CN221127241U - Compact high-efficient photovoltaic radiator - Google Patents

Abstract

The utility model discloses a compact high-efficiency photovoltaic radiator, which comprises a radiating shell and a heat conducting bottom plate connected with a photovoltaic plate, wherein an adjusting plate is arranged in the radiating shell, a plurality of strip-shaped openings are formed in the top surface of the radiating shell along the length direction, radiating fin blades are arranged in the strip-shaped openings, a shell is mounted on one end surface of the radiating shell in the width direction, an electric push rod for driving the adjusting plate and the radiating fin blades to move up and down is mounted on the shell, and sealing pieces are arranged on two sides of the strip-shaped openings, which are positioned on the radiating fin blades. The heat dissipation device is simple in structure, the heat dissipation area is increased through the heat conduction bottom plate, the heat dissipation shell and the heat dissipation wing blades, the heat dissipation shell can be adjusted, a heat dissipation channel formed between the heat dissipation wing blades can face the windward side, wind energy smoothly passes through the heat dissipation channel, heat dissipation efficiency is improved, the heat dissipation wing blades can bring out water in the heat dissipation shell, surrounding heat can be quickly absorbed through evaporation of the water, and heat dissipation effect is further improved.

Description

Compact high-efficient photovoltaic radiator

Technical Field

The utility model relates to the technical field of photovoltaic power generation, in particular to a compact high-efficiency photovoltaic radiator.

Background

Along with the continuous development of society, people need more and more energy to meet daily work and life, but traditional energy is because of the limited and non-renewable characteristics of its reserves, people pay more and more attention to the development and utilization of new energy, and solar energy is as clean renewable energy of new generation, has characteristics such as universality, permanence, pollution-free. At present, solar cells continuously absorb sunlight in the photovoltaic power generation process, heat is continuously generated in the middle of the process of converting the sunlight into electric energy, the temperature of the cells is continuously increased, and if the heat of the solar cells is not timely emitted, the normal operation of a solar power generation system is affected.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a compact high-efficiency photovoltaic radiator, which increases the radiating area through a heat conducting bottom plate, a radiating shell and radiating fins, and the radiating fins can carry out water, so that the surrounding heat can be quickly absorbed through water evaporation, and the radiating effect is improved.

The utility model is realized by the following technical scheme: the utility model provides a high-efficient photovoltaic radiator of compact, includes the heat dissipation shell and the heat conduction bottom plate of being connected with the photovoltaic board, the heat dissipation shell sets up on the upper surface of heat conduction bottom plate, and the inside of heat dissipation shell all is equipped with the regulating plate, is equipped with a plurality of bar mouthfuls along length direction on the top surface of heat dissipation shell, all is equipped with the heat dissipation wing leaf in the bar mouth, and heat dissipation wing leaf part all sets up in the external world, and another part all passes the inside that the bar mouth extends to the heat dissipation shell to all install on the regulating plate, install the casing with the heat dissipation shell intercommunication on one end of heat dissipation shell width direction, install the electric putter that drives regulating plate and heat dissipation wing leaf reciprocate on the casing, the both sides that the bar mouth is located the heat dissipation wing leaf all are equipped with the sealing member.

As the preferable technical scheme, the sealing member all includes rubber strip and sponge strip, and the rubber strip all sets up in the both sides of heat dissipation wing leaf, and the opposite face of rubber strip and the side contact of heat dissipation wing leaf, and the remaining face of rubber strip all installs on the internal face of bar mouth, all is equipped with lower extreme open-ended mounting groove on the opposite face of rubber strip, and the sponge strip all installs in the mounting groove, and the opposite face of sponge strip all contacts with the side of heat dissipation wing leaf.

As a preferable technical scheme, one end face of the adjusting plate is protruded to the position of the shell to form an extension part, the extension part is inserted into the shell, and a piston rod of the electric push rod penetrates through the shell to be mounted on the top face of the extension part.

As the preferred technical scheme, the center department of heat conduction bottom plate is equipped with the connecting hole, and the bottom surface of heat dissipation shell just forms the spliced pole to connecting hole department protrusion, and the spliced pole inserts in the connecting hole, is equipped with the ring channel on the inner circle face of spliced pole, and the outer lane face of spliced pole just forms the holding ring to ring channel department protrusion, and holding ring movable mounting is in the ring channel, is equipped with a plurality of fixture blocks on the outer lane face of holding ring, is equipped with a plurality of draw-in grooves on the inner wall face of ring channel, and the fixture block all inserts in the draw-in groove that corresponds.

As the preferred technical scheme, be equipped with a plurality of recesses on the top surface of heat conduction bottom plate, all be equipped with the screw hole that runs through the heat conduction bottom plate on the bottom surface of recess, equal threaded connection has the screw in the screw hole, and the heat conduction bottom plate is all fixed in on the photovoltaic board through the screw lock fastening, and the afterbody of screw is all hidden and is set up in the recess.

As a preferred technical solution, the heat conducting soleplate and the heat dissipating shell are both made of brass material.

The beneficial effects of the utility model are as follows: the heat dissipation device is simple in structure, the heat dissipation area is increased through the heat conduction bottom plate, the heat dissipation shell and the heat dissipation wing blades, the heat dissipation shell can be adjusted, the heat dissipation wing blades are driven by rotation of the heat dissipation shell, a heat dissipation channel formed between the heat dissipation wing blades can face a windward side, wind energy smoothly passes through the heat dissipation channel, heat dissipation efficiency is improved, the heat dissipation wing blades can bring out water in the heat dissipation shell, surrounding heat can be quickly absorbed through evaporation of water, and heat dissipation effect is further improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a bottom view of the present utility model;

Fig. 3 is a cross-sectional view of the present utility model.

1, A heat dissipation shell; 2. a thermally conductive base plate; 3. a rubber strip; 4. radiating fin leaves; 5. a water adding part; 6. a sealing plug; 7. a housing; 8. an electric push rod; 9. a groove; 11. a screw; 12. a connecting column; 13. an adjusting plate; 14. an extension.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

All of the features disclosed in this specification, or all of the steps in a method or process disclosed, may be combined in any combination, except for mutually exclusive features and/or steps.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise.

As shown in fig. 1, fig. 2 and fig. 3, the compact high-efficiency photovoltaic radiator comprises a radiating shell 1 and a heat conducting bottom plate 2 connected with a photovoltaic plate, wherein the radiating shell 1 is arranged on the upper surface of the heat conducting bottom plate 2, an adjusting plate 13 is arranged in the radiating shell 1, a plurality of strip-shaped openings are formed in the top surface of the radiating shell 1 along the length direction, radiating fin blades 4 are arranged in the strip-shaped openings, one part of the radiating fin blades 4 are arranged outside, the other part of the radiating fin blades extend to the inside of the radiating shell 1 through the strip-shaped openings and are arranged on the adjusting plate 13, a shell 7 communicated with the radiating shell 1 is arranged on one end surface of the radiating shell 1 in the width direction, an electric push rod 8 for driving the adjusting plate 13 and the radiating fin blades 4 to move up and down is arranged on the shell 7, and sealing parts are arranged on two sides of the strip-shaped openings.

In the embodiment, the sealing elements comprise rubber strips 3 and sponge strips, the rubber strips 3 are arranged on two sides of the radiating fin blades 4, opposite faces of the rubber strips 3 are in contact with the side faces of the radiating fin blades 4, the rest faces of the rubber strips 3 are arranged on the inner wall faces of the strip-shaped openings, mounting grooves with lower openings are formed in the opposite faces of the rubber strips 3, the sponge strips are arranged in the mounting grooves, the opposite faces of the sponge strips are in contact with the side faces of the radiating fin blades 4, water can be fully coated on the side faces of the radiating fin blades through the sponge strips, the strip-shaped openings can be sealed through the rubber strips, rapid evaporation of the water is avoided, and the service time is prolonged;

Wherein, can embedded installation sponge piece on the both sides face of heat dissipation wing leaf, can absorb more water through the sponge piece, increase the duration of evaporation, can better dispel the heat.

In this embodiment, an end face of the adjusting plate 13 is protruded to form an extension 14 just opposite to the housing 7, the extension 14 is inserted into the housing 7, and a piston rod of the electric putter 8 is mounted on a top face of the extension 14 through the housing 7.

In this embodiment, the center department of heat conduction bottom plate 2 is equipped with the connecting hole, and the bottom surface of heat dissipation shell 1 just is to connecting hole department protrusion formation spliced pole 12, and spliced pole 12 inserts in the connecting hole, is equipped with the ring channel on the inner circle face of connecting hole, and the outer lane face of spliced pole 12 just is to protruding formation holding ring in ring channel department, and holding ring movable mounting is in the ring channel, is equipped with a plurality of fixture blocks on the outer lane face of holding ring, is equipped with a plurality of draw-in grooves on the inner wall face of ring channel, and the fixture block all inserts in the draw-in groove that corresponds.

In this embodiment, be equipped with a plurality of recesses 9 on the top surface of heat conduction bottom plate 2, all be equipped with the screw hole that runs through heat conduction bottom plate 2 on the bottom surface of recess 9, equal threaded connection has screw 11 in the screw hole, and heat conduction bottom plate 2 all is fixed in on the photovoltaic board through screw 11 lock fastening, and the afterbody of screw 11 all hides and sets up in recess 9.

In this embodiment, the heat conducting base plate 2 and the heat dissipation shell 1 are both made of brass materials, so that the heat conducting effect is improved.

The heat radiation device comprises a heat radiation shell, a heat radiation opening, a sealing plug, a water adding part, a sealing plug and a water inlet pipe, wherein the heat radiation opening is formed in the heat radiation shell, the heat radiation opening is formed in the heat radiation opening, the water adding part is formed in the heat radiation opening, the sealing plug is connected with the heat radiation opening through threads, and the sealing plug is arranged in the heat radiation opening;

When the wind-driven type heat dissipation device is used, the heat dissipation shell can be rotated according to the current wind direction, the heat dissipation shell rotates by taking the connecting column as the center, the heat dissipation wings are driven by the rotation of the heat dissipation shell, a heat dissipation channel formed between the heat dissipation wings can face to the windward side, wind energy can rapidly pass through the heat dissipation channel, and heat dissipation efficiency is improved, wherein after an angle is determined, a clamping block on the connecting column can be inserted into a corresponding clamping groove, and the heat dissipation shell can be positioned through clamping between the clamping block and the clamping groove;

the electric push rod can be started in the heat dissipation process, the piston rod of the electric push rod continuously stretches out and draws back, the extension part and the adjusting plate are driven by the movement of the piston rod, the heat dissipation wing is driven by the movement of the adjusting plate, after the heat dissipation wing moves downwards, the heat dissipation wing can be contacted with water inside the heat dissipation shell, water can be adsorbed on the surface of the heat dissipation wing, after the heat dissipation wing is pushed out of the heat dissipation shell, water on the heat dissipation wing can be immediately contacted with outside air, surrounding heat can be quickly absorbed through evaporation of the water, and the heat dissipation effect is further improved.

The foregoing is merely illustrative of specific embodiments of the present utility model, and the scope of the utility model is not limited thereto, but any changes or substitutions that do not undergo the inventive effort should be construed as falling within the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope defined by the claims.

Claims (6)

1. The utility model provides a high-efficient photovoltaic radiator of compact, its characterized in that: including heat dissipation shell (1) and heat conduction bottom plate (2) of being connected with the photovoltaic board, heat dissipation shell (1) sets up on the upper surface of heat conduction bottom plate (2), the inside of heat dissipation shell (1) all is equipped with regulating plate (13), be equipped with a plurality of bar mouths along length direction on the top surface of heat dissipation shell (1), all be equipped with heat dissipation wing leaf (4) in the bar mouth, heat dissipation wing leaf (4) part all sets up in the external world, another part all passes the inside that the bar mouth extends to heat dissipation shell (1) to all install on regulating plate (13), install on one terminal surface of heat dissipation shell (1) width direction with heat dissipation shell (1) intercommunication casing (7), install on casing (7) and drive electric putter (8) that regulating plate (13) and heat dissipation wing leaf (4) reciprocated, the both sides that the bar mouth is located heat dissipation wing leaf (4) all are equipped with the sealing member.

2. The compact, high efficiency photovoltaic heat sink of claim 1, wherein: the sealing member all includes rubber strip (3) and sponge strip, and rubber strip (3) all set up in the both sides of heat dissipation wing leaf (4), and the opposite face of rubber strip (3) contacts with the side of heat dissipation wing leaf (4), and the remaining face of rubber strip (3) is all installed on the internal face of bar mouth, all is equipped with lower extreme open-ended mounting groove on the opposite face of rubber strip (3), and the sponge strip is all installed in the mounting groove, and the opposite face of sponge strip all contacts with the side of heat dissipation wing leaf (4).

3. The compact, high efficiency photovoltaic heat sink of claim 1, wherein: one end face of the adjusting plate (13) protrudes towards the shell (7) to form an extension part (14), the extension part (14) is inserted into the shell (7), and a piston rod of the electric push rod (8) penetrates through the shell (7) and is mounted on the top face of the extension part (14).

4. The compact, high efficiency photovoltaic heat sink of claim 1, wherein: the center department of heat conduction bottom plate (2) is equipped with the connecting hole, and the bottom surface of heat dissipation shell (1) is just to connecting hole department protrusion formation spliced pole (12), and spliced pole (12) are inserted in the connecting hole, are equipped with the ring channel on the inner circle face of connecting hole, and the outer lane face of spliced pole (12) just is just to forming the holding ring in ring channel department protrusion, and holding ring movable mounting is in the ring channel, is equipped with a plurality of fixture blocks on the outer lane face of holding ring, is equipped with a plurality of draw-in grooves on the inner wall face of ring channel, and the fixture block all inserts in the draw-in groove that corresponds.

5. The compact, high efficiency photovoltaic heat sink of claim 1, wherein: be equipped with a plurality of recesses (9) on the top surface of heat conduction bottom plate (2), all be equipped with the screw hole that runs through heat conduction bottom plate (2) on the bottom surface of recess (9), equal threaded connection has screw (11) in the screw hole, and heat conduction bottom plate (2) all are fixed in on the photovoltaic board through screw (11) locking, and the afterbody of screw (11) is all hidden and is set up in recess (9).

6. The compact, high efficiency photovoltaic heat sink of claim 1, wherein: the heat conducting base plate (2) and the heat radiating shell (1) are both made of brass materials.