CN219175150U - Hydraulic engineering design construction waterproof construction - Google Patents

Abstract

The utility model relates to the technical field of hydraulic engineering, and discloses a hydraulic engineering design construction waterproof structure, wherein the front surfaces of a first baffle plate and a second baffle plate are respectively clamped with an anti-scouring mechanism; the anti-scouring mechanism comprises a first anti-scouring plate arranged on the front surfaces of the first baffle plate and the second baffle plate, and the front surface of the first anti-scouring plate is provided with a second anti-scouring plate; the rear surface symmetry of first baffle has seted up first mounting groove, the rear surface symmetry of second baffle has seted up the second mounting groove, the inside of first mounting groove and second mounting groove is provided with coupling mechanism. According to the utility model, the sliding plate slides in the first mounting groove and the second mounting groove, so that the first baffle plate and the second baffle plate can be connected, and meanwhile, the first sealing gasket and the second sealing gasket can play a good sealing role on the joint of the first baffle plate and the second baffle plate, so that the phenomenon of water leakage is prevented, and the phenomenon of soft road subgrade is caused.

Description

Hydraulic engineering design construction waterproof construction

Technical Field

The utility model relates to the technical field of hydraulic engineering, in particular to a waterproof construction structure for hydraulic engineering design.

Background

The hydraulic engineering is used for controlling and allocating surface water and underground water in nature to achieve the purpose of removing damage and benefiting, so in the hydraulic engineering design and construction process, a water diversion channel is generally arranged along the road direction so that farmers can conveniently use the hydraulic engineering, after the water diversion channel is constructed, in order to prevent water in the water diversion channel from penetrating outwards, a baffle is generally paved on the inner side of a channel, the road can be protected through the baffle, and hidden danger caused by softness of a road bed is avoided.

The chinese patent discloses a hydraulic engineering design construction waterproof construction (grant bulletin number CN 213836592U), this patent technology through setting up first baffle, the second baffle, the lug, the recess, the keyway, the barrel, the slide, pressure spring and round pin post, can fix between first baffle and the second baffle, through setting up first sealed pad and second sealed pad, can seal the junction between first baffle and the second baffle, through setting up the inoxidizing coating, can strengthen the protection to the baffle, through setting up above structure, possess the advantage of waterproof construction when using, the waterproof effect is improved to original waterproof construction has been solved when using, the problem that the waterproof effect is relatively poor, thereby the potential safety hazard has been avoided.

However, the method of the bump, the groove, the pressure spring and the pin column adopted in the patent are used for fixing the first baffle and the second baffle, and the method can play a role in connection and fixation, so that the pressure spring and the pin column can be operated to detach the first baffle and the second baffle when the first baffle and the second baffle are detached, the labor force is increased, and the mounting and dismounting efficiency is affected. Therefore, a hydraulic engineering design construction waterproof structure is provided by a person skilled in the art to solve the problems in the background art.

Disclosure of Invention

The utility model aims to provide a hydraulic engineering design construction waterproof structure so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a hydraulic engineering design construction waterproof construction, includes first baffle and sets up the second baffle in first baffle one side, the lower surface of first baffle and second baffle all is provided with the firm pole, the bottom of firm pole is the toper setting, the front surface of first baffle and second baffle all joint has scour protection mechanism;

the anti-scouring mechanism comprises a first anti-scouring plate arranged on the front surfaces of a first baffle plate and a second baffle plate, a second anti-scouring plate is arranged on the front surface of the first anti-scouring plate, and an anti-corrosion coating is coated on the front surface of the second anti-scouring plate;

the rear surface symmetry of first baffle has seted up first mounting groove, the rear surface symmetry of second baffle has seted up the second mounting groove, the inside of first mounting groove and second mounting groove is provided with coupling mechanism, coupling mechanism includes the slide of slidable mounting inside first mounting groove and second mounting groove, the rear surface mounting of slide has the connecting plate, the rear surface of connecting plate is provided with the roof.

As still further aspects of the utility model: the rear surface symmetry of first scour protection board is provided with the bayonet lock, the draw-in groove with the mutual block of bayonet lock has all been seted up to the front surface of first baffle and second baffle.

As still further aspects of the utility model: the two-side symmetry of first baffle and second baffle is provided with fastening bolt, first fixed orifices has been seted up to the inside of bayonet lock, the second fixed orifices has been seted up in one side of first fixed orifices to the inside of first baffle and second baffle, fastening bolt's end runs through inside the first fixed orifices and extends to in the second fixed orifices with second fixed orifices threaded connection.

As still further aspects of the utility model: an adhesive coating is arranged between the first anti-scouring plate and the second anti-scouring plate, and the first anti-scouring plate is in adhesive connection with the second anti-scouring plate through the adhesive coating.

As still further aspects of the utility model: the rear of roof is provided with the fixed plate, the upper surface of fixed plate is provided with the mounting panel, the mounting panel passes through the upper surface of screw-mounting at first baffle and second baffle.

As still further aspects of the utility model: the front surface symmetry of fixed plate is provided with the dead lever, the inside of dead lever is provided with the spring, the one end of spring is connected with the connecting rod, the rear surface at the roof is connected to the one end of connecting rod.

As still further aspects of the utility model: the sliding plate and the connecting plate are arranged in a T-shaped mode, a first sealing gasket is arranged on the front surface of the sliding plate, and a second sealing gasket is arranged on the front surface of the top plate.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, through the arrangement of the connecting mechanism, when the first baffle plate and the second baffle plate are connected, the sliding plate connected with one side of the top plate in the connecting mechanism through the connecting plate can slide in the first mounting groove and the second mounting groove, so that the first baffle plate and the second baffle plate can be connected, and meanwhile, the spring effect arranged in the fixing rod is utilized, so that the first sealing gasket and the second sealing gasket can play a good sealing role on the connecting part of the first baffle plate and the second baffle plate, thereby preventing the water leakage phenomenon and further causing the soft road foundation phenomenon.

2. The utility model can play a good role in protecting the first baffle plate and the second baffle plate through the arrangement of the anti-scouring mechanism, and the anti-scouring mechanism consists of the first anti-scouring plate and the second anti-scouring plate, and meanwhile, when the anti-scouring mechanism is installed, the bayonet lock arranged on the rear surface of the first anti-scouring plate is embedded into the clamping groove and then is locked by the fastening bolt, so that the first anti-scouring plate and the second anti-scouring plate can be installed, thereby the first baffle plate and the second baffle plate are prevented from being directly scoured by water in a ditch by utilizing the first anti-scouring plate and the second anti-scouring plate, and the first baffle plate and the second baffle plate are damaged, so that the protection on the inner side of the ditch for the design and the construction of hydraulic engineering is affected.

Drawings

Fig. 1 is a schematic structural view of a hydraulic engineering design construction waterproof structure;

fig. 2 is a schematic structural view of a connection mechanism in a waterproof construction structure for hydraulic engineering design;

fig. 3 is a schematic structural view of a fixing rod in a waterproof construction structure of hydraulic engineering design;

fig. 4 is a schematic structural view of an anti-scouring mechanism in a waterproof structure for hydraulic engineering design construction.

In the figure: 1. a first baffle; 11. a first mounting groove; 2. a second baffle; 21. a second mounting groove; 3. an anti-scour mechanism; 31. a first anti-scour plate; 32. a second anti-scour plate; 33. an anti-corrosion coating; 34. a viscose coating; 35. a bayonet lock; 36. a clamping groove; 37. a fastening bolt; 371. a first fixing hole; 372. a second fixing hole; 4. a stabilizing rod; 5. a connecting mechanism; 51. a slide plate; 511. a first gasket; 52. a connecting plate; 53. a top plate; 531. a second gasket; 54. a fixing plate; 541. a mounting plate; 55. a fixed rod; 551. a spring; 56. and (5) connecting a rod.

Detailed Description

Referring to fig. 1 to 4, in an embodiment of the present utility model, a waterproof construction structure for hydraulic engineering design includes a first baffle 1 and a second baffle 2 disposed at one side of the first baffle 1, wherein the lower surfaces of the first baffle 1 and the second baffle 2 are respectively provided with a stabilizing rod 4, the bottom ends of the stabilizing rods 4 are tapered, and the front surfaces of the first baffle 1 and the second baffle 2 are respectively clamped with an anti-scouring mechanism 3; the arrangement utilizes the anti-scouring mechanism 3 to play a good role in protecting the first baffle plate 1 and the second baffle plate 2, so that the first baffle plate 1 and the second baffle plate 2 are prevented from being damaged due to scouring of water flow, and further protection of a ditch is affected;

the anti-scouring mechanism 3 comprises a first anti-scouring plate 31 arranged on the front surfaces of the first baffle plate 1 and the second baffle plate 2, the front surface of the first anti-scouring plate 31 is provided with a second anti-scouring plate 32, and the front surface of the second anti-scouring plate 32 is coated with an anti-corrosion coating 33; the first baffle plate 1 and the second baffle plate 2 can be protected by the first anti-scouring plate 31 and the second anti-scouring plate 32;

the rear surface symmetry of first baffle 1 has seted up first mounting groove 11, the rear surface symmetry of second baffle 2 has seted up second mounting groove 21, the inside of first mounting groove 11 and second mounting groove 21 is provided with coupling mechanism 5, coupling mechanism 5 is including the slide 51 of slidable mounting in first mounting groove 11 and second mounting groove 21 inside, the rear surface mounting of slide 51 has connecting plate 52, the rear surface of connecting plate 52 is provided with roof 53, this setting utilizes slide 51 in coupling mechanism 5 can be connected first baffle 1 and second baffle 2.

In fig. 4: the rear surface symmetry of first scour protection board 31 is provided with bayonet lock 35, and the draw-in groove 36 with bayonet lock 35 mutual block are all seted up to the front surface of first baffle 1 and second baffle 2, should set up bayonet lock 35 and imbed the inside of draw-in groove 36, can install first scour protection board 31 like this.

In fig. 4: the bilateral symmetry of first baffle 1 and second baffle 2 is provided with fastening bolt 37, first fixed orifices 371 have been seted up to the inside of bayonet lock 35, second fixed orifices 372 have been seted up to the inside of first baffle 1 and second baffle 2 in one side of first fixed orifices 371, fastening bolt 37's terminal runs through inside first fixed orifices 371 and extends to in the second fixed orifices 372 with second fixed orifices 372 threaded connection, this setting utilizes fastening bolt 37 to run through first fixed orifices 371 and second fixed orifices 372, can fix bayonet lock 35 in the inside of draw-in groove 36 like this.

In fig. 4: an adhesive coating 34 is arranged between the first anti-scouring plate 31 and the second anti-scouring plate 32, and the first anti-scouring plate 31 and the second anti-scouring plate 32 are in adhesive connection through the adhesive coating 34, so that the first anti-scouring plate 31 and the second anti-scouring plate 32 can be connected by using the adhesive coating 34, and the anti-scouring performance is improved.

In fig. 2: the rear of roof 53 is provided with fixed plate 54, and the upper surface of fixed plate 54 is provided with mounting panel 541, and mounting panel 541 passes through the upper surface of screw installation at first baffle 1 and second baffle 2, and this setting utilizes the screw to fix mounting panel 541 at the upper surface of first baffle 1 and second baffle 2, and the rear surface of this mounting panel 541 also accessible screw is connected its first baffle 1 and second baffle 2 simultaneously, can guarantee the stability that first baffle 1 and second baffle 2 are connected like this.

In fig. 3: the front surface symmetry of fixed plate 54 is provided with dead lever 55, and the inside of dead lever 55 is provided with spring 551, and the one end of spring 551 is connected with connecting rod 56, and the rear surface at roof 53 is connected to the one end of connecting rod 56, and this setting utilizes the setting of the inside spring 551 that sets up of dead lever 55, can make connecting rod 56 remove to roof 53 position like this, can make first sealed pad 511 and second sealed pad 531 can seal the junction of first baffle 1 and second baffle 2, avoids taking place to leak.

In fig. 3: the sliding plate 51 and the connecting plate 52 are in a T-shaped arrangement, and the front surface of the sliding plate 51 is provided with a first sealing gasket 511, and the front surface of the top plate 53 is provided with a second sealing gasket 531, and the arrangement uses the arrangement of the first sealing gasket 511 and the second sealing gasket 531, so that the sealing effect can be achieved.

The working principle of the utility model is as follows: when the inner side of a canal for hydraulic engineering design construction is protected, a first baffle plate 1 and a second baffle plate 2 used for protection are connected, a sliding plate 51 connected with one side of a top plate 53 through a connecting plate 52 is inserted into a first mounting groove 11 and a second mounting groove 21 which are formed at the connecting position of the first baffle plate 1 and the second baffle plate 2 during connection, a mounting plate 541 is aligned with the upper surfaces of the first baffle plate 1 and the second baffle plate 2 and is locked through screws, and the rear surface of the mounting plate 541 can be connected with the first baffle plate 1 and the second baffle plate 2 through screws, so that the first baffle plate 1 and the second baffle plate 2 can be connected;

the spring 551 arranged in the fixing rod 55 can eject the connecting rod 56 to one side during connection, namely, an acting force is applied to the connecting rod 56, so that the second sealing gasket 531 arranged on the front surface of the top plate 53 is tightly attached to the connection position of the first baffle 1 and the second baffle 2, and meanwhile, the first sealing gasket 511 arranged on the front surface of the sliding plate 51 is tightly attached to the connection position of the first baffle 1 and the second baffle 2, thereby playing a sealing role and avoiding the phenomenon of soft road bed caused by water leakage;

meanwhile, the front surfaces of the first baffle plate 1 and the second baffle plate 2 are clamped with the anti-scouring mechanism 3, namely, the clamping pin 35 arranged on the rear surface of the first anti-scouring plate 31 is embedded into the clamping groove 36, and the tail end of the clamping pin 35 penetrates through the first fixing hole 371 and is embedded into the second fixing hole 372 to be in threaded connection with the second fixing hole 372 through rotating the fastening bolt 37, so that the clamping pin 35 can be fixed in the clamping groove 36, the first anti-scouring plate 31 is installed, meanwhile, the front surface of the first anti-scouring plate 31 is adhered with the second anti-scouring plate 32 through the adhesive coating 34, and therefore the first baffle plate 1 and the second baffle plate 2 are prevented from being directly scoured by water flow in a water channel by the aid of the first anti-scouring plate 31 and the second anti-scouring plate 32, and the first baffle plate 1 and the second baffle plate 2 are damaged, and the inner side protection of the water channel for hydraulic engineering design construction is affected.

The foregoing description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical solution of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The utility model provides a hydraulic engineering design construction waterproof construction, includes first baffle (1) and sets up second baffle (2) in first baffle (1) one side, its characterized in that, the lower surface of first baffle (1) and second baffle (2) all is provided with firm pole (4), the bottom of firm pole (4) is the toper setting, the front surface of first baffle (1) and second baffle (2) all joint has scour protection mechanism (3);

the anti-scouring mechanism (3) comprises a first anti-scouring plate (31) arranged on the front surfaces of the first baffle plate (1) and the second baffle plate (2), a second anti-scouring plate (32) is arranged on the front surface of the first anti-scouring plate (31), and an anti-corrosion coating (33) is coated on the front surface of the second anti-scouring plate (32);

the utility model discloses a novel structure of a motor vehicle, including first baffle (1), second baffle (2), connecting mechanism (5), slide (51) of back surface symmetry of first baffle (1) has been seted up, second mounting groove (21) have been seted up to the back surface symmetry of second baffle (2), the inside of first mounting groove (11) and second mounting groove (21) is provided with connecting mechanism (5), slide (51) inside including slidable mounting at first mounting groove (11) and second mounting groove (21), the back surface mounting of slide (51) has connecting plate (52), the back surface of connecting plate (52) is provided with roof (53).

2. The hydraulic engineering design construction waterproof structure according to claim 1, wherein the rear surface of the first anti-scouring plate (31) is symmetrically provided with clamping pins (35), and the front surfaces of the first baffle plate (1) and the second baffle plate (2) are respectively provided with clamping grooves (36) mutually clamped with the clamping pins (35).

3. The hydraulic engineering design construction waterproof structure according to claim 2, wherein fastening bolts (37) are symmetrically arranged on two sides of the first baffle plate (1) and the second baffle plate (2), a first fixing hole (371) is formed in the clamping pin (35), a second fixing hole (372) is formed in the first baffle plate (1) and the second baffle plate (2) on one side of the first fixing hole (371), and the tail ends of the fastening bolts (37) penetrate through the first fixing hole (371) and extend into the second fixing hole (372) to be in threaded connection with the second fixing hole (372).

4. The hydraulic engineering design construction waterproof structure according to claim 1, wherein an adhesive coating (34) is arranged between the first anti-scouring plate (31) and the second anti-scouring plate (32), and the first anti-scouring plate (31) and the second anti-scouring plate (32) are in adhesive connection through the adhesive coating (34).

5. The hydraulic engineering design construction waterproof structure according to claim 1, wherein a fixing plate (54) is arranged at the rear of the top plate (53), a mounting plate (541) is arranged on the upper surface of the fixing plate (54), and the mounting plate (541) is mounted on the upper surfaces of the first baffle plate (1) and the second baffle plate (2) through screws.

6. The hydraulic engineering design construction waterproof structure according to claim 5, wherein the front surface of the fixing plate (54) is symmetrically provided with a fixing rod (55), a spring (551) is arranged in the fixing rod (55), one end of the spring (551) is connected with a connecting rod (56), and one end of the connecting rod (56) is connected to the rear surface of the top plate (53).

7. The hydraulic engineering design construction waterproof structure according to claim 1, wherein the sliding plate (51) and the connecting plate (52) are in a T-shaped arrangement, a first sealing gasket (511) is arranged on the front surface of the sliding plate (51), and a second sealing gasket (531) is arranged on the front surface of the top plate (53).

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