阅读说明：本技术 一种基于大数据监测的水量调配模拟装置及使用方法 (Water quantity allocation simulation device based on big data monitoring and use method ) 是由 焦瑞 徐晓民 刘华琳 梁文涛 崔英杰 宋一凡 韩振华 廖梓龙 张燕飞 龙胤慧 于 2021-09-06 设计创作，主要内容包括：本发明公开了一种基于大数据监测的水量调配模拟装置及使用方法,包括基板,基板的前端左右两侧和后端左右两侧均固定焊接有固定板,基板的上端中部固定安装有水量控制器,水量控制器的前端穿插连接有入水管,基板的上端前部固定安装有固定座,且入水管套接在固定座内,水量控制器的左右两端均穿插连接有多个输水管,且多个输水管等距离分布,基板的上端中部固定安装有防护机构,且防护机构位于水量控制器的外部,基板的上端左右两侧均可拆卸安装有多个定位机构。本发明的一种基于大数据监测的水量调配模拟装置及使用方法,自动化程度高,调配精准,定位精准,便于维护检修,且可对快速对输水管进行夹持固定,稳定性强,使用方便。(The invention discloses a water quantity allocation simulation device based on big data monitoring and a using method thereof, the device comprises a substrate, wherein fixing plates are fixedly welded on the left side and the right side of the front end and the left side and the right side of the rear end of the substrate, a water quantity controller is fixedly installed in the middle of the upper end of the substrate, a water inlet pipe is connected in an inserting manner at the front end of the water quantity controller, a fixing seat is fixedly installed at the front part of the upper end of the substrate, the water inlet pipe is sleeved in the fixing seat, a plurality of water delivery pipes are connected in an inserting manner at the left end and the right end of the water quantity controller, the plurality of water delivery pipes are distributed at equal intervals, a protection mechanism is fixedly installed in the middle of the upper end of the substrate and is positioned outside the water quantity controller, and a plurality of positioning mechanisms can be detachably installed at the left side and the right side of the upper end of the substrate. The water quantity allocation simulation device based on big data monitoring and the use method thereof have the advantages of high automation degree, accurate allocation, accurate positioning, convenient maintenance and overhaul, capability of rapidly clamping and fixing the water delivery pipe, strong stability and convenient use.)

1. The utility model provides a water yield allotment analogue means based on big data monitoring, includes base plate (1), its characterized in that: the left and right sides of the front end and the left and right sides of the rear end of the base plate (1) are fixedly welded with fixing plates (2), a water quantity controller (3) is fixedly arranged in the middle of the upper end of the base plate (1), a water inlet pipe (4) is connected to the front end of the water quantity controller (3) in an inserting manner, a fixed seat (5) is fixedly arranged on the front portion of the upper end of the base plate (1), the water inlet pipe (4) is sleeved in the fixed seat (5), the left end and the right end of the water quantity controller (3) are respectively connected with a plurality of water conveying pipes (7) in an inserting way, a plurality of water pipes (7) are distributed at equal intervals, a protection mechanism (6) is fixedly arranged in the middle of the upper end of the base plate (1), the protection mechanism (6) is positioned outside the water quantity controller (3), the left side and the right side of the upper end of the base plate (1) are both detachably provided with a plurality of positioning mechanisms (8), and the ends of the plurality of positioning mechanisms (8) are spliced together in sequence;

positioning mechanism (8) are including side brace frame (9) and No. two side brace frames (10), the opposition end four corners of side brace frame (9) and No. two side brace frames (10) fixed welding respectively has slide bar (11) and loop bar (12), and slide bar (11) cup joint in loop bar (12) that correspond with loop bar (12) slidable mounting, one side lower part that opposition end was kept away from to side brace frame (9) and No. two side brace frames (10) all fixed welding have transmission horizontal pole (14), equal slidable mounting has fixture (13) on transmission horizontal pole (14), one side that opposition end was kept away from to side brace frame (9) and No. two side brace frames (10) all opened two spout (15), and the upper portion and spout (15) slidable mounting of fixture (13).

2. The water quantity allocation simulation device based on big data monitoring as claimed in claim 1, wherein: a clamping groove (102) is formed in the upper portion of one end of the second side support frame (10), a clamping strip (101) is integrally formed in the upper portion of the other end of the second side support frame (10), the size of the clamping strip (101) is matched with that of the clamping groove (102), and the clamping strip (101) is clamped in the clamping groove (102) to detachably mount the two second side support frames (10).

3. The water quantity allocation simulation device based on big data monitoring as claimed in claim 1, wherein: fixture (13) are including drive assembly (16) and centre gripping subassembly (17), the upper portion and a side brace (9) fixed mounting of drive assembly (16), and the lower part slidable mounting of drive assembly (16) is in spout (15), centre gripping subassembly (17) are provided with two, and two centre gripping subassemblies (17) and transmission horizontal pole (14) slidable mounting, two centre gripping subassembly (17) are all through pivot and drive assembly (16) movable mounting.

4. The big data monitoring-based water volume allocation simulation device according to claim 3, wherein: drive assembly (16) include electric telescopic handle (161), electric telescopic handle (161) fixed mounting is at the front end of side brace frame (9) No. one, electric telescopic handle (161)'s output fixed mounting has lifter plate (162), the fixed welding of rear end of lifter plate (162) has two steady blocks (163), there is traction lever (164) all through pivot movable mounting in the front end middle part left and right sides of lifter plate (162).

5. The big data monitoring-based water volume allocation simulation device according to claim 4, wherein: the size of the stabilizing blocks (163) is matched with the size of the sliding grooves (15) and the positions of the stabilizing blocks correspond to each other, the two stabilizing blocks (163) are respectively installed in the corresponding sliding grooves (15) in a sliding mode to install the lifting plate (162) at the front end of the first side support frame (9) in a sliding mode, and the connection mode of the driving assembly (16) and the second side support frame (10) is the same as the connection mode of the driving assembly (16) and the first side support frame (9).

6. The water quantity allocation simulation device based on big data monitoring as claimed in claim 1, wherein: the clamping assembly (17) comprises a connecting plate (171) and a clamping block (175), a moving block (172) is fixedly welded at the rear end of the connecting plate (171), a limiting groove (173) is formed in the rear end of the moving block (172), an installation groove (174) is formed in the lower end of the connecting plate (171), an installation convex block (176) is integrally formed in the upper end of the rear portion of the clamping block (175), and two fixing screw rods (177) are inserted and connected at the front end of the clamping block (175).

7. The big data monitoring-based water volume allocation simulation device according to claim 6, wherein: the moving block (172) is slidably mounted with the transmission cross rod (14) through a limiting groove (173), the mounting lug (176) is clamped in the mounting groove (174) and detachably mounts the clamping block (175) and the connecting plate (171) without a fixing screw rod (177), and the front end of the connecting plate (171) is movably mounted with the lower end of the traction rod (164) through a rotating shaft.

8. The water quantity allocation simulation device based on big data monitoring as claimed in claim 1, wherein: protection machanism (6) are including bracing piece (61) and guard plate (63), bracing piece (61) are provided with four, and four bracing pieces (61) fixed mounting in the upper end of base plate (1), spread groove (62) have all been opened to the upper end of bracing piece (61), the equal fixed welding in lower extreme four corners of guard plate (63) has movable rod (64) and buffer spring (65), and buffer spring (65) cup joint in the outside of movable rod (64), movable rod (64) cup joint in spread groove (62) and with spread groove (62) slidable mounting, the lower extreme of buffer spring (65) and the lower cell wall fixed mounting of spread groove (62).

9. The water quantity allocation simulator based on big data monitoring as claimed in claim 8, wherein: the water quantity control device is characterized in that a placing groove (66) is formed in the lower end of the protection plate (63), a control module (67), a signal receiving module (68) and a positioning module (69) are fixedly mounted on the upper groove wall of the placing groove (66), the signal receiving module (68) and the signal receiving module (68) are both electrically connected with the control module (67), and the control module (67) is electrically connected with the water quantity controller (3).

10. The use method of the water quantity regulation simulation device based on big data monitoring as claimed in claims 1-9, wherein: the method comprises the following steps:

step one, building a protection mechanism (6): fixedly mounting a support rod (61) and a base plate (1), sleeving a movable rod (64) in a connecting groove (62) to be slidably mounted with the support rod (61), fixedly mounting the lower end of a buffer spring (65) and the lower groove wall of the connecting groove (62), and positioning a protection plate (63) above a water quantity controller (3);

step two, building a positioning mechanism (8): the positioning mechanisms (8) are built according to the number of the water conveying pipes (7), so that the positioning mechanisms (8) are fixedly arranged at the upper end of the base plate (1), and the adjacent two second side brackets (10) are fixedly arranged by being clamped in the corresponding clamping grooves (102) through the clamping strips (101);

step three, fixing the water conveying pipe (7): the lifting plate (162) is controlled to lift through the electric telescopic rod (161), so that the traction rod (164) drives the two clamping components (17) to be matched with each other to clamp and fix the water pipe (7);

step four, water quantity allocation: the monitoring data result is analyzed through the signal receiving module (68), the data are transmitted to the control module (67), and the water quantity controller (3) is regulated and controlled through the control module (67), so that the water delivery quantity of the water delivery pipe (7) is accurately regulated and controlled.

Technical Field

The invention relates to the technical field of water quantity allocation, in particular to a water quantity allocation simulation device based on big data monitoring and a using method thereof.

Background

Due to the over-population, the water consumption speed is far faster than the self-purification speed of the environment, so that the shortage of fresh water resources is caused and the fresh water resources are listed as non-renewable resources. Along with the rapid development of economy, the demands of production water and resident water of urban and rural residents are increased, so that the water quantity prediction work becomes the key for mastering the future development trend in water resource management, the water consumption in the urban and rural planning period is reasonably predicted, the urban and rural development is practically close to the urban and rural development, and the method has extremely important significance on the future construction and development of urban and rural development.

The existing water quantity allocation device is simple in structure and cannot be regulated and controlled in real time according to a big data monitoring structure, and a water pipe is poor in stability, easy to damage and poor in safety due to the fact that a fixed structure is lacked in the water delivery process, so that the water quantity allocation simulation device based on big data monitoring and the using method are provided.

Disclosure of Invention

The invention mainly aims to provide a water quantity allocation simulation device based on big data monitoring and a using method thereof, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that:

a water amount allocation simulation device based on big data monitoring and a using method thereof comprise a substrate, wherein fixed plates are fixedly welded on the left and right sides of the front end and the left and right sides of the rear end of the substrate, a water amount controller is fixedly installed in the middle of the upper end of the substrate, a water inlet pipe is connected to the front end of the water amount controller in an inserting manner, a fixed seat is fixedly installed on the front portion of the upper end of the substrate, the water inlet pipe is sleeved in the fixed seat, a plurality of water delivery pipes are connected to the left and right ends of the water amount controller in an inserting manner and are distributed at equal intervals, a protection mechanism is fixedly installed in the middle of the upper end of the substrate and is positioned outside the water amount controller, a plurality of positioning mechanisms are detachably installed on the left and right sides of the upper end of the substrate, and the tails of the positioning mechanisms are sequentially spliced together; positioning mechanism includes side support frame and No. two side support frames, the opposition end four corners of side support frame and No. two side support frames fixed welding respectively has slide bar and loop bar, and the slide bar cup joints in the loop bar that corresponds with loop bar slidable mounting, the equal fixed welding in one side lower part that opposition end was kept away from to side support frame and No. two side support frames has the transmission horizontal pole, equal slidable mounting has fixture on the transmission horizontal pole, one side that opposition end was kept away from to side support frame and No. two side support frames has all opened two spouts, and fixture's upper portion and spout slidable mounting.

As a further improvement of the scheme, the upper part of one end of the second side support frame is provided with a clamping groove, the upper part of the other end of the second side support frame is integrally formed with a clamping strip, the size of the clamping strip is matched with that of the clamping groove, and the clamping strip is clamped in the clamping groove to detachably mount the two second side support frames.

As a further improvement of the scheme, the clamping mechanism comprises a driving assembly and two clamping assemblies, the upper portion of the driving assembly is fixedly mounted with the first side supporting frame, the lower portion of the driving assembly is slidably mounted in the sliding groove, the two clamping assemblies are slidably mounted with the transmission cross rod, and the two clamping assemblies are movably mounted with the driving assembly through rotating shafts.

As a further improvement of the scheme, the driving assembly comprises an electric telescopic rod, the electric telescopic rod is fixedly installed at the front end of the first side supporting frame, a lifting plate is fixedly installed at the output end of the electric telescopic rod, two stabilizing blocks are fixedly welded at the rear end of the lifting plate, and the left side and the right side of the middle part of the front end of the lifting plate are respectively and movably provided with a traction rod through a rotating shaft.

As a further improvement of the above scheme, the size of the stabilizing blocks is matched with the size of the sliding grooves and the positions of the stabilizing blocks correspond to each other, the two stabilizing blocks are respectively slidably mounted in the corresponding sliding grooves to slidably mount the lifting plate at the front end of the first side support frame, and the connection mode of the driving assembly and the second side support frame is the same as the connection mode of the driving assembly and the first side support frame.

As a further improvement of the above scheme, the clamping assembly includes a connecting plate and a clamping block, a moving block is fixedly welded at the rear end of the connecting plate, a limiting groove is formed at the rear end of the moving block, an installation groove is formed at the lower end of the connecting plate, an installation lug is integrally formed at the upper end of the rear portion of the clamping block, and two fixing screws are inserted and connected at the front end of the clamping block.

As a further improvement of the scheme, the moving block is slidably mounted with the transmission cross rod through a limiting groove, the mounting lug is clamped in the mounting groove and detachably mounts the clamping block and the connecting plate without a fixing screw rod, and the front end of the connecting plate is movably mounted with the lower end of the traction rod through a rotating shaft.

As a further improvement of the above scheme, protection machanism includes bracing piece and guard plate, the bracing piece is provided with four, and four bracing piece fixed mounting are in the upper end of base plate, the spread groove has all been opened to the upper end of bracing piece, the equal fixed welding in lower extreme four corners of guard plate has movable rod and buffer spring, and buffer spring cup joints in the outside of movable rod, the movable rod cup joint in the spread groove and with spread groove slidable mounting, buffer spring's lower extreme and the lower cell wall fixed mounting of spread groove.

As a further improvement of the above scheme, a placing groove is formed in the lower end of the protection plate, a control module, a signal receiving module and a positioning module are fixedly mounted on the upper groove wall of the placing groove, the signal receiving module and the signal receiving module are both electrically connected with the control module, and the control module is electrically connected with the water quantity controller.

A use method of a water quantity allocation simulation device based on big data monitoring comprises the following steps:

step one, building a protection mechanism: fixedly mounting the supporting rod and the base plate, sleeving the movable rod in the connecting groove to be slidably mounted with the supporting rod, fixedly mounting the lower end of the buffer spring and the lower groove wall of the connecting groove, and positioning the protection plate above the water quantity controller;

step two, building a positioning mechanism: the positioning mechanisms are built according to the number of the water pipes, so that the positioning mechanisms are fixedly arranged at the upper end of the base plate, and the adjacent two second side supporting frames are fixedly arranged by clamping the clamping strips in the corresponding clamping grooves;

step three, fixing the water delivery pipe: the lifting plate is controlled to lift through the electric telescopic rod, so that the traction rod drives the two clamping components to be matched with each other to clamp and fix the water delivery pipe;

step four, water quantity allocation: the monitoring data result is analyzed through the signal receiving module, the data are transmitted to the control module, and the water quantity controller is regulated and controlled through the control module, so that the water delivery quantity of the water delivery pipe is accurately regulated and controlled.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the big data is analyzed through the signal receiving module, so that the control module controls the water quantity controller, the water delivery quantity of the water delivery pipe is regulated and controlled, the automation degree is high, manual regulation and control are avoided, the device is conveniently and accurately positioned, the maintenance and the overhaul are convenient, and the use is convenient.

2. According to the invention, the lifting plate is driven to move up and down through the expansion of the electric telescopic rod, the stabilizing blocks slide in the corresponding sliding grooves, so that the connecting plate is driven to slide on the transmission cross rod in the opposite direction through the traction rod, the water pipe can be rapidly clamped and fixed through the mutual matching of the two clamping blocks, the stability of the water pipe is improved, the safety and the reliability are realized, the clamping blocks and the connecting plate are detachably mounted through the fixing screw rods, the structure is simple, the clamping blocks are convenient to replace, and the maintenance cost is low.

3. According to the invention, the movable rod is slidably arranged in the connecting groove, when the protection plate is acted by external force, the movable rod slides downwards in the connecting groove, the buffer spring is compressed at the moment, the protection plate is buffered, the protection plate is prevented from being damaged, the control module, the signal receiving module and the positioning module are protected, and the device is safe and reliable, simple in structure and low in production cost.

4. According to the invention, the sliding rod slides in the sleeve rod, so that the distance between the first side support frame and the second side support frame can be adjusted, the water conveying pipes with different lengths can be limited, the universality is strong, the positioning mechanism can be conveniently accommodated, and the occupied space is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of the overall structure of a water distribution simulation apparatus based on big data monitoring according to the present invention;

FIG. 2 is a schematic diagram of a positioning mechanism of a water distribution simulation apparatus based on big data monitoring according to the present invention;

FIG. 3 is a schematic structural diagram of a positioning mechanism of a water quantity allocation simulator based on big data monitoring according to the present invention;

FIG. 4 is a schematic view of the connection between the clamping mechanism and the first side brace of the water distribution simulation device based on big data monitoring according to the present invention;

FIG. 5 is a schematic structural diagram of a clamping assembly of a water distribution simulation apparatus based on big data monitoring according to the present invention;

FIG. 6 is a schematic structural diagram of a driving assembly of a water distribution simulation apparatus based on big data monitoring according to the present invention;

FIG. 7 is a schematic structural diagram of a protection mechanism of a water quantity allocation simulation device based on big data monitoring according to the present invention;

fig. 8 is a bottom view of a protection plate of the water quantity distribution simulation device based on big data monitoring according to the present invention.

In the figure: 1. a substrate; 2. a fixing plate; 3. a water quantity controller; 4. a water inlet pipe; 5. a fixed seat; 6. a protection mechanism; 7. a water delivery pipe; 8. a positioning mechanism; 9. a first side brace bracket; 10. a second side bracket; 11. a slide bar; 12. a loop bar; 13. a clamping mechanism; 14. a drive rail; 15. a chute; 16. a drive assembly; 17. a clamping assembly; 61. a support bar; 62. connecting grooves; 63. a protection plate; 64. a movable rod; 65. a buffer spring; 66. a placement groove; 67. a control module; 68. a signal receiving module; 69. a positioning module; 101. clamping the strip; 102. a card slot; 161. an electric telescopic rod; 162. a lifting plate; 163. a stabilizing block; 164. a draw bar; 171. a connecting plate; 172. a moving block; 173. a limiting groove; 174. mounting grooves; 175. a clamping block; 176. mounting a bump; 177. and fixing the screw rod.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The technical scheme of the invention is further explained by combining the attached drawings.

Examples

The utility model provides a water yield allotment analogue means and application method based on big data monitoring, as shown in fig. 1, including base plate 1, the fixed plate 2 of all fixed welding of the front end left and right sides of base plate 1 and rear end left and right sides, the upper end middle part fixed mounting of base plate 1 has water flow controller 3, water flow controller 3's front end interlude is connected with oral siphon 4, the anterior fixed mounting in upper end of base plate 1 has fixing base 5, and oral siphon 4 cup joints in fixing base 5, water flow controller 3 all interlude at the left and right sides and is connected with a plurality of raceway 7, and a plurality of raceway 7 equidistance distribute, the upper end middle part fixed mounting of base plate 1 has protection machanism 6, and protection machanism 6 is located water flow controller 3's outside, the upper end left and right sides of base plate 1 all can be dismantled and install a plurality of positioning mechanism 8, and a plurality of positioning mechanism 8 receipts are in proper order to splice together.

In the embodiment of the invention, the sliding rod 11 slides in the sleeve rod 12, the distance between the first side support frame 9 and the second side support frame 10 can be adjusted, the water conveying pipes 7 with different lengths can be limited, the universality is strong, the positioning mechanism 8 is convenient to store, the occupied space is reduced, the driving component 16 is lifted to drive the two clamping components 17 to slide on the transmission cross rod 14 in the opposite direction, the water conveying pipes 7 can be quickly clamped and fixed by the mutual matching of the two clamping components 17, the stability is strong, the transmission is stable, the structure is compact, the water conveying pipes 7 are protected, the protection mechanism 6 is arranged to protect the water quantity controller 3, the damage to the water quantity controller 3 is avoided, the service life is prolonged, the information interaction is convenient, and the precision of water quantity allocation is improved.

Referring to fig. 2-6, the positioning mechanism 8 includes a first side support frame 9 and a second side support frame 10, four corners of opposite ends of the first side support frame 9 and the second side support frame 10 are respectively fixedly welded with a slide bar 11 and a loop bar 12, the slide bar 11 is sleeved in the corresponding loop bar 12 and is slidably mounted with the loop bar 12, lower portions of sides of the first side support frame 9 and the second side support frame 10, which are far away from the opposite ends, are respectively fixedly welded with a transmission cross bar 14, the transmission cross bar 14 is respectively slidably mounted with a clamping mechanism 13, two sliding chutes 15 are respectively formed on sides of the first side support frame 9 and the second side support frame 10, which are far away from the opposite ends, and upper portions of the clamping mechanisms 13 are slidably mounted with the sliding chutes 15; a clamping groove 102 is formed in the upper portion of one end of the second side supporting frame 10, a clamping strip 101 is integrally formed in the upper portion of the other end of the second side supporting frame 10, the size of the clamping strip 101 is matched with that of the clamping groove 102, and the clamping strip 101 is clamped in the clamping groove 102 to detachably mount the two second side supporting frames 10; the clamping mechanism 13 comprises a driving assembly 16 and two clamping assemblies 17, the upper part of the driving assembly 16 is fixedly installed with the first side support frame 9, the lower part of the driving assembly 16 is slidably installed in the sliding groove 15, the two clamping assemblies 17 are slidably installed with the transmission cross rod 14, and the two clamping assemblies 17 are movably installed with the driving assembly 16 through rotating shafts; the driving assembly 16 comprises an electric telescopic rod 161, the electric telescopic rod 161 is fixedly installed at the front end of the first side support frame 9, an output end of the electric telescopic rod 161 is fixedly installed with a lifting plate 162, two stabilizing blocks 163 are fixedly welded at the rear end of the lifting plate 162, and the left side and the right side of the middle part of the front end of the lifting plate 162 are respectively and movably installed with a traction rod 164 through a rotating shaft; the size of the stabilizing blocks 163 is matched with that of the sliding grooves 15, the positions of the stabilizing blocks 163 correspond to those of the sliding grooves 15, the two stabilizing blocks 163 are respectively installed in the corresponding sliding grooves 15 in a sliding mode, the lifting plate 162 is installed at the front end of the first side support frame 9 in a sliding mode, and the connection mode of the driving assembly 16 and the second side support frame 10 is the same as that of the driving assembly 16 and the first side support frame 9; the clamping assembly 17 comprises a connecting plate 171 and a clamping block 175, a moving block 172 is fixedly welded at the rear end of the connecting plate 171, a limiting groove 173 is formed at the rear end of the moving block 172, an installation groove 174 is formed at the lower end of the connecting plate 171, an installation convex block 176 is integrally formed at the upper end of the rear part of the clamping block 175, and two fixing screws 177 are inserted and connected at the front end of the clamping block 175; the moving block 172 is slidably mounted with the transmission cross bar 14 through a limit groove 173, the mounting lug 176 is clamped in the mounting groove 174, the clamping block 175 and the connecting plate 171 are detachably mounted without a fixing screw 177, and the front end of the connecting plate 171 is movably mounted with the lower end of the traction rod 164 through a rotating shaft.

In the specific use process of the embodiment, the sliding rod 11 slides in the sleeve rod 12, the distance between the first side support frame 9 and the second side support frame 10 can be adjusted, the water conveying pipes 7 with different lengths can be limited, the universality is strong, the positioning mechanism 8 can be conveniently stored, the occupied space is reduced, two adjacent second side support frames 10 can be assembled by clamping the clamping strip 101 in the clamping groove 102, the stability of the positioning mechanism 8 in the supporting process is improved, the structure is simple, the splicing and assembling are convenient, in the fixing process of the water conveying pipe 7, the electric telescopic rod 161 is opened, the lifting plate 162 is driven to move upwards by the contraction of the electric telescopic rod 161, the two traction rods 164 rotate by the sliding of the stabilizing block 163 in the corresponding sliding grooves 15, the connecting plate 171 is driven to slide oppositely on the transmission transverse rod 14, and the water conveying pipe 7 is clamped and fixed by the mutual matching of the clamping blocks 175, the clamp block 175 and the connecting plate 171 are detachably mounted through the fixing screw 177, the structure is simple, the clamp block 175 is convenient to replace, and the maintenance cost is saved.

Referring to fig. 7-8, the protection mechanism 6 includes four support rods 61 and four protection plates 63, the four support rods 61 are fixedly mounted at the upper end of the substrate 1, the upper ends of the support rods 61 are respectively provided with a connection groove 62, four corners of the lower end of the protection plate 63 are respectively fixedly welded with a movable rod 64 and a buffer spring 65, the buffer spring 65 is sleeved outside the movable rod 64, the movable rod 64 is sleeved in the connection groove 62 and is slidably mounted with the connection groove 62, and the lower end of the buffer spring 65 is fixedly mounted with the lower groove wall of the connection groove 62; the lower end of the protection plate 63 is provided with a placing groove 66, the upper groove wall of the placing groove 66 is fixedly provided with a control module 67, a signal receiving module 68 and a positioning module 69, the signal receiving module 68 and the signal receiving module 68 are both electrically connected with the control module 67, and the control module 67 is electrically connected with the water quantity controller 3.

The embodiment is in specific use, through movable rod 64 slidable mounting in spread groove 62, when guard plate 63 receives exogenic action, movable rod 64 gliding in spread groove 62, buffer spring 65 compresses this moment, play the cushioning effect to guard plate 63, avoid guard plate 63 to damage, to control module 67, signal reception module 68 and orientation module 69 play the guard action, safety and reliability, carry out the analysis with data through signal reception module 68, make control module 67 control water yield controller 3, make the water delivery volume of raceway 7 regulate and control, degree of automation is high, avoid artifical regulation and control, and the setting through orientation module 69, conveniently carry out accurate location to the device, convenient to maintain and overhaul, high durability and convenient use.

A use method of a water quantity allocation simulation device based on big data monitoring comprises the following steps:

step one, building a protection mechanism 6: the supporting rod 61 and the substrate 1 are fixedly installed, the movable rod 64 is sleeved in the connecting groove 62 and is installed with the supporting rod 61 in a sliding mode, the lower end of the buffer spring 65 and the lower groove wall of the connecting groove 62 are fixedly installed, the protection plate 63 is located above the water quantity controller 3, the buffer spring 65 is compressed, the protection plate 63 is buffered, the protection plate 63 is prevented from being damaged, the control module 67, the signal receiving module 68 and the positioning module 69 are protected, and safety and reliability are achieved;

step two, building a positioning mechanism 8: the positioning mechanisms 8 are built according to the number of the water pipes 7, so that the positioning mechanisms 8 are fixedly installed at the upper end of the base plate 1, the clamping strips 101 are clamped in the corresponding clamping grooves 102, so that the two adjacent second side support frames 10 are fixedly installed, the stability of the positioning mechanisms 8 in the supporting process is improved, the structure is simple, the splicing and assembling are convenient, the sliding rods 11 slide in the sleeve rods 12, the distance between the first side support frame 9 and the second side support frame 10 can be adjusted, the water pipes 7 with different lengths can be limited, and the universality is strong;

step three, fixing the water delivery pipe 7: the lifting plate 162 is controlled to lift through the electric telescopic rod 161, so that the traction rods 164 drive the two clamping components 17 to be matched with each other to clamp and fix the water pipe 7, the two traction rods 164 rotate through the sliding of the stabilizing blocks 163 in the corresponding sliding grooves 15, the connecting plates 171 are driven to slide oppositely on the transmission cross rods 14, and the water pipe 7 is clamped and fixed through the mutual matching of the clamping blocks 175, so that the fixing is firm, and the safety and the reliability are realized;

step four, water quantity allocation: carry out the analysis with the monitoring data result through signal reception module 68, give control module 67 with data transmission, regulate and control water yield controller 3 through control module 67, make the water output of raceway 7 carry out accurate regulation and control, degree of automation is high, avoids artifical regulation and control, and can realize accurate location, convenient to maintain and overhaul convenient to use.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.