CN218772307U - Bridge high slope monitoring device with adjustable support - Google Patents

Abstract

The utility model provides a bridge high slope monitoring devices of adjustable bracket, belongs to side slope monitoring technology field, including solar panel and external antenna, solar panel and external antenna all with transmission control assembly electric connection, transmission control assembly still wireless connection has remote monitoring platform, solar panel is fixed in predetermined monitoring point through adjustable stand, be equipped with the angle adjusting part who carries out the regulation to the solar panel angle between adjustable stand and the solar panel back, external antenna is fixed in predetermined monitoring point through the electric lift post. The utility model discloses can adjust solar panel's height, angle, make solar panel effectively adapt to the illumination time of different side slope monitoring and different times to increase solar panel's electric energy conversion efficiency, guarantee side slope monitoring devices's high-efficient operation.

Description

Bridge high slope monitoring device with adjustable support

Technical Field

The utility model belongs to the technical field of the side slope monitoring, a monitoring devices is related to, especially relates to a bridge high slope monitoring devices of adjustable support.

Background

With the development of economy, the construction of expressways in China is continuously promoted, the number of expressway bridges in mountain areas is continuously increased, steep high slopes are formed near piers under the complex conditions of longitudinal and transverse valley and deep high valley, and the stability of the slopes directly influences the safety of the bridges, so that the monitoring of the deformation of the high slopes of the bridges is an important technology for ensuring the safety of the bridges.

The Beidou satellite navigation system is a global navigation satellite system independently constructed and operated in China, and the bridge high slope deformation monitoring technology is greatly developed due to the advantages of high measurement precision, wide application range and the like, so that the acquired monitoring data is more accurate and more automatic.

The bridge high slope deformation monitoring period is long, and the automatic power supply device of the solar panel is adopted in the bridge high slope deformation monitoring based on the Beidou satellite system generally throughout the whole bridge construction period. But because the mountain body that the side slope place is higher, the opposite side has the pier to shelter from simultaneously, and simultaneously, solar panel is with support fixed connection, and the illumination of unable effectual adaptation different time leads to illumination time and illumination area very little, and is inefficient.

Therefore, in order to solve the problem, the utility model provides a bridge high slope monitoring devices of adjustable support.

Disclosure of Invention

In view of the foregoing prior art, an object of the utility model is to provide a bridge high slope monitoring device of adjustable support for solve among the prior art bridge high slope monitoring process power supply unit solar panel's illumination time and illumination area little, the technical problem that the generating efficiency is low.

For realize above-mentioned purpose and other relevant mesh, the utility model provides a bridge high slope monitoring devices of adjustable support, including solar panel and external antenna, solar panel and external antenna all with transmission control assembly electric connection, transmission control assembly still wireless connection has remote monitoring platform, solar panel is fixed in predetermined monitoring point through adjustable stand, be equipped with the angle adjusting part who carries out the regulation to the solar panel angle between adjustable stand and the solar panel back, external antenna is fixed in predetermined monitoring point through the electric lift post.

Preferably in any of the above schemes, the transmission control assembly includes a waterproof box, a storage battery, a driving device, a main control panel and a 4G transmission module are arranged in the waterproof box, the storage battery is electrically connected with the solar panel, the driving device is respectively electrically connected with the adjustable upright post and the electric lifting post, the main control panel is respectively electrically connected with the storage battery, the driving device and the external antenna, and the main control panel is electrically connected with the 4G transmission module and is bidirectionally transmitted to the remote monitoring platform through the 4G transmission module.

Preferably in any of the above schemes, the adjustable upright column comprises a lower upright column capable of adjusting height and an upper upright column rotatably connected with the lower upright column, and the top of the upper upright column is fixedly connected with the bearing plate.

Preferred in above-mentioned arbitrary scheme, the angle adjusting part includes the connecting rod and can carry out height control's pole setting, connecting rod and pole setting parallel fixation are in on the loading board, rotatable coupling is carried out on solar panel back and pole setting and the connecting rod top.

Preferably in any of the above schemes, the top of the lower column is connected with a lower column gear, the lower column gear is connected with a lower column bearing matched with the lower column gear, the bottom of the upper column is fixedly connected with an upper column built-in gear, and the upper column built-in gear is connected with the lower column bearing.

Preferably in any of the above schemes, the solar panel back is connected with the back support, the back support has seted up the spout along its length direction with the one side middle part that the loading board is relative, the spout both ends are the first L type bracing piece of fixedly connected with and the second L type bracing piece respectively, and the both ends of first L type bracing piece and second L type bracing piece are the fixed connection solar panel back respectively.

Preferably in any of the above schemes, the upright rod is an electric telescopic steel pipe, the tops of the upright rod and the connecting rod extend into the chute and are respectively and movably connected with a first clamping block and a second clamping block, the first clamping block is fixedly connected with upright rod bearings at two sides of the connecting part with the upright rod, and the second clamping block is fixedly connected with connecting rod bearings at two sides of the connecting part with the connecting rod.

In any of the above schemes, preferably, a connecting rod baffle for limiting the position of the connecting rod bearing is arranged outside the connecting rod bearing.

In any of the above schemes, preferably, the lower column is an electric telescopic column, and the lower column bearing and the vertical rod are electrically connected to the driving device.

In any of the above schemes, preferably, the bottom of the lower column and the bottom of the electric lifting column are both fixedly connected with square embedded plates, and four corners of each square embedded plate penetrate the square embedded plate through expansion bolts to respectively fix the adjustable column and the electric lifting column to predetermined monitoring points.

In any of the above schemes, preferably, an alarm module is arranged in the remote monitoring platform.

As above, the utility model discloses a bridge high slope monitoring devices of adjustable bracket has following beneficial effect:

1. the utility model discloses in, remote monitoring platform passes through the operation of 4G transmission module control drive arrangement, makes drive arrangement control lower part pole setting bearing and electronic flexible pole setting drive solar panel and rotates, can realize that solar panel level and vertical direction multi-angle rotate, can increase solar panel exposure time and irradiation area, increase electric energy conversion efficiency.

2. The utility model discloses in, when carrying out adjustable stand and electric lift post installation, through its height of drive arrangement control, make solar panel and the different side slope monitoring of electric lift post adaptation, avoid the side slope mountain and pier to shelter from solar panel and external antenna, influence its high-efficient operation.

Drawings

Fig. 1 shows a schematic structural diagram of the present invention.

Fig. 2 shows a schematic diagram of the system of the present invention.

Fig. 3 is a schematic view of the connection structure of the solar panel.

Fig. 4 shows a schematic view of the structure of the adjustable column.

Fig. 5 shows a top view of the lower stud.

Fig. 6 shows a bottom view of the upper column.

Fig. 7 is a schematic view of the connection structure between the solar panel and the angle adjustment assembly.

Figure 8 shows a schematic view of the connection between the uprights and the back support.

Fig. 9 is a schematic view showing a connection structure between the connection bar and the back.

Description of the element reference numerals

1-an adjustable upright post; 11-lower upright; 111-lower column gear; 112-lower column bearing; 12-upper uprights; 121-built-in gear of upper upright column; 13-a carrier plate; 14-erecting a rod; 141-a first engagement block; 15-a connecting rod; 151-a second block; 152-connecting rod bearing; 153-connecting rod baffle; 16-back support; 17-a first L-shaped support bar; 18-a second L-shaped support bar; 19-square embedded plate; 20-expansion bolts; 2-a solar panel; 3-a storage battery; 4-waterproof box; 5-external antenna; 6-electric lifting column; 7-a drive device; 8-a main control panel; a 9-4G transmission module; 10-remote monitoring platform.

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

Please refer to fig. 1 to 9. It should be understood that the structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any structure modification, ratio relationship change or size adjustment should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the function that the present invention can produce and the purpose that the present invention can achieve. In addition, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are used for clarity of description only, and are not used to limit the scope of the present invention, and the relative relationship between the terms may be changed or adjusted without substantial technical changes.

Please refer to fig. 1-9, the utility model provides a bridge high slope monitoring devices of adjustable bracket, including solar panel 2 and external antenna 5, solar panel 2 and external antenna 5 all with transmission control assembly electric connection, transmission control assembly still wireless connection has remote monitoring platform 10, solar panel 2 is fixed in predetermined monitoring point through adjustable stand 1, be equipped with the angle adjusting part who carries out the regulation to 2 angles of solar panel between adjustable stand 1 and the 2 backs of solar panel, external antenna 5 is fixed in predetermined monitoring point through electronic lift post 6.

When this embodiment uses, in order to guarantee the stability of bridge high slope to guarantee the safety of bridge, need carry out deformation monitoring to bridge high slope. In the prior art, a Beidou satellite navigation system is generally used for monitoring. The Beidou satellite system carries out bridge high slope deformation monitoring and adopts a solar panel automatic power supply device to supply power. However, because the mountain where the side slope is located is high, and the other side is shielded by the bridge piers, the solar panel is fixedly connected with the support, so that the solar panel cannot effectively adapt to illumination at different times, the illumination time and the illumination area are small, and the efficiency is low. Therefore, in order to solve this problem, the present embodiment provides a bridge high slope monitoring device with an adjustable bracket. The device includes adjustable stand 1, solar panel 2, external antenna 5, electronic lift post 6, transmission control subassembly and remote monitoring platform 10. Wherein, solar panel 2 is fixed in predetermined monitoring point through adjustable stand 1, and adjustable stand 1 can carry out altitude mixture control, and can rotate on the horizontal direction, simultaneously, still is equipped with the angle adjusting part who carries out angle modulation to solar panel 2 between adjustable stand 1 and the solar panel 2. Therefore, the solar panel 2 can adjust the height and the vertical inclination angle, and can also rotate in the horizontal direction. Therefore, can adjust solar panel 2 according to the operating mode of difference, make solar panel 2 effectively adapt to the illumination of different times, guarantee that illumination time and illumination area are big, improve solar panel 2's electric energy conversion efficiency to guarantee effective power supply.

External antenna 5 is fixed in the prediction monitoring point through electric lift post 6, is convenient for adjust external antenna 5's height to guarantee that external antenna 5 can effectively receive satellite signal.

In this embodiment, the transmission control assembly and the remote monitoring platform 10 are in bidirectional transmission, the remote monitoring platform 10 sends an instruction to the transmission control assembly, the transmission control assembly controls and operates the adjustable upright post 1 and the electric lifting post 6, collects satellite signals received by the external antenna 5, transmits the data to the remote monitoring platform 10, and the remote monitoring platform 10 can display monitoring data in real time and compare the monitoring data with a preset threshold value and realize alarm at the same time.

As a further description of the above embodiment, the transmission control assembly includes a waterproof box 4, a storage battery 3, a driving device 7, a main control panel 8 and a 4G transmission module 9 are arranged in the waterproof box 4, the storage battery 3 is electrically connected with the solar panel 2, the driving device 7 is electrically connected with the adjustable upright post 1 and the electric lifting column 6 respectively, the main control panel 8 is electrically connected with the storage battery 3, the driving device 7 and the external antenna 5 respectively, and the main control panel 8 is electrically connected with the 4G transmission module 9 and is bidirectionally transmitted to the remote monitoring platform 10 through the 4G transmission module 9.

When the waterproof box is used, the storage battery 3, the driving device 7, the main control panel 8 and the 4G transmission module 9 are fixedly arranged in the waterproof box 4; the solar panel 2 is electrically connected with the storage battery 3, the adjustable upright post 1 and the electric lifting post 6 are electrically connected to the driving device 7, the storage battery 3, the driving device 7 and the external antenna 5 are electrically connected with the main control panel 8, and the main control panel 8 is electrically connected with the 4G transmission module 9 and is bidirectionally transmitted through the 4G transmission module 9 and the remote monitoring platform 10; remote monitoring platform 10 sends instruction to main control panel 8 through 4G transmission module 9, and main control panel 8 control drive arrangement 7 operation adjustable stand 1 and electronic lift post 6, and main control panel 8 gathers the satellite signal that external antenna 5 received and sends data to remote monitoring platform 10 through 4G transmission module 9, and remote monitoring platform 10 can show monitoring data in real time and compare with the threshold value of predetermineeing and realize reporting to the police simultaneously.

In this embodiment, an alarm module is arranged in the remote monitoring platform.

As a further description of the above embodiment, the adjustable upright 1 comprises a lower upright 11 capable of height adjustment and an upper upright 12 rotatably connected with the lower upright 11, and a bearing plate 13 is fixedly connected to the top of the upper upright 12.

When this embodiment uses, adjustable stand 1 includes lower part stand 11 and upper portion stand 12, lower part stand 11 adopts electric telescopic handle, electric telescopic handle and 7 electric connection of drive arrangement can adjust solar panel 2's height through extension or shorten electric telescopic handle.

The upper vertical column 12 is rotatably connected to the lower vertical column 11 to horizontally rotate the upper vertical column 12, and thus the solar panel 2 connected to the upper vertical column 12.

In this embodiment, the structure for realizing the rotatable connection between the upper column 12 and the lower column 11 is: the top of the lower column 11 is connected with a lower column gear 111, the lower column gear 111 is connected with a lower column bearing 112 matched with the lower column gear 111, the bottom of the upper column 12 is fixedly connected with an upper column built-in gear 121, and the upper column built-in gear 121 is connected with the lower column bearing 112. Lower part stand bearing 112 and drive arrangement 7 electric connection, through drive arrangement 7 control lower part stand bearing 112 rotation, through the rotation of lower part stand bearing 112 in lower part stand gear 111 drive with the rotation of the built-in gear 121 of upper portion stand that lower part stand bearing 112 is connected to drive upper portion stand 12 and rotate, and then drive solar panel 2 and carry out the rotation of horizontal direction.

As a further description of the above embodiment, the angle adjusting assembly includes a connecting rod 15 and a vertical rod 14 capable of height adjustment, the connecting rod 15 and the vertical rod 14 are fixed on the bearing plate 13 in parallel, and the back of the solar panel 2 is rotatably connected with the top of the vertical rod 14 and the connecting rod 15. The back of the solar panel 2 is connected with a back support 16, and a sliding groove is formed in the middle of one face, opposite to the bearing plate 13, of the back support 16 along the length direction of the middle. The top of the upright rod 14 and the top of the connecting rod 15 both extend into the sliding groove and are respectively and movably connected with a first clamping block 141 and a second clamping block 151, the first clamping block 141 is fixedly connected with upright rod bearings 141 on two sides of the connecting part with the upright rod 14, and the second clamping block 151 is fixedly connected with connecting rod bearings 152 on two sides of the connecting part with the connecting rod 15.

When this embodiment uses, 2 backs of solar panel are connected with back support 16, support 16 through the back and are connected with angle adjusting part, guarantee solar panel 2's integrality, avoid causing the damage to solar panel 2 with angle adjusting part in the connection process.

The upright rod 14 is an electric telescopic steel pipe, and the upright rod 14 is electrically connected with the driving device 7. When the angle of solar panel 2 needs to be adjusted, through drive arrangement 7 drive pole setting 14 extension or shorten, pole setting 14 extension or the in-process solar panel 2 that shortens rotate around the tie point at solar panel 2 and connecting rod 15 top to the realization is to solar panel 2's angle modulation.

In this embodiment, the setting of spout can guarantee that pole setting 14 can slide in the spout at the in-process that extends or shorten to prevent the card between pole setting 14 and the solar panel 2 and die, guarantee solar panel 2's normal rotation.

The first engaging block 141 and the second engaging block 151 are provided to prevent the upright 14 and the connecting rod 15 from falling off from the slide groove, thereby ensuring the stability of the device. The first engaging block 141 and the second engaging block 151 have a size slightly smaller than that of the chute.

The arrangement of the upright rod bearing 142 and the connecting rod bearing 152 can reduce the friction between the upright rod 14 and the connecting rod 15 and the sliding chute, thereby reducing the friction loss and prolonging the service life of the device.

In this embodiment, a connecting rod baffle 153 for limiting the position of the connecting rod bearing 152 is disposed outside the connecting rod bearing 152.

As a further description of the above embodiment, the two ends of the sliding groove are fixedly connected with the first L-shaped support rod 17 and the second L-shaped support rod 18, respectively, and the two ends of the first L-shaped support rod 17 and the second L-shaped support rod 18 are fixedly connected with the back of the solar panel 2, respectively.

When this embodiment uses, one side and solar panel 2 back fixed connection of first L type bracing piece 17 and second L type bracing piece 18, the another side is connected with back support 16, guarantees the stability of being connected between back support 16 and the solar panel 2.

The solar panel 2 is connected with the back support 16 through the first L-shaped support rod 17 and the second L-shaped support rod 18, so that on one hand, the connection stability of the solar panel 2 between the back support 16 can be ensured, and the solar panel 2 is prevented from being damaged in the connection process of the angle adjusting assembly and the solar panel 2; on the other hand, a heat dissipation gap can be reserved between the solar panel 2 and the back support 16, so that the influence on the heat dissipation of the solar panel 2 caused by the direct connection between the solar panel 2 and the back support 16 is avoided.

As a further description of the above embodiment, the bottom of the lower column 11 and the bottom of the electric lifting column 6 are both fixedly connected with a square embedded plate 19, and four corners of the square embedded plate 19 penetrate the square embedded plate 19 by using expansion bolts 20 to fix the adjustable column 1 and the electric lifting column 6 to predetermined monitoring points respectively.

When the device is used, the lower upright post 11 and the bottom of the electric lifting column 6 are fixed at a preset monitoring point after penetrating through the square embedded plate 19 through the expansion bolts 20. Of course, the manner of connection of the lower column 11 and the electric lifting column 6 to the predetermined monitoring point is not limited thereto. Other connection modes capable of realizing the stable connection of the lower upright post 11 and the electric lifting post 6 to a preset monitoring point are all available. The lower column 11 and the electric lifting column 6 are fixed to predetermined monitoring points, for example, by anchor bolts.

To sum up, the working principle of the bridge high slope monitoring device with the adjustable bracket is as follows:

firstly, the adjustable upright post 1, the waterproof box 4 and the electric lifting post 6 are placed at a preset monitoring point, and the adjustable upright post 1 and a square embedded plate 19 at the bottom of the electric lifting post 6 are fixed at the monitoring point position by adopting expansion bolts 20. The remote monitoring platform 10 sends an instruction to the main control board 8 through the 4G transmission module 9, and the main control board 8 controls the driving device 7 to operate the electric lifting column 6, the lower upright column 11 in the adjustable upright column 1, the lower upright column bearing 112 and the upright rod 14. The height of the solar panel 2 is adjusted through the lower upright post 11 in the adjustable upright post 1, the solar panel 2 is adjusted at multiple angles through the lower upright post bearing 112 and the upright post 14 in the adjustable upright post 1, and the height of the external antenna 5 is adjusted through the electric lifting post 6. The main control board 8 collects satellite signals received by the external antenna 5 and sends the data to the remote monitoring platform 10 through the 4G transmission module 9, and the remote monitoring platform 10 can display the monitoring data in real time and compare the monitoring data with a preset threshold value and meanwhile achieve alarm management.

To sum up, the utility model discloses can adjust solar panel's height, angle, make solar panel effectively adapt to the different side slope monitoring of difference and the illumination time of different times to increase solar panel's electric energy conversion efficiency, guarantee side slope monitoring device's high-efficient operation. Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention shall be covered by the claims of the present invention.

Claims (10)

1. The utility model provides a bridge high slope monitoring devices of adjustable support, includes solar panel (2) and external antenna (5), its characterized in that: solar panel (2) and external antenna (5) all with transmission control assembly electric connection, transmission control assembly is wireless connection still has remote monitoring platform (10), solar panel (2) are fixed in predetermined monitoring point through adjustable stand (1), be equipped with the angle adjusting part who carries out the regulation to solar panel (2) angle between adjustable stand (1) and solar panel (2) the back, external antenna (5) are fixed in predetermined monitoring point through electronic lift post (6).

2. The bridge high slope monitoring device of adjustable support of claim 1, characterized in that: the transmission control assembly comprises a waterproof box (4), a storage battery (3), a driving device (7), a main control panel (8) and a 4G transmission module (9) are arranged in the waterproof box (4), the storage battery (3) is electrically connected with a solar panel (2), the driving device (7) is electrically connected with an adjustable upright post (1) and an electric lifting post (6) respectively, the main control panel (8) is electrically connected with the storage battery (3), the driving device (7) and an external antenna (5) respectively, and the main control panel (8) is electrically connected with the 4G transmission module (9) and is in two-way transmission with a remote monitoring platform (10) through the 4G transmission module (9).

3. The bridge high slope monitoring device of adjustable support of claim 1, characterized in that: the adjustable upright post (1) comprises a lower upright post (11) capable of adjusting height and an upper upright post (12) rotatably connected with the lower upright post (11), and the top of the upper upright post (12) is fixedly connected with a bearing plate (13).

4. The bridge high slope monitoring device of adjustable bracket of claim 3, characterized in that: the angle adjusting component comprises a connecting rod (15) and a vertical rod (14) capable of being adjusted in height, the connecting rod (15) and the vertical rod (14) are fixed on the bearing plate (13) in parallel, and the back of the solar panel (2) is rotatably connected with the tops of the vertical rod (14) and the connecting rod (15).

5. The bridge high slope monitoring device of adjustable support of claim 4, characterized in that: the top of the lower upright post (11) is connected with a lower upright post gear (111), a lower upright post bearing (112) matched with the lower upright post gear is connected in the lower upright post gear (111), an upper upright post built-in gear (121) is fixedly connected at the bottom of the upper upright post (12), and the upper upright post built-in gear (121) is connected with the lower upright post bearing (112).

6. The bridge high slope monitoring device of adjustable support of claim 4, characterized in that: solar panel (2) back is connected with back support (16), the spout has been seted up along its length direction in the middle part of the one side that solar panel (2) back is connected with loading board (13) is relative, first L type bracing piece (17) of fixedly connected with and second L type bracing piece (18) respectively at spout both ends, and fixed connection solar panel (2) back is distinguished at the both ends of first L type bracing piece (17) and second L type bracing piece (18).

7. The bridge high slope monitoring device of adjustable bracket of claim 6, characterized in that: pole setting (14) adopt electronic flexible steel pipe, pole setting (14) and connecting rod (15) top all stretch into in the spout and have first block of block (141) and second block of block (151) respectively swing joint, first block of block (141) is in both sides fixedly connected with pole setting bearing (142) of being connected the position with pole setting (14), second block of block (151) is in both sides fixedly connected with connecting rod bearing (152) of being connected the position with connecting rod (15).

8. The bridge high slope monitoring device of adjustable support of claim 7, characterized in that: and a connecting rod baffle (153) used for limiting the position of the connecting rod bearing (152) is arranged on the outer side of the connecting rod bearing (152).

9. The bridge high slope monitoring device of adjustable bracket of claim 5, characterized in that: the lower upright post (11) is an electric telescopic post, and the lower upright post bearing (112) and the upright post (14) are respectively and electrically connected with the driving device (7).

10. The bridge high slope monitoring device of adjustable bracket of claim 3, characterized in that: the bottom of the lower upright post (11) and the bottom of the electric lifting post (6) are fixedly connected with square embedded plates (19), and four corners of each square embedded plate (19) penetrate through the square embedded plates (19) through expansion bolts (20) to fix the adjustable upright post (1) and the electric lifting post (6) at preset monitoring points respectively.

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