DE202011000606U1 - Structure for connecting a solar energy plate absorber with a solar energy tube absorber - Google Patents

Abstract

Structure for connecting a solar energy plate absorber to a solar energy tube absorber, which comprises a plurality of spaced-apart tube absorbers (21) and a plate absorber (22), the tube absorbers (21) being connected to the plate absorber (22), characterized in that at the locations of the plate absorber (22) at which the plate absorber (22) is connected to the tube absorbers (21), bulges (222) are provided for receiving the tube absorbers (21) and are complementary in profile to the tube absorbers (21) , wherein the curvatures (222) have an elastic clamping force, ribs (223) being arranged axially spaced on the curvature (222).

Description

Technical area

The invention relates to a structure for collecting the energy contained in sunlight, in particular a structure for connecting a solar energy plate absorber with a solar energy tube absorber.

State of the art

There are a variety of arrangements for heating the water in solar water heaters. Out 1 and 2 is a conventional solar water heater known from a heat storage 1 and a slanted solar thermal collector 2 exists, the thermal solar collector 2 from a plurality of tube absorbers 21 is designed to direct the flow of water, wherein a water inlet pipe 23 and a water outlet pipe 24 with the two ends of the tube absorber 21 Soldered so that water is between the water inlet pipe 23 and the tube absorber 21 and between the water outlet pipe 24 and the tube absorber 21 can flow. To increase the absorption of solar thermal energy is a plate absorber 22 on the outsides of the tube absorber 21 arranged so that the heat absorption surface of the tube absorber 21 increased to increase the performance of the heat collection.

During operation, the cold water flows in the heat accumulator 1 over a line 11 into the water inlet pipe 23 and then on through the tube absorbers 21 , The plate absorber 22 Absorbs heat and conducts the thermal energy into the tube absorber 21 in the tube absorbers 21 is heated water and then into the water outlet pipe 24 flows in, with the heated water eventually over the line 12 back to the heat storage 1 is directed. In this way, there is a circulating thermal convection between the water in the heat storage 1 and the solar thermal collector 2 instead, leaving the temperature of the water in the heat storage 1 steadily rising. Thus, the warm water is prepared for supply.

For the connection of the tube absorber 21 with the plate absorber 22 will be on 3 directed. At the plate absorber 22 are indentations 221 for receiving the tube absorber 21 formed in a matching round arch shape. To connect the tube absorber 21 with the plate absorber 22 are usually the indentations 221 and the tube absorbers 21 firmly soldered together; in this connection, the tube absorber 21 and the plate absorber 22 Although a relatively larger contact area is achieved compared to previously known thermal solar collectors, but the soldering is time consuming and power consuming and it may happen that the solder is not completely in the space between the respective tube absorbers 21 and the plate absorber 22 can flow in, which can cause gaps, due to which the effect of heat conduction is significantly impaired.

To simplify the soldering of the tube absorber 21 with the plate absorber 22 is an in 4 shown solution has been produced, wherein the flat formed plate absorber 22 for direct leaning against the tube absorber 21 is brought; then tube absorbers 21 and the plate absorber 22 connected by ultrasonic soldering; however, the contact area between the tube absorbers 21 and the plate absorber 22 very narrow and small, so that, even if the plate absorber 22 absorbed a large amount of solar energy, this amount of solar energy is not entirely due to the tube absorber 21 can be directed; while the effect of water heating is limited.

Furthermore, tube absorbers and plate absorbers are usually made of copper or aluminum, with the price of copper and aluminum steadily increasing, which directly leads to an increase in the manufacturing cost of solar water heaters. To reduce costs, stainless steel is used instead of copper and aluminum. Out 5 and 6 is another structure for connecting a solar energy plate absorber 22 with a solar energy tube absorber 21 known, wherein over the tube absorbers 21 each a strip-shaped clamp 25 is arranged with a C-shaped cross-section, wherein the tube absorber 21 and the plate absorber 22 are formed complementary to each other with respect to the profile, so that the plate absorber 22 through the strip-shaped clamping brackets 25 at the tube absorbers 21 is clamped and thus the tube absorber 21 envelops. Here are the strip-shaped clamp brackets 25 usually made of highly elastic material so that they can provide sufficient clamping force; This makes the strip-shaped clamps 25 and the plate absorber 22 or the tube absorber 21 made of different materials, which have different coefficients of thermal expansion; when the solar thermal collector is heated by solar radiation, the strip-shaped clamping brackets 25 and the plate absorber 22 or the tube absorber 21 enlarged to varying degrees, so that the strip-shaped clamping brackets 25 and the plate absorber 22 be loosened in relation to each other, whereby the strip-shaped clamping brackets 25 the plate absorber 22 and the tube absorbers 21 can not hold on and the At the same time, the transfer of heat energy can only be limited, so that the heating capacity is impaired.

Object of the invention

The invention has for its object to provide a structure for connecting a solar energy plate absorber with a solar energy tube absorber, with which the deficiencies in the prior art can be eliminated.

Technical solution

This object is achieved by a structure for connecting a solar energy plate absorber with a solar energy tube absorber having the features of claim 1. Advantageous embodiments are the subject of the dependent claims.

The o. G. The object is solved by a structure according to the invention for connecting a solar energy plate absorber with a solar energy tube absorber, wherein the structure between a water inlet pipe and a water outlet pipe a plurality of tube absorbers is arranged spaced, which communicate with the water inlet pipe and the water outlet pipe, wherein with the tube absorbers a plate absorber is connected, on which a plurality of bulges with C-shaped cross-section for receiving and clamping the tube absorber is formed, wherein ribs are arranged axially spaced on the curvature.

According to the invention, the tube absorbers can each be connected to a corresponding plate absorber or simultaneously to a single plate absorber.

The connection structure according to the invention is advantageous in that the plate absorber can firmly and positively clamp the tube absorber by means of the curvature and the ribs formed on the curvature, so that the plate absorber and the tube absorber do not easily detach from one another and enable a more reliable, gap-free contact of the two which contributes to a total transfer of heat energy and easier maintenance or replacement of both.

Brief description of the drawings

1 shows a schematic representation of the construction of a solar thermal collector of a conventional solar water heater.

2 shows a perspective view of the conventional solar thermal collector.

3 shows the conventional solar thermal collector on average.

4 shows a further embodiment of the conventional solar thermal collector in section.

5 shows a further embodiment of the conventional solar thermal collector in a perspective view.

6 shows the conventional solar thermal collector of 5 on average.

7 shows a perspective view of a solar thermal collector according to the invention.

8th shows the solar thermal collector according to the invention in section.

9 shows the solar thermal collector according to the invention in the longitudinal direction in partial section.

10 shows a schematic representation of another embodiment of the solar thermal collector according to the invention.

11 shows a schematic representation of another embodiment of the solar thermal collector according to the invention.

embodiments

In the following, objects, features and advantages of the present invention will become more apparent from the detailed description of the embodiments and the accompanying drawings. However, the invention should not be limited to the description and the accompanying drawings.

How out 7 to 9 As can be seen, in the inventive structure for connecting a solar energy plate absorber with a solar energy tube absorber, a plurality of tube absorbers 21 between a water inlet pipe 23 and a water outlet pipe 24 arranged, with the tube absorber 21 spaced apart and with the water inlet pipe 23 and the water outlet pipe 24 communicate; also is a plate absorber 22 in accordance with the tube absorbers 21 arranged on the plate absorber 22 buckles 222 with C-shaped cross-section with respect to the profile complementary to the tube absorbers 21 are trained; on the outer surface of the vault 222 are ribs 223 axially spaced, with the bulges 222 from the same material of the plate absorber 22 manufactured and thus have a sufficient elastic capacity for expansion and contraction.

After the tube absorber 21 through the corresponding bulges 222 recorded and clamped positive and positive, is the plate absorber 22 with the tube absorbers 21 connected, with the plate absorber 22 and the tube absorbers 21 not easily disengage from each other and at the same time by the elastic clamping and holding the bulges 222 come in a more reliable and column-free contact, causing the plate absorber 22 , which absorbs the solar thermal energy, the heat energy more reliable on the tube absorber 21 can transfer, so that the water in the tube absorbers 21 can be heated to a considerable extent more effectively; In addition, the plate absorber can be 22 and the tube absorbers 21 under the elastic action of the bulges 222 easier to disassemble and thus easier to maintain or replace.

10 shows a further embodiment of the solar thermal collector according to the invention, wherein for each tube absorber 21 one plate absorber each 22 is arranged, with the plate absorber 22 partially overlap and connect to each other; at the respective plate absorbers 22 are also on elastic clamping force possessing vaults 222 for receiving the tube absorber 21 arranged, being at the vault 222 ribs 223 are arranged axially spaced.

11 shows a further embodiment of the solar thermal collector according to the invention, wherein the plate absorber 22 Furthermore, a plurality of plate-like clamping brackets 25 can be arranged to increase the clamping force of the plate absorber 22 serves, in case of the plate absorber 22 due to the material properties or a lack of thickness does not have sufficient clamping force. In this embodiment is preferably on the respective plate-like clamping brackets 25 a vault 251 provided, at the ribs 252 are arranged axially spaced. In this way, the plate absorber 22 by means of the plate-like clamping brackets 25 more stable at the tube absorber 21 be clamped to a release of the plate absorber 22 from the tube absorber 21 prevent and ensure a complete transfer of heat energy. Of course, the plate-like clamp 25 in coordination with the tube absorber 21 as a single, long strip-shaped element.

The invention thus relates to a structure for connecting a solar energy plate absorber with a solar energy tube absorber, in which structure to the tube absorbers 21 corresponding plate absorbers 22 or at the tube absorbers 21 corresponding plate absorber 22 buckles 222 are formed with a substantially C-shaped cross-section, wherein the vaults 222 for receiving and clamping the tube absorber 21 serve, being on the vault 222 ribs 223 axially spaced, wherein the plate absorber 22 by means of the vault 222 the tube absorber 21 can clamp force and form-fitting, so that the plate absorber 22 and the tube absorber 21 not easily detach from each other and a more reliable, column-free contact of the two is possible, resulting in a complete transfer of the through the plate absorber 22 absorbed heat energy to the tube absorber 21 Contributes, so that the water in the tube absorbers 21 can be heated more effectively, and that the waiting and replacing the tube absorber 21 and the plate absorber 22 / or the plate absorber 22 is relieved.

LIST OF REFERENCE NUMBERS

1

heat storage

11

management

2

thermal solar collector

21

absorber tube

22

plate absorber

221

indentation

222

bulge

223

rib

23

Water inlet pipe

24

water outlet pipe

25

clamp

251

bulge

252

rib

Claims (6)

A structure for connecting a solar energy plate absorber to a solar energy tube absorber comprising a plurality of spaced-apart tube absorbers (US Pat. 21 ) and a plate absorber ( 22 ), wherein the tube absorbers ( 21 ) with the plate absorber ( 22 ), characterized in that at the locations of the plate absorber ( 22 ), on which the plate absorber ( 22 ) with the tube absorbers ( 21 ), vaults ( 222 ) for receiving the tube absorber ( 21 ) and with respect to the profile complementary to the tube absorbers ( 21 ), wherein the bulges ( 222 ) have an elastic clamping force, wherein at the curvature ( 222 ) Ribs ( 223 ) are arranged axially spaced. Connecting structure according to claim 1, characterized in that the curvature ( 222 ) has a substantially C-shaped cross section and thereby has an elastic clamping force. A connection structure according to claim 1, characterized in that further comprises a plurality of plate-like clamping brackets ( 25 ) are provided, by means of which the plate absorber ( 22 ) on the tube absorber ( 21 ) is clamped. Connecting structure according to claim 3, characterized in that the plate-like clamping brackets ( 25 ) each with a curvature ( 251 ), at the ribs ( 252 ) are arranged axially spaced. Connecting structure according to claim 1, characterized in that the tube absorbers ( 21 ) each with a corresponding plate absorber ( 22 ) are connected. Connecting structure according to claim 1, characterized in that the tube absorbers ( 21 ) all with a single plate absorber ( 22 ) are connected.

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