CN-224216352-U - Data acquisition device for mountain rainwater collection

Abstract

The utility model discloses a data acquisition device for mountain rainwater collection, which relates to the technical field of data acquisition equipment and comprises a barrel, a box body and a collection hopper, wherein a driving mechanism is arranged in the barrel and comprises a fixed shaft, the fixed shaft is coaxially arranged at the inner side of the barrel, a sleeve is sleeved on the outer arc wall of the fixed shaft in a rotating way, and a fixed ring is fixed at the top end of the inner side of the sleeve on the outer arc wall of the fixed shaft.

Inventors

• TENG ZHAN
• WANG YANBO
• SHEN YUNBO
• CHEN WEI
• Cai Jinsuo
• XIE CHENGYU

Assignees

• 中铁建工集团有限公司
• 中铁建工集团华南有限公司

Dates

Publication Date

20260508

Application Date

20250527

Claims (8)

1. 1. The data acquisition device for mountain rainwater collection comprises a barrel (10), a box body (11) and a collection hopper (12), and is characterized in that a driving mechanism is arranged in the barrel (10) and comprises: The fixed shaft (20) is coaxially arranged at the inner side of the cylinder body (10), the sleeve (21) is rotatably sleeved on the outer arc wall of the fixed shaft (20), the fixed ring (23) is fixed at the top end of the inner side of the sleeve (21) on the outer arc wall of the fixed shaft (20), a rotating channel which penetrates through the sleeve (21) radially is formed in the position, corresponding to the bottom end of the outer arc wall of the fixed ring (23), of the outer arc wall of the fixed shaft (20), the fixed rod (27) is rotatably arranged in the rotating channel, the first channel is formed in the outer arc wall of the fixed ring (23) along the two opposite sides in the circumferential direction of the fixed rod, and the first channel is internally provided with a limiting block (24); The limiting ring (26) is coaxially arranged on the inner wall of the bottom of the sleeve (21), a gap exists between the limiting ring and the fixed ring (23), the gap between the outer side wall of the limiting block (24) and the inner side wall of the channel and the gap between the fixed ring (23) and the limiting ring (26) are mutually spliced to form a complete annular sliding passage; The fixed plate (25), be fixed in the inside one end of dead lever (27) being close to sleeve (21), it sets up in sleeve (21) inboard, and both ends along self length direction on the lateral wall that dead lever (27) were kept away from to dead plate (25) all are fixed with traveller (28), and traveller (28) slide in the slip passageway, and the one end that dead lever (27) kept away from dead lever (25) is fixed with filter screen (22).
2. 2. The data acquisition device for mountain rainwater collection, as claimed in claim 1, wherein the top end of the limiting ring (26) is provided with an arc-shaped groove at the position corresponding to the limiting block (24), two inner side walls of the first channel along the circumferential direction of the fixed ring (23) are inclined planes, the center of the top end of the first channel is vertically provided with a groove, the sliding column (28) is matched with the groove, the collecting hopper (12) is fixed at the top of the barrel (10), the top end of the arc wall in the barrel (10) is fixed with a first baffle (13) which is horizontally arranged, and two opposite sides of the outer edge of the top of the first baffle (13) are provided with a second channel which vertically penetrates.
3. 3. The data acquisition device for collecting mountain rainwater according to claim 1, wherein the two outer side walls of the limiting block (24) along the circumferential direction of the fixed ring (23) are inclined, the two outer side walls of the limiting block (24) along the circumferential direction of the fixed ring (23) are parallel to the two inner side walls of the channel I along the circumferential direction of the fixed ring (23), the bottom of the limiting block (24) is slightly lower than the bottom of the fixed ring (23), and the length direction of the fixed plate (25) is tangential to the circumferential direction of the fixed ring (23).
4. 4. A data acquisition device for collecting mountain rainwater is characterized in that the filter screen (22) is in a fan shape, the box body (11) is clamped at the bottom of the barrel body (10), a second baffle (15) which is horizontally arranged is fixedly connected to the top end of an inner arc wall of the box body (11) in a coaxial mode, two sides, opposite to the outer edge of the top of the second baffle (15), of the second baffle are provided with vertically penetrating channels III, projections of the channels III and limiting blocks (24) on horizontal planes are mutually disjoint, the second channel is located at an opening of one side, close to a driving mechanism, of the second baffle (15), and the third baffle is fixed with the third baffle, and is not in contact with the filter screen (22).
5. 5. A data acquisition device for collecting mountain rainwater is characterized in that a motor is fixed at the center of the bottom of the sleeve (21), a protective shell is sleeved outside the motor and fixed on the second baffle (15), a wiring tube is fixed on the outer arc wall of the protective shell, and the wiring tube penetrates through the outer arc wall of the box body (11) to the outside.
6. 6. The data acquisition device for collecting mountain rainwater according to claim 1, wherein the top of the box body (11) is fixedly provided with a fixing piece (14), the length direction of the fixing piece (14) is consistent with the circumference direction of the box body (11), the fixing piece (14) comprises a first fixing column, a fixing block and a second fixing column, the first fixing column is fixed on the top of the box body (11) and axially parallel to the axial direction of the box body (11), the section of the fixing block in the horizontal direction is arc-shaped, one end of the first fixing column far away from the box body (11) is fixed at one end of the bottom of the fixing block in the length direction, and one end of the top of the fixing block far away from the first fixing column is fixed with the second fixing column.
7. 7. The data acquisition device for mountain rainwater collection, as set forth in claim 6, characterized in that the slot (16) is formed in a position, corresponding to the fixing piece (14), on one side wall of the barrel (10) close to the box body (11), the slot (16) is L-shaped in section along the circumferential direction of the barrel (10), the slot (16) comprises vertical parts which are parallel to the axial direction of the barrel (10) and penetrate through one side wall of the barrel (10) close to the box body (11) in a one-way manner, and a horizontal part is formed in one side of the vertical parts along the circumferential direction of the barrel (10).
8. 8. The data acquisition device for mountain rainwater collection according to claim 7, wherein the depth of the vertical portion of the slot (16) is equal to the sum of the axial length of the first fixed column, the axial length of the second fixed column and the height of the fixed block, and the depth of the horizontal portion is equal to the sum of the axial length of the second fixed column and the height of the fixed block.

Description

Data acquisition device for mountain rainwater collection Technical Field The utility model relates to the technical field of data acquisition equipment, in particular to a data acquisition device for mountain rainwater collection. Background The data collection of mountain rainwater collection is a key link in the mountain rainwater resource utilization process. The key aim of the method is to accurately acquire various data related to mountain rainwater collection in real time, wherein the data cover key parameters such as rainfall, rainwater flow rate, flow, water quality (such as pH value, turbidity, pollutant content and the like) and water level change in water collecting facilities, and the utilization amount of mountain rainwater resources can be scientifically estimated through acquisition and analysis of the data, so that solid data support is provided for subsequent rainwater collection, storage, purification and reasonable distribution, and the efficiency and benefit of rainwater resource utilization are improved. In the actual operation that mountain rainwater was collected, there are a great deal of factors to cause the interference to rainwater collection work, and then influence the quality of collection rainwater, wherein, impurity such as leaf, branch, silt, insect fall into collection device along with the rainwater and be the most common problem, these impurity not only can block up collecting line and filter screen, lead to rainwater collection efficiency to reduce by a wide margin, still probably carry the pollutant, cause secondary pollution to the rainwater of gathering for the rainwater can't be directly used for irrigation, use such as drink, has increased the degree of difficulty and the cost of follow-up purification treatment. Traditional mountain rainwater collection device has obvious not enough in the aspect of handling impurity interference, and most devices only set up simple filter screen and carry out preliminary filtration, lack effectual self-cleaning mechanism, follow the continuation of collecting process and go on, the filter screen mesh extremely easily is blockked up by impurity, leads to the rainwater unable smooth passing, and collection operation is forced to break, this makes artifical frequent clearance filter screen of needs, has increased maintenance cost and work load. In view of this, the present application has been made. Disclosure of utility model The utility model aims to provide a data acquisition device for collecting mountain rainwater, which aims to solve the problems in the background technology. In order to solve the technical problems, the data acquisition device for mountain rainwater collection provided by the utility model comprises a barrel, a box body and a collection bucket, wherein a driving mechanism is arranged in the barrel, and comprises: The fixed shaft is coaxially arranged at the inner side of the cylinder body, the outer arc wall of the fixed shaft is rotatably sleeved with a sleeve, a fixed ring is fixed at the top end of the outer arc wall of the fixed shaft, a rotating channel which penetrates through the sleeve along the radial direction is formed in the position, corresponding to the bottom end of the outer arc wall of the fixed ring, of the outer arc wall of the sleeve, a fixed rod is rotatably arranged in the rotating channel, two opposite sides of the outer arc wall of the fixed ring along the circumferential direction of the outer arc wall of the fixed ring are provided with a channel I, and a limiting block is arranged in the channel I; The limiting ring is coaxially arranged on the inner wall of the bottom of the sleeve, a gap is reserved between the limiting ring and the fixed ring, and the gap between the outer side wall of the limiting block and the inner side wall of the channel and the gap between the fixed ring and the limiting ring are mutually spliced to form a complete annular sliding passage; The fixed plate is fixed in the fixed lever and is close to the inside one end of sleeve, and it sets up in the sleeve inboard, and the fixed plate is kept away from the both ends of self length direction on the lateral wall of fixed lever and all is fixed with the traveller, and the traveller slides in the slip passageway, and the fixed lever is kept away from the one end of fixed plate and is fixed with the filter screen. Further, arc-shaped grooves are formed in the position, corresponding to the limiting block, of the top end of the limiting ring, two inner side walls of the first channel along the circumference of the fixing ring are inclined planes, grooves are vertically formed in the center of the top end of the first channel, a sliding column is matched with the grooves, a collecting bucket is fixed to the top of the barrel, a first baffle plate which is horizontally arranged is fixed to the top end of the inner arc wall of the barrel, and two opposite sides of the outer edge of the top of the first baffle plate