CN114411628B

CN114411628B - Reservoir removes dangerous reinforced structure

Info

Publication number: CN114411628B
Application number: CN202210083290.5A
Authority: CN
Inventors: 徐志国; 徐先刚; 徐秀芬; 徐文林; 张群英; 徐莺
Original assignee: Wangshui County Hydroelectric Construction And Installation Co ltd
Current assignee: Wangshui County Hydroelectric Construction And Installation Co ltd
Priority date: 2022-01-25
Filing date: 2022-01-25
Publication date: 2022-08-16
Anticipated expiration: 2042-01-25
Also published as: CN114411628A

Abstract

The invention discloses a reservoir danger removing and reinforcing structure which comprises a dam body and a reinforcing plate arranged on the inclined surface of the dam body, wherein the bottom of the inclined surface of the dam body is fixedly connected with a transverse positioning piece, the top surface of the transverse positioning piece is uniformly provided with a plurality of vertical positioning pieces, the vertical positioning pieces are fixed on the inclined surface of the dam body, the vertical positioning pieces are provided with two guide grooves, the guide grooves are communicated with two end surfaces of the vertical positioning pieces, the two guide grooves are respectively arranged on two side surfaces, far away from each other, of the vertical positioning pieces, and two sides of the reinforcing plate are respectively inserted into guide grooves, close to each other, of the two adjacent vertical positioning pieces. The method has the advantages of reducing the difficulty of constructing the reservoir slope danger removing and reinforcing structure and reducing the danger effect of the construction process of workers.

Description

Reservoir removes dangerous reinforced structure

Technical Field

The invention relates to the field of hydraulic engineering, in particular to a reservoir danger removing and reinforcing structure.

Background

The reservoir is an important component in the construction of a water conservancy system and has positive effects on flood control, urban and rural water supply and aquaculture. The dam is usually arranged around the reservoir, and in order to reduce the erosion of the water body of the reservoir to the upstream face of the dam and improve the stability of the structure of the dam, reinforcing plates are usually paved on the upstream face of the dam. Meanwhile, in the construction process of a warehouse danger removal reinforcing structure, a hoisting machine is often used, and in order to reduce the possibility that the lifting hook is accidentally separated from a hoisted object, the lifting hook for hoisting generally adopts a lifting hook capable of closing the opening of the lifting hook.

Chinese utility model patent with publication number CN213061913U in the related art discloses a reservoir removes dangerous reinforced structure, including inserting the inside dead lever of dam body, fixed plate and being used for carrying out the gusset plate that consolidates to the dam body, fixed plate fixed connection is in the one end of dead lever, and gusset plate fixed connection is in the one side that the fixed plate deviates from the dead lever.

Aiming at the related technology, when the reservoir slope danger removing and reinforcing structure is built, workers need to put the fixing plates one by one and fix the fixing plates on the inclined surface of the dam body, so that the workers need to construct on the inclined surface of the dam body all the time, the difficulty of building the reservoir slope danger removing and reinforcing structure is increased, and the danger of the workers in the construction process is improved.

Disclosure of Invention

In order to reduce the degree of difficulty of building a reservoir slope danger removing and reinforcing structure and reduce the danger of workers in the construction process, the application provides a reservoir danger removing and reinforcing structure.

The application provides a reservoir removes dangerous reinforced structure adopts following technical scheme:

the utility model provides a reservoir removes dangerous reinforced structure, includes the dam body and sets up the gusset plate on the dam body inclined plane, the horizontal setting element of bottom fixedly connected with on the inclined plane of dam body, evenly be provided with the vertical setting element of a plurality of on the top surface of horizontal setting element, vertical setting element is fixed in on the inclined plane of dam body, two guide ways have been seted up on the vertical setting element, the guide way communicate in two terminal surfaces of vertical setting element, two the guide way is seted up respectively on two sides that vertical setting element kept away from each other, the both sides of gusset plate are inserted respectively and are located adjacent two be close to each other on the vertical setting element in the guide way.

By adopting the technical scheme, the transverse positioning piece is fixed at the bottom of the inclined plane of the dam body, the vertical positioning piece is arranged on the transverse positioning piece, the vertical positioning piece is fixed on the inclined plane of the dam body, the guide groove is communicated with the end face of the vertical positioning piece, after the worker installs the transverse positioning piece and the vertical positioning piece on the inclined plane of the dam body, the worker can insert the two sides of the reinforcing plate into the guide grooves which are close to each other on the two adjacent vertical positioning pieces through a hoisting mode on the top surface of the dam body, under the action of gravity, the reinforcing plates slide in the guide grooves until the first reinforcing plate is abutted against the transverse positioning piece, and similarly, the second reinforcing plate is abutted against the first reinforcing plate, by analogy, the working time of workers on the inclined plane of the dam body is reduced, the difficulty of constructing the reservoir slope danger eliminating and reinforcing structure is reduced, and therefore the danger of the workers in the construction process is reduced.

Preferably, the gusset plate is kept away from be provided with movable lug on the side on dam body inclined plane, movable lug include fixed connection in vertical pole, the fixed connection on the gusset plate in the last transverse bar of vertical pole with slide set up in movable rod on the gusset plate, be provided with in the gusset plate and hold the chamber, the bottom of movable rod is located hold the intracavity, the top of movable rod is contradicted on the transverse bar, it is provided with for to hold the intracavity the movable rod provides and is close to the thrust mechanism of transverse bar direction thrust, it still is provided with to hold the intracavity the gusset plate will when arriving the mounted position the movable rod is to keeping away from the tensile mechanism of transverse bar direction pulling.

Through adopting above-mentioned technical scheme, under thrust mechanism's thrust effect, the top of movable rod is contradicted on the transverse bar, thereby at the hoist and mount in-process, the lifting hook can be detained and make the gusset plate slowly move down on the activity lug, when the gusset plate reachs the mounted position, pull mechanism pulls the movable rod to the direction of keeping away from the transverse bar, make the breach appear between transverse bar and the gusset plate, thereby the lifting hook breaks away from in the activity lug when the gusset plate reachs the mounted position, the process of unblock on the inclined plane of staff to the dam body will get in touch has been reduced, the work efficiency and the security of work progress have been improved.

Preferably, the side surface of the reinforcing plate is provided with a butt joint groove, the transverse positioning piece and the reinforcing plate are fixedly connected with butt joint blocks, the butt-joint block on the reinforcing plate is fixedly connected to the side of the reinforcing plate far away from the butt-joint groove, the tension mechanism comprises a power supply fixedly connected to the inner wall of the accommodating cavity, an attraction block fixedly connected to the bottom of the movable rod, an electromagnetic block capable of attracting the attraction block to move towards the direction close to the dam body, and a trigger assembly, the power supply is electrically connected with one end of the coil in the electromagnetic block, the other end of the coil in the electromagnetic block is electrically connected with the trigger component, the trigger assembly is electrically connected with the power supply and is used for conducting an electric circuit of the electromagnetic block when the butt joint block is inserted into the butt joint groove of the reinforcing plate butted with the butt joint block.

Through adopting above-mentioned technical scheme, when the butt joint piece inserts the butt joint groove of locating the gusset plate that docks mutually with the butt joint piece, trigger the subassembly and can switch on the electric circuit of electromagnetism piece, make the electromagnetism piece can attract the piece to the direction that is close to the dam body to drive the movable rod and slide to the direction that is close to the dam body, the couple of being convenient for breaks away from in the activity lug when the gusset plate reachs the mounted position.

Preferably, the trigger assembly includes a fixed plate fixedly connected to the inner wall of the accommodating cavity, a fixed contact piece fixedly connected to one side of the fixed plate close to the abutting groove, a trigger rod slidably disposed on the reinforcing plate, and a movable contact piece capable of abutting against the fixed contact piece, the trigger rod penetrates through the reinforcing plate from the side wall of the abutting groove to the accommodating cavity, the movable contact piece is fixedly connected to the end portion of the trigger rod located in the accommodating cavity, one end of the trigger rod away from the movable contact piece is located in the abutting groove, the fixed contact piece is electrically connected to one end of the coil in the electromagnetic block, and the movable contact piece is electrically connected to the power supply.

Through adopting above-mentioned technical scheme, when the butt joint piece inserts the butt joint groove of locating the gusset plate that dock with the butt joint piece, the butt joint piece is kept away from the one end of movable contact piece with the trigger bar and is inconsistent, makes the trigger bar drive the movable contact piece and moves until the movable contact piece contradicts on the fixed contact piece to make the electric circuit closure of electromagnetic block, and then when making the gusset plate be located the mounted position, the electromagnetic block drives the movable rod and slides to the direction that is close to the dam body.

Preferably, one end of the trigger rod, which is far away from the movable contact piece, is fixedly connected with a baffle plate, a return spring is sleeved on the trigger rod, one end of the return spring abuts against the side surface, which is close to the movable contact piece, of the baffle plate, and the other end of the return spring abuts against the side wall of the butt joint groove.

Through adopting above-mentioned technical scheme, baffle fixed connection keeps away from the one end of movable contact spring in the trigger bar, and reset spring's one end is contradicted on the side that the baffle is close to the movable contact spring, and reset spring's the other end is contradicted on the lateral wall of butt joint groove to the messenger hinders the trigger bar and slides to the direction that is close to the fixed contact piece at the hoist and mount in-process, has reduced the movable lug and has lifted by crane the in-process unexpected possibility of opening.

Preferably, the movable rod is fixedly connected with a connecting plate, the connecting plate is located in the accommodating cavity, the thrust mechanism comprises a thrust spring, one end of the thrust spring is fixed to the connecting plate, the connecting plate is close to the side face of the dam body, and the other end of the thrust spring is fixedly connected to the inner wall of the accommodating cavity.

Through adopting above-mentioned technical scheme, thrust spring provides the thrust of keeping away from the dam body direction for the connecting plate, makes the movable rod top can contradict on the transverse bar.

Preferably, a reinforcing sleeve is fixedly connected to the transverse rod, and one end of the movable rod, which is close to the transverse rod, is inserted into the reinforcing sleeve.

Through adopting above-mentioned technical scheme, strengthening sleeve fixed connection is on the transverse bar, and the movable rod is inserted and is located in the strengthening sleeve to reduce the movable rod and lifted by crane the in-process and taken place crooked possibility, improved the intensity of activity lug.

Preferably, the transverse positioning piece and the vertical positioning piece are both provided with fixing nails in a penetrating manner, and one ends of the fixing nails are inserted into the dam body.

Through adopting above-mentioned technical scheme, the staple wears to locate on horizontal setting element and the vertical setting element, and the one end of staple is inserted and is located in the dam body to fix horizontal setting element and vertical setting element on the inclined plane of dam body.

To sum up, the transverse positioning piece is fixed at the bottom of the inclined surface of the dam body, the vertical positioning piece is arranged on the transverse positioning piece, the vertical positioning piece is fixed on the inclined surface of the dam body, the guide groove is communicated with the end surface of the vertical positioning piece, after the worker installs the transverse positioning piece and the vertical positioning piece on the inclined plane of the dam body, the worker can insert the two sides of the reinforcing plate into the guide grooves which are close to each other on the two adjacent vertical positioning pieces through a hoisting mode on the top surface of the dam body, under the action of gravity, the reinforcing plates slide in the guide grooves until the first reinforcing plate is abutted against the transverse positioning piece, and similarly, the second reinforcing plate is abutted against the first reinforcing plate, by analogy, the working time of workers on the inclined plane of the dam body is reduced, the difficulty of constructing the reservoir slope danger eliminating and reinforcing structure is reduced, and therefore the danger of the workers in the construction process is reduced.

Drawings

Fig. 1 is an overall configuration diagram of a danger eliminating reinforcement structure in an embodiment of the present application.

Fig. 2 is an exploded view of a defeater reinforcement structure.

Fig. 3 is a sectional view of the reinforcement plate.

Fig. 4 is a partially enlarged view of a portion a in fig. 3.

Fig. 5 is a partially enlarged view at B in fig. 3.

Description of reference numerals:

1. a dam body; 2. a transverse positioning member; 3. a vertical positioning member; 31. a guide groove; 4. a reinforcing plate; 41. a movable lifting lug; 411. a vertical rod; 412. a transverse bar; 413. a movable rod; 414. a reinforcing sleeve; 415. a connecting plate; 42. a butt joint block; 43. a thrust mechanism; 431. a thrust spring; 44. a tension mechanism; 441. a power source; 442. an attraction block; 443. an electromagnetic block; 444. a trigger component; 4441. a fixing plate; 4442. a movable contact spring; 4443. a fixed contact piece; 4444. a trigger lever; 4445. a baffle plate; 4446. a return spring; 4447. a limiting block; 45. a butt joint groove; 46. an accommodating chamber; 5. and (5) fixing the nail.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses reservoir removes dangerous reinforced structure. Referring to fig. 1 and 2, the danger removing reinforcement structure includes a dam body 1, a transverse positioning member 2, a vertical positioning member 3, a reinforcement plate 4, and fixing nails 5. Horizontal setting 2 levels set up in the bottom on dam body 1 inclined plane, and there is a plurality of vertical setting element 3 on being located the top surface of horizontal setting element 2, and a plurality of vertical setting element 3 is located horizontal setting element 2 and goes up evenly distributed, and vertical setting element 3 is located the top of horizontal setting element 2.

Referring to fig. 1 and 2, the horizontal positioning member 2 and the vertical positioning member 3 are both in a square strip shape, two fixing nails 5 are arranged on each vertical positioning member 3 in a penetrating manner, and the two fixing nails 5 on the vertical positioning member 3 are respectively arranged at two ends of the vertical positioning member 3. The fixing nails 5 are located on the transverse positioning piece 2 and penetrate through the plurality of fixing nails, the fixing nails 5 on the transverse positioning piece 2 correspond to the vertical positioning pieces 3 on the transverse positioning piece 2 one by one, the bottom ends of the fixing nails 5 are inserted into the dam body 1, and the transverse positioning piece 2 and the vertical positioning pieces 3 are fixed on the inclined plane of the dam body 1 through the fixing nails 5.

Referring to fig. 1 and 2, two guide grooves 31 are formed in the vertical positioning member 3, the guide grooves 31 are communicated with two end faces of the vertical positioning member 3, the two guide grooves 31 are respectively formed in two side faces, away from each other, of the vertical positioning member 3, and two sides of the reinforcing plate 4 are respectively inserted into the guide grooves 31, close to each other, of the two adjacent vertical positioning members 3.

Referring to fig. 1 and 3, the reinforcing plate 4 includes a movable lug 41, a docking block 42, a thrust mechanism 43, and a tension mechanism 44. The movable lifting lug 41 is arranged on the side surface far away from the inclined surface of the dam body 1.

Referring to fig. 1 and 4, the movable lifting lug 41 includes a vertical bar 411, a horizontal bar 412, a movable bar 413, and a reinforcing sleeve 414. The vertical rods 411 are fixedly connected to the side face, far away from the inclined plane of the dam body 1, of the reinforcing plate 4, and the length direction of the vertical rods 411 is perpendicular to the side face, far away from the inclined plane of the dam body 1, of the reinforcing plate 4. The transverse rod 412 is fixedly connected to one end of the vertical rod 411 far away from the reinforcing plate 4, the transverse rod 412 is fixedly connected to the side surface of the vertical rod 411, and the length direction of the transverse rod 412 is perpendicular to the length direction of the vertical rod 411.

Referring to fig. 1 and 4, the movable rod 413 is slidably disposed on the reinforcing plate 4, the accommodating cavity 46 is disposed inside the reinforcing plate 4, the bottom end of the movable rod 413 is located in the accommodating cavity 46, a connecting plate 415 is fixedly connected to a side surface of the movable rod 413, the connecting plate 415 is in a ring plate shape, the connecting plate 415 is sleeved on the movable rod 413, the connecting plate 415 is located at an end portion of the movable rod 413 located in the accommodating cavity 46, and a top portion of the movable rod 413 abuts against the transverse rod 412. The reinforcing sleeve 414 is fixedly connected to one end of the transverse rod 412 far away from the vertical rod 411, and one end of the movable rod 413 far away from the inclined surface of the dam 1 is inserted into the reinforcing sleeve 414.

Referring to fig. 1 and 4, the pushing mechanism 43 includes a pushing spring 431, one end of the pushing spring 431 is fixed to the side of the connecting plate 415 close to the dam 1, and the other end of the pushing spring 431 is fixedly connected to the inner wall of the accommodating cavity 46.

Referring to fig. 2 and 4, the reinforcing plate 4 has a side surface provided with a docking slot 45, the docking block 42 is fixedly connected to the transverse positioning member 2 and the reinforcing plate 4, the docking block 42 on the transverse positioning member 2 is fixedly connected to the side surface of the transverse positioning member 2 close to the vertical positioning member 3, the docking block 42 on the reinforcing plate 4 is fixedly connected to the side surface of the reinforcing plate 4 far from the docking slot 45, when the first reinforcing plate 4 is inserted between two adjacent vertical positioning members 3, the butt-joint block 42 on the transverse positioning member 2 is inserted into the butt-joint groove 45 on the first reinforcing plate 4, when the second reinforcing plate 4 is inserted between two adjacent vertical positioning members 3, the butt-joint block 42 on the first reinforcing plate 4 is inserted into the butt-joint groove 45 on the second reinforcing plate 4, and similarly, the butt-joint block 42 on the second reinforcing plate 4 is inserted into the butt-joint groove 45 on the third reinforcing plate 4.

Referring to fig. 3 and 4, the tension mechanism 44 includes a power source 441, an attraction block 442, an electromagnet block 443, and a trigger assembly 444. The trigger assembly 444 includes a fixing plate 4441, a movable contact 4442, a fixed contact 4443, a trigger lever 4444, a barrier 4445, and a return spring 4446. The power source 441 and the electromagnetic block 443 are both fixedly connected to the inner wall of the accommodating chamber 46 away from the transverse rod 412, the attraction block 442 is fixedly connected to the bottom end surface of the movable rod 413, and the electromagnetic block 443 is disposed on the extension line of the movable rod 413 in the longitudinal direction.

Referring to fig. 3 and 4, the fixing plate 4441 is fixedly connected to a side wall of the accommodating cavity 46 far from the transverse rod 412, the fixing plate 4441 is located on one side of the electromagnetic block 443 close to the abutting groove 45, the fixed contact piece 4443 is fixedly connected to a side wall of the fixing plate 4441 close to the abutting groove 45, the trigger lever 4444 is slidably arranged on the reinforcing plate 4, the trigger lever 4444 penetrates through the reinforcing plate 4 from the side wall of the abutting groove 45 into the accommodating cavity 46, and the length direction of the trigger lever 4444 is consistent with the length direction of the vertical positioning piece 3. The movable contact piece 4442 is fixedly connected to an end face of the trigger 4444 located in the accommodating chamber 46, and an end of the trigger 4444 remote from the movable contact piece 4442 is located in the abutting groove 45.

Referring to fig. 4, one pole of the power source 441 is electrically connected to one end of the coil in the electromagnet block 443, the other end of the coil in the electromagnet block 443 is electrically connected to the fixed contact piece 4443, and the movable contact piece 4442 is electrically connected to the other pole of the power source 441.

Referring to fig. 4 and 5, the baffle 4445 is fixedly connected to an end surface of the trigger 4444 far from the movable contact piece 4442, the reset spring 4446 is sleeved on the trigger 4444, one end of the reset spring 4446 abuts against a side surface of the baffle 4445 near the movable contact piece 4442, the other end of the reset spring 4446 abuts against a side wall of the abutting groove 45, a limit block 4447 is fixedly connected to a side surface of the trigger 4444 in the accommodating cavity 46, and when the reset spring 4446 is in an extended state, the limit block 4447 abuts against a side wall of the accommodating cavity 46 near the abutting groove 45.

The implementation principle of the reservoir danger-removing reinforcing structure provided by the embodiment of the application is as follows: the transverse positioning piece 2 is fixed at the bottom of the inclined plane of the dam body 1, the vertical positioning piece 3 is arranged on the transverse positioning piece 2, the vertical positioning piece 3 is fixed on the inclined plane of the dam body 1, the guide grooves 31 are communicated with the end surfaces of the vertical positioning piece 3, when a worker installs the transverse positioning piece 2 and the vertical positioning piece 3 on the inclined plane of the dam body 1, the worker can insert the two sides of the reinforcing plate 4 into the guide grooves 31 which are close to each other on the two adjacent vertical positioning pieces 3 in a lifting mode on the top surface of the dam body 1, under the action of gravity, the reinforcing plate 4 slides in the guide grooves 31 until the first reinforcing plate 4 is abutted against the transverse positioning piece 2, and similarly, the second reinforcing plate 4 is abutted against the first reinforcing plate 4, so as to analogize, the working time of the worker on the inclined plane of the dam body 1 is reduced, and the difficulty in building a slope danger removing reinforcing structure is reduced, thereby reducing the danger of the working personnel during the construction process.

Under the thrust action of the thrust spring 431, the top end of the movable rod 413 is inserted into the reinforcing sleeve 414 and abuts against the transverse rod 412, so that in the hoisting process, the lifting hook can be buckled on the movable lifting lug 41 to enable the reinforcing plate 4 to slowly move downwards, when the reinforcing plate 4 reaches the installation position, an electric circuit of the electromagnetic block 443 is conducted, the electromagnetic block 443 drives the movable rod 413 to be pulled towards the direction far away from the transverse rod 412, a gap is formed between the transverse rod 412 and the reinforcing plate 4, the lifting hook is convenient to separate from the movable lifting lug 41 when the reinforcing plate 4 reaches the installation position, the process that a worker unlocks the hook on the inclined plane of the dam body 1 is reduced, and the working efficiency and the safety of the construction process are improved.

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

1. The utility model provides a reservoir removes dangerous reinforced structure, includes dam body (1) and sets up gusset plate (4) on dam body (1) inclined plane, its characterized in that: the bottom of the inclined plane of the dam body (1) is fixedly connected with a transverse positioning piece (2), the top surface of the transverse positioning piece (2) is uniformly provided with a plurality of vertical positioning pieces (3), the vertical positioning pieces (3) are fixed on the inclined plane of the dam body (1), two guide grooves (31) are formed in the vertical positioning pieces (3), the guide grooves (31) are communicated with two end surfaces of the vertical positioning pieces (3), the two guide grooves (31) are respectively formed in two side surfaces, far away from each other, of the vertical positioning pieces (3), and two sides of the reinforcing plate (4) are respectively inserted into the guide grooves (31), close to each other, of the two adjacent vertical positioning pieces (3); the side surface of the reinforcing plate (4) far away from the inclined surface of the dam body (1) is provided with a movable lifting lug (41), the movable lifting lug (41) comprises a vertical rod (411) fixedly connected to the reinforcing plate (4), a transverse rod (412) fixedly connected to the vertical rod (411) and a movable rod (413) arranged on the reinforcing plate (4) in a sliding manner, an accommodating cavity (46) is arranged in the reinforcing plate (4), the bottom end of the movable rod (413) is positioned in the accommodating cavity (46), the top of the movable rod (413) is abutted against the transverse rod (412), a thrust mechanism (43) which provides thrust for the movable rod (413) in a direction close to the transverse rod (412) is arranged in the accommodating cavity (46), a pulling mechanism (44) which pulls the movable rod (413) in a direction away from the transverse rod (412) when the reinforcing plate (4) reaches the installation position is further arranged in the accommodating cavity (46); the utility model discloses a dam body, including reinforcing plate (4), horizontal setting element (4), reinforcing plate (4), butt joint groove (45) have been seted up on having the side, horizontal setting element (2) with all fixedly connected with butt joint piece (42) on reinforcing plate (4), on reinforcing plate (4) butt joint piece (42) fixed connection in reinforcing plate (4) keep away from on the side of butt joint groove (45), tensile mechanism (44) including fixed connection in power (441) on holding chamber (46) inner wall, fixed connection in attraction piece (442) of movable rod (413) bottom, adsorbable attract piece (442) to be close to the electromagnetism piece (443) and trigger component (444) of dam body (1) direction motion, power (441) with wherein one end electricity of coil is connected in electromagnetism piece (443), the other end of coil in electromagnetism piece (443) with trigger component (444) electricity is connected, the trigger component (444) is electrically connected with the power supply (441), and the trigger component (444) is used for conducting an electric circuit of the electromagnetic block (443) when the butt joint block (42) is inserted into the butt joint groove (45) of the reinforcing plate (4) butted with the butt joint block (42).

2. The danger eliminating reinforcing structure for reservoir of claim 1, wherein: the trigger assembly (444) comprises a fixed plate (4441) fixedly connected to the inner wall of the accommodating cavity (46), a fixed contact piece (4443) fixedly connected to one side of the fixed plate (4441) close to the abutting groove (45), a trigger rod (4444) arranged on the reinforcing plate (4) in a sliding mode and a movable contact piece (4442) capable of abutting against the fixed contact piece (4443), the trigger rod (4444) penetrates through the reinforcing plate (4) from the side wall of the butt joint groove (45) to the accommodating cavity (46), the movable contact piece (4442) is fixedly connected with the end part of the trigger rod (4444) positioned in the accommodating cavity (46), one end of the trigger lever (4444) far away from the movable contact piece (4442) is positioned in the butting groove (45), the fixed contact piece (4443) is electrically connected with one end of a coil in the electromagnetic block (443), and the movable contact piece (4442) is electrically connected with the power supply (441).

3. The danger eliminating reinforcing structure for reservoir of claim 2, wherein: one end, far away from the movable contact piece (4442), of the trigger rod (4444) is fixedly connected with a baffle (4445), a return spring (4446) is sleeved on the trigger rod (4444), one end of the return spring (4446) abuts against the side face, close to the movable contact piece (4442), of the baffle (4445), and the other end of the return spring (4446) abuts against the side wall of the abutting groove (45).

4. The danger eliminating reinforcing structure for reservoir of claim 1, wherein: fixedly connected with connecting plate (415) on movable rod (413), connecting plate (415) are located hold chamber (46), thrust mechanism (43) include thrust spring (431), the one end of thrust spring (431) is fixed in being close to of connecting plate (415) on the side of dam body (1), the other end fixed connection of thrust spring (431) is on holding the inner wall of chamber (46).

5. The danger eliminating reinforcing structure for reservoir of claim 1, wherein: a reinforcing sleeve (414) is fixedly connected to the transverse rod (412), and one end of the movable rod (413) close to the transverse rod (412) is inserted into the reinforcing sleeve (414).

6. The danger eliminating reinforcing structure for reservoir of claim 1, wherein: the dam is characterized in that fixing nails (5) are arranged on the transverse positioning piece (2) and the vertical positioning piece (3) in a penetrating mode, and one ends of the fixing nails (5) are inserted into the dam body (1).