CN110504916A - A kind of high efficiency photovoltaic power generation beam condensing unit - Google Patents

Abstract

The present invention relates to solar energy generation technology fields, and disclose a kind of high efficiency photovoltaic power generation beam condensing unit, including heat conducting base, it is connected with photovoltaic power generation plate surely at the center of heat conducting base upper end, the upper end of heat conducting base is fixedly connected with convex lens by positioner, convex lens is located at the surface of photovoltaic power generation plate, is equipped with cooling mechanism in heat conducting base；Positioner includes locating rod, positioning ring, threaded rod and nut, locating rod and threaded rod are symmetrically and fixedly mounted to the upper end of heat conducting base, and locating rod and threaded rod are symmetrical arranged about photovoltaic power generation plate, positioning ring and nut are symmetrically fixedly connected on the annular sidewall of convex lens, and locating rod is arranged across positioning ring.The high efficiency photovoltaic power generation beam condensing unit is able to solve involving great expense due to power generation photovoltaic panel at present, causes the installation cost of photovoltaic power generation plate higher, and practicability reduces, and causes it to be difficult to popularize, thus the problem of reducing the efficiency of photovoltaic power generation.

Description

A kind of high efficiency photovoltaic power generation beam condensing unit

Technical field

The present invention relates to solar energy generation technology field, specially a kind of high efficiency photovoltaic power generation beam condensing unit.

Background technique

In the field of photovoltaic power generation of solar energy, people receive solar energy by power generation photovoltaic panel and are converted to electric energy for production Life uses.Generally for the reception sunlight of higher efficiency, people are usually in the way of large area laying power generation photovoltaic panel The reception amount for improving sunlight causes the installation cost of photovoltaic power generation plate higher due to involving great expense for power generation photovoltaic panel, practical Property reduce, cause it to be difficult to popularize, to reduce the efficiency of photovoltaic power generation.

Summary of the invention

(1) the technical issues of solving

In view of the deficiencies of the prior art, the present invention provides a kind of high efficiency photovoltaic power generation beam condensing unit, has raising light The advantages of lying prostrate generating efficiency solves involving great expense due to power generation photovoltaic panel at present, leads to the installation cost of photovoltaic power generation plate Higher, practicability reduces, and causes it to be difficult to popularize, thus the problem of reducing the efficiency of photovoltaic power generation.

(2) technical solution

To realize the purpose for improving photovoltaic efficiency, the invention provides the following technical scheme: a kind of high efficiency photovoltaic is sent out Voltolisation electro-optical device, including heat conducting base are connected with photovoltaic power generation plate, the thermally conductive base at the center of the heat conducting base upper end surely The upper end of seat is fixedly connected with convex lens by positioner, and the convex lens is located at the surface of photovoltaic power generation plate, described to lead Cooling mechanism is equipped in hot radical seat；

The positioner includes locating rod, positioning ring, threaded rod and nut, and the locating rod and threaded rod are symmetrically fixed Be mounted on the upper end of heat conducting base, and the locating rod and threaded rod are symmetrical arranged about photovoltaic power generation plate, the positioning ring and Nut is symmetrically fixedly connected on the annular sidewall of convex lens, and the locating rod is arranged across positioning ring, and the positioning ring is sliding On the securing lever, the nut thread is connected on threaded rod for dynamic connection.

Preferably, the cooling mechanism includes heat dissipation cavity, coolant liquid, several heat release holes and several copper rods, described to dissipate Hot chamber is provided in heat conducting base, and the coolant liquid is filled in heat dissipation cavity, several described heat release holes are symmetrically provided with heat dissipation In the cavity wall of chamber, the copper rod is fixedly connected in corresponding heat release hole, and the hole wall phase of the stick body of the copper rod and heat release hole Connection.

Preferably, the upper end of the heat conducting base is symmetrically fixedly connected with limited position mechanism, the limit about photovoltaic power generation plate Position mechanism includes position-limiting drum open at one end, spring and gag lever post, and the position-limiting drum is fixedly connected on the upper end of heat conducting base, institute The nozzle for stating position-limiting drum is arranged far from heat conducting base, and one end of the spring is fixedly connected on the cylinder bottom in position-limiting drum, the bullet The other end of spring is connected with one end of gag lever post, and the gag lever post passes through the nozzle of position-limiting drum and outside far from one end of spring Extend, and the gag lever post is slidably connected in position-limiting drum, the position-limit mechanism is located at the underface of convex lens.

Preferably, several rolling grooves, the rolling are uniformly and equidistantly offered on the internal ring wall of the positioning ring in a ring The ball rolled is equipped in dynamic slot, the ball is arranged far from the notch that one end of rolling groove slot bottom passes through rolling groove, and described Ball rolling is connected on the bar wall of locating rod.

Preferably, the locating rod is fixedly connected with positioning plate far from one end of heat conducting base, and the threaded rod passes through axis The upper end that seat is mounted on heat conducting base is held, the upper end of the threaded rod is fixedly connected with rotating disc, the annular side of the rotating disc Wall is equipped with anti-skid chequer.

Preferably, if the lower end of the heat conducting base is fixedly connected with dry plate cooling fin, and if cooling fin described in dry plate be in Matrix is uniformly and equidistantly fixedly connected on the lower end of heat conducting base.

Preferably, insulating layer is coated on the internal chamber wall of the heat dissipation cavity, the heat release hole is far from solid in one end of heat dissipation cavity Surely it is connected with heat conductive insulating silicone grease.

Preferably, the gag lever post is fixedly connected with cushion far from one end of spring, and the gag lever post is close to spring one It is symmetrically fixedly connected with sliding block on the bar wall of end position, symmetrically offers cunning along the vertical direction on the inner tube wall of the position-limiting drum Slot, the sliding block are slidably connected in corresponding sliding slot.

(3) beneficial effect

Compared with prior art, the present invention provides a kind of high efficiency photovoltaic power generation beam condensing units, have following beneficial to effect Fruit:

1, the high efficiency photovoltaic power generation beam condensing unit forms one by setting locating rod, positioning ring, threaded rod and nut Positioner is not increasing the case where photovoltaic power generation plate receives illumination illuminating area by convex lens to the aggtegation of light Under, more illumination are radiated in photovoltaic power generation plate by the aggregation of convex lens, photovoltaic hair is improved while reducing cost The generating efficiency of battery plate applies a rotatory force to threaded rod, and nut drives convex lens to carry out according to the rotation direction of threaded rod The movement of vertical direction drives positioning ring to move on the securing lever, according to the photovoltaic power generation plate of installation when convex lens moves Size adjusts the height of convex lens, allows to be suitable for various sizes of photovoltaic power generation plate, improves generating efficiency.

2, the high efficiency photovoltaic power generation beam condensing unit passes through setting heat dissipation cavity, coolant liquid, heat release hole and copper rod, heat dissipation cavity Interior coolant liquid absorbs the heat on heat conducting base, reduces the temperature on heat conducting base, recycles copper rod excellent Heat in coolant liquid is dispersed into outside heat conducting base by the copper rod in heat release hole, is improved to heat conducting base by thermal conductivity Radiating efficiency.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of high efficiency photovoltaic power generation beam condensing unit proposed by the present invention；

Fig. 2 is the enlarged drawing of part A in Fig. 1；

Fig. 3 is the enlarged drawing of part B in Fig. 1；

Fig. 4 is the enlarged drawing of C portion in Fig. 1.

In figure: 1 heat conducting base, 2 photovoltaic power generation plates, 3 positioners, 31 locating rods, 32 positioning rings, 33 threaded rods, 34 spiral shells Mother, 4 convex lenses, 5 cooling mechanisms, 51 heat dissipation cavities, 52 coolant liquids, 53 heat release holes, 54 copper rods, 6 position-limit mechanisms, 61 position-limiting drums, 62 Spring, 63 gag lever posts, 7 rolling grooves, 8 balls, 9 positioning plates, 10 bearing blocks, 11 rotating discs, 12 cooling fins, 13 heat-conducting insulating silicons Rouge, 14 cushions, 15 sliding blocks, 16 sliding slots.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Fig. 1-4, a kind of high efficiency photovoltaic power generation beam condensing unit, including heat conducting base 1 are please referred to, 1 upper end of heat conducting base Surely photovoltaic power generation plate 2 is connected at center, the upper end of heat conducting base 1 is fixedly connected with convex lens 4, convex lens by positioner 3 Mirror 4 is located at the surface of photovoltaic power generation plate 2, is equipped with cooling mechanism 5 in heat conducting base 1；

Positioner 3 includes locating rod 31, positioning ring 32, threaded rod 33 and nut 34, and locating rod 31 and threaded rod 33 are right Claim the upper end for being fixedly mounted on heat conducting base 1, and locating rod 31 and threaded rod 33 are symmetrical arranged about photovoltaic power generation plate 2, positioning Ring 32 and nut 34 are symmetrically fixedly connected on the annular sidewall of convex lens 4, and locating rod 31 is arranged across positioning ring 32, and are positioned Ring 32 is slidably connected in locating rod 31, and nut 34 is threaded on threaded rod 33, is made by convex lens 4 to the aggregation of light With in the case where not increasing photovoltaic power generation plate 2 and receiving illuminating area, more illumination are irradiated by the aggregation of convex lens 4 In photovoltaic power generation plate 2, the generating efficiency of photovoltaic power generation plate 2 is improved while reducing cost, and one is applied to threaded rod 33 Rotatory force, nut 34 drive the movement of the progress vertical direction of convex lens 4 according to the rotation direction of threaded rod 33, and convex lens 4 is transported It drives positioning ring 32 to move in locating rod 31 when dynamic, the height of convex lens 4 is adjusted according to the size of the photovoltaic power generation plate 2 of installation Degree allows to be suitable for various sizes of photovoltaic power generation plate 2, improves generating efficiency.

Cooling mechanism 5 includes heat dissipation cavity 51, coolant liquid 52, several heat release holes 53 and several copper rods 54, heat dissipation cavity 51 It is provided in heat conducting base 1, coolant liquid 52 is filled in heat dissipation cavity 51, several heat release holes 53 are symmetrically provided with heat dissipation cavity 51 In cavity wall, copper rod 54 is fixedly connected in corresponding heat release hole 53, and the stick body of copper rod 54 is connected with the hole wall of heat release hole 53, Coolant liquid 52 in heat dissipation cavity 51 absorbs the heat on heat conducting base 1, reduces the temperature on heat conducting base 1, then benefit With the excellent thermal conductivity of copper rod 54, the heat in coolant liquid 52 is dispersed into heat conducting base 1 by the copper rod 54 in heat release hole 53 Outside, the radiating efficiency to heat conducting base 1 is improved.

The upper end of heat conducting base 1 is symmetrically fixedly connected with limited position mechanism 6 about photovoltaic power generation plate 2, and position-limit mechanism 6 includes one Position-limiting drum 61, spring 62 and the gag lever post 63 of end opening, position-limiting drum 61 are fixedly connected on the upper end of heat conducting base 1, position-limiting drum 61 Nozzle far from heat conducting base 1 be arranged, one end of spring 62 is fixedly connected on the cylinder bottom in position-limiting drum 61, the other end of spring 62 It is connected with one end of gag lever post 63, gag lever post 63 passes through the nozzle of position-limiting drum 61 far from one end of spring 62 and extends outwardly, And gag lever post 63 is slidably connected in position-limiting drum 61, and position-limit mechanism 6 is located at the underface of convex lens 4, when convex lens 4 declines, Convex lens 4 is in contact with gag lever post 63 first, compressed spring 62 and is moved downward after 63 stress of gag lever post, and convex lens 4 is downward Movement, to remind operator, is prevented convex lens 4 from hitting with photovoltaic power generation plate 2 by certain resistance.

Several rolling grooves 7 are uniformly and equidistantly offered on the internal ring wall of positioning ring 32 in a ring, are equipped with rolling in rolling groove 7 Dynamic ball 8, ball 8 are arranged far from the notch that one end of 7 slot bottom of rolling groove passes through rolling groove 7, and the rolling of ball 8 is connected to and determines On the bar wall of position bar 31, locating rod 31 is clamped by the ball 8 being distributed in a ring, so that locating rod 31 is stable fixed Movement in the ring 32 of position, so that locating rod 31 is maintained at the center of positioning ring 32.

Locating rod 31 is fixedly connected with positioning plate 9 far from one end of heat conducting base 1, prevents positioning ring 32 from locating rod 31 It being detached from, threaded rod 33 is mounted on the upper end of heat conducting base 1 by bearing block 10, so that threaded rod 33 can be rotated with stress, The upper end of threaded rod 33 is fixedly connected with rotating disc 11, is easily exerted a force to threaded rod 33 by rotating disc 11, rotating disc 11 Annular sidewall is equipped with anti-skid chequer, increases the frictional force between hand and rotating disc 11.

If the lower end of heat conducting base 1 is fixedly connected with dry plate cooling fin 12, and if dry plate cooling fin 12 in matrix uniformly etc. Away from the lower end for being fixedly connected on heat conducting base 1, pass through in matrix distribution cooling fin 12 increase heat conducting base 1 heat dissipation effect Fruit.

Insulating layer is coated on the internal chamber wall of heat dissipation cavity 51, heat release hole 53 is fixedly connected in one end far from heat dissipation cavity 51 and leads Thermal insulation silicone grease 13.

Gag lever post 63 is fixedly connected with cushion 14 far from one end of spring 62, prevents from sending out between convex lens 4 and gag lever post 63 Harshness contact, causes to damage, and gag lever post 63 is symmetrically fixedly connected on the bar wall of 62 1 end position of spring to convex lens 4 There is sliding block 15, symmetrically offer sliding slot 16 on the inner tube wall of position-limiting drum 61 along the vertical direction, sliding block 15 is slidably connected at corresponding In sliding slot 16, band movable slider 15 synchronizes movement in sliding slot 16 when gag lever post 63 moves, so that gag lever post 63 is in position-limiting drum Stable movement in 61.

In conclusion the high efficiency photovoltaic power generation beam condensing unit is not increasing by convex lens 4 to the aggtegation of light In the case that big photovoltaic power generation plate 2 receives illuminating area, more illumination are radiated at photovoltaic power generation by the aggregation of convex lens 4 On plate 2, the generating efficiency of photovoltaic power generation plate 2 is improved while reducing cost, and a rotatory force, nut are applied to threaded rod 33 34 drive convex lens 4 to carry out the movement of vertical direction according to the rotation direction of threaded rod 33, and positioning is driven when convex lens 4 moves Ring 32 moves in locating rod 31, and the height of convex lens 4 is adjusted according to the size of the photovoltaic power generation plate 2 of installation, allows to fit For various sizes of photovoltaic power generation plate 2, generating efficiency is improved；Coolant liquid 52 in heat dissipation cavity 51 is on heat conducting base 1 Heat is absorbed, and the temperature on heat conducting base 1 is reduced, and the thermal conductivity for recycling copper rod 54 excellent will be in coolant liquid 52 Heat is dispersed into outside heat conducting base 1 by the copper rod 54 in heat release hole 53, improves the radiating efficiency to heat conducting base 1.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (8)

1. a kind of high efficiency photovoltaic power generation beam condensing unit, including heat conducting base (1), it is characterised in that: on the heat conducting base (1) It is connected with surely at the center at end photovoltaic power generation plate (2), the upper end of the heat conducting base (1) is fixedly connected by positioner (3) Have convex lens (4), the convex lens (4) is located at the surface of photovoltaic power generation plate (2), is equipped with heat dissipation in the heat conducting base (1) Mechanism (5)；

The positioner (3) includes locating rod (31), positioning ring (32), threaded rod (33) and nut (34), the locating rod (31) and threaded rod (33) is symmetrically and fixedly mounted to the upper end of heat conducting base (1), and the locating rod (31) and threaded rod (33) It is symmetrical arranged about photovoltaic power generation plate (2), the positioning ring (32) and nut (34) are symmetrically fixedly connected on the ring of convex lens (4) On shape side wall, the locating rod (31) is arranged across positioning ring (32), and the positioning ring (32) is slidably connected at locating rod (31) on, the nut (34) is threaded on threaded rod (33).

2. a kind of high efficiency photovoltaic power generation beam condensing unit according to claim 1, it is characterised in that: the cooling mechanism It (5) include heat dissipation cavity (51), coolant liquid (52), several heat release holes (53) and several copper rods (54), the heat dissipation cavity (51) It is provided in heat conducting base (1), the coolant liquid (52) is filled in heat dissipation cavity (51), several described heat release holes (53) are symmetrical It is provided in the cavity wall of heat dissipation cavity (51), the copper rod (54) is fixedly connected in corresponding heat release hole (53), and the copper rod (54) stick body is connected with the hole wall of heat release hole (53).

3. a kind of high efficiency photovoltaic power generation beam condensing unit according to claim 1, it is characterised in that: the heat conducting base (1) upper end is symmetrically fixedly connected limited position mechanism (6) about photovoltaic power generation plate (2), and the position-limit mechanism (6) includes that one end is opened Position-limiting drum (61), spring (62) and the gag lever post (63) of mouth, the position-limiting drum (61) are fixedly connected on the upper of heat conducting base (1) The nozzle at end, the position-limiting drum (61) is arranged far from heat conducting base (1), and one end of the spring (62) is fixedly connected on position-limiting drum (61) other end at the cylinder bottom in, the spring (62) is connected with one end of gag lever post (63), and the gag lever post (63) is separate One end of spring (62) passes through the nozzle of position-limiting drum (61) and extends outwardly, and the gag lever post (63) is slidably connected at position-limiting drum (61) in, the position-limit mechanism (6) is located at the underface of convex lens (4).

4. a kind of high efficiency photovoltaic power generation beam condensing unit according to claim 1, it is characterised in that: the positioning ring (32) Internal ring wall on uniformly and equidistantly offer several rolling grooves (7) in a ring, the ball rolled is equipped in the rolling groove (7) (8), the notch that the ball (8) passes through rolling groove (7) far from one end of rolling groove (7) slot bottom is arranged, and the ball (8) rolls It is dynamic to be connected on the bar wall of locating rod (31).

5. a kind of high efficiency photovoltaic power generation beam condensing unit according to claim 1, it is characterised in that: the locating rod (31) One end far from heat conducting base (1) is fixedly connected with positioning plate (9), and the threaded rod (33) is mounted on by bearing block (10) and is led The upper end of the upper end of hot radical seat (1), the threaded rod (33) is fixedly connected with rotating disc (11), the annular of the rotating disc (11) Side wall is equipped with anti-skid chequer.

6. a kind of high efficiency photovoltaic power generation beam condensing unit according to claim 1, it is characterised in that: the heat conducting base (1) if lower end be fixedly connected with dry plate cooling fin (12), and if cooling fin described in dry plate (12) it is uniformly and equidistantly solid in matrix Surely it is connected to the lower end of heat conducting base (1).

7. a kind of high efficiency photovoltaic power generation beam condensing unit according to claim 2, it is characterised in that: the heat dissipation cavity (51) Internal chamber wall on be coated with insulating layer, the heat release hole (53) is far from being fixedly connected with heat-conducting insulating silicon in the one end of heat dissipation cavity (51) Rouge (13).

8. a kind of high efficiency photovoltaic power generation beam condensing unit according to claim 3, it is characterised in that: the gag lever post (63) One end far from spring (62) is fixedly connected with cushion (14), and the gag lever post (63) is close to the bar of (62) one end position of spring It is symmetrically fixedly connected on wall sliding block (15), symmetrically offers sliding slot along the vertical direction on the inner tube wall of the position-limiting drum (61) (16), the sliding block (15) is slidably connected in corresponding sliding slot (16).