CN219697524U - Sectional type single-column photovoltaic bracket - Google Patents

Abstract

The utility model discloses a sectional type single-upright-column photovoltaic bracket, which relates to the technical field of photovoltaic brackets, and comprises an upright column assembly, an inclined strut and a top beam which are connected with each other, wherein the upright column assembly comprises at least two support sleeves which are sequentially arranged from bottom to top, and the pipe diameters of the support sleeves are sequentially reduced from bottom to top; the upper end of each support sleeve is sleeved with the lower end of the support sleeve above the support sleeve and is connected with each other, the lower end of the support sleeve at the lowest position is not connected with any support sleeve, and the upper end of the support sleeve at the highest position is connected with the top beam. Along with the change of cross-section demand, support sleeve's pipe diameter reduces from bottom to top in proper order, when guaranteeing that it can stabilize the support back timber for every support sleeve can be by make full use of, and then make the material of making support sleeve can obtain make full use of, reduce the material extravagant, reduce cost.

Description

Sectional type single-column photovoltaic bracket

Technical Field

The utility model relates to the technical field of photovoltaic supports, in particular to a sectional type single-upright photovoltaic support.

Background

The photovoltaic support is used for supporting the photovoltaic panel and lifting the photovoltaic panel to the required height on the ground.

The existing photovoltaic support is of a single upright post and of a cantilever structure, and the bending moment of the column shaft is linearly increased from the top of the column to the bottom of the column, so that the section required by the lower section of the upright post is larger, and the section required by the upper section of the upright post is smaller. The traditional upright posts are designed entirely, so that the supporting force is ensured, the entire upright post is generally designed according to the section of the lower section of the upright post, namely, the larger section, so that the material performance can not be fully utilized, the material waste is caused, and the cost is increased.

Disclosure of Invention

The utility model aims at: aiming at the problems, the sectional type single-upright photovoltaic bracket is provided for replacing a single upright with the same section, a plurality of supporting sleeves with different sections are arranged to form the upright, the positions are different, the sections of the supporting sleeves are different, and materials are fully utilized.

The technical scheme adopted by the utility model is as follows:

the sectional type single-upright photovoltaic bracket comprises an upright post assembly, an inclined strut and a top beam which are connected with each other, wherein the upright post assembly comprises at least two support sleeves which are sequentially arranged from bottom to top, and the pipe diameters of the support sleeves are sequentially reduced from bottom to top; the upper end of each support sleeve is sleeved with the lower end of the support sleeve above the support sleeve and is connected with each other, the lower end of the support sleeve at the lowest position is not connected with any support sleeve, and the upper end of the support sleeve at the highest position is connected with the top beam.

Preferably, the number of the inclined struts is at least two, at least one inclined strut is connected with one end of the supporting sleeve and the top beam, and at least one inclined strut is connected with the other end of the supporting sleeve and the top beam.

Preferably, the inclined struts connected with the two ends of the support sleeve are different in length, and the top beam is obliquely arranged.

Preferably, the diagonal brace is connected to a support sleeve.

Preferably, a hoop is connected between the diagonal bracing and the support sleeve, the hoop is sleeved on the support sleeve and is connected with the support sleeve, and the outer wall of the hoop is connected with the diagonal bracing.

Preferably, the lower end of the lowest support sleeve is sleeved with a support, and the support sleeve are inserted into the ground together.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows: through connecting gradually two at least support sleeve pipes, form the stand subassembly, along with the change of cross-section demand, support sleeve pipe's pipe diameter reduces in proper order from bottom to top, when guaranteeing that it can stabilize the support back timber for every support sleeve pipe can be by make full use of, and then make the preparation support sleeve pipe's material obtain make full use of, reduce the material extravagant, reduce cost.

Drawings

Fig. 1 is a front perspective view of embodiment 1 of the present utility model.

Fig. 2 is a front perspective view of embodiment 2 of the present utility model.

The marks in the figure: the vertical column assembly-1, the lower support sleeve-11, the middle support sleeve-12, the upper support sleeve-13, the first diagonal bracing-21, the second diagonal bracing-22, the top beam-3, the auxiliary plate-4 and the anchor ear-5.

Detailed Description

The present utility model will be described in detail with reference to the accompanying drawings.

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Example 1:

referring to fig. 1, a sectional type single-column photovoltaic bracket comprises a column assembly 1, an inclined strut and a top beam 3. The upright post assembly 1 comprises a lower support sleeve 11, a middle support sleeve 12 and an upper support sleeve 13 which are sequentially arranged from bottom to top, the pipe diameters of the lower support sleeve 11 and the upper end of the middle support sleeve 12 are sequentially reduced, the upper support sleeve 13 is hollow or solid; the lower end of the lower support sleeve 11 is fixedly provided with a support, and the support are inserted into the ground together, so that the stability of the foundation at the bottom of the whole pillar assembly is ensured, and the stability of the top beam 3 is further ensured; the lower end of the middle support sleeve 12 is inserted into the upper end of the lower support sleeve 11, both are provided with threaded holes, and are relatively fixed in a mode that bolts penetrate through the threaded holes; the lower end of the upper support sleeve 13 is inserted into the upper end of the middle support sleeve 12, both of which are provided with threaded holes and are relatively fixed in a manner that bolts pass through the threaded holes.

An auxiliary plate 4 is fixed at the middle part of the lower surface of the top beam 3, and the upper end of an upper support sleeve 13 is connected with the auxiliary plate 4 and indirectly connected with the top beam 3; threaded holes are formed in the upper end of the upper support sleeve 13 and the auxiliary plate 4, and the upper end of the upper support sleeve and the auxiliary plate 4 are relatively fixed in a mode that bolts penetrate through the threaded holes.

The outer wall of the upper end of the middle support sleeve 12 is sleeved with a hoop 5, and the hoop 5 is positioned at the joint of the middle support sleeve 12 and the upper support sleeve 13. The diagonal bracing is provided with two, is first diagonal bracing 21 and second diagonal bracing 22 respectively, and two different length for roof beam 3 slope. The first diagonal bracing 21 and the second diagonal bracing 22 are oppositely arranged and are respectively positioned on two opposite sides of the middle support sleeve 12; the upper end of the first inclined strut 21 is connected with the left end of the top beam 3, the lower end of the first inclined strut 21 is connected with the left side of the anchor ear 5, threaded holes are formed in the upper end of the first inclined strut 21 and the left end of the top beam 3, the upper end of the first inclined strut 21 and the left end of the top beam 3 are relatively fixed in a mode that bolts penetrate through the threaded holes, threaded holes are formed in the lower end of the first inclined strut 21 and the left side of the anchor ear 5, and the upper end of the first inclined strut and the left side of the anchor ear are relatively fixed in a mode that bolts penetrate through the threaded holes; the upper end of the second diagonal bracing 22 is connected with the right end of the top beam 3, the lower end is connected with the right side of the anchor ear 5, threaded holes are formed in the upper end of the second diagonal bracing 22 and the right end of the top beam 3, the upper end of the second diagonal bracing 22 and the right end of the top beam 3 are relatively fixed in a mode that bolts penetrate through the threaded holes, threaded holes are formed in the lower end of the second diagonal bracing 22 and the right side of the anchor ear 5, and the upper end of the second diagonal bracing and the right side of the anchor ear are relatively fixed in a mode that bolts penetrate through the threaded holes. The anchor ear 5 is used for providing a connecting tool of the first diagonal bracing 21 and the second diagonal bracing 22 and the middle support sleeve 12, and also used for preventing the first diagonal bracing 21 and the second diagonal bracing 22 from influencing the connection of the middle support sleeve 12 and the upper support sleeve 13; the hoop 5 is designed to concentrate the stress of the middle support sleeve 12, and the first diagonal bracing 21 and the second diagonal bracing 22 are arranged oppositely to balance the stress of the second support tube.

Example 2:

referring to fig. 2, a sectional type single-column photovoltaic bracket comprises a column assembly 1, an inclined strut and a top beam 3. The upright post assembly 1 comprises a lower support sleeve 11 and an upper support sleeve 13 which are sequentially arranged from bottom to top, wherein the pipe diameter of the lower support sleeve 11 is larger than that of the upper support sleeve 13, the upper end of the lower support sleeve 11 is hollow, and the upper support sleeve 13 is hollow or solid; the lower end of the lower support sleeve 11 is fixedly provided with a support, and the support are inserted into the ground together, so that the stability of the foundation at the bottom of the whole pillar assembly is ensured, and the stability of the top beam 3 is further ensured; the lower end of the upper support sleeve 13 is inserted into the upper end of the upper support sleeve 13, and the upper support sleeve and the lower support sleeve are both provided with threaded holes and are relatively fixed in a mode that bolts penetrate through the threaded holes.

An auxiliary plate 4 is fixed at the middle part of the lower surface of the top beam 3, and the upper end of an upper support sleeve 13 is connected with the auxiliary plate 4 and indirectly connected with the top beam 3; threaded holes are formed in the upper end of the upper support sleeve 13 and the auxiliary plate 4, and the upper end of the upper support sleeve and the auxiliary plate 4 are relatively fixed in a mode that bolts penetrate through the threaded holes.

The upper end outer wall of the lower support sleeve 11 is sleeved with a hoop 5, and the hoop 5 is positioned at the joint of the lower support sleeve 11 and the upper support sleeve 13. The diagonal bracing is provided with two, is first diagonal bracing 21 and second diagonal bracing 22 respectively, and two different length for roof beam 3 slope. The first diagonal bracing 21 and the second diagonal bracing 22 are oppositely arranged and are respectively positioned on two opposite sides of the lower support sleeve 11; the upper end of the first inclined strut 21 is connected with the left end of the top beam 3, the lower end of the first inclined strut 21 is connected with the left side of the anchor ear 5, threaded holes are formed in the upper end of the first inclined strut 21 and the left end of the top beam 3, the upper end of the first inclined strut 21 and the left end of the top beam 3 are relatively fixed in a mode that bolts penetrate through the threaded holes, threaded holes are formed in the lower end of the first inclined strut 21 and the left side of the anchor ear 5, and the upper end of the first inclined strut and the left side of the anchor ear are relatively fixed in a mode that bolts penetrate through the threaded holes; the upper end of the second diagonal bracing 22 is connected with the right end of the top beam 3, the lower end is connected with the right side of the anchor ear 5, threaded holes are formed in the upper end of the second diagonal bracing 22 and the right end of the top beam 3, the upper end of the second diagonal bracing 22 and the right end of the top beam 3 are relatively fixed in a mode that bolts penetrate through the threaded holes, threaded holes are formed in the lower end of the second diagonal bracing 22 and the right side of the anchor ear 5, and the upper end of the second diagonal bracing and the right side of the anchor ear are relatively fixed in a mode that bolts penetrate through the threaded holes. The anchor ear 5 is used for providing a connecting tool of the first diagonal bracing 21 and the second diagonal bracing 22 and the lower support sleeve 11, and also used for preventing the first diagonal bracing 21 and the second diagonal bracing 22 from influencing the connection of the lower support sleeve 11 and the upper support sleeve 13; the hoop 5 is designed to concentrate the stress of the lower support sleeve 11, and the first diagonal bracing 21 and the second diagonal bracing 22 are arranged oppositely to balance the stress of the second support tube.

The two ends and the middle part of the top beam 3 are respectively supported by the first diagonal bracing 21, the second diagonal bracing 22 and the upright post assembly 1, and the three are matched to ensure the stability of the top beam 3 in the use process.

In the photovoltaic bracket, the upper support sleeve adopts a small section, the lower support sleeve 11 adopts a large section, which is reasonable and economical, the upper support sleeve and the lower support sleeve are connected through a connection mode capable of transmitting bending moment, and the connection mode is in bolted connection, so that the installation is convenient, and the construction is facilitated.

The principles and embodiments of the present utility model have been described herein with reference to specific examples, which are intended to be merely illustrative of the methods of the present utility model and their core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

In the description of the present utility model, it should be noted that the positional or positional relationship indicated by the terms such as "upper", "middle", "lower", "left", "right", etc. are based on the positional or positional relationship shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Claims (6)

1. The sectional type single-upright photovoltaic bracket is characterized by comprising an upright post assembly, an inclined strut and a top beam which are connected with each other, wherein the upright post assembly comprises at least two support sleeves which are sequentially arranged from bottom to top, and the pipe diameters of the support sleeves are sequentially reduced from bottom to top; the upper end of each support sleeve is sleeved with the lower end of the support sleeve above the support sleeve and is connected with each other, the lower end of the support sleeve at the lowest position is not connected with any support sleeve, and the upper end of the support sleeve at the highest position is connected with the top beam.

2. The segmented, single-column photovoltaic bracket of claim 1, wherein the number of struts is at least two, at least one strut connects one end of the support sleeve to the top beam, and at least one strut connects the support sleeve to the other end of the top beam.

3. The segmented, single-column photovoltaic bracket of claim 2 wherein the diagonal braces connecting the ends of the support sleeve are of different lengths and the top beam is inclined.

4. The segmented, single-column photovoltaic bracket of claim 3, wherein the diagonal brace is coupled to a support sleeve.

5. The segmented single-column photovoltaic bracket according to claim 4, wherein a hoop is connected between the diagonal brace and the support sleeve, the hoop is sleeved on the support sleeve and connected with the support sleeve, and the outer wall of the hoop is connected with the diagonal brace.

6. The segmented, single-column photovoltaic bracket according to claim 5, wherein the lower end of the lowermost support sleeve is sleeved with a support, the support being inserted into the ground with the support sleeve.