DE29908190U1 - System for water heating by means of solar collectors with a special clamping system - Google Patents

Description

PATENT ATTORNEYS HÜBNER ■ DR. VONNEMANN & PARTNER GbR

Date: 12.03.1999

Lawyer's file: T 2002

UTILITY MODEL REGISTRATION

the company

ThermoLUX GmbH

Unterwanger Str. 3

87439 Kempten

Designation:

System for water heating using solar panels with special clamping system

DESCRIPTION

The invention relates to a system for heating water by means of vacuum tube solar collectors and a special clamping system, in particular for said system for heating water by means of solar collectors.

Such heating systems using vacuum tube solar collectors are well known. The solar collectors are circulated by a heat transfer medium that transfers the heat to, for example, domestic water via heat exchangers. If additional vacuum tubes are to be installed on the roof or if a vacuum tube needs to be replaced, the heat transfer medium circuit must be interrupted in order to be able to install or remove the vacuum tube. Such installation is not possible without tools and is therefore very complex.

The object of the invention is to simplify the assembly of vacuum tube solar collectors.

This task is solved in a generic system for heating water using solar collectors in that the solar collector is designed as a so-called heat pipe, the heat fluid of which is designed separately from a heat transfer circuit of the water heating system. Due to this separation, the heat transfer circuit can remain untouched when replacing or installing additional solar collectors.

In the design of the system, it is provided that the vacuum tube and the heat transfer circuit have pipes that are arranged so that they cross and touch each other, with the contact surface that results at the point of contact being designed as a heat transfer surface. The vacuum tube can be easily assembled or disassembled by making one-sided contact with the heat transfer circuit. Both the circuit of the heat fluid in the heat pipe and the

Heat transfer circuits can remain untouched, which makes assembly and disassembly much easier.

To simplify assembly, a clamping system is provided for detachably connecting the pipes, which preferably cross at 90°. This clamping system allows the vacuum tubes to be easily detached from the heat transfer circuit.

If one pipe with a constant cross-section, preferably the pipe of the heat transfer circuit, is in particular round and a contact surface adapted to the outer surface of the first pipe is formed into the other, a positive connection of the intersecting pipes is advantageously achieved at the same time during clamping, which makes the connection point particularly strong and mechanically secure.

In practice, it has proven to be particularly good if the pipes have approximately the same diameter.

The task is also solved by a clamping system, in particular for a system for heating water using vacuum tubes, in which the clamping system consists of two jaws, the clamping jaws of which can be clamped in particular by a quick-clamping mechanism that is designed to be operated without tools. This design allows individual vacuum tubes to be mounted on the heat transfer circuit pipe with just a few movements within seconds.

The clamping jaws are also advantageously fastened in a form-fitting manner to the intersecting pipes if they have a first and a second guide surface, which are each arranged to support one and the other intersecting pipe.

The investment costs for the clamping system can be reduced if the upper and lower clamping jaws are identical. With this type of clamping jaw, it is sufficient to produce just one mold in which the clamping jaw is formed from cast aluminum, for example. The casting

This clamping jaw makes it possible to completely dispense with mechanical processing.

The quick-release mechanism can be manufactured particularly cost-effectively if it is designed as a clamping bracket that can be pivoted over a dead center and has a spring bracket, whereby both the clamping bracket and the spring bracket are preferably bent from wire. Such brackets can be manufactured in large quantities as bent parts at low cost.

During assembly, it is helpful if the clamp has an open assembly position and a closed clamping position, in which it rests against a first and a second stop. This determines the clamping positions and the assembly positions. Each clamp therefore has reproducible clamping forces. The consistent quality of the clamp, which determines the function of the heat exchanger surface between the intersecting pipes, is ensured.

Depending on the position, the clamping jaw can be used to clamp either the upper or lower pipe if the clamping system has a clamping axis around which the upper and lower clamping jaws are each arranged offset by 90°.

Because the clamping jaw has a swivel bearing for the clamping bracket, which fixes it axially in the swivel axis, the bracket cannot be lost. It is connected to the clamping jaw.

The clamping jaw also serves as an abutment for the spring clip because the clamping jaw has at least one bearing half shell for the spring clip, the axis of which intersects the clamping axis and is arranged parallel to the pivot axis.

One tube is secured by the clamping jaw in that the clamping jaw has two support saddles whose axes are parallel to the axis of the bearing half shell

are arranged and the other pipe in that the clamping jaw has a support shell whose axis is arranged parallel to the axis of the clamping bracket. Each pipe is thus surrounded on one side by a support shell and on the other side by the two support saddles of the other clamping jaws.

The spring clip cannot be lost either, as the clamping clip has two joints in which the spring clip is mounted. The entire clamping system therefore consists of three parts, an upper clamping jaw with mounted spring and clamping clip and the lower clamping jaw.

The invention is described using an embodiment. The figures of the drawing show in detail:

FIG. 1 is a perspective view of a clamping system in the open position,

FIG. 2 is a perspective view of the clamping system in closed position,

FIG. 3 a view of two intersecting pipes,

FIG. 4 two intersecting pipes according to Figure 3 in another view,

FIG. 5 a side view of a clamping jaw,

FIG. 6 a top view of the clamping jaw,

FIG. 7 a section through the clamping jaw according to section line A-A in Figure 6,

FIG. 8 is a perspective view of the clamping jaw according to Figures 5 to 7,

FIG. 9 is a perspective view of a spring clip, and
FIG. 10 is a perspective view of a clamp.

In Figure 1, 1 designates a solar collector that contains a heat pipe 2, which ends at the upper end in a tube 3 that represents the condenser. Perpendicular to

Another pipe 4 of a heat transfer circuit is arranged in pipe 3. At the point where the two crossing pipes 3 and 4 touch, the contact surface 5 is formed into the pipe 3 as a concave surface of a cylinder. Above the pipe 4, an upper clamping jaw 6 and below the pipe 3, a lower clamping jaw 7 are positioned, which can be moved towards each other using a spring clip 8 and a clamping bracket 9 until they are clamped. The spring clip 8 is supported on the lower clamping jaw 7 in a bearing half-shell 10. At its upper end, the spring clip is supported in the joint 11 of the clamping bracket 9. The clamping force applied by the clamping bracket is introduced into the upper clamping jaw via the joint 11 and the articulated leg 12 of the clamping bracket 9 via bearing 13. To clamp, the free operating lever 14 is moved in the direction of arrow 15 until it assumes the position in which the two pipes 3 and 4 are clamped. This position is shown in Figure 2. Each pipe is held between two support saddles 16 of one clamping jaw and a support shell 17 of the other clamping jaw. In the open position, the leg 12 of the clamping bracket 9 rests on the stop 18 (Figure 5). In the closed position, the support is on stop 19.

If the clamping bracket 9 is pivoted about pivot axis 20 from the open position to the closed position, the bearing axis 21 moves on a circular arc a. As soon as it intersects the clamping axis 22, it overcomes a dead point, after which the lever 14 of the clamping bracket is pushed further in the direction of arrow 15 until the leg 12 rests against the stop 19. This stable position is then maintained by the clamping system.

The more precise design of the individual parts can be seen in Figures 3 to 10, in which identical parts are provided with corresponding reference symbols.

In this way, an advantageously easy-to-use clamping system has been created that enables the rapid assembly of vacuum tubes without disconnecting the heat transfer circuit.

LIST OF REFERENCE SYMBOLS

1 vacuum tube 2 Heat Pipe 3 Condenser 4 Heat transfer circuit pipe 5 Contact surface 6 Upper jaw 7 Lower jaw 8th Spring clip 9 Clamp 10 Bearing half shell 11 joint 12 leg 13 camp 14 lever 15 Arrow 16 Support saddles 17 Support shell 18 attack 19 attack 20 Swivel axis 21 Bearing axis 22 Clamping axis

Claims (15)

PROTECTION CLAIMS 1. System for heating water by means of solar collectors, characterized in that the solar collector consists of vacuum tubes (1) which are designed as so-called heat pipe tubes (2), the heat fluid of which is separate from a heat transfer medium circuit of the water heating system. 2. System according to claim 1, characterized in that the vacuum tube and heat transfer medium circuit comprise tubes (3, 4) which are arranged to cross and touch one another, the contact surface (5) resulting at the point of contact being designed as a heat transfer surface. 3. System according to claim 1 or 2, characterized in that a A clamping system is provided for the detachable connection of the pipes (3, 4) crossing each other, preferably at 90°, 4. System according to claim 1, 2 or 3, characterized in that a pipe with a constant cross-section, preferably the pipe (4) of the heat transfer circuit, is in particular round and a contact surface (5) adapted to the outer surface of the first-mentioned pipe is formed in the other pipe (3). 5. System according to one of claims 1 to 4, characterized in that the tubes (3, 4) have approximately the same diameter. 6. Clamping system, in particular for a system for heating water by means of heat pipe vacuum tubes according to one of claims 1 to 5, characterized in that the clamping system consists of two clamping jaws (6, 7) wherein the clamping jaws are designed in particular to be clamped by a quick-clamping mechanism that can be operated by hand without tools. 7. Clamping system according to claim 6, characterized in that Clamping jaws have a first and a second guide surface (16, 17), which are each arranged to support one and the other intersecting tube (3, 4). 8. Clamping system according to claim 6 or 7, characterized in that the upper and lower clamping jaws (6, 7) are identical. 9. Clamping system according to one of claims 6 to 8, characterized in that the quick-release mechanism has a clamping bracket (9) designed to pivot about a dead center and a spring bracket (8) pivotally connected thereto. 10. Clamping system according to one of claims 6 to 9, characterized in that the clamping bracket (9) has an open assembly position and a closed clamping position, in each of which it rests against a first (18) and a second (19) stop. 11. Clamping system according to one of claims 6 to 10, characterized in that the clamping system has a clamping axis (22) about which the upper and lower clamping jaws (6, 7) are each arranged offset by 90°. 12. Clamping system according to one of claims 6 to 11, characterized in that the clamping jaw (6, 7) has a pivot bearing (13) for the clamping bracket (9), which fixes it axially in the pivot axis (20). &psgr;, W — 13. Clamping system according to one of claims 6 to 12, characterized in that the clamping jaw (6, 7) has at least one bearing half-shell (10) for the spring clip (8), the axis of which intersects the clamping axis (22) and is arranged parallel to the pivot axis (20). 14. Clamping system according to one of claims 6 to 13, characterized in that the clamping jaw (6, 7) has two support saddles (16) whose axes are arranged parallel to the axis of the bearing half-shells (10) for the spring clip (8). 15. Clamping system according to one of claims 6 to 14, characterized in that the clamping jaw (6, 7) has a support shell (17) whose axis is arranged parallel to the pivot axis (20) of the clamping bracket (9).