CN110656625B - Floating type exchange air impact-resistant bumper for protecting periphery of building on water - Google Patents

Abstract

The invention provides a floating exchange air anti-impact bumper for protecting the periphery of an overwater building, which structurally comprises a pressure value supplementing mechanism, a floating exchange air anti-impact device, a weight piece and a water pile, wherein the pressure value supplementing mechanism is fixedly connected inside the water pile in an electric welding mode, the floating exchange air anti-impact device coats the water pile, and the weight piece is fixedly arranged at the bottom of the floating exchange air anti-impact device. Thereby effectively protecting the water pile.

Description

Floating type exchange air impact-resistant bumper for protecting periphery of building on water

Technical Field

The invention belongs to the field of waterborne buildings, and particularly relates to a floating type exchange air impact-resistant bumper for protecting the periphery of a waterborne building.

Background

When a water building is built, piles need to be driven underwater to serve as a supporting foundation, the water piles serve as supports of the water building, the water piles can be soaked in seawater for a long time and bear the impact of the seawater, the water piles are often impacted by objects such as seawater carrying wood heads and the like due to the fact that the water piles are close to the shore, and a sponge layer is generally coated on the outer surface of the water piles for protection.

Based on the above description, the inventor finds that the existing floating exchange air impact bumper for protecting the periphery of the aquatic building mainly has the following defects, such as:

because the water stake of cladding this sponge only can protect the pile body not receive direct impact through its top layer when bearing the striking, and still need to compete rather than the impact force, and the dynamics of shocking resistance of stake is limited to the surface of sponge is when bearing the striking, peels off easily passively, thereby leads to when the water stake bears great impact force, and the sponge is difficult for water stake apportionment impact force, thereby leads to the cracked condition of water stake to take place easily.

Disclosure of Invention

In order to solve the technical problems, the invention provides a floating exchange air impact-resistant bumper for protecting the periphery of an aquatic building, which aims to solve the problems that when the existing water pile coated with sponge bears impact, the pile body is only protected from direct impact through the surface layer of the water pile, the pile body still needs to be confronted with the impact force of the water pile, the impact resistance of a wood pile is limited, and the surface of the sponge is easy to passively peel off when bearing impact, so that when the water pile bears larger impact force, the sponge is difficult to distribute the impact force for the water pile, and the water pile is easy to break.

Aiming at the defects of the prior art, the purpose and the effect of the floating exchange air anti-impact bumper for protecting the periphery of the waterborne building are achieved by the following specific technical means: the floating exchange air impact-resistant bumper structurally comprises a pressure value supplementing mechanism, a floating exchange air impact-resistant device, a weight sheet and a water pile, wherein the pressure value supplementing mechanism is fixedly connected to the inside of the water pile in an electric welding mode, the floating exchange air impact-resistant device covers the water pile, and the weight sheet is fixedly installed at the bottom of the floating exchange air impact-resistant device.

The floating exchange gas impact resistance device comprises a ring cover cylinder, an insertion piece, an air supply hole and a slow-release impact resistance mechanism, wherein the slow-release impact resistance mechanism is installed inside the ring cover cylinder in an embedded mode, the insertion piece is fixedly connected with the back of the ring cover cylinder, the insertion piece is fixedly connected with a weight piece, and the insertion piece is fixedly connected with the weight piece.

Preferably, the slow-release anti-impact mechanism comprises an exchange ring groove, a pair-exchange storage and discharge compression-resistant mechanism, a fixed slow connecting sleeve and a sliding button, the exchange ring groove and the fixed slow connecting sleeve are of an integrated structure, the storage and discharge compression-resistant mechanism is fixedly connected to the outer ring surface of the fixed slow connecting sleeve in an electric welding mode, the sliding button is fixedly installed on the inner surface of the fixed slow connecting sleeve, the sliding button is arranged on the inner surface of each fixed slow connecting sleeve and has certain elasticity, the sliding button is mainly used for balancing the sliding friction coefficient between the fixed slow connecting sleeve and the water pile, when the sliding button slides on the water pile, the sliding button can be smooth and stable, the blocking condition can not occur, and the sliding button can serve as a layer of protection effect when being impacted.

As preferred, to trading to store up and let out resistance to compression mechanism includes reverse injection mechanism, bullet cover, abdominal cavity, pressurization cavity, unloads the power claw, reverse injection mechanism fixed mounting is on the bullet cover, abdominal cavity and bullet cover structure as an organic whole, the inside pressurization cavity that is equipped with of bullet cover, unload the power claw and install inside the pressurization cavity through the mode of embedding, unload the power claw and contact with reverse injection mechanism bottom, to trading to store up and let out resistance to compression mechanism after bearing the striking, unload the power claw and can suppress downwards, strut the pressurization cavity, disperse the impact force simultaneously to the bullet cover can appear locally sunken, and impact power at the in-process rebound impact object that lasts sunken.

As preferred, reverse injection mechanism fills head, connector, solid joint block, air impact suppress mechanism including deriving row pressure chamber, loosing, deriving row pressure chamber and solid joint block structure as an organic whole, loose fill the head and the connector fixed connection is in the same place, air impact suppress mechanism fixed mounting is at solid joint block surface, reverse injection mechanism when one side receives the impact, the opposite side reverse injection mechanism that corresponds with it phase-match can accept the high atmospheric pressure that the inside impact energy of impact side suppressed and derive, gets into in the reverse injection mechanism of opposite side to fill the head through the loosing of opposite side and spray it out.

Preferably, the pressure value supplementing mechanism comprises a shunt joint, a supplementing air pipe and a depth measuring pipe, the shunt joint is fixedly connected with the supplementing air pipe, and the depth measuring pipe is parallel to the supplementing air pipe.

Preferably, the air impact suppressing mechanism comprises an impact opening, an elastic strip, a sealing piece and a covering disc, the inner surface of the covering disc is attached to the impact opening, the elastic strip is installed inside the covering disc in an embedded mode, and the impact opening is fixedly installed on the sealing piece.

Compared with the prior art, the invention has the following advantagesAdvantageous effects：

According to the invention, the floating exchange air impact resisting device is adopted to cover the water pile, the middle position of the floating exchange air impact resisting device can be always positioned between the water surfaces under the assistance of the weight pieces, the air connected between the two exchange air storage and discharge pressure resisting mechanisms can be ejected by the aid of the air impact elastic pressing mechanism on the reverse ejection mechanism through the same conversion between the two exchange air storage and discharge pressure resisting mechanisms in a state of directly bearing impact, so that sufficient reverse vertical acting force is obtained, the impact force can be directly eliminated, the water pile can be influenced to the minimum extent, the water pile belongs to a direct protection pile body, the impact force is eliminated by external counter-shock, the impact force contacted by the wood pile is only impacted by the smaller internal elastic force of the floating exchange air impact resisting device, and the water pile can be effectively protected.

Drawings

Fig. 1 is a schematic structural diagram of a floating exchange air anti-impact bumper for protecting the periphery of an aquatic building.

Fig. 2 is a schematic top sectional view of the floating exchange air impact-resistant device of the floating exchange air impact-resistant bumper for protecting the periphery of the waterborne building.

Fig. 3 is a detailed structural diagram of the interior of the sustained-release and anti-impact mechanism.

Fig. 4 is a detailed structural diagram of the internal part of the exchange, storage, discharge and pressure-resistant mechanism.

Fig. 5 is a detailed structural diagram of the inside of the reverse injection mechanism.

Fig. 6 is a schematic diagram of the detailed structure of the pressure compensating mechanism.

Fig. 7 is a detailed structural diagram of the interior of the air-blast suppressing mechanism.

In the figure: pressure value supplement mechanism-1, floating type exchange gas impact resistance device-2, weight piece-3, water pile-4, ring cover cylinder-21, splicing piece-22, air supply hole-23, slow release impact resistance mechanism-24 exchange ring groove-251, reversed storage and discharge compression resistance mechanism-252, fixed slow connection sleeve-253, slide button-254, reverse injection mechanism-q 1, elastic sleeve-q 2 and abdominal cavity-q 3, the device comprises a pressurizing chamber-q 4, a force-releasing claw-q 5, a discharge and discharge cavity-q 11, a free-filling head-q 12, a connecting head-q 13, a fixed connecting block-q 14, an air-impact elastic pressing mechanism-q 15, a flow dividing joint-a 1, a supplementary air pipe-a 2, a deep measuring pipe-a 3, an impact port-qq 1, an elastic strip-qq 2, a sealing piece-qq 3 and a covering disc-qq 4.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

As shown in figures 1 to 7:

the invention provides a floating exchange air impact-resistant bumper for protecting the periphery of an overwater building, which structurally comprises a pressure value supplementing mechanism 1, a floating exchange air impact-resistant device 2, a weight piece 3 and a water pile 4, wherein the pressure value supplementing mechanism 1 is fixedly connected inside the water pile 4 in an electric welding mode, the floating exchange air impact-resistant device 2 covers the water pile 4, the weight piece 3 is fixedly installed at the bottom of the floating exchange air impact-resistant device 2, the floating exchange air impact-resistant device 2 comprises a ring cover cylinder 21, an inserting piece 22, an air supplementing hole 23 and a slow-release impact-resistant mechanism 24, the slow-release impact-resistant mechanism 24 is installed inside the ring cover cylinder 21 in an embedding mode, the inserting piece 22 is fixedly connected with the back of the ring cover cylinder 21, the inserting piece 22 is fixedly connected with the weight piece 3, and the inserting piece 22 is fixedly connected with the weight piece 3.

The slow-release anti-impact mechanism 24 comprises an exchange ring groove 251, a pair of exchange storage and discharge pressure-resistant mechanisms 252, a fixed slow connection sleeve 253 and a sliding button 254, wherein the exchange ring groove 251 and the fixed slow connection sleeve 253 are of an integrated structure, the storage and discharge pressure-resistant mechanisms 252 are fixedly connected to the outer annular surface of the fixed slow connection sleeve 253 in an electric welding mode, the sliding button 254 is fixedly installed on the inner surface of the fixed slow connection sleeve 253, the sliding button 254 is arranged on the inner surface of each fixed slow connection sleeve 253 and has certain elasticity, and the sliding button is mainly used for balancing the sliding friction coefficient between the fixed slow connection sleeve 253 and the water pile 4, so that the sliding button can be smoothly and stably arranged on the water pile 4 when sliding on the water pile 4, the clamping condition can not occur, and the sliding button can serve as a layer of protection function when being impacted.

The pair-change storage and discharge pressure-resistant mechanism 252 comprises a reverse injection mechanism q1, a spring sleeve q2, an abdominal cavity q3, a pressurizing chamber q4 and a force-discharging claw q5, wherein the reverse injection mechanism q1 is fixedly installed on the spring sleeve q2, the abdominal cavity q3 and the spring sleeve q2 are of an integrated structure, the pressurizing chamber q4 is arranged inside the spring sleeve q2, the force-discharging claw q5 is installed inside the pressurizing chamber q4 in an embedded mode, the force-discharging claw q5 is in contact with the bottom of the reverse injection mechanism q1, after the pair-change storage and discharge pressure-resistant mechanism 252 bears impact, the force-discharging claw q5 can press downwards to expand the pressurizing chamber q4 and disperse impact force, the spring sleeve q2 can be locally depressed, and impact force of an impact object can be rebounded in a continuous depression process.

The reverse injection mechanism q1 comprises a guide-out pressure discharge cavity q11, a scattered inflation head q12, a connector q13, a fixed connection block q14 and an air impact spring pressing mechanism q15, wherein the guide-out pressure discharge cavity q11 and the fixed connection block q14 are of an integrated structure, the scattered inflation head q12 is fixedly connected with the connector q13, the air impact spring pressing mechanism q15 is fixedly installed on the outer surface of the fixed connection block q14, and when one side of the reverse injection mechanism q1 is impacted, the reverse injection mechanism q1 on the other side, which is matched with the reverse injection mechanism q1, receives high air pressure pressed and guided out by impact energy inside the impact side, enters the reverse injection mechanism q1 on the other side, and is injected out through the scattered inflation head q12 on the other side.

The pressure value supplementing mechanism 1 comprises a shunt joint a1, a supplementing air pipe a2 and a deep measuring pipe a3, the shunt joint a1 is fixedly connected with the supplementing air pipe a2, the deep measuring pipe a3 is parallel to the supplementing air pipe a2, the deep measuring pipe a3 can detect the internal pressure value after being impacted, and then the pressure value is supplemented to a bottom pressure ring through the supplementing air pipe a2 by means of the shunt joint a1, so that the pressure value supplementing mechanism keeps the impact resistance state of pressure maintaining, and further can resist the next round of impact.

The air impact spring pressing mechanism q15 comprises an impact port qq1, an elastic strip qq2, a sealing plate qq3 and a cover plate qq4, wherein the inner surface of the cover plate qq4 is attached to the impact port qq1, the elastic strip qq2 is installed inside the cover plate qq4 in an embedding mode, the impact port qq1 is fixedly installed on the sealing plate qq3, air flow impacted from the impact port qq1 can break through the cover of the cover plate qq4, water is discharged in the area outside the cover plate qq4 instantly, the cover plate qq4 can cover and protect the impact port qq1 again, water is discharged in the moment and is filled in a reverse impact mode, and impact of the impact can form a recoil acting force on the cover plate qq4, so that impact residual waves of impact objects are counteracted.

The specific use mode and function of the embodiment are as follows:

the weight piece 3 of the invention can provide a certain weight for the floating exchange air impact resistance device 2, so that the floating exchange air impact resistance device 2 can be always in a semi-sinking state, generally below the water surface, and half of the floating exchange air impact resistance device is exposed out of the water surface, so that the adjustment of tide rise and tide fall can be adapted, the contact friction force between the water pile 4 and the floating exchange air impact resistance device 2 can be better adjusted through the slide button 254, the floating exchange air impact resistance device 2 can be smoother when sliding in the water pile 4, when seawater carries an impact object to impact 4, the floating exchange air impact resistance device 2 is firstly impacted, the exchange, storage and discharge compression resistance mechanisms 252 in the floating exchange air impact resistance device 2 correspond to each other in two combinations, so that when one exchange, storage and discharge compression resistance mechanism 252 in the same combination is impacted, the force-discharge claw q5 in the elastic sleeve q2 is pressed downwards, the pressurizing chamber q4 is expanded, the output is enhanced, the impact force can be dispersed, after the elastic sleeve q2 is locally depressed, the impact power of an impact object is rebounded in the process of continuous depression, so that a part of the impact force can be offset, the elastic sleeve q2 is integrally deformed, the extruded gas is compressed and discharged, the gas can be conducted and entered through the exchange ring groove 251, in another pair-exchange storage-discharge pressure-resistant mechanism 252 in the same combination, the discharged high-pressure gas is released and charged towards the inside of the discharge and discharge chamber q11 through the dispersion and charge head q12, the gas can be released towards the outside through the impact port qq1, the covering and binding of the covering disc qq4 can be broken through the gas released through the impact port qq1, the seawater outside the covering disc qq4 can be discharged through the impacted gas pressure instantly, an empty area is formed, and the seawater can be re-charged instantly after being discharged, and the covering disc qq4 is impacted during backfilling, so that the impact force of an impact object is offset, the internal pressure value can be detected through the deep measuring pipe a3 after impact, and then the bottom pressure ring is supplemented through the supplementing air pipe a2 by means of the shunt joint a1, so that the shock resistance state of pressure maintaining is kept, further the next round of impact can be resisted, the impact influence of the impact on the floating exchange air impact resistance device 2 is reduced to the minimum, and the water pile 4 is protected.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (3)

1. The utility model provides a peripheral protective floating exchange gas anticollision ware that shocks resistance of building on water, its structure includes that the pressure value supplements mechanism (1), floating exchange gas anti-shock device (2), weight piece (3), water stake (4), its characterized in that:

the pressure value supplementing mechanism (1) is fixedly connected to the inside of the water pile (4) in an electric welding mode, the floating type exchange air impact resistance device (2) covers the water pile (4), and the weight piece (3) is fixedly installed at the bottom of the floating type exchange air impact resistance device (2);

the floating type exchange air impact resistance device (2) comprises a ring cover cylinder (21), an insertion piece (22), an air supply hole (23) and a slow-release impact resistance mechanism (24), wherein the slow-release impact resistance mechanism (24) is installed inside the ring cover cylinder (21) in an embedded mode, the insertion piece (22) is fixedly connected with the back of the ring cover cylinder (21), the insertion piece (22) is fixedly connected with the weight piece (3), and the insertion piece (22) is fixedly connected with the weight piece (3);

the slow-release anti-impact mechanism (24) comprises an exchange ring groove (251), a pair of exchange storage and release compression mechanisms (252), a fixed slow connecting sleeve (253) and a sliding button (254), wherein the exchange ring groove (251) and the fixed slow connecting sleeve (253) are of an integrated structure, the storage and release compression mechanisms (252) are fixedly connected to the outer ring surface of the fixed slow connecting sleeve (253) in an electric welding mode, and the sliding button (254) is fixedly installed on the inner surface of the fixed slow connecting sleeve (253);

the pair-change storage and discharge compression-resistant mechanism (252) comprises a reverse injection mechanism (q 1), a spring sleeve (q 2), an abdominal cavity (q 3), a pressurizing chamber (q 4) and a force unloading claw (q 5), wherein the reverse injection mechanism (q 1) is fixedly installed on the spring sleeve (q 2), the abdominal cavity (q 3) and the spring sleeve (q 2) are of an integrated structure, the pressurizing chamber (q 4) is arranged inside the spring sleeve (q 2), the force unloading claw (q 5) is installed inside the pressurizing chamber (q 4) in an embedded mode, and the force unloading claw (q 5) is in contact with the bottom of the reverse injection mechanism (q 1);

reverse injection mechanism (q 1) are including deriving row's pressure chamber (q 11), fill head (q 12), connector (q 13), rigid coupling piece (q 14), air impact suppressing mechanism (q 15) scattered, it presses chamber (q 11) and rigid coupling piece (q 14) structure as an organic whole to derive row, fill head (q 12) scattered and connector (q 13) fixed connection together, air impact suppressing mechanism (q 15) fixed mounting is in solid block (q 14) surface.

2. The floating exchange air impact bumper for protecting the periphery of an aquatic building according to claim 1, wherein: the pressure value supplementing mechanism (1) comprises a shunt joint (a 1), a supplementing air pipe (a 2) and a depth measuring pipe (a 3), wherein the shunt joint (a 1) is fixedly connected with the supplementing air pipe (a 2), and the depth measuring pipe (a 3) is parallel to the supplementing air pipe (a 2).

3. The floating exchange air impact bumper for protecting the periphery of an aquatic building according to claim 1, wherein: the air impact spring pressing mechanism (q 15) comprises an impact port (qq 1), an elastic strip (qq 2), a sealing piece (qq 3) and a cover plate (qq 4), wherein the inner surface of the cover plate (qq 4) is attached to the impact port (qq 1), the elastic strip (qq 2) is installed inside the cover plate (qq 4) in an embedded mode, and the impact port (qq 1) is fixedly installed on the sealing piece (qq 3).

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