CN207530747U - Split type photovoltaic plate truss structure - Google Patents

Abstract

The utility model discloses a kind of split type photovoltaic plate truss structure, including：Splice；Several truss elements, the both ends of the truss element are equipped with the holding tank for accommodating the splice, and the receiving groove shape and the shape of the splice match, and the both ends of the splice are respectively protruding into the holding tank of the adjacent truss element；The adjacent truss element is connected by Detachable connection structure.The utility model transports to erecting bed the installation for be completed photovoltaic plate girder by manufactured truss element, it is readily transported, saves transportation cost, and, since splicing between truss element and truss element stretches into the structure of holding tank using splice, the intensity of stitching portion is increased.

Description

Split type photovoltaic plate truss structure

Technical field

The utility model is related to solar photovoltaic bracket technical field more particularly to a kind of split type photovoltaic plate girder knots Structure.

Background technology

With the gradual reinforcement of the consciousness of the environmental protection of society, traditional non-renewable energy resources are gradually by solar energy, wind energy Etc. regenerative resources replaced, solar energy is widely used in each occasion of people's life as a kind of green clean energy resource In.In order to realize that the collection of a large amount of energy converts, solar power system generally understands large area and is laid with solar energy photovoltaic panel.

In the prior art, solar energy photovoltaic panel is placed on truss, and truss is connected on column, so as to fulfill solar energy The fixation of photovoltaic panel, in practical applications, the truss between adjacent upright posts are generally whole one, one whole truss length can 10~ 15m or so causes very big trouble to transport, and so as to increase transportation cost, and the both ends due to truss connect with column Connect, when solar energy photovoltaic panel is uniformly placed on truss, truss in the longitudinal direction by uniform downward pressure, so as to Cause truss center position may due to stress is excessive and insufficient strength generate bending.

Invention content

The purpose of this utility model is to provide a kind of split type photovoltaic plate truss structure, increases the strong of whole truss structure Degree avoids generating deflection deformation, saves transportation cost.

The technical scheme that the utility model is provided is as follows：

A kind of split type photovoltaic plate truss structure, including：Splice；Several truss elements, the two of the truss element End is equipped with the holding tank for accommodating the splice, and the receiving groove shape and the shape of the splice match, the spelling The both ends of fitting are respectively protruding into the holding tank of the adjacent truss element；The adjacent truss element is by being detachably connected knot Structure connects.

In above structure, when manufacture, is directly prepared into several truss elements, and truss element is transported to erecting bed again It is assembled, since the length of truss element can be substantially reduced relative to the length of whole truss, so as to reduce transport difficulty, Save transportation cost.And pass through and stretch at the both ends of splice in holding tank, it can further strengthen the spelling between truss element The intensity at place is connect, so as to avoid truss element centre position in the prior art due to the not high caused deflection deformation of intensity.

Preferably, the Detachable connection structure is anchor ear plate, and the stitching portion both sides of the adjacent truss element are respectively provided with One block of anchor ear plate, anchor ear plate, truss element and splice are connected by connector described in both sides.

Easy to connect using anchor ear plate in above structure, speed is fast, helps speed up the efficiency of site operation.

Preferably, each truss element includes：The first girder, the second girder and the third girder being mutually parallel, institute It states and triangular prism cylindricality is connected and composed by connecting rod between the first girder, the second girder and third girder；First girder, second The both ends of girder and third girder are equipped with the holding tank.

Preferably, second girder is connect with the first girder by several first connecting rods, and the first of the first connecting rod End is rotatablely connected with first girder, and the second end of the first connecting rod is rotatablely connected with second girder, for connecting Several first connecting rods of first girder and the second girder are mutually parallel；If the third girder and the first girder by Dry first connecting rod connection, the first end of the first connecting rod are rotatablely connected with first girder, and the second of the first connecting rod End is rotatablely connected with the third girder, mutual for connecting several first connecting rods of first girder and third girder It is parallel；The connecting rod further includes：Second connecting rod, the first end of the second connecting rod and first girder, the second girder and the Wherein any one girder rotation connection in three girders, the second end of the second connecting rod are free end, the second connecting rod Free end be equipped with first connecting portion, first girder, the second girder or third girder be equipped with and the first connecting portion Corresponding first mounting portion, when the first connecting portion of the second connecting rod is connect with first mounting portion, described second connects Bar connects the diagonal end of adjacent two first connecting rod in the same plane；Third connecting rod, second girder with Third girder is connected by several third connecting rods.

In above structure, since first connecting portion and the first mounting portion of second connecting rod are detachably connected, Ke Yi During transport, first connecting portion and the first installation part are opened, so as to which the first girder, the second girder and third girder be folded Come, the volume of truss element when reducing transport, convenience in transport reduces freight.

Preferably, the first end of the third connecting rod is rotatablely connected with second girder, and the second of the third connecting rod It holds as free end, the free end of the third connecting rod is equipped with second connecting portion, and the third girder is equipped with and described second connects Corresponding second mounting portion of socket part, when the second connecting portion is connect with second mounting portion, the adjacent third connecting rod Form V-structure.

Preferably, the first end of the third connecting rod is rotatablely connected with the third girder, and the second of the third connecting rod It holds as free end, the free end of the third connecting rod is equipped with second connecting portion, and second girder is equipped with and described second connects Corresponding second mounting portion of socket part, when the second connecting portion is connect with second mounting portion, the adjacent third connecting rod Form V-structure.

It, can be in truss element group by setting third connecting rod between the second girder and third girder in above structure After loading, enhance the structural strength of truss element, and the plane that third connecting rod, the second girder and third girder are collectively formed It can be used for photovoltaic panel is installed.

Preferably, several fourth links are additionally provided between first girder and the second girder, for connecting described first Several fourth links of girder and the second girder are mutually parallel, and the fourth link is perpendicular to first girder and second Girder is set；Be additionally provided with several fourth links between first girder and third girder, for connect first girder and Several fourth links of third girder are mutually parallel, and the fourth link is set perpendicular to first girder and third girder It puts.

In above structure, by adding fourth link, the first girder and the second girder, the first girder and third can be increased Intensity between girder avoids generating bending since stress is excessive.

Preferably, on the truss element at the both ends of the split type photovoltaic plate truss structure, strengthening mechanism is respectively equipped with, And the strengthening mechanism is located at the end of split type photovoltaic plate truss structure；The strengthening mechanism includes being located at each truss First girder and the second girder of wherein one end of unit, two reinforcing connecting rods between the first girder and third girder, and position It is mutually parallel in two connecting rods of reinforcing of approximately the same plane.

In above structure, by change positioned at the truss element at the both ends of spliced truss structure, in truss element Wherein one end setting strengthening mechanism can increase the intensity at the both ends of spliced whole truss structure.

Preferably, the both ends of the splice are equipped with the first guide surface, and the holding tank is corresponding to the of the splice Matched second guide surface is equipped at the position of one guide surface；When the splice is located in the holding tank, described first Guide surface is abutted with the second guide surface.

In above structure, the second guide surface is set by being equipped in the first guide surface and holding tank at the both ends of splice, It can be more prone to be aligned when truss element is connect with truss element, improve in-site installation efficiency.

Preferably, the splice includes cylinder and the round platform for being set to the cylinder both ends, and the round platform is cut The larger-size one end in face is connect with the both ends of the cylinder；The bottom of the holding tank to be round table-like, the holding tank The radial dimension of bottom is tapered along groove depth direction.

A kind of split type photovoltaic plate truss structure provided by the utility model, can bring following advantageous effect：

The utility model is transported to erecting bed by manufactured truss element and is assembled, and truss element splicing is mounted to Split type photovoltaic plate truss structure, in transportational process, the length of truss element can relative to whole truss length significantly It reduces, is readily transported, transportation cost is saved, moreover, because the splicing between truss element and truss element is stretched using splice Enter the structure of holding tank, increase the intensity of stitching portion.

Description of the drawings

Below by a manner of clearly understandable, preferred embodiment is described with reference to the drawings, to split type photovoltaic plate girder knot Above-mentioned characteristic, technical characteristic, advantage and its realization method of structure are further described.

Fig. 1 is the structure diagram of the specific embodiment of the split type photovoltaic plate truss structure of the utility model；

Fig. 2 is the schematic enlarged-scale view of the end of split type photovoltaic plate truss structure in Fig. 1；

Fig. 3 is the side view of Fig. 2；

Fig. 4 is the enlarged drawing of stitching portion in Fig. 1；

Fig. 5 is the structure diagram of the stitching portion in Fig. 4；

Fig. 6 is the enlarged drawing of the splicing construction of the end of the split type photovoltaic plate truss structure of Fig. 1；

Fig. 7 is the enlarged diagram of another connecting method of the stitching portion in Fig. 1.

Drawing reference numeral explanation：

The first girders of 1-, the second girders of 2-, 3- third girders, 4- stitching portions, 4a- pipes, 4b- anchor ear plates, 4c- bolts, 4d- flanged plates, 5- first connecting rods, 6- second connecting rods, 7- third connecting rods, 8- fourth links, 9- reinforce connecting rod.

Specific embodiment

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, attached drawing will be compareed below Illustrate specific embodiment of the present utility model.It should be evident that the accompanying drawings in the following description is only the one of the utility model A little embodiments, for those of ordinary skill in the art, without creative efforts, can also be according to these Attached drawing obtains other attached drawings, and obtains other embodiments.

To make simplified form, in each figure only schematically show with the relevant part of the utility model, they are simultaneously Its practical structures as product is not represented.

【Embodiment 1】

As shown in Figures 1 to 3, embodiment 1 discloses a kind of a kind of specific embodiment of split type photovoltaic plate truss structure, Including：Two truss elements, splice and anchor ear plate 4b, each truss element include：The first girder 1 for being mutually parallel, Two girders 2 and third girder 3 form triangular prism between first girder 1, the second girder 2 and third girder 3 by connecting rod Shape, the structure of triangular prism cylindricality is more stable, convenient for the fixation of photovoltaic panel.

As shown in figures 4-6, the both ends of the first girder 1, the second girder 2 and third girder 3 are equipped with holding tank, splice Both ends stretch into both sides the holding tank of truss element in, in the present embodiment, the shape of splice is pipe 4a, the shape of holding tank Shape is cylinder, and splice can be stretched into holding tank.In other embodiments, the shape of the splice can also be square column Body, rectangle cylinder etc., and the shape of holding tank is corresponding with splice shape, no longer discusses herein.

Anchor ear plate 4b includes an arc panel and the extension composition for being set to arc panel both ends, the extending part at both ends In extending in same plane and in the opposite direction.The extension of the extension of the anchor ear plate 4b of top and the anchor ear plate 4b of lower section Portion passes through four bolt 4c connections, the arc panel of the anchor ear plate 4b of top, the arc panel of the anchor ear plate 4b of lower section, two truss lists Member connects fixation with splice by bolt 4c, so as to complete the splicing of adjacent truss unit.

As shown in figure 5, when two adjacent truss elements mutually splice, a purlin is first stretched into wherein one end of splice In the holding tank of frame unit, and using bolt 4c by the arc panel of the anchor ear plate 4b of top, the anchor ear plate 4b of lower section arc panel, The truss element connects fixation with splice, and the holding tank of the end of another truss element is slowly then inserted in splice The other end, by bolt 4c by the arc panel of the anchor ear plate 4b of top, the arc panel of the anchor ear plate 4b of lower section, the truss installed afterwards Unit is fixedly connected with splice, finally, using bolt 4c by the extension of the anchor ear plate 4b of top and the anchor ear plate 4b of lower section Extension be fixedly connected, that is, complete two truss elements between connection.

Detachable connection structure for connecting adjacent truss unit is not limited to the connection mode of above-mentioned anchor ear plate 4b, Can also use flanged plate 4d connections, as shown in fig. 7, flanged plate 4b by be uniformly disposed around the first girder 1, the second girder 2 or Four pieces of ribbed stiffeners of the end of person's third girder 3 are fixedly connected with the end of the first girder 1, the second girder 2 or third girder 3, Two flanged plate 4d are connected with each other by bolt 4c, so as to fulfill the connection between adjacent truss unit.

As shown in Figures 1 to 3, the second girder 2 is connect with the first girder 1 by several first connecting rods 5, and the of first connecting rod 5 One end and the first girder 1 are hinged, and the second end of head rod 5 is hinged with the second girder 2, for connecting the first girder 1 and the Several first connecting rods 5 of two girders 2 are mutually parallel.

Third girder 3 is connect with the first girder 1 also by several first connecting rods 5, the first end of first connecting rod 5 and the first master Beam 1 is hinged, and the second end and third girder 3 of first connecting rod 5 are hinged, for connecting several the of the first girder 1 and third girder 3 One connecting rod 5 is mutually parallel.

Further include second connecting rod 6, the first end of second connecting rod 6 in the first girder 1, the second girder 2 and third girder 3 Any one girder is rotatablely connected, and the second end of second connecting rod 6 is free end, and the free end of second connecting rod 6 is equipped with the first connection Portion, the first girder 1, the second girder 2 or third girder 3 are equipped with the second mounting portion corresponding with first connecting portion, and second connects When the first connecting portion of bar 6 is connect with the first mounting portion, second connecting rod 6 connects adjacent two first in the same plane The diagonal end of connecting rod 5.

Third connecting rod 7, the first end of third connecting rod 7 is hinged with the second girder 2, and the second end of third connecting rod 7 is free end, The free end of third connecting rod 7 is equipped with second connecting portion, and third girder 3 is equipped with the second mounting portion corresponding with second connecting portion, When second connecting portion is connect with the second mounting portion, adjacent 7 V-shaped structure of third connecting rod.It of courses, the first of third connecting rod 7 End can also be hinged with third girder 3, and the second girder 2 is equipped with the second mounting portion corresponding with second connecting portion, herein not It is restricted.

In other specific embodiments, split type photovoltaic plate truss structure can also be by 3,4 or more truss Unit spliced forms, and details are not described herein again.

Directly transport truss element, since the length of truss element is smaller, so as to reduce transport difficulty, is saved to erecting bed About transportation cost.And pass through and stretch into the both ends of splice in the holding tank of adjacent truss unit to be spliced, it can be further Strengthen the intensity of the stitching portion 4 of adjacent truss element, so as to avoid the centre position of photovoltaic plate truss structure in the prior art Due to the deflection deformation that intensity is not high and generates.Easy to connect using anchor ear plate 4b, speed is fast, helps speed up site operation Efficiency.

【Embodiment 2】

As depicted in figs. 1 and 2, embodiment 2 is on the basis of embodiment 1, the first girder 1 and the second girder 2 of embodiment 2 Between be additionally provided with several fourth links 8, several fourth links 8 for connecting the first girder 1 and the second girder 2 are mutually parallel, Fourth link 8 is set perpendicular to the first girder 1 and the second girder 2, for providing the support in short transverse for the second girder 2 Power.Several fourth links 8 are equipped between first girder 1 and third girder 3, if for connecting the first girder 1 and third girder 3 Dry fourth link 8 is mutually parallel, and fourth link 8 is set perpendicular to the first girder 1 and third girder 3.

Adjacent first connecting rod 5, fourth link 8 and second connecting rod 6, position between the first girder 1 and the second girder 2 Adjacent first connecting rod 5, fourth link 8 and second connecting rod 6 between the first girder 1 and third girder 3 and positioned at second Adjacent two piece third connecting rod 7 between girder 2 and third girder 3 collectively forms quadrangle taper, and the structural stability is good, can Preferably photovoltaic panel of the fixed placement on truss, avoids it from toppling, fall.

【Embodiment 3】

As shown in Fig. 1~3 and Fig. 6, for embodiment 3 on the basis of Examples 1 to 2, embodiment 3 is located at split type photovoltaic Strengthening mechanism is respectively equipped on the truss element at the both ends of plate truss structure, which is located at split type photovoltaic plate girder knot The end of structure, the strengthening mechanism include be located at truss element first girder 1 and the second girder 2 of wherein one end between, first Two reinforcing connecting rods 9 between girder 1 and third girder 3, and be mutually parallel positioned at two reinforcing connecting rods 9 of approximately the same plane.

【Embodiment 4】

On the basis of Examples 1 to 3, the splice of embodiment 4 includes cylinder and is set to cylinder two embodiment 4 The round platform at end, one end that the section of round platform is larger are connect with cylinder, and holding tank includes cylindrical section and converging transition, the holding tank Converging transition for truncated cone-shaped, tapered along the groove depth direction of holding tank, the inner surface of the converging transition of the holding tank is second Guide surface, the outer surface of the round platform at the both ends of splice is the first guide surface, and when splice is stretched into holding tank, first is oriented to Face resists the second guide surface.

In other specific embodiments, the both ends of the cylinder of splice can also be the converging transition of cone and holding tank For cone, the shape of splice and holding tank is not limited to the example in specification, as long as the section at the both ends of splice Size, which tapers into, can be realized guiding role, and details are not described herein again.

The splice that both ends are equipped with round platform can play the role of guiding when truss element is spliced to truss element, Enable the joggle truss unit that installation personnel is more convenient, improve in-site installation efficiency.

It should be noted that above-described embodiment can be freely combined as needed.The above is only the utility model Preferred embodiment, it is noted that for those skilled in the art, do not departing from the utility model principle Under the premise of, several improvements and modifications can also be made, these improvements and modifications also should be regarded as the scope of protection of the utility model.

Claims (10)

1. a kind of split type photovoltaic plate truss structure, which is characterized in that including：

Splice；

Several truss elements, the both ends of the truss element are equipped with the holding tank for accommodating the splice, the holding tank Shape and the shape of the splice match, and the both ends of the splice are respectively protruding into the holding tank of the adjacent truss element It is interior；

The adjacent truss element is connected by Detachable connection structure.

2. split type photovoltaic plate truss structure according to claim 1, it is characterised in that：

The Detachable connection structure is anchor ear plate, and the stitching portion both sides of the adjacent truss element are respectively provided with one piece of anchor ear Plate, anchor ear plate, truss element and splice are connected by connector described in both sides.

3. split type photovoltaic plate truss structure according to claim 1, it is characterised in that：

Each truss element includes：The first girder, the second girder and the third girder being mutually parallel, first girder, Triangular prism cylindricality is connected and composed by connecting rod between second girder and third girder；

The both ends of first girder, the second girder and third girder are equipped with the holding tank.

4. split type photovoltaic plate truss structure according to claim 3, it is characterised in that：

Second girder is connect with the first girder by several first connecting rods, the first end of the first connecting rod and described first Girder is rotatablely connected, and the second end of the first connecting rod is rotatablely connected with second girder, for connecting first girder It is mutually parallel with several first connecting rods of the second girder；

The third girder is connect with the first girder by several first connecting rods, the first end of the first connecting rod and described first Girder is rotatablely connected, and the second end of the first connecting rod is rotatablely connected with the third girder, for connecting first girder It is mutually parallel with several first connecting rods of third girder；

The connecting rod further includes：

Second connecting rod, the first end of the second connecting rod and wherein appointing in first girder, the second girder and third girder One girder rotation connection of meaning, the second end of the second connecting rod is free end, and the free end of the second connecting rod is equipped with first Connecting portion, first girder, the second girder or third girder are equipped with the first mounting portion corresponding with the first connecting portion, When the first connecting portion of the second connecting rod is connect with first mounting portion, the second connecting rod connection is generally aligned in the same plane On adjacent two first connecting rod diagonal end；

Third connecting rod, second girder are connect with third girder by several third connecting rods.

5. split type photovoltaic plate truss structure according to claim 4, it is characterised in that：

The first end of the third connecting rod is rotatablely connected with second girder, and the second end of the third connecting rod is free end, The free end of the third connecting rod is equipped with second connecting portion, and the third girder is equipped with corresponding with the second connecting portion the Two mounting portions, when the second connecting portion is connect with second mounting portion, the adjacent third connecting rod forms V-structure.

6. split type photovoltaic plate truss structure according to claim 4, it is characterised in that：

The first end of the third connecting rod is rotatablely connected with the third girder, and the second end of the third connecting rod is free end, The free end of the third connecting rod is equipped with second connecting portion, and second girder is equipped with corresponding with the second connecting portion the Two mounting portions, when the second connecting portion is connect with second mounting portion, the adjacent third connecting rod forms V-structure.

7. the split type photovoltaic plate truss structure according to any one in claim 3~6, it is characterised in that：

Several fourth links are additionally provided between first girder and the second girder, for connecting first girder and the second master Several fourth links of beam are mutually parallel, and the fourth link is set perpendicular to first girder and the second girder；

Several fourth links are additionally provided between first girder and third girder, for connecting first girder and third master Several fourth links of beam are mutually parallel, and the fourth link is set perpendicular to first girder and third girder.

8. split type photovoltaic plate truss structure according to claim 3, it is characterised in that：

On the truss element at the both ends of the split type photovoltaic plate truss structure, it is respectively equipped with strengthening mechanism, and the reinforcing Mechanism is located at the end of split type photovoltaic plate truss structure；

The strengthening mechanism includes the first girder for being located at wherein one end of each truss element and the second girder, the first master Two reinforcing connecting rods between beam and third girder, and be mutually parallel positioned at two connecting rods of reinforcing of approximately the same plane.

9. split type photovoltaic plate truss structure according to claim 1, it is characterised in that：

The both ends of the splice are equipped with the first guide surface, and the holding tank is corresponding to the position of the first guide surface of the splice It puts place and is equipped with matched second guide surface；

When the splice is located in the holding tank, first guide surface is abutted with the second guide surface.

10. split type photovoltaic plate truss structure according to claim 1, it is characterised in that：

The splice includes cylinder and the round platform for being set to the cylinder both ends, and the sectional dimension of the round platform is larger One end is connect with the both ends of the cylinder；

The bottom of the holding tank is round table-like, and the radial dimension of the bottom of the holding tank is tapered along groove depth direction.