PL219621B1 - Collector of process air - Google Patents

Description

Description of the invention

The subject of the invention is a collector of process air, i.e. air flowing through the ground exchanger, which has been treated, especially thermally. The collector and the ground heat exchanger are embedded in the ground, whose geothermal energy resources have been used to change air parameters.

The collector directs the process air to the building's ventilation system.

From the Polish patent description No. 119 749 entitled A "cooling and heating device" is known as a collector placed in the ground. It is made of conductors in the cross-section of a circle and is laid in a layer of soil with a good thermal conductivity coefficient, and is connected to the collecting chamber of the cooling device. However, this collector does not ensure contact of the air flowing in it with the ground.

A collector with a ground heat exchanger is also known, described in the application of the invention No. PL-378 424. The collector, shown in cross-section in Fig. 1, according to this application is designed to supply process air from the surrounding environment to the ground heat exchanger, while located in on the other side of the exchanger, the same collector discharges the air after treatment in the exchanger, e.g. to an object. The air is supplied to the collector from the air intake, and it is led out from the other side of the exchanger through a collecting duct.

The disadvantage of the exchanger and collector known from PL-378 424 is that the collector is structurally based on the exchanger plate and is not suitable for independent operation, i.e. when it is not connected to the exchanger.

The object of the invention was to provide a manifold for a process air flow system with high efficiency and simple assembly technology and low operating costs, which could be designed, assembled and possibly used independently of the heat exchanger.

According to the invention, a process air collector embedded in the ground has been developed, limited by the ground plane constituting the process air flow plane and by an elongated air distributing element, which element has a convex shape in a cross-section of a segment of any curve, characterized in that the air distributing element has two longitudinal edges based on on the ground plane and is adapted to bear the load of the ground above it, the element having openings and / or channels to allow the flow of the process air.

The air distribution element may have the shape of a segment of a circle in its cross section.

Preferably, the air flow plane is a ground plane covered with a stabilizing mesh on a gravel bed.

Alternatively, the air flow plane may be a ground plane covered by an openwork foundation slab, preferably of reinforced concrete or concrete.

The air distributing element can be made of metal, possibly of polypropylone and / or thermoplastic material.

The inner surface of the air distributing element is preferably lined with a coating of an antistatic and / or antibacterial agent, and inside the element there are pressure, humidity and air flow rate sensors, while an axially and longitudinally extending humidifier can be disposed on the air flow plane along which the source extends. ultraviolet radiation and iodine micronutrient dispensers are arranged.

The air distribution element preferably has openings above the plane-contacting edge, possibly channels extending to an edge touching the airflow plane.

The main advantage of the collector according to the invention is the spatial arrangement of its air distribution element, which gives technological and strength advantages. The fact that both edges of the support are seated on the plane of the air flow makes the collector self-supporting.

Due to such spatial arrangement of the air distribution element, open and / or closed openings (channels) are made in its side surface in an appropriate number and shape, enabling air to flow through the element. In turn, it is preferable to line the inner surface of the air distribution element with a coating of an antistatic and / or antibacterial agent, and to use temperature, pressure, humidity and flow rate sensors, such as

The use of a humidifier and a source of ultraviolet radiation, as well as iodine micronutrient dispensers, enables the regulation of technological parameters of the process air.

The construction of the collector and the method of its construction and operation are simple and cheap.

The subject of the invention is shown in the drawing in which: Fig. 2 shows a cross-section through the manifold according to the invention, in the case where the element has the shape of a circular sector, and the plane of the process air flow is made of an openwork foundation plate; Figure 3 is a cross-sectional view of the air distribution member with an additional support member not falling within the scope of the invention; Fig. 4 is an axonometric view of the air distribution element in its raised position with the apparatus in place; Fig. 5 shows the way of mounting the element base in the guide; Fig. 6 shows a section of a cross-section of an element with additional coatings; Fig. 7 shows a side view of the air distribution element mounted in the air flow plane and the openings or channels formed therein.

The process air manifold according to the invention shown in cross section in Fig. 2 is as a whole delimited by a substrate plane constituting the process air flow plane C and an "upper", preferably replaceable, self-supporting elongated air distribution element 13.

Due to the construction material used, e.g. metal or possibly polypropylene and / or thermoplastic material, and the size of the collector, the element 13 takes various shapes, i.e. it has the shape of a convex section of any curve 1.3.1 or the shape of a section of any figure 1.3.2 and is bounded on the side of the air inlet D by the support edge marked on cross-section A and the opposite edge of the backrest marked on cross-section B.

Fig. 3 shows an example of any curves 1.3.1 with dashed lines - this is a segment of a circle 1.3.1.1 or a segment of an ellipse 1.3.1.2, and the segments of a figure are a segment of a rectangle 1.3.2.1 or a segment of a triangle 1.3.2.2.

In the figures, the process air flow plane D of the collector is marked with the letter C. The plane C can be formed by the ground surface 1 covered with a stabilizing mesh 4 embedded in the construction mesh 3, as in the known solution shown in Fig. 1. In the case of different air treatment technologies, the same plane C can be made of an openwork foundation slab 10 as a reinforced concrete and / or concrete slab with openings 10.1, as can be seen in Fig. 2. The technological construction of the C plane depends on the method and method of collector operation and technological requirements imposed on the process air parameters D.

In an exemplary embodiment, when the cross-section of the element 13 has the shape of a sector of a circle, edge A rests on plane C and edge B rests on plane C.

As can be seen in Fig. 7, in the element 13 supported on both sides on the plane C, closed or open openings 11 or channels 12 are made to allow the passage of a certain amount of air.

Fig. 6 further shows the development of the inner surface 18 of the element 13, which is lined with a coating of an antistatic 19 and / or an antibacterial 20.

The technological requirements imposed by the standards for air D require embedding in element 13 an appropriate number and appropriate technological locations of sensors 22 - temperature, pressure, humidity and flow rate of this air D.

Also in the same figure 4 it is shown how the humidifier 23 is seated axially and along the element 13 and on the plane C, along with the ultraviolet radiation source 24 and the iodine micronutrient dispensers 25.

In the collector according to the invention, the entire load of the soil, i.e. the ground, is carried by the element 13, therefore a special method of embedding the two edges 26 of the element 13 in the feet of the C-rail 15 was used. The guide 15, as shown in Fig. 5, includes expansion-sealing elements 16, which allow controlled movement of the foot 26 under load, while maintaining the water-tightness and the stability-stiffness of the element 13. Depending on the position of points A and B, the guide 15 can be mounted indirectly on the spacer 14, preferably T-shaped and / or other load-bearing structure, e.g. a reinforced concrete footing for points B.

The process air collector is used in the climatic zone of Poland and neighboring countries.

Claims (8)

Patent claims 1. A process air collector embedded in the ground, bounded by the ground plane constituting the process air flow plane and by an elongated air distribution element, which element has a convex shape in a cross-section of a segment of any curve, characterized in that the air distribution element (13) has two longitudinal edges based on the ground plane (C) and adapted to bear the load on the ground above it, the element (13) having means selected from the group consisting of openings (11) and channels (12) to allow the process air to flow. 2. Collector according to claim The element as claimed in claim 1, characterized in that the element (13) has the shape of a sector of a circle in cross-section. 3. Collector according to claim The method of claim 1, characterized in that the plane (C) is the ground surface (1) covered with a stabilizing mesh (4) on a gravel bed (2). 4. Collector according to claim The method according to claim 1, characterized in that the plane (C) is the surface of the ground (1) covered with an openwork foundation slab (10), preferably of reinforced concrete or concrete. Collector according to claim The method of claim 1, characterized in that the element (13) is made of metal, possibly of polypropylone and / or thermoplastic material. Collector according to claim The method of claim 1, characterized in that the inner surface (18) of the element (13) is lined with an antistatic (19) and / or antibacterial (20) coating, and inside the element (13) there are sensors (22) for pressure temperature, humidity and flow rate and a humidifier (23) extending axially and longitudinally, along which a source of ultraviolet radiation (24) extends and iodine micronutrient dispensers (25) are disposed on the plane (C). Collector according to claim A method as claimed in claim 1, characterized in that the holes (11) are provided in the element (13) above the edge contacting the plane (C). 8. Collector according to claim A method as claimed in claim 1, characterized in that the channels (12) in the element (13) extend to the edge contacting the plane (C).