CN212319357U - Support arm for solar monitoring - Google Patents

Abstract

The utility model discloses a support arm for solar energy control, including inside hollow support subject, the battery is arranged in the support subject, the bottom of support subject both sides wall is equipped with first recess, and the trough rim of first recess is equipped with a plurality of first slotted holes, and the control connecting piece is connected to the one end of support subject, and the mounting is connected to its other end. The beneficial effects reside in that, the utility model discloses simple structure makes things convenient for the installation and the maintenance of battery. The hollow support main body in the interior can be used for placing batteries with different specifications, and the closed structure of the hollow support main body can prevent rainwater from immersing to damage the batteries. All the parts are tightly fixed through bolts, and the solar component and the monitor can be more stably installed on the connecting structure. Meanwhile, the support arm is made of aluminum alloy, so that the battery can be properly insulated, the battery is prevented from being aged due to high temperature, and the service life of the battery is further prolonged.

Description

Support arm for solar monitoring

Technical Field

The utility model relates to a solar energy control support technical field especially relates to a support arm for solar energy control.

Background

Along with the enhancement of environmental awareness of people, the importance of solar energy is increasingly prominent, and the solar energy is collected and converted into electric energy for production and living. In the field of solar energy utilization, solar energy monitoring products are small in popularization in a certain range, and the following problems exist in the current solar energy monitoring:

the solar monitoring battery is exposed outside and is easy to be corroded by rainwater to cause short product quality and short circuit failure.

Due to the thin and fragile characteristics of the solar monitoring support, when the solar monitoring support irradiates the battery, the battery is easily worn under a high-temperature state for a long time, and the service life of the battery is shortened.

The above problems remain to be solved.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, the utility model provides a support arm for solar energy control.

The utility model discloses technical scheme as follows:

the utility model provides a support arm for solar energy control, includes inside hollow support main part, and the battery is arranged in the support main part, the bottom of support main part both sides wall is equipped with first recess, the trough rim of first recess is equipped with a plurality of first slotted holes, the control connecting piece is connected to the one end of support main part, and the mounting is connected to its other end, a lateral wall of control connecting piece passes through the fagging and is connected with solar energy component, the bottom of control connecting piece is passed through the sleeve and is connected with the watch-dog.

Further, the sleeve is a cylinder with a hollow inner part, and the sleeve is obliquely arranged at the bottom of the monitoring connecting piece.

According to the above scheme the utility model discloses, a serial communication port, first connecting plate is connected to the one end of support main part, and the second connecting plate is connected to its other end.

According to the above scheme the utility model discloses, a serial communication port, the top of control connecting piece is equipped with a plurality of connecting piece fixed orificess.

Furthermore, a second groove is formed in the monitoring connecting piece, and a second groove hole is formed in the groove edge of the second groove.

According to the above scheme the utility model discloses, a serial communication port, the left and right sides of oblique fagging evenly is equipped with the oblique fagging fixed orifices.

According to above scheme the utility model discloses, its characterized in that, the top of mounting is equipped with a plurality of mounting fixed orificess.

Furthermore, a third groove is formed in the fixing piece, and a third slotted hole is formed in the groove edge of the third groove.

According to the above scheme the utility model discloses, its characterized in that, a lateral wall slant of mounting is provided with the fixed plate, the left and right sides of fixed plate evenly is equipped with the fixed plate fixed orifices.

According to the above scheme the utility model discloses, a serial communication port, the support main part the control connecting piece and the mounting passes through the external member fixed, the top both ends of external member respectively are equipped with the external member fixed orifices, the both sides wall symmetry of external member evenly is equipped with the external member mounting hole.

According to the above scheme the utility model discloses, a serial communication port, a support arm for solar energy control is the aluminum alloy material.

According to the above scheme the utility model discloses, its beneficial effect lies in, the utility model discloses simple structure makes things convenient for the installation and the maintenance of battery. The hollow support main body in the interior can be used for placing batteries with different specifications, and the closed structure of the hollow support main body can prevent rainwater from immersing to damage the batteries. All the parts are tightly fixed through bolts, and the solar component and the monitor can be more stably installed on the connecting structure. Meanwhile, the support arm is made of aluminum alloy, so that the battery can be properly insulated, the battery is prevented from being aged due to high temperature, and the service life of the battery is further prolonged.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an exploded view of the present invention.

Fig. 3 is a schematic view of the monitoring connection structure of the present invention.

Fig. 4 is a schematic view of the fixing member structure of the present invention.

Fig. 5 is a schematic view of the main structure of the bracket of the present invention.

Fig. 6 is a partial enlarged view of the stent main body according to the present invention.

In the figure:

1. a bracket main body 11, a first groove 110, a first slot hole 100, a bracket connecting hole,

2. a monitoring connecting piece, 21, a second groove, 22, an inclined supporting plate, 23, a sleeve, 200, a connecting piece fixing hole, 210, a second slotted hole, 220 and an inclined supporting plate fixing hole,

3. a fixing piece 31, a third groove 32, a fixing plate 300, a fixing piece fixing hole 310, a third groove hole 320, a fixing plate fixing hole,

4. a sleeve member 400, a sleeve member fixing hole 401, a sleeve member mounting hole,

5. first connecting plate, 6, second connecting plate, 500, first connecting hole, 501, through-hole, 600, second connecting hole.

Detailed Description

The invention is further described with reference to the following figures and embodiments:

as shown in fig. 1-6, a support arm for solar monitoring comprises a hollow support body 1, a battery is disposed in the support body 1, first grooves 11 are disposed at the bottom ends of two side walls of the support body 1, a plurality of first slotted holes 110 are disposed at the slot edges of the first grooves 11, one end of the support body 1 is connected with a monitoring connecting piece 2, the other end of the support body is connected with a fixing piece 3, one side wall of the monitoring connecting piece 2 is connected with a solar module through an inclined support plate 22, and the bottom of the monitoring connecting piece 2 is connected with a monitor through a sleeve 23.

In this embodiment, one end of the bracket body 1 is connected to the first connecting plate 5, and the other end is connected to the second connecting plate 6, and the specific connection mode is as follows: four first connecting holes 500 are formed in four corners of the first connecting plate 5, four support connecting holes 100 are correspondingly formed in one end wall of the support, and the first connecting holes 500 and the support connecting holes 100 are fixed through screws. Four second connecting holes 600 are formed in the four corners of the second connecting plate 6, four support connecting holes 100 are correspondingly formed in the other end wall of the support, and the second connecting holes 600 and the support connecting holes 100 are fixed through screws. The hollow bracket body 1 can be used for placing batteries with different specifications, and the closed structure can prevent rainwater from immersing to damage the batteries.

In the present embodiment, through holes 501 are vertically distributed in the middle of the first connecting plate 5 for routing the internal circuit of the battery.

In this embodiment, the left and right sides of the inclined strut 22 are uniformly provided with inclined strut fixing holes 220 for fixing the solar module. The inclined arrangement of the inclined strut 22 enables the solar module to be exposed to a large area of light.

In this embodiment, a fixing plate 32 is obliquely disposed on one side wall of the fixing member 3, and fixing plate fixing holes 320 are uniformly disposed on the left and right sides of the fixing plate 32 for fixing on a wall board or a support rod.

In this embodiment, the bracket body 1, the monitoring connector 2 and the fixing member 3 are fixed by a sleeve 4, sleeve fixing holes 400 are respectively formed at two ends of the top of the sleeve 4, and sleeve mounting holes 401 are symmetrically and uniformly formed on two side walls of the sleeve 4. Two connecting piece fixing holes 200 are formed in the top of the monitoring connecting piece 2, a second groove 21 is formed in the monitoring connecting piece 2, and a second groove hole 210 is formed in the groove edge of the second groove 21. The top of the fixing member 3 is provided with two fixing member fixing holes 300, the fixing member 3 is provided with a third groove 31, and the groove edge of the third groove 31 is provided with a third groove hole 310. The specific connection mode is as follows: the monitoring connecting piece 2 is abutted to one end of the support, the fixing piece 3 is abutted to the other end of the support, the extending part of the fixing piece 3 is contacted with the top of the other end of the support main body 1, the sleeve piece 4 is sleeved outside the monitoring connecting piece 2, the support main body 1 and clamped into the first groove 11, the second groove 21 and the third groove 31, the sleeve piece fixing hole 400 and the connecting piece fixing hole 200 are fixed through a bolt, the first slotted hole 110 is fixed with one sleeve piece mounting hole 401 at one end of the sleeve piece 4 through a bolt, and the second slotted hole 210 is fixed with the other sleeve piece mounting hole 401 at one end of the sleeve piece 4 through a bolt; the sleeve fixing hole 400 and the fixing piece fixing hole 300 are fixed through a bolt, the first slot hole 110 is fixed with one sleeve mounting hole 401 at the other end of the sleeve 4 through a bolt, and the third slot hole 310 is fixed with the other sleeve mounting hole 401 at the other end of the sleeve 4 through a bolt, so that the monitoring connecting piece 2, the support main body 1, the fixing piece 3 and the sleeve 4 are fixedly connected.

In this embodiment, the bottom of the main body 1 is further provided with a wiring hole for communicating with other components.

In this embodiment, the sleeve 23 is a hollow cylinder, and the sleeve 23 is disposed at the bottom of the monitoring connector 2 in an inclined manner. The solar component and the monitor can bear the monitor, the solar component and the battery through tightness and firmness among all the parts, so that the monitor is kept stable and does not shake, and the generated picture is stable and clear.

In this embodiment, the monitor connector 2 and the inclined strut 22 are integrally formed.

In the present embodiment, the fixing member 3 and the fixing plate 32 are integrally formed.

The utility model has the advantages of simple structure, make things convenient for the installation and the maintenance of battery. The hollow bracket body 1 can be used for placing batteries with different specifications, and the closed structure can prevent rainwater from immersing to damage the batteries. All the parts are tightly fixed through bolts, and the solar component and the monitor can be more stably installed on the connecting structure. Meanwhile, the support arm is made of aluminum alloy, so that the battery can be properly insulated, the battery is prevented from being aged due to high temperature, and the service life of the battery is further prolonged.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

The above exemplary description of the present invention is made in conjunction with the accompanying drawings, and it is obvious that the present invention is not limited by the above manner, and various improvements made by the method concept and technical solution of the present invention or by directly applying the concept and technical solution of the present invention to other occasions without improvement are all within the protection scope of the present invention.

Claims (10)

1. The utility model provides a support arm for solar energy control, its characterized in that, includes inside hollow support subject, and the battery is arranged in the support subject, the bottom of support subject both sides wall is equipped with first recess, the trough rim of first recess is equipped with a plurality of first slotted holes, the control connecting piece is connected to the one end of support subject, and the mounting is connected to its other end, a lateral wall of control connecting piece passes through the fagging and is connected with solar energy component, the bottom of control connecting piece is passed through the sleeve and is connected with the watch-dog.

2. An arm for solar monitoring according to claim 1, wherein the bracket body is connected at one end to a first connection plate and at the other end to a second connection plate.

3. The arm of claim 1, wherein the top of the monitoring connector has a plurality of connector fixing holes.

4. A support arm for solar energy monitoring as claimed in claim 3, wherein the monitoring connector is provided with a second groove, and the groove edge of the second groove is provided with a second slotted hole.

5. The support arm for solar monitoring according to claim 1, wherein the left and right sides of the inclined strut are uniformly provided with inclined strut fixing holes.

6. The support arm for solar monitoring according to claim 1, wherein the top of the fixing member is provided with a plurality of fixing member fixing holes.

7. The support arm for solar monitoring as claimed in claim 6, wherein the fixing member is provided with a third groove, and a groove edge of the third groove is provided with a third slotted hole.

8. The support arm for solar monitoring according to claim 1, wherein a fixing plate is obliquely arranged on one side wall of the fixing member, and fixing holes for the fixing plate are uniformly arranged on the left side and the right side of the fixing plate.

9. The support arm for solar monitoring according to claim 1, wherein the support main body, the monitoring connecting piece and the fixing piece are fixed through a sleeve, sleeve fixing holes are respectively formed in two ends of the top of the sleeve, and sleeve mounting holes are symmetrically and uniformly formed in two side walls of the sleeve.

10. The boom for solar energy monitoring of claim 1, wherein the boom for solar energy monitoring is made of aluminum alloy.

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