SE533400C2 - Device for the treatment of room air - Google Patents

Abstract

The beam has nozzles for discharging fresh air flow supply outside an air supply chamber, where the fresh air flow discharges an air flow circulation outside a room by a heat exchanger (10). The heat exchanger is used for cooling and heating the air flow circulation. The heat exchanger has different heat exchanger modules connected to each other to form a heat exchanger structure and a beam structure of desired length. The modules constitute a tube module (14a1), intermediate modules (14a2, 14a3) and a terminal module (14a4).

Description

20 25 533 400 The heat exchanger cools the circulating air and when the air has cooled it sinks down to a living zone in the room.

According to this application, a heat exchanger construction of modules has been formed. The modules have differently realized that the length and the customer of a device can thus, at the tailor-made pre-selected a desired combination length, no longer need a different construction for each device. Thus, a considerable saving of time and work is achieved at different levels and becomes more advantageous. Each basic module or heat exchanger module the total cost of the device has pipes and slats or the like for transferring heat from the air via the slats to a heat transfer medium flowing inside the pipes or in the opposite direction. The so-called module construction also comprises connection modules and end modules as well as inlet or pipe modules.

According to the invention, there are different heat exchanger modules of lengths, i.e. different length end modules and center modules and also different types of pipe connection modules and pipe modules. With a pipe connection module, nm modules of different lengths can easily be connected to each other without welded joints or the like. The invention also includes an embodiment where a welding or soldering joint is used instead of a connection module between modules to be connected to each other. The device according to the invention in the treatment of room air is characterized by what is stated in the claims.

The invention is described in the following with reference to some advantageous embodiments of the invention shown in the figures in the accompanying drawings. however, that is not the intention. to limit the invention only to these embodiments.

Figure 1A shows a cross-sectional view of a device according to the invention in the treatment of room air.

Figure 1B shows another advantageous embodiment of a device according to the invention in the treatment of room air.

Figure 1C shows a device for treating room air; a so-called passive beam.

Figure 2 shows an axonometric view of a heat exchanger according to the invention, assembled by modules for a supply air device.

Figure 3 shows a schematic overview of a circuit connected to a heat exchanger for circulating a heat transfer medium.

Figure 4 shows a heat exchanger module according to the invention with the modules separated from each other before assembly.

Figures 5A and SB show a so-called connection module, by means of which heat exchanger modules to be connected to each other can be connected to each other releasably during the assembly of the entire heat exchanger construction.

Figure 6 shows a table of formation of a modular construction according to the invention for achieving different length and construction variations. Figure 1A shows a basic view of an embodiment of a supply air device according to the invention where a modular construction according to the invention is used. According to Figure 1A, a device 100 in the treatment of room air comprises a supply air chamber 11, to which fresh air is led from outside through a pipe system (not shown). The fresh supply air is led from the supply air chamber 11 through nozzles 12a1, 12a2 ... to a mixing chamber S next to a heat exchanger 10, a fresh supply air flow J1 led through the nozzles l2a1, l2a2 inducing a circulating air flow J; to flow from a room through a heat exchanger 10. The circulating air flow J2 is either cooled or heated with the heat exchanger 10.

Figure 1B shows another embodiment of a supply air device according to the invention. A flow J1 of fresh supply air is led upwards from a supply air chamber 11 through nozzles l2a1, 12a2 ... and this flow J1 induces a circulating air flow J; to flow from a room Ii through a heat exchanger 10a1, 10a2 and further to the flow J1 of fresh supply air. The combined air flow JL + J2 is caused to flow upwards and further to the side from the device and back to the room space H. The circulating flow J2 of room air is either cooled or 103.2.

Figure 1C shows a passive beam for applying the invention. the beam 100 comprises a The passive heat exchanger 10 and is mounted near the ceiling in a room space H or the like. The heat exchanger is indicated in Figure 1C by the reference numeral 10. The air heated in a residence zone in the room space II rises up to the passive beam 100 and passes over the heat exchanger 10 as shown by an arrow J; and is thereby cooled back in the heat exchanger 10 and then sinks down to the can stay zone. During SOmmärên the circulating air flow J; cool with the heat exchanger 10.

The heat exchanger 10 is also in this construction composed of modules, whereby the heat exchanger modules depending on the length of the passive beam 100 can be selected in the desired manner to obtain the desired length of the heat exchanger for the respective room application.

Figure 2 shows a heat exchanger 10 assembled according to the invention of modules 14aM 14a2, 14a3, 14a4 10. Figure 3 shows a schematic view of a heat transfer circuit. The heat transfer circuit has branch points A4, A2 on a pipe system 13 for a heat transfer medium, whereby the heat transfer medium is circulated by means of a pump P '. through heat exchangers l0a1 and 1Oa2. According to the invention, the heat exchangers 10a1, 10a2 are composed of modules.

Figure 4 shows a modular heat exchanger 10.

The heat exchanger comprises modules l4ah and 14a5. 1.452, the module 14a1 is a tube module, 14a3, 14a4 the modules 14a2 and 14a3 are center modules and the module 1444 at the other end is an intermediate spirit module. the modules are used pipe connection pieces or connection modules l4ay The pipe connection pieces l4a5 are pieces which are provided with sleeves in which the ends of the pipes to be joined can be inserted, whereby a tight connection is formed without the use of soldering or welding between the pipes.

However, the module 14a5 in question can also be replaced by welding. By selecting nwduler l4aL length and type, ..l4a5 of desired device assemblies of desired length is obtained.

Figures 5A and EB show a schematic and principal view of the use of a connection module 14a5. Figure 5A shows a modular structure in connection with a frame R. Figure SB shows a separate view of the modular structure 148.2, 1433 AND 11, The modular structure is assembled according to Figure SA so that it is supported by the body R in the supply air device 100. connected to the body by means of connecting pieces 14a5 and their attachment to the body. The connection module 14a5 comprises one or more pipe or sleeve portions 50. The modules are attached to the body of the device 100 with a connecting part 51 on the connection module 14a5.

Figure 6 shows a table of the different modules B and C according to the invention comprising different lengths L1, L2, L3, L4, L5 ... Ln. the modular construction. Modules A comprise pipe types T1, T2 ... Tn, Modules A are so-called pipe modules l4a1. The modules B are center modules 14ah 1433 and the nm modules C are so-called end modules l4a @ each module can be used a module D, Mellan which is a so-called connection module l4a5 which occurs in the form of different types M1, Mß..Mn. The modules can have several different lengths and / or different dimensions of the pipe diameter.

There are different types T1, T2 ... of pipe modules A, whereby for example the connection directions for the pipes can vary in the different types and of these a desired type can be selected for different purposes. A suitable combination of modules A, B, <2, D can always be selected for the respective application to form a desired device.

Claims (1)

533 400 Patentlcav A device (100) for treating room lock fi in a room space (H), which device (100) comprises a supply air core carrier (1 1) with nozzles (l2a1, 12a2 ...) or a nozzle slot (12), a heat exchanger (10) , l0a1, l0a2) and a body (R), wherein a supply air flow (J;) is caused to flow out of the supply air chamber (l1) through the nozzles (l2a1, l2a2 ...) or the nozzle gap (12), which supply air flow (11) a circulating air flow (Iz) to flow from the room space (H) via the heat exchanger (l0a1, 10af, 10) where the circulating air flow (Iz) is cooled or heated, after which the circulating stirrer (12) is combined with the supply air flow (J1) and the flows out of the device, wherein the heat exchanger (10, 10a1, 10a2) consists of pipes and lamellae for transferring heat from the heat via the lamellae to a heat transfer medium flowing in the pipes or in the opposite direction. in that the heat exchanger (10, 10a1, 10a2) is constituted by a modular construction, which comprises: - a pipe module (l4a1) for connecting the heat exchanger (10, 10a1, 10a2) to a pipe system (13) for the heat transfer medium, which pipe module ( is selected by a set of pipe modules (14a1) for connection to different pipe types (T 1, T2, ..) and connection directions, - an end module (14a4) which forms a closed circuit for the pipes in the heat exchanger (10, 10a1, 10a;), which end module (l4a3) is selected from a set of end modules (14a3) of different lengths (L1, L2, ...), at least one center module (l4az, l4a3) between the pipe module (l4a1) and the end module (l4a4), which center module (14a2, l4a3) ) is selected by a set of center modules (14az, 14a3) of different lengths (L1, I4 ...), the tubes in the row module (14a1), the center module (14a2, 14a3) and the end module (14a4) being connected to each other by means of a weld. or solder joint, and the heat exchanger (10, 10a1, 10a2) thus obtained by modules is connected to the body (R), wherein a heat exchanger exchanger (10, 10a1, 10a2) and a device (100) for treating room air in a pipe space (H) of desired length is achieved.