Search

CN-224227750-U - Sluice control structure of high standard farmland construction

CN224227750UCN 224227750 UCN224227750 UCN 224227750UCN-224227750-U

Abstract

The utility model discloses a sluice control structure for high-standard farmland construction, which comprises a plurality of water diversion mechanisms distributed along the length direction of a water channel, wherein the water diversion mechanisms comprise a fixed seat, a water diverter and a water baffle plate, the fixed seat is arranged in the water channel, the lower part of the fixed seat is provided with a flowing water through groove along the length direction of the water channel, the upper part of the fixed seat is provided with a second mounting groove penetrating through the flowing water through groove, the water baffle plate can be inserted into the second mounting groove to block the flowing water through groove, two side walls of the flowing water through groove are respectively provided with a first pore canal and a second pore canal, the first pore canal and the second pore canal are oppositely arranged and are positioned at one side of the second mounting groove far away from the next water diversion mechanism, the water diverter comprises a fan blade plate rotatably arranged in the flowing water through groove and a locking part used for locking the fan blade plate, the outer edges of the water baffle blade are arranged symmetrically, and when the outer edges of the fan blade rotate through each pore canal, the outer edges of the water baffle blade abut against the inlet of each pore canal and the two side walls of the flowing water through groove. The utility model can realize simultaneous irrigation of farmlands in different areas and has good water flow control capability.

Inventors

  • WEN KAI
  • WANG HENG
  • ZHANG WENGUANG
  • WANG JUNLIANG
  • LIU CHENG
  • SONG KANG
  • LI ZEYUAN
  • Dang Ziming

Assignees

  • 中铁一局集团第二工程有限公司

Dates

Publication Date
20260512
Application Date
20250609

Claims (6)

  1. 1. The sluice control structure for high-standard farmland construction is characterized by comprising a plurality of water diversion mechanisms distributed along the length direction of a ditch (4), wherein each water diversion mechanism comprises a fixed seat (2), a water diverter (1) and a water baffle (3) which are arranged in the ditch (4); The water baffle plate (3) can be inserted into the second mounting groove (23) so as to block the water flowing through groove (21), a first pore canal (211) and a second pore canal (212) are respectively arranged on two side walls of the water flowing through groove (21), and the first pore canal (211) and the second pore canal (212) are oppositely arranged and are positioned on one side, far away from the next water dividing mechanism, of the second mounting groove (23); the water separator (1) comprises a fan blade plate (11) and a locking component, wherein the fan blade plate (11) is rotatably arranged in a running water through groove (21), the locking component is used for locking the fan blade plate (11), the fan blade plate (11) comprises two water retaining fan blades (112) which are arranged in a central symmetry mode, and when the outer edges of the water retaining fan blades (112) rotate through all the pore channels, the outer edges of the water retaining fan blades (112) prop against the inlets of all the pore channels and the two side walls of the running water through groove (21).
  2. 2. The sluice control structure for high-standard farmland construction according to claim 1, wherein the blade plate (11) further comprises two water passing blades (113) which are arranged in a central symmetry manner, water passing holes (1131) are formed in the water passing blades (113), the water passing holes (1131) are lower than each pore canal, the two water passing blades (113) and the two water retaining blades (112) are centrally symmetrical by taking the rotation axis of the blade plate (11) as a central line, and the two water passing blades (113) and the two water retaining blades (112) are circumferentially and uniformly distributed around the rotation axis.
  3. 3. The sluice control structure for high-standard farmland construction according to claim 2, wherein the blade plate (11) further comprises a central cylinder (111), two water passing blades (113) and two water retaining blades (112) are fixedly arranged on the periphery of the central cylinder (111), the central cylinder (111) is rotatably arranged on a rotating shaft (124), and the rotating shaft (124) is arranged in the water flowing through groove (21).
  4. 4. The floodgate control structure for high-standard farmland construction according to claim 3, wherein the locking member comprises a rotation shaft (124), a chuck (126), a clamping groove (127) and a telescopic locking mechanism for controlling the clamping and separating of the chuck (126) and the clamping groove (127); The bottom end of the rotating shaft (124) is inserted into a yielding hole formed in the bottom of the ditch (4), and the top end of the rotating shaft is fixedly provided with a chuck (126); a clamping groove (127) is formed in the upper part of the inner hole of the central cylinder (111); After the telescopic locking mechanism controls the chuck (126) to be clamped with the clamping groove (127), the central cylinder (111) is locked with the rotating shaft (124), and after the telescopic locking mechanism controls the chuck (126) to be separated from the clamping groove (127), the central cylinder (111) can freely rotate around the rotating shaft (124).
  5. 5. The sluice control structure for high-standard farmland construction according to claim 4, characterized in that the chuck (126) is provided with upper latch teeth on one side facing the latch groove (127), the latch groove (127) is provided with lower latch teeth, and the chuck (126) and the latch groove (127) are engaged with each other by engagement of the upper latch teeth and the lower latch teeth.
  6. 6. The sluice control structure for high-standard farmland construction according to claim 1, characterized in that the upper part of the fixing seat (2) of the first water diversion mechanism of the plurality of water diversion mechanisms is further provided with a first mounting groove (22) penetrating through the water flowing through groove (21), the first mounting groove (22) is positioned at one side of the second mounting groove (23) far away from the next water diversion mechanism, and the water baffle (3) can be inserted into the first mounting groove (22) to seal the water flowing through groove (21).

Description

Sluice control structure of high standard farmland construction Technical Field The utility model relates to the technical field of irrigation channels, in particular to a sluice control structure for high-standard farmland construction. Background An irrigation channel is a waterway that couples an irrigation water source and an irrigation land. The water quantity drawn from the water source is delivered and distributed to various portions of the irrigation area. In the range of a irrigated area, the irrigation channels are divided into 5 grades such as main channels, branch channels, bucket channels, agricultural channels, rough channels and the like according to the size of the control area. The irrigation area with complex terrain and large area can be additionally provided with multi-stage channels such as total trunk, branch hopper and the like. The current irrigation channels realize zone irrigation by blocking channels in the farm fields through baffles so as to prevent water flow from increasing water level and entering corresponding channels, and the current mode cannot realize simultaneous irrigation of farmlands in different zones and has poor water flow control capability. Disclosure of utility model The utility model provides a sluice control structure for high-standard farmland construction, which aims to solve the technical problems. In order to achieve the above object, the technical scheme of the present utility model is as follows: A sluice control structure for high-standard farmland construction comprises a plurality of water diversion mechanisms distributed along the length direction of a ditch, wherein each water diversion mechanism comprises a fixed seat, a water diversion device and a water baffle plate which are arranged in the ditch; The two side walls of the water flowing through groove are respectively provided with a first pore canal and a second pore canal, and the first pore canal and the second pore canal are oppositely arranged and are positioned at one side of the second installation groove far away from the next water diversion mechanism; The water separator comprises a fan blade plate and a locking part, wherein the fan blade plate is rotatably arranged in the flowing water through groove, the locking part is used for locking the fan blade plate, the fan blade plate comprises two water retaining fan blades which are arranged in a central symmetry mode, and when the outer edges of the water retaining fan blades rotate through all the pore channels, the outer edges of the water retaining fan blades prop against the inlets of all the pore channels and the two side walls of the flowing water through groove. Preferably, the fan blade plate further comprises two water passing fan blades which are arranged in a central symmetry mode, water passing holes are formed in the water passing fan blades and lower than each pore canal, the two water passing fan blades and the two water retaining fan blades are centered and symmetrical by taking the rotation axis of the fan blade plate as a central line, and the two water passing fan blades and the two water retaining fan blades are uniformly distributed around the circumference of the rotation axis. Preferably, the fan blade plate further comprises a central cylinder, the two water passing fan blades and the two water blocking fan blades are fixedly arranged on the periphery of the central cylinder, the central cylinder is rotatably arranged on a rotating shaft, and the rotating shaft is arranged in the water flowing through groove. Preferably, the locking component comprises a rotating shaft, a chuck, a clamping groove and a telescopic locking mechanism for controlling the clamping and separating of the chuck and the clamping groove; The bottom end of the rotating shaft is inserted into a yielding hole arranged at the bottom of the canal the top end is fixedly provided with a chuck; on the inner hole of the central cylinder the part is provided with a clamping groove; the central cylinder is locked with the rotating shaft after the telescopic locking mechanism controls the chuck to be clamped with the clamping groove, and the central cylinder can freely rotate around the rotating shaft after the telescopic locking mechanism controls the chuck to be separated from the clamping groove. Preferably, the chuck is equipped with the latch on towards draw-in groove one side, and the draw-in groove is equipped with down the latch, and chuck and draw-in groove carry out the joint through the meshing of last latch and lower latch. Preferably, the upper part of the fixing seat of the first water diversion mechanism in the plurality of water diversion mechanisms is further provided with a first mounting groove communicated with the water flowing through groove, the first mounting groove is positioned on one side, far away from the next water diversion mechanism, of the second mounting groove, and the water baffle can be inserted into the first moun