CN113417506A

CN113417506A - Mounting structure of pre-buried guardrail and construction method thereof

Info

Publication number: CN113417506A
Application number: CN202110668042.2A
Authority: CN
Inventors: 李佳; 何厚锋
Original assignee: Taiyi Construction Group Co ltd
Current assignee: Taiyi Construction Group Co ltd
Priority date: 2021-06-16
Filing date: 2021-06-16
Publication date: 2021-09-21

Abstract

The invention relates to an installation structure of a pre-buried guardrail, belonging to the technical field of guardrail installation and comprising a first pre-buried box, a second pre-buried box and a guardrail body; the guardrail body consists of two vertical steel pipes and a plurality of transverse steel pipes, the plurality of transverse steel pipes are communicated and arranged between the two vertical steel pipes, a first pre-buried box is communicated and arranged at one end, close to the ground, of one vertical steel pipe, a second pre-buried box is communicated and arranged at one end, close to the ground, of the other vertical steel pipe, the pre-buried depth of the first pre-buried box is lower than that of the second pre-buried box, and the first pre-buried box is communicated with the second pre-buried box through a communicating pipe; one side of the guardrail body is provided with a rainwater collecting device which is used for conveying rainwater into the first embedded box; the rainwater collecting device is also provided with a filtering and purifying device; and a pumping device is arranged in the first embedded tank, and a faucet is arranged on the vertical steel pipe. The guardrail has the effect of improving the problem of low comfort when a pedestrian leans on the guardrail.

Description

Mounting structure of pre-buried guardrail and construction method thereof

Technical Field

The invention relates to the field of guardrail mounting technology, in particular to a mounting structure of an embedded guardrail and a construction method thereof.

Background

The guardrail is mainly used for protecting and protecting personal safety and equipment facilities in occasions such as houses, roads, commercial districts, public places and the like. The guard rail is visible everywhere in our lives. The pre-buried guardrail is pre-buried with the balancing weight below the ground, and then the guardrail is installed on the balancing weight, and the balancing weight can play a role in stabilizing the guardrail, so that the guardrail can be fixed without being installed on the ground intentionally.

In view of the above-mentioned related art, the inventor thinks that when the pedestrian stands up at the guardrail and has a rest, generally prefer to lean on the guardrail, and the high temperature of the sun can make the surface of the guardrail roll and scald in summer, thereby let the pedestrian who leans on the guardrail feel very uncomfortable, reduce the comfort level that the pedestrian leaned on the guardrail.

Disclosure of Invention

The invention provides an installation structure of a pre-buried guardrail and a construction method thereof, aiming at solving the problem of low comfort when pedestrians depend on the guardrail.

In a first aspect, the invention provides an installation structure of a pre-buried guardrail, which adopts the following technical scheme:

a mounting structure of a pre-buried guardrail comprises a first pre-buried box, a second pre-buried box and a guardrail body; the guardrail body consists of two vertical steel pipes and a plurality of transverse steel pipes, the plurality of transverse steel pipes are communicated and arranged between the two vertical steel pipes, the first pre-buried box is communicated and arranged at one end, close to the ground, of one vertical steel pipe, the second pre-buried box is communicated and arranged at one end, close to the ground, of the other vertical steel pipe, the pre-buried depth of the first pre-buried box is lower than that of the second pre-buried box, and the first pre-buried box is communicated with the second pre-buried box through a communicating pipe; a rainwater collecting device is arranged on one side of the guardrail body and used for conveying rainwater into the first embedded box; the rainwater collecting device is also provided with a filtering and purifying device which is used for filtering and purifying rainwater collected in the rainwater collecting device; and a pumping device is arranged in the first pre-buried box and used for pumping water in the first pre-buried box into the second pre-buried box through the vertical steel pipe and the transverse steel pipe, and a faucet is arranged on the vertical steel pipe.

Through adopting above-mentioned technical scheme, during rainy day, when letting in the rainwater toward the pre-buried incasement of first through rainwater collection device, filter and purify the rainwater through filtering purification device for the rainwater is stored and is cooled down in the pre-buried incasement of first. When the sunny day is waited, starting a pumping device, pumping water in the first embedded box into the vertical steel pipes and the transverse steel pipes, and then entering the second embedded box; the height of the second pre-buried box is higher than that of the first pre-buried box, so that rainwater in the second pre-buried box can enter the first pre-buried box again through the communicating pipe, a circulating loop is formed, the rainwater can circularly flow among the first pre-buried box, the guardrail body and the second pre-buried box, water flows inside the vertical steel pipes and the transverse steel pipes all the time, and heat on the surfaces of the vertical steel pipes and the transverse steel pipes is taken away; at the moment, the pedestrians are not easy to feel heat when leaning on the guardrail in hot summer, so that the comfort level of leaning on the guardrail is improved; and when the pedestrian need be washed the cool time with water because of the sweltering heat, can open tap and use the circulating water that is purified, further improved the comfort level of pedestrian in guardrail department.

Optionally, the rainwater collecting device comprises a support, a collecting box and a drainage tube, the support is mounted on the ground on one side of the guardrail body, the collecting box is mounted on the support, an opening is formed in the upper end of the collecting box, one end of the drainage tube is communicated with the collecting box, the other end of the drainage tube is communicated with a first embedded box, and the filtering and purifying device is mounted in the collecting box.

Through adopting above-mentioned technical scheme, the collecting box is supported to the support for the rainwater can enter into the rainwater case, and the rainwater directly enters into first pre-buried incasement through the drainage tube after through filtration purification device's filtration purification in, reaches the effect of conveniently collecting the rainwater and then storing.

Optionally, the filtering and purifying device comprises a drainage plate, a purifying assembly and a filtering assembly; a plurality of groups of drainage plates are horizontally distributed in the collection box, and a drainage cavity for rainwater to pass through is reserved between two adjacent groups of drainage plates; purify the subassembly and strain miscellaneous subassembly and all install on the drainage plate, strain miscellaneous subassembly and be used for filtering the particulate impurity that gets into the rainwater in the drainage intracavity, it is used for purifying the rainwater that gets into the drainage intracavity to purify the subassembly.

Through adopting above-mentioned technical scheme, the drainage chamber of reserving between the multiunit drainage plate can supply the rainwater to get into the collecting box respectively in, and the purification subassembly that sets up in the drainage intracavity then can purify the rainwater, strain miscellaneous subassembly then can get rid of the impurity of the rainwater that gets into the drainage intracavity for it is purer to enter into the rainwater in the first pre-buried case through the drainage chamber.

Optionally, the drainage plate is formed by connecting the polylith plate body in proper order, forms contained angle and contained angle for the acute angle between two adjacent plate bodies.

Through adopting above-mentioned technical scheme, contained angle between two plate bodys is the acute angle back, can let the rainwater in the speed that the drainage intracavity removed slow, and the drainage plate is connected gradually by the polylith plate body and forms, then can let the rainwater in the removal route of drainage intracavity lengthen, and then improved the purification and the filter effect of rainwater.

Optionally, the impurity filtering component comprises an installation frame and filter cloth, the filter cloth is arranged in the installation frame, and the installation frame is arranged in the drainage cavity between the two adjacent drainage plates.

Through adopting above-mentioned technical scheme, when the rainwater removed in the drainage intracavity, the rainwater can with the mounting frame on the filter cloth contact, because the characteristic of filter cloth itself, can supply the rainwater to pass through and give the particulate impurity that blocks in the rainwater for after the rainwater passed through the filter cloth, the rainwater can normally continue to remove, and the impurity that is in the rainwater then stays on the filter cloth, reaches and filters comparatively directly perceived and convenient effect to the rainwater.

Optionally, the purification assembly comprises an activated carbon block and a collecting pore plate, the plate body is located in the drainage cavity and is provided with a containing groove on the surface deviating from the ground, the activated carbon block is placed in the containing groove in a plurality of numbers, the collecting pore plate is arranged on the plate body and is located above the containing groove, and the collecting pore plate is used for blocking the activated carbon in the containing groove.

By adopting the technical scheme, when rainwater moves in the drainage cavity, the rainwater can directly drop on the plate body positioned on the plate surface of the drainage cavity, and at the moment, the rainwater can enter the accommodating groove through the collecting pore plate, so that the rainwater is fully contacted with the activated carbon blocks; due to the characteristics of the activated carbon blocks, the activated carbon blocks can remove harmful impurities in rainwater, so that the effect of purifying the rainwater when the rainwater moves in the drainage cavity can be achieved.

Optionally, the pumping device comprises a water pump, the water pump is placed in the first embedded tank, one end of the vertical steel pipe extends into the first embedded tank, a water drain pipe is communicated with the outlet end of the water pump, and one end of the water drain pipe, far away from the water pump, is communicated with the vertical steel pipe.

Through adopting above-mentioned technical scheme, start the water pump for the water pump produces suction, will be in the rainwater of first pre-buried incasement and inhale the drain pipe and reach vertical steel pipe side by side in, the rainwater can continue to move to horizontal steel pipe in under the effect of pumping power after that, removes to the pre-buried incasement of second in the vertical steel pipe in addition at last, thereby reaches the comparatively convenient effect of rainwater transport.

Optionally, a scrap iron adsorption device is arranged in the second pre-buried box and comprises an inclined plate and magnet strips, the inclined plate is obliquely arranged in the second pre-buried box, the vertical steel pipe is positioned right above the highest inclined end of the inclined plate, a water receiving groove is formed in the inclined plate and faces the vertical steel pipe side, a plurality of magnet strips are arranged in the water receiving groove of the inclined plate, and a water outlet hole is formed in the lowest inclined end of the inclined plate; and the water storage volume of the second embedded tank is larger than that of the first embedded tank.

By adopting the technical scheme, after rainwater circulates in the first embedded box, the guardrail body and the second embedded box for a long time, as the guardrail body is composed of steel pipes, more scrap iron can be generated in the transverse steel pipes and the vertical steel pipes under the long-term use, and the rainwater can continuously circulate in the guardrail body; if the water faucet is turned on by a pedestrian, the scrap iron flows out along with the water, so that the experience of the pedestrian on the water is reduced; at the moment, through the arrangement of the inclined plate and the magnet strips, after water flows into the second pre-buried box along with the vertical steel pipe, iron filings in the water flow into the water receiving tank on the inclined plate, and most of the iron filings are adsorbed by the magnet strips in the water receiving tank, so that most of the iron filings in the rainwater in the circulation are removed; after the pedestrian opens the faucet, the rainwater will be more clear, and then the cleanliness when the pedestrian uses the water is improved.

Optionally, a heating wire is arranged in the first embedded tank, a solar cell panel is arranged on one side of the guardrail body, and the solar cell panel is electrically connected with the heating wire.

Through adopting above-mentioned technical scheme, winter, solar cell panel provides the electric energy to the heating wire for the heating wire generates heat, recycles the rainwater heating back in will circulating, can let the guardrail body raise the temperature when winter, thereby lets the pedestrian lean on the guardrail body in winter and be difficult for experiencing cold, improves the comfort level that the pedestrian leaned on the guardrail body in winter.

In a second aspect, the invention provides a construction method of an embedded guardrail, which comprises the following steps:

pre-embedding: measuring the length of a guardrail body, chiseling an embedded pit below the ground, wherein the embedded pit comprises a first area and a second area, the depth of the first area is greater than that of the second area, placing a first embedded box into the first area, and placing a second embedded box into the second area;

the installation step: placing the rainwater collecting device on the ground close to the guardrail body, installing and fixing the rainwater collecting device, and then installing the pumping device;

and (3) landfill step: and (4) burying the pre-buried pit, so that the guardrail body is positioned above the ground, and the first pre-buried box and the second pre-buried box are both positioned below the ground.

In summary, the invention includes at least one of the following beneficial technical effects:

1. in rainy days, when rainwater is introduced into the first pre-buried box through the rainwater collecting device, the rainwater is filtered and purified through the filtering and purifying device, so that the rainwater is stored and cooled in the first pre-buried box. When the sunny day is waited, starting a pumping device, pumping water in the first embedded box into the vertical steel pipes and the transverse steel pipes, and then entering the second embedded box; the height of the second pre-buried box is higher than that of the first pre-buried box, so that rainwater in the second pre-buried box can enter the first pre-buried box again through the communicating pipe, a circulating loop is formed, the rainwater can circularly flow among the first pre-buried box, the guardrail body and the second pre-buried box, water flows inside the vertical steel pipes and the transverse steel pipes all the time, and heat on the surfaces of the vertical steel pipes and the transverse steel pipes is taken away; at the moment, the pedestrians are not easy to feel heat when leaning on the guardrail in hot summer, so that the comfort level of leaning on the guardrail is improved; when the pedestrians need to be cooled by water due to hot weather, the purified circulating water can be used by opening the water faucet, so that the comfort level of the pedestrians at the guardrail is further improved;

2. after rainwater circulates in the first embedded box, the guardrail body and the second embedded box for a long time, as the guardrail body consists of steel pipes, more scrap iron can be generated in the transverse steel pipes and the vertical steel pipes under the long-term use, and the rainwater can continuously circulate in the guardrail body; if the water faucet is turned on by a pedestrian, the scrap iron flows out along with the water, so that the experience of the pedestrian on the water is reduced; at the moment, through the arrangement of the inclined plate and the magnet strips, after water flows into the second pre-buried box along with the vertical steel pipe, iron filings in the water flow into the water receiving tank on the inclined plate, and most of the iron filings are adsorbed by the magnet strips in the water receiving tank, so that most of the iron filings in the rainwater in the circulation are removed; after the water faucet is opened by the pedestrian, the rainwater is clearer, and the cleanness of the pedestrian using water is further improved;

3. in winter, solar cell panel provides the electric energy to the heating wire for the heating wire generates heat, recycles the rainwater in will circulating after the heating, can let the guardrail body raise the temperature when winter, thereby lets the pedestrian lean on the guardrail body in winter and be difficult for experiencing coldly, improves the comfort level that the pedestrian leaned on the guardrail body in winter.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a partial cross-sectional view of an embodiment of the present invention.

FIG. 3 is a partial cross-sectional view of an embodiment of the invention showing the interior of a collection bin.

Fig. 4 is a partial schematic view for showing a filtration purification apparatus according to an embodiment of the present invention.

Fig. 5 is a partial sectional view for showing the internal structure of the second embedment tank of the embodiment of the invention.

Description of reference numerals: 1. a first embedded tank; 11. an electric heating wire; 2. a second embedded tank; 3. a guardrail body; 31. a vertical steel pipe; 311. a faucet; 32. a transverse steel pipe; 4. a rainwater collection device; 41. a support; 42. a collection box; 43. a drainage tube; 5. a filtration purification device; 51. a drainage plate; 511. a plate body; 5111. accommodating grooves; 52. a purification assembly; 521. activated carbon; 522. a collection orifice plate; 53. a miscellaneous filtering component; 531. installing a frame; 532. filtering cloth; 6. a pumping device; 61. a water pump; 611. a water discharge pipe; 7. a drainage lumen; 8. a scrap iron adsorption device; 81. an inclined plate; 811. a water receiving tank; 812. a water outlet hole; 82. a magnet bar; 9. a solar cell panel.

Detailed Description

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

The embodiment of the invention discloses an installation structure of a pre-buried guardrail. Referring to fig. 1 and 2, the mounting structure of the pre-buried guardrail comprises a first pre-buried box 1, a second pre-buried box 2 and a guardrail body 3; the embedded depth of the first embedded box 1 is greater than that of the second embedded box 2, and a communicating pipe is communicated between the first embedded box 1 and the second embedded box 2; the guardrail body 3 is composed of two vertical steel pipes 31 and a plurality of transverse steel pipes 32, wherein a lower end pipe orifice of one vertical steel pipe 31 is communicated with the first embedded box 1 embedded underground, namely the lower end pipe orifice of the vertical steel pipe 31 penetrates through the top wall of the first embedded box 1 and then extends into the first embedded box 1; the lower end pipe orifice of another vertical steel pipe 31 is communicated with the second embedded tank 2 embedded underground, that is, the lower end pipe orifice of the vertical steel pipe 31 passes through the top wall of the second embedded tank 2 and then extends to the inside of the second embedded tank 2. A rainwater collecting device 4 is arranged on the ground at one side of the guardrail body 3, and the rainwater collecting device 4 is used for collecting rainwater and then introducing the collected rainwater into the first embedded box 1; a filtering and purifying device 5 is arranged in the rainwater collecting device 4, and the filtering and purifying device 5 is used for filtering and purifying rainwater and then introducing the rainwater into the first embedded box 1; a pumping device 6 is installed in the first pre-buried box 1, and the pumping device 6 is used for enabling the rainwater pump 61 in the first pre-buried box 1 to enter the guardrail body 3, then enter the second pre-buried box 2 and finally flow into the first pre-buried box 1 from the second pre-buried box 2 so as to achieve circulating flow of rainwater; after rainwater circulation flows, the heat on the surface of the guardrail body 3 can be taken away, so that the surface temperature of the guardrail body 3 is reduced, and the comfort level of pedestrians leaning on the guardrail body 3 is improved.

As shown in fig. 2 and 3, the rainwater collecting device 4 comprises a bracket 41, a collecting box 42 and a drainage pipe 43, wherein the bracket 41 is composed of four supporting steel pipes, and each supporting steel pipe is welded below the collecting box 42 and supported on the ground; one end of the drainage tube 43 penetrates through the lowest end of the collection box 42 and then is communicated with the inside of the collection box 42, and the other end of the drainage tube 43 extends to the ground and penetrates through the top of the first embedded box 1 and then is communicated with the inside of the first embedded box 1; the filtering and purifying device 5 is installed in the collecting tank 42. The bracket 41 supports the collecting box 42, so that rainwater can enter the rainwater box, and then the rainwater directly enters the first embedded box 1 through the drainage tube 43 after being filtered and purified by the filtering and purifying device 5, thereby achieving the effect of conveniently collecting and storing the rainwater.

As shown in fig. 3 and 4, the filtering and purifying device 5 comprises a flow guide plate 51, a purifying assembly 52 and a impurity filtering assembly 53; the drainage plate 51 is formed by connecting a plurality of plate bodies 511, and an included angle formed between two adjacent plate bodies 511 is an acute angle. The drainage plate 51 assumes a saw-tooth shape when viewed in cross-section. A plurality of drainage plates 51 are arranged in the collection box 42, the drainage plates 51 are uniformly distributed in the collection box 42 horizontally, and a drainage cavity 7 is reserved between every two adjacent drainage plates 51; and the purifying assembly 52 and the impurity filtering assembly 53 are mounted on the flow guide plate 51. Specifically, the purifying assembly 52 and the impurity filtering assembly 53 are mounted on the plate body 511 located in the drainage chamber 7, the impurity filtering assembly 53 is used for filtering particulate impurities in the rainwater, and the purifying assembly 52 is used for purifying the rainwater.

The drainage chamber 7 that leaves between the multiunit drainage plate 51 can supply the rainwater to get into the collecting box 42 respectively in, and the purification subassembly 52 that sets up in drainage chamber 7 then can purify the rainwater, strain miscellaneous subassembly 53 and then can get rid of the impurity that gets into the rainwater in drainage chamber 7 for it is purer to enter into the rainwater in the first built-in box 1 through drainage chamber 7.

As shown in fig. 4, the impurity filtering assembly 53 includes an installation frame 531 and filter cloth 532, the filter cloth 532 is adhered in the installation frame 531, two sides of the installation frame 531 are connected to two adjacent connection plates by bolts, and the installation frame 531 is located in the drainage cavity 7 between two adjacent drainage plates 51. The purification assembly 52 includes an activated carbon 521 block and a collection hole plate 522, the plate body 511 is located in the drainage cavity 7 and is provided with an accommodation groove 5111 on the plate surface deviating from the ground, the activated carbon 521 block is placed in the accommodation groove 5111 in a plurality, the collection hole plate 522 is arranged on the plate body 511 and is located above the accommodation groove 5111, and the collection hole plate 522 is used for blocking the activated carbon 521 in the accommodation groove 5111.

When the rainwater moves in the drainage cavity 7 and filters, the rainwater can contact with the filter cloth 532 on the mounting frame 531, and due to the characteristics of the filter cloth 532, the rainwater can pass through the filter cloth 532, so that particle impurities in the rainwater can be blocked, the rainwater can normally continue to move after passing through the filter cloth 532, and the impurities in the rainwater are left on the filter cloth 532, and the effect of filtering the rainwater visually and conveniently is achieved. When rainwater moves in the drainage cavity 7 and is purified, the rainwater can directly drop on the plate body 511 positioned on the plate surface of the drainage cavity 7, and at the moment, the rainwater can enter the accommodating groove 5111 through the collecting pore plate 522, so that the rainwater is fully contacted with the activated carbon 521 blocks; due to the characteristics of the activated carbon 521 block, harmful impurities in rainwater can be removed by the activated carbon 521 block, so that the effect of purifying rainwater when the rainwater moves in the drainage cavity 7 can be achieved.

As shown in fig. 2, the pumping device 6 is a water pump 61, the water pump 61 is directly placed in the first embedded tank 1, a solar panel 9 is installed on the ground on one side of the guardrail body 3, the water pump 61 is electrically connected with the solar panel 9, that is, the solar panel 9 provides electric energy for the water pump 61, so that the water pump 61 operates normally. The outlet end of the water pump 61 is communicated with a water discharge pipe 611, and the water discharge pipe 611 is directly communicated with one end of the vertical steel pipe 31 in the first embedded tank 1. And the heating wire 11 is also arranged in the first embedded box 1, the heating wire 11 is also electrically connected with the solar cell panel 9, but the heating wire 11 is only used in cold winter, and is not opened in summer.

As shown in fig. 2 and 5, the iron scrap adsorption device 8 is arranged in the second embedded tank 2, the iron scrap adsorption device 8 includes an inclined plate 81 and magnet strips 82, the inclined plate 81 is obliquely arranged in the second embedded tank 2, the vertical steel pipe 31 is positioned right above the highest inclined end of the inclined plate 81, a water receiving groove 811 is formed on the inclined plate 81 toward the vertical steel pipe 31, a plurality of magnet strips 82 are arranged in the water receiving groove 811 of the inclined plate 81, each magnet strip 82 is irregularly arranged on the inner wall of the water receiving groove 811, and a water outlet hole 812 is formed at the lowest inclined end of the inclined plate 81; the water storage volume of the second embedded tank 2 is larger than that of the first embedded tank 1.

After rainwater circulates in the first embedded box 1, the guardrail body 3 and the second embedded box 2 for a long time, as the guardrail body 3 is composed of steel pipes, more scrap iron may be generated inside the transverse steel pipe 32 and the vertical steel pipe 31 under long-term use, and therefore the rainwater can continuously circulate in the guardrail body 3; if the pedestrian opens the faucet 311 for use, the scrap iron will flow out together with the water, reducing the experience of the pedestrian on water; at the moment, through the arrangement of the inclined plate 81 and the magnet strip 82, after water flows into the second embedded box 2 along with the vertical steel pipe 31, iron filings in the water flow into the water receiving groove 811 on the inclined plate 81, and most of the iron filings are adsorbed by the magnet strip 82 in the water receiving groove 811, so that most of the iron filings in the rainwater in the circulation are removed; after the pedestrian opens the faucet 311, the rain will be more clear, thereby improving the cleanliness of the pedestrian when using the water.

The embodiment of the invention also discloses a construction method of the pre-buried guardrail, which comprises the following steps:

pre-embedding: measuring the length of the guardrail body 3, chiseling an embedded pit below the ground, wherein the embedded pit comprises a first area and a second area, the depth of the first area is greater than that of the second area, placing the first embedded box 1 into the first area, and placing the second embedded box 2 into the second area;

the installation step: placing the rainwater collecting device 4 on the ground close to the guardrail body 3, installing and fixing the rainwater collecting device 4, and then installing the pumping device 6;

and (3) landfill step: and (3) burying the pre-buried pit, so that the guardrail body 3 is positioned above the ground, and the first pre-buried box 1 and the second pre-buried box 2 are both positioned below the ground.

The implementation principle of the installation structure of the pre-buried guardrail and the construction method thereof provided by the embodiment of the invention is as follows: in rainy days, when the rainwater is introduced into the first embedded box 1 through the rainwater collecting device 4, the rainwater is filtered and purified through the filtering and purifying device 5, so that the rainwater is stored and cooled in the first embedded box 1. When waiting to a sunny day, starting the pumping device 6, and pumping the water pump 61 in the first embedded box 1 into the vertical steel pipe 31 and the transverse steel pipe 32, and then into the second embedded box 2; since the height of the second embedded box 2 is higher than that of the first embedded box 1, rainwater in the second embedded box 2 can enter the first embedded box 1 again through the communicating pipe, so that a circulating loop is formed, the rainwater can circularly flow among the first embedded box 1, the guardrail body 3 and the second embedded box 2, water flows inside the vertical steel pipes 31 and the transverse steel pipes 32 all the time, and heat on the surfaces of the vertical steel pipes 31 and the transverse steel pipes 32 is taken away; at the moment, the pedestrians are not easy to feel heat when leaning on the guardrail in hot summer, so that the comfort level of leaning on the guardrail is improved; and when the pedestrian needs to be cooled by water due to hot weather, the purified circulating water can be used by opening the water faucet 311, so that the comfort level of the pedestrian at the guardrail is further improved.

The above are all preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. The utility model provides a mounting structure of pre-buried formula guardrail which characterized in that: the guardrail comprises a first embedded box (1), a second embedded box (2) and a guardrail body (3); the guardrail body (3) is composed of two vertical steel pipes (31) and a plurality of transverse steel pipes (32), the plurality of transverse steel pipes (32) are communicated and arranged between the two vertical steel pipes (31), the first pre-buried box (1) is communicated and arranged at one end, close to the ground, of one vertical steel pipe (31), the second pre-buried box (2) is communicated and arranged at one end, close to the ground, of the other vertical steel pipe (31), the pre-buried depth of the first pre-buried box (1) is lower than that of the second pre-buried box (2), and the first pre-buried box (1) is communicated with the second pre-buried box (2) through a communicating pipe; a rainwater collecting device (4) is installed on one side of the guardrail body (3), and the rainwater collecting device (4) is used for conveying rainwater into the first embedded box (1); the rainwater collecting device (4) is also provided with a filtering and purifying device (5), and the filtering and purifying device (5) is used for filtering and purifying rainwater collected in the rainwater collecting device (4); the water pump is characterized in that a pumping device (6) is arranged in the first embedded box (1), the pumping device (6) is used for pumping water in the first embedded box (1) into the second embedded box (2) through a vertical steel pipe (31) and a transverse steel pipe (32), and a water faucet (311) is arranged on the vertical steel pipe (31).

2. The mounting structure of an embedded guardrail according to claim 1, wherein: the rainwater collecting device (4) comprises a support (41), a collecting box (42) and a drainage tube (43), the support (41) is installed on the ground on one side of the guardrail body (3), the collecting box (42) is installed on the support (41), an opening is formed in the upper end of the collecting box (42), one end of the drainage tube (43) is communicated with the collecting box (42), the other end of the drainage tube is communicated with the first embedded box (1), and the filtering and purifying device (5) is installed in the collecting box (42).

3. The mounting structure of an embedded guardrail according to claim 1, wherein: the filtering and purifying device (5) comprises a flow guide plate (51), a purifying component (52) and a impurity filtering component (53); a plurality of groups of drainage plates (51) are horizontally distributed in the collection box (42), and a drainage cavity (7) for rainwater to pass through is reserved between two adjacent groups of drainage plates (51); purify subassembly (52) and strain miscellaneous subassembly (53) and all install on drainage plate (51), strain miscellaneous subassembly (53) and be used for filtering the particulate impurity that gets into the rainwater in drainage chamber (7), purify subassembly (52) and be used for purifying the rainwater that gets into in drainage chamber (7).

4. The mounting structure of the pre-buried type guard rail according to claim 3, wherein: the drainage plate (51) is formed by sequentially connecting a plurality of plate bodies (511), and an included angle is formed between every two adjacent plate bodies (511) and is an acute angle.

5. The mounting structure of the pre-buried type guard rail according to claim 3, wherein: the impurity filtering component (53) comprises an installation frame (531) and filter cloth (532), wherein the filter cloth (532) is arranged in the installation frame (531), and the installation frame (531) is arranged in a drainage cavity (7) between two adjacent drainage plates (51).

6. The mounting structure of the pre-buried type guard rail according to claim 4, wherein: purify subassembly (52) and include activated carbon (521) piece and collect orifice plate (522), holding tank (5111) have been seted up on the face that plate body (511) are located drainage chamber (7) and deviate from ground, activated carbon (521) piece has been placed a plurality ofly in holding tank (5111), collect orifice plate (522) and lay on plate body (511) and be located the top of holding tank (5111), collect orifice plate (522) and be used for blockking activated carbon (521) in holding tank (5111).

7. The mounting structure of an embedded guardrail according to claim 1, wherein: the pumping device (6) comprises a water pump (61), the water pump (61) is placed in the first embedded tank (1), one end of the vertical steel pipe (31) extends into the first embedded tank (1), a water discharge pipe (611) is communicated with the outlet end of the water pump (61), and one end, far away from the water pump (61), of the water discharge pipe (611) is communicated with the vertical steel pipe (31).

8. The mounting structure of an embedded guardrail according to claim 1, wherein: the scrap iron adsorption device (8) is arranged in the second embedded box (2), the scrap iron adsorption device (8) comprises an inclined plate (81) and magnet strips (82), the inclined plate (81) is obliquely arranged in the second embedded box (2), the vertical steel pipes (31) are located right above the highest inclined ends of the inclined plate (81), water receiving grooves (811) are formed in the inclined plate (81) towards the vertical steel pipes (31), a plurality of magnet strips (82) are arranged in the water receiving grooves (811) of the inclined plate (81), and water outlet holes (812) are formed in the lowest inclined ends of the inclined plate (81); the water storage volume of the second embedded tank (2) is larger than that of the first embedded tank (1).

9. The mounting structure of an embedded guardrail according to claim 1, wherein: the heating wire (11) is arranged in the first embedded box (1), a solar cell panel (9) is arranged on one side of the guardrail body (3), and the solar cell panel (9) is electrically connected with the heating wire (11).

10. A construction method of a pre-buried guardrail is characterized by comprising the following steps: the installation structure implementation of the pre-buried guardrail according to one of claims 1 to 9, comprising the following steps:

pre-embedding: measuring the length of the guardrail body (3), chiseling an embedded pit below the ground, wherein the embedded pit comprises a first area and a second area, the depth of the first area is greater than that of the second area, placing a first embedded box (1) into the first area, and placing a second embedded box (2) into the second area;

the installation step: placing the rainwater collecting device (4) on the ground close to the guardrail body (3), installing and fixing the rainwater collecting device (4), and then installing the pumping device (6);

and (3) landfill step: and (3) burying the pre-buried pit, so that the guardrail body (3) is positioned above the ground, and the first pre-buried box (1) and the second pre-buried box (2) are both positioned below the ground.