CN212785225U - Auxiliary mounting and supporting device for solar photovoltaic cell panel - Google Patents

Abstract

The utility model discloses an installation strutting arrangement is assisted to solar photovoltaic cell panel, include: the photovoltaic module comprises a front upright post component and a rear upright post component, wherein the front upright post component is lower than the rear upright post component in height; a diagonal member having one end connected to the front pillar member; the other end of the inclined strut member is connected with a blocking member which is transversely arranged and used for blocking the photovoltaic modules placed on the front upright post member and the rear upright post member from sliding downwards. Through at the preceding stand component connection bracing component to through bracing component connection blocking component, block through blocking the component and place the preceding stand component with the back stand component photovoltaic module gliding can realize placing photovoltaic module behind strutting arrangement, and photovoltaic module can not take place to glide, need not the manual work and holds the subassembly, makes can accomplish the installation of subassembly alone, has reduced working strength and labour cost, has improved the installation effectiveness.

Description

Auxiliary mounting and supporting device for solar photovoltaic cell panel

Technical Field

The utility model relates to a photovoltaic module installs technical field, specifically relates to an installation strutting arrangement is assisted to solar photovoltaic cell panel.

Background

With the increasingly mature technology of photovoltaic power stations, photovoltaics also become the main force of new energy and are also energetically promoted energy projects in China.

Photovoltaic power plant divides mainly to divide into ground power station and distributed power station, distributed power station then utilizes industry and commerce factory building roof construction photovoltaic power station, industry and commerce roof divide into various steel construction roof and concrete roof usually, the installation of solar cell panel adopts concrete placement basis on general concrete roof, install steel structure support on the basis, this kind of form on the support is installed to the panel, the panel often is certain inclination installation, it is very inconvenient to cause the workman to be in the installation construction like this, generally need a panel of two people's cooperation installation, the subassembly is held in the transport alone, utilize multiplexer utensil sectional fixture alone, installation effectiveness is low like this.

Therefore, how to reduce the installation difficulty, improve the installation efficiency and reduce the installation cost is the work focus of technicians in the field.

SUMMERY OF THE UTILITY MODEL

The utility model provides a supplementary installation strutting arrangement of solar photovoltaic cell panel solves the inconvenient problem of photovoltaic cell slab band inclination installation on the concrete roof, improves the installation effectiveness, reduces the cost of labor.

In order to solve the technical problem, the utility model provides an installation strutting arrangement is assisted to solar photovoltaic cell panel, include:

the photovoltaic module comprises a front upright post component and a rear upright post component, wherein the front upright post component is lower than the rear upright post component in height;

a diagonal member having one end connected to the front pillar member;

the other end of the inclined strut member is connected with a blocking member which is transversely arranged and used for blocking the photovoltaic modules placed on the front upright post member and the rear upright post member from sliding downwards.

The blocking component comprises a blocking groove or a blocking clamp, and the blocking component is used for fixedly placing and sliding down the photovoltaic module through the blocking groove or the blocking clamp.

Wherein the front pillar member is a height-adjustable front pillar member.

The photovoltaic support is arranged between the front upright post component and the rear upright post component and used for supporting the photovoltaic assembly.

The inclined strut component is movably connected with the blocking component through the slotted hole.

The inclined strut member and the connecting end of the front upright post member comprise a fixed connecting point and a movable connecting point, the inclined strut member and the front upright post member are hinged through the fixed connecting point, are movably connected through the movable connecting point arranged on the inclined strut member or the front upright post member, and are adjusted through the movable connecting point to form an included angle between the inclined strut member and the front upright post member.

The inclined strut component is connected with the front upright component through a connecting component, a tooth-shaped buckle is arranged on the main body of the inclined strut component, a first connecting body of the connecting component is used for hinging the inclined strut component with the front upright component through the fixed connecting point, a second connecting body of the connecting component is connected with the front upright component and the tooth-shaped buckle, and the included angle between the inclined strut component and the front upright component is adjusted by adjusting the connecting position of the second connecting body and the tooth-shaped buckle.

Wherein the bracing member is a telescopic bracing member.

Wherein the second connector is a retractable second connector.

The photovoltaic module comprises a plurality of photovoltaic brackets, and is characterized by further comprising a plurality of cross beams which are fixedly arranged between the photovoltaic brackets and used for supporting the photovoltaic modules.

The embodiment of the utility model provides an installation strutting arrangement is assisted to solar photovoltaic cell panel compares with prior art and has following beneficial effect:

the auxiliary installation supporting device for the solar photovoltaic cell panel is characterized in that the inclined strut component is connected with the front upright component, the inclined strut component is connected with the blocking component, the blocking component is used for blocking the front upright component and the rear upright component, so that the photovoltaic module can slide downwards, the photovoltaic module can be placed behind the supporting device, the sliding cannot occur, the assembly is not required to be supported in a manual fit mode, the assembly can be installed by one person, the working intensity and the labor cost are reduced, and the installation efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of an auxiliary mounting and supporting device for a solar photovoltaic panel provided by the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, fig. 1 is a schematic structural diagram of an embodiment of an auxiliary installation and support device for a solar photovoltaic panel provided by the present application.

In a specific embodiment, the utility model provides an auxiliary installation strutting arrangement of solar photovoltaic cell panel, include:

a front pillar member 10 and a rear pillar member 20 for placing a photovoltaic module, the front pillar member 10 having a height lower than that of the rear pillar member 20;

a sprag member 30 having one end connected to the front pillar member 10;

the other end of the bracing member 30 is connected to a laterally disposed blocking member 40, and the blocking member 40 is used for blocking the photovoltaic module placed on the front pillar member 10 and the rear pillar member 20 from sliding down.

Through connecting bracing member 30 at front column member 10 to connect through bracing member 30 and block member 40, block through blocking member 40 and place front column member 10 with rear column member 20 the photovoltaic module gliding, can realize placing photovoltaic module behind strutting arrangement, photovoltaic module can not take place to glide, need not the manual work and holds the subassembly, makes can accomplish the installation of subassembly alone, has reduced working strength and labour cost, has improved the installation effectiveness.

The utility model discloses in mainly block photovoltaic module's slip through the setting of blocking component 40, realize single unit mount work, the utility model discloses the mode of blocking to blocking component 40 does not do the injecion, block component 40 can be including blocking the groove or blocking anchor clamps, promptly block component 40 and pass through block the groove or it is right to block anchor clamps photovoltaic module fixes and places the gliding.

For example, a blocking groove is provided at the end or the middle of the blocking member 40, and one end of the photovoltaic module enters the blocking groove during the placement of the photovoltaic module, and since the relative position of the blocking member 40 and the front pillar member 10 is fixed, the blocking member 40 does not move, thereby blocking the photovoltaic module.

And the mode of blocking the clamp is similar, after the clamp is opened, one end of the photovoltaic assembly enters the clamp, the clamp is locked, or the clamp has a self-locking function, and after the one end of the photovoltaic assembly enters the clamp, the photovoltaic assembly is clamped by utilizing the elastic function of the clamp per se.

It should be noted that the present invention does not limit the structure, material and size of the blocking member 40, and can also block the photovoltaic module in other ways besides blocking the photovoltaic module through the blocking groove or the blocking fixture, which is not limited by the present invention.

Since the sun is at different heights in each day and the suitable sun angle is different in different dimensions and different seasons, the front pillar member 10 is generally a height-adjustable front pillar member 10 in order to improve the power generation capacity of the assembly and enhance the applicability.

The utility model discloses do not restrict to the altitude mixture control mode of front column component 10, can be for the regulation mode who adopts the cylinder structure, also can adopt the regulation mode of telescopic link, perhaps adopt other regulation modes.

Although the photovoltaic module can be placed between the front pillar member 10 and the rear pillar member 20, since the photovoltaic module itself may not have a fixing point, the fixing of the module is inconvenient, the module may be damaged, and in order to facilitate the installation of the module, in one embodiment, the auxiliary installation and support device for the solar photovoltaic panel further includes a photovoltaic bracket 50 disposed between the front pillar member 10 and the rear pillar member 20, and the photovoltaic bracket 50 is used for supporting the photovoltaic module.

Through setting up front column component 10 with photovoltaic support 50 between the rear column component 20 forms vertical support and supports photovoltaic module, simple structure, simple to operate, the utility model discloses do not injecing its material and size.

Since the blocking member 40 blocks the photovoltaic module by being arranged laterally, it may be of a fixed length, this allows for a variety of sizes of photovoltaic modules, as well as non-fixed sizes, which need to correspond to the corresponding photovoltaic module size, if one type of photovoltaic module is relatively low in sales, it may not be used and cause waste, and therefore, the blocking member 40 is generally a blocking member 40 with a large size, which can be suitable for installation of all photovoltaic modules with sizes below the large size, and since in the construction of the front pillar member 10, in order to solve the problem that the lateral dimension of the solar photovoltaic panel may have errors, in one embodiment, the auxiliary installation and support device for the solar photovoltaic panel further comprises a slot hole formed in the blocking member 40, and the inclined strut member 30 is movably connected with the blocking member 40 through the slot hole.

Different transverse installation is realized through different slotted holes, and the adjustment of the left position and the right position is realized, so that span adjustment is realized, and the photovoltaic support 50 with different intervals is also adapted.

The diagonal member 30 of the present invention is used to connect the blocking member 40 and the front pillar member 10, it is possible to achieve blocking of the photovoltaic module by pre-designing, designing the blocking member 40 to be just a certain height, however, this design has high requirements for all installation processes, the height of the blocking member 40 and the front pillar member 10, etc., and a slight error may cause a situation where the blocking is impossible or the blocking effect is poor, and in order to solve this problem, in one embodiment, the connection end of the sprag member 30 to the front pillar member 10 includes a fixed connection point and a movable connection point, the sprag member 30 is hinged to the front pillar member 10 through the fixed connection point, by providing said articulation points at said brace members 30 or said front pillar member 10, and the included angle between the inclined strut member 30 and the front upright post member 10 is adjusted through the movable connecting point.

Through bracing member 30 with front column component 10 passes through fixed connection point is articulated, becomes the dead point, through setting up bracing member 30 or front column component 10 swing joint becomes the moving point, through the removal of moving point realize bracing member 30 with the adjustment of the contained angle between the front column component 10, realize attaching the height and the fore-and-aft removal of shelves component, reduce the installation degree of difficulty.

The utility model discloses in do not do the injeciton to the concrete position of fixed connection point and swing joint point and the concrete connection mode that corresponds separately.

In one embodiment, the auxiliary mounting and supporting device for the solar photovoltaic cell panel further comprises a connecting member 60 for connecting the inclined strut member 30 and the front pillar member 10, a tooth-shaped buckle is arranged on the main body of the inclined strut member 30, a first connecting body 61 of the connecting member 60 hinges the inclined strut member 30 and the front pillar member 10 through the fixed connecting point, a second connecting body 62 of the connecting member 60 connects the front pillar member 10 and the tooth-shaped buckle, and an included angle between the inclined strut member 30 and the front pillar member 10 is adjusted by adjusting a connecting position of the second connecting body 62 and the tooth-shaped buckle.

The adjustment of the moving point is realized by adjusting the connecting end of the second connecting body 62 and the tooth-shaped buckle at the position of the tooth-shaped buckle, the adjustment of the angle between the inclined strut member 30 and the front upright post member 10 is realized, the structure is simple, and the adjustment mode is simple.

In addition, the structure of the sliding groove and the fixing member may be adopted, that is, after the second connecting body 62 slides in the sliding groove and moves to a desired position, the fixing member is adopted to fix the positions of the sliding groove and the fixing member, so as to adjust the angle between the inclined strut member 30 and the front pillar member 10.

Of course, the angle between the diagonal member 30 and the front pillar member 10 may be adjusted by other structures, which is not limited by the present invention.

Since the track of the outer end of the inclined strut member 30 is a circular arc during the angle adjustment process, the height and the horizontal position of the inclined strut member will be changed, and in order to perform the height adjustment more extensively, in one embodiment, the inclined strut member 30 is a telescopic inclined strut member 30.

Preferably, the second connector is a retractable second connector.

Through setting up the second connector into telescopic part for the activity angle is bigger, and accommodation is wider, the utility model discloses do not injecing its telescopic structure and mode.

Since the front pillar member 10 and the rear pillar member 20 are connected in the longitudinal direction, at least two front pillar members 10 and two rear pillar members 20 arranged in the transverse direction are generally adopted, if the photovoltaic module is directly placed between the photovoltaics, the distance between the front pillar members 10 may be wider due to manufacturing errors and the like, and cannot be placed, and in order to improve the adaptability, in one embodiment, the auxiliary mounting and supporting device for the solar photovoltaic panel further comprises a plurality of cross beams 70 fixedly arranged between the photovoltaic brackets 50 and used for supporting the photovoltaic module.

Through setting up crossbeam 70, can transversely support photovoltaic module, photovoltaic module place and the horizontal span between the front column component 10 has nothing to do, can place polylith photovoltaic module between two front column components 10, improves the utilization efficiency.

In addition, in order to further improve the altitude mixture control function who blocks the part, can set up the lift part at the front column component, carry out the relative position adjustment of vertical direction, realize wider, the more subassembly installation of optimizing, the utility model discloses do not specifically prescribe a limit to this structure.

To sum up, the embodiment of the utility model provides a supplementary installation strutting arrangement of solar photovoltaic cell panel is through at the front column component connection bracing component to block the component through bracing component connection, block through blocking the component and place the front column component with the back column component photovoltaic module gliding can realize placing photovoltaic module behind strutting arrangement, and photovoltaic module can not take place to glide, need not the manual work and holds in the palm the subassembly, makes can accomplish the installation of subassembly alone, has reduced working strength and labour cost, has improved the installation effectiveness.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

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 (10)

1. The utility model provides an auxiliary installation strutting arrangement of solar photovoltaic cell panel which characterized in that includes:

the photovoltaic module comprises a front upright post component and a rear upright post component, wherein the front upright post component is lower than the rear upright post component in height;

a diagonal member having one end connected to the front pillar member;

the other end of the inclined strut member is connected with a blocking member which is transversely arranged and used for blocking the photovoltaic modules placed on the front upright post member and the rear upright post member from sliding downwards.

2. The auxiliary mounting and supporting device for the solar photovoltaic panel as claimed in claim 1, wherein the blocking member comprises a blocking slot or a blocking clamp, and the blocking member slides down the photovoltaic module through the blocking slot or the blocking clamp.

3. The solar photovoltaic panel mounting aid support apparatus of claim 2, wherein the front pillar member is a height adjustable front pillar member.

4. The solar photovoltaic panel auxiliary mounting support apparatus of claim 3, further comprising a photovoltaic support disposed between the front pillar member and the rear pillar member, the photovoltaic support configured to support the photovoltaic module.

5. The solar photovoltaic panel auxiliary mounting support apparatus of claim 4, further comprising a slot disposed in the blocking member, wherein the diagonal member is movably connected to the blocking member through the slot.

6. The auxiliary mounting and supporting device for the solar photovoltaic panel as claimed in claim 5, wherein the connecting end of the inclined strut member and the front pillar member comprises a fixed connecting point and a movable connecting point, the inclined strut member is hinged to the front pillar member through the fixed connecting point, the inclined strut member is movably connected to the movable connecting point of the inclined strut member or the front pillar member, and the included angle between the inclined strut member and the front pillar member is adjusted through the movable connecting point.

7. The solar photovoltaic cell panel auxiliary mounting and supporting device as claimed in claim 6, further comprising a connecting member for connecting the inclined strut member and the front pillar member, wherein a tooth-shaped buckle is disposed on the main body of the inclined strut member, a first connecting body of the connecting member is used for hinging the inclined strut member and the front pillar member via the fixed connecting point, a second connecting body of the connecting member is used for connecting the front pillar member and the tooth-shaped buckle, and an included angle between the inclined strut member and the front pillar member is adjusted by adjusting a connecting position of the second connecting body and the tooth-shaped buckle.

8. The solar photovoltaic panel mounting aid support apparatus of claim 7, wherein the brace member is a retractable brace member.

9. The solar photovoltaic cell panel auxiliary mounting support apparatus of claim 8, wherein said second connector is a retractable second connector.

10. The solar photovoltaic panel auxiliary mounting and supporting device of claim 9, further comprising a plurality of beams fixedly disposed between the photovoltaic supports for supporting the photovoltaic modules.

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