DE3048870A1 - Buried heat collector for heat pump - has pref. metal tubular casing and inner plastics tube with helical deflector in annulus - Google Patents

Abstract

A heat collector for installing in the ground, esp. for use in conjunction with a heat pump, is designed for a heat carrier fluid to flow through it, removing heat from the soil and/or ground water. The collector comprises basically a fully enclosed vessel having a large area/vol. ratio and fitted with inlet and outlet, pref. both at the accessible end, and with deflectors inside it to cause the heat carrier fluid to follow a long path through the collector. In a pref. embodiment the collector has the form of a long, pref. steel tube, with a concentric, internal, thin tube, esp. of thermally insulating material, more specifically plastics. The inlet pref. leads into this inner plastics tube, the liq. discharging at an opening near the bottom where the tube is anchored to the end cap of the casing, and the liq. then returning up the outside guided by a helical deflector blade.

Description

"Heat collector"

The invention relates to a heat collector for installation in the ground, whereby the temperature of a heat transfer medium which has been reduced by the collector passes through the heat contained in the ground and / or groundwater can be increased, in particular for feeding a heat pump.

In recent times it is more and more common to heat buildings Used heat pumps. The heat pump is one based on a reversal of the Carnot process working machine arrangement in which heat is supplied by the supply of mechanical work an existing temperature level is raised to a higher temperature level. The smaller the difference by which the temperature level has to be raised, the more economically the heat pump works.

The ground and the in the groundwater it contains is available. Even at depths of a few meters the temperature of the soil or the groundwater contained therein independently from the season about 8 - 120 C.

EB is already known to use this heat reservoir for the operation of To take advantage of heat pumps that are intended for heating buildings. To this Purpose are pipes or hoses in the ground of the property to be heated Relocated building.

Through these pipes or hoses, a heat pump is cooled down Heat transfer medium passed, which is on the way through the pipes or hoses should heat up again.

With this method, in which the pipes or hoses are in one plane are laid at a relatively short distance below the ground level, becomes a relatively large area of land bendti; t to be adequate To achieve heat yield.

The object of the invention is to provide a heat collector create>, with which a relatively large amount of heat from the ground or

Can gain groundwater.

According to the invention this object is achieved in that the collector is essentially formed by a container closed on all sides, which is in the Relative to its volume has a large surface area that the container with an inlet and an outlet for the heat transfer medium is provided and that in Inside the container internals to create a longer passage for the heat transfer medium are arranged.

With one or more such containers, which can be done without any major effort Can also be arranged in greater depths of the ground, can be with sufficient large container surface extract enough heat from the ground to run a heat pump to operate economically for heating a building.

Preferably the container is in the form of an elongated tube on. The pipes, the length of which can be 10 or more meters, can be drilled into boreholes that can be plugged in with the help of a Drilling rig vertical or be introduced into the ground at a certain angle.

The collector container is preferably made of a steel tube, see above that a good heat transfer from the soil or the groundwater to the in the container contained heat transfer medium can be achieved.

The inlet and outlet for the heat transfer medium are appropriate arranged at the connection end of the pipe which is accessible in the operating state. The pipes are therefore installed in such a way that their connection end is still a bit in the operating state protrudes from the ground to conveniently connect the inlet and outlet and eventual To be able to carry out maintenance work without major effort.

Inside the tube serving as a collector container can be a concentric arranged thin inner tube may be provided, which extends from the connection end of the Rohrs at least up to close to the opposite, sealed in the ground Pipe end extends. The inner tube serves to guide the heat transfer medium in one direction, while the guidance of the heat transfer medium in the opposite direction Direction through the annular space between the inner tube and the Xollektorrohr takes place.

The inner tube preferably extends directly to the closed one Pipe end is in the one at this pipe end provided by the closure part held and pointed at a short distance in front of his in the breech block At least one lateral passage opening at the end. In the annulus between the inner wall of the collector pipe and the outer surface of the inner pipe is appropriate arranged a helix which extends over the entire length of the annular space and fills its entire width. The heat transfer medium to be heated is with Help the helix over an extremely long helical path through the annulus passed through, so that a sufficiently long residence time is given to the temperature of the heat transfer medium. The heat transfer medium passes through the helix set in a turbulent flow, which ensures good heat transfer is.

The inlet is preferably on the inner tube and the outlet on the Annular space connected. The heat transfer medium is fed through the inner tube Pumped down, enters the annular space between the inner pipe at the lower end of the pipe and the inner wall of the collector tube and rises through the annulus along the Wendel up again. The advantage here is that the heat transfer medium in his coldest state first with the lowest lying, warmest area of the collector pipe comes into contact and can absorb relatively large amounts of heat there.

The inner tube can consist of a heat-insulating material and although it is expediently made of plastic, so that the heated medium flowing back does not occur comes into contact with the cold medium entering the collector in a thermally conductive manner.

Several containers are preferably used to operate a heat pump used in parallel arrangement. The tubular container can thereby be introduced obliquely downward into the ground, whereby they are shared by a common Shaft exit in a star shape. This allows from a group of Kellektor containers a relatively large area of the ground can be used, so that the invention The method can also be practiced on the smallest of plots. Through this arrangement the collector tank also prevents the earth's surface from cooling down.

The invention is illustrated in the drawing, for example and described in detail below with reference to the drawing. They show: Fig. 1 shows a plan view of an arrangement of six collector tanks laid in a star shape and FIG. 2 shows a section along the line II-II from FIG. 1.

In the drawing, a system with six heat collectors 1 is shown. The six collectors 1 are connected in parallel in the circuit one in the Drawing not shown heat pump and are used to heat the in the heat pump cooled heat transfer medium. The heat transfer medium consists of water with appropriate Additives, preferably made of brine, which are cooled to around + 20 ° C in the heat pump will. In the heat collectors, the temperature of the bottom brine should be transferred the heat of the ground and / or the groundwater increased to at least + 60 C. will.

Each of the collectors 1 consists of an elongated collector container 2, which is made by a steel pipe of, for example, 12 m in length and around 60-100 mm in outer diameter is formed.

The steel pipe 2 is at its connecting end 3, at which the inlet 4 and the drain 5 for the heat transfer medium are arranged with a connecting flange 6 provided. The opposite end 7 of the tube, which is in the operating state is in the ground, is provided with a cap closure 9, which the pipe end 7 overlaps and fastened to the pipe end 7 with the aid of a circumferential weld seam 10 is.

In the mad of the steel pipe 2 is in a central arrangement a slim plastic pipe 11, which extends from AeschluB-, end 3 of the collector pipe 2 extends to its opposite end 7, where it is attached to the cap verhichlu3 9 is present. Of the Cap closure 9 has a centering pin in its center 12 on which the inner tube 11 is supported.

At a short distance from his resting on the cap closure 9 At the end, the inner tube 11 has at least one lateral passage opening 13, which is the interior 4 of the inner tube 11 with the annular space 15 between the outer surface of the inner pipe 11 and the inner surface of the collector pipe 2 connects. The distance the passage opening 13 from the end of the inner tube 11 is slightly larger than the length of the centering pin 12.

In the annular space 15 between the outer surface of the inner tube 11 and the inner wall of the collector tube 2 is arranged a helix 16 which extends over extends the entire length of the annular space 15 and fills its entire width. With the helix 16 ,; the inside of the annular space 15 has a helical shape Forms passage, the length of the flow through the heat transfer medium of the Annular space 15 can be enlarged many times over.

The connection end 3 of the collector tube 2 is with a Versctßplatte 17 provided, with the help of several distributed over the circumference arranged screws 18 is releasably attached to the pipe flange 6.

The inner tube 11 extends through a sealing plate 17 provided central bore in which it is centered - and held in a sealed manner.

The inlet 4 for the heat transfer medium sits on the one through the closure plate 17 protruding end of the inner tube 11.

The drain 5 is a pipe socket that passes through an eccentric hole is passed in the closure plate and opens into the annular space 15.

The water drain 5 can of course alternatively also in one be attached to the side of the collector pipe 2 a short distance behind the flange 6.

In the embodiment shown in the drawing are six tubular heat collectors 1 connected in parallel from one common Shaft 19 introduced into the ground 20 at an angle of approximately 45 °. That Bringing the collectors 1 into the ground can be relatively easy with the help of a Drill done. By the arrangement of the collector group shown in the drawing a relatively large catchment area can be used. Needs on the surface of the earth only the relatively small shaft 19 to be excavated, from which the tubular collectors in a star shape diagonally downwards iri the earth cr.3 stretch. Be. one for example length of the tubular collector container 2 of 12 m which are introduced into the ground 20 at an angle of 450 an area that covers approx.

18 m in diameter and 9 m deep. Such a system can operate even on the smallest of properties without noticeable cooling of the earth's surface caused.

The heat output of an individual collector 1 depends on the nature of the soil and the amount of groundwater available at 2-3KW / h. The one shown in the drawing System with six collectors 1 is sufficient for economical heating of a residential building with about 100 square meters of living space.

Claims (12)

Claims 1. Heat collector for installation in the ground, wherein the Temperature of a heat transfer medium conveyed by the collector through the im Heat contained in the ground and / or groundwater can be raised, in particular for feeding a heat pump, which means that the collector (1) is essentially formed by a container (2) which is closed on all sides, which has a large surface area in relation to its volume; that the container (2) provided with an inlet (4) and an outlet (5) for the heat transfer medium is and that inside the container internals (11, 16) to create an extended Passage for the heat transfer medium are arranged. 2. Heat collector according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the collector tank has the shape of an elongated tube (2) having. 3. Heat collector according to claim 2, d a d u r c h g e -k e n n z e i c h n e t that the collector tank consists of a steel tube (2). 4. W§rmekolleRtor according to claim 2 or 3 d a d u r c h g e k e n n z e i c h n e t that the inlet (4) and the outlet (5) at the in the operating state accessible connection end (5) of the tube (2) are arranged. 5. Heat collector according to claim 4, d a d u r c h g e -1 k e n n z e i c h n e t that inside the tube (2) serving as a collector container concentrically arranged thin inner tube (11) is provided, which extends from the Connection end (3) of the tube (2) at least up to close to the opposite closed Pipe end (7) extends. 6. Heat collector according to claim 5, d a d u r c h g e -k e n n z e i c h n e t that the inner tube (11) right up to the sealed tube end (7) is held in the closure part (9) provided at this pipe end (7) is and at a short distance from his held in the closure part (9) Has at least one lateral passage opening (13) at the end. 7. heating element according to claim 5 or 6, d a d u r c h g e k e n z e ic h n e t that in the annular space (15) between the inner wall of the collector pipe (2) and the outer surface of the inner tube (11) a helix (16) is arranged which extends over the entire length of the annular space (15) and its entire width fills out. 8. Heat collector according to one of claims 5 to 7, d a -d u r c h it is noted that the inlet (4) to the inner pipe (11) and the outlet (5) is connected to the annular space (15). 9. Heat collector according to claim 8, d a d u r c h g e -k e n n z e i c h n e t that the inner tube (11) consists of a heat insulating material. 10. Heat collector according to claim 9, d a d u r c h g e -k e n n z e i c h n e t that the inner tube (11) is made of plastic. 11. Heat collector according to one of claims 1 to 10, d a -d u r c h e k e n n n e i n e t that several collector containers (2) are provided, which are connected in parallel. 12. Heat collector according to one of claims 2 to 11, d a -d u r c it is noted that the tubular collector tank (2) is inclined are brought down into the ground (20) and from a common shaft (19) go out in a star shape.