CN110749009B

CN110749009B - Solar air conditioner outdoor unit and battery panel connecting device

Info

Publication number: CN110749009B
Application number: CN201911026610.8A
Authority: CN
Inventors: 姜寿保
Original assignee: Hangzhou Yaohan Photovoltaic Technology Co ltd
Current assignee: Hangzhou Yaohan photovoltaic equipment Co.,Ltd.
Priority date: 2019-10-26
Filing date: 2019-10-26
Publication date: 2021-06-04
Anticipated expiration: 2039-10-26
Also published as: CN110749009A

Abstract

The invention discloses a solar air-conditioning outdoor unit and battery panel connecting device, which comprises an air-conditioning outdoor unit, a main support, a sub-support and a solar battery panel, wherein the sub-support is respectively arranged at two ends of the main support and connected through a sub-rotating shaft device, the upper part of a top cover of the outdoor unit is provided with a main rotating shaft device, the lower part of the main support is connected with the top cover of the air-conditioning outdoor unit into a whole through the main rotating shaft device, the sub-rotating shaft device and the main rotating shaft device respectively rotate in the forward and reverse directions through a driving motor, the solar battery panels fixed on the sub-support and the main support are adjusted to receive solar energy at a proper attack angle. According to the invention, the solar cell panel integrally fixed on the upper bracket of the top cover of the air conditioner external unit is unfolded and folded, so that the installation is simplified, the angle can be adjusted according to different time positions of the sun to improve the power generation efficiency, and the air duct of the air outlet of the external unit formed in the folded state can prevent the blown air from short-circuiting and directly flowing back to the air inlet, thereby reducing the heat exchange efficiency.

Description

Solar air conditioner outdoor unit and battery panel connecting device

Technical Field

The invention relates to the technical field of solar air-conditioning equipment, in particular to a connecting device for a solar air-conditioning outdoor unit and a cell panel.

Background

In the installation process of the solar air conditioner, the solar panel and the air conditioner are installed separately, and in the actual installation process, the installation process is complicated and inconvenient due to the fact that the solar panel and the air conditioner need to be installed respectively, especially in the high-altitude installation process.

Meanwhile, the angle of the installed solar cell panel is fixed, and the cell surface is always outward, so that the solar cell panel is easily damaged by external foreign matters in use, and the service life of the solar cell panel is influenced.

In addition, during use. When the air conditioner is in a refrigerating state, hot air exhausted by an outdoor unit of the air conditioner is directly blown to the atmosphere, and because the air guide air duct is not arranged at the air outlet, blown hot air directly faces to the external atmospheric environment, so that the air speed is quickly attenuated to zero in a short distance, heat is not easy to be completely dispersed, an air flow is easy to be short-circuited and directly flows back to the air return position of the outdoor unit, and the heat dissipation of the outdoor unit of the air conditioner is seriously influenced. The heat exchange efficiency is greatly reduced, and especially in narrow space, when the mutual arrangement intervals of the outdoor units of the air conditioner are not large, the influence is more drastic.

The technical scheme that the solar cell panel is arranged on the outdoor unit of the air conditioner is shown later, and the technical scheme is described in the application as follows: 201080068868.5, the name is: in the patent document of an air conditioner with a solar cell, however, the technical scheme has the problems that the solar cell panel cannot be adjusted in shape and angle according to needs, and the hot air flow blown out by the air conditioner outdoor unit is short-circuited.

Therefore, for those skilled in the art, it is a technical problem to be solved how to design a device that can be easily installed, can adjust the shape and angle of the solar cell panel as required, and can avoid short circuit of air flow.

Disclosure of Invention

In order to solve the above problems, the present invention provides a solar air-conditioning outdoor unit and battery panel connecting device, which comprises an air-conditioning outdoor unit, a main support, a sub-support, and a solar battery panel, wherein the sub-support is respectively arranged at two ends of the main support and connected by a sub-rotating shaft device, the upper part of a top cover of the outdoor unit is provided with a main rotating shaft device, the lower part of the main support is connected with the top cover of the air-conditioning outdoor unit into a whole by the main rotating shaft device, the sub-rotating shaft device and the main rotating shaft device respectively rotate forward and backward by a driving motor, and the solar battery panels fixed on the sub-support and the main support are adjusted to receive solar energy at a proper angle of attack after.

Optionally, the sub-spindle device and the main spindle device include a shaft sleeve and a spindle.

Optionally, the driving motor is fixedly connected with the rotating shaft end.

Optionally, the drive motor is a dc motor.

Optionally, a solar tracker is further provided, wherein a photosensitive probe of the solar tracker is arranged on the main rotating shaft device, and the solar tracker senses the intensity of the received solar light source to adjust the proper irradiation attack angle of the unfolded solar cell panel.

The solar tracker is arranged, so that the effect of automatically adjusting the proper irradiation attack angle of the solar cell panel can be achieved.

Optionally, the solar cell panels fixed on the sub-support and the main support device are unfolded in a line in a using and unfolding state, and rotate between 90 and 180 degrees relative to the top cover included angle of the air conditioner outdoor unit according to the irradiation positions of the sun at different times.

Optionally, the sub-support and the main support are provided with a clamping groove, and the solar cell panel is embedded into the clamping groove to be quickly fixed.

Optionally, the card slot is L-shaped.

Optionally, when the solar cell panel is folded, the solar cell panel fixed on the main support is horizontally inverted in the direction facing the air outlet of the air conditioner outdoor unit, and the solar cell panel fixed on the sub-support is adjusted to be vertical downwards by the driving motor and surrounds the left, right and upper positions of the air outlet of the air conditioner outdoor unit to form an inverted U-shaped air duct structure.

Optionally, the length of the unfolded U-shaped air duct is 2-3 times of the thickness of a top cover of the air conditioner outdoor unit.

The solar panel is integrally arranged on the top cover of the outdoor unit of the air conditioner through the support, the solar panel is fixed on the support and rotates forwards and backwards through the driving motor, so that the solar panel can be freely turned and retracted, the 1 st effect of convenience and quickness in installation can be achieved, the 2 nd effect of improving the power generation efficiency of the solar panel can be achieved by providing a proper attack angle according to the solar irradiation direction, the 3 rd effect of effectively avoiding short circuit of air flow and improving the heat exchange efficiency of the outdoor unit of the air conditioner can be achieved by utilizing an air outlet air duct of the outdoor unit of the air conditioner formed by drawing in the solar panel, and the 4 th effect of prolonging the service life is achieved by avoiding the damage of the solar cell.

Drawings

FIG. 1 is a schematic view of a solar panel according to the present invention in an unfolded state at an included angle of 90 degrees.

FIG. 2 is a schematic side view of the solar cell panel at an included angle of 90-180 degrees.

Fig. 3 is a schematic drawing of the solar panel according to the present invention.

FIG. 4 is a schematic view of the folded solar panel of the present invention forming an air duct.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution of the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view showing a solar panel unfolded at a 90-degree included angle, which includes an outdoor unit 111,

sub-supports

100, 109, a main support 103, and

solar panels

110a, 103a, 109a, wherein the

sub-supports

100, 109 are respectively disposed at two ends of the main support 103, the sub-support 100 is connected via a sub-rotating shaft device 102, the sub-support 109 via a sub-rotating shaft 107, a main rotating shaft device 105 is disposed at an upper portion of a top cover 100 of the outdoor unit 111, a lower portion of the main support 103 is connected with the top cover 110 of the outdoor unit 111 via the main rotating shaft device 105, the

sub-rotating shaft devices

102, 107 are respectively connected via, and the main rotating shaft device 105 adjusts the solar panels 110a and 109a fixed on the

sub-brackets

100 and 109 through the forward and reverse rotation of the driving motor 108, and a solar cell panel 103a on the main stand 103, which receives solar energy at a proper angle of attack after being unfolded, and forms an auxiliary air duct of an air outlet of the outdoor unit 111 of the air conditioner when being folded.

Sub-spindle means 102, 107. And the main rotating shaft device 105 is respectively composed of a shaft sleeve and a rotating shaft, the rotating shaft is sleeved in the shaft sleeve, the side edges of the sub rotating shaft device 102 and the sub bracket 100, the side edges of the sub rotating shaft device 107 and the sub bracket 109, and the lower parts of the main rotating shaft device 105 and the main bracket 103 are connected and can rotate forward and backward.

The top ends of the rotating shafts fixedly connected with the side edges of the

sub-brackets

100 and 109 are respectively fixedly connected with the rotating shafts of the

driving motors

101 and 106, the right end of the rotating shaft fixedly connected with the lower part of the main bracket 103 is fixedly connected with the rotating shaft of the driving motor 108, and the driving motors rotate in the forward and reverse directions to drive the

brackets

100 and 109 and the main bracket 103 to rotate in the forward and reverse directions.

Further, in order to adjust the forward and reverse rotation angles of the bracket more accurately, the

driving motors

101, 106 and 108 are direct current motors.

Further, in order to automatically adjust the optimal irradiation angle between the

solar panels

110a, 103a, 109a fixed on the

sub-supports

100, 109, main support 103 and the sun 112 in the use state, a solar tracker 104 is provided, the light sensing probes of the solar tracker 104 are respectively arranged outside the two sides of the shaft sleeve of the main rotating shaft device 105, and the optimal irradiation attack angle, that is, the angle formed by the solar panels substantially aligning to the light irradiation direction of the sun 112, is adjusted by sensing the irradiation position of the sun 112 in different time periods.

Fig. 2 is a schematic side view of the solar cell panels respectively at an included angle of 90-180 degrees, and it can be seen that when the folded solar cell panels need to be unfolded, the solar cell panel 103a rotates clockwise from the folded state to the 90-degree position shown in fig. 1 through the driving motor 108, and at this time, the solar cell panels 110a and 109a rotate through the

driving motors

101 and 106, respectively, so that the solar cell panels 110a and 109a are unfolded to be aligned with the solar cell panel 103 a.

Along with the difference of the sun 112 in different time periods, the

solar cell panels

110a, 103a, 109a that expand into a line respectively with the air condensing units 111 top cap 110 contained angle, through the clockwise rotation of driving motor 108, guarantee that the solar cell panel that expands can adjust between 90 ~ 180 degrees for solar 112 basic energy shines solar cell panel, when solar cell panel expands 180 degrees, when the outer machine 111 top cap 110 of air conditioner is placed for air intake direction level promptly, this moment is not rotating. Until going downhill with the sun.

When the light source is not sensed, the unfolded

solar panels

110a, 103a, 109a are rotated counterclockwise by the driving motor 108 to the 90-degree angle starting position shown in fig. 1, and then the solar panels 110a, 109a are rotated by the

driving motors

101, 106, respectively. The solar cell panel 109a is folded relative to the cell surface direction, and forms a vertical included angle, i.e., a 90-degree included angle, with the solar cell panel 109a to form a U-shaped structure.

After the 90-degree included angle is formed, the solar cell panel 103a continues to rotate counterclockwise through the driving motor 108, and finally reaches a horizontal position relative to the air outlet direction of the top cover 110 of the air conditioner outdoor unit 111, and at the moment, the

solar cell panel

110a, 103a and 109a form a U-shaped structure. The air outlets around the air conditioner outdoor unit 111 are arranged at the left, right and upper positions to form an inverted U-shaped air duct, so that the blown hot air can be spread out at a longer distance, and the short circuit of the air flow is avoided.

Because the air conditioner outdoor unit blows hot air which is scattered upwards, the problem of short circuit of air flow can be effectively solved through the inverted U-shaped air duct formed by the solar cell panel.

Meanwhile, the solar panel battery faces inwards, so that the solar battery can be prevented from being damaged by external foreign matters, and the purposes of protecting the solar battery and prolonging the service life are achieved. Furthermore, in order to ensure the wind guiding efficiency of the air duct and fully disperse the blown hot air, the length of the solar cell panel is 2 to 3 times the thickness of the top cover 110 of the air conditioner outdoor unit 111.

The folding process and the final state of the solar electromagnetic plate are respectively shown in the schematic diagrams of fig. 3 and 4.

Further, in order to ensure that the

solar panels

110a, 103a, 109a can be quickly mounted on the sub-bracket 100, the main bracket 103, and the sub-bracket 109, respectively, the relevant bracket is provided with a slot,

during actual installation, the

solar panels

110a, 103a and 109a are directly embedded into the clamping grooves and then fixed through the quick fixing device, so that the complexity in conventional installation is avoided, and the advantage of high-rise installation is more obvious.

The shape of the clamping groove is preferably L-shaped, other known shapes can be selected, such as groove shape, and the material can be metal or non-metal.

The quick-fastening means may be selected from the currently known means, such as rotational fastening, etc.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A solar air-conditioning outdoor unit and battery board connecting device comprises an air-conditioning outdoor unit, a main support, a sub-support and a solar battery board, wherein the sub-support is respectively arranged at two ends of the main support and connected through a sub-rotating shaft device; the sub-rotating shaft device and the main rotating shaft device comprise shaft sleeves and rotating shafts; the driving motor is fixedly connected with the rotating shaft end; the solar tracking device is also provided with a solar tracker, a photosensitive probe of the solar tracker is arranged on the main rotating shaft device, and the solar panel which is unfolded is adjusted by sensing the intensity of the received solar light source through the solar trackerIs suitable forIrradiating an attack angle; the solar cell panels fixed on the sub-and main support devices are unfolded in a line in a using and unfolding state, and rotate between 90 and 180 degrees relative to the included angle of the top cover of the air conditioner outdoor unit according to the irradiation positions of the sun at different times; when the solar panel is folded, the solar panel fixed on the main support is horizontally inverted in the direction facing the air outlet of the air conditioner outdoor unit, the solar panel fixed on the sub-support is adjusted to be vertical downwards through the driving motor, and the solar panel surrounds the left, right and upper positions of the air outlet of the air conditioner outdoor unit to form an inverted U-shaped air channel structure; the length of the unfolded U-shaped air channel is 2-3 times of the thickness of a top cover of the air conditioner outdoor unit.

2. The outdoor unit of claim 1, wherein the driving motor is a dc motor.

3. The outdoor unit of an air conditioner using solar energy as claimed in claim 1, wherein the sub-bracket and the main bracket are provided with a slot, and the solar cell panel is inserted into the slot for fast fixing.

4. The outdoor unit of claim 3, wherein the engaging groove is L-shaped.