CN216108911U - Automatic water changing vehicle cleaning pool for building construction - Google Patents

Abstract

The utility model relates to the technical field of building construction, and discloses an automatic water changing vehicle cleaning pool for building construction, which comprises a water collecting pool, wherein a sand discharging mechanism is arranged on the water collecting pool, the sand discharging mechanism comprises a rainwater collecting box, a vertical pipe I, a lower slide bar I, a connecting rod, a vertical groove, a lower slide bar II and a bent pipe, rainwater falls into the rainwater collecting box in rainy days, the weight of the rainwater pushes the lower slide bar I to slide downwards in the vertical pipe I along with the increase of the rainwater in the rainwater collecting box, the lower slide bar I drives the lower slide bar II on the connecting rod to slide downwards synchronously, the lower slide bar II slides downwards in the bent pipe to suck water near a port of the bent pipe in the water collecting pool into the bent pipe, the lower slide bar II fills the bent pipe with the water along with the continuous descending of the lower slide bar I, after the lower slide bar II moves to the lower part of the vertical groove, because the height of the bottom surface of the vertical groove is low, the bottom surface of the water collecting pool containing silt in the bottom layer is discharged out of the water collecting pool from the bent pipe through the siphon principle, the silt content at the bottom in the water collecting tank is reduced.

Description

Automatic water changing vehicle cleaning pool for building construction

Technical Field

The utility model relates to the technical field of building construction, in particular to an automatic water changing vehicle cleaning pool for building construction.

Background

The prior art discloses a job site vehicle belt cleaning device (CN201120548828.2), including wasing the pond, the front end of wasing the pond is connected with the vibrations district, and the rear end of wasing the pond is connected with the washing zone, and the vibrations district includes base and the roof of lid on the base, and the top in vibrations district is looked sideways and is the cockscomb structure, and the washing zone is equipped with a plurality of water jet equipment. The utility model solves the technical problems of time and electricity consumption and low efficiency in cleaning the vehicle tire on the running-out construction site. The utility model has the beneficial effects that: the vehicle does not need to be parked or washed by a high-pressure water gun, and the vehicle is cleaned in the running process of the engineering vehicle from a construction site to a construction site outlet, so that the time and the energy are saved, the environment is protected, and the efficiency is improved. Simple structure is reasonable, convenient to use, but prior art does not possess the function of removing sand to the cistern of washing vehicle, and along with the continuous process of dregs car, the aquatic in the washing pond is dissolved to the silt on the vehicle, and the silt of aquatic increases, and the silt that the water of hanging on the vehicle through contains is many, drips and causes secondary pollution subaerial easily, consequently needs to provide a building construction with automatic water changing vehicle clearance pond urgently.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides an automatic water changing vehicle cleaning pool for building construction.

(II) technical scheme

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a construction is with automatic vehicle clearance pond of changing water, includes the catch basin, set up row's husky mechanism on the catch basin, arrange husky mechanism and include rainwater collecting box, standpipe one, lower slide bar one, connecting rod, vertical slot, lower slide bar two and return bend, standpipe one and catch basin fixed connection, rainwater collecting box and standpipe one fixed connection, lower slide bar one and standpipe one sliding connection, return bend and catch basin fixed connection, lower slide bar two and return bend sliding connection, lower slide bar two is connected with lower slide bar one through the connecting rod, and vertical slot is seted up to the lateral wall of return bend.

Preferably, the return bend is U font pipeline, and the one end opening of return bend is located the catch basin, and the other end opening of return bend is located outside the catch basin, slide bar two and the return bend sliding connection who is located outside the catch basin down, slide bar two and return bend adaptation down, the vertical groove is seted up to the periphery of return bend, and the vertical groove runs through the lateral wall of return bend.

Preferably, the vertical pipe I is a hollow pipeline, the rainwater collecting box is a hollow cylinder with an opening on the top surface, the vertical pipe I is fixedly connected with the bottom surface of the rainwater collecting box and communicated with the rainwater collecting box, the lower slide bar I is matched with the vertical pipe I and is in sliding connection with the inner wall of the vertical pipe I, and the connecting rod is fixedly connected with the bottom surface of the lower slide bar I and the bottom surface of the lower slide bar II.

Preferably, arrange husky mechanism still including violently managing one, deposit sandbox, guide plate and spring, violently manage one and a standpipe fixed connection and violently manage a left side wall that runs through the catch basin, deposit the sandbox pre-buried underground and deposit the sandbox and be located standpipe one under, guide plate and catch basin fixed connection, spring are located standpipe one, the one end and the other end and a standpipe inner wall fixed connection of a lower slide bar up end fixed connection and spring of spring.

Preferably, violently manage one for hollow pipeline, violently manage the periphery fixed connection of left end face and standpipe one of one, violently manage the right-hand member face of one and be located the collecting basin, standpipe one with violently manage one intercommunication, deposit the sandbox and be top surface open-ended box, the height that the top surface place height wall collecting basin bottom surface place of depositing the sandbox is low.

Preferably, the left side wall of guide plate is the cambered surface of indent, and the right side wall of guide plate and the bottom surface of guide plate all laminate with the catch basin, and the guide plate is located violently manage a right side, and when the top surface of slide bar two aligns with perpendicular groove, the up end of slide bar one is located violently manages an left end open-ended top down.

(III) advantageous effects

Compared with the prior art, the utility model provides an automatic water changing vehicle cleaning pool for building construction, which has the following beneficial effects:

1. this vehicle clearance pond of changing water automatically for construction, through in the rainfall weather, the rainwater falls into in the rainwater collecting box, along with the rainwater increase in the rainwater collecting box, slide bar one glides in standpipe one under the weight promotion of rainwater, slide bar two synchronous glides on the drive connecting rod of lower slide bar one, slide bar two is in the elbow pipe and slides down near the water suction elbow pipe of the port that the return bend is located in the catch basin, along with the continuation decline of slide bar one, slide bar two will be full of water in the elbow pipe, after slide bar two movements to the vertical groove below, because the height at the high wall catch basin bottom surface place of vertical groove place is low, discharge the water that the bottom contains silt in the catch basin outside the catch basin from the elbow pipe through the siphon principle, reduce the silt content of the bottom in the catch basin.

2. This vehicle clearance pond of changing water automatically for construction through utilizing the return bend to discharge the catch basin with bottom silt in the catch basin, relatively more energy-conserving with the water pump, simultaneously, because the port of return bend sets up downwards, reduces when not producing the siphon effect, and silt gets into the probability that causes the jam in the return bend, and the sediment effect of arranging is more stable.

3. This vehicle clearance pond of changing water automatically for construction, through collecting the rainwater in the rainwater collecting box, along with the increase of rainwater, the increase of the pressure that the water level rises for slide bar one down in the rainwater collecting box, when reacing a quantitative, the rainwater promotes slide bar one and gliding and extension spring in standpipe one down, after the top surface motion of slide bar one violently managed a left end open-ended below down, rainwater in the rainwater collecting box is through violently managing one row of interior right side wall that goes into the catch basin in the catch basin and assault the catch basin, rainwater that gets into in the guide plate through the water conservancy diversion of guide plate flows to the catch basin interior left side wall, the port impact of the return bend of the interior left side wall of catch basin with silt of flowing rainwater, the siphon that cooperation return bend produced, more will collect the silt in the catch basin and discharge.

4. This vehicle clearance pond of changing water automatically for construction discharges into the catch basin through the rainwater with in the rainwater collecting box to utilize the rainwater to make the return bend absorb water as power, when arranging husky, change the water in the catch basin, provide cleaner washing water for follow-up dregs car in through the catch basin.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an enlarged view of A of FIG. 1 according to the present invention;

FIG. 3 is a partial cutaway view of a standpipe of the present invention.

In the figure: 10. a water collecting tank; 11. a rainwater collection box; 12. a vertical pipe I; 13. a first transverse pipe; 14. a first lower sliding rod; 15. storing a sandbox; 16. a connecting rod; 17. a vertical slot; 18. a second lower sliding rod; 19. bending the pipe; 20. a baffle; 21. a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, an automatic water changing vehicle cleaning pool for building construction comprises a water collecting pool 10, a sand discharging mechanism is arranged on the water collecting pool 10, the sand discharging mechanism comprises a rainwater collecting tank 11, a first vertical pipe 12, a first lower sliding rod 14, a connecting rod 16, a vertical groove 17, a second lower sliding rod 18 and a bent pipe 19, the first vertical pipe 12 is fixedly connected with the water collecting pool 10, the rainwater collecting tank 11 is fixedly connected with the first vertical pipe 12, the first lower sliding rod 14 is slidably connected with the first vertical pipe 12, the bent pipe 19 is fixedly connected with the water collecting pool 10, the second lower sliding rod 18 is slidably connected with the bent pipe 19, the second lower sliding rod 18 is connected with the first lower sliding rod 14 through the connecting rod 16, the vertical groove 17 is arranged on the side wall of the bent pipe 19, rainwater falls into the rainwater collecting tank 11 in rainfall weather, as the rainwater in the rainwater collecting tank 11 increases, the weight of the rainwater pushes the first lower sliding rod 14 to slide in the first vertical pipe 12, the first lower sliding rod 14 drives the second lower sliding rod 18 on the connecting rod 16 to slide synchronously, the lower sliding rod II 18 slides downwards in the bent pipe 19 to suck water near the port of the bent pipe 19 in the water collecting tank 10 into the bent pipe 19, the lower sliding rod II 18 fully sucks the water in the bent pipe 19 along with the continuous descending of the lower sliding rod I14, and after the lower sliding rod II 18 moves to the position below the vertical groove 17, because the height of the bottom surface of the water collecting tank 10 is lower than that of the vertical groove 17, water containing silt on the bottom layer of the water collecting tank 10 is discharged out of the water collecting tank 10 from the bent pipe 19 through the siphon principle, so that the silt content at the bottom in the water collecting tank 10 is reduced.

Through utilizing return bend 19 to discharge catch basin 10 with bottom sediment in catch basin 10, it is more energy-conserving relatively with the water pump, simultaneously, because the port of return bend 19 sets up downwards, reduce when not producing the siphon effect, sediment gets into and causes the probability of blockking up in return bend 19, and the sediment effect of arranging is more stable.

The bent pipe 19 is a U-shaped pipeline, an opening at one end of the bent pipe 19 is positioned outside the water collecting tank 10, an opening at the other end of the bent pipe 19 is positioned outside the water collecting tank 10, a second lower slide bar 18 is slidably connected with the bent pipe 19 positioned outside the water collecting tank 10, the second lower slide bar 18 is matched with the bent pipe 19, a vertical groove 17 is formed in the circumferential surface of the bent pipe 19, the vertical groove 17 penetrates through the side wall of the bent pipe 19, a first vertical pipe 12 is a hollow pipeline, the rainwater collecting tank 11 is a hollow cylinder with an open top surface, the first vertical pipe 12 is fixedly connected with the bottom surface of the rainwater collecting tank 11, the first vertical pipe 12 is communicated with the rainwater collecting tank 11, the first lower slide bar 14 is matched with the first vertical pipe 12, the first lower slide bar 14 is slidably connected with the inner wall of the first vertical pipe 12, the connecting rod 16 is fixedly connected with the bottom surface of the first lower slide bar 14 and the bottom surface of the second lower slide bar 18, the sand discharge mechanism further comprises a first transverse pipe 13, a sand storage tank 15, a guide plate 20 and a spring 21, the first transverse pipe 13 is fixedly connected with the first vertical pipe 12 and penetrates through the left side wall of the water collecting tank 10, the sand storage box 15 is pre-buried underground, the sand storage box 15 is located under the vertical pipe I12, the guide plate 20 is fixedly connected with the water collecting tank 10, the spring 21 is located in the vertical pipe I12, one end of the spring 21 is fixedly connected with the upper end face of the lower slide rod I14, the other end of the spring 21 is fixedly connected with the inner wall of the vertical pipe I12, the horizontal pipe I13 is a hollow pipeline, the left end face of the horizontal pipe I13 is fixedly connected with the circumferential face of the vertical pipe I12, the right end face of the horizontal pipe I13 is located in the water collecting tank 10, the vertical pipe I12 is communicated with the horizontal pipe I13, the sand storage box 15 is a box body with an opening in the top face, the height of the top face of the sand storage box 15 on the bottom face of the height wall water collecting tank 10 is low, the left side wall of the guide plate 20 is an inwards concave cambered surface, the right side wall of the guide plate 20 and the bottom face of the guide plate 20 are both attached to the water collecting tank 10, the guide plate 20 is located on the right side of the horizontal pipe I13, when the top face of the lower slide rod II 18 is aligned to the vertical groove 17, the upper end surface of the lower sliding rod I14 is positioned above the opening at the left end of the transverse pipe I13, rainwater is collected in the rainwater collection box 11, along with the increase of rainwater, the pressure of the rainwater in the rainwater collection box 11 rising to the lower sliding rod I14 is increased, when a certain amount of rainwater reaches, the rainwater pushes the lower sliding rod I14 to slide downwards in the vertical pipe I12 and stretch the spring 21, after the top surface of the lower sliding rod I14 moves to the position below the opening at the left end of the transverse pipe I13, the rainwater in the rainwater collection box 11 is discharged into the water collection tank 10 through the transverse pipe I13 and impacts the inner right side wall of the water collection tank 10, the rainwater entering the guide plate 20 through the flow guide of the guide plate 20 flows to the left side wall in the water collection tank 10, silt is impacted by the flowing rainwater to the port of the bent pipe 19 at the left side wall in the water collection tank 10, and the silt in the water collection tank 10 is discharged more in cooperation with the siphon generated by the bent pipe 19.

By discharging rainwater in the rainwater collection box 11 into the water collection tank 10 and utilizing the rainwater as power to enable the bent pipe 19 to absorb water, the water in the water collection tank 10 is replaced while sand is discharged, and cleaner flushing water is provided for a residue soil truck passing through the water collection tank 10 subsequently.

When the rainwater collecting device is used, in rainy days, rainwater falls into the rainwater collecting box 11, the pressure intensity of water in the rainwater collecting box 11 for the first lower sliding rod 14 is increased along with the increase of the rainwater in the rainwater collecting box 11, when a certain amount of rainwater is reached, the rainwater pushes the first lower sliding rod 14 to slide downwards in the first vertical pipe 12 and stretches the spring 21, the first lower sliding rod 14 drives the second lower sliding rod 18 on the connecting rod 16 to slide downwards synchronously, the second lower sliding rod 18 slides downwards in the bent pipe 19 to suck water near the port of the bent pipe 19 in the water collecting tank 10 into the bent pipe 19, after the top surface of the first lower sliding rod 14 moves to the position below the opening at the left end of the first transverse pipe 13, the rainwater in the rainwater collecting box 11 is discharged into the water collecting tank 10 through the first transverse pipe 13 and impacts the inner right side wall of the water collecting tank 10, the rainwater entering the guide plate 20 through the flow towards the inner left side wall of the water collecting tank 10 and continuously descends along with the first lower sliding rod 14, the second lower sliding rod 18 fills the bent pipe 19 with water, and after the second lower sliding rod 18 moves to the position below the vertical groove 17, the water containing silt on the bottom layer of the water collecting tank 10 is discharged out of the water collecting tank 10 from the bent pipe 19 by the siphon principle due to the fact that the height of the bottom surface of the water collecting tank 10 is lower than the height of the vertical groove 17.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a construction is with automatic vehicle clearance pond of changing water, includes catch basin (10), its characterized in that: set up on catch basin (10) and arrange husky mechanism, arrange husky mechanism and include rainwater collecting box (11), standpipe (12), downslide pole (14), connecting rod (16), perpendicular groove (17), downslide pole two (18) and return bend (19), standpipe (12) and catch basin (10) fixed connection, rainwater collecting box (11) and standpipe (12) fixed connection, downslide pole (14) and standpipe (12) sliding connection, return bend (19) and catch basin (10) fixed connection, downslide pole two (18) and return bend (19) sliding connection, downslide pole two (18) are connected with downslide pole (14) through connecting rod (16), and the vertical groove (17) is seted up to the lateral wall of return bend (19).

2. The automatic water changing vehicle cleaning pool for building construction as claimed in claim 1, wherein: elbow pipe (19) are U font pipeline, and the one end opening of elbow pipe (19) is located catch basin (10), and the other end opening of elbow pipe (19) is located outside catch basin (10), slide bar two (18) and return bend (19) sliding connection who is located catch basin (10) down, slide bar two (18) and return bend (19) adaptation down, vertical groove (17) are seted up to the periphery of return bend (19), and vertical groove (17) run through the lateral wall of return bend (19).

3. The automatic water changing vehicle cleaning pool for building construction as claimed in claim 2, wherein: the rainwater collection device is characterized in that the vertical pipe I (12) is a hollow pipeline, the rainwater collection box (11) is a hollow cylinder with an opening in the top surface, the vertical pipe I (12) is fixedly connected with the bottom surface of the rainwater collection box (11), the vertical pipe I (12) is communicated with the rainwater collection box (11), the lower slide bar I (14) is matched with the vertical pipe I (12), the lower slide bar I (14) is slidably connected with the inner wall of the vertical pipe I (12), and the connecting rod (16) is fixedly connected with the bottom surface of the lower slide bar I (14) and the bottom surface of the lower slide bar II (18) at the same time.

4. The automatic water changing vehicle cleaning pool for building construction as claimed in claim 3, wherein: arrange husky mechanism still including violently managing (13), deposit sandbox (15), guide plate (20) and spring (21), violently manage one (13) and violently manage the left side wall that one (13) runs through catch basin (10) with standpipe (12) fixed connection, deposit sandbox (15) pre-buried underground and deposit sandbox (15) and be located standpipe (12) under, guide plate (20) and catch basin (10) fixed connection, spring (21) are located standpipe (12), the one end of spring (21) and gliding rod (14) up end fixed connection and the other end and standpipe (12) inner wall fixed connection of spring (21).

5. The automatic water changing vehicle cleaning pool for building construction as claimed in claim 4, wherein: violently manage (13) and be hollow pipeline, violently manage the periphery fixed connection of the left end face of one (13) and standpipe (12), violently manage the right-hand member face of one (13) and be located catch basin (10), standpipe (12) and violently manage one (13) intercommunication, deposit sandbox (15) and be top surface open-ended box, the top surface place height wall catch basin (10) bottom surface place height of depositing sandbox (15) is low.

6. The automatic water changing vehicle cleaning pool for building construction as claimed in claim 5, wherein: the left side wall of guide plate (20) is the cambered surface of indent, and the right side wall of guide plate (20) and the bottom surface of guide plate (20) all laminate with catch basin (10), and guide plate (20) are located violently the right side of pipe (13), and when the top surface of slide bar two (18) aligns with perpendicular groove (17), the up end of slide bar one (14) is located violently the open top of pipe one (13) left end down.

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