CN115682445A - Groove type solar heat collector supporting body capable of being installed quickly and accurately - Google Patents

Abstract

The invention relates to the technical field of solar engineering, in particular to a groove type solar thermal collector support body which is quickly and accurately installed. The method is characterized in that: the reflector unit comprises a right reflector bracket, a left reflector bracket and a reflector U-shaped connecting piece. The U-shaped connecting piece and the U-shaped connecting guard plate of the reflector are arranged on the upper side and the lower side of the main beam through fixed pin shafts. The right reflector bracket and the left reflector bracket are arranged on two sides of the reflector U-shaped connecting piece through hexagon bolts. The vacuum heat collecting pipe unit comprises a vacuum heat collecting pipe bracket and a U-shaped connecting piece of a vacuum heat collecting pipe. The U-shaped connecting piece and the U-shaped connecting guard plate of the vacuum heat collecting pipe are arranged on the upper side and the lower side of the main beam through fixed pin shafts. The vacuum heat collecting pipe bracket is mechanically connected with the vacuum heat collecting pipe U-shaped connecting piece through a hexagon bolt. The rotating shaft U-shaped connecting piece unit comprises a rotating shaft U-shaped connecting piece, a long U-shaped connecting protective plate and a long fixing pin shaft. The long U-shaped connecting guard plates of the rotating shaft U-shaped connecting piece are arranged on the upper side and the lower side of the main beam through long fixing pin shafts. All the U-shaped connecting plates are formed by cold bending and punching through a cold rolled steel grinding tool. The main beam and the accessories of the groove type solar heat collector supporting body which is installed quickly and accurately adopt an assembling form, welding deformation is reduced, and installation accuracy is improved.

Description

Groove type solar heat collector supporting body capable of being installed quickly and accurately

Technical Field

The invention relates to the technical field of solar engineering, in particular to a groove type solar heat collector support body which is high in accuracy and fast in installation.

Background

The principle of photo-thermal utilization of the trough type solar thermal collector is that sunlight is reflected into the vacuum heat collecting tube by the reflecting mirror. The vacuum heat collecting pipe conveys the absorbed heat out, and clean and pollution-free energy is provided for users. The reflector and the vacuum heat collecting tube are both arranged on the main beam, the former main beam and accessories are welded, the installation precision can be ensured by using a tool, and the deformation is inevitable after the tool is used for welding. When the heat collector is assembled, a large number of assembling tools are needed to ensure the installation precision, and a measuring instrument is needed to debug a plurality of parts. Thus, a large amount of labor is required to cooperate with the construction, and the labor cost is increased. The girder and the annex welding increase the transportation degree of difficulty, and production efficiency is low.

In order to solve the defects of the prior art, the groove type solar heat collector supporting body which is high in precision and fast in installation is designed. The main beam and the accessories adopt an assembly form, so that welding deformation is reduced, and the overall precision is improved.

Disclosure of Invention

The technical scheme adopted by the invention is as follows: a groove type solar heat collector supporting body which is installed quickly and accurately. Comprises a main beam, a reflector unit, a vacuum heat collecting tube unit and a rotating shaft U-shaped connecting piece unit. The method is characterized in that: the reflector unit comprises a right reflector bracket, a left reflector bracket and a reflector U-shaped connecting piece. The U-shaped connecting piece and the U-shaped connecting guard plate of the reflector are arranged on the upper side and the lower side of the main beam through fixed pin shafts. The right reflector bracket and the left reflector bracket are arranged on two sides of the reflector U-shaped connecting piece through hexagon bolts. The vacuum heat collecting pipe unit comprises a vacuum heat collecting pipe bracket and a U-shaped connecting piece of a vacuum heat collecting pipe. The U-shaped connecting piece and the U-shaped connecting guard plate of the vacuum heat collecting pipe are arranged on the upper side and the lower side of the main beam through fixed pin shafts. The vacuum heat collecting pipe bracket is mechanically connected with the vacuum heat collecting pipe U-shaped connecting piece through a hexagon bolt. The rotating shaft U-shaped connecting piece unit comprises a rotating shaft U-shaped connecting piece, a long U-shaped connecting protection plate and a long fixing pin shaft. The rotating shaft U-shaped connecting piece and the long U-shaped connecting guard plate are arranged on the upper side and the lower side of the main beam through long fixed hinge pins.

The method is characterized in that: the girder can be square pipe, also can be the pipe, this scheme example is square pipe.

The main beam and the accessories are all installed and connected in an assembling mode, the accessories are not welded on the main beam, and only the mounting holes are formed.

All U type connecting plates adopt cold-rolled steel sheet grinding apparatus clod wash punching a hole one shot forming.

The U-shaped connecting piece and the U-shaped connecting protective plate of the reflector are arranged on the main beam in a full wrapping mode, and are fixed on the main beam by the fixed pin shaft and tightly attached to the main beam.

The right reflector bracket and the left reflector bracket are symmetrically distributed on two sides of the main beam. All the reflector supports are formed in one step by cold-bending and punching through a cold-rolled steel plate grinding tool.

And the reflector U-shaped connecting piece is provided with a reflector bracket connecting plate and a reflector U-shaped connecting block.

The radian of the right reflector bracket and the radian of the left reflector bracket are consistent with the parabola radian of the reflector, and the reflector is tightly attached to the bracket radians.

The U-shaped connecting piece and the U-shaped connecting protective plate of the vacuum heat collecting pipe are arranged on the main beam in a full wrapping mode, and are fixed on the main beam by the fixed pin shaft and are tightly attached to the main beam.

The U-shaped connecting piece of the vacuum heat collecting pipe is provided with a heat collecting pipe bracket connecting plate and a heat collecting pipe U-shaped connecting block.

The rotating shaft U-shaped connecting piece and the long U-shaped connecting protective plate are arranged on the main beam in a full wrapping mode, and are fixed on the main beam through the long fixing pin shaft and tightly attached to the main beam.

The rotating shaft U-shaped connecting piece is provided with a rotating shaft and main beam connecting plate and a rotating shaft U-shaped connecting block.

The beneficial effects of the invention are as follows: the main beam is only provided with the mounting hole without welding accessories, the U-shaped connecting piece is formed in one step by cold-bending and punching through a cold-rolled steel plate grinding tool, manufacturing errors are reduced, labor cost and transportation cost are saved, and mounting precision is improved.

Drawings

The following is further described in conjunction with the accompanying drawings:

FIG. 1: the invention has a structure schematic diagram;

FIG. 2: a schematic view of a mirror support unit of the present invention;

FIG. 3: the invention discloses a schematic diagram of a bracket unit of an evacuated collector tube.

FIG. 4: schematic view of U-shaped connecting piece of rotating shaft

In the figures, the reference numbers are:

1. a main beam; 2. a mirror holder unit; 3. a vacuum heat collecting tube support unit; 4. a rotating shaft U-shaped connecting piece; 5. a right reflector bracket; 6. a left mirror support; 7. a reflector U-shaped connector; 8. fixing a pin shaft; 9. a U-shaped connecting guard plate; 10. a vacuum heat collecting pipe bracket; 11. a U-shaped connecting piece of the vacuum heat collecting pipe; 12. a rotating shaft U-shaped connecting piece; 13. the long U-shaped connecting guard plate; 14. and a long fixed pin shaft.

7-1, a reflector bracket connecting plate; 7-2 and a reflector U-shaped connecting block.

11-1, a heat collecting pipe bracket connecting plate; 11-2, a heat collecting pipe U-shaped connecting block;

12-1, a connecting plate of the rotating shaft and the main beam; 12-2 and a rotating shaft U-shaped connecting block.

Detailed Description

As shown in fig. 1, the present invention provides a trough-type solar collector support body with high precision and quick installation, which is characterized in that: comprises a main beam (1), a reflector unit (2), a vacuum heat collecting tube unit (3) and a rotating shaft U-shaped connecting piece unit (4). The method is characterized in that: the reflector unit (2) comprises a right reflector bracket (5), a left reflector bracket (6) and a reflector U-shaped connecting piece (7). The U-shaped connecting piece (7) of the reflector and the U-shaped connecting guard plate (9) are arranged on the upper side and the lower side of the main beam (1) through fixed pin shafts (8). The right reflector bracket (5) and the left reflector bracket (6) are arranged at two sides of the reflector U-shaped connecting piece (7) through hexagon bolts. The vacuum heat collecting pipe unit (3) comprises a vacuum heat collecting pipe bracket (10) and a vacuum heat collecting pipe U-shaped connecting piece (11). The U-shaped connecting piece (11) and the U-shaped connecting protective plate (9) of the vacuum heat collecting pipe are arranged on the upper side and the lower side of the main beam (1) through the fixed pin shaft (8). The vacuum heat collecting pipe bracket (10) is mechanically connected with a U-shaped connecting piece (11) of the vacuum heat collecting pipe through a hexagon bolt. The rotating shaft U-shaped connecting piece unit (4) comprises a rotating shaft U-shaped connecting piece (12), a long U-shaped connecting guard plate (13) and a long fixing pin shaft (14). The rotating shaft U-shaped connecting piece (12) and the long U-shaped connecting guard plate (13) are arranged on the upper side and the lower side of the main beam (1) through a long fixing pin shaft (14).

As shown in fig. 1, the main beam (1) may be a square pipe or a circular pipe, which is exemplified by the present embodiment.

As shown in figure 1, the main beam (1) and the accessories are installed and connected in an assembling mode, the accessories are not welded on the main beam, and only the installation holes are formed.

All U type connecting plates adopt cold-rolled steel sheet grinding apparatus clod wash punching a hole one shot forming.

As shown in fig. 1 and fig. 2, the U-shaped connecting piece (7) and the U-shaped connecting guard plate (9) of the reflector are mounted on the main beam (1) in a fully-wrapped manner, and are fixed on the main beam (1) by the fixing pin shaft (8) and tightly attached to the main beam (1).

As shown in fig. 2, the right reflector bracket (5) and the left reflector bracket (6) are symmetrically distributed on two sides of the main beam. All the reflector supports are formed in one step by cold bending and punching through a cold-rolled steel plate grinding tool.

As shown in figure 2, a reflector bracket connecting plate (7-1) and a reflector U-shaped connecting block (7-2) are arranged on the reflector U-shaped connecting piece (7).

The radian of the right reflector bracket (5) and the radian of the left reflector bracket (6) are consistent with the parabola radian of the reflector, and the reflector is tightly attached to the bracket radians.

As shown in figure 3, the U-shaped connecting piece (11) and the U-shaped connecting guard plate (9) of the vacuum heat collecting tube are installed on the main beam (1) in a full wrapping mode, are fixed on the main beam (1) through the fixed pin shaft (8), and are tightly attached to the main beam (1).

As shown in FIG. 3, the U-shaped connecting piece (11) of the vacuum heat collecting tube is provided with a heat collecting tube bracket connecting plate (11-1) and a heat collecting tube U-shaped connecting block (11-2).

As shown in figure 4, the rotating shaft U-shaped connecting piece (12) and the long U-shaped connecting guard plate (13) are installed on the main beam (1) in a full wrapping mode, and are fixed on the main beam (1) through the long fixing pin shaft (14) and tightly attached to the main beam (1).

As shown in figure 4, a rotating shaft and main beam connecting plate (12-1) and a rotating shaft U-shaped connecting block (12-1) are arranged on the rotating shaft U-shaped connecting piece (12).

Claims (12)

1. The utility model provides a slot type solar collector supporter of swift formula installation of high accuracy which characterized in that: the solar vacuum heat collecting tube comprises a main beam (1), a reflector unit (2), a vacuum heat collecting tube unit (3) and a rotating shaft U-shaped connecting piece unit (4). The method is characterized in that: the reflector unit (2) comprises a right reflector bracket (5), a left reflector bracket (6) and a reflector U-shaped connecting piece (7). The U-shaped connecting piece (7) of the reflector and the U-shaped connecting guard plate (9) are arranged on the upper side and the lower side of the main beam (1) through fixed pin shafts (8). The right reflector bracket (5) and the left reflector bracket (6) are arranged on two sides of the reflector U-shaped connecting piece (7) through hexagon bolts. The vacuum heat collecting pipe unit (3) comprises a vacuum heat collecting pipe bracket (10) and a U-shaped connecting piece (11) of the vacuum heat collecting pipe. The U-shaped connecting piece (11) and the U-shaped connecting protective plate (9) of the vacuum heat collecting pipe are arranged on the upper side and the lower side of the main beam (1) through the fixed pin shaft (8). The vacuum heat collecting pipe bracket (10) is mechanically connected with a U-shaped connecting piece (11) of the vacuum heat collecting pipe through a hexagon bolt. The rotating shaft U-shaped connecting piece unit (4) comprises a rotating shaft U-shaped connecting piece (12), a long U-shaped connecting guard plate (13) and a long fixing pin shaft (14). The rotating shaft U-shaped connecting piece (12) and the long U-shaped connecting guard plate (13) are arranged on the upper side and the lower side of the main beam (1) through a long fixing pin shaft (14).

2. A high accuracy quick-fit trough solar collector support according to claim 1, wherein: the girder (1) can be a square pipe or a round pipe, and the square pipe is used in the scheme.

3. A high accuracy quick-fit trough solar collector support according to claim 1, wherein: the main beam (1) and the accessories are installed and connected in an assembling mode, the accessories are not welded on the main beam, and only the mounting holes are formed.

4. A high accuracy quick-fit trough solar collector support according to claim 1, wherein: all U type connecting plates adopt cold-rolled steel sheet grinding apparatus clod wash punching a hole one shot forming.

5. A high accuracy quick-fit trough solar collector support according to claim 1, wherein: the reflector U-shaped connecting piece (7) and the U-shaped connecting guard plate (9) are installed on the main beam (1) in a full wrapping mode, are fixed on the main beam (1) through the fixed pin shaft (8), and are tightly attached to the main beam (1).

6. A high accuracy quick install trough solar collector support according to claim 1, wherein: the right reflector bracket (5) and the left reflector bracket (6) are symmetrically distributed on two sides of the main beam. All the reflector supports are formed in one step by cold-bending and punching through a cold-rolled steel plate grinding tool.

7. A high accuracy quick install trough solar collector support according to claim 1, wherein: and a reflector bracket connecting plate (7-1) and a reflector U-shaped connecting block (7-2) are arranged on the reflector U-shaped connecting piece (7).

8. A high accuracy quick install trough solar collector support according to claim 1, wherein: the radian of the right reflector bracket (5) and the radian of the left reflector bracket (6) are consistent with the parabola radian of the reflector, and the reflector is tightly attached to the bracket radians.

9. A high accuracy quick-fit trough solar collector support according to claim 1, wherein: the vacuum heat collecting tube U-shaped connecting piece (11) and the U-shaped connecting protective plate (9) are installed on the main beam (1) in a full wrapping mode, are fixed on the main beam (1) through the fixed pin shaft (8), and are tightly attached to the main beam (1).

10. A high accuracy quick-fit trough solar collector support according to claim 1, wherein: the U-shaped connecting piece (11) of the vacuum heat collecting pipe is provided with a heat collecting pipe bracket connecting plate (11-1) and a heat collecting pipe U-shaped connecting block (11-2).

11. A high accuracy quick-fit trough solar collector support according to claim 1, wherein: the rotating shaft U-shaped connecting piece (12) and the long U-shaped connecting protective plate (13) are installed on the main beam (1) in a full-wrapping mode, are fixed on the main beam (1) through the long fixing pin shaft (14), and are tightly attached to the main beam (1).

12. A high accuracy quick-fit trough solar collector support according to claim 1, wherein: and a rotating shaft and main beam connecting plate (12-1) and a rotating shaft U-shaped connecting block (12-1) are arranged on the rotating shaft U-shaped connecting piece (12).

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