CN218740351U - Steady-state oil-removing water inlet structure - Google Patents

Abstract

The utility model belongs to the technical field of sewage treatment, especially, relate to a steady state deoiling inlet structure. The utility model discloses, including the deoiling box, the deoiling box in be equipped with a plurality of inlet tubes, the inlet tube in be equipped with electronic control measuring part, the deoiling box in be equipped with a plurality of cloth water columns along deoiling box central line symmetry. The utility model controls the water inflow through the electric control measuring part, can effectively control the total water inflow, and realizes the 'steady state' water inflow; the water distribution column is located the lower side end of deoiling box, adopt degree of depth water distribution structure, the speed of initial intaking has effectively been reduced through steady state water distribution deceleration subassembly, turbulent flow (torrent) is avoided appearing, realize the stable state of rivers, build stable rivers state, after rivers are stable, upwards rotate steady state water distribution deceleration subassembly, the oil droplet that enables in the sewage rises, process maintenance balance such as coalescence, keep better state during water oil separating, realize the steady state deoiling, the adjustability is stronger, have corresponding steady state water distribution and deoiling.

Description

Steady-state oil-removing water inlet structure

Technical Field

The utility model belongs to the technical field of sewage treatment, a steady state deoiling inlet structure is related to.

Background

In the sewage treatment link, one of the indispensable steps during to grease treatment, current sewage deoiling water installations is at the in-process of intaking, and its velocity of flow of intaking is difficult to control, appears turbulent flow (torrent) phenomenon easily, is difficult to form the stable rivers state of stable state, realizes that stable deoiling degree of difficulty is great.

In order to overcome the defects of the prior art, people continuously explore and propose various solutions, for example, a sewage oil removing mechanism is disclosed in a Chinese patent application number: 201810113292.8], which comprises a housin, the oil absorption mechanism, the cylinder, the guide arm, the connecting seat, the transition funnel, the oil drain pipe, press oil mechanism, set up the device in the effluent water sump top, make the oil absorption sponge cover stretch into below the liquid level during installation, the buncher drives the oil absorption sponge cover that links firmly with interior cylinder and rotates, thereby oil stain and water absorption on the oil absorption sponge cover will flow through, and simultaneously, the cylinder promotes the transition funnel and moves to the right along the guide arm, press oil mechanism and oil absorption sponge cover contact, the stainless steel cylinder is rotatory on one side and is extrudeed the oil absorption sponge cover and make it take place the deformation, the interior adsorbed profit of oil absorption sponge cover falls in the drainage port, flow into the oil drain pipe through the funnel body afterwards and discharge, the backward flow mouth is used for collecting the profit that splashes and flows into in the funnel body after gathering. However, in the water inlet process of the scheme, the water inlet flow rate is still difficult to control, the phenomenon of turbulent flow (turbulence) is easy to occur, the stable water flow state is difficult to form, and the defect of high difficulty in realizing stable oil removal exists.

Disclosure of Invention

The utility model aims at the above-mentioned problem, a stable state deoiling inlet structure is provided.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a stable state deoiling inlet structure, is including the deoiling box, the deoiling box in be equipped with a plurality of inlet tubes, the inlet tube in be equipped with electronic control measuring part, the deoiling box in be equipped with a plurality of water distribution posts along deoiling box central line symmetry, the water distribution post in be equipped with into water connecting portion, water inlet connecting portion link to each other with the inlet tube, the water distribution post on be equipped with rotatable stable state water distribution deceleration subassembly, stable state water distribution deceleration subassembly corresponding with the position of water inlet connecting portion.

In foretell stable state deoiling inlet structure, stable state water distribution deceleration subassembly including set up the stable state water distribution deceleration baffle on the water distribution column, stable state water distribution deceleration baffle be the arc, stable state water distribution deceleration baffle and the position of intaking connecting portion corresponding.

In foretell stable-state deoiling inlet structure, the connecting portion of intaking including set up the transfer chamber of intaking in the water distribution column, intake transfer chamber and inlet tube between link to each other through the intercommunication groove, intercommunication groove one end with intake transfer chamber link to each other, the other end links to each other with the inlet tube.

In the steady-state oil-removing water inlet structure, one end of the water inlet transit cavity, which is far away from the water inlet pipe, is provided with a water distribution release part, and the water distribution release part corresponds to the steady-state water distribution deceleration baffle.

In the steady-state oil-removing water inlet structure, the water distribution release part comprises a plurality of water distribution release hole grooves which are arranged at one end of the water inlet transit cavity far away from the water inlet pipe, the water distribution release hole grooves correspond to the arc-shaped surface of the steady-state water distribution deceleration baffle, and the water distribution release hole grooves are arranged in parallel.

In foretell stable state deoiling inlet structure, stable state water distribution deceleration baffle on be equipped with the rotation connecting plate, rotation connecting plate and water distribution post looks normal running fit, the water distribution post in be equipped with spacing spout, the rotation connecting plate on be equipped with the stopper, stopper and spacing spout looks sliding fit.

In foretell steady state deoiling inlet structure, the shape of rotation connecting plate and cloth water column match and be fit for, deoiling the box in be equipped with and be used for driving to rotate connecting plate pivoted angle modulation driving piece.

In foretell stable state deoiling water inlet structure, the angle modulation driving piece including set up the waterproof cover seat in the deoiling box, the waterproof cover seat in be equipped with the steering wheel, the axis of rotation of steering wheel on be connected with the lateral part rotary drum, the lateral part rotary drum link to each other with the rotation connecting plate.

In the steady-state oil-removing water inlet structure, the side rotary drum is provided with an anti-drop block, the water distribution column is internally provided with an annular anti-drop groove, and the anti-drop block is in sliding fit with the annular anti-drop groove.

In the steady-state oil-removing water inlet structure, the electric control component comprises an electric valve arranged in the water inlet pipe.

Compared with the prior art, the utility model has the advantages of:

1. when the utility model is used, sewage enters the oil removing box body through the water inlet pipe and the water distribution column, and the water inflow is controlled through the electric control component in the water inflow process, so that the total water inflow can be effectively controlled, and the stable water inflow is realized; and through rotating the steady-state water distribution deceleration component to the position corresponding to the water outlet, the water distribution column is positioned at the lower side end of the oil removal tank body, a deep water distribution structure is adopted, in the sewage input process, the initial water inlet speed is effectively reduced through the steady-state water distribution deceleration component, turbulence is avoided, the steady state of water flow is realized, a stable water flow state is created, after the water flow is stabilized, the steady-state water distribution deceleration component is rotated upwards, the processes of oil drop rising, coalescence and the like in the sewage can be kept balanced, a better state is kept during oil-water separation, steady oil removal is realized, the adjustability is strong, and targeted steady-state water distribution and oil removal are achieved.

2. The utility model discloses a set up the rotation connecting plate for connect fixed stable state water distribution deceleration baffle, rotate the in-process when stable state water distribution deceleration baffle, through the normal running fit between rotation connecting plate and the water distribution post, deuterogamy stopper and spacing spout looks sliding fit for stable state water distribution deceleration baffle can be followed water distribution post central point and is circumferential direction, adjusts the angle of stable state water distribution deceleration baffle with this, whether need be corresponding with the delivery port.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

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

Fig. 2 is an enlarged schematic view at a in fig. 1.

FIG. 3 is a schematic cross-sectional view of a water distribution column.

FIG. 4 is a connection structure diagram of the side drum and the steady-state water distribution deceleration component.

In the figure: the device comprises an oil removal tank body 1, a water inlet pipe 2, an electric control measuring part 3, a water distribution column 4, a water inlet connecting part 5, a stable water distribution deceleration component 6, a stable water distribution deceleration baffle 7, a water inlet transit cavity 8, a communicating groove 9, a water distribution releasing part 10, a water distribution releasing hole groove 11, a rotating connecting plate 12, a limiting sliding groove 13, a limiting block 14, an angle adjusting driving part 15, a waterproof cover seat 16, a steering engine 17, a side rotary drum 18, an anti-falling block 19, an annular anti-falling groove 20 and an electric valve 21.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1-4, a stable oil removing water inlet structure, including deoiling box 1, deoiling box 1 in be equipped with a plurality of inlet tubes 2, inlet tube 2 in be equipped with electronic control measuring part 3, deoiling box 1 in be equipped with a plurality of water distribution posts 4 along deoiling box 1 central line symmetry, water distribution posts 4 in be equipped with into water connecting portion 5, water connecting portion 5 and inlet tube 2 link to each other, water distribution posts 4 on be equipped with rotatable stable state water distribution deceleration subassembly 6, stable state water distribution deceleration subassembly 6 and the position of water connecting portion 5 of intaking corresponding.

In the embodiment, in the using process, sewage enters the oil removing tank body 1 through the water inlet pipe 2 and the water distribution column 4, and in the water inlet process, the water inflow amount is controlled through the electric control measuring part 3, so that the total water inflow amount can be effectively controlled, and the 'stable state' water inlet is realized; and through rotating the steady-state water distribution deceleration component 6 to the position corresponding to the water outlet, the water distribution column 4 is positioned at the lower side end of the oil removal tank 1, and a deep water distribution structure is adopted, in the sewage input process, the initial water inlet speed is effectively reduced through the steady-state water distribution deceleration component 6, turbulence is avoided, the steady state of water flow is realized, a stable water flow state is created, after the water flow is stabilized, the steady-state water distribution deceleration component 6 is rotated upwards, the processes of oil drop rising, coalescence and the like in the sewage can be kept balanced, a better state is kept during oil-water separation, the steady-state oil removal is realized, the adjustability is stronger, and the targeted steady-state water distribution and oil removal are realized.

Combine fig. 1-4 to show, steady state water distribution deceleration subassembly 6 including set up steady state water distribution deceleration baffle 7 on water distribution column 4, steady state water distribution deceleration baffle 7 be the arc, steady state water distribution deceleration baffle 7 corresponding with the position of water inlet connecting portion 5.

Specifically, in the using process, sewage enters the oil removing tank body 1 through the water inlet pipe 2 and the water distribution column 4, and in the water inlet process, the water inflow amount is controlled through the electric control measuring part 3, so that the total water inflow amount can be effectively controlled, and the stable water inlet is realized; and through rotating the steady-state water distribution deceleration baffle 7 to the position corresponding to the water outlet, the water distribution column 4 is positioned at the lower side end of the oil removal tank 1, a deep water distribution structure is adopted, in the sewage input process, the water flow of the water outlet can flow through the cambered surface of the steady-state water distribution deceleration baffle 7 to play a role in diversion, the initial water inlet speed is effectively reduced through the steady-state water distribution deceleration baffle 7, turbulence is avoided, the steady state of the water flow is realized, a stable water flow state is created, after the water flow is stabilized, the steady-state water distribution deceleration baffle 7 is rotated upwards, the processes of oil drop rising, coalescence and the like in the sewage can be kept balanced, a better state is kept during oil-water separation, steady-state oil removal is realized, the adjustability is stronger, and the steady-state water distribution and oil removal with pertinence are realized.

Combine fig. 2, fig. 3 to show, the connecting portion 5 of intaking including setting up the transfer chamber 8 of intaking in the water distribution post 4, the transfer chamber 8 of intaking link to each other through the intercommunication groove 9 with the inlet tube 2 between, 9 one end of intercommunication groove with intake transfer chamber 8 and link to each other, the other end links to each other with inlet tube 2, the transfer chamber 8 of intaking keep away from 2 one end of inlet tube and be equipped with water distribution release 10, water distribution release 10 corresponding with the position of steady state water distribution deceleration baffle 7.

In the embodiment, in the water inlet process, sewage enters the communicating groove 9 through the water inlet pipe 2, enters the water inlet transit cavity 8 through the communicating groove 9, and is distributed uniformly at multiple points through the water distribution releasing part 10, so that the initial water inlet speed can be further effectively reduced, and the flow rate is slow.

Referring to fig. 2, the water distribution releasing part 10 includes a plurality of water distribution releasing hole slots 11 disposed at one end of the water inlet transit chamber 8 far from the water inlet pipe 2, the water distribution releasing hole slots 11 correspond to the arc-shaped surface of the steady-state water distribution deceleration baffle 7, and the water distribution releasing hole slots 11 are disposed in parallel.

In this embodiment, in the water inlet process, sewage enters the communicating groove 9 through the water inlet pipe 2, enters the water inlet transit cavity 8 through the communicating groove 9, and is subjected to multi-point uniform water distribution through the water distribution release hole grooves 11, so that the initial water inlet speed can be further effectively reduced, and the flow rate is slow.

The stable water distribution deceleration baffle 7 is provided with a rotating connecting plate 12, the rotating connecting plate 12 is in rotating fit with the water distribution column 4, the water distribution column 4 is internally provided with a limiting chute 13, the rotating connecting plate 12 is provided with a limiting block 14, and the limiting block 14 is in sliding fit with the limiting chute 13.

In this embodiment, the rotating connection plate 12 is used to connect and fix the steady-state water distribution deceleration baffle 7, and when the steady-state water distribution deceleration baffle 7 rotates, the rotating connection plate 12 is in rotating fit with the water distribution column 4, and then the limiting block 14 is in sliding fit with the limiting chute 13, so that the steady-state water distribution deceleration baffle 7 can rotate circumferentially along the central point of the water distribution column 4, and thus the angle of the steady-state water distribution deceleration baffle 7 can be adjusted to correspond to the water outlet.

The shape of the rotary connecting plate 12 is matched with that of the water distribution column 4, and an angle adjusting driving piece 15 for driving the rotary connecting plate 12 to rotate is arranged in the oil removing box body 1.

In this embodiment, the angle adjusting driving member 15 is used to drive the steady-state water distribution deceleration baffle 7 to adjust the angle, and the degree of automation is high.

Referring to fig. 3, the angle adjusting driving member 15 includes a waterproof cover seat 16 disposed in the oil removing tank 1, a steering engine 17 is disposed in the waterproof cover seat 16, a rotation shaft of the steering engine 17 is connected with a side drum 18, and the side drum 18 is connected with the rotation connecting plate 12.

In this embodiment, the waterproof cover seat 16 is used for installing and fixing the steering engine 17, plays a role in waterproof and fixing, and when the steady-state water distribution deceleration baffle 7 needs to be rotated, the steering engine 17 is started, the rotation shaft of the steering engine 17 drives the side rotary drum 18, the rotation connecting plate 12 and the steady-state water distribution deceleration baffle 7 to perform angle adjustment, so that the degree of automation is high.

Referring to fig. 3, the side drum 18 is provided with an anti-slip block 19, the water distribution column 4 is provided with an annular anti-slip groove 20, and the anti-slip block 19 is in sliding fit with the annular anti-slip groove 20.

In this embodiment, during the rotation of the side drum 18, the anti-drop block 19 is slidably engaged with the annular anti-drop groove 20, so that the side drum 18 is prevented from being separated from the water distribution column 4, and the connection is stable.

Referring to fig. 1, the electric control device 3 includes an electric valve 21 disposed in the water inlet pipe 2.

In the embodiment, the electric valve 21 can effectively control the total water entering, increase the water storage volume, increase the retention time, ensure sufficient time for oil-water separation, and increase the steady-state oil removal time; the overflow area is increased, and the instantaneous flow is reduced, so that the overflow flow rate is less than a certain required flow rate, and the steady-state oil removal is facilitated.

The utility model discloses a theory of operation is:

in the using process, sewage enters the oil removing tank body 1 through the water inlet pipe 2 and the water distribution column 4, in the water inlet process, the stable water distribution deceleration baffle 7 is rotated to the position corresponding to the water outlet, the water distribution column 4 is positioned at the lower side end of the oil removing tank body 1, a deep water distribution structure is adopted, in the sewage input process, water flow at the water outlet can flow through the cambered surface of the stable water distribution deceleration baffle 7 to play a role in guiding water, the initial water inlet speed is effectively reduced through the stable water distribution deceleration baffle 7, turbulence is avoided, the stable state of the water flow is realized, a stable water flow state is created, after the water flow is stabilized, the stable water distribution deceleration baffle 7 is rotated upwards, the processes of oil drop rising, coalescence and the like in the sewage can be kept balanced, a better state is kept during oil-water separation, stable oil removal is realized, the adjustability is strong, and the stable water distribution and oil removal are pointed,

in the water inlet process, sewage enters the communicating groove 9 through the water inlet pipe 2, then enters the water inlet transit cavity 8 through the communicating groove 9, and then is distributed uniformly at multiple points through the water distribution releasing hole grooves 11, so that the initial water inlet speed can be further effectively reduced, the flow rate is slow,

the rotating connecting plate 12 is used for connecting and fixing the steady-state water distribution deceleration baffle 7, when the steady-state water distribution deceleration baffle 7 rotates, the steady-state water distribution deceleration baffle 7 can rotate along the central point of the water distribution column 4 in the circumferential direction by the rotating matching between the rotating connecting plate 12 and the water distribution column 4 and the sliding matching between the limiting block 14 and the limiting chute 13, so as to adjust the angle of the steady-state water distribution deceleration baffle 7 and determine whether to correspond to the water outlet,

the waterproof cover seat 16 is used for installing and fixing the steering engine 17 to play a role in waterproof and fixing, when the steady-state water distribution deceleration baffle 7 needs to be rotated, the steering engine 17 is started, the rotating shaft of the steering engine 17 drives the side rotary drum 18, the rotating connecting plate 12 and the steady-state water distribution deceleration baffle 7 to carry out angle adjustment, the degree of automation is high,

in the rotating process of the side part rotary drum 18, the side part rotary drum 18 can be prevented from being separated from the water distribution column 4 through the sliding fit between the anti-falling block 19 and the annular anti-falling groove 20, the connection is stable,

the electric valve 21 can effectively control the total water entering, increase the water storage volume, increase the retention time, ensure sufficient time for oil-water separation and increase the steady-state oil removal time; the overflow area is increased, and the instantaneous flow is reduced, so that the overflow flow rate is less than a certain required flow rate, and the steady-state oil removal is facilitated.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein will be apparent to those skilled in the art without departing from the spirit of the invention.

Although the terms of the oil removing tank 1, the water inlet pipe 2, the electric control member 3, the water distribution column 4, the water inlet connecting portion 5, the steady-state water distribution deceleration component 6, the steady-state water distribution deceleration baffle 7, the water inlet transit cavity 8, the communication groove 9, the water distribution releasing portion 10, the water distribution releasing hole groove 11, the rotating connecting plate 12, the limiting chute 13, the limiting block 14, the angle adjusting driving member 15, the waterproof cover seat 16, the steering engine 17, the side drum 18, the anti-drop block 19, the annular anti-drop groove 20, the electric valve 21, etc. are used more often, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims (10)

1. The utility model provides a stable state deoiling inlet structure, is including deoiling box (1), its characterized in that, deoiling box (1) in be equipped with a plurality of inlet tubes (2), inlet tube (2) in be equipped with electronic accuse measuring part (3), deoiling box (1) in be equipped with a plurality of water distribution columns (4) along deoiling box (1) central line symmetry, water distribution columns (4) in be equipped with into water connecting portion (5), water inlet connecting portion (5) link to each other with inlet tube (2), water distribution columns (4) on be equipped with rotatable stable state water distribution deceleration subassembly (6), stable state water distribution deceleration subassembly (6) corresponding with the position of water inlet connecting portion (5).

2. The steady-state oil removing and water feeding structure according to claim 1, wherein the steady-state water distribution and speed reduction assembly (6) comprises a steady-state water distribution and speed reduction baffle (7) arranged on the water distribution column (4), the steady-state water distribution and speed reduction baffle (7) is arc-shaped, and the steady-state water distribution and speed reduction baffle (7) corresponds to the water feeding connecting part (5).

3. The steady state deoiling water inflow structure of claim 2, characterized in that, the water inflow connecting portion (5) including set up the water inflow transfer chamber (8) in water distribution column (4), the water inflow transfer chamber (8) link to each other through intercommunication groove (9) with inlet tube (2) between, intercommunication groove (9) one end with advance water transfer chamber (8) and link to each other, the other end links to each other with inlet tube (2).

4. The steady-state oil removing and water feeding structure according to claim 3, wherein a water distribution releasing part (10) is arranged at one end of the water feeding transit cavity (8) far away from the water inlet pipe (2), and the position of the water distribution releasing part (10) corresponds to the position of the steady-state water distribution deceleration baffle (7).

5. The steady-state oil-removing water inlet structure according to claim 4, wherein the water distribution releasing part (10) comprises a plurality of water distribution releasing hole grooves (11) arranged at one end of the water inlet transit cavity (8) far away from the water inlet pipe (2), the water distribution releasing hole grooves (11) correspond to the arc-shaped surface of the steady-state water distribution deceleration baffle (7), and the water distribution releasing hole grooves (11) are arranged in parallel.

6. The steady state deoiling water inlet structure of claim 5, characterized in that steady state water distribution deceleration baffle (7) on be equipped with and rotate connecting plate (12), rotation connecting plate (12) and cloth water column (4) looks normal running fit, cloth water column (4) in be equipped with spacing spout (13), rotation connecting plate (12) on be equipped with stopper (14), stopper (14) and spacing spout (13) looks sliding fit.

7. The steady-state oil-removing water inlet structure according to claim 6, wherein the shape of the rotary connecting plate (12) is matched with that of the water distribution column (4), and an angle adjusting driving piece (15) for driving the rotary connecting plate (12) to rotate is arranged in the oil-removing box body (1).

8. The steady-state oil-removing water inlet structure according to claim 7, wherein the angle adjusting driving piece (15) comprises a waterproof cover seat (16) arranged in the oil-removing box body (1), a steering engine (17) is arranged in the waterproof cover seat (16), a side rotary drum (18) is connected to a rotary shaft of the steering engine (17), and the side rotary drum (18) is connected with the rotary connecting plate (12).

9. The steady-state oil-removing water inlet structure according to claim 8, characterized in that the side drum (18) is provided with an anti-drop block (19), the water distribution column (4) is provided with an annular anti-drop groove (20), and the anti-drop block (19) is in sliding fit with the annular anti-drop groove (20).

10. A steady state oil removal intake structure as claimed in claim 9, wherein the electrically operated valve (3) comprises an electrically operated valve (21) disposed in the intake pipe (2).

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