SE516349C2 - Device for cooling room air - Google Patents

Abstract

An apparatus for cooling indoor air which comprises a horizontally extending primary air duct (11) having essentially vertical long side walls (15), at least one cooling coil (12) for room air and a mixing chamber (13) for primary and room air and openings (17, 23) for the flowing of circulation air into and from the room. The apparatus is characterized in that cooling coils (12) are provided with space outside and along one or both of the vertical long side walls (15) of the primary air duct (11), thus forming a long narrow room (13) constituting said mixing chamber which is defined upwards by an upper partition wall (14) over a projecting part of the primary air duct (11), towards the one side by the vertical long side wall (15) of the primary air duct (11) and towards the other side by the cooling coil (12) and downwards has a direct connection to respective openings (17, 23), which in turn has connection with the room. Each cooling coil (12) has openings (22, 16) provided for an essentially horizontal input air flow from the room and an output flow to the mixing chamber (13) of air cooled in the cooling coil (12), respectively. Openings (19) for primary air are provided in the upper partition wall (14) between the part of the primary air duct (11) projecting over the mixting chamber (13) and corresponding mixing chamber (13) so as to provide an input primary air flow to the mixing chamber (13) being parallel with the side of the mixing chamber (13) facing to the cooling coil (12) and thus also essentially perpendicular to the chilled room air flow streaming out from the cooling coil (12) and into the mixing chamber (13).

Description

20 25 30. o o o o: 516 349 effect or to allow inflow from above, this in turn necessary to enable an at least substantially horizontal outflow of air to the room. The object of the present invention is to provide a device for cooling room air which requires less construction height than with previously known devices which provide a horizontal air outflow, but provide the same flow technical advantages. It is thus of significant importance in modern buildings with a limited ceiling height to be able to offer such a device with a lower construction height but without any waiver of the flow technical effect. For this purpose, the invention is characterized by the features which appear from the appended claims.

The device according to the invention thus has cooling batteries arranged at a distance outside and along one or both of the vertical longitudinal walls of the primary conduit thereof. a long-narrow space is formed, which constitutes a mixing chamber for primary and room air (cooled) between each cooling coil and the vertical long-side wall of the primary air duct. The mixing chamber is bounded upwards by an upper partition wall towards a projecting part of the primary air duct, on one side of a side partition wall in the form of the vertical longitudinal side wall of the primary air duct and on the other side of the cooling coil. Downwards, each mixing chamber has a direct connection to the respective opening which is connected to the room. Each cooling coil has openings for substantially horizontal inflow of lu fi from the room and outflow of lu fi cooled in the cooling coil to the mixing chamber. Apertures for primary air are arranged in the upper partition wall between the projecting part of the primary chamber over the mixing chamber space and the respective mixing chamber to provide a primary air stream entering the mixing chamber parallel to the side of the cooling coil facing the mixing chamber space and thus also substantially perpendicular to the cooling chamber.

In a preferred embodiment, additional primary air openings are arranged in the vertical partition between the primary air duct and the respective mixing chamber.

Said further primary loop openings are preferably arranged obliquely downwards at a height with the lower part of the channel. The openings in the vertical partition wall preferably consist of nozzles which are adjustable to give different amounts of primary air per unit of time and / or angle of the air. The primary air openings in the upper partition wall preferably consist of nozzles placed with a pitch of 12-50 mm along the entire length of the cooling device.

In the device according to the invention, the cooling coils are placed standing with the circulating air openings on the side towards the traditional top. Normally, cooling devices of the type in question are designed so that, as indicated above, a chimney effect is desired which cooperates with the induction effect obtained through the primary lu supply.

By, as according to the invention, instead prioritizing and optimizing the induction, ie the ejector effect that can be obtained through the supplied primary lu fi current, and lu fi the distribution paths through the device through a minimized circulation lu fi channel, ie the mixing chamber space. optimal lu fifl flow is obtained without vortices and with the lowest practically possible pressure drop. As a complement to the “primary” primary air supply, from above into the circulation air duct, ie the mixing chamber unit space, adjustable air nozzles can be arranged further down closer to the lower part of the primary air duct in the vertical partition wall to the circulation air duct. These nozzles are mainly used for such control of the air out of the device which provides a substantially horizontal outflow of air along the ceiling in the room, but these nozzles can also be used for supplementing primary air in the event of requests for large primary air flows.

The invention will now be described in more detail with reference to the accompanying drawings, in which Figure 1 is a principle sketch of the device seen in a section from the side in the longitudinal direction, and Figure 2 is a principle sketch showing the function of an adjustable nozzle arranged in the device according to a preferred embodiment. .

Figure 1 shows a cooling device or cooling baffle according to the invention, here referred to as 10.

The cooling baffle 10 consists of a primary air duct 11 and cooling batteries 12 are arranged on either side thereof. In some cases, due to local requirements or wishes, the baffle 10 can be designed with a cooling coil 12 only on one side of the primary air duct 11. Between the primary air duct 11 and each cooling coil 12 there is a mixing chamber space 13, also called a circulating air duct, which is bounded by an upper, horizontally extending partition wall 14, a vertical partition wall 15 towards the primary air duct 12 and the cooling air duct 12. vertical, inwardly facing outflow part 16.

Downwards, the circulating air duct opens into an obliquely downwardly directed outflow duct 17 for air along the ceiling 18 to a space below the baffle 10. In the upper partition wall 14 there is a first set of downwardly directed primary air openings 19, which in a preferred embodiment are provided with nozzles certain predetermined division. The vertical partition 15 shows a second set of primary hatch openings 20, arranged obliquely downwards, in the form of adjustable nozzles with their upper and lower flow-conducting projections 20A and 20B, respectively. Each cooling coil 12 has a plurality of cooling lines 21 for water, arranged perpendicular to the flowing air 22 which is taken in through inflow openings 23.

When using the cooling baffle 10, the air flowing from the primary air duct 11 comes down through the upper openings 19 and thus a negative pressure is created in front of the discharge parts 16 of the cooling batteries 12. The higher the velocity of the air from the openings 19, the greater the negative pressure. In the circulation hatch duct (mixing chamber) 13, primary air from the upper openings 19 and cooled room hatch emanating from the outflow part 16 of the cooling coil 12 meet. without vortices and thus without any major pressure drop, since the minimized elongate space 13 favors flow close to and along the outflow portion 16 of the entire cooling coil 12. condition, ie without major vortex formation, the current will follow the curvature of the outflow channel 17 and then flow out in a horizontal fl desert along the ceiling in the room 18. Figure 2 shows a nozzle 20 seen in a section parallel to the vertical partition 15.

The figure shows the nozzle 20 in its neutral position 30 and in its outer positions 31 and 32, respectively. respectively 32, the primary hatch is turned to the left and right, respectively, as shown by the arrows 35 and 36, respectively.

In summary, the following advantages of a cooling baffle device according to the invention can be emphasized in comparison with previously known or proposed similar cooling baffles: 0 reduced construction height, since no gap is needed above the baffle, which can thus be mounted directly up to the ceiling. 0 reduced risk of dust soiling as no dust, which normally remains on surfaces, can settle on the batteries 0 optimal induction function by long primary air jet close to and along the entire vertical outflow section of the battery 0 minimized circulation air duct (mixing chamber) by the primary air jets can follow a vertical jet surface (on the primary air duct side) and control all flowed air without unnecessary and unwanted vortex formation 0 adjustable air nozzles (if applicable) inside the baffle for supplementing and controlling the air flow.

Claims (5)

10 15 20 25 30 516 349 6 Patent claims A device for cooling room air comprising a horizontally extending primary air duct (11) with substantially vertical longitudinal walls (15), at least one cooling coil (12) pre-flue air and a mixing chamber (13) for primary and room air and openings (17,23 ) for the flow of circulating air from and to the room, characterized in that the cooling coil or batteries (12) are arranged at a distance outside and along one or both of the vertical walls (15) of the primary air duct (11), forming an elongate space (13) constituting said mixing chamber, which is delimited upwards by an upper partition wall towards a projecting part of the primary air duct (11), on one side of the vertical longitudinal wall (15) of the primary air duct (11), and on the other side of the cooling coil (12) and downwards has a direct connection to the respective opening (17,23), which in turn is connected to the room, that each cooling coil (12) has openings (22,16) for substantially horizontal for the inflow of air from the room and the outflow of air cooled in the cooling battery (12) to the mixing chamber (13), that primary air openings (19) are arranged in the upper partition wall (14) between the part of the primary air duct (11) over the mixing chamber space (13). and the respective mixing chamber (13) to provide a primary air flow entering the mixing chamber (13) parallel to the side (16) of the cooling coil (12) facing the mixing chamber (13) and thus also substantially perpendicular to from the cooling coil (12) to the mixing chamber (13) flowing cooled room air. Device according to claim 1, characterized by additional primary air openings (20) arranged in the vertical partition (15) between the primary air duct (11) and each mixing chamber (13). The device according to claim 2, characterized in that the further primary air openings (20) are arranged obliquely downwards near the lower part of the duct (11). .. ... p n o o n o nu 0 0 0 a n I 9 c 516 349 Device according to claim 2-3, characterized in that said openings (20) consist of nozzles adjustable to give different amounts of air per unit of time and / or angle of the air. Device according to claims 1-4, characterized in that the primary air openings (19) in the upper partition wall (14) consist of nozzles placed with a pitch of 12-50 mm along the entire length of the cooling device.