CN218204676U - Water supply installation is used in road construction - Google Patents

Abstract

The utility model relates to a water supply installation is used in road construction, including header tank, baffle and collection water component, the inner chamber has been seted up to the header tank, the baffle separates the inner chamber for water purification chamber and waste water chamber, wherein, the baffle is equipped with and is used for controlling the water of water purification intracavity and gets into to the valve of waste water intracavity, the waste water chamber is equipped with the collecting vat, the collecting vat with waste water chamber intercommunication, collection water component is used for collecting sewage and lets sewage flow in to the waste water intracavity after passing through the collecting vat. This application need not to make a round trip to switch between waste water tank and domestic water with water equipment and is connected, has the effect that improves the efficiency of construction.

Description

Water supply installation is used in road construction

Technical Field

The application relates to the field of construction water supply, especially relate to a water supply installation for road construction.

Background

In the construction of roads, such as washing and dust fall, a large amount of water is required.

The road water mainly adopts reclaimed water, and a small part of domestic water, namely reclaimed water or domestic water, can cause the increase of construction cost investment as long as the water consumption is increased. For using water wisely, collect waste water to waste water tank storage at present stage usually, this waste water is the water that falls into ground after the construction or raining, and water equipment can be connected with waste water tank when using, the waste water of preferred use in waste water tank.

After the waste water in the waste water jar is used up, the water pipe of water equipment need be taken out from the waste water jar, then is connected with domestic water and just can continue to keep work, after the waste water of waste water jar has been collected, the water pipe need be connected with the waste water jar once more and just can use waste water. Since the water in the waste tank is not continuously replenished. The water utilization equipment needs to be connected with the waste water tank and domestic water in a back-and-forth switching mode, which is very troublesome, and the working efficiency can be reduced.

Disclosure of Invention

Switch back and forth between waste water jar and domestic water for the water pipe that need not water equipment, this application provides a water supply installation for road construction.

The application provides a water supply installation for road construction adopts following technical scheme:

the utility model provides a water supply installation for road construction, includes header tank, baffle and collection water component, the inner chamber has been seted up to the header tank, the baffle separates the inner chamber for water purification chamber and waste water chamber, wherein, the baffle is equipped with and is used for controlling the water of water purification intracavity and gets into to the valve of waste water intracavity, the waste water chamber is equipped with collecting vat and outlet, the collecting vat with the outlet all with waste water chamber intercommunication, collection water component is used for collecting sewage and lets sewage flow in to the waste water intracavity after passing through the collecting vat.

Through adopting above-mentioned technical scheme, the water purification intracavity has the domestic water of storage, and waste water is stored to the waste water intracavity, and waste water can be collected to the subassembly that catchments on the one hand, lets waste water flow in the waste water intracavity through the collecting vat. On the other hand when the water of waste water intracavity is less than the threshold value, can open through the valve, lets the domestic water of water purification intracavity flow into to the waste water chamber, through this kind of mode, lets the waste water intracavity have water to use all the time, can let water equipment can be connected with the waste water chamber through the outlet always, need not make a round trip to be connected between domestic water and waste water tank, improves work efficiency.

Optionally, the water collecting assembly comprises a drainage channel and a water receiving tank, the drainage channel is used for draining water into the water receiving tank, a water pump is arranged in the water receiving tank, and the output end of the water pump is connected with a water pipe used for transporting waste water in the water receiving tank to the collecting tank.

Through adopting above-mentioned technical scheme, can collect waste water, because the water of using can stay and be difficult to collect subaerial, so establish the drainage way subaerial, make subaerial water gather together through the drainage way, then collect to the water receiving tank, can conveniently collect subaerial water, at last through water pipe and water pump with the water collection in the water receiving tank to waste water intracavity store, use when needs.

Optionally, a filter sieve is arranged in the collecting tank, a side wall of the filter sieve close to one side of the water pipe is obliquely arranged, and a flow guide cavity for water to flow is reserved between the obliquely arranged side wall of the filter sieve and the side wall of the collecting tank.

Through adopting above-mentioned technical scheme, waste water can pass through the filter sieve when collecting, and the waste water after the filter sieve filters just can get into the waste water intracavity, reduces the solid impurity of waste water, and the lateral wall that the slope set up can improve the waste water filter effect, and the water conservancy diversion chamber can make the waste water after filtering smoothly through-flow go into to the waste water intracavity, improves the filter speed.

Optionally, the filter sieve is provided with a concave block for clamping the side wall of the water pipe.

Through adopting above-mentioned technical scheme, concave piece can support the water pipe, can let waste water enter into the filter sieve, owing to block only rather than fixed, so when needs are cleared up the filter sieve, only need with the water pipe from concave piece take away alright, convenient separation.

Optionally, two adjacent side walls of the side wall of the filter screen, which is obliquely arranged, are provided with grabbing grooves for facilitating the detachment of the filter screen.

Through adopting above-mentioned technical scheme, when needing to dismantle the filter sieve, earlier with water pipe and filter sieve after-separating, avoid entering into the waste water chamber for filterable waste water, then grasp and grab the groove and up mention, can conveniently dismantle the filter sieve.

Optionally, the upper portion of water receiving tank is installed the subassembly of removing the dregs, remove the dregs subassembly and include filtering the piece, it keeps away from header tank one side rotation to filter the relative water receiving tank of piece.

Through adopting above-mentioned technical scheme, filtering piece can be to filtering earlier when waste water is collected to the water receiving tank before, because filterable impurity is more, so need often clear up the impurity that filters on the piece, filter and can rotate towards the header tank opposite direction to the impurity that filters on the mode of empting is cleared up, reduces the interference to the water pipe.

Optionally, filter the piece with be equipped with the elevating platform between the water receiving tank, the elevating platform bottom is fixed with the guide bar with water receiving tank sliding connection, the exit position of drainage way is equipped with and is used for drainage waste water to the drainage plate who filters the piece, the drainage plate both ends rotate with drainage way export lateral wall and are connected, can promote when the elevating platform rises the drainage plate rotates to flow from the exit position with the water that hinders drainage way when filtering the piece and topples over.

Through adopting above-mentioned technical scheme, the drainage plate can accurately guide the waste water in the drainage way to flow into and filter the piece, and when needs cleared up filtering piece, the elevating platform up removed, can promote the drainage plate and rotate, lets the drainage plate temporarily plug up the drainage way, can not let unfiltered sewage directly get into the water receiving tank.

Optionally, the water receiving tank with be equipped with first driving piece between the elevating platform, first driving piece is used for the drive the elevating platform is relative the water receiving tank is kept away from or is close to the motion, the elevating platform with it is used for the drive to filter the piece relatively elevating platform pivoted second driving piece.

Through adopting above-mentioned technical scheme, because the impurity of filtering piece piles up comparatively fast, so need often clear up, through first driving piece and second driving piece, can let the elevating platform rise automatically and make filter the piece rotation, need not manual operation.

Optionally, the drainage channel is provided with a limiting block for limiting the swing amplitude of the filtering piece.

By adopting the technical scheme, the drainage channel is provided with the limiting block for limiting the rotation angle of the filtering piece.

Optionally, filter and can be blocked by the stopper when rotating certain angle, can make and filter when contacting the stopper, and is static rapidly, and impurity in filtering the piece comes out from filtering under inertia, improves cleaning efficiency.

Optionally, a handle is arranged on one side of the filtering piece close to the water collecting tank.

Through adopting above-mentioned technical scheme, when needs manual work comes the clearance, can grasp the grab handle, drive and filter the piece and rotate.

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

through setting up water purification chamber and waste water chamber on the header tank, then with water purification chamber and waste water chamber intercommunication, can be so that the water of waste water intracavity lasts the supply, whether collect sewage and supply domestic water just to can let the water pipe of water using equipment be connected with the waste water chamber always, need not to make a round trip to switch over and connect, simultaneously, before replenishing the waste water chamber, can filter earlier, reduce the great impurity of granule also by collecting to the waste water chamber in.

The filter sieve is provided with the grabbing groove, and when the filter sieve is disassembled, the grabbing groove can be grabbed backwards to lift upwards, so that the filter sieve is convenient to disassemble.

Can let the drainage board temporarily plug up the drainage way through the elevating platform when clearing up filtering piece, can not let in unfiltered sewage directly gets into the water receiving tank.

Drawings

Fig. 1 is a schematic view of a water supply apparatus in the present application.

Fig. 2 is a schematic view of a state in which the second filter member is poured.

Fig. 3 is an exploded view of a portion of the structure of the water collection assembly and the deslagging assembly.

Fig. 4 is a schematic internal sectional view of the water supply apparatus.

Fig. 5 is an enlarged schematic view of a in fig. 4.

Description of reference numerals: 1. a water collection tank; 11. a partition plate; 12. a valve; 13. a water outlet; 2. an inner cavity; 21. a water purifying cavity; 211. a water outlet; 22. a waste water chamber; 23. collecting tank; 3. a water collection assembly; 31. a drainage duct; 311. a drainage plate; 32. a water receiving tank; 33. a water pipe; 34. filtering and screening; 351. a concave block; 352. a flow guide cavity; 353. grabbing a groove; 4. a deslagging assembly; 41. a lifting platform; 411. a first driving member; 412. a guide bar; 42. a filter member; 421. a second driving member; 43. a limiting block; 44. a handle.

Detailed Description

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

The embodiment of the application discloses water supply installation for road construction.

Referring to fig. 1 and 2, a water supply installation for road construction, includes header tank 1 and collection subassembly 3, and collection subassembly 3 includes drainage 31 and water receiving tank 32, and the opening in drainage 31 top is less than ground, also can regard the ditch in road both sides as a part of drainage 31 in the actual operation. Drainage 31 collects waste water such as washing, dust fall, rainwater in the road construction to in collecting water tank 32, collecting water tank 32 is connected with water pipe 33 with header tank 1, and water pipe 33 matches there is the water pump in order to connect the waste water in collecting water tank 32 to header tank 1, stores by header tank 1, and when needs, the waste water of storing will be applied to road construction once more.

The end of drainage way 31 articulates there is drainage plate 311, and drainage plate 311 is located the top of water receiving tank 32 notch, and drainage plate 311 can guide the waste water in drainage groove to water receiving tank 32.

The water receiving tank 32 may be formed by digging in construction, or may be formed by placing a box body having an opening at the top. In this embodiment, the water receiving tank 32 is taken as a box with a solid body. The upper part of the water receiving tank 32 is covered with a filtering piece 42. The wastewater guided by the drainage plate 311 firstly falls into the filtering member 42, the filtering member 42 filters most of impurities and silt, and then the wastewater with relatively less impurities and silt falls into the water receiving tank 32. Accordingly, debris and silt will accumulate on filter element 42.

Referring to fig. 2 and 3, a lifting platform 41 is disposed above the water receiving tank 32, and the filtering member 42 is disposed above the lifting platform 41 and hinged to the lifting platform 41. The outer side wall of the water receiving tank 32 is fixed with a first driving member 411, the output end of the first driving member 411 is fixedly connected with the outer side wall of the lifting platform 41, and the lifting platform 41 can be controlled to lift relative to the water receiving tank 32. The filtering member 42 is connected to the second driving member 421, and the second driving member 421 can drive the filtering member 42 to rotate in a direction away from the water collecting tank 1, thereby preventing the poured foreign matters from interfering with the water pipe 33. In this embodiment, two first driving members 411 are provided, and are electric push rods; four corners of the bottom of the lifting platform 41 are fixedly provided with guide rods 412 inserted into the water receiving groove 32, the guide rods 412 are slidably connected with the water receiving groove 32, so that the stability of the lifting platform 41 during lifting can be improved, and the second driving part 421 is a motor and is arranged on one side of the filter part 42 away from the drainage plate 311.

When needing to clear up the impurity on the straining piece 42, first driving piece 411 makes elevating platform 41 rebound, elevating platform 41 drives drainage plate 311 and rotates, let drainage plate 311 block the sewage of drainage way 31, elevating platform 41 can restrict drainage plate 311 with the lateral wall of straining piece 42 and reset, then second driving piece 421 starts to let filtration piece 42 rotate, the lateral wall of elevating platform 41 can also support drainage plate 311 next this moment, make drainage plate 311 keep the state that blocks always, filter piece 42 resets earlier after the clearance finishes, then elevating platform 41 descends and lets drainage plate 311 also reset next, make drainage plate 311 continue to lead and draw waste water.

For the effect of improving the clearance impurity of filtering a piece 42, in this embodiment, the lateral wall of drainage way 31 is still fixed with the stopper 43 that limits the swing range of filtering a piece 42, and second driving piece 421 drives filtering a piece 42 and rotates, and when filtering a piece 42 and hit stopper 43, filtering a piece 42 can produce vibrations, makes things convenient for impurity to drop. After cleaning is complete, the second drive member resets filter element 42. A grip 44 is provided on the side remote from the rotational position of the filter element 42 to assist in rotation of the filter element 42 in the event of failure of the second drive 421. The limiting block 43 of other embodiments can also be fixed on the water receiving tank 32 or other parts.

Referring to fig. 4 and 5, the water collection tank 1 is provided with a collection tank 23 communicated with the outside, a water pipe 33 transports sewage in the water receiving tank 32 to the collection tank 23, a filter sieve 34 is arranged in the collection tank 23, and the sewage is filtered by the filter sieve 34 and then enters the water collection tank 1. The filter sieve 34 is provided with a concave block 351 for clamping the side wall of the water pipe 33, the water pipe 33 can be fixed, one side of the filter sieve 34 close to the water pipe 33 is obliquely arranged, and a flow guide cavity 352 is reserved between the obliquely arranged side and the side wall of the collecting tank 23, so that the filtering effect can be improved. The two adjacent sides of the inclined surface of the filter sieve 34 are provided with the grabbing grooves 353, so that the filter sieve 34 can be conveniently detached.

Referring to fig. 4, a partition plate 11 for dividing the inner chamber 2 into a clean water chamber 21 and a waste water chamber 22 is fixed to the inner chamber 2 of the water collecting tank 1, the waste water chamber 22 is located below the partition plate 11, the waste water chamber 22 is used for storing waste water, the collecting tank 23 and the water outlet 13 are communicated with the waste water chamber 22, waste water filtered by the filter sieve 34 enters the waste water chamber 22 through the collecting tank 23, and the water outlet 13 is externally connected with a water using device. The water purifying cavity 21 is positioned at the upper part of the clapboard 11, and the water in the water purifying cavity 21 is domestic water. The water in the clear water cavity 21 can be used for supplementing the waste water cavity 22, the water outlet 211 is arranged on the clear water cavity 21, so that the water in the clear water cavity 21 can also come out from the water outlet 211 and can be directly used, the water outlet 211 is arranged towards the collecting tank 23, the used water can directly pass through the collecting tank 23 and then flows into the waste water cavity 22.

Referring to fig. 4, the partition 11 is provided with a valve 12, and the valve 12 in this embodiment is a ball float valve, a ball float of the ball float valve is positioned in the waste water chamber 22, the ball float is spaced from the bottom wall of the waste water chamber 22 by a predetermined height, and the height of the drain port 13 is lower than the predetermined height. When the water amount of the waste water is lower than the water level, which indicates that the water in the waste water cavity 22 is about to be used up, the floating ball will be lowered along with the decrease of the water amount of the waste water, and the floating ball valve will be opened at the moment, so that the water in the purified water cavity 21 can be supplemented into the waste water cavity 22. On the contrary, when the amount of wastewater is higher than the predetermined water level, the float ball will not be lowered under the buoyancy of water, and the ball float valve 12 will be closed, so as to prevent the wastewater in the wastewater chamber 22 from flowing back to the clean water chamber 21. The valve of other embodiments can be a solenoid valve, and the opening and closing of the solenoid valve are controlled by installing a water level sensor. Waste water chamber 22 both can collect waste water through collecting vat 23, and when waste water used up, can also be supplemented by domestic water, there is water in messenger's waste water chamber 22 all the time to can let waste water chamber 22 external water equipment always, and need not use water equipment to make a round trip to switch between domestic water and waste water and connect.

The implementation principle of the embodiment is as follows: the waste water is collected by the tendency of water flowing from high to low and then pumped into the waste water chamber 22, and the waste water is filtered by the first filtering element during entering the waste water chamber 22 to reduce impurities. Impurities left in the first and second filter elements can be cleaned; the upper part of the waste water cavity 22 is provided with a water purifying cavity 21, when the water level in the waste water cavity 22 is less than a certain level, the valve 12 is opened, and the water in the water inlet cavity is supplemented to the waste water cavity 22.

The above are all the preferred embodiments of the present application, and the protection scope of the present application is not limited thereby, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a water supply installation for road construction which characterized in that: including header tank (1), baffle (11) and collection water component (3), inner chamber (2) have been seted up in header tank (1), baffle (11) are separated inner chamber (2) for water purification chamber (21) and waste water chamber (22), wherein, baffle (11) are equipped with and are used for controlling valve (12) that water in water purification chamber (21) got into to waste water chamber (22) in, waste water chamber (22) are equipped with collecting vat (23) and outlet (13), collecting vat (23) with outlet (13) all with waste water chamber (22) intercommunication, collection water component (3) are used for collecting sewage and let sewage flow into to waste water chamber (22) after through collecting vat (23).

2. The water supply device for road construction according to claim 1, characterized in that: the water collecting assembly (3) comprises a drainage channel (31) and a water receiving groove (32), the drainage channel (31) is used for draining water into the water receiving groove (32), a water pump is arranged in the water receiving groove (32), and the output end of the water pump is connected with a water pipe (33) used for conveying waste water in the water receiving groove (32) to a collecting groove (23).

3. The water supply device for road construction according to claim 2, characterized in that: a filter sieve (34) is arranged in the collecting tank (23), the side wall of one side, close to the water pipe (33), of the filter sieve (34) is obliquely arranged, and a flow guide cavity (352) for water flowing is reserved between the obliquely arranged side wall of the filter sieve (34) and the side wall of the collecting tank (23).

4. The water supply apparatus for road construction according to claim 3, characterized in that: the filter screen (34) is provided with a concave block (351) used for clamping the side wall of the water pipe (33).

5. The water supply apparatus for road construction according to claim 3, characterized in that: and two adjacent side walls of the side wall of the filter sieve (34) which is obliquely arranged are provided with catching grooves (353) which are convenient for dismounting the filter sieve (34).

6. The water supply apparatus for road construction according to any one of claims 2 to 5, characterized in that: remove residue subassembly (4) are installed on the upper portion of water receiving tank (32), remove residue subassembly (4) including filtering piece (42), filter piece (42) and connect water receiving tank (32) relatively and keep away from header tank (1) one side rotation.

7. The water supply apparatus for road construction according to claim 6, characterized in that: filter piece (42) with be equipped with elevating platform (41) between water receiving tank (32), elevating platform (41) bottom is fixed with guide bar (412) with water receiving tank (32) sliding connection, the exit position of drainage way (31) is equipped with and is used for drainage to filtering drainage plate (311) of piece (42) with waste water, drainage plate (311) both ends and drainage way (31) export lateral wall rotate to be connected, can promote when elevating platform (41) rise drainage plate (311) rotate to flow from the exit position with the water that hinders drainage way (31) when toppling over of filtering piece (42).

8. The water supply apparatus for road construction according to claim 7, characterized in that: water receiving tank (32) with be equipped with first driving piece (411) between elevating platform (41), first driving piece (411) are used for the drive elevating platform (41) are relative water receiving tank (32) is kept away from or is close to the motion, elevating platform (41) with it is equipped with to be used for the drive to filter piece (42) relatively elevating platform (41) pivoted second driving piece (421).

9. The water supply apparatus for road construction according to claim 8, characterized in that: the drainage channel (31) is provided with a limiting block (43) for limiting the swing amplitude of the filtering piece (42).

10. The water supply apparatus for road construction according to claim 8, characterized in that: and a grab handle (44) is arranged on one side of the filtering piece (42) close to the water collecting tank (1).

Images