CN217974256U - Dykes and dams flood control drainage structures for hydraulic engineering - Google Patents

Abstract

The utility model discloses a dykes and dams flood control drainage structures for hydraulic engineering belongs to hydraulic engineering technical field, which comprises a housin, mediation mechanism and truncation mechanism, the casing is including current shell and mediation shell, the mediation shell is fixed in one side of current shell, truncation mechanism installs on current shell, be equipped with complementary unit on the lateral wall of current shell, truncation mechanism includes the truncation board, bottom fender seat and cut the motor, it fixes on current shell to cut the motor, bottom fender seat fixes the bottom in current shell, the opening has been seted up to the upper surface of current shell, the truncation board is located current mouth, one side of current shell is equipped with power connection through the power cord, the utility model discloses a mediation mechanism can dredge the processing to mediation shell entrance, avoids the floater to block, and truncation mechanism can carry out rivers more efficiently and cut, complementary unit can assist and promote the truncation board, avoids the simple dependence motor to drive, and can hold in the support and cut the board, avoids the part to warp.

Description

Dykes and dams flood control drainage structures for hydraulic engineering

Technical Field

The utility model relates to a flood control drainage structures specifically is a dykes and dams flood control drainage structures for hydraulic engineering belongs to hydraulic engineering technical field.

Background

The river course is a channel for rendering flood discharge water, the improvement of the flood discharge capacity of the river course is a basic measure for flood control in plain areas, the building of dikes is an important component of the measure, and the dikes have the following functions in flood control: the water flow is restrained, the flood discharge and drainage capacity of the river channel is improved, and in order to better improve the flood control and drainage capacity of the dam, a drainage structure is needed for auxiliary control drainage.

Like chinese patent application, publication number CN216275542U discloses a dykes and dams flood control drainage structures for hydraulic engineering, open or close the subassembly through opening and shutting and control the water drainage tank, when the water drainage tank opened the drainage flood discharge, keep off the subassembly and keep off the floater and lead to the fact the jam in order to avoid it to enter into the water drainage tank, will be stained with through scraping the wall subassembly and attach the filth on the water drainage tank inner wall and strike off, avoid filth accumulation and moss to grow and cause the water drainage tank to narrow, guarantee flood discharge drainage efficiency.

However, the L-shaped plate in the above-mentioned document only moves on the side wall of the sieve retention barrel, the sieve retention barrel is cleaned by blocking through the brush hair, at first the sieve retention barrel is by filtering function to rivers, it can block bulky drift, and this will lead to the drift to gather outside the sieve retention barrel, a large amount of floaters of piling up outside the structure, this is very unfavorable to the drainage, and lack the mediation function to piling up the floaters in the above-mentioned document, and the transmission structure is complicated among the subassembly that opens and shuts in the above-mentioned document, and is great to the degree of adaptability and the part intensity requirement of part, the collocation is not reasonable practical.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hydraulic engineering is with dykes and dams flood control drainage structures in order to solve above-mentioned problem, can dredge the processing to dredging shell entrance, avoid the floater to block, and what truncation mechanism can be more high-efficient stable carries out rivers and cuts, increases the life of part.

The utility model discloses a following technical scheme realizes above-mentioned purpose, a hydraulic engineering is with dykes and dams flood control drainage structures, including casing, mediation mechanism and interception mechanism, the casing is including current shell and mediation shell, the mediation shell is fixed one side of current shell, interception mechanism installs on the shell of passing, be equipped with complementary unit on the lateral wall of current shell, interception mechanism includes that cutoff plate, bottom keep off the seat and cut the motor, it fixes to cut the motor on the current shell, bottom keep off the seat and fix bottom in the current shell, the opening of going has been seted up to the upper surface of current shell, it is located to cut the board in the opening of passing, one side of current shell is equipped with power connection through the power cord.

Preferably, for the convenient removal orbit that the board was cut in the restriction, be equipped with the tooth on the lateral wall of cutting the board, be fixed with the cut-off gear on cutting the output shaft of motor, cut-off gear with the tooth meshes mutually, the last fixed surface of current shell has the limiting plate, the lateral wall of limiting plate with the lateral wall of cutting the board laminates mutually.

Preferably, in order to facilitate stable movement of the auxiliary cutoff plate, the auxiliary mechanism includes a moving frame, an auxiliary motor and an auxiliary gear, the moving frame is fixed on a side wall of the passing shell, the auxiliary motor is fixedly mounted on the moving frame, the auxiliary gear is fixedly mounted on an output shaft of the auxiliary motor, and an auxiliary port allowing the auxiliary gear to pass through is formed in the side wall of the passing shell.

Preferably, for the convenient position of adjusting auxiliary motor that removes, it includes bottom plate, motor power, transmission threaded rod and guide post to remove the frame, the guide post is all fixed on the bottom plate, motor power fixes on the lateral wall of bottom plate, the transmission threaded rod is fixed on motor power's the output shaft, for convenient transmission and better stable auxiliary motor, auxiliary motor's bottom is fixed with the fixing base, internal thread hole and through hole have been seted up on the fixing base, the fixing base cover is established on the transmission threaded rod, the guide post runs through the fixing base, the transmission screw hole passes the internal thread hole, the guide post passes the through hole.

Preferably, in order to make the auxiliary gear better support the truncation board when rotatory, auxiliary gear extends to in the auxiliary port, auxiliary gear can with tooth meshes mutually, auxiliary gear's one end is rotated and is installed auxiliary stand, top in the current shell is fixed with the joint blend stop, auxiliary stand's one end extends to top in the current shell.

Preferably, in order to avoid the floater jam outside the mediation shell, mediation mechanism includes mediation motor, preceding baffle, power plate and mediation board, preceding baffle is fixed on the lateral wall of the shell of passing, the mediation motor is fixed on the lateral wall of preceding baffle, power plate fixed mounting is in on the output shaft of mediation motor, the mediation board rotates to be installed on the mediation shell, the shifting chute has been seted up on the mediation board, be fixed with the joint post on the lateral wall of power plate, joint post activity joint is in the shifting chute, be fixed with the reinforcing plate on the lateral wall of mediation shell, the output shaft of mediation motor passes the reinforcing plate.

The utility model has the advantages that:

the utility model discloses a dredge mechanism can dredge the processing to dredging shell entrance, avoids the floater to block, and cut off the mechanism and can carry out rivers more efficiently and cut off, increases the life of part, makes the operation of cutting off the board more stable, and complementary unit can assist and promote the cutting off the board, avoids simply relying on to cut off the motor and drives, can hold in the palm the cutting off the board moreover, avoids the part to warp.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is the schematic view of the sectional structure of the current shell of the present invention.

Fig. 3 is a schematic perspective view of another side of the present invention.

Fig. 4 is the schematic view of the cross-sectional structure of the dredging shell of the present invention.

In the figure: 1. a housing; 101. a passage shell; 102. dredging the shell; 2. a dredging mechanism; 201. dredging a motor; 202. a front baffle; 203. a power plate; 204. a dredging plate; 3. a cutting mechanism; 301. cutting off the plate; 302. a bottom block seat; 303. cutting off the motor; 4. an auxiliary mechanism; 401. a movable frame; 4011. a base plate; 4012. a power motor; 4013. a drive threaded rod; 4014. a guide post; 402. an auxiliary motor; 403. an auxiliary gear; 5. an auxiliary support; 6. and (6) clamping the barrier strip.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-4, a dyke flood-control drainage structure for hydraulic engineering comprises a casing 1, a dredging mechanism 2 and a cutting mechanism 3, wherein the dredging mechanism 2 can prevent floating objects from blocking a water flow channel, the cutting mechanism 3 can stably and effectively cut off water flow, the casing 1 comprises a passing casing 101 and a dredging casing 102, the dredging casing 102 is fixed on one side of the passing casing 101, when in use, water flow enters the passing casing 101 from the dredging casing 102, the cutting mechanism 3 is installed on the passing casing 101, an auxiliary mechanism 4 is arranged on the side wall of the passing casing 101, the auxiliary mechanism can assist in moving and stably supporting the cutting plate 301, the cutting mechanism 3 comprises a cutting plate 301, a bottom block seat 302 and a cutting motor 303, the cutting motor 303 is fixed on the passing casing 101, bottom fender seat 302 fixes the bottom in current shell 101, the mouth of going through has been seted up to the upper surface of current shell 101, it is located the mouth of going through to cut board 301, be equipped with the tooth on cut board 301's the lateral wall, be fixed with the cut gear on cutting motor 303's the output shaft, cut gear and tooth mesh mutually, the last fixed surface of current shell 101 has the limiting plate, the lateral wall of limiting plate and cut board 301's lateral wall are laminated mutually, cut board 301 sets up for the slope, and the lateral wall that bottom fender seat 302 kept off is the slope setting equally, when needing to remove cut board 301, cut motor 303 can drive cut board 301 and remove, and the limiting plate can avoid cut board 301 to produce the skew when removing, one side of current shell 101 is equipped with power connector through the power cord.

As a technical optimization scheme, as shown in fig. 3, complementary unit 4 is including removing frame 401, supplementary motor 402 and supplementary gear 403, remove frame 401 and fix on the lateral wall of current shell 101, supplementary motor 402 fixed mounting is on removing frame 401, supplementary gear 403 fixed mounting is on the output shaft of supplementary motor 402, set up the supplementary mouth that allows supplementary gear 403 to pass through on the lateral wall of current shell 101, remove frame 401 and include bottom plate 4011, motor power 4012, transmission threaded rod 4013 and guide post 4014, guide post 4014 all fixes on bottom plate 4011, motor power 4012 fixes on bottom plate 4011's lateral wall, transmission threaded rod 4013 fixes on motor power motor 4012's output shaft, for convenience transmission and better stable supplementary motor 402, the bottom of supplementary motor 402 is fixed with the fixing base, internal thread hole and through hole have been seted up on the fixing base, the fixing base cover is established on transmission 4013, guide post 4014 runs through the fixing base, the transmission threaded hole passes the guide post 4014, when needs remove disconnected board 301, motor 4012 can drive transmission threaded rod 4013, then drive the rotation through hole 403, thereby supplementary through-hole makes supplementary motor 401402 move supplementary through-hole to supplementary motor move disconnected board 301, this moment, thereby make supplementary motor remove auxiliary gear remove the auxiliary motor remove the disconnected board 301.

As a technical optimization scheme, as shown in fig. 2, auxiliary gear 403 extends to in the auxiliary port, auxiliary gear 403 can mesh with the tooth mutually, auxiliary gear 403's one end is rotated and is installed auxiliary stand 5, top in the current shell 101 is fixed with joint blend stop 6, auxiliary stand 5's one end extends to the top in the current shell 101, when auxiliary gear 403 transmits to truncation board 301, auxiliary gear 403 can be assisted and held to auxiliary stand 5's one end, and then avoid auxiliary gear 403 to warp, can provide certain holding power to auxiliary gear 403 simultaneously, joint blend stop 6 can restrict auxiliary stand 5's position.

As a technical optimization scheme, combine fig. 3 and fig. 4 to show, dredge mechanism 2 includes mediation motor 201, preceding baffle 202, power plate 203 and mediation board 204, preceding baffle 202 is fixed on the lateral wall of current shell 101, mediation motor 201 is fixed on the lateral wall of preceding baffle 202, power plate 203 fixed mounting is on the output shaft of mediation motor 201, mediation board 204 rotates and installs on mediation shell 102, the shifting chute has been seted up on mediation board 204, be fixed with the joint post on the lateral wall of power plate 203, joint post activity joint is in the shifting chute, be fixed with the reinforcing plate on the lateral wall of mediation shell 102, the output shaft of mediation motor 201 passes the reinforcing plate, dredge mechanism 2 can dredge the floater of jam in mediation shell 102 department, when using, mediation motor 201 can drive power plate 203 rotatory, when power plate 203 removes, can drive mediation board 204 rotatory through the joint post, and then dial the plug of mediation shell 102 department through the cooperation of power plate 203 and mediation board 204.

The utility model discloses when using, at first the power connection and the external power cord of the shell 101 one side of will passing are connected, then bury this structure underground in the dyke dam, casing 1's both sides are located the both sides of dyke and dam, so that the rivers pass, dredging mechanism 2 can avoid the floater to block up the rivers passageway, cutting mechanism 3 can stabilize effectually cutting rivers, when needs remove cutting plate 301, cut motor 303 and can drive cutting plate 301 and remove, and the limiting plate can avoid cutting plate 301 to produce the skew when removing.

When removing cutoff plate 301, motor power 4012 can drive transmission threaded rod 4013 rotatory, then drive the fixing base and remove, the fixing base can drive auxiliary motor 402 and remove, and then make auxiliary gear 403 remove to one side of cutoff plate 301, auxiliary motor 402 drives auxiliary gear 403 rotatory this moment, thereby it removes to drive cutoff plate 301, auxiliary gear 403 can be assisted to the one end of auxiliary stand 5, and then avoid auxiliary gear 403 to warp, can provide certain holding power to auxiliary gear 403 simultaneously, when the floater takes place to block up, dredge motor 201 can drive power plate 203 rotatory, when power plate 203 removes, can drive dredge plate 204 rotatory through the joint post, and then dial the plug of dredging shell 102 department through the cooperation of power plate 203 and dredge plate 204.

The utility model discloses a mediation mechanism 2 can dredge the processing to dredging shell 102 entrance, avoids the floater to block, and interception mechanism 3 can carry out rivers more efficiently and cut, increases the life of part, makes the operation of cutting off board 301 more stable, and complementary unit 4 can assist and promote cutting off board 301, avoids relying on simply to cut off motor 303 and drives, can hold in the palm cutting off board 301 moreover, avoids the part to warp.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a dykes and dams flood control drainage structures for hydraulic engineering which characterized in that: including casing (1), mediation mechanism (2) and interception mechanism (3), casing (1) is including current shell (101) and mediation shell (102), mediation shell (102) is fixed one side of current shell (101), interception mechanism (3) are installed on current shell (101), be equipped with complementary unit (4) on the lateral wall of current shell (101), interception mechanism (3) are including cutting off board (301), bottom block seat (302) and cut motor (303), cut motor (303) and fix on current shell (101), bottom block seat (302) are fixed bottom in shell (101), the mouth of passing through has been seted up to the upper surface of current shell (101), cutting off board (301) are located in the mouth of passing through, one side of current shell (101) is equipped with power connector through the power cord.

2. A dam flood-control drainage structure for hydraulic engineering according to claim 1, characterized in that: be equipped with tooth on the lateral wall of cutting off board (301), be fixed with the cut-off gear on cutting off the output shaft of motor (303), the cut-off gear with tooth meshes mutually, the last fixed surface of current shell (101) has the limiting plate, the lateral wall of limiting plate with the lateral wall of cutting off board (301) laminates mutually.

3. A dam flood control and drainage structure for hydraulic engineering according to claim 2, wherein: the auxiliary mechanism (4) comprises a moving frame (401), an auxiliary motor (402) and an auxiliary gear (403), the moving frame (401) is fixed on the side wall of the passing shell (101), the auxiliary motor (402) is fixedly installed on the moving frame (401), the auxiliary gear (403) is fixedly installed on an output shaft of the auxiliary motor (402), and an auxiliary port allowing the auxiliary gear (403) to pass through is formed in the side wall of the passing shell (101).

4. A dam flood-control drainage structure for hydraulic engineering according to claim 3, characterized in that: remove frame (401) including bottom plate (4011), motor power (4012), transmission threaded rod (4013) and guide post (4014), guide post (4014) all fix on bottom plate (4011), motor power (4012) are fixed on the lateral wall of bottom plate (4011), transmission threaded rod (4013) are fixed on the output shaft of motor power (4012).

5. A dyke dam flood control drainage structures for hydraulic engineering according to claim 4, characterized in that: the bottom of auxiliary motor (402) is fixed with the fixing base, the fixing base cover is established on transmission threaded rod (4013), guide post (4014) run through the fixing base.

6. A dyke flood control drainage structure for hydraulic engineering according to claim 5, characterized in that: supplementary gear (403) extend to in the auxiliary port, the one end of supplementary gear (403) is rotated and is installed auxiliary stand (5), top in current shell (101) is fixed with joint blend stop (6), the one end of auxiliary stand (5) extends to top in current shell (101).

7. A dam flood-control drainage structure for hydraulic engineering according to claim 1, characterized in that: the dredging mechanism (2) comprises a dredging motor (201), a front baffle (202), a power plate (203) and a dredging plate (204), the front baffle (202) is fixed on the side wall of the passing shell (101), the dredging motor (201) is fixed on the side wall of the front baffle (202), the power plate (203) is fixedly installed on an output shaft of the dredging motor (201), and the dredging plate (204) is rotatably installed on the dredging shell (102).

8. A dam flood-control drainage structure for hydraulic engineering according to claim 7, wherein: the dredging device is characterized in that a moving groove is formed in the dredging plate (204), a clamping column is fixed on the side wall of the power plate (203), the clamping column is movably clamped in the moving groove, a reinforcing plate is fixed on the side wall of the dredging shell (102), and an output shaft of the dredging motor (201) penetrates through the reinforcing plate.

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