CN215492579U - Reinforced dam body - Google Patents

Abstract

The application relates to a reinforced dam body, which comprises a dam body; the guardrail module comprises vertical rods arranged at the edge of the end face of the top of the dam body and a protective plate horizontally arranged at the edge of the top of the dam, and the vertical rods are arranged at the two ends of the protective plate; a pull rope used for enabling the guard plate to keep a horizontal state is arranged between the vertical rod and the guard plate, one end of the pull rope is arranged on the guard plate, and the other end of the pull rope is arranged on the vertical rod. The protection plate is provided with a movable plate at one end far away from the vertical rod, the movable plate is rotatably connected with the protection plate, a limiting block used for limiting the movable plate to keep a vertical state is arranged at one end, close to the movable plate, of the middle of the protection plate, and a first inhaul cable assembly used for pulling up the movable plate is arranged at the top of the vertical rod. This application has the effect of being convenient for carry out the collection to the dam water sample.

Description

Reinforced dam body

Technical Field

The application relates to the field of water conservancy construction, especially, relate to a strenghthened type dam body.

Background

The dam is a water retaining structure for intercepting river channel water flow to raise water level or regulate flow, is widely applied and in real life, plays an important role in governing river channels for people, adopts reinforced dam bodies for special large rivers, and is arranged on a guardrail at the top of the dam bodies.

Chinese patent with publication number CN201546187U discloses a dam crest guardrail of a dam, which comprises a guardrail main body, wherein the guardrail main body is formed by arranging an ecological guardrail section and a common guardrail section alternately, which are arranged on the edge of the top of the dam body and extend along the length direction, and the ecological guardrail section can play the role of ecological harmony.

Aiming at the related technologies, the ecological guardrail section and the common guardrail section are in a fixed state, and the inventor considers that the dam water sample collection is inconvenient for people.

SUMMERY OF THE UTILITY MODEL

In order to facilitate gathering the dam water sample, this application provides a strenghthened type dam body.

The application provides a strenghthened type dam body adopts following technical scheme:

a reinforced dam body comprises a dam body; the guardrail module comprises vertical rods arranged at the edge of the end face of the top of the dam body and a protective plate horizontally arranged at the edge of the top of the dam, and the vertical rods are arranged at the two ends of the protective plate; a pull rope used for enabling the guard plate to keep a horizontal state is arranged between the vertical rod and the guard plate, one end of the pull rope is arranged on the guard plate, and the other end of the pull rope is arranged on the vertical rod.

Through adopting above-mentioned technical scheme, but with backplate level suspension in dam body top for the one end that the dam body was kept away from to the backplate is located water directly over, and thus the testing personnel of being convenient for gather the water sample under the backplate on the backplate.

Optionally, a movable plate is arranged at one end, away from the vertical rod, of the protection plate, the movable plate is rotatably connected with the protection plate, a limiting block used for limiting the movable plate to keep a vertical state is arranged at one end, close to the movable plate, of the middle portion of the protection plate, and a first inhaul cable assembly used for pulling up the movable plate is arranged at the top of the vertical rod.

Through adopting above-mentioned technical scheme, the fly leaf keeps vertical state, can play certain guard action to the measurement personnel, and first zip subassembly can be automatically with fly leaf intercommunication backplate together pull-up, play the effect of automatic packing up the backplate.

Optionally, the first cable assembly comprises a first cable, a first roller arranged at one end of the vertical rod, which is far away from the movable plate, and a first motor for driving the first roller to rotate; one end of the first sling is fixed on the movable plate, the other end of the first sling penetrates through the vertical rod, and one end of the first sling penetrating through the vertical rod is fixed on the first roller.

Through adopting above-mentioned technical scheme, when the measurement personnel gathered the water sample and finishes, start first motor, first roller rotates and packs up first hoist cable, and first hoist cable is drawn fly leaf and backplate together for the backplate plays initial guard action.

Optionally, a locking assembly corresponding to the position of the vertical rod is arranged on one side of the movable plate facing the vertical rod, the locking assembly comprises a barb vertically fixed on the movable plate, locking cloth arranged at an interval with the barb, and a shackle fixed at one end of the locking cloth, and one end of the locking cloth, which is far away from the shackle, is fixed on the movable plate; when the movable plate is pulled up and close to the vertical rod, the locking cloth winds around the vertical rod for a circle, and the hook ring is buckled on the barb.

Through adopting above-mentioned technical scheme, bind the fly leaf with the montant and be connected, reduce the condition that bad weather made the fly leaf break away from the montant.

Optionally, one side that the fly leaf deviates from the backplate is equipped with detection module, detection module includes second cable subassembly and is fixed in the sampling subassembly of second cable subassembly below, second cable subassembly is including rotating the second roller of connecting on the fly leaf, be used for driving second roller pivoted second motor and the second hoist cable that one end is fixed in the second roller, sampling subassembly is fixed in the one end that second roller was kept away from to second cable subassembly.

Through adopting above-mentioned technical scheme for the testing personnel gather the water sample more conveniently.

Optionally, the sampling assembly includes a submerged block, a sampling cup disposed on the submerged block, and a locking member for fixing the sampling cup to the submerged block.

Through adopting above-mentioned technical scheme, the heavy water piece drives the sample cup and sinks into the surface of water once to gather the water sample.

Optionally, the top of the water settling block is provided with a containing groove for placing a sampling cup, the locking piece is a ring plate, and the edge of the top of the sampling cup is abutted against the end face of the bottom of the locking piece; the locking piece is fixed on the top end face of the water sinking block through a bolt, and one end, far away from the second roller, of the second sling is fixed on the locking piece.

Through adopting above-mentioned technical scheme, sample cup dismantlement formula is installed in the storage tank, does not influence the water sample and enters into in the sample cup, also easy to assemble and take off the sample cup.

Optionally, a buffering assembly is arranged at the edge of the top of the dam body and is located below the guard plate; the buffer assembly comprises a mounting plate fixed at the edge of the top of the dam body horizontally, a buffer spring vertically fixed on the mounting plate and a buffer plate fixed at the top of the buffer spring, wherein the buffer plate is abutted to the ground of the guard plate, and the mounting plate is arranged at intervals of the guard plate.

Through adopting above-mentioned technical scheme, when the backplate put down, inertia is great, and buffer spring can resist the inertia when the backplate puts down, produces the too big condition of range rotation when reducing the backplate and putting down.

In summary, the present application includes at least one of the following beneficial technical effects:

1. set the backplate to and can put down to the horizontality, make the backplate keep away from the one end of dam body and be located the top of the surface of water to make things convenient for the measurement personnel to gather the water sample.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

fig. 2 is an enlarged view of the structure of portion a in fig. 1.

Description of reference numerals: 1. a dam body; 2. a guardrail module; 21. a vertical rod; 22. a guard plate; 23. pulling a rope; 24. a movable plate; 25. a limiting block; 26. a first cable assembly; 261. a first sling; 262. a first roller; 263. a first motor; 27. a locking assembly; 271. a barb; 272. locking the cloth; 273. a shackle; 28. a buffer assembly; 281. mounting a plate; 282. a buffer spring; 283. a buffer plate; 3. a detection module; 31. a second cable assembly; 311. a second roller; 312. a second motor; 313. a second sling; 32. a sampling assembly; 321. a water sinking block; 3211. a containing groove; 322. a sampling cup; 323. and (4) a ring plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a reinforced dam body. Referring to fig. 1, the reinforced dam body includes a dam body 1, a guardrail module 2 disposed on the top of the dam body 1, and a detection module 3 disposed on the guardrail module 2.

Guardrail module 2 sets up in the backplate 22 of 1 top one side of dam body and rotates the fly leaf 24 of connecting in backplate 22 and keeping away from dam body 1 one end including vertical montant 21, the level that is fixed in on the 1 top end face of dam body, backplate 22 rotates with dam body 1 to be connected, montant 21 is equipped with two and is located the both ends of backplate 22 respectively.

The two ends of the guard plate 22 in the length direction are both provided with a pull rope 23 for keeping the guard plate 22 in a horizontal state, one end of the pull rope 23 is fixed on the guard plate 22, the other end of the pull rope 23 is fixed on the vertical rod 21, and when the guard plate 22 is in the horizontal state, the pull rope 23 is in a stretched state. The vertical rod 21 is tightly close to the protective plate 22, and when the protective plate 22 is folded to keep the vertical state, the protective plate 22 is tightly close to the vertical rod 21.

Referring to fig. 1 and 2, the two ends of the guard plate 22 in the length direction are respectively provided with a locking component 27 for locking the position relationship between the guard plate 22 and the vertical rod 21, the locking components 27 comprise barbs 271 vertically fixed on the guard plate 22, locking cloths 272 arranged at intervals with the barbs 271, and a hook 273 fixed at one end of the locking cloths 272, and one end of the locking cloth 272 far away from the hook 273 is fixed on the guard plate 22. When the guard plate 22 is in the vertical state, the locking cloth 272 is wound around the vertical rod 21 for a circle, and the hook ring 273 is buckled on the barb 271, so that the guard plate 22 can be stably connected with the vertical rod 21 when severe weather occurs.

Referring to fig. 1, the guardrail module 2 further comprises a first cable assembly 26 for pulling the movable plate 24, wherein the first cable assembly 26 comprises a first cable 261, a first roller 262 fixed on one side of the vertical rod 21 facing away from the guard plate 22, and a first motor 263 for driving the first roller 262 to rotate. One end of the first sling 261 is fixed on the side of the movable plate 24 close to the vertical plate, the other end is inserted through the vertical rod 21, and one end of the first sling 261 passing through the vertical rod 21 is fixed on the first roller 262. The end of the middle part of the guard plate 22 away from the vertical rod 21 is provided with a limiting block 25, when the guard plate 22 is in a horizontal state, the movable plate 24 is tightly attached to the limiting block 25 and keeps in a vertical state, and at this time, the first sling 261 is in a straightening state.

In order to prevent the guard plate 22 from rotating by a larger amplitude due to inertia when being put down, the bottom of one end of the guard plate 22 close to the dam body 1 is provided with a buffer assembly 28, the buffer assembly 28 comprises an installation plate 281 horizontally fixed on one side of the dam body 1, a buffer spring 282 fixed on the installation plate 281 and a buffer plate 283 fixed on the buffer spring 282, when the guard plate 22 is in a horizontal state, the buffer plate 283 abuts against the bottom surface of the guard plate 22, the installation plate 281 and the buffer plate 283 are both arranged along the length direction of the guard plate 22, and a plurality of buffer springs 282 arranged at intervals are arranged between the installation plate 281 and the buffer plate 283. The cushion of the cushion spring 282 effectively protects the rope 23, and reduces the possibility that the rope 23 is broken by receiving an excessive force.

The detection module 3 comprises a sampling assembly 32 and a second cable assembly 31 for lifting the sampling assembly 32, the second cable assembly 31 comprises a second roller 311 rotatably connected to one side of the movable plate 24, which is far away from the guard plate 22, a second motor 312 for driving the second roller 311 to rotate, and a second sling 313, one end of which is fixed on the second roller 311, and the sampling assembly 32 is fixed on one end of the second sling 313, which is far away from the second roller 311.

The sampling assembly 32 includes a sinking block 321, a sampling cup 322 disposed on the sinking block 321, and a locking member 323 for fixing the sampling cup 322 to the sinking block 321. In order to enable the sampling cup 322 to smoothly sink into water to collect a water sample, the sinking block 321 is made of a metal with a large density, and the top end surface of the sinking block 321 is provided with a containing groove 3211 for placing the sampling cup 322. The locking member 323 is a ring plate, the locking member 323 is fixed to the top of the sinking block 321 by bolts, and the upper edge of the sampling cup 322 abuts on the bottom surface of the locking member 323. An end of the second sling 313 remote from the second roller 311 is fixed to a top surface of the locking member 323.

The implementation principle of the embodiment of the application is as follows: in the initial state, the guard plate 22 is in the vertical state; when the dam water sample needs to be collected, the hook ring 273 is taken down from the barb 271, the first sling 261 is released, the guard plate 22 is rotated to be in a horizontal state, the first motor 263 is started, the first sling 261 is in a straightening state, and the movable plate 24 is tightly attached to the limiting block 25 and keeps in a vertical state.

After the sampling cup 322 is placed in the sinking block 321, the sampling cup 322 is locked by the locking piece 323, the second motor 312 is started, the second roller 311 rotates, one end, away from the second roller 311, of the second sling 313 moves downwards, the sinking block 321 enters the water, water enters the sampling cup 322 from the middle of the locking piece 323, the second motor 312 is started again, the second sling 313 is retracted by the rotation of the second roller 311, the sampling cup 322 is taken out after the sinking block 321 rises, and the sampling of the dam water sample is completed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A reinforced dam body comprises a dam body (1); the method is characterized in that: the dam comprises a dam body (1) and is characterized by further comprising a guardrail module (2) arranged at the top of the dam body (1), wherein the guardrail module (2) comprises vertical rods (21) arranged at the edge of the end face of the top of the dam body (1) and a protective plate (22) horizontally arranged at the edge of the top of the dam, and the vertical rods (21) are arranged at two ends of the protective plate (22); be equipped with between montant (21) and backplate (22) and be used for making backplate (22) keep the stay cord (23) of horizontality, the one end of stay cord (23) sets up on backplate (22), the other end of stay cord (23) sets up on montant (21).

2. The reinforced dam of claim 1, wherein: the utility model discloses a vertical pole (21) of building up, including backplate (22), vertical pole (21), the one end that the backplate (22) kept away from montant (21) is equipped with fly leaf (24), fly leaf (24) rotate with backplate (22) and are connected, the one end that backplate (22) middle part is close to fly leaf (24) is equipped with stopper (25) that are used for spacing fly leaf (24) to keep vertical state, montant (21) top is equipped with first cable subassembly (26) that are used for pulling up fly leaf (24).

3. The reinforced dam of claim 2, wherein: the first cable assembly (26) comprises a first sling (261), a first roller (262) arranged at one end of the vertical rod (21) departing from the movable plate (24), and a first motor (263) for driving the first roller (262) to rotate; one end of the first sling (261) is fixed on the movable plate (24), the other end of the first sling (261) penetrates through the vertical rod (21), and one end of the first sling (261) penetrating through the vertical rod (21) is fixed on the first roller (262).

4. The reinforced dam of claim 3, wherein: a locking assembly (27) corresponding to the position of the vertical rod (21) is arranged on one side, facing the vertical rod (21), of the movable plate (24), the locking assembly (27) comprises a barb (271) vertically fixed on the movable plate (24), locking cloth (272) arranged at an interval with the barb (271), and a hook ring (273) fixed at one end of the locking cloth (272), and one end, far away from the hook ring (273), of the locking cloth (272) is fixed on the movable plate (24); when the movable plate (24) is pulled up and approaches the vertical rod (21), the locking cloth (272) winds around the vertical rod (21) and the hook ring (273) is buckled on the barb (271).

5. The reinforced dam of claim 4, wherein: one side that fly leaf (24) deviates from backplate (22) is equipped with detection module (3), detection module (3) include second cable subassembly (31) and be fixed in sampling subassembly (32) of second cable subassembly (31) below, second cable subassembly (31) are including rotating second roller (311) of connecting on fly leaf (24), be used for driving second roller (311) pivoted second motor (312) and one end and be fixed in second hoist cable (313) on second roller (311), sampling subassembly (32) are fixed in second cable subassembly (31) and keep away from the one end of second roller (311).

6. The reinforced dam of claim 5, wherein: the sampling assembly (32) comprises a sinking block (321), a sampling cup (322) arranged on the sinking block (321) and a locking piece (323) used for fixing the sampling cup (322) on the sinking block (321).

7. The reinforced dam of claim 6, wherein: the top of the water settling block (321) is provided with a containing groove (3211) for placing the sampling cup (322), the locking piece (323) is a ring plate, and the top edge of the sampling cup (322) is abutted against the bottom end face of the locking piece (323); the locking piece (323) is fixed on the top end face of the water sinking block (321) through bolts, and one end, away from the second roller (311), of the second sling (313) is fixed on the locking piece (323).

8. The reinforced dam of claim 1, wherein: the top edge of the dam body (1) is provided with a buffer assembly (28), and the buffer assembly (28) is positioned below the guard plate (22); buffering subassembly (28) are fixed in mounting panel (281) at dam body (1) top edge including the level, vertically are fixed in buffer spring (282) on mounting panel (281) and are fixed in buffer board (283) at buffer spring (282) top, buffer board (283) butt in backplate (22) ground, mounting panel (281) set up in backplate (22) interval.

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