CN109338990B - Anti-collision guardrail for hydraulic power generation engineering - Google Patents

Abstract

The invention discloses an anti-collision guardrail for a hydraulic power generation project, which structurally comprises an anti-deformation leakage force anti-collision guardrail, a buffer rubber column, a connecting embedded groove, a rubber column positioning rod, a water spray opening, a fixing pasting plate and an anti-rust fixing bolt, wherein the buffer rubber column is embedded and installed inside the anti-deformation leakage force anti-collision guardrail and connected in a sealing mode, the connecting embedded groove is arranged at the upper end of the rubber column positioning rod and is of an integrated structure, and the rubber column positioning rod penetrates through the center of the anti-collision guardrail and is connected in a fixed installation mode. The anti-collision guardrail device is provided with the heat absorption structure for preventing the anti-collision guardrail from deforming when the anti-collision guardrail device is at high temperature in summer, the water level is low and no rainfall exists, so that the influence on the work of a hydraulic power generation project is effectively prevented, and meanwhile, the structure for releasing force on the rubber column positioning rod under the impact action force of water is beneficial to preventing the fixed structure of the rubber column positioning rod from loosening to influence the anti-collision effect of the guardrail.

Description

Anti-collision guardrail for hydraulic power generation engineering

Technical Field

The invention relates to the field of anti-collision guardrails, in particular to an anti-collision guardrail for a hydraulic power generation project.

Background

Around hydraulic power generation engineering, often be equipped with anticollision barrier for resist the impact of water, anticollision barrier inside is equipped with the rubber that cushions usually, carries out the impact force of buffering water. However, such crash barriers currently have the following disadvantages:

1. in the environment of high temperature in summer, the water level is lower and do not have under the rainfall's the condition, because anticollision barrier is made by the metal, anticollision barrier leads to anticollision barrier to produce deformation easily under the insolation of burning sun to cause the influence to hydraulic power generation engineering.

2. Simultaneously, anticollision barrier often receives the huge impact of water, and outside rubber anticollision structure protects the structure of guardrail, but the guardrail is inside to produce easily not hard up to rubber anticollision structure's location structure, influences the protection effect to the guardrail.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the anti-collision guardrail for the hydraulic power generation engineering, so that the problems that in the environment with high temperature in summer, the water level is low and no rainfall exists in the prior art are solved, because the anti-collision guardrail is made of metal, the anti-collision guardrail is easily deformed under the insolation of burning sun, the hydraulic power generation engineering is influenced, meanwhile, the anti-collision guardrail is often greatly impacted by water, an external rubber anti-collision structure protects the structure of the guardrail, but the positioning structure of the rubber anti-collision structure in the guardrail is easily loosened, and the protection effect of the guardrail is influenced.

In order to achieve the purpose, the invention is realized by the following technical scheme:

an anti-collision guardrail for a hydraulic power generation project comprises an anti-deformation leakage force anti-collision guardrail, a buffer rubber column, a linking embedded groove, a rubber column positioning rod, a water spraying port, a fixing pasting plate and an anti-rust fixing bolt, wherein the buffer rubber column is embedded and installed inside the anti-deformation leakage force anti-collision guardrail and connected in a sealing mode, the linking embedded groove is arranged at the upper end of the rubber column positioning rod and is an integrated structure, the rubber column positioning rod penetrates through the center of the anti-collision guardrail and is connected in a fixed installation mode, the rubber column positioning rod penetrates through the axis of the buffer rubber column and is connected in a sealing mode, the water spraying port is arranged at the upper end of the anti-deformation leakage force anti-collision guardrail and is an integrated structure, the fixing pasting plate is arranged on the outer wall of the anti-deformation leakage force anti-collision guardrail and is connected in a welding mode, the anti-rust fixing, prevent deformation power release anticollision barrier and include pressure trigger, the power unit that draws water, the coupling mechanism that draws water, cube water storage mechanism, pneumatic conveying mechanism, installation fixed establishment, striking power release mechanism, pressure trigger adopts the electricity with the power unit that draws water to be connected, the power unit that draws water is located and is drawn water the coupling mechanism upper end and be connected through the welded mode, cube water storage mechanism locates the power unit upper end that draws water and is connected through fixed mounting's mode, pneumatic conveying mechanism locates cube water storage mechanism upper end and is connected through transmission fit's mode, striking power release mechanism locates installation fixed establishment lower extreme and is connected through the welded mode.

As a further scheme of the invention, the pressure trigger comprises a pumping motor controller, a pressure sensor, a fixed connection plate, a seal fixed block and a central connection column, wherein the pumping motor controller is electrically connected with the pressure sensor, the fixed connection plate is arranged at the lower end of the seal fixed block and connected in a fitting manner, the seal fixed block is arranged at the lower end of the central connection column and connected in a welding manner, the pressure sensor is arranged on the positive end surface of the central connection column and connected in a fixed mounting manner, the pumping motor controller is arranged on the positive end surface of the central connection column and connected in a fixed mounting manner, and the pumping motor controller is electrically connected with a pumping power mechanism.

As a further scheme of the invention, the pumping power mechanism comprises a check valve block, a movable connection block, a connection pipeline, a support mounting table, a connection cable, an impeller positioning ring, a pumping motor housing, a rotary impeller and an output rotating shaft, wherein the check valve block is arranged at the upper end of the movable connection block and connected by welding, the movable connection block is arranged at the upper end of the connection pipeline and connected by sliding, the connection pipeline is arranged at the upper end of the pumping motor housing and connected by welding, the connection cable penetrates through the right end of the support mounting table and connected by fixed mounting, the impeller is arranged in the pumping motor housing and connected by welding, the rotary impeller is arranged in the impeller positioning ring and connected by rotating, the output rotating shaft and the impeller positioning ring are positioned on the same axis, the rotating impeller is arranged on the outer ring of the output rotating shaft and connected in a welding mode.

According to a further scheme of the invention, the water pumping connection mechanism comprises a water pumping motor fixing seat, a water pumping head, metal connecting plates, water pumping pipelines and a pipeline positioning plate, wherein the water pumping motor fixing seat is arranged at the upper end of the pipeline positioning plate and connected in a welding mode, the water pumping pipelines penetrate through the center of the pipeline positioning plate to be slightly left and connected in a sealing mode, the water pumping pipelines are arranged at the upper ends of the metal connecting plates and connected in a fixed installation mode, the metal connecting plates are arranged at the upper ends of the water pumping head and connected in a welding mode, and the water pumping motor fixing seat is positioned below the cubic water storage mechanism.

As a further scheme of the invention, the cubic water storage mechanism comprises a pumping motor stop button, a moving pressure rod, a compression spring, a water pressure plate, a positioning baffle plate, a water storage tank body, a fixed attachment block, an atomizing spray head and a water spray pipeline, wherein the pumping motor stop button is arranged right below the moving pressure rod, the moving pressure rod penetrates through the center of the compression spring, the compression spring is arranged at the lower end of the water pressure plate and is connected in a transmission fit manner, the water pressure plate is arranged at the upper end of the moving pressure rod and is connected in a welding manner, the positioning baffle plate is arranged in the water storage tank body and is of an integrated structure, the water pressure plate is arranged in the water storage tank body and adopts transition fit, the water spray pipeline is arranged at the upper end of the water storage tank body and is connected in a sealing manner, the atomizing spray head is arranged at, the fixed sticking block is arranged at the upper end of the water spraying pipeline and is connected in a welding mode.

As a further scheme of the invention, the pneumatic conveying mechanism comprises an extrusion plate, a telescopic rod positioning block, a driving cylinder, a terminal controller and a temperature sensor, wherein the extrusion plate is arranged at the lower end of the telescopic rod and connected in a welding manner, the telescopic rod is arranged at the lower end of the telescopic rod positioning block and connected in a sliding manner, the telescopic rod positioning block is arranged at the lower end of the driving cylinder and connected in a fixed installation manner, and the terminal controller is electrically connected with the temperature sensor.

As a further scheme of the present invention, the mounting and fixing mechanism includes a positioning column fixing ring, a fixing screw, a sealing engagement piece, a vibration guide block, and an engagement top block, the fixing screw penetrates through the right end of the positioning column fixing ring and is connected in a threaded manner, the fixing screw is disposed at the upper end of the sealing engagement piece and is connected in a welded manner, the vibration guide block is embedded and mounted inside the engagement top block and is connected in a fixed mounting manner, and the engagement top block is disposed at the upper end of the impact force-releasing mechanism and is connected in a welded manner.

As a further scheme of the invention, the impact force-releasing mechanism comprises a shock-guiding rod, a hydraulic plate, a liquid cavity and a fixed support frame, wherein the shock-guiding rod is arranged at the upper end of the hydraulic plate and connected in a welding manner, the hydraulic plate is arranged in the liquid cavity and in transition fit, and the liquid cavity is arranged in the fixed support frame and connected in a fixed installation manner.

Advantageous effects of the invention

The invention relates to an anti-collision guardrail for a hydraulic power generation project, which is characterized in that an anti-deformation and force-release anti-collision guardrail is arranged around the hydraulic power generation project, when the water level is low and no rainfall exists at high temperature in summer, a buffer rubber column is not impacted by water due to low water level, the pressure value detected by a pressure sensor in the buffer rubber column is zero, data is transmitted to a pumping motor controller, the pumping motor controller controls a pumping motor in a shell of the pumping motor to start to operate, the pumping motor transmits the rotating mechanical energy to a rotating impeller through an output rotating shaft, the rotating impeller rotates to generate suction force, water is pumped up from the bottom of the anti-deformation and force-release anti-collision guardrail through a pumping head, the water jacks up a one-way valve block through a connecting pipeline to enter a water storage tank body, when the water in the water storage tank body reaches a certain amount, the water generates acting force on a water pressure, the movable pressure rod is contacted with a water pumping motor stop button in the moving down process, the water pumping motor in the water pumping motor shell stops running, the connecting pipeline is sealed by the one-way valve block, the temperature sensor detects the temperature of the anti-deformation leakage force anti-collision guardrail shell, when the temperature is higher than a set value, the temperature sensor transmits data to the terminal controller, the terminal controller controls the driving cylinder to start running, the driving cylinder generates acting force on the telescopic rod, the extrusion plate under the telescopic rod is linked, the extrusion plate extrudes water in the water storage tank body, the water in the water storage tank body is extruded through the atomizing nozzle, the atomizing nozzle atomizes the water, the atomized water is contacted with the shell with high temperature of the anti-deformation leakage force anti-collision guardrail, the water evaporates and takes away heat, the anti-deformation leakage force anti-collision guardrail is prevented from deforming, when the water in the hydraulic power generation project impacts the buffer rubber column, the shock guide block transmits force generated by impact to the shock guide rod, the shock guide rod applies acting force to the hydraulic plate, the hydraulic plate transmits the force to liquid in the liquid cavity, and the liquid relieves the acting force through vibration.

The anti-collision guardrail for the hydraulic power generation project is provided with the heat absorption structure for preventing the anti-collision guardrail from deforming when the water level is low and no rainfall occurs at high temperature in summer, so that the influence on the work of the hydraulic power generation project is effectively prevented, and meanwhile, the structure for releasing force to the rubber column positioning rod under the impact action force of water is provided, so that the anti-collision guardrail is favorably prevented from being affected by the looseness of the fixing structure of the rubber column positioning rod.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

fig. 1 is a schematic structural view of the crash barrier for the hydraulic power generation project.

Fig. 2 is a structural plan view of the anti-deformation force-leakage anti-collision guardrail.

Fig. 3 is a detailed structural schematic diagram of the anti-deformation force-leakage anti-collision guardrail.

Fig. 4 is a working state diagram of the anti-deformation and force-leakage anti-collision guardrail.

In the figure: an anti-deformation and force-releasing anti-collision guardrail-1, a buffer rubber column-2, an engagement embedded groove-3, a rubber column positioning rod-4, a water spray-5, a fixed pasting plate-6, an anti-rust fixing bolt-7, a pressure trigger-11, a water pumping power mechanism-12, a water pumping connection mechanism-13, a cubic water storage mechanism-14, a pneumatic conveying mechanism-15, an installation fixing mechanism-16, an impact force-releasing mechanism-17, a water pumping motor controller-111, a pressure sensor-112, a fixed connection plate-113, a sealed fixing block-114, a central connection column-115, a check valve block-121, a movable connection block-122, a connection pipeline-123, a support installation platform-124, a connection cable-125, an impeller positioning ring-126, a connection pipeline-123, a connection cable-125, a connection, A water pumping motor shell-127, a rotating impeller-128, an output rotating shaft-129, a water pumping motor fixing seat-131, a water pumping head-132, a metal connecting plate-133, a water pumping pipeline-134, a pipeline positioning plate-135, a water pumping motor stop button-141, a moving pressure rod-142, a compression spring-143, a water pressure plate-144, a positioning baffle-145, a water storage tank body-146, a fixing attachment block-147, an atomizing nozzle-148, a water spraying pipeline-149, a squeezing plate-151, a telescopic rod-152, a telescopic rod positioning block-153, a driving cylinder-154, a terminal controller-155, a temperature sensor-156, a positioning column fixing ring-161, a fixing screw-162, a sealing attachment plate-163, a vibration guide block-164, an attachment block-165, a water pumping motor fixing seat-, Shock guide rod-171, hydraulic plate-172, liquid cavity-173 and fixed support-174.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-4, the invention provides a technical scheme of an anti-collision guardrail for a hydraulic power generation project, which comprises the following steps:

an anti-collision guardrail for a hydraulic power generation project comprises an anti-deformation leakage force anti-collision guardrail 1, a buffer rubber column 2, a connecting embedded groove 3, a rubber column positioning rod 4, a water spraying opening 5, a fixing pasting plate 6 and an anti-rust fixing bolt 7, wherein the buffer rubber column 2 is embedded and installed inside the anti-deformation leakage force anti-collision guardrail 1 and connected in a sealing mode, the connecting embedded groove 3 is arranged at the upper end of the rubber column positioning rod 4 and is of an integrated structure, the rubber column positioning rod 4 penetrates through the center of the anti-collision guardrail 1 and is connected in a fixed installation mode, the rubber column positioning rod 4 penetrates through the axis of the buffer rubber column 2 and is connected in a sealing mode, the water spraying opening 5 is arranged at the upper end of the anti-deformation leakage force anti-collision guardrail 1 and is of an integrated structure, the fixing pasting plate 6 is arranged on the outer wall of the anti-deformation leakage force anti, the anti-rust fixing bolt 7 is arranged on the outer wall of the fixing attachment plate 6 and connected in a threaded manner, the anti-deformation and force-leakage anti-collision guardrail 1 comprises a pressure trigger 11, a water pumping power mechanism 12, a water pumping connecting mechanism 13, a cubic water storage mechanism 14, a pneumatic conveying mechanism 15, an installation fixing mechanism 16 and an impact force-leakage mechanism 17, the pressure trigger 11 is electrically connected with the water pumping power mechanism 12, the water pumping power mechanism 12 is arranged at the upper end of the water pumping connecting mechanism 13 and connected in a welding manner, the cubic water storage mechanism 14 is arranged at the upper end of the water pumping power mechanism 12 and connected in a fixed installation manner, the pneumatic conveying mechanism 15 is arranged at the upper end of the cubic water storage mechanism 14 and connected in a transmission matching manner, and the impact force-leakage mechanism 17 is arranged at the lower end of the installation fixing mechanism 16 and connected, pressure trigger 11 is including pumping motor controller 111, pressure sensor 112, fixed linkage board 113, sealed fixed block 114, center connection post 115, pumping motor controller 111 adopts the electricity to be connected with pressure sensor 112, fixed linkage board 113 is located sealed fixed block 114 lower extreme and is connected through the mode of laminating, sealed fixed block 114 is located center connection post 115 lower extreme and is connected through the welded mode, pressure sensor 112 is located center connection post 115 positive terminal surface and is connected through fixed mounting's mode, pumping motor controller 111 adopts the electricity to be connected with pumping power mechanism 12, pumping power mechanism 12 includes check valve block 121, removes linkage block 122, connecting tube 123, support mount table 124, pumping power mechanism 12 is connected, A connecting cable 125, an impeller positioning ring 126, a water pumping motor casing 127, a rotating impeller 128, an output rotating shaft 129, wherein the check valve block 121 is arranged at the upper end of the moving connecting block 122 and connected by welding, the moving connecting block 122 is arranged at the upper end of the connecting pipe 123 and connected by sliding, the connecting pipe 123 is arranged at the upper end of the water pumping motor casing 127 and connected by welding, the connecting cable 125 penetrates through the right end of the support mounting table 124 and is connected by fixed mounting, the impeller positioning ring 126 is arranged inside the water pumping motor casing 127 and is connected by welding, the rotating impeller 128 is arranged inside the impeller positioning ring 126 and is connected by rotating, the output rotating shaft 129 and the impeller positioning ring 126 are positioned on the same axis, the rotating impeller 128 is arranged outside the output rotating shaft 129 and is connected by welding, the water pumping connection mechanism 13 comprises a water pumping motor fixing seat 131, a water pumping head 132, a metal connecting plate 133, a water pumping pipeline 134 and a pipeline positioning plate 135, the water pumping motor fixing seat 131 is arranged at the upper end of the pipeline positioning plate 135 and connected in a welding mode, the water pumping pipeline 134 penetrates through the center of the pipeline positioning plate 135 to the left and is connected in a sealing mode, the water pumping pipeline 134 is arranged at the upper end of the metal connecting plate 133 and is connected in a fixed installation mode, the metal connecting plate 133 is arranged at the upper end of the water pumping head 132 and is connected in a welding mode, the water pumping motor fixing seat 131 is positioned below the cubic water storage mechanism 14, the cubic water storage mechanism 14 comprises a water pumping motor stop button 141, a movable pressing rod 142, a compression spring 143, a water pressure plate 144, a positioning baffle 145, a water storage tank body 146, a fixed sticking block 147, the water pumping motor stop button 141 is arranged right below the movable pressing rod 142, the movable pressing rod 142 penetrates through the center of a compression spring 143, the compression spring 143 is arranged at the lower end of a water pressing plate 144 and is connected in a transmission fit manner, the water pressing plate 144 is arranged at the upper end of the movable pressing rod 142 and is connected in a welding manner, the positioning baffle 145 is arranged inside a water storage box 146 and is of an integrated structure, the water pressing plate 144 is arranged inside the water storage box 146 and is in transition fit, a water spraying pipeline 149 is arranged at the upper end of the water storage box 146 and is connected in a sealing manner, an atomizing nozzle 148 is arranged at the upper end of a fixed patch 147 and is connected in a fixed installation manner, the fixed patch 147 is arranged at the upper end of the water spraying pipeline 149 and is connected in a welding manner, and the pneumatic conveying mechanism 15 comprises an extrusion plate 151, the telescopic rod positioning block 153, the driving cylinder 154, the terminal controller 155, and the temperature sensor 156, the extrusion plate 151 is disposed at the lower end of the telescopic rod 152 and connected by welding, the telescopic rod 152 is disposed at the lower end of the telescopic rod positioning block 153 and connected by sliding, the telescopic rod positioning block 153 is disposed at the lower end of the driving cylinder 154 and connected by fixed installation, the terminal controller 155 is electrically connected to the temperature sensor 156, the mounting and fixing mechanism 16 includes a positioning post fixing ring 161, a fixing screw 162, a sealing joint sheet 163, a vibration guide block 164, and a joint top block 165, the fixing screw 162 penetrates through the right end of the positioning post fixing ring 161 and connected by screw threads, the fixing screw 162 is disposed at the upper end of the sealing joint sheet 163 and connected by welding, the vibration guide block 164 is embedded and mounted inside the joint top block 165 and connected by fixed installation, the linking top block 165 is arranged at the upper end of the impact force-releasing mechanism 17 and connected in a welding manner, the impact force-releasing mechanism 17 comprises a shock-guiding rod 171, a hydraulic plate 172, a liquid cavity 173 and a fixed support frame 174, the shock-guiding rod 171 is arranged at the upper end of the hydraulic plate 172 and connected in a welding manner, the hydraulic plate 172 is arranged inside the liquid cavity 173 and in transition fit, and the liquid cavity 173 is arranged inside the fixed support frame 174 and connected in a fixed mounting manner.

The invention relates to an anti-collision guardrail for a hydraulic power generation project, which has the working principle that: the anti-deformation and force-release anti-collision guardrail 1 is arranged around a hydraulic power generation project, when the water level is low and there is no rainfall at high temperature in summer, the buffer rubber column 2 is not impacted by water due to low water level, the pressure value detected by the pressure sensor 112 in the buffer rubber column 2 is zero, data is transmitted to the pumping motor controller 111, the pumping motor controller 111 controls the pumping motor in the pumping motor shell 127 to start to operate, the pumping motor transmits the rotating mechanical energy to the rotating impeller 128 through the output rotating shaft 129, the rotating impeller 128 rotates to generate suction force, water is pumped up from the bottom of the anti-deformation and force-release anti-collision guardrail 1 through the pumping head 132, the water jacks up the check valve block 121 through the connecting pipeline 123 to enter the water storage tank 146, when the water in the water storage tank 146 reaches a certain amount, the water generates acting force on the water pressure plate 144, so that the water pressure plate 144 drives the connected moving pressure rod 142 to move down, the movable pressure lever 142 contacts with the pumping motor stop button 141 in the downward moving process, the pumping motor in the pumping motor shell 127 stops running, the connecting pipeline 123 is sealed by the check valve block 121, the temperature sensor 156 detects the temperature of the shell of the anti-deformation and anti-leakage anti-collision guardrail 1, when the temperature is higher than a set value, the temperature sensor 156 transmits data to the terminal controller 155, the terminal controller 155 controls the driving cylinder 154 to start running, the driving cylinder 154 generates acting force on the telescopic rod 152, the extrusion plate 151 below the telescopic rod 152 is linked, the extrusion plate 151 extrudes water in the water storage tank body 146, the water in the water storage tank body 146 is extruded through the atomization nozzle 148, the atomization nozzle 148 atomizes the water, the atomized water contacts with the shell with the high temperature of the anti-deformation and anti-leakage anti-collision guardrail 1, the water evaporates and takes away heat, so as to prevent the anti-deformation and anti-leakage anti-collision guardrail 1 from deforming, when water in the hydraulic power generation engineering collides the cushion rubber column 2, the shock guide block 164 transmits the force generated by the collision to the shock guide rod 171, the shock guide rod 171 applies the acting force to the hydraulic plate 172, the hydraulic plate 172 transmits the force to the liquid in the liquid cavity 173, and the liquid relieves the acting force through the vibration.

The invention solves the problems that in the high-temperature environment in summer, the water level is low and no rainfall exists in the prior art, as the anti-collision guardrail is made of metal, the anti-collision guardrail is easy to deform under the insolation of burning sun, thereby influencing the hydraulic power generation project, and meanwhile, the anti-collision guardrail is often greatly impacted by water, the external rubber anti-collision structure protects the guardrail structure, but the positioning structure of the rubber anti-collision structure in the guardrail is easy to loosen, thereby influencing the protection effect of the guardrail, the invention adopts the mutual combination of the components, is provided with the heat absorption structure for preventing the anti-collision guardrail from deforming when the water level is low and no rainfall exists at high temperature in summer, thereby effectively preventing the influence on the work of the hydraulic power generation project, and is provided with the structure for discharging the rubber column positioning rod under the impact action force of water, the fixing structure of the rubber column positioning rod is prevented from loosening, and the anti-collision effect of the guardrail is influenced.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

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

Claims (7)

1. An anti-collision guardrail for a hydraulic power generation project comprises an anti-deformation leakage force anti-collision guardrail (1), a buffer rubber column (2), a linking embedded groove (3), a rubber column positioning rod (4), a water spray opening (5), a fixing pasting plate (6) and an anti-rust fixing bolt (7), wherein the buffer rubber column (2) is embedded and installed inside the anti-deformation leakage force anti-collision guardrail (1) and is connected in a sealing mode, the linking embedded groove (3) is arranged at the upper end of the rubber column positioning rod (4) and is of an integrated structure, the rubber column positioning rod (4) penetrates through the center of the anti-collision guardrail (1) and is connected in a fixed installation mode, the rubber column positioning rod (4) penetrates through the axis of the buffer rubber column (2) and is connected in a sealing mode, the water spray opening (5) is arranged at the upper end of the anti-deformation leakage force anti-collision guardrail (1) and is of, fixed flitch (6) are located and are prevented deformation exorcise anticollision barrier (1) outer wall and are connected through the welded mode, rust-resistant fixing bolt (7) are located fixed flitch (6) outer wall and are connected its characterized in that through the mode of screw thread:

the anti-deformation force-release anti-collision guardrail (1) comprises a pressure trigger (11), a water pumping power mechanism (12), a water pumping connecting mechanism (13), a cubic water storage mechanism (14), a pneumatic conveying mechanism (15), an installation fixing mechanism (16) and an impact force-release mechanism (17);

the pressure trigger (11) is electrically connected with a water pumping power mechanism (12), the water pumping power mechanism (12) is arranged at the upper end of a water pumping connecting mechanism (13) and is connected in a welding mode, the cubic water storage mechanism (14) is arranged at the upper end of the water pumping power mechanism (12) and is connected in a fixed mounting mode, the pneumatic conveying mechanism (15) is arranged at the upper end of the cubic water storage mechanism (14) and is connected in a transmission matching mode, and the impact force releasing mechanism (17) is arranged at the lower end of a mounting and fixing mechanism (16) and is connected in a welding mode;

the pressure trigger (11) comprises a water pumping motor controller (111), a pressure sensor (112), a fixed connection plate (113), a sealing fixed block (114) and a central connecting column (115), the water pumping motor controller (111) is electrically connected with the pressure sensor (112), the fixed connection plates (113) are arranged at the lower ends of the sealing fixed blocks (114) and are connected in a fitting mode, the sealing fixed block (114) is arranged at the lower end of the central connecting column (115) and is connected with the central connecting column in a welding way, the pressure sensor (112) is arranged on the positive end face of the central connecting column (115) and is connected in a fixed mounting way, the water pumping motor controller (111) is arranged on the positive end face of the central connecting column (115) and is connected with the central connecting column in a fixed mounting way, the water pumping motor controller (111) is electrically connected with the water pumping power mechanism (12).

2. The anti-collision guardrail for the hydraulic power generation engineering according to claim 1, characterized in that: the water pumping power mechanism (12) comprises a check valve block (121), a movable connection block (122), a connecting pipeline (123), a support mounting table (124), a connecting cable (125), an impeller positioning ring (126), a water pumping motor shell (127), a rotating impeller (128) and an output rotating shaft (129), wherein the check valve block (121) is arranged at the upper end of the movable connection block (122) and is connected with the movable connection block in a welding mode, the movable connection block (122) is arranged at the upper end of the connecting pipeline (123) and is connected with the movable connection block in a sliding mode, the connecting pipeline (123) is arranged at the upper end of the water pumping motor shell (127) and is connected with the movable connection block in a welding mode, the connecting cable (125) penetrates through the right end of the support mounting table (124) and is connected with the movable connection block in a fixed mounting mode, the impeller positioning ring (126) is arranged inside the water pumping motor shell (, the rotating impeller (128) is arranged inside the impeller positioning ring (126) and connected in a rotating mode, the output rotating shaft (129) and the impeller positioning ring (126) are located on the same axis, and the rotating impeller (128) is arranged on the outer ring of the output rotating shaft (129) and connected in a welding mode.

3. The anti-collision guardrail for the hydraulic power generation engineering according to claim 1, characterized in that: the water pumping connection mechanism (13) comprises a water pumping motor fixing seat (131), a water pumping head (132), a metal connecting plate (133), a water pumping pipeline (134) and a pipeline positioning plate (135), the upper end of the pipeline positioning plate (135) is arranged on the water pumping motor fixing seat (131) and connected in a welding mode, the water pumping pipeline (134) runs through the pipeline positioning plate (135) to be deviated to the left in the center and is connected in a sealing mode, the water pumping pipeline (134) is arranged at the upper end of the metal connecting plate (133) and connected in a fixed mounting mode, the upper end of the water pumping head (132) is arranged on the metal connecting plate (133) and connected in a welding mode, and the water pumping motor fixing seat (131) is located below the cubic water storage mechanism (14).

4. The anti-collision guardrail for the hydraulic power generation engineering according to claim 1, characterized in that: the cubic water storage mechanism (14) comprises a pumping motor stop button (141), a movable pressure rod (142), a compression spring (143), a water pressure plate (144), a positioning baffle plate (145), a water storage tank body (146), a fixed attachment block (147), an atomizing spray head (148) and a water spray pipeline (149), wherein the pumping motor stop button (141) is arranged under the movable pressure rod (142), the movable pressure rod (142) penetrates through the center of the compression spring (143), the compression spring (143) is arranged at the lower end of the water pressure plate (144) and is connected in a transmission fit manner, the water pressure plate (144) is arranged at the upper end of the movable pressure rod (142) and is connected in a welding manner, the positioning baffle plate (145) is arranged inside the water storage tank body (146) and is of an integrated structure, and the water pressure plate (144) is arranged inside the water storage tank body (146) and is in transition fit, the water spraying pipeline (149) is arranged at the upper end of the water storage box body (146) and connected in a sealing mode, the atomizing nozzle (148) is arranged at the upper end of the fixed patch (147) and connected in a fixed mounting mode, and the fixed patch (147) is arranged at the upper end of the water spraying pipeline (149) and connected in a welding mode.

5. The anti-collision guardrail for the hydraulic power generation engineering according to claim 1, characterized in that: pneumatic conveying mechanism (15) are including stripper plate (151), telescopic link (152), telescopic link locating piece (153), drive actuating cylinder (154), terminal controller (155), temperature sensor (156), stripper plate (151) are located telescopic link (152) lower extreme and are connected through the welded mode, telescopic link (152) are located telescopic link locating piece (153) lower extreme and are connected through gliding mode, drive actuating cylinder (154) lower extreme and be connected through fixed mounting's mode is located in telescopic link locating piece (153), terminal controller (155) adopt the electricity to be connected with temperature sensor (156).

6. The anti-collision guardrail for the hydraulic power generation engineering according to claim 1, characterized in that: installation fixed establishment (16) include fixed ring of reference column (161), set screw (162), sealed link piece (163), lead and shake piece (164), link up kicking block (165), set screw (162) run through in fixed ring of reference column (161) right-hand member and be connected through the mode of screw thread, set screw (162) are located sealed link piece (163) upper end and are connected through the welded mode, lead shake piece (164) embedding and install inside and be connected through fixed mounting's mode linking in linking kicking block (165), it leaks power mechanism (17) upper end and is connected through the welded mode to link up kicking block (165) locating the striking.

7. The anti-collision guardrail for the hydraulic power generation engineering according to claim 1, characterized in that: the impact force relieving mechanism (17) comprises a shock guide rod (171), a hydraulic plate (172), a liquid cavity (173) and a fixed support frame (174), wherein the shock guide rod (171) is arranged at the upper end of the hydraulic plate (172) and connected in a welding mode, the hydraulic plate (172) is arranged inside the liquid cavity (173) and in transition fit, and the liquid cavity (173) is arranged inside the fixed support frame (174) and connected in a fixed mounting mode.

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