阅读说明：本技术 一种便携式光控太阳能鸟巢 (Portable light-operated solar energy bird's nest ) 是由 王玉铎 于 2021-07-29 设计创作，主要内容包括：本发明公开了一种便携式光控太阳能鸟巢,其结构设有机身、螺旋柄、控制转钮,螺旋柄嵌固安装在机身顶部,控制转钮活动于螺旋柄内侧,机身设有外框架、太阳能板、控制芯片、发光管,太阳能板连接在外框架内侧端,控制芯片与太阳能板为一体化结构且位于其中间端位置,通过受热块受热膨胀对位移体有侧推力,且对折动杆一侧端有拉力,便于其有所摆动,挤压受热块后端,便于其对外侧向产生更大的推力,通过撑架的伸缩性带动摆动块位移,弹块的瓣状结构,利于维持撑块的鼓起形态,重压球受动而活动,反向辅助弹块形变,并驱使撑架循环做伸缩,从而对受热块有后端回扯效果,便于活动体驱动位移体往复位移,有利于带动气流活跃流通。(The invention discloses a portable light-operated solar bird nest, which is structurally provided with a machine body, a spiral handle and a control rotating button, wherein the spiral handle is fixedly embedded at the top of the machine body, the control rotating button is movable inside the spiral handle, the machine body is provided with an outer frame, a solar panel, a control chip and a light emitting tube, the solar panel is connected to the inner side end of the outer frame, the control chip and the solar panel are in an integrated structure and are positioned at the middle position, a side thrust force is exerted on a displacement body through the thermal expansion of a heated block, a pulling force is exerted on one side end of a moving rod to facilitate the swinging of the moving rod, the rear end of the heated block is extruded to facilitate the generation of a larger thrust force outwards, the swinging block is driven to displace through the flexibility of a support frame, the flap-shaped structure of an elastic block is beneficial to maintaining the bulging shape of the support block, a heavy pressure ball is driven to move, the elastic block is reversely assisted to deform, and the support frame is driven to cyclically stretch, so that the rear end of the heated block is pulled back, the movable body drives the displacement body to reciprocate, and the air flow is driven to actively circulate.)

1. The utility model provides a portable light-operated solar energy bird nest, its structure is equipped with fuselage (1), spiral handle (2), control knob (3), spiral handle (2) are embedded solid and are installed at fuselage (1) top, control knob (3) are moved about in spiral handle (2) inboard, its characterized in that:

fuselage (1) is equipped with outer frame (11), solar panel (12), control chip (13), luminotron (14), solar panel (12) are connected at outer frame (11) medial extremity, control chip (13) and solar panel (12) be the integrated structure and be located its middle position, luminotron (14) embedded installation is in solar panel (12), control chip (13) cooperate with luminotron (14).

2. The portable, optically-controlled solar bird nest of claim 1, wherein: outer frame (11) are equipped with chamber groove (111), thermovent (112) and chamber groove (111) are adjacent to be set up, chamber groove (111) embedding activity is inside outer frame (11), thermovent (112) link up the setting with outer frame (11).

3. The portable, optically controlled solar bird nest of claim 2, wherein: the cavity groove (111) is provided with a movable body (a1), a displacement body (a2) and a center rod (a3), one end of the movable body (a1) is hinged and movably matched with the tail end of the displacement body (a2), and the movable body (a1) moves on the outer side of the center rod (a 3).

4. The portable, optically controlled solar bird nest of claim 3, wherein: the activity body (a1) is equipped with and rolls over pole (a11), arbor wheel (a12), receives heat piece (a13), bracer (a14), one side end is connected in book pole (a11) in arbor wheel (a12), receive about the heat piece (a13) end articulated connect in book pole (a11) and clearance fit, bracer (a14) are connected and are received heat piece (a13) rear end.

5. The portable, optically controlled solar bird nest of claim 4, wherein: the supporting block (a14) is provided with a supporting frame (b1) and a swinging block (b2), the supporting frame (b1) is connected with the tail end of the swinging block (b2) and movably matched with the tail end of the swinging block (b2), and the swinging block (b2) is embedded and movably arranged in the supporting block (a 14).

6. The portable, optically-controlled solar bird nest of claim 5, wherein: the swinging block (b2) is provided with an elastic block (b21), an elastic belt (b22) and a heavy-weight ball (b23), the elastic belt (b22) is embedded and installed inside the elastic block (b21), and the heavy-weight ball (b23) is embedded and movable inside the elastic belt (b 22).

7. The portable, optically controlled solar bird nest of claim 3, wherein: the displacement body (a2) is provided with a pushing block (a21), a loop bar (a22) and a displacement block (a23), one end of the loop bar (a22) is embedded into the pushing block (a21) and movably matched with the pushing block, and the other end of the loop bar (a22) is connected with the displacement block (a 23).

8. The portable, optically-controlled solar bird nest of claim 7, wherein: the displacement block (a23) is provided with an solid block (c1), an air flow port (c2), a sliding frame (c3) and a spring (c4), the air flow port (c2) and the solid block (c1) are of an integrated structure and are arranged in a penetrating mode, the spring (c4) is connected to one end of the sliding frame (c3) and is in movable fit, and the upper end and the lower end of the sliding frame (c3) are movably clamped on the inner side edge of the air flow port (c 2).

Technical Field

The invention belongs to the field of solar energy, and particularly relates to a portable light-operated solar bird nest.

Background

The light-operated solar bird nest is characterized in that when sunlight is enough in the daytime, the solar panel absorbs the sunlight to generate current and voltage, the solar panel battery is charged, and when the solar panel is on night, the battery current can be automatically output by light-operated sensing of the dark condition, so that the solar bird nest can emit light at night without the sunlight.

Based on the findings of the inventor, the existing portable light-operated solar bird nest has the following defects:

light-operated opening makes solar energy bird nest give off light at the battery, because emitting diode receives the current effect, can produce the heat in luminous operation, and the heat flows through the thermovent and dispels the heat, because portable light-operated solar energy bird nest can let personnel hold at any time, but the thermovent makes the hot gas flow slowly circulate, and heat dissipation power is not enough to dispel the heat fast, lets personnel appear the condition of scalding one's hand when holding portable solar energy bird nest easily.

There is therefore a need to provide a portable, optically controlled solar bird nest.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a portable light-operated solar bird nest to solve the problems in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a portable light-operated solar energy bird's nest, its structure is equipped with fuselage, spiral handle, control turn button, the spiral handle is embedded solid and is installed at the fuselage top, the activity of control turn button is inboard in the spiral handle.

The fuselage is equipped with outer frame, solar panel, control chip, luminotron, solar panel connects at outer frame medial extremity, control chip and solar panel be the integrated structure and be located its middle position department, the luminotron is embedded to be installed in solar panel, control chip cooperatees with the luminotron.

As a further improvement of the invention, the outer frame is provided with a cavity groove and a heat dissipation port, the heat dissipation port and the cavity groove are adjacently arranged, the cavity groove is embedded and movable in the outer frame, the heat dissipation port and the outer frame are arranged in a penetrating manner, the cavity groove and the heat dissipation port are respectively provided with eight positions and are uniformly distributed in an annular manner, the cavity groove performs displacement movement, and the inner side end of the heat dissipation port performs outward and inward protrusion movement to control the opening state of the cavity groove.

As a further improvement of the present invention, the cavity groove is provided with two movable bodies, two displacement bodies and a central rod, one end of each movable body is hinged and movably matched with the end of the displacement body, the movable bodies move outside the central rod, and each movable body and each displacement body are a group of movable bodies and two groups of displacement bodies, and are in a matched movement, and the two groups of movable bodies and each displacement body are symmetrical about the central rod, the lower end of the cavity groove is in an open state, the movable bodies can be heated to generate a movable force, and the movable bodies can be deformed by the heat below the movable bodies, so that the displacement bodies can be driven to move.

As a further improvement of the invention, the movable body is provided with a folding rod, a shaft wheel, a heated block and a support block, the shaft wheel is connected to one side end of the folding rod, the upper end and the lower end of the heated block are hinged to the folding rod and are movably matched, the support block is connected to the rear end of the heated block, the shaft wheel is a wheel with magnetism, the magnetic force of the upper shaft wheel and the magnetic force of the lower shaft wheel are the same, a repulsive magnetic field is generated, the heated block can expand and deform when being heated, the bending elastic force is better, the support block is in a petal shape and can be changed in shape, the heated block expands by being heated to drive the folding rod to perform a swing and folding movement, a certain thrust is reversely applied to the heated block, the support block is convenient to bulge and deform, the folding rod is reset and swing by the repulsive magnetic force of the shaft wheels, and the left and right displacement of the heated block is facilitated.

As a further improvement of the invention, the supporting block is provided with two supporting frames and two swinging blocks, the supporting frames are connected with the tail ends of the swinging blocks and movably matched with the tail ends of the swinging blocks, the swinging blocks are embedded and movably arranged in the supporting block, the supporting frames have elastic force, the swinging blocks are in a vertical symmetrical structure and are blocks made of plastic bodies and have good elastic deformation force, the swinging blocks provide bulging maintaining force for the supporting block under the driving of the supporting frames, and the supporting frames control the interval change of the supporting blocks, so that the supporting block is convenient to deform continuously.

As a further improvement of the invention, the swinging block is provided with an elastic block, an elastic band and a heavy pressing ball, the elastic band is embedded and installed in the elastic block, the heavy pressing ball is embedded and movable in the elastic band, the upper end and the lower end of the elastic band are made of silica gel materials and have certain flexibility, the heavy pressing ball is a sphere with weight, and the heavy pressing ball pushes and presses the elastic band when rolling to enable the elastic band to be elastically dragged and deformed and generates reaction elasticity for the heavy pressing ball to enable the heavy pressing ball to continuously roll, so that the swinging at a certain angle is facilitated while the elastic block deforms.

As a further improvement of the invention, the displacement body is provided with a pushing block, a sleeve rod and a displacement block, one end of the sleeve rod is embedded into the pushing block and movably matched, the other end of the sleeve rod is connected with the displacement block, the sleeve rod is a telescopic rod-shaped object, a spring is wound on the periphery of the sleeve rod, the displacement block is in a rectangular block shape, the pushing block is pressed, so that the sleeve rod pushes the displacement block to displace, the sleeve rod also contracts, when the elastic compression of the spring on the periphery is maximized, a reaction force is generated to push the pushing block back in a reverse direction, and the pushing block is circularly driven to perform displacement motion.

As a further improvement of the invention, the displacement block is provided with a solid block, an air flow port, a sliding frame and a spring, the air flow port and the solid block are in an integrated structure and are arranged in a penetrating way, the spring is connected to one end of the sliding frame and is movably matched with the sliding frame, the upper end and the lower end of the sliding frame are movably clamped on the inner side of the air flow port, the calibers of the air flow port are different from inside to outside, two air flow ports are arranged, and the penetrating structure of the air flow port is convenient for air flow to flow when air pressure changes, so that blowing force is generated outwards, the air flow port blows the upper end and the lower end of the sliding frame and enables the sliding frame to be pulled back under the elastic action of the spring, and the whole displacement block has a pulling effect.

Compared with the prior art, the invention has the following beneficial effects:

1. it has the side thrust to move the body to be heated the piece thermal expansion through being heated, and there is the pulling force to moving pole one side to the fifty percent discount, it swings to some extent of being convenient for, the extrusion receives the hot piece rear end, it produces bigger thrust to the outside side direction to be convenient for, the elasticity through the strut drives the displacement of swing piece, the lamella structure of bullet piece, do benefit to the form of swelling of maintaining the kicking block, heavily press the ball to be moved and the activity, reverse supplementary bullet piece deformation, and order about the strut circulation and do flexible, thereby there is the rear end to receive the hot piece and pull back the effect, the movable body drive displacement body reciprocating displacement of being convenient for, be favorable to driving the air current and flourish the circulation.

2. Push and press to the loop bar through pushing away the piece, the atmospheric pressure of pushing towards to the displacement piece is crowded to the outside and is concocted away through the air current mouth, it blows the effect to be tributary and produce at displacement piece outside end, the dispersion of the air current of being convenient for, lead to the fact the pulling to the spring by gas, the elastic reaction force of spring will slide the frame and reset and tear, make the displacement piece wholly have a backward inertial force, with the winding spring combined action in the loop bar outside, be convenient for produce backward removal thrust, do benefit to displacement piece circulation activity in heat-radiating hole department, further flourish the hot gas flow and make gas dispel the speed and accelerate.

Drawings

Fig. 1 is a schematic structural diagram of a portable light-operated solar bird nest according to the present invention.

Fig. 2 is a schematic view of an internal top view structure of a fuselage according to the present invention.

FIG. 3 is a schematic view of an internal top view of an outer frame according to the present invention.

FIG. 4 is a schematic diagram of an internal top view of a chamber of the present invention.

Fig. 5 is a schematic view of an internal plan structure of a movable body according to the present invention.

Fig. 6 is a schematic view of an internal top structure of a supporting block according to the present invention.

FIG. 7 is a schematic diagram of an internal top view of a swing block of the present invention.

FIG. 8 is a schematic diagram of an internal top view structure of a displacement body according to the present invention.

Fig. 9 is a schematic diagram of an internal top view structure of a displacement block according to the present invention.

In the figure: the device comprises a machine body-1, a spiral handle-2, a control knob-3, an outer frame-11, a solar panel-12, a control chip-13, a light emitting tube-14, a cavity groove-111, a heat dissipation port-112, a movable body-a 1, a displacement body-a 2, a central rod-a 3, a folding rod-a 11, a shaft wheel-a 12, a heated block-a 13, a support block-a 14, a support frame-b 1, a swing block-b 2, an elastic block-b 21, an elastic band-b 22, a heavy pressure ball-b 23, a push block-a 21, a sleeve rod-a 22, a displacement block-a 23, a solid block-c 1, an airflow port-c 2, a sliding frame-c 3 and a spring-c 4.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 7:

the invention provides a portable light-operated solar bird nest which is structurally provided with a machine body 1, a spiral handle 2 and a control knob 3, wherein the spiral handle 2 is fixedly embedded at the top of the machine body 1, and the control knob 3 is movably arranged at the inner side of the spiral handle 2.

Fuselage 1 is equipped with outer frame 11, solar panel 12, control chip 13, luminotron 14, solar panel 12 connects at outer frame 11 medial extremity, control chip 13 and solar panel 12 be the integrated structure and be located its middle position department, luminotron 14 is embedded to be installed in solar panel 12, control chip 13 cooperatees with luminotron 14.

The outer frame 11 is provided with a cavity groove 111 and a heat dissipation port 112, the heat dissipation port 112 is adjacent to the cavity groove 111, the cavity groove 111 is embedded in the outer frame 11, the heat dissipation port 112 is communicated with the outer frame 11, the cavity groove 111 and the heat dissipation port 112 are provided with eight positions and are uniformly distributed in an annular shape, the cavity groove 111 is subjected to displacement movement, and the inner side end of the heat dissipation port 112 is subjected to outward and inward protruding movement to control the opening state of the cavity groove.

Wherein, chamber groove 111 is equipped with activity body a1, the displacement body a2, well core rod a3, activity body a1 one end is connected and the clearance fit with the terminal articulated of the displacement body a2, activity body a1 activity is in well core rod a3 outside, activity body a1, the displacement body a2 all are equipped with two, and every activity body a1, the displacement body a2 do the cooperation activity for a set of, are equipped with two sets ofly to be symmetrical structure about well core rod a3, the chamber groove 111 lower extreme is open state, activity body a1 can be heated and produce the activity, activity body a1 receives the heat of below and has deformation to some extent, is convenient for drive the displacement body a2 and do the displacement activity.

The movable body a1 is provided with a folding rod a11, a shaft wheel a12, a heated block a13 and a supporting block a14, the shaft wheel a12 is connected to one side end of the folding rod a11, the upper end and the lower end of the heated block a13 are hinged to the folding rod a11 and are movably matched, the supporting block a14 is connected to the rear end of the heated block a13, the shaft wheel a12 is a wheel with magnetism, the magnetic forces of the upper shaft wheel a12 and the lower shaft wheel a12 are the same, a repelling magnetic field is generated, the heated block a13 can expand and deform when being heated, the bending elastic force is good, the supporting block a14 is in a petal-shaped form and can change the form, the heated block a13 expands to drive the folding rod a11 to swing and move, a certain thrust is exerted on the heated block a13 in the opposite direction, the supporting block a14 is convenient to expand and deform, the repelling magnetic force of the shaft wheel a12 enables the folding rod a11 a to swing and reset, and the heated block a13 can reciprocate.

The supporting block a14 is provided with a supporting frame b1 and a swinging block b2, the supporting frame b1 is connected with the tail end of a swinging block b2 and is in movable fit, the swinging block b2 is embedded and movable inside the supporting block a14, the supporting frame b1 has telescopic elastic force, the swinging block b2 is provided with two supporting blocks, the two supporting blocks are of a vertical symmetrical structure and are plastic body material blocks and have good elastic deformation force, the swinging block b2 provides bulging maintaining force for the supporting block a14 under the driving of the supporting frame b1, the spacing of the supporting block a14 is controlled by the supporting frame b1, and the supporting block a14 is convenient to deform continuously.

Wherein, swing piece b2 is equipped with elastic block b21, elastic band b22, heavily presses ball b23, elastic band b22 embedding is installed inside elastic block b21, heavily press ball b23 embedding activity inside elastic band b22, the upper and lower end is the silica gel material on elastic band b22, has certain flexibility, heavily press ball b23 for the spheroid that has the weight, heavily press ball b23 to produce when rolling to elastic band b22 and bulldoze, make it receive elasticity to drag and deform to heavily pressing ball b23 produces reaction elasticity, make heavy ball b23 constantly roll, do certain angle swing when doing in the time of doing that does benefit to elastic block b21 deformation.

The specific use mode and function of the embodiment are as follows: the personnel can carry the whole equipment portably through the screw handle 2, the control knob 3 is rotated, the control chip 13 can be controlled, the personnel can control whether the luminous tube 14 is in a luminous state or not, the solar panel 12 continues to absorb energy under the sunshine condition in the daytime, the luminous tube 14 can generate luminous operation through the light control performance of the control chip 13 at night, when the luminous tube emits light, current is output to enable air flow to become hot, the heated block a13 is heated and expanded through the through hole state at the lower end of the cavity groove 111, the deformation has certain lateral thrust to the displacement body a2 and changes along with the extension of the heated block a 3526, the pulling force is arranged at one side end of the folding rod a11, the folding rod a11 at the upper end and the lower end of the heated block a13 is convenient to swing, the rear end of the heated block a13 is further extruded to generate larger thrust to the outer side, the support block a14 deforms along with the extrusion of the folding rod a11, the lower end of the support block b1 drives the lower end of the swinging block b2 to displace, the petal-shaped structure of the elastic block b21 is beneficial to maintaining the bulging shape of the supporting block a14, the heavy-duty ball b23 is moved by being driven to generate elastic stamping force on the elastic band b22, the deformation of the elastic block b21 is reversely assisted, and the supporting frame b1 is driven to circularly stretch, so that the rear end dragging effect is realized on the heated block a13, the movable body a1 is convenient to drive the displacement body a2 to reciprocate, the displacement body a2 is enabled to circularly protrude and sink at the two side ends of the heat dissipation port 112, the active circulation of air flow is facilitated, the hot air flow is enabled to flow in an accelerated mode, and the heat dissipation effect is better.

Example 2:

as shown in fig. 8 to 9:

the displacement body a2 is provided with a push block a21, a loop bar a22 and a displacement block a23, one end of the loop bar a22 is embedded into the push block a21 and movably matched, the other end of the loop bar a22 is connected with the displacement block a23, the loop bar a22 is a telescopic rod-shaped object, a spring is wound on the periphery of the loop bar a22, the displacement block a23 is rectangular block-shaped, the push block a21 is pressed, the loop bar a22 pushes the displacement block a23 to displace, the loop bar a23 contracts, when the elastic compression of the peripheral spring is maximized, a reaction force is generated, the push block a21 is pushed back reversely, and the displacement block a23 is driven to move circularly.

The displacement block a23 is provided with an solid block c1, an air flow port c2, a sliding frame c3 and a spring c4, the air flow port c2 and the solid block c1 are integrated and arranged in a penetrating mode, the spring c4 is connected to one end of the sliding frame c3 and movably matched with the sliding frame c3, the upper end and the lower end of the sliding frame c3 are movably clamped on the inner side of the air flow port c2, the sizes of the apertures of the air flow ports c2 are different from inside to outside, two air flow ports c2 are arranged, the penetrating structure of the air flow port c2 facilitates air flow when air pressure changes, blowing force is generated outwards, the air flow blows the upper end and the lower end of the sliding frame c3 and enables the air flow to be pulled back under the elastic action of the spring c4, and the displacement block a23 has a pulling effect integrally.

The specific use mode and function of the embodiment are as follows: the pushing block a21 moves along with the driving of the heated block a13 to push and press the loop bar a22, so that the loop bar a22 is sleeved in the pushing block a21, when the pushing block a21 is pushed, the air pressure pushed to the displacement block a23 is squeezed outwards through the air flow port c2, the loop bar is branched and generates a blowing effect at the outer side end of the displacement block a23, so that the air flow is conveniently dispersed, the gas pushes the sliding frame c3 when passing through the air flow, the displacement of the pushing force drives the spring c4, the elastic reaction force of the spring 4 resets and pulls the sliding frame c3, the displacement block a23 has a backward inertia force integrally, the backward inertia force and the spring wound outside the loop bar a22 cooperate to generate backward moving thrust, so that the displacement block a23 is reset backwards along with the pushing block a21, the heat dissipation block a is beneficial to circulate at the heat dissipation port 112, and the gas heat dissipation speed is further accelerated.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.