CN212801443U - Hydraulic engineering submergence formula gate - Google Patents

Abstract

The utility model discloses a hydraulic engineering dive formula gate, including gate frame, mount pad and lug, gate frame fixed surface installs the tight wedge that closes, tightly close wedge one side and be provided with and meet the water board, wherein, meet water board fixed surface and install the spring, spring one end is connected with the impact plate. This hydraulic engineering dive formula gate, can form the extrusion to the spring when the impingement plate receives the impact, the spring can offset partly impact force under elastic effect, thereby make the impact force that the water board received wholly diminish, with the safety of water board is met in the guarantee, through rotating the connecting rod during the use, make the connecting rod produce the change at the inside hookup location of pipe, distance between two lugs like this will change, thereby make two lugs can adjust according to the size of hoist, after the impingement plate receives the impact of rivers, the impingement plate can remove along the orbit of the inside spout of support, can not receive the influence of rivers and change the position with the guarantee impingement plate.

Description

Hydraulic engineering submergence formula gate

Technical Field

The utility model relates to a submergence formula gate technical field specifically is a hydraulic engineering submergence formula gate.

Background

The gate is used for closing and opening the control facility of the drainage (discharging) water channel, and is an important component of a hydraulic building, and can be used for intercepting water flow, controlling water level, regulating flow, discharging silt and floating objects and the like.

At present, a related submerged gate can be used in hydraulic engineering, but the front end of the submerged gate used at present is directly contacted with water flow, so that when the water flow is urgent, the overall impact force of the water flow is very large, the gate can deform to a certain extent due to the impact force for a long time, and the overall using effect is influenced.

This improved generation hydraulic engineering dive formula gate, the impact force of rivers can produce the impact with the impingement plate, can form the extrusion to the spring when the impingement plate receives the impact, and the spring can offset partly impact force under elastic effect to make the whole diminishing of impact force that receives of water board, with the safety of guarantee water board.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hydraulic engineering formula gate that submerges to solve present that the above-mentioned background art provided and can use relevant formula gate that submerges in hydraulic engineering, but present used formula gate front end that submerges all is direct and rivers contact, like this when rivers are more urgent, the whole impact force of rivers will be very big, receive such impact force for a long time and can make the gate take place certain deformation, thereby influence holistic result of use's problem.

In order to achieve the above object, the utility model provides a following technical scheme: a submerged gate for hydraulic engineering comprises a gate frame, a mounting seat and a lifting lug, wherein a tightly closed inclined iron is fixedly mounted on the surface of the gate frame, a water-facing plate is arranged on one side of the tightly closed inclined iron, a water-receiving plate is arranged on one side of the tightly closed inclined iron,

a spring is fixedly arranged on the surface of the water-facing plate, one end of the spring is connected with an impact plate, first connecting blocks are fixedly arranged at two ends of the impact plate, a first sliding block is fixedly arranged at one end of each first connecting block, a sliding groove is movably arranged on the outer wall of each first sliding block, a support is fixedly arranged on the outer wall of each sliding groove, a gasket is arranged on one side of each support, and a mounting seat is arranged on the surface of the brake frame;

the mounting seat both sides are run through and are installed the threaded rod, threaded rod one end is connected with the second slider, second slider outer wall is connected with the slide rail, second slider top fixed mounting has the lug, lug one side is run through and is installed the pipe, the pipe internal connection has the connecting rod, connecting rod one end fixedly connected with second connecting block.

Preferably, the water-facing plate surface is provided with an invagination circular groove at a longitudinal midline position, the inner wall of the water-facing plate circular groove is an excircle tangent circle of the largest excircle of the spring, and an elastic telescopic structure is arranged among the water-facing plate, the spring and the impact plate.

Preferably, the number of the brackets is two, the two brackets are symmetrical with each other about a longitudinal midline of the impact plate, one end of each bracket is vertically connected with the water-facing plate, and the minimum longitudinal vertical dimension between the two brackets is matched with the maximum longitudinal vertical dimension of the impact plate.

Preferably, the inside size of the sliding groove is matched with the size of the first sliding block, one end of the first sliding block is vertically connected with the first connecting block, and the first connecting block is of a sliding connection structure through the first sliding block and the sliding groove.

Preferably, the number of the second sliding blocks is two, the two second sliding blocks are symmetrical with each other about a longitudinal midline of the mounting base, the second sliding blocks are of an inverted T-shaped structure, and the outer walls of the two transverse sides of the vertical end of the second sliding blocks are tangent to the inner walls of the two sides of the opening end of the transverse end of the sliding rail.

Preferably, the lifting lugs are arranged in two numbers, the two lifting lugs are parallel to each other, an internal threaded circular pipe is arranged inside the top end of each lifting lug, a connecting rod is arranged inside each circular pipe, and a second connecting block is vertically connected between the two connecting rods.

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

1. this water conservancy project submergence formula gate's the surface fixed mounting that meets the water board has the spring, and spring one end links to each other with the impingement plate, and like this in the use, the impact force of rivers can produce the impact with the impingement plate, can form the extrusion to the spring when the impingement plate receives the impact, and partly impact force can be offset to the spring under elastic effect to the whole diminishing of impact force that makes the board that meets the water, in order to ensure the safety of meeting the water board.

2. The connecting rods are respectively connected to two ends of the second connecting block of the hydraulic engineering submerged gate, the connecting rods are fixed between the two lifting lugs through connection with the round pipe, the connecting positions of the connecting rods inside the round pipe are changed through rotation of the connecting rods during use, and therefore the distance between the two lifting lugs can be changed, and the two lifting lugs can be adjusted according to the size of a lifting appliance.

3. This hydraulic engineering dive formula gate's impact plate both sides are provided with the support respectively, and the impact plate forms between through first connecting block, first slider and spout and the support to be connected, and like this when the impact plate receives the impact back of rivers, the impact plate can remove along the orbit of the inside spout of support to the guarantee impact plate can not receive the influence of rivers and change position.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the internal structure of the mounting base of the present invention;

FIG. 3 is a schematic view of a partial structure of the present invention;

fig. 4 is an enlarged schematic view of the utility model a.

In the figure: 1. a gate frame; 2. tightly closing the wedge; 3. a water-facing plate; 4. a spring; 5. an impact plate; 6. a first connection block; 7. a first slider; 8. a chute; 9. a support; 10. a gasket; 11. a mounting seat; 12. a threaded rod; 13. a second slider; 14. a slide rail; 15. lifting lugs; 16. a circular tube; 17. a connecting rod; 18. and a second connecting block.

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 work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a submerged gate for hydraulic engineering comprises a gate frame 1, a tightly closed inclined iron 2, a water-facing plate 3, a spring 4, an impact plate 5, a first connecting block 6, a first sliding block 7, a sliding groove 8, a support 9, a gasket 10, a mounting seat 11, a threaded rod 12, a second sliding block 13, a sliding rail 14, a lifting lug 15, a circular tube 16, a connecting rod 17 and a second connecting block 18, wherein the tightly closed inclined iron 2 is fixedly mounted on the surface of the gate frame 1, the water-facing plate 3 is arranged on one side of the tightly closed inclined iron 2, an inward circular groove is formed in the longitudinal middle dividing line position of the surface of the water-facing plate 3, the inner wall of the circular groove of the water-facing plate 3 is an excircle circumscribed circle of the maximum excircle of the spring 4, and an elastic telescopic structure is arranged among the water-facing plate 3, the spring 4 and the impact plate 5, when the impact plate 5 is impacted, the impact force of water flow can impact the impact plate 4 can extrude the spring 4, and a part of the impact force can be offset under the elastic, so that the impact force applied to the water-receiving plate 3 is reduced as a whole, wherein,

the water-meeting plate 3 is fixedly provided with a spring 4 on the surface, one end of the spring 4 is connected with an impact plate 5, two ends of the impact plate 5 are fixedly provided with a first connecting block 6, one end of the first connecting block 6 is fixedly provided with a first sliding block 7, the outer wall of the first sliding block 7 is movably provided with a sliding chute 8, the inner size of the sliding chute 8 is matched with the size of the first sliding block 7, one end of the first sliding block 7 is vertically connected with the first connecting block 6, the first connecting block 6 is in a sliding connection structure with the sliding chute 8 through the first sliding block 7, the impact plate 5 is connected with a support 9 through the first connecting block 6, the first sliding block 7 and the sliding chute 8, so that after the impact plate 5 is impacted by water flow, the impact plate 5 can move along the track of the sliding chute 8 inside the support 9, the outer wall of the sliding chute 8 is fixedly provided with two supports 9, the two supports 9 are symmetrical with each other about a longitudinal midline of the impact plate 5, one ends of the supports 9 are vertically connected with the water-facing plate 3, the minimum longitudinal vertical dimension between the two supports 9 is matched with the maximum longitudinal vertical dimension of the impact plate 5, the supports 9 are respectively fixed on two sides of the surface of the water-facing plate 3, then the first connecting blocks 6 at two ends of the impact plate 5 are connected with the first sliding blocks 7 and the sliding grooves 8 in the supports 9, so that the impact plate 5 is installed between the two supports 9, one side of each support 9 is provided with a gasket 10, and the surface of the gate frame 1 is provided with an installation seat 11;

threaded rods 12 are installed on two sides of the installation base 11 in a penetrating mode, one end of each threaded rod 12 is connected with a second sliding block 13, two second sliding blocks 13 are arranged, the two second sliding blocks 13 are symmetrical with each other about a longitudinal midline of the installation base 11, each second sliding block 13 is of an inverted T-shaped structure, outer walls of two transverse sides of a vertical end of each second sliding block 13 are tangent to inner walls of two sides of an opening end of a transverse end of each sliding rail 14, when the threaded rods 12 are loosened in use, when the lifting lugs 15 move, the lifting lugs 15 drive the second sliding blocks 13 to move, the second sliding blocks 13 move along the sliding rails 14, the outer walls of the second sliding blocks 13 are connected with the sliding rails 14, the lifting lugs 15 are fixedly installed at the tops of the second sliding blocks 13, the lifting lugs 15 are arranged in two numbers, the lifting lugs 15 are parallel to each other, a circular-threaded lifting lug 16 is installed, and a second connecting block 18 is vertically connected between the two connecting rods 17, the connecting rods 17 are rotated to change the connecting positions of the connecting rods 17 in the circular tube 16, so that the distance between the two lifting lugs 15 can be changed, the two lifting lugs 15 can be adjusted according to the size of the lifting appliance, the circular tube 16 is installed on one side of each lifting lug 15 in a penetrating mode, the connecting rods 17 are connected in the circular tubes 16, and one end of each connecting rod 17 is fixedly connected with the second connecting block 18.

The working principle is as follows: when the submerged gate of the hydraulic engineering is used, firstly, the spring 4 is fixedly arranged on the surface of the water-facing plate 3, and one end of the spring 4 is connected with the impact plate 5, so that in the using process, the impact force of water flow can impact the impact plate 5, when the impact plate 5 is impacted, the spring 4 can extrude the spring 4, the spring 4 can offset a part of impact force under the elastic action, so that the impact force applied to the water-facing plate 3 is integrally reduced, the safety of the water-facing plate 3 is ensured, two ends of a second connecting block 18 of the gate are respectively connected with a connecting rod 17, the connecting rod 17 is fixed between two lifting lugs 15 through the connection with a circular tube 16, when in use, the connecting rod 17 is rotated, the connecting position of the connecting rod 17 in the circular tube 16 is changed, so that the distance between the two lifting lugs 15 can be changed, and the two lifting lugs 15 can be adjusted according to the size, in addition, the two sides of the impact plate 5 are respectively provided with the bracket 9, and the impact plate 5 is connected with the bracket 9 through the first connecting block 6, the first sliding block 7 and the sliding groove 8, so that after the impact plate 5 is impacted by water flow, the impact plate 5 can move along the track of the sliding groove 8 inside the bracket 9 to ensure that the impact plate 5 cannot be influenced by the water flow to change the position, which is the characteristic of the submersible gate for hydraulic engineering, and the content which is not described in detail in the description belongs to the prior art known by technicians in the field.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a hydraulic engineering dive formula gate, includes gate frame (1), mount pad (11) and lug (15), its characterized in that: the surface of the gate frame (1) is fixedly provided with a tightly closed inclined iron (2), one side of the tightly closed inclined iron (2) is provided with a water-facing plate (3), wherein,

the surface of the water-facing plate (3) is fixedly provided with a spring (4), one end of the spring (4) is connected with an impact plate (5), two ends of the impact plate (5) are fixedly provided with first connecting blocks (6), one end of each first connecting block (6) is fixedly provided with a first sliding block (7), the outer wall of each first sliding block (7) is movably provided with a sliding chute (8), the outer wall of each sliding chute (8) is fixedly provided with a support (9), one side of each support (9) is provided with a gasket (10), and the surface of the brake frame (1) is provided with a mounting seat (11);

threaded rod (12) are installed in the both sides of mount pad (11) through-going, threaded rod (12) one end is connected with second slider (13), second slider (13) outer wall connection has slide rail (14), second slider (13) top fixed mounting has lug (15), lug (15) one side is installed through-going pipe (16), pipe (16) internal connection has connecting rod (17), connecting rod (17) one end fixedly connected with second connecting block (18).

2. A hydraulic engineering submerged gate according to claim 1, wherein: the water-meeting plate is characterized in that an invagination circular groove is formed in the longitudinal midline position of the surface of the water-meeting plate (3), the inner wall of the circular groove of the water-meeting plate (3) is an excircle of the largest excircle of the spring (4), and an elastic telescopic structure is arranged among the water-meeting plate (3), the spring (4) and the impact plate (5).

3. A hydraulic engineering submerged gate according to claim 1, wherein: the two supports (9) are arranged, the two supports (9) are symmetrical with respect to a longitudinal midline of the impact plate (5), one end of each support (9) is vertically connected with the water-meeting plate (3), and the minimum longitudinal vertical dimension between the two supports (9) is matched with the maximum longitudinal vertical dimension of the impact plate (5).

4. A hydraulic engineering submerged gate according to claim 1, wherein: the inside size of spout (8) and first slider (7) size phase-match, and first slider (7) one end links to each other with first connecting block (6) is perpendicular to be sliding connection structure between first connecting block (6) through first slider (7) and spout (8).

5. A hydraulic engineering submerged gate according to claim 1, wherein: the two second sliding blocks (13) are arranged, the two second sliding blocks (13) are symmetrical with each other about a longitudinal midline of the mounting seat (11), the second sliding blocks (13) are of an inverted T-shaped structure, and the outer walls of the two transverse sides of the vertical end of each second sliding block (13) are tangent to the inner walls of the two sides of the opening end of the transverse end of the sliding rail (14).

6. A hydraulic engineering submerged gate according to claim 1, wherein: the lifting lugs (15) are arranged in two numbers, the two lifting lugs (15) are parallel to each other, an internal threaded circular pipe (16) is arranged inside the top end of each lifting lug (15), a connecting rod (17) is arranged inside each circular pipe (16), and a second connecting block (18) is vertically connected between the two connecting rods (17).

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