CN218374210U - Photovoltaic vehicle shed integrated device for fire pool - Google Patents

Abstract

The utility model relates to a construction technical field specifically is a relate to a fire pond photovoltaic bicycle shed integrated device. The device comprises a fire pool, column piers, support columns, U-shaped connecting pieces, steel beams, a glass ceiling, photovoltaic panels, connecting components and a downpipe; the fire-fighting pool is buried under the ground, the column pier is arranged above the fire-fighting pool, the top surface of the column pier is flush with the ground, the support column is fixed on the column pier and consists of a pair of U-shaped steel piles, and a gap is reserved between the support column and the U-shaped steel piles; the U-shaped connecting piece is arranged on each supporting column; two sides of the steel beam are respectively inserted into the openings of the corresponding U-shaped connecting pieces; the glass ceiling is arranged above the steel beam; the photovoltaic panel is arranged above the glass ceiling; the connecting assembly detachably and fixedly connects the glass ceiling, the photovoltaic panel and the steel beam; the water inlet of the downpipe is located at the upper end face of the glass ceiling, a filter screen is arranged at the water inlet of the downpipe, and the downpipe penetrates through the support column and the column pier and extends into the fire-fighting water pool.

Description

Photovoltaic vehicle shed integrated device for fire pool

Technical Field

The utility model relates to a construction technical field specifically is a relate to a fire pond photovoltaic bicycle shed integrated device.

Background

The photovoltaic panel is an important new energy power generation assembly, can convert solar energy into electric energy, is always concerned by people, and is more and more widely applied to the market. In recent years, the nation has advocated energy conservation and emission reduction vigorously, encourages the utilization of solar energy resources, encourages the conservation of water resources, and promotes a rainwater recovery system for greening irrigation and the like. The fire-fighting pool is an important building accessory facility for providing fire-fighting water, has large water demand, large floor area of the pool, is usually buried underground, the upper part of the pool is used for lawn greening and the like, and the land utilization efficiency is not high. The bicycle shed is a common building affiliated facilities for the vehicle provides parking position and sunshade rain-sheltering, use extensively, the area of bicycle shed is great usually, and upper portion does not have sheltering from usually, utilize solar energy and carry out the good place that the rainwater was retrieved, wide application prospect has, traditional bicycle shed can't carry out solar energy power generation and rainwater recovery, cause the phenomenon ubiquitous of wasting of resources, it can improve the utilization efficiency to the resource greatly to set up photovoltaic panel and rainwater recovery system on the bicycle shed, be favorable to energy saving and emission reduction.

Chinese patent CN211873166U discloses a photovoltaic bicycle shed rainwater collection system, which includes a photovoltaic bicycle shed steel structure, a photovoltaic module, a converging tank, a drain pipe, a sedimentation tank and a filtering tank, wherein: the top of the photovoltaic car shed steel structure is V-shaped, and at least one row of photovoltaic modules are arranged on two sides of the top; the converging groove is arranged between the photovoltaic modules on two sides of the V-shaped top so as to converge rainwater borne by each photovoltaic module; one end of the drain pipe is communicated with one end of the confluence groove, and the other end of the drain pipe is communicated with the sedimentation tank; the filtering tank is communicated with the sedimentation tank to filter the rainwater precipitated by the sedimentation tank.

But there is the defect in bicycle shed in overall structure stability and installation convenience among the above-mentioned file, the installation effectiveness is low, and does not have the expansibility.

SUMMERY OF THE UTILITY MODEL

To the above problem, provide a fire pond photovoltaic bicycle shed integrated device, the convenience when having solved the holistic stability of bicycle shed, installation and the expansibility of device through the mode that sets up fire pond basis, pier and multiple detachable connection spare.

For solving the prior art problem, the utility model discloses a technical scheme be: a photovoltaic car shed integrated device for a fire pool comprises the fire pool, column piers, support columns, U-shaped connecting pieces, steel beams, a glass ceiling, photovoltaic panels, connecting components and a downpipe; the fire-fighting water pools are buried under the ground, at least one fire-fighting water pool is arranged, and all the fire-fighting water pools are connected in a splicing manner in the horizontal direction; at least one pair of column piers is arranged above the fire pool, all the column piers are distributed at intervals in the horizontal direction, water pipe channels are arranged in the column piers, the top surfaces of the column piers are flush with the ground, and a parking space is formed between the pair of column piers; the number of the support columns corresponds to the number of the column piers one by one, the bottom ends of the support columns are fixedly connected to the column piers, the support columns are formed by arranging two identical U-shaped steel piles in a mutually reverse mode, and a gap is reserved between the two U-shaped steel piles; the U-shaped connecting pieces are fixedly connected to the top ends of the supporting columns, a pair of U-shaped connecting pieces are arranged on each supporting column, the U-shaped connecting pieces are arranged in opposite directions, and openings of the U-shaped connecting pieces are arranged in the horizontal direction; two sides of the steel beam are respectively inserted into the openings of the U-shaped connecting pieces with the openings opposite to the openings on the adjacent supporting columns; the glass ceilings are horizontally arranged above the steel beam, through holes are formed at the joints of the glass ceilings and the downpipes, and sealing rubber strips are arranged between the adjacent glass ceilings; the photovoltaic panel is horizontally arranged above the glass ceiling, and the back of the photovoltaic panel is provided with a connecting block; the connecting assembly detachably and fixedly connects the glass ceiling, the photovoltaic panel and the steel beam; the water inlet of the downpipe is located at the upper end face of the glass ceiling, a filter screen is arranged at the water inlet of the downpipe, the downpipe penetrates through the support column and the water pipe channel of the column pier to extend into the fire-fighting water pool, and the downward projection of the photovoltaic panel falls between the water inlets of the downpipes.

Preferably, the lower extreme in fire pond is provided with pond foundation assembly, and the upper end of pond foundation assembly supports tightly in the bottom in fire pond, is equipped with four, and encircles the axis evenly distributed in fire pond lower extreme in fire pond.

Preferably, the pool foundation assembly comprises an expansion plate, an L-shaped connecting piece and a pool foundation; the top end of the expansion plate is abutted against the bottom end of the fire pool; the bottom end of the expansion plate is fixed above the pool foundation through the L-shaped connecting piece in a threaded connection manner; the pool foundation is a shape setting which is small at the top and big at the bottom, and the contact area of the abutting ground is increased to ensure that the pool foundation is stable in the axial direction.

Preferably, the top of the fire pool is provided with an access well and an access well cover plate; a downward groove is formed in the wellhead position of the maintenance well, and the wellhead of the maintenance well is flush with the ground; the manhole cover plate is in clearance fit in the well mouth groove, and the height of the manhole cover plate is the same as the depth of the manhole groove.

Preferably, the connecting assembly comprises a first square connecting piece, an I-shaped connecting piece, a second square connecting piece and a mandril; the first square connecting piece and the second square connecting piece are rectangular steel blocks which are hollow inside and are provided with openings at two symmetrical ends, and through holes are formed in the centers of two symmetrical surfaces; one side of the first square connecting piece is fixed on the steel beam, and the other side of the first square connecting piece is connected with the I-shaped connecting piece; the opening of the I-shaped connecting piece is placed towards the horizontal direction, the central positions of two sides of the opening surface are provided with through holes which penetrate through the whole I-shaped connecting piece, the I-shaped connecting piece is made of hard rubber, and the upper side and the lower side of the I-shaped connecting piece are respectively fixedly connected with the second square connecting piece and the first square connecting piece; the bottom end of the ejector rod is vertically fixed above the second square connecting piece, the ejector rod is telescopic, and the outer end of the ejector rod is provided with a through hole which can be hinged.

Preferably, the water level meter also comprises an electromagnetic valve, a water level meter and a controller; the electromagnetic valve is arranged on the downpipe and can control the closing of the downpipe; the water level meter is arranged on one side of the inner wall of the fire pool; the controller is respectively connected with the electromagnetic valve and the water level gauge.

The utility model discloses compare in prior art's beneficial effect be:

1. the utility model has the characteristics of assembled, increased the expansibility of structure, it is convenient to install, greatly increased the efficiency of construction.

2. The utility model discloses a set up pier, expansion board, support column and pond basis, increased the structural stability of fire-fighting water pond photovoltaic bicycle shed for the fire-fighting water pond can bear the load that upper portion parked the vehicle and the load of bicycle shed, keeps away the rain for the vehicle sunshade through the bicycle shed, has increased land used efficiency.

3. The utility model discloses utilize the electricity generation of photovoltaic board can supply power to equipment, controller etc. in the pond, have energy saving and emission reduction's effect.

4. The utility model discloses the advantage makes this bicycle shed have the function that the rainwater was retrieved through setting up pipe in the water and fire pond, for the fire pond water supply source, has practiced thrift the water resource.

Drawings

FIG. 1 is a schematic perspective view of a photovoltaic shed integrated device for a fire pool;

FIG. 2 is a front view of a pool photovoltaic shed integrated unit;

FIG. 3 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 2 ofbase:Sub>A pool integrated photovoltaic canopy;

FIG. 4 is a side view of a fire pool photovoltaic carport integration apparatus;

FIG. 5 is a cross-sectional view taken at B-B of FIG. 4 of a fire pool photovoltaic carport integrated apparatus;

FIG. 6 is an exploded view of the connection assembly of a fire pool photovoltaic shed integrated unit;

FIG. 7 is a schematic perspective exploded view of a photovoltaic shed integrated device for a fire pool;

fig. 8 is a partially enlarged view of the photovoltaic shed integrated device for a fire pool at C in fig. 7.

The reference numbers in the figures are: 1-a fire-fighting pool; 11-a pool base assembly; 111-an expansion board; 112-L type connecting piece; 113-pool foundation; 12-servicing a well; 13-repairing the well cover plate;

2-column pier;

3-a support column;

4-U-shaped connecting pieces;

5-a steel beam;

6-glass ceiling;

7-a photovoltaic panel;

8-a connecting assembly; 81-first type connection; 82-I-shaped connector; 83-second square type connecting piece; 84-a mandril;

9-a downpipe; 91-filtering the screen; 92-a solenoid valve; 93-a water level gauge; 94-controller.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Referring to fig. 1 and 8: a photovoltaic car shed integrated device for a fire pool comprises a fire pool 1, a column pier 2, a support column 3, a U-shaped connecting piece 4, a steel beam 5, a glass ceiling 6, a photovoltaic plate 7, a connecting assembly 8 and a downpipe 9; the fire-fighting water pools 1 are buried under the ground, at least one fire-fighting water pool 1 is arranged, and all the fire-fighting water pools 1 are connected in a splicing manner in the horizontal direction; the column piers 2 are at least provided with one pair, the column piers 2 are arranged above the fire pool 1, all the column piers 2 are distributed at intervals in the horizontal direction, water pipe channels are formed in the column piers 2, the top surfaces of the column piers 2 are flush with the ground, and a parking space is formed between the pair of column piers 2; the number of the support columns 3 corresponds to that of the column piers 2 one by one, the bottom ends of the support columns 3 are fixedly connected to the column piers 2, the support columns 3 are formed by arranging two identical U-shaped steel piles in a mutually reverse mode, and a gap is reserved between the two U-shaped steel piles; the U-shaped connecting pieces 4 are fixedly connected to the top ends of the supporting columns 3, a pair of U-shaped connecting pieces 4 are arranged on each supporting column 3, the U-shaped connecting pieces 4 are arranged in opposite directions, and openings of the U-shaped connecting pieces 4 are arranged in the horizontal direction; two sides of the steel beam 5 are respectively inserted into the openings of the U-shaped connecting pieces 4 with the opposite openings on the adjacent supporting columns 3; the glass ceiling 6 is horizontally arranged above the steel beam 5, and a through hole is formed at the joint of the glass ceiling and the downpipe 9; the photovoltaic panel 7 is horizontally arranged above the glass ceiling 6, and the back of the photovoltaic panel 7 is provided with a connecting block; the connecting assembly 8 detachably and fixedly connects the glass ceiling 6 and the photovoltaic panel 7 with the steel beam 5; the water inlet of the downpipe 9 is located at the upper end face of the glass ceiling 6, a filter screen 91 is arranged at the water inlet of the downpipe 9, the downpipe 9 penetrates through the water pipe channels of the support columns 3 and the column piers 2 and extends into the fire pool 1, and the downward projection of the photovoltaic panel 7 falls between the water inlets of the downpipes 9.

In the concrete implementation, place fire pond 1 level earlier in the foundation ditch of reserving, place 1 handing-over department in adjacent fire pond respectively with at least a pair of pier 2, and pier 2 position mutual correspondence on fire pond 1, 2 bottom of pier is crossed threaded connection and is fixed on fire pond 1. The bottom of support column 3 passes through threaded connection in pier 2 upper end, makes support column 3 can the vertical fixation on pier 2. The two ends of the steel beam 5 are respectively inserted into the openings of the pair of U-shaped connecting pieces 4, the U-shaped connecting pieces 4 and the steel beam 5 are fixed at the upper ends of the supporting columns 3 through threaded connection, and the column piers 2, the supporting columns 3, the U-shaped connecting pieces 4 and the steel beam 5 are connected to the fire pool 1 relatively and stably. Connecting assembly 8 bottom is fixed in the top of girder steel 5 through threaded connection, and connecting assembly 8 upper end is articulated with 7 back connecting blocks of photovoltaic board, and connecting assembly 8 has two at least, and according to the width of glass ceiling 6, 8 equidistance interval distributions of connecting assembly are on girder steel 5, and connecting assembly 8 fixes glass ceiling 6 and photovoltaic board 7 on girder steel 5 in proper order from down through threaded connection and articulated from. The water inlet at the upper end of the downpipe 9 penetrates through the glass ceiling 6 and is flush with the glass ceiling 6, and rainwater flows into the underground fire pool 1 after being filtered by the filter screen 91 at the water inlet. And when the assembly is completed, the upper part of the fire pool 1 is backfilled to be level to the ground in a backfilling mode. Set up the parking stall on the subaerial below glass ceiling 6, can set up parking position in the middle of two adjacent support columns 3, perhaps set up the parking stall in the plane both sides that constitute between two adjacent support columns 3, can reach the requirement of expanding the installation through installing this device side by side in horizontal or vertical, this device has the characteristics of assembled, and it is convenient to install. The better effect of collecting rainwater can be achieved by changing the appearance shape of the glass ceiling 6, and the photovoltaic panel 7 can be set into an angle-adjustable device by changing the connection mode, so that the solar panel can convert solar energy more sufficiently.

Referring to fig. 2: the lower extreme of fire pond 1 is provided with pond foundation assembly 11, and the upper end of pond foundation assembly 11 is supported tightly in the bottom of fire pond 1, is equipped with four, and encircles the axis evenly distributed of fire pond 1 at 1 lower extreme of fire pond.

Can increase fire pool 1 through setting up pond foundation assembly 11 and bear the load that upper portion parked vehicle and bicycle shed, when expanding the installation, pond foundation assembly 11 is placed in 1 handing-over department of double-phase adjacent fire pool, reaches the effect of practicing thrift the cost.

Referring to fig. 3 and 5: the sump base assembly 11 includes an expansion plate 111, an L-shaped connector 112, and a sump base 113; the top end of the expansion plate 111 abuts against the bottom end of the fire pool 1; the bottom end of the expansion plate 111 is fixed above the pool foundation 113 through the L-shaped connecting piece 112 through threaded connection; the pool base 113 is formed in a shape of a small top and a large bottom, and the pool base 113 is axially fixed by increasing a contact area against the ground.

The pressure area of the fire pool 1 is increased by the expansion plate 111, thereby extending the life span of the fire pool 1.

Referring to fig. 7: the top of the fire pool 1 is provided with an inspection well 12 and an inspection well cover plate 13; a downward groove is formed in the wellhead position of the manhole 12, and the wellhead of the manhole 12 is flush with the ground; the manhole cover plate 13 is in clearance fit in the well head groove, and the height of the manhole cover plate 13 is the same as the groove depth of the manhole 12.

Through setting up the inspection shaft 12, can be to the detection and the maintenance of 1 inside and interior arrangement in fire pond, also accessible inspection shaft 12 water intaking, inspection shaft cover plate 13 can avoid other things to drop and cause the water pollution in the fire pond 1.

Referring to fig. 5: the connecting assembly 8 comprises a first square connecting piece 81, an I-shaped connecting piece 82, a second square connecting piece 83 and a mandril 84; the first square connecting piece 81 and the second square connecting piece 83 are rectangular steel blocks which are hollow inside and are provided with openings at two symmetrical ends, and through holes are formed in the centers of two symmetrical surfaces; one surface of the first square connecting piece 81 is fixed on the steel beam 5, and the other surface is connected with the I-shaped connecting piece 82; the I-shaped connecting piece 82 is arranged with the opening facing the horizontal direction, the center positions of the two sides of the opening surface are provided with through holes penetrating the whole I-shaped connecting piece 82, the I-shaped connecting piece 82 is made of hard rubber, and the upper side and the lower side are respectively fixedly connected with the second square connecting piece 83 and the first square connecting piece 81; the bottom end of the post rod 84 is vertically fixed above the second square connecting piece 83, the post rod 84 is flexible, and the outer end is provided with a through hole which can be hinged.

The first square connecting piece 81 is vertically fixed on the steel beam 5 through threaded connection, the opening of the I-shaped connecting piece 82 is fixed with the glass ceiling 6 in an interference fit mode, the first square connecting piece 81, the I-shaped connecting piece 82 and the second square connecting piece 83 are fixedly connected through threaded connection, and the glass ceiling 6 and the photovoltaic panel 7 are fixed above the steel beam 5 through the hinging of the ejector rods 84 and the photovoltaic panel 7.

Referring to fig. 1 to 5: further comprises an electromagnetic valve 92, a water level gauge 93 and a controller 94; the electromagnetic valve 92 is arranged on the downpipe 9 and can control the closing of the downpipe 9; the water level gauge 93 is placed on the inner wall of the fire pool 1; the controller 94 is connected to the solenoid valve 92 and the water level gauge 93, respectively.

The measurement by the level gauge 93 sends a signal to the controller 94, and the controller 94 controls the closing of the solenoid valve 92 to control the water flow.

The above examples are merely illustrative of one or more embodiments of the present invention, and the description thereof is more specific and detailed, but not intended to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (6)

1. A photovoltaic vehicle shed integrated device of a fire pool is characterized by comprising a fire pool (1), column piers (2), support columns (3), U-shaped connecting pieces (4), steel beams (5), a glass ceiling (6), photovoltaic panels (7), connecting components (8) and a downpipe (9);

the fire-fighting water pools (1) are buried under the ground, at least one fire-fighting water pool (1) is arranged, and all the fire-fighting water pools (1) are connected in a splicing manner in the horizontal direction;

at least one pair of column piers (2) is arranged, the column piers (2) are arranged above the fire pool (1), all the column piers (2) are distributed at intervals in the horizontal direction, water pipe channels are formed in the column piers (2), the top surfaces of the column piers (2) are flush with the ground, and a parking space is formed between the pair of column piers (2);

the number of the support columns (3) corresponds to the number of the column piers (2) one by one, the bottom ends of the support columns (3) are fixedly connected to the column piers (2), the support columns (3) are formed by arranging two identical U-shaped steel piles in a mutually reverse mode, and a gap is reserved between the two U-shaped steel piles;

the U-shaped connecting pieces (4) are fixedly connected to the top ends of the supporting columns (3), a pair of U-shaped connecting pieces (4) is arranged on each supporting column (3), the U-shaped connecting pieces (4) are arranged in a mutually reverse mode, and openings of the U-shaped connecting pieces (4) are arranged in the horizontal direction;

two sides of the steel beam (5) are respectively inserted into the openings of the U-shaped connecting pieces (4) with opposite openings on a pair of adjacent supporting columns (3);

the glass ceilings (6) are horizontally arranged above the steel beam (5), a through hole is formed at the joint of the glass ceilings and the downpipe (9), and a sealing rubber strip is arranged between the adjacent glass ceilings (6);

the photovoltaic panel (7) is horizontally arranged above the glass ceiling (6), and the back of the photovoltaic panel (7) is provided with a connecting block;

the connecting component (8) detachably and fixedly connects the glass ceiling (6), the photovoltaic panel (7) and the steel beam (5);

the water inlet of the downpipe (9) is located at the upper end face of the glass ceiling (6), a filter screen (91) is arranged at the water inlet of the downpipe (9), the downpipe (9) penetrates through the water pipe channels of the support columns (3) and the column piers (2) and extends into the fire pool (1), and the downward projection of the photovoltaic panel (7) falls between the water inlets of the downpipes (9).

2. The integrated device of the photovoltaic car shed for the fire pool as claimed in claim 1, wherein the lower end of the fire pool (1) is provided with four pool base assemblies (11), the upper end of each pool base assembly (11) abuts against the bottom end of the fire pool (1), and the pool base assemblies are uniformly distributed at the lower end of the fire pool (1) around the axis of the fire pool (1).

3. A pool photovoltaic shed integration apparatus as claimed in claim 2, wherein the pool base assembly (11) includes an expansion plate (111), an L-shaped connector (112) and a pool base (113);

the top end of the expansion plate (111) is abutted against the bottom end of the fire pool (1);

the bottom end of the expansion plate (111) is fixed above the pool foundation (113) by the L-shaped connecting piece (112) through threaded connection;

the pool foundation (113) is in a shape with a small upper part and a big lower part, and the pool foundation (113) is stable in the axial direction by increasing the contact area abutting against the ground.

4. The integrated photovoltaic shed device for the fire pool according to claim 1, wherein the top of the fire pool (1) is provided with an access well (12) and an access well cover plate (13);

a downward groove is formed in the wellhead of the maintenance well (12), and the wellhead of the maintenance well (12) is flush with the ground;

the manhole cover plate (13) is in clearance fit in the well mouth groove, and the height of the manhole cover plate (13) is the same as the groove depth of the manhole (12).

5. The pool photovoltaic car shed integrated device as claimed in claim 1, wherein the connecting assembly (8) comprises a first square connecting member (81), an I-shaped connecting member (82), a second square connecting member (83) and a post rod (84);

the first square connecting piece (81) and the second square connecting piece (83) are rectangular steel blocks which are hollow inside and open at two symmetrical ends, and through holes are formed in the centers of two symmetrical surfaces;

one surface of the first square connecting piece (81) is fixed on the steel beam (5), and the other surface is connected with the I-shaped connecting piece (82);

the opening of the I-shaped connecting piece (82) is placed towards the horizontal direction, the center positions of the two sides of the opening surface are provided with through holes penetrating through the whole I-shaped connecting piece (82), the I-shaped connecting piece (82) is made of hard rubber, and the upper side and the lower side of the I-shaped connecting piece are fixedly connected with a second square connecting piece (83) and a first square connecting piece (81) respectively;

the bottom end of the ejector rod (84) is vertically fixed above the second square connecting piece (83), the ejector rod (84) is telescopic, and the outer end of the ejector rod is provided with a through hole which can be hinged.

6. The pool photovoltaic shed integrated device as claimed in claim 1, further comprising a solenoid valve (92), a water level gauge (93) and a controller (94);

the electromagnetic valve (92) is arranged on the downpipe (9) and can control the closing of the downpipe (9);

the water level meter (93) is placed on one side of the inner wall of the fire pool (1);

the controller (94) is respectively connected with the electromagnetic valve (92) and the water level meter (93).

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