CN218941028U

CN218941028U - Photovoltaic cleans robot bridge connecting piece and side bridging frame

Info

Publication number: CN218941028U
Application number: CN202223382748.1U
Authority: CN
Inventors: 蔡高芳; 丁晓林
Original assignee: Jiangsu Detian Intelligent Technology Co ltd
Current assignee: Jiangsu Detian Intelligent Technology Co ltd
Priority date: 2022-12-16
Filing date: 2022-12-16
Publication date: 2023-04-28
Anticipated expiration: 2032-12-16

Abstract

The utility model discloses a side bridge connecting piece and a side bridge frame of a photovoltaic cleaning robot, and belongs to the field of photovoltaic power generation. The side bridge connecting piece comprises a side baffle and a bottom plate vertically arranged at the lower end of the side baffle, wherein an inner baffle extending upwards is arranged on the bottom plate, a bayonet is arranged on one side of the inner baffle, a clamping space is reserved between the side baffle and the inner baffle, and a rod connecting part is further arranged on the side baffle. According to the side bridge connecting piece and the side bridge frame, the side baffle and the inner baffle on the bottom plate can be in limit connection with the transverse frame of the photovoltaic panel, meanwhile, the bayonet on the inner baffle can be clamped with the longitudinal frame of the photovoltaic panel, holes are not required to be punched in the frame of the photovoltaic panel, the connecting operation is simple and convenient, the side bridge connecting piece and the inner baffle can be firmly clamped on the frame of the photovoltaic panel by matching with the bridge passing rod, and the connection is firm and stable; in addition, the side bridge connecting piece and the side bridge frame are simple in structural design and convenient to manufacture, and have good popularization and application values in the photovoltaic field.

Description

Photovoltaic cleans robot bridge connecting piece and side bridging frame

Technical Field

The utility model relates to the technical field of cleaning of photovoltaic modules, in particular to a photovoltaic cleaning robot side bridge connecting piece and a side bridge frame.

Background

In roof photovoltaic power stations or ground photovoltaic power stations, the photovoltaic panels are arranged on the support in a rectangular array mode. In order to ensure the power generation efficiency of the photovoltaic module, a cleaning robot is arranged on the photovoltaic module to clean the surface of the photovoltaic module. The existing photovoltaic cleaning robot walks on the photovoltaic modules through the wheel sets at the two ends, and a supporting wheel set is also arranged in the middle of the cleaning robot for the cleaning robot crossing a plurality of photovoltaic modules.

Because of the space reservation needs between the adjacent photovoltaic supports, inevitably have wider interval between two rows of adjacent photovoltaic boards, in order to make the photovoltaic clean the robot and can stride across multirow photovoltaic board and clean the operation, need set up the crane span structure between the interval of photovoltaic board and connect to make things convenient for the wheelset walking of photovoltaic cleaning robot. The crossing and walking principle of the photovoltaic cleaning robot between the multiple rows of photovoltaic panels can refer to a side bridge device for a photovoltaic module disclosed in Chinese patent number ZL202020418833.0 and a connecting bridge for a photovoltaic module disclosed in Chinese patent number ZL 202221900507.9.

The side bridging frame of the existing photovoltaic panel mainly comprises a bridge rod and connecting pieces at two ends, and the bridge rod is connected with the photovoltaic panel frame through the connecting pieces at two ends. The existing bridge connecting piece has a plurality of structural forms, one part of the bridge connecting piece needs to be perforated on the photovoltaic panel frame, and the connecting piece is directly fixed on the photovoltaic panel frame by using screws or rivets, so that the photovoltaic panel frame is damaged; the other part adopts the design of exempting from to punch, can not harm photovoltaic board frame, but its main shortcoming that exists lies in installation operation trouble, and connection stability is relatively poor. For example, chinese patent No. ZL202020418833.0 discloses a "side bridge device for a photovoltaic module", which uses an angle clamping piece to connect with a photovoltaic panel frame, specifically uses a bridging surface at an upper end of the angle clamping piece and two clamping pieces at a lower end to connect with the photovoltaic panel frame, and in a connection process, the two clamping pieces at the lower end need to be bent and clamped into a frame at a lower end surface of the photovoltaic module, and the hardness of the clamping pieces is often relatively high, the bending difficulty in an actual operation process is relatively high, the subsequent disassembly is inconvenient, the operation is relatively complicated, and the photovoltaic panel frame is connected only by a clamping force, so that the connection firmness is relatively poor. And as disclosed in Chinese patent number ZL202221900507.9, the name of the bridge is a photovoltaic module connection bridge, the connecting piece consists of a first connecting piece and a second connecting piece, the first connecting piece and the second connecting piece are connected through screws, the bridge is connected with a photovoltaic panel frame by using the clamping force between the two connecting pieces, and the bridge needs to be aligned with holes and locked by installing screws in the connecting process, so that the problem of complex operation is also caused.

Disclosure of Invention

1. Technical problem to be solved by the utility model

The utility model aims to overcome the defects of troublesome installation operation, poor connection stability and the like of the existing photovoltaic cleaning robot side bridge connection structure, and provides a photovoltaic cleaning robot side bridge connection piece and a side bridge frame, by adopting the technical scheme of the utility model, an inner baffle on a side baffle and a bottom plate can be connected with a photovoltaic panel transverse frame, and meanwhile, a bayonet on the inner baffle can be clamped with a photovoltaic panel longitudinal frame, so that a photovoltaic panel frame does not need to be perforated, the connection operation is simple and convenient, and the photovoltaic cleaning robot side bridge connection piece and the side bridge frame can be firmly clamped on the photovoltaic panel frame by matching a bridge passing rod, so that the connection is firm and stable; in addition, the side bridge connecting piece and the side bridge frame are simple in structural design and convenient to manufacture, and have good popularization and application values in the photovoltaic field.

2. Technical proposal

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

the utility model discloses a photovoltaic cleaning robot bridge connecting piece which comprises a side baffle and a bottom plate vertically arranged at the lower end of the side baffle, wherein an inner baffle extending upwards is arranged on the bottom plate, a bayonet is arranged on one side of the inner baffle, a clamping space is reserved between the side baffle and the inner baffle, and a rod connecting part is further arranged on the side baffle.

Further, the inner baffle is approximately parallel to the side baffles, and the upper plane of the bottom plate is connected with the bayonet.

Still further, the member bar connecting portion is "L" shape, including vertical connecting plate and horizontal connecting plate, the one end of vertical connecting plate is fixed in one side of side shield, the upper end at the side shield is fixed to the one end of horizontal connecting plate.

Still further, the vertical connecting plate and/or the horizontal connecting plate are also provided with waist-shaped holes.

Furthermore, the bridge connecting piece is integrally formed by adopting a sheet metal process.

Still further, the integrative perpendicular shaping of buckling of side shield and bottom plate, interior baffle is upwards perpendicular shaping of buckling by the otic placode that the blanking formed in bottom plate middle part, the bayonet socket comprises the upper plane of the breach upper sidewall and bottom plate of seting up interior baffle one side, the vertical connecting plate of member connecting portion is by the perpendicular shaping of buckling of the opposite direction of side shield to the bottom plate, the vertical shaping of buckling of upper portion to the inboard of vertical connecting plate of horizontal connecting plate, the adjacent piece welded connection of horizontal connecting plate and side shield upper end.

The utility model discloses a side bridge frame of a photovoltaic cleaning robot, which comprises a bridge passing rod, wherein two ends of the bridge passing rod are respectively provided with the side bridge connecting pieces, and the two side bridge connecting pieces positioned at the two ends of the bridge passing rod are of a bilateral symmetry structure; the bridge bar extends to the bridge connector at the corresponding side, and a protruding part is formed at the bottom plate of the bridge connector at the corresponding side, and the protruding part is provided with a side blocking wall opposite to the bayonet and an upper blocking wall opposite to the bottom plate.

Furthermore, the bridge passing rod is angle steel.

Further, the end part of the bridge passing rod is connected with the rod piece connecting part of the side bridge connecting piece at the corresponding side through a connecting bolt.

3. Advantageous effects

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial effects:

(1) The utility model relates to a photovoltaic cleaning robot bridge connecting piece, which comprises a side baffle and a bottom plate vertically arranged at the lower end of the side baffle, wherein an upward extending inner baffle is arranged on the bottom plate, a bayonet is arranged at one side of the inner baffle, a clamping space is reserved between the side baffle and the inner baffle, a rod connecting part is also arranged on the side baffle, the side baffle and the inner baffle on the bottom plate can be in limit connection with a photovoltaic panel transverse frame, and meanwhile, the bayonet on the inner baffle can be in clamping connection with the photovoltaic panel longitudinal frame without punching on the photovoltaic panel frame, so that the connecting operation is simple and convenient, the connecting piece can be firmly clamped on the photovoltaic panel frame by matching with a bridge passing rod, and the connecting piece is firm and stable; in addition, the side bridge connecting piece and the side bridge frame are simple in structural design and convenient to manufacture, and have good popularization and application values in the photovoltaic field;

(2) According to the photovoltaic cleaning robot bridge connecting piece, the inner baffle plate is approximately parallel to the side baffle plate, the upper plane of the bottom plate is connected with the bayonet, and the bayonet can slide on the photovoltaic panel transverse frame along the clamping space between the inner baffle plate and the side baffle plate during installation, so that the bayonet can be accurately clamped into the bottom wall of the photovoltaic panel longitudinal frame, and the installation operation convenience of the bridge connecting piece on a photovoltaic module is further improved;

(3) According to the bridge connecting piece of the photovoltaic cleaning robot, the rod connecting part is L-shaped and comprises the vertical connecting plate and the horizontal connecting plate, one end of the vertical connecting plate is fixed on one side of the side baffle, one end of the horizontal connecting plate is fixed on the upper end of the side baffle, and the L-shaped rod connecting part is better in structural strength and not easy to bend and deform;

(4) According to the bridge connecting piece of the photovoltaic cleaning robot, the waist-shaped holes are formed in the vertical connecting plate and/or the horizontal connecting plate, so that the connecting part of the rod piece is conveniently connected with the bridge passing rod, and meanwhile, the waist-shaped holes can allow certain installation errors, so that the connection is more convenient and flexible; in addition, the waist-shaped hole connection design can also adapt to the dimensional change caused by thermal expansion and cold contraction of the photovoltaic module, and the photovoltaic module is prevented from being damaged;

(5) According to the photovoltaic cleaning robot bridge connecting piece, the bridge connecting piece is integrally formed by adopting a sheet metal process, the manufacturing process is simple, the manufactured connecting piece is strong in integrity, higher in structural strength and low in manufacturing cost;

(6) According to the side bridging frame of the photovoltaic cleaning robot, the two ends of the bridging rod are connected with the photovoltaic panel by the side bridging connecting pieces, and after the bridging rod is connected with the side bridging connecting pieces at the two ends, the protruding parts can be used for further limiting in the lateral direction and the up-down direction, so that the two ends of the bridging rod are completely locked with the photovoltaic panel frame, and the connection stability is improved;

(7) According to the side bridge frame of the photovoltaic cleaning robot, the bridge passing rod is angle steel, the end part of the bridge passing rod is connected with the rod connecting part of the side bridge connecting piece at the corresponding side through the connecting bolt, and the side bridge frame is convenient to connect and convenient to detach.

Drawings

Fig. 1 is a schematic perspective view of a bridge connector of a photovoltaic cleaning robot according to the present utility model;

fig. 2 is a schematic diagram of a front view structure of a bridge connector of a photovoltaic cleaning robot according to the present utility model;

FIG. 3 is a schematic side view of a photovoltaic cleaning robot bridge connector of the present utility model;

FIG. 4 is a schematic top view of a photovoltaic cleaning robot bridge connector according to the present utility model;

fig. 5 is a schematic perspective view of a photovoltaic cleaning robot bridge connector (symmetrical side connector) according to the present utility model;

FIG. 6 is a schematic view showing the assembly and disassembly of the bridge connector and the photovoltaic panel frame according to the present utility model;

fig. 7 is a schematic perspective view of a side bridge frame of a photovoltaic cleaning robot according to the present utility model;

fig. 8 is a schematic diagram of a connection structure between a side bridge frame and a photovoltaic panel frame according to the present utility model.

Reference numerals in the schematic drawings illustrate:

100. a bridge connecting piece; 101. side baffles; 102. a bottom plate; 103. an inner baffle; 104. a bayonet; 105. a rod piece connecting part; 105a, vertical connection plates; 105b, a horizontal connection plate; 106. waist-shaped holes;

200. a photovoltaic module; 201. a frame; 201a, a frame bottom wall; 202. a photovoltaic panel;

300. a bridge rod; 300a, a protrusion; 301. and (5) connecting bolts.

Detailed Description

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings and examples.

Examples (example)

The photovoltaic cleaning robot side bridge connecting piece is used for bridging side intervals between adjacent photovoltaic modules, and can be connected with the photovoltaic modules 200 in a lossless manner. As shown in fig. 1 to 4, the bridge connector 100 includes a side baffle 101 and a bottom plate 102 vertically disposed at the lower end of the side baffle 101, an inner baffle 103 extending upward is disposed on the bottom plate 102, a bayonet 104 is disposed on one side of the inner baffle 103, the opening size of the bayonet 104 is adapted to the thickness of the bottom wall 201a of the frame of the photovoltaic module 200, the bayonet 104 can be clamped on the side edge of the bottom wall 201a of the frame, a clamping space is reserved between the side baffle 101 and the inner baffle 103, and the width size of the clamping space is adapted to the width of the bottom wall 201a of the frame of the photovoltaic module 200, so that the side baffle 101 and the inner baffle 103 can be clamped on the frame of the photovoltaic module. The side guard 101 is further provided with a rod connection portion 105 for connecting with the bridge rod 300. Utilize the interior baffle 103 on side shield 101 and the bottom plate 102 can be with the horizontal frame spacing connection of photovoltaic board, utilize the bayonet socket 104 on the interior baffle 103 simultaneously can with the vertical frame joint of photovoltaic board, need not to punch on the photovoltaic board frame, connect easy operation is convenient, cooperation bridging pole can firm block on the photovoltaic board frame, firm in connection is stable.

Referring to fig. 1 to 4, in this embodiment, the inner baffle 103 is substantially parallel to the side baffles 101, and the upper surface of the bottom plate 102 engages with the bayonet 104. The inner baffle 103 is preferably arranged in the middle of the bottom plate 102 and can be punched, bent and formed by the bottom plate 102; the bayonet 104 can slide on the photovoltaic panel transverse frame along the clamping space between the inner baffle 103 and the side baffle 101 when being installed towards the outer side of the whole bridge connecting piece 100, so that the bayonet 104 can be accurately clamped into the bottom wall of the photovoltaic panel longitudinal frame, and the installation operation convenience of the bridge connecting piece on the photovoltaic module is further improved. The rod connecting portion 105 in this embodiment is in an "L" shape, and includes a vertical connecting plate 105a and a horizontal connecting plate 105b, where the vertical connecting plate 105a and the horizontal connecting plate 105b are perpendicular, one end of the vertical connecting plate 105a is fixed on one side of the side baffle 101, one end of the horizontal connecting plate 105b is fixed on the upper end of the side baffle 101, and the "L" shaped rod connecting portion has better structural strength and is not easy to bend and deform. The vertical connecting plate 105a and/or the horizontal connecting plate 105b are also provided with waist-shaped holes 106, and the waist-shaped holes 106 extend along the length direction of the rod connecting part 105, so that the rod connecting part 105 is convenient to connect with the bridge passing rod 300, and meanwhile, the waist-shaped holes 106 can allow certain installation errors, so that the connection is more convenient and flexible; in addition, the waist-shaped hole connection design can also adapt to the dimensional change caused by thermal expansion and cold contraction of the photovoltaic module, and the photovoltaic module is prevented from being damaged.

The photovoltaic cleaning robot bridge connector of this embodiment is preferably formed integrally by a sheet metal process, that is, the bridge connector 100 is formed by punching and bending a metal plate, and can be welded locally if necessary. Specifically, after blanking, the side baffle plate 101 and the bottom plate 102 are integrally and vertically bent and formed, the lug plate formed by blanking the middle part of the bottom plate 102 on the inner baffle plate 103 is vertically bent and formed upwards, and the bent bullnose angle of the inner baffle plate 103 faces the side baffle plate 101 preferably, so that interference between the bent internal corner of the inner baffle plate 103 and the photovoltaic panel frame can be avoided. The bayonet 104 is formed by an upper side wall of a notch formed on one side of the inner baffle 103 and an upper plane of the bottom plate 102, a vertical connecting plate 105a of the rod connecting part 105 is vertically bent and formed in the opposite direction of the bottom plate 102 from one side of the side baffle 101, a horizontal connecting plate 105b is vertically bent and formed in the inner side from the upper part of the vertical connecting plate 105a, and the horizontal connecting plate 105b is welded and connected with an adjacent seam at the upper end of the side baffle 101. The sheet metal process is adopted for manufacturing, the manufacturing process is simple, the manufactured connecting piece is strong in integrity, higher in structural strength and low in manufacturing cost.

The bridge connector 100 shown in fig. 5 is a symmetrical part of fig. 1, that is, the two bridge connectors 100 shown in fig. 1 and 5 are symmetrical parts, and the two symmetrical bridge connectors 100 are a pair, and each side bridge frame needs to use a pair of the bridge connectors 100.

In order to facilitate understanding of the connection relationship between the bridge connector 100 and the photovoltaic module 200, fig. 6 is a schematic diagram illustrating the dismounting state of the bridge connector 100 and the photovoltaic panel frame. The frame 201 shown in fig. 6 is a longitudinal frame, i.e. a photovoltaic panel frame co-directional with the bridge bars. At the corner of the photovoltaic module 200 at which the edge bridge is connected, perpendicular to the longitudinal edge frame is a transverse edge frame. The frame 201 of the photovoltaic panel is an existing structure, and its general structure is: the upper part of the frame 201 is provided with an upper pressing edge, the photovoltaic panel 202 is arranged in a mounting groove at the lower part of the upper pressing edge, the bottom of the frame 201 is provided with a frame bottom wall 201a extending towards the inner side of the photovoltaic module 200, and the frame bottom wall 201a is mainly used for being connected with a photovoltaic bracket. When the bridge connecting piece 100 is installed, the front end face of the side baffle 101 is attached to the outer side wall of the transverse frame, and the bottom plate 102 is located below the bottom wall 201a of the frame; then, the bridge connector 100 is slid upwards along the outer side wall of the transverse frame, so that the upper plane of the bottom plate 102 is attached to the lower part of the frame bottom wall 201a of the transverse frame, and the frame bottom wall 201a of the transverse frame is just positioned in the clamping space between the side baffle 101 and the inner baffle 103; then, the bridge connector 100 is slid in the direction of an arrow in fig. 6, so that the bayonet 104 on the bridge connector 100 is just clamped at the outer edge of the frame bottom wall 201a of the longitudinal frame, and the bridge connector 100 is connected with the photovoltaic module 200. At this time, only one degree of freedom is required to slide between the bridge connector 100 and the photovoltaic module 200 in the lateral direction, and only the degree of freedom is limited in the following process, so that the bridge connector 100 can be firmly mounted on the frame of the photovoltaic module 200.

As shown in fig. 7, this embodiment also discloses a side bridge frame of the photovoltaic cleaning robot. The side bridging frame comprises a bridging rod 300, the length of the bridging rod 300 is equal to the distance between two adjacent rows of photovoltaic modules 200, the two ends of the bridging rod 300 are respectively provided with the side bridging connectors 100, and the two side bridging connectors 100 positioned at the two ends of the bridging rod 300 are in a bilateral symmetry structure. The bridge bar 300 extends toward the side bridge connector 100 of the corresponding side, and a protrusion 300a is formed at the bottom plate 102 of the side bridge connector 100 of the corresponding side, the protrusion 300a having a side blocking wall opposite to the bayonet 104 and an upper blocking wall opposite to the bottom plate 102. The bridge 300 is preferably angle steel, and two vertical wings of the angle steel form a side wall and an upper wall of the protruding portion 300 a. The end of the bridge bar 300 may be connected with the bar connecting portion 105 of the corresponding side bridge connector 100 by a connecting bolt 301. Specifically, bolt holes can be formed at two ends of the bridge passing rod 300, and the bolts 301 penetrate into the kidney-shaped holes 106 of the rod connecting part 105 after penetrating through the bolt holes of the bridge passing rod 300, so that the connection is simple and convenient.

Referring to fig. 8, a pair of bridge connectors 100 are first fixed to a frame 201 on the corresponding side of a photovoltaic module 200 according to the method shown in fig. 6, and at this time, bayonets 104 are clamped at the outer edge of a frame bottom wall 201a of a longitudinal frame, and inner baffles 103 and side baffles 101 are respectively clamped at the inner and outer sides of a frame bottom wall 201a of a transverse frame; and then, the two ends of the bridge passing rod 300 are respectively connected with the corresponding bridge connecting pieces 100, the protruding part 300a of the bridge passing rod 300 further limits the bridge connecting pieces 100, namely, the side blocking wall of the protruding part 300a is further clamped at the outer side of the longitudinal frame, the degree of freedom of disassembling the bridge connecting pieces 100 is limited, the upper blocking wall of the protruding part 300a is further pressed at the upper edge of the frame 201, and the connection between the bayonet 104 and the bottom wall 201a of the frame is enhanced. Furthermore, the side bridge connector 100 and the photovoltaic panel frame are completely locked, the side bridge connector cannot be loosened from the frame 201, the side bridge frame is simple and convenient to install and operate, and the side bridge frame is firm and reliable to install.

According to the photovoltaic cleaning robot side bridge connecting piece and the side bridge frame, the side baffle and the inner baffle on the bottom plate can be connected with the photovoltaic panel transverse frame, meanwhile, the bayonet on the inner baffle can be clamped with the photovoltaic panel longitudinal frame, holes are not required to be punched in the photovoltaic panel frame, the connecting operation is simple and convenient, the photovoltaic cleaning robot side bridge connecting piece and the side bridge frame can be firmly clamped on the photovoltaic panel frame by matching with the bridge passing rod, and the connection is firm and stable; in addition, the side bridge connecting piece and the side bridge frame are simple in structural design and convenient to manufacture, and have good popularization and application values in the photovoltaic field.

The utility model and its embodiments have been described above schematically, without limitation, and the actual construction is not limited to this, as it is shown in the drawings, which are only one of the embodiments of the utility model. Therefore, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical scheme are not creatively devised without departing from the gist of the present utility model, and all the structural manners and the embodiments belong to the protection scope of the present utility model.

Claims

1. A photovoltaic cleans robot bridge connecting piece, its characterized in that: the novel side baffle plate comprises a side baffle plate (101) and a bottom plate (102) vertically arranged at the lower end of the side baffle plate (101), wherein an upward extending inner baffle plate (103) is arranged on the bottom plate (102), a bayonet (104) is arranged on one side of the inner baffle plate (103), a clamping space is reserved between the side baffle plate (101) and the inner baffle plate (103), and a rod piece connecting part (105) is further arranged on the side baffle plate (101).

2. The photovoltaic cleaning robot bridge connector of claim 1, wherein: the inner baffle (103) is approximately parallel to the side baffle (101), and the upper plane of the bottom plate (102) is connected with the bayonet (104).

3. The photovoltaic cleaning robot bridge connector of claim 1, wherein: the rod piece connecting part (105) is L-shaped and comprises a vertical connecting plate (105 a) and a horizontal connecting plate (105 b), one end of the vertical connecting plate (105 a) is fixed on one side of the side baffle plate (101), and one end of the horizontal connecting plate (105 b) is fixed on the upper end of the side baffle plate (101).

4. A photovoltaic cleaning robot bridge connector as claimed in claim 3, wherein: waist-shaped holes (106) are also formed in the vertical connecting plates (105 a) and/or the horizontal connecting plates (105 b).

5. The photovoltaic cleaning robot bridge connector of any one of claims 1 to 4, wherein: the bridge connecting piece (100) is integrally formed by adopting a sheet metal process.

6. The photovoltaic cleaning robot bridge connector of claim 3 or 4, wherein: the side baffle (101) and the bottom plate (102) are integrally and vertically bent and formed, the inner baffle (103) is vertically bent and formed upwards by an ear plate formed by punching the middle part of the bottom plate (102), the bayonet (104) is formed by an upper side wall of a notch formed on one side of the inner baffle (103) and an upper plane of the bottom plate (102), a vertical connecting plate (105 a) of the rod connecting part (105) is vertically bent and formed in the opposite direction of the bottom plate (102) from one side of the side baffle (101), a horizontal connecting plate (105 b) is vertically bent and formed in the inner side from the upper part of the vertical connecting plate (105 a), and the horizontal connecting plate (105 b) is welded and connected with an adjacent seam at the upper end of the side baffle (101).

7. The utility model provides a photovoltaic cleans robot side bridging frame, includes bridge pole (300), its characterized in that: the two ends of the bridge passing rod (300) are respectively provided with the bridge connecting pieces (100) according to any one of claims 1 to 6, and the two bridge connecting pieces (100) positioned at the two ends of the bridge passing rod (300) are in a bilateral symmetry structure; the bridge bar (300) extends to the side bridge connector (100) at the corresponding side, a protruding part (300 a) is formed at the bottom plate (102) of the side bridge connector (100) at the corresponding side, and the protruding part (300 a) is provided with a side blocking wall opposite to the bayonet (104) and an upper blocking wall opposite to the bottom plate (102).

8. The photovoltaic cleaning robot side bridge rack of claim 7 wherein: the bridge passing rod (300) is angle steel.

9. The photovoltaic cleaning robot side bridge rack of claim 8 wherein: the end part of the bridge passing rod (300) is connected with the rod piece connecting part (105) of the side bridge connecting piece (100) at the corresponding side through a connecting bolt (301).