CN215671457U - Energy-concerving and environment-protective rail guard for building engineering - Google Patents

Abstract

The utility model belongs to the technical field of building construction tools, and particularly relates to an energy-saving and environment-friendly protective guard for building engineering. According to the utility model, the guardrail vertical plate, the lifting roller unit, the greening groove unit, the rainwater receiving unit, the pulling and carrying unit and the water discharging holes in the plate are arranged on the guardrail bottom plate, so that the aims of achieving both the high-efficiency protection effect of the guardrail and the energy-saving and environment-friendly effect of rainwater irrigation greening are fulfilled. The utility model has the advantages of reasonable and effective protective structure, comprehensive protective effect on the periphery of a building site, simple and rapid guardrail building, connection and dismantling operation, high stability after the guardrail is installed, material saving and environmental protection of a single-side roller structure, easy and labor-saving rolling carrying operation of inclined pulling, energy saving and environmental protection of a greening irrigation mode of rainwater recycling, easy control of irrigation water consumption and capability of containing garbage.

Description

Energy-concerving and environment-protective rail guard for building engineering

Technical Field

The utility model belongs to the technical field of building construction tools, and particularly relates to an energy-saving and environment-friendly protective guard for building engineering.

Background

A protective guard for building engineering is a protective structure which is enclosed around a building site and prevents children and pets from accidentally intruding into the protective guard, the height of the protective guard is generally 1-1.5m because adults do not need to be prevented, and when protection upgrading is needed, the protective guard is directly adopted to carry out comprehensive closed protection, so that the protective guard is generally used for small building projects with low risk coefficients, such as road greening area construction or urban underground engineering construction.

On the other hand, the existing guard rail for construction engineering mainly comprises a guard rail main body, a connecting rope and greening flowers and plants, and the guard rail of the type has the following problems: firstly, the rainwater collection function is lacked, and additional water is needed when flowers and plants for greening are watered, which violates the aims of energy conservation and environmental protection; secondly, the guard rail can be only manually carried when needing to be moved, which is time-consuming and labor-consuming; thirdly, the function of the guard rail is too single.

Therefore, in view of the above, there is an urgent need for an improved protective fence for construction engineering, which is efficient, convenient, energy-saving and environment-friendly.

The patent publication number is CN 212428329U, the china utility model patent that the announcement day is 2021.01.29 discloses a construction rail guard, including first rail guard and second rail guard, the both ends of first rail guard all are fixed with first support column, the both ends of second rail guard all are fixed with the second support column, leave first bolt hole on the first support column, leave the second bolt hole on the second support column, be provided with the spliced pole between first support column and the second support column, be the cavity in the spliced pole, one side of spliced pole is provided with first bolt, the opposite side of spliced pole is provided with the second bolt, the one end of first bolt lets in first bolt downthehole.

But the rail guard in the utility model patent has the unable utilization of rainwater to and wholly use inconvenient problem.

SUMMERY OF THE UTILITY MODEL

The utility model provides an energy-saving and environment-friendly protective fence for building engineering, which can achieve the aims of both the high-efficiency protective effect of the protective fence and the energy-saving and environment-friendly effect of rainwater irrigation greening by arranging a vertical guardrail plate, a lifting roller unit, a greening groove unit, a rainwater receiving unit, a pulling and carrying unit and a water discharging hole in the plate on a bottom plate of the protective fence.

The technical scheme adopted by the utility model for solving the problems is as follows: the utility model provides an energy-concerving and environment-protective rail guard for building engineering, includes guardrail bottom plate to and two guardrail risers, still including setting up just be located two on the guardrail bottom plate the lift gyro wheel unit of guardrail riser one side position department sets up two afforestation groove unit on the relative medial surface of guardrail riser sets up two rainwater receiving element on the guardrail riser up end, and sets up two keeping away from of guardrail riser the pulling transport unit on the lift gyro wheel unit side.

The further preferred technical scheme is as follows: the greening groove unit comprises a first rectangular plate body, a greening groove, a garbage groove and a water drainage hole, wherein the two ends of the first rectangular plate body are respectively arranged on the opposite inner side surfaces of the two guardrail vertical plates, the greening groove and the garbage groove are arranged on the upper surface of the first rectangular plate body, and the water drainage hole is formed in the greening groove.

The further preferred technical scheme is as follows: the rainwater receiving unit comprises a second rectangular plate body arranged on the upper end surfaces of the two vertical guardrail plates, a rainwater receiving groove arranged on the upper surface of the second rectangular plate body, a watering hole arranged on the rainwater receiving groove and used for watering the greening groove, and an open hole plug arranged on the watering hole.

The further preferred technical scheme is as follows: the rainwater receiving unit further comprises connecting rings respectively arranged at two ends of the second rectangular plate body, a fixed connecting hook hooked on one of the connecting rings, a connecting rope with one end arranged on the fixed connecting hook, and a movable connecting hook arranged at the other end of the connecting rope.

The further preferred technical scheme is as follows: and the guardrail bottom plate is also provided with an on-plate water drainage hole positioned at the position below the water drainage hole.

The further preferred technical scheme is as follows: the lifting roller unit comprises two openings for rollers, wherein the openings are arranged at two ends of the long side of the guardrail base plate and are arranged on the upper surface of the guardrail base plate and are located two threaded columns between the openings for the rollers, the connecting plates are sleeved on the threaded columns after holes are formed, the two ends of the connecting plates are respectively arranged on two roller mounting columns above the openings for the rollers, the lower ends of the roller mounting columns downwards penetrate through the openings for the rollers and are used for rolling universal wheels on the ground, and the limiting nuts are arranged on the threaded columns and are located above the connecting plates and used for vertically limiting the universal wheels to be transferred.

The further preferred technical scheme is as follows: the lifting roller unit further comprises a fixing nut which is arranged on the threaded column and is located below the connecting plate and used for supporting the connecting plate.

The further preferred technical scheme is as follows: the number of the threaded columns is 2-3, and the threaded columns are uniformly arranged between the two openings for the rollers at intervals.

The further preferred technical scheme is as follows: the pulling and carrying unit comprises pulling connecting plates arranged on the side faces, far away from the universal wheels, of the two guardrail vertical plates, a U-shaped pulling handle arranged at the middle position on the side face, far away from the universal wheels, of the pulling connecting plates, and fixing rings arranged at one ends, close to the movable connecting hooks, of the pulling connecting plates and used for hooking the movable connecting hooks in a fixed idle state.

The further preferred technical scheme is as follows: the vertical height of the pulling connecting plate is higher than that of the connecting plate.

The utility model has the advantages of reasonable and effective protective structure, comprehensive protective effect on the periphery of a building site, simple and rapid guardrail building, connection and dismantling operation, high stability after the guardrail is installed, material saving and environmental protection of a single-side roller structure, easy and labor-saving rolling carrying operation of inclined pulling, energy saving and environmental protection of a greening irrigation mode of rainwater recycling, easy control of irrigation water consumption and capability of containing garbage.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the position of the pull conveyance unit in a top view according to the present invention.

Fig. 3 is a schematic structural diagram of a rainwater receiving unit in a top view.

Fig. 4 is a schematic view of the position structure of the greening groove unit in a top view.

Detailed Description

The following description is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention.

Example (b): as shown in fig. 1, 2, 3 and 4, the energy-saving and environment-friendly guard rail for the building engineering comprises a guard rail bottom plate 11, two guard rail vertical plates 12, a lifting roller unit 1 which is arranged on the guard rail bottom plate 11 and located at one side position of the two guard rail vertical plates 12, a greening groove unit 2 which is arranged on the opposite inner side surfaces of the two guard rail vertical plates 12, a rainwater receiving unit 3 which is arranged on the upper end surfaces of the two guard rail vertical plates 12, and a pulling and carrying unit 4 which is arranged on the side surface of the two guard rail vertical plates 12 far away from the lifting roller unit 1.

In this embodiment, the lifting roller unit 1 is used in cooperation with the pulling and carrying unit 4, that is, when the guard rail is stably placed and used, the lifting roller unit 1 is in a relatively high position and is idle, the pulling and carrying unit 4 is not used, when the guard rail needs to be moved and carried, one side of the pulling and carrying unit 4 is lifted upwards, then the lifting roller unit 1 is lowered until the lifting roller unit can roll on the ground, and finally the whole guard rail is obliquely pulled and moved, so that the simple and efficient guard rail carrying and moving operation can be completed.

In addition, the rainwater receiving unit 3 is used for receiving rainwater and storing the rainwater for watering by leaking water downwards into the greening groove unit 2, so that part of greening water can be saved, and the energy conservation and the environmental protection are realized.

Finally, the rainwater receiving unit 3 is a connecting part between adjacent guard rails to ensure that one row of guard rails can be connected and protected and can be fully protected, and the greening groove unit 2, the rainwater receiving unit 3 and the pulling and carrying unit 4 are all connected with the two upright guard rail plates 12, so that the single guard rail also has the advantages of stable structure and high connecting strength.

The greening groove unit 2 comprises a first rectangular plate body 201, a greening groove 202 and a garbage groove 203, wherein two ends of the first rectangular plate body 201 are respectively arranged on the opposite inner side surfaces of the two guardrail vertical plates 12, and the greening groove 204 and the garbage groove 203 are arranged on the upper surface of the first rectangular plate body 201.

In this embodiment, the greening groove 202 is used for planting flowers and plants or placing flower and plant buckets, the garbage groove 203 can temporarily and slightly contain garbage, and the water discharge hole 204 is used for discharging excess water, so that the problem of root rot caused by excessive watering at the greening groove 202 can be avoided.

The rainwater receiving unit 3 includes a second rectangular plate 301 disposed on the upper end surfaces of the two vertical guard rail plates 12, a rainwater receiving groove 302 disposed on the upper surface of the second rectangular plate 301, a watering hole 303 disposed on the rainwater receiving groove 302 and used for watering the greening groove 202, and an opening plug 304 disposed on the watering hole 303. The rainwater receiving unit 3 further includes coupling rings 305 respectively provided on both ends of the second rectangular plate body 301, a fixed coupling hook 306 hooked on one of the coupling rings 305, a coupling rope 307 having one end provided on the fixed coupling hook 306, and a movable coupling hook 308 provided on the other end of the coupling rope 307.

In this embodiment, the rainwater receiving groove 302 is used for receiving and temporarily storing rainwater, the watering hole 303 is used for watering by draining water into the greening groove 202, the perforated plug 304 is made of conventional rubber and is used for blocking water leakage when watering is not needed, and in addition, water can be manually added into the rainwater receiving groove 302, so that flowers and plants in the greening groove 202 cannot be dried out even if the rainwater does not fall for a long time.

In addition, the connecting member composed of the fixed connecting hook 306, the connecting rope 307 and the movable connecting hook 308 is made of high-strength engineering plastics and is used for connecting the connecting rings 305 on two adjacent rainwater receiving units 3, so that a row of the protective guards can be connected into a row, and the stability and the integrity of the protective effect are ensured.

The guardrail bottom plate 11 is also provided with an on-plate water discharge hole 5 positioned at the position below the water discharge hole 204.

In this embodiment, the water discharge holes 204 can discharge excessive water for one time, and the water discharge holes 5 on the plate are vertically aligned with the water discharge holes 204, so that a pool of muddy water cannot appear on the upper surface of the guardrail bottom plate 11, and the muddy water directly flows to the ground, so that the guardrail is cleaner and cleaner, and is environmentally friendly.

The lifting roller unit 1 comprises two openings 101 arranged at two ends of the long side of the guardrail bottom plate 11, threaded columns 102 arranged on the upper surface of the guardrail bottom plate 11 and located between the two openings 101, a connecting plate 103 sleeved on the threaded columns 102 after being perforated, two roller mounting columns 104 arranged at two ends of the connecting plate 103 and located above the openings 101 for the rollers, universal wheels 105 arranged at the lower ends of the roller mounting columns 104 and passing through the openings 101 for the rollers downwards and used for rolling on the ground, and limit nuts 106 arranged on the threaded columns 102 and located above the connecting plate 103 and used for vertically limiting the lowered universal wheels 105. The lifting roller unit 1 further includes a fixing nut 107 disposed on the threaded column 102 and located below the connection plate 103 and supporting the connection plate 103. The number of the screw posts 102 is 2-3, and the screw posts are uniformly spaced between the two openings 101 for the rollers.

In this embodiment, the lifting roller unit 1 has two use states: firstly, when the guard rail is stably placed and does not need to be moved, the limit nut 106 and the fixing nut 107 are located at relatively high positions, at this time, the whole of the connecting plate 103, the roller mounting column 104 and the universal wheel 105 is erected by the fixing nut 107, the universal wheel 105 is idle when being lifted off the ground, and the guard rail can realize a stable placing protection effect by means of the guard rail bottom plate 11.

Secondly, when the guardrail bottom plate 11 needs to be moved to change positions, the fixing nut 107 is firstly rotated downwards, then the lifting roller unit 1 is lifted up manually in an inclined manner, at this time, the whole of the connecting plate 103, the roller mounting post 104 and the universal wheel 105 falls off relatively on the threaded post 102, the universal wheel 105 also protrudes downwards in the roller opening 101, so that the limiting nut 106 rotates downwards again, the universal wheel 105 can be prevented from retracting upwards, and finally the whole guardrail can be carried in an inclined manner by pulling the carrying unit 4 to be carried by hands, which is very fast and convenient compared with a carrying manner by hands.

What is more important, the inclined carrying mode in the embodiment only needs two universal wheels, and compared with the mode of four universal wheels in the prior art, two universal wheels are saved, and the universal wheels are more expensive compared with common plastic plates, so that the inclined carrying mode is very energy-saving and environment-friendly, and is economical and practical.

The pulling and carrying unit 4 comprises a pulling connecting plate 401 arranged on the side of the two guardrail vertical plates 12 far away from the universal wheel 105, a U-shaped pulling handle 402 arranged at the middle position on the side of the pulling connecting plate 401 far away from the universal wheel 105, and a fixing ring 403 arranged at one end of the pulling connecting plate 401 close to the movable connecting hook 308 and used for hooking the movable connecting hook 308 in a fixed and idle state. The vertical height of the pulling connecting plate 401 is higher than that of the connecting plate 103.

In this embodiment, the pulling connection plate 401 is used to connect two vertical guard plates 12, so that the structural strength of the main body formed by the two vertical guard plates 12 is greater, the U-shaped pulling handle 402 is a holding and raising portion for the inclined transportation of the whole guard rail, and finally, the fixing ring 403 is used to hook the unused and idle movable connection hook 308, so as to avoid the whole of the fixed connection hook 306, the connection rope 307 and the movable connection hook 308 from being shaken and bumped at will.

The whole pulling and carrying unit 4 is located at a relatively high position, so that an inclined rolling structure can be formed with the universal wheel at the relatively low position on the other side, and after the lifting roller unit 1 is rolled and carried in place, the lifting roller unit 1 is restored to the initial relatively high position.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various modifications can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. These are non-inventive modifications, which are intended to be protected by patent laws within the scope of the claims appended hereto.

Claims (10)

1. The utility model provides an energy-concerving and environment-protective rail guard for building engineering, includes guardrail bottom plate (11) to and two guardrail riser (12), its characterized in that: the lifting trolley is characterized by further comprising two lifting roller units (1) arranged on the guardrail bottom plate (11) and located at one side positions of the guardrail vertical plates (12), two greening groove units (2) arranged on the opposite inner side surfaces of the guardrail vertical plates (12), two rainwater receiving units (3) arranged on the upper end surfaces of the guardrail vertical plates (12), and two pulling and carrying units (4) arranged on the side surfaces of the lifting roller units (1) and far away from the guardrail vertical plates (12).

2. The energy-saving and environment-friendly guard rail for the building engineering as claimed in claim 1, wherein: the greening groove unit (2) comprises a first rectangular plate body (201) with two ends respectively arranged on the opposite inner side surfaces of the two guardrail vertical plates (12), a greening groove (202) and a garbage groove (203) which are arranged on the upper surface of the first rectangular plate body (201), and a water drainage hole (204) which is arranged on the greening groove (202).

3. The energy-saving and environment-friendly guard rail for the building engineering as claimed in claim 2, wherein: the rainwater receiving unit (3) comprises a second rectangular plate body (301) arranged on the upper end faces of the two guardrail vertical plates (12), a rainwater receiving groove (302) arranged on the upper surface of the second rectangular plate body (301), a watering hole (303) arranged on the rainwater receiving groove (302) and used for watering the greening groove (202), and an opening plug (304) arranged on the watering hole (303).

4. The energy-saving and environment-friendly guard rail for the building engineering as claimed in claim 3, wherein: the rainwater receiving unit (3) further comprises connecting rings (305) respectively arranged at both ends of the second rectangular plate body (301), a fixed connecting hook (306) hooked on one of the connecting rings (305), a connecting rope (307) with one end arranged on the fixed connecting hook (306), and a movable connecting hook (308) arranged at the other end of the connecting rope (307).

5. The energy-saving and environment-friendly guard rail for the building engineering as claimed in claim 2, wherein: and the guardrail bottom plate (11) is also provided with an on-plate water discharging hole (5) positioned at the position below the water discharging hole (204).

6. The energy-saving and environment-friendly guard rail for the building engineering as claimed in claim 4, wherein: the lifting roller unit (1) comprises two openings (101) for rollers, which are arranged at two ends of the long side of the guardrail bottom plate (11), a threaded column (102) which is arranged on the upper surface of the guardrail bottom plate (11) and is positioned between the two openings (101) for the rollers, a connecting plate (103) which is sleeved on the threaded column (102) after being perforated, two roller mounting columns (104) which are respectively arranged at two ends of the connecting plate (103) and are positioned above the openings (101) for the rollers, and universal wheels (105) which are arranged at the lower ends of the roller mounting columns (104) and are used for rolling on the ground after downwards penetrating through the openings (101) for the rollers, and a limiting nut (106) which is arranged on the threaded column (102) and is positioned above the connecting plate (103) and is used for vertically limiting the universal wheel (105) which is lowered.

7. The energy-saving and environment-friendly guard rail for the building engineering as claimed in claim 6, wherein: the lifting roller unit (1) further comprises a fixing nut (107) which is arranged on the threaded column (102) and is located below the connecting plate (103) and used for supporting the connecting plate (103).

8. The energy-saving and environment-friendly guard rail for the building engineering as claimed in claim 6, wherein: the number of the threaded columns (102) is 2-3, and the threaded columns are uniformly arranged between the two openings (101) for the rollers at intervals.

9. The energy-saving and environment-friendly guard rail for the building engineering as claimed in claim 6, wherein: the pulling and carrying unit (4) comprises pulling connecting plates (401) arranged on the side faces, far away from the universal wheels (105), of the two guardrail vertical plates (12), U-shaped pulling handles (402) arranged at the middle positions of the side faces, far away from the universal wheels (105), of the pulling connecting plates (401), and fixing circular rings (403) arranged at one ends, close to the movable connecting hooks (308), of the pulling connecting plates (401) and used for hooking the movable connecting hooks (308) in a fixed idle state.

10. The energy-saving and environment-friendly guard rail for the building engineering as claimed in claim 9, wherein: the vertical height of the pulling connecting plate (401) is higher than that of the connecting plate (103).

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