes, a situation arises where the water does not flow evenly so that the temperature of the lowest tubes is the same as that of the others, but these tubes remain lukewarm. In other words, the lower pipes leave water that moves poorly and whose temperature may also be below what is required for a hot water circuit to prevent the growth of harmful microbes such as legionella.

The purpose of the radiator according to the invention is to solve a problem specifically related to a radiator in which the connections for incoming and outgoing circulating water are at the top of the radiator and on the side of the vertical pipe. For such a radiator, it is impossible to obtain effective heating over the entire area of the radiator when the radiator is high. In this case, the water circulation in the lowest horizontal pipes is incomplete and their temperature remains too low.

The object of the present invention is to provide a battery solution which does not have the above-mentioned disadvantages. This is accomplished by placing both the inlet side and the outlet side of the water connections, the connections sides of the vertical pipe above the upper horizontal pipe. The second vertical tube has an inner tube, the lower end of which is open and the upper end of which has a flow connection to the connection in said vertical tube. In accordance with the invention, said vertical tube prevents the passage of heat transfer medium outside the inner tube above a plane located between the upper edge of the uppermost horizontal tube and the lower edge of the one in the vertical tube. The vertical tube preferably has a partition wall at said level with a lead-through to which an inner tube extending to the lower part of the vertical tube joins.

Preferably, the arrangement according to the invention is implemented by fitting a sleeve inside the pipe at the upper end of said vertical pipe, the outer diameter of which substantially corresponds to the pipe.

20155940 prh 11-12-2015 inner diameter and the lower edge of the sleeve of which is located between the lower edge of the vertical tube and the upper edge of the upper horizontal tube. The lower end of the sleeve is provided with a connection to which an inner tube extending to the lower part of said vertical tube is connected; otherwise the lower end of the sleeve is closed. An opening is arranged in the wall of the sleeve at one point.

The invention will be explained in more detail below with reference to the accompanying drawings in which

Figure 1 shows a prior art battery,

Figure 2 shows a front view of an embodiment of a radiator according to the invention,

Figure 3 is a side view of a radiator according to the invention, and

Figure 4 shows a front view of another embodiment of a radiator according to the invention.

The internal structure of the radiator is shown in broken lines. In the figures, the corresponding parts are marked with the same numbers.

The prior art radiator 1 according to Fig. 1 consists in a conventional manner of two substantially vertical pipe sections 2 and 3, one of which is supplied with heating medium and the other of which leaves the radiator. The flows in the figure are illustrated by arrows. In the following description, terms referring to the conventional water cycle are used, although the medium may, of course, be more than water.

The inlet water connection 4 is placed on the wall of the vertical pipe 2, on the wall side of the room, whereby it also acts as a wall bracket for the radiator. Reference numeral 7 denotes transverse flow channels, conventionally horizontal pipes, and the flow is intended to flow from the inlet connection 4 through the horizontal pipes 7 and the inner pipe 8 to the outlet connection 9. Deaeration valves 5, 6 are connected to the system in a conventional manner. The inlet connection 4 and the outlet connection 9 are located between the planes of the uppermost and second uppermost horizontal pipes.

The upper end of the inner tube 8 is connected to a part 10 at the upper end of the vertical tube 3 with a deaeration valve 6. The outlet connection 9 is passed through the walls 30 of the vertical tube 3 and the inner tube 8 at the same level as the inlet connection.

It has been found that with the arrangement described, as the height of the coil increases, the flow of the lowest horizontal tubes becomes insufficient and their temperature too low.

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Figure 2 shows a radiator according to the invention. In it, the inlet and outlet connections (4, 9), which act as wall brackets at the upper end of the radiator, are both located in the walls of the vertical tubes above the level of the upper edge of the upper horizontal tube 7.1. On the discharge side, in this embodiment, the passage of water in the vertical pipe 3 is blocked by the partition wall 11, so that water can only pass above the partition wall through the inner pipe 8.

In the embodiment shown in Figure 2, a sleeve 12 is arranged at the upper end of the vertical tube 3, inside it, the outer diameter of which substantially corresponds to the inner diameter of the vertical tube 3. The wall of the sleeve 12 has an opening 13 at the outlet connection. The lower end of the sleeve 12 is located in a plane between the upper edge of the upper horizontal tube 7.1 and one of the lower edges 9. The lower end of the sleeve is otherwise closed to form a partition wall 11, but it has a connection, for example an internally threaded opening, through which the inner tube 8 is passed. The upper ends of the vertical pipes 2 and 3 have deaeration valves 5, 6. The inner pipe 8 can extend to the upper end of the vertical pipe, whereby there is an opening 14 in the wall of the inner pipe.

Figure 3 shows how the water flow (indicated by arrows) passes from the lower end of the inner tube 8 to its upper end and exits the radiator through the sleeve 12 and the opening 13 to the outlet connection 9.

Unlike the radiator according to the prior art, the arrangement of the radiator according to the invention provides a flow which is evenly distributed in the horizontal pipes even in high radiators. The horizontal tubes all reach essentially the same temperature.

In the embodiment shown in the figures, the side with the inner tube extending to the lower part of the vertical tube is the outlet side. According to the second embodiment shown in Fig. 4, said inner tube is on the inlet side, and the other side is on the outlet side. The flow is thus inverse with respect to the embodiment shown in Figures 2 and 3.

The radiator according to the invention is made of a suitable material, which for aesthetic reasons is often a chrome-plated copper tube in such objects. Other materials are not excluded in any way.

The radiator according to the invention is preferably intended for wall mounting. In this case, the inlet outlet connections preferably act as wall brackets at the top and other wall brackets at the bottom. The connections are then preferably located on the wall-mounted side as shown in the figures, but can in principle also be located elsewhere on the outer circumference of the vertical pipes.

Claims (6)

Claims: A radiator (1) comprising vertical tubes ( 2, 3) and horizontal pipes (7) between them in which 5 runs a heat transfer medium, the radiator having a heating medium inlet connection (4) arranged at the top of the second riser (2) and an outlet connection (9) arranged at the top of the second riser, and an inner tube (8) at the top of the riser (3). flow connection to the connection (9, 4) in the vertical pipe and the lower end of which is open and extends to the lower part of the vertical pipe (3), characterized in that The inlet and outlet connections 10 are located above the upper edge of the upper horizontal tube (7.1), and the side provided with the inner tube (8) prevents the passage of heat transfer medium outside the inner tube (8) above a level above the upper horizontal tube (7.1) ) at the bottom. A radiator according to claim 1, characterized in that it comprises a sleeve (12) arranged at the upper end of a vertical tube (3) with an inner tube, the outer diameter of which substantially corresponds to the inner diameter of the vertical tube (3); the lower edge of which extends to a plane between the lower edge of the vertical tube and the upper edge of the upper horizontal tube (7.1); having a closed lower surface (11) provided with a bushing to which the upper end of the inner tube (8) 20 is connected; and having an opening (13) in the wall at the outlet connection (9). A radiator according to claim 1 or 2, characterized in that it is adapted to be mounted on a wall, and the inlet and outlet connections are located on the side of the radiator which is mounted on the wall. 4. A method for arranging a flow in a coil comprising vertical and horizontal tubes into which the heat transfer medium enters and exits through an inlet connection in a vertical tube and in which one vertical tube of the coil has an inner tube extending to its lower part, characterized in that 30 passage of the heat transfer medium outside the inner tube above a plane located between the upper edge of the uppermost horizontal tube (7.1) and the lower edge of the one (9) in the vertical tube. A method according to claim 4, characterized in that the inner tube extending to the lower part of the vertical tube is on the outlet side. A method according to claim 5, characterized in that the inner tube extending to the lower part 5 of the vertical tube is on the inlet side.