CN219697589U - Gas pipe network parameter monitoring device - Google Patents

Abstract

The utility model discloses a gas pipe network parameter monitoring device which comprises a monitoring box, a cleaning assembly, an adjusting assembly and a solar panel, wherein the solar panel is arranged at the upper end of the monitoring box and used for generating electricity, and the cleaning assembly comprises a protection frame which is arranged at the outer end of the solar panel and used for protecting the solar panel. According to the gas pipe network parameter monitoring device, the cleaning brush plate arranged on the upper portion of the solar panel can reciprocate and clean the upper end of the solar panel under the transmission of the belt between the belt pulleys at the two ends of the upper portion of the protective frame so as to clean dust scattered on the upper end of the solar panel, so that the dust on the upper end of the solar panel is prevented from accumulating, the power generation efficiency of the solar panel is influenced, and meanwhile, the driven gear connected with the outer end of the protective frame can drive the protective frame and the solar panel inside the protective frame to adjust the rotation angle under the transmission of the driving gear through the toothed belt, so that the change of the solar angle is adapted, and the power generation effect of the solar panel is enhanced.

Description

Gas pipe network parameter monitoring device

Technical Field

The utility model relates to the technical field of pipeline monitoring, in particular to a gas pipe network parameter monitoring device.

Background

In the natural gas industry, the production process has the characteristics of high pressure, flammability, explosiveness, high safety requirement and the like, and especially after the simplified management is carried out in the year, part of natural gas production places are unattended, so that in order to enable a manager to timely master the pressure dynamics of a pipeline, the management production difficulty is reduced, the management cost is lowered, the production efficiency is improved, the safe production is ensured to be carried out stably, and the establishment of an omnibearing remote real-time information monitoring system is necessary.

The existing gas pipe network parameter monitoring device is outdoor, solar power generation is commonly adopted for power supply, but the upper end of the solar panel of the existing detection device is not provided with a cleaning structure, and further after external dust is scattered and accumulated at the upper end of the solar panel, the power generation efficiency of the solar panel has an influence, so that the gas pipe network parameter monitoring device is provided.

Disclosure of Invention

The utility model mainly aims to provide a gas pipe network parameter monitoring device which can effectively solve the problems in the background technology.

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

the utility model provides a gas pipe network parameter monitoring device, includes monitoring case, cleaning element and adjusting part to and the solar panel that is used for the electricity generation of monitoring case upper end installation, cleaning element and adjusting part set up respectively in solar panel's upper and lower end, cleaning element includes the protection frame that solar panel outer end was installed to protect it, and protection frame upper end four corners department movable mounting's belt pulley, cleaning element still includes the belt that all overlaps between the horizontal two sets of belt pulleys of protection frame upper end both sides and establishes, and the cleaning brush board that is used for carrying out clear to it of solar panel upper end installation between the belt.

Preferably, the cleaning assembly further comprises clamping blocks which are fixedly arranged on two sides of the cleaning brush plate and used for fixing the cleaning brush plate, and the clamping blocks on two sides are fixedly clamped at the upper ends of the belts at two ends.

Preferably, the cleaning assembly further comprises first micro-servo motors fixedly mounted on two sides of one end of the bottom of the protective frame, and the first micro-servo motors at two ends drive belt pulleys at the upper end.

Preferably, the adjusting component comprises rotating shafts fixedly arranged at two ends of the protective frame and supporting frames movably connected with the rotating shafts at two sides and supporting the protective frame and the solar panel inside.

Preferably, the adjusting component further comprises a driven gear fixedly installed on a rotating shaft at the outer end of the supporting frame at one side, and a driving gear movably installed at the lower end of the outer side of the supporting frame and having the same size as the driven gear, a toothed belt is further sleeved between the driven gear and the driving gear, and a second micro servo motor for driving the driving gear is further fixedly installed on the inner side of the supporting frame.

Preferably, the monitoring box is internally provided with a power converter and a power supply which are electrically connected with the solar panel, a gas pipeline, an intelligent gas meter arranged at the upper end of the gas pipeline, and a data collector and a data transmitter which are electrically connected with the intelligent gas meter.

Compared with the prior art, the utility model has the following beneficial effects:

1. the cleaning brush plate is arranged at the upper part of the solar panel, and can carry out reciprocating cleaning movement at the upper end of the solar panel under the transmission of a belt between belt pulleys at the two ends of the upper part of the protective frame so as to clean dust scattered at the upper end of the solar panel, and prevent dust at the upper end of the solar panel from accumulating, thereby affecting the power generation efficiency of the solar panel;

2. the utility model provides a gas pipe network parameter monitoring devices, driven gear that protection frame outer end is connected also can drive protection frame and the inside solar panel of protection frame and carry out rotation angle's regulation under the drive of driving gear to it through the toothed belt to adapt to the change of solar angle, strengthen solar panel's power generation effect.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a gas pipe network parameter monitoring device according to the present utility model;

FIG. 2 is a diagram showing the internal structure of a monitoring box of a gas pipe network parameter monitoring device according to the present utility model;

FIG. 3 is an enlarged view of A in FIG. 1 of a gas pipe network parameter monitoring device according to the present utility model;

fig. 4 is an enlarged view of B in fig. 1 of a gas pipe network parameter monitoring device according to the present utility model.

Reference numerals:

100. a monitoring box; 110. a solar panel; 120. a power converter; 130. a power supply; 140. a gas pipeline; 150. an intelligent gas meter; 160. a data collector; 170. a data transmitter;

200. a cleaning assembly; 210. a protective frame; 220. a belt pulley; 230. a belt; 240. cleaning a brush plate; 250. clamping blocks; 260. a first micro servo motor;

300. an adjustment assembly; 310. a support frame; 320. a driven gear; 330. a drive gear; 340. a toothed belt; 350. and a second micro servo motor.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

Embodiment one:

as shown in fig. 1-3, the present embodiment provides a gas pipe network parameter monitoring device, which includes a monitoring box 100, a cleaning assembly 200 and an adjusting assembly 300, a solar panel 110 installed at the upper end of the monitoring box 100 for generating electricity, a power converter 120 and a power source 130 electrically connected to the solar panel 110, a gas pipe 140, an intelligent gas meter 150 installed at the upper end of the gas pipe 140, a data collector 160 and a data transmitter 170 electrically connected to the intelligent gas meter 150, wherein the power converter 120 and the power source 130 are also installed inside the monitoring box 100;

the electric energy stored in the power supply 130 through the power converter 120 after the power generation of the solar panel 110 at the upper end of the monitoring box 100 can be used for realizing the real-time transmission of the monitoring data of the intelligent gas meter 150 at the upper end of the gas pipeline 140 through the data collector 160 and the data transmitter 170 so as to promote the complete, accurate, intercommunication, sharing and centralized management of pipeline information, realize the effective activation of the historical data of a pipe network and the efficient fusion of the existing multi-type data, and achieve the purposes of reducing the labor intensity and increasing the working efficiency.

The cleaning assembly 200 and the adjusting assembly 300 are respectively arranged at the upper end and the lower end of the solar panel 110, the cleaning assembly 200 comprises a protection frame 210 which is arranged at the outer end of the solar panel 110 and used for protecting the solar panel, belt pulleys 220 which are movably arranged at four corners of the upper end of the protection frame 210, belts 230 which are respectively sleeved between two groups of belt pulleys 220 on two sides of the upper end of the protection frame 210, a cleaning brush plate 240 which is arranged at the upper end of the solar panel 110 and used for cleaning the solar panel between the belts 230, clamping blocks 250 which are fixedly arranged on two sides of the cleaning brush plate 240 and used for fixing the cleaning brush plate 240 are fixedly arranged at the upper ends of the belts 230, the cleaning assembly 200 further comprises first micro servo motors 260 which are fixedly arranged at two sides of one end of the bottom of the protection frame 210, and the first micro servo motors 260 at two ends are used for driving the belt pulleys 220 at the upper end.

Specifically, the cleaning brush plate 240 installed on the upper portion of the solar panel 110 at the upper end of the monitoring box 100 can drive the cleaning brush plate 240 on the upper end of the solar panel 110 under the driving of the first micro-servo motors 260 on two sides of the bottom of the protective frame 210 and the transmission of the belt 230 between the pair of belt pulleys 220 at two ends of the upper portion of the protective frame 210, and the cleaning brush plate 240 is reciprocally cleaned and moved at the upper end of the solar panel 110 to clean dust scattered on the upper end of the solar panel 110, so as to avoid the accumulation of dust on the upper end of the solar panel 110, and influence the power generation efficiency of the solar panel 110, and the clamping blocks 250 connected on two sides of the cleaning brush plate 240 are mainly used for fixing the cleaning brush plate 240 on the upper ends of the belt 230 at two ends.

Embodiment two:

on the basis of the first embodiment, as shown in fig. 4, the adjusting assembly 300 includes rotating shafts fixedly mounted at two ends of the protective frame 210, and supporting frames 310 movably connected with the rotating shafts at two sides and supporting the protective frame 210 and the solar panel 110 inside, the adjusting assembly 300 further includes a driven gear 320 fixedly mounted on the rotating shaft at the outer end of the supporting frame 310 at one side, a driving gear 330 movably mounted at the lower end of the outer side of the supporting frame 310 and having the same size as the driven gear 320, a toothed belt 340 is further sleeved between the driven gear 320 and the driving gear 330, and a second micro servo motor 350 driving the driving gear 330 is fixedly mounted at the inner side of the supporting frame 310.

Specifically, the driven gear 320 fixedly connected to the outer end of the protective frame 210 at the upper end of the monitoring box 100 can also rotate the driven gear 320 through the driving toothed belt 340 under the driving of the driving gear 330 driven by the second micro-servo motor 350 to drive the driven gear 320 and the protective frame 210, and the solar panel 110 inside the protective frame 210, and the rotation angle is adjusted between the supporting frames 310 at two sides to adapt to the change of the solar angle, so as to enhance the power generation effect of the solar panel 110.

The working principle and the using flow of the utility model are as follows:

after dust is accumulated on the upper end of the solar panel 110 at the upper end of the monitoring box 100, the first micro servo motors 260 at two sides of one end of the bottom of the outer protective frame 210 of the solar panel 110 can be synchronously started, so that the first micro servo motors 260 can drive the belt pulleys 220 at the upper end of the protective frame 210 to rotate, so as to drive the belt 230 sleeved on the upper ends of the belt pulleys 220 at two sides to move, and after the belt 230 at two sides of the upper end of the protective frame 210 moves, the belt 230 is driven to drive the cleaning brush plate 240 fixedly installed through the clamping blocks 250 to reciprocate on the upper end of the solar panel 110, so that the dust accumulated on the upper end of the solar panel 110 is cleaned, the dust accumulation is prevented from affecting the power generation efficiency of the solar panel 110, the second micro servo motors 350 installed on one side of the solar panel 110 can also be regularly started, the driving gear 330 connected on the outer side can be driven, the driven gear 320 is driven to rotate the outer toothed belt 340, the driven gear 320 at the upper end is driven, the inner side of the driven gear 320 is driven, and the solar panel 110 inside the protective frame 210 is driven to rotate by the belt 230, so as to adapt to the change of the angle of the solar panel 110, and the power generation effect of the solar panel 110 is enhanced.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.

Claims (6)

1. The utility model provides a gas pipe network parameter monitoring device, includes monitoring case (100), cleaning assembly (200) and adjusting part (300) to and solar panel (110) that are used for the electricity generation of monitoring case (100) upper end installation, cleaning assembly (200) and adjusting part (300) set up respectively in solar panel (110) upper and lower extreme, a serial communication port, cleaning assembly (200) are including solar panel (110) outer end installation to its guard frame (210) that protects, and guard frame (210) upper end four corners department movable mounting's belt pulley (220), cleaning assembly (200) still include between guard frame (210) upper end both sides horizontal two sets of belt pulley (220) belt (230) that all overlap, and be used for its clear cleaning brush board (240) of solar panel (110) upper end installation between belt (230).

2. The gas pipe network parameter monitoring device according to claim 1, wherein the cleaning assembly (200) further comprises clamping blocks (250) fixedly installed on two sides of the cleaning brush plate (240) and used for fixing the cleaning brush plate (240), and the clamping blocks (250) on two sides are fixedly clamped at the upper ends of the belts (230) at two ends.

3. The gas pipe network parameter monitoring device according to claim 1, wherein the cleaning assembly (200) further comprises a first micro servo motor (260) fixedly installed on two sides of one end of the bottom of the protective frame (210), and the first micro servo motors (260) at two ends drive the belt pulley (220) at the upper end.

4. The gas pipe network parameter monitoring device according to claim 1, wherein the adjusting component (300) comprises rotating shafts fixedly installed at two ends of the protective frame (210), and supporting frames (310) movably connected with the rotating shafts at two sides and used for supporting the protective frame (210) and the solar panel (110) inside.

5. The gas pipe network parameter monitoring device according to claim 1, wherein the adjusting assembly (300) further comprises a driven gear (320) fixedly installed on a rotating shaft at the outer end of the supporting frame (310) at one side, and a driving gear (330) movably installed at the lower end of the outer side of the supporting frame (310) and having the same size as the driven gear (320), a toothed belt (340) is further sleeved between the driven gear (320) and the driving gear (330), and a second micro servo motor (350) for driving the driving gear (330) is further fixedly installed at the inner side of the supporting frame (310).

6. The gas pipe network parameter monitoring device according to claim 1, wherein the monitoring box (100) is further internally provided with a power converter (120) and a power supply (130) which are electrically connected with the solar panel (110), a gas pipeline (140), an intelligent gas meter (150) arranged at the upper end of the gas pipeline (140), and a data collector (160) and a data transmitter (170) which are electrically connected with the intelligent gas meter (150).