CN210111913U - Solar actuator with better wind resistance - Google Patents

Abstract

The utility model relates to the technical field of solar actuators, and discloses a solar actuator with better wind resistance performance, which comprises a motor set, a gear set, a stress base, a stress set and a push rod set for telescopically adjusting the angle of a photovoltaic panel, wherein the motor set and the gear set are arranged in a meshing way, and the gear set and the push rod set are arranged in a meshing way; the stress seat, the gear set, the stress group and the push rod group are sequentially arranged and are relatively fixedly arranged. When the solar actuator is used, the motor group drives the gear group to work, and the gear group drives the push rod group to stretch, so that the angle adjustment of the photovoltaic panel is realized; the external impact force and the push-pull force are transmitted to the stress set through the push rod set, and the stress set is transmitted to the gear set and finally transmitted to the stress seat; under the action of the stress group and the stress seat, the bearing capacity of the push rod group is improved, so that the solar actuator has better wind resistance and the use of the solar actuator is ensured; the stress base effectively improves the load capacity of the solar actuator, and the solar actuator can adjust the photovoltaic panel conveniently.

Description

Solar actuator with better wind resistance

Technical Field

The patent of the utility model relates to a technical field of solar actuator particularly, relates to better solar actuator of wind resistance ability.

Background

The solar actuator is mainly applied to solar equipment, drives the photovoltaic panel to rotate along with the angle of sunlight, enables the maximum angle of the photovoltaic panel to receive the sunlight, realizes greater electric energy conversion rate, and ensures that the solar utilization rate is improved.

At present, the inclination angle of a photovoltaic panel is adjusted by a solar actuator according to the illumination direction, and the solar actuator realizes the angle adjustment of the photovoltaic panel through manual control or intelligent control.

In the prior art, when the angle of the photovoltaic panel is adjusted by the solar actuator, the solar actuator is easily influenced by wind power and the bearing capacity of the photovoltaic panel, the service life of the solar actuator is shortened due to insufficient impact force and insufficient load force of the conventional solar actuator, the service life of the solar actuator is generally required to be 20 years, and the service life of the conventional solar actuator cannot be met.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a better solar energy executor of anti-wind performance aims at solving prior art, and solar energy executor bearing capacity is low, problem that life is low.

The utility model discloses a solar energy executor that realizes like this, wind resistance is better, including motor assembly, gear train, atress seat, atress group and the push rod group of flexible regulation photovoltaic board angle, the motor assembly is meshing with the gear train and arranges, the gear train is meshing with the push rod group; the atress seat gear train the atress group the push rod group is arranged in proper order and is relative fixed arrangement.

Furthermore, the gear set is provided with a front end face facing the push rod set and a rear end face deviating from the push rod set, the stress seat is fixedly arranged with the rear end face of the gear set, and the stress group is fixedly arranged with the front end face of the gear set; the push rod group includes the telescopic body of rod and is the push rod shell of fixed arrangement, the inner of the body of rod with the push rod shell is fixed arrangement, the outer end of the body of rod extends and runs through respectively the atress group with the rear end face of gear train and with the gear train is the meshing and arranges.

Furthermore, the rod body comprises a telescopic part and a fixing part, the telescopic part forms the outer end, and the fixing part and the push rod shell are fixedly arranged; when the gear set drives the telescopic part to rotate, the telescopic part moves relative to the fixed part.

Furthermore, the stress group comprises a stress plate and a thrust bearing, the gear group comprises a connecting sleeve, the connecting sleeve penetrates through and fixes the thrust bearing, and the stress plate surrounds, surrounds and supports and fixes the thrust bearing; the outer end of the rod body penetrates through the thrust bearing and the connecting sleeve respectively.

Furthermore, the connecting sleeve comprises a front sleeve body and a rear sleeve body, the front sleeve body penetrates through the thrust bearing and is embedded and fixed in the rear sleeve body, and the thrust bearing is clamped between the front sleeve body and the rear sleeve body; the outer end of the rod body penetrates through the rear sleeve body, the thrust bearing and the front sleeve body in sequence.

Furthermore, the solar actuator with better wind resistance performance comprises a fastening nut, the outer end of the rod body penetrates through the front sleeve body and extends outwards to form a fixed section, and the fastening nut is connected with the fixed section; when the fastening nut and the fixed section are in a screwing state, the rod body and the gear set are relatively fixedly arranged.

Further, the fastening nut and the stressed seat are fixedly arranged.

Further, the gear set comprises a gear cover, a gear part and a gear shell with a side end opening, wherein the gear part is installed in the gear shell, and the gear cover covers the side end opening of the gear shell; the stress seat and the gear cover are fixedly arranged, and the gear shell and the stress plate are fixedly arranged.

Furthermore, the solar actuator with better wind resistance performance comprises a fixing piece, wherein the fixing piece penetrates through the stress base and extends to penetrate through the stress plate; when the fixing piece is screwed, the stress base and the stress plate are relatively fixedly arranged.

Furthermore, the solar actuator with better wind resistance performance comprises a connecting seat, the connecting seat and the stress plate are fixedly arranged, and the rod body penetrates through the connecting seat and extends outwards to be connected with the gear set; when the motor group drives the gear group to work, the rod body rotates to drive the push rod shell to move relative to the connecting seat.

Compared with the prior art, the solar actuator with better wind resistance provided by the utility model has the advantages that when the solar actuator is used, the gear set is driven by the motor set to work, and the gear set drives the push rod set to extend and retract, so that the angle adjustment of the photovoltaic panel is realized; the external impact force and the push-pull force are transmitted to the stress set through the push rod set, and the stress set is transmitted to the gear set and finally transmitted to the stress seat; under the action of the stress group and the stress seat, the bearing capacity of the push rod group is improved, so that the solar actuator has better wind resistance, and the service life of the solar actuator is ensured; in addition, the stress base effectively improves the load capacity of the solar actuator, greatly prolongs the service life, reduces the power generation cost, and is more energy-saving and more environment-friendly.

Drawings

Fig. 1 is an exploded schematic view of a solar actuator with better wind resistance provided by the present invention;

fig. 2 is a schematic cross-sectional view of a solar actuator with better wind resistance provided by the present invention;

fig. 3 is a schematic perspective view of the solar actuator with better wind resistance provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

Referring to fig. 1-3, the preferred embodiment of the present invention is shown.

The utility model provides a better solar energy executor of wind resistance performance, including motor assembly 10, gear train 20, atress seat 30, atress group 40 and telescopic adjustment photovoltaic board angle's push rod group 50, motor assembly 10 is the meshing with gear train 20 and is arranged, gear train 20 is the meshing with push rod group 50; the force bearing seat 30, the gear set 20, the force bearing set 40 and the push rod set 50 are arranged in sequence and are relatively fixedly arranged.

According to the solar actuator with better wind resistance, in the use process of the solar actuator, the motor group 10 drives the gear group 20 to work, and the gear group 20 drives the push rod group 50 to stretch and retract, so that the angle adjustment of the photovoltaic panel is realized; the external impact force and the push-pull force are transmitted to the force-bearing group 40 through the push rod group 50, and the force-bearing group 40 is transmitted to the gear group 20 and finally transmitted to the force-bearing seat 30; under the action of the stress group 40 and the stress base 30, the bearing capacity of the push rod group 50 is improved, so that the solar actuator has higher wind resistance and the use of the solar actuator is ensured; in addition, the stress base 30 effectively improves the load force of the solar actuator, greatly prolongs the service life, reduces the power generation cost, and is more energy-saving and more environment-friendly.

In this embodiment, the gear set 20 has a front end surface and a rear end surface, the front end surface of the gear set 20 is arranged toward the push rod set 50, the rear end surface of the gear set 20 is arranged away from the push rod set 50, the force-bearing seat 30 is fixedly arranged with the rear end surface of the gear set 20, and the force-bearing group 40 is fixedly arranged with the front end surface of the gear set 20; the push rod set 50 includes a telescopic rod body 51 and a push rod shell 52 fixedly arranged, the inner end of the rod body 51 is fixedly arranged with the push rod shell 52, and the outer end of the rod body 51 extends to respectively penetrate through the rear end faces of the force receiving set 40 and the gear set 20 and is arranged in a meshing manner with the gear set 20.

In this way, the force-bearing seat 30, the gear set 20, the force-bearing set 40 and the push rod set 50 form a whole, so that the overall structure of the solar actuator is more stable.

The body of rod 51 includes preceding pole and back pole, and gear set 20 is connected to the preceding pole, and preceding pole and back pole pass through threaded connection, and like this, when the rotatory preceding pole of gear set 20 drive, make the relative back pole of preceding pole remove, realize the flexible of the body of rod 51.

Alternatively, the extension and contraction of the rod body 51 are achieved by hydraulic pressure, or the extension and contraction of the rod body 51 are achieved by providing a driving motor.

The photovoltaic panel is fixed on the stress base 30, and under the effect of the stress base 30, the installation area of the photovoltaic panel is increased, and the bearing capacity of the solar actuator are improved.

In this embodiment, the rod body 51 includes a telescopic portion 512 and a fixing portion 511, the telescopic portion 512 forms an outer end, and the fixing portion 511 and the push rod shell 52 are fixedly disposed; when the gear set 20 drives the telescopic part 512 to rotate, the telescopic part 512 moves relative to the fixed part 511; thereby realize the flexible of the body of rod 51, realize the angle modulation to the photovoltaic board.

The stress group 40 comprises a stress plate 41 and a thrust bearing 70, the gear group 20 comprises a connecting sleeve 80, the connecting sleeve 80 penetrates through and fixes the thrust bearing 70, and the stress plate 41 surrounds and abuts against and fixes the thrust bearing 70; the outer end of the rod body 51 penetrates through the thrust bearing 70 and the connecting sleeve 80 respectively.

When the solar actuator is used, when the rod body 51 is subjected to external impact force and push-pull force, the impact force and the push-pull force are transmitted to the connecting sleeve 80, the connecting sleeve 80 is transmitted to the thrust bearing 70, and the thrust bearing 70 is transmitted to the stress plate 41, so that the force transfer is realized, and the bearing capacity of the solar actuator are improved.

The connecting sleeve comprises a front sleeve body and a rear sleeve body, the front sleeve body penetrates through the thrust bearing 70 and is embedded into the fixed rear sleeve body, and the thrust bearing 70 is clamped between the front sleeve body and the rear sleeve body; the outer end of the rod body 51 penetrates through the rear sleeve body, the thrust bearing 70 and the front sleeve body in sequence; under the effect of the front sleeve body and the rear sleeve body, the setting stability of the thrust bearing 70 is improved, and meanwhile, the transmission of impact force and push-pull force is facilitated.

The front sleeve body comprises a front baffle 82 and a front embedding section 81, the front baffle 82 is connected with one end of the front embedding section 81, the rear sleeve body comprises a rear baffle 84 and a rear embedding section 83, and the rear baffle 84 is connected with one end of the rear embedding section 83; the other end of the front insert section 81 is inserted into the thrust bearing 70, and the front baffle 82 abuts against one end of the thrust bearing 70, the other end of the rear insert section 83 is inserted into the thrust bearing 70, and the rear baffle 84 abuts against the other end of the thrust bearing 70; the relative fixing effect of the front sleeve body, the thrust bearing 70 and the rear sleeve body is enhanced, and the transmission and the transfer of force are ensured.

The front baffle 82 and the rear baffle 84 are respectively arranged in a circular ring shape, and the front baffle 82 and the rear baffle 84 are respectively arranged in a flat shape facing the thrust bearing 70; thus, the contact area of the front barrier 82 and the thrust bearing 70 is increased, the contact area of the rear barrier 84 and the thrust bearing 70 is increased, the arrangement stability of the thrust bearing 70 is enhanced, and the transmission and transfer of force are facilitated.

The rear sleeve body is connected with a deep groove ball bearing 90, and the rod body 51 penetrates through the rear sleeve body after penetrating through the deep groove ball bearing 90; under the action of the deep groove ball bearing 90, radial load is borne, and the telescopic stability of the rod body 51 is enhanced.

The solar actuator with better wind resistance performance comprises a fastening nut, wherein the outer end of the rod body 51 penetrates through the front sleeve body and extends outwards to form a fixed section, and the fastening nut is connected with the fixed section; when the fastening nut and the fixing section are in a screwed state, the rod body 51 and the gear set 20 are relatively fixedly arranged; the setting stability of the rod body 51 is enhanced.

The fastening nut and the stressed seat 30 are fixedly arranged, so that the stressed plate 41 can transmit impact force and push-pull force to the stressed seat 30 conveniently; and meanwhile, the connection stability of the force-bearing seat 30 and the gear set 20 is enhanced.

Specifically, the gear set 20 includes a gear cover 23, a gear portion 22, and a gear case 21 having a side end opening, the gear portion 22 being mounted in the gear case 21, the gear cover 23 covering the side end opening of the gear case 21; the stress base 30 and the gear cover 23 are fixedly arranged, and the gear shell 21 and the stress plate 41 are fixedly arranged; the force-bearing seat 30 and the gear set 20 are fixedly arranged relatively.

Furthermore, gear portion 22 includes a plurality of gears, and a plurality of gear intermeshing realizes the transmission of power, realizes that the power transmission of motor group 10 to the body of rod 51 realizes the flexible of the body of rod 51 to adjust the angle of photovoltaic board.

The solar actuator with better wind resistance performance comprises a fixing piece 60, wherein the fixing piece 60 penetrates through the stress base 30 and extends through the stress plate 41; when the fixing piece 60 is screwed, the stress base 30 and the stress plate 41 are in a relatively fixed arrangement; the force receiving base 30, the gear cover 23, the gear case 21 and the force receiving plate 41 are integrally formed by the fixing member 60.

In addition, under the action of the fixing member 60, the force bearing plate 41 is convenient to transmit the impact force and the push-pull force to the paper force bearing seat 30, so that the overall impact force and the load force are improved.

The solar actuator with better wind resistance performance comprises a connecting seat 53, wherein the connecting seat 53 and the stress plate 41 are fixedly arranged, and the rod body 51 penetrates through the connecting seat 53 and extends outwards to be connected with the gear set 20; when the motor group 10 drives the gear group 20 to work, the rod body 51 rotates to drive the push rod shell 52 to move relative to the connecting seat 53; the telescopic rod 51 is realized, and in addition, under the action of the connecting seat 53, the matching of the push rod shell 52 and the gear set 20 is facilitated.

The motor set 10 includes a driving motor 11, the driving motor 11 has a power output end, and the power output end of the driving motor 11 extends to engage with the gear portions 22 of the gear set 20, so as to drive the gears of each gear portion 22 to rotate, thereby realizing power transmission.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The solar actuator with better wind resistance is characterized by comprising a motor set, a gear set, a stress base, a stress set and a push rod set for telescopically adjusting the angle of a photovoltaic panel, wherein the motor set is meshed with the gear set, and the gear set is meshed with the push rod set; the atress seat gear train the atress group the push rod group is arranged in proper order and is relative fixed arrangement.

2. The solar actuator with better wind resistance according to claim 1, wherein the gear set has a front end surface facing the push rod set and a rear end surface facing away from the push rod set, the force-bearing seat is fixedly arranged with the rear end surface of the gear set, and the force-bearing group is fixedly arranged with the front end surface of the gear set; the push rod group includes the telescopic body of rod and is the push rod shell of fixed arrangement, the inner of the body of rod with the push rod shell is fixed arrangement, the outer end of the body of rod extends and runs through respectively the atress group with the rear end face of gear train and with the gear train is the meshing and arranges.

3. The more wind-resistant solar actuator of claim 2 wherein the rod includes a telescoping portion forming the outer end and a fixed portion in fixed arrangement with the ram housing; when the gear set drives the telescopic part to rotate, the telescopic part moves relative to the fixed part.

4. The solar actuator with better wind resistance performance according to claim 2, wherein the force-bearing set comprises a force-bearing plate and a thrust bearing, the gear set comprises a connecting sleeve, the connecting sleeve is arranged through and fixed with the thrust bearing, and the force-bearing plate surrounds and supports against and fixes the thrust bearing; the outer end of the rod body penetrates through the thrust bearing and the connecting sleeve respectively.

5. The solar actuator with better wind resistance as claimed in claim 4, wherein the connecting sleeve comprises a front sleeve body and a rear sleeve body, the front sleeve body penetrates through the thrust bearing and is embedded and fixed in the rear sleeve body, and the thrust bearing is clamped between the front sleeve body and the rear sleeve body; the outer end of the rod body penetrates through the rear sleeve body, the thrust bearing and the front sleeve body in sequence.

6. The better wind-resistant solar actuator of claim 5, wherein the better wind-resistant solar actuator comprises a fastening nut, the outer end of the rod body extends outwards through the front sleeve body to form a fixed section, and the fastening nut is connected with the fixed section; when the fastening nut and the fixed section are in a screwing state, the rod body and the gear set are relatively fixedly arranged.

7. The solar actuator of claim 6, wherein the tightening nut is fixedly disposed with respect to the force-bearing seat.

8. The solar actuator of claim 4 or 5, wherein the gear set comprises a gear cover, a gear portion and a gear housing having a side opening, the gear portion is mounted in the gear housing, and the gear cover covers the side opening of the gear housing; the stress seat and the gear cover are fixedly arranged, and the gear shell and the stress plate are fixedly arranged.

9. The better wind resistance solar actuator of claim 8, comprising a fixture extending through the force-bearing base and through the force-bearing plate; when the fixing piece is screwed, the stress base and the stress plate are relatively fixedly arranged.

10. The better wind resistance solar actuator according to claim 4 or 5, wherein the better wind resistance solar actuator comprises a connecting seat, the connecting seat and the stress plate are fixedly arranged, and the rod body penetrates through the connecting seat and extends outwards to connect with the gear set; when the motor group drives the gear group to work, the rod body rotates to drive the push rod shell to move relative to the connecting seat.

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