CN213014617U - Automatically cleaning sewage treatment pond - Google Patents

Abstract

The utility model relates to a sewage treatment device technical field, in particular to automatically cleaning sewage treatment pond to solve the technical problem that the showy rubbish of effluent water sump among the prior art influences the normal emission of sewage. The method comprises the following steps: the slideway mechanism is arranged on the inner wall of the first side of the sewage pool main body; the blowing mechanism is arranged on the slide way mechanism and can float on the sewage level surface, so that the blowing mechanism can move along the slide way mechanism when the sewage level rises or falls; the blowing mechanism is also provided with an air source end and a blowing end, the air source end is used for connecting factory wind, and the blowing end can continuously output blowing air to the sewage surface; the slide way mechanism can keep the purging mechanism at a preset position so that the purging air output by the purging end can be along the direction of the sewage surface. This technical scheme can prevent effectively that the effluent water sump floating waste from influencing the condition that is blockked up when the sewage pump sucks to floating waste can effectually be concentrated, keeps the surface of water clean, and rubbish can easily be cleared up.

Description

Automatically cleaning sewage treatment pond

Technical Field

The utility model relates to a sewage treatment device technical field, in particular to automatically cleaning sewage treatment pond.

Background

Under the current trend, petrochemical enterprises usually select remote areas because the petrochemical enterprises need to avoid building in urban areas, and are independently equipped with sewage treatment facilities, and sewage in each production workshop needs to be gathered to a sewage pump station to be intensively conveyed to a sewage plant; one main fault type can float on the effluent water sump for all kinds of mill rubbish or domestic waste when using transport sewage among the prior art, when the sewage pump starts, rubbish can be to the suction position gathering of pump to make rubbish block up the probability greatly increased of pump sunction inlet, cause the damage of sewage pump, and the rubbish source is mainly because in spacious area, natural wind is great, natural wind carries the probability that rubbish was transferred into the effluent water sump very high, and during the manhole clearance, hardly hold the trend of floating rubbish.

SUMMERY OF THE UTILITY MODEL

The utility model discloses solve the technical problem that the showy rubbish of effluent water sump among the prior art influences the normal emission of sewage, provide a automatically cleaning sewage treatment pond.

In order to solve the technical problem, the technical scheme of the utility model is specifically as follows:

a self-cleaning wastewater treatment basin comprising:

a wastewater tank main body;

the slideway mechanism is arranged on the inner wall of the first side of the sewage pool main body;

the blowing mechanism is arranged on the slide way mechanism and can float on the sewage level surface, so that the blowing mechanism can move along the slide way mechanism when the sewage level is increased or decreased;

the blowing mechanism is also provided with an air source end and a blowing end, the air source end is used for being connected with factory wind, and the blowing end can continuously output blowing air to the sewage surface;

the slide way mechanism can enable the purging mechanism to be kept at a preset position, so that the purging air output by the purging end can be along the direction of the sewage surface.

Specifically, the chute mechanism includes:

the two groups of main slideways are fixedly arranged on the side wall on one side of the sewage pool main body and are symmetrically arranged along the height direction of the side wall;

the slide way groove is formed in any one group of the main slide way, and the slide way groove is arranged along the height direction of the main slide way.

Specifically, the method further comprises the following steps:

the middle sliding rail is positioned between the two groups of main sliding ways and is parallel to the main sliding ways;

the middle slide rail constructs a convex part along the length direction of the middle slide rail, and the convex part is T-shaped.

Specifically, the purge mechanism includes:

the purging main body is positioned between the two main slide ways and can be connected with factory wind;

the plurality of purging pipes are uniformly arranged along the length direction of the purging main body and are fixed on the second side of the purging main body, so that the plurality of purging pipes face the sewage surface;

the limiting part is fixed on the first side of the purging main body and can be matched with the middle sliding rail to keep the purging main body balanced;

the two ends of the purging main body are respectively and detachably provided with a group of buoyancy mechanisms;

the buoyancy mechanism is used for being matched with the sliding channel groove, so that the sweeping main body can move along the inner wall of the first side of the sewage pool main body.

Specifically, the limiting part constructs a supporting plate;

the support plate is seen in a side view direction and has:

a first straight side parallel to the surface of the wastewater;

a second straight side perpendicular to the first straight side;

a first beveled edge sloping from the purge body to a second end of the second straight edge;

and a fitting groove formed along a height direction of the second straight edge so as to be capable of fitting with the boss.

Specifically, the spacing portion further includes:

the counterweight rod is fixedly connected to the first oblique edge, is adjacent to the purging main body and is perpendicular to the first straight edge;

the balancing weight, the second end of counter weight pole is provided with the external screw thread, the balancing weight is provided with the internal thread, so that can be in proper order the spiro union a plurality of on the counter weight pole the balancing weight.

Specifically, the buoyancy mechanism includes:

the rubber is floated;

the buoy limit part is fixedly connected with one end of the rubber buoy;

one end of the floating connecting rod is fixedly connected with the purging main body;

the float limiting part is provided with a threaded hole, and the other end of the float connecting rod is provided with threads, so that the float connecting rod can be in threaded connection in the threaded hole.

Specifically, the width of the float limiting part is greater than the width of the slide way groove, and the float limiting part is located on one side, away from the purging main body, of the main slide way.

Specifically, the purge body

The purging pipe is hollow and tubular, and a plurality of purging pipes are communicated with the purging main body;

wherein one end of the purge tube away from the purge body is the purge end;

wherein, the main part that sweeps is provided with the connecting pipe towards one side of effluent water sump main part top.

Specifically, the air source device further comprises a factory air tank, wherein the factory air tank is provided with an output end, and the output end is connected with the connecting pipe through a rubber hose to form the air source end. .

The utility model discloses following beneficial effect has:

this technical scheme can prevent effectively that the effluent water sump floating waste from influencing the condition that is blockked up when the sewage pump sucks to floating waste can effectually be concentrated, keeps the surface of water clean, and rubbish can easily be cleared up.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of the name of the present invention;

fig. 2 is a schematic view of the slide mechanism of the present invention;

fig. 3 is a schematic top view of the purging mechanism of the present invention;

FIG. 4 is a partial enlarged view of the purging mechanism of the present invention;

fig. 5 is a schematic view of the protruding portion of the present invention.

The reference numerals in the figures denote:

the device comprises a sewage pool main body 10, a slide way mechanism 20, a purging mechanism 30, a main slide way 201, a slide way groove 202, an intermediate slide way 203, a convex part 204, a purging main body 310, a purging pipe 320, a limiting part 330 and a buoyancy mechanism 340;

a support plate 331, a first straight edge 332, a second straight edge 333, a first bevel edge 334, a mating groove 335, a weight lever 336, and a weight 337;

the rubber buoy 341, the buoy limit part 342, the buoy connecting rod 343, the factory air tank 40 and the connecting pipe 321.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention; for convenience of description, in the present application, "left side" is "first end", "right side" is "second end", "upper side" is "first end", and "lower side" is "second end" in the current view, so that the description is for the purpose of clearly expressing the technical solution, and should not be construed as an improper limitation to the technical solution of the present application.

The utility model discloses solve the technical problem that the showy rubbish of effluent water sump among the prior art influences the normal emission of sewage, provide a automatically cleaning sewage treatment pond. When needing to be understood, the self-cleaning in the application means that the sewage surface is free of garbage when the sewage pump is started, and the principle is that the working current is large when the sewage pump is started, the power and the efficiency of equipment of the sewage pump are in the highest stage, the generated suction force is large, and the garbage is easy to suck; therefore, the idea of providing self-cleaning according to the present application is to have the floating waste effectively and as much as possible gathered together and relatively less affected by the suction of the sewage pump when it is started.

Specifically, referring to fig. 1 to 4, the self-cleaning sewage treatment tank includes: a wastewater tank main body 10; the slide way mechanism 20, the slide way mechanism 20 is arranged on the inner wall of the first side of the sewage pool main body 10; the purging mechanism 30, the purging mechanism 30 is arranged on the slideway mechanism 20, the purging mechanism 30 can float on the sewage level, so that the purging mechanism 30 can move along the slideway mechanism 20 when the sewage level is raised or lowered; the blowing mechanism 30 is further provided with an air source end and a blowing end, the air source end is used for connecting factory wind, and the blowing end can continuously output blowing air to the sewage surface; the ramp mechanism 20 is capable of holding the purge mechanism 30 in a predetermined position to allow the purge air output from the purge end to be directed toward the surface of the wastewater.

It should be noted that the sewage pump is generally disposed at the center of the sewage pool platform, and the principle of the present technical solution is to provide the purging mechanism 30, the purging mechanism 30 can float on the sewage surface and continuously blow out the factory wind, the pressure of the factory wind is 0.32-0.45MPa, such that the factory wind blows the water surface to generate the force to continuously push the floating garbage to the outer wall of the other side of the sewage pool main body 10, the present technical solution assists the purging mechanism 30 to move through the slide way mechanism 20, and keeps the purging mechanism 30 balanced, so that the purging end faces the water surface as always as possible, through the implementation of the above technical solution, the floating garbage is more easily gathered on the side wall of the sewage pool body 10 opposite to the slide way mechanism 20, which is more beneficial to salvage, so the sewage pool realizes the self-cleaning effect of the water surface, and can effectively reduce the start-up of the sewage pump, The suction inlet is blocked by the garbage during operation.

In one embodiment, and as shown in fig. 1-4, the ramp mechanism 20 includes: the two groups of main slideways 201 are fixedly arranged on the side wall of one side of the sewage pool main body 10, and the two groups of main slideways 201 are symmetrically arranged along the height direction of the side wall; the slide way groove 202 is formed in any one group of main slide ways 201, and the slide way groove 202 is arranged along the height direction of the main slide ways 201.

Specifically, referring to fig. 1-4 in conjunction with fig. 5, there are also included: the middle slide rail 203 is positioned between the two groups of main slide ways 201, and the middle slide rail 203 is parallel to the main slide ways 201; the middle slide rail 203 is configured with a protrusion 204 along the length direction thereof, and the protrusion 204 is T-shaped. The middle slide rail 203 is used for stabilizing the blowing mechanism 30; the purge mechanism 30 includes: a purge body 310; the purging body 310 is located between the two sets of main skids 201 and can be connected with factory wind; a plurality of purge pipes 320 uniformly arranged along a length direction of the purge body 310 and fixed at a second side of the purge body 310 such that the plurality of purge pipes 320 face the surface of the sewage; a limiting part 330 fixed on a first side of the purging body 310 and capable of cooperating with the middle sliding rail 203 to keep the purging body 310 balanced; the two ends of the purging main body 310 are respectively and detachably provided with a group of buoyancy mechanisms 340; the buoyancy mechanism 340 is configured to cooperate with the chute 202 such that the purge body 310 can move along the inner wall of the first side of the wastewater tank body 10.

In one embodiment, referring to fig. 1-4, the position-limiting portion 330 forms a supporting plate 331; the support plate 331 has, as viewed in a side view direction: a first straight edge 332 parallel to the surface of the wastewater; a second straight edge 333 that is perpendicular to the first straight edge 332; a first inclined edge 334 inclined from the blowing body 310 to a second end of the second straight edge 333; a fitting groove 335 formed along the height direction of the second straight edge 333 and capable of fitting with the protrusion 204 so that the protrusion 204 can be confined in the fitting groove 335, preventing the escape of the reaction force generated during the blowing of the factory air from the purge body 310. The position limiting portion 330 further includes: a weight bar 336 fixedly attached to the first beveled edge 334 adjacent the purge body 310 and perpendicular to the first straight edge 332; the balancing weight 337, the second end of counterweight rod 336 is provided with the external screw thread, and balancing weight 337 is provided with the internal thread to can a plurality of balancing weights 337 of spiro union in proper order on the messenger counterweight rod 336. The limiting part 330 is equivalent to a triangular structure, the first straight edge 332 and the second straight edge 333 form a right angle, so that the purging main body 310 can better move along the middle sliding rail 203, the first inclined edge 334 and the second straight edge 333 are equivalent to supporting the purging mechanism 30 on the side wall of the sewage pool body 10, obviously, the weight of the arranged counterweight 337 needs to be larger than that of one side of the second straight edge 333, and the plurality of purging pipes 320 cannot incline towards the upper part of the sewage surface due to the fluctuation of sewage is prevented, and in addition, the matching of the second straight edge 333 and the first inclined edge 334 prevents the plurality of purging pipes 320 from inclining towards the lower part of the sewage surface, because the matching groove 335 of the second straight edge 333 and the protruding part have a supporting effect due to the matching.

In one embodiment, as shown in fig. 1-5, the buoyancy mechanism 340 includes: a rubber float 341; a float limiting part 342 fixedly connected with one end of the rubber float 341; a float connecting rod 343, one end of which is fixedly connected with the purge body 310; the float limiting part 342 is provided with a threaded hole, and the other end of the float connecting rod 343 is provided with threads, so that the float connecting rod 343 can be screwed in the threaded hole.

Referring to fig. 1-4, the width of the float limiting portion 342 is greater than the width of the chute 202, and the float limiting portion 342 is located on a side of the main chute 201 away from the purging body 310.

The purging body 310 is a hollow tubular shape, and a plurality of purging tubes 320 are communicated with the purging body 310; wherein, one end of the purge tube 320 far away from the purge body 310 is a purge end; wherein, a connection pipe 321 is provided at one side of the purge main body 310 facing the upper side of the wastewater tank main body 10.

Still including mill's wind jar 40, mill's wind jar 40 has an output, and this output is connected with connecting pipe 321 through a rubber hose to form the air source end, still can set up the trip valve on the rubber hose, better control air supply pressure.

This technical scheme can prevent effectively that the effluent water sump floating waste from influencing the condition that is blockked up when the sewage pump sucks to floating waste can effectually be concentrated, keeps the surface of water clean, and rubbish can easily be cleared up.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (10)

1. A self-cleaning wastewater treatment basin, comprising:

a wastewater tank main body (10);

a slide mechanism (20) provided on an inner wall of a first side of the wastewater tank main body (10);

a purging mechanism (30) provided on the slide mechanism (20) and floatable on a sewage level so that the purging mechanism (30) can move along the slide mechanism (20) when the sewage level rises or falls;

the blowing mechanism (30) is also provided with an air source end and a blowing end, the air source end is used for being connected with factory wind, and the blowing end can continuously output blowing air to the sewage water surface;

the slide way mechanism (20) can keep the purging mechanism (30) at a preset position so that the purging air output by the purging end can be along the direction of the sewage surface.

2. The self-cleaning wastewater treatment basin of claim 1, characterized in that the slide mechanism (20) comprises:

the two groups of main slideways (201) are fixedly arranged on the side wall of one side of the sewage pool main body (10), and the two groups of main slideways (201) are symmetrically arranged along the height direction of the side wall;

the slide way groove (202), any one set of all seted up on main slide way (201) slide way groove (202), follow the direction of height of main slide way (201) arranges.

3. A self-cleaning wastewater treatment basin according to claim 2, further comprising:

the middle sliding rail (203) is positioned between the two groups of main slideways (201), and the middle sliding rail (203) is parallel to the main slideways (201);

the middle slide rail (203) is provided with a protrusion (204) along the length direction, and the protrusion (204) is T-shaped.

4. A self-cleaning wastewater treatment basin according to claim 3, characterized in that the purging mechanism (30) comprises:

the purging main body (310) is positioned between the two main slideways (201) and can be connected with factory wind;

a plurality of purge pipes (320) uniformly arranged along the length direction of the purge body (310) and fixed at a second side of the purge body (310) such that the plurality of purge pipes (320) face the surface of the sewage;

a limiting part (330) fixed on a first side of the purging body (310) and capable of being matched with the middle slide rail (203) to keep the purging body (310) balanced;

the two ends of the purging main body (310) are respectively and detachably provided with a group of the buoyancy mechanisms (340);

the buoyancy mechanism (340) is used for being matched with the slide channel groove (202) so that the sweeping main body (310) can move along the inner wall of the first side of the sewage pool main body (10).

5. The self-cleaning wastewater treatment basin according to claim 4, characterized in that the limiting part (330) is configured with a support plate (331);

the support plate (331) has, as seen in a side view direction:

a first straight edge (332) parallel to the surface of the wastewater;

a second straight side (333) perpendicular to the first straight side (332);

a first beveled edge (334) sloping from the purge body (310) to a second end of the second straight edge (333);

and a fitting groove (335) formed along the height direction of the second straight edge (333) so as to be capable of fitting with the projection (204).

6. The self-cleaning wastewater treatment basin of claim 5, characterized in that the limiting part (330) further comprises:

a weight bar (336) fixedly attached to the first beveled edge (334) adjacent the purge body (310) and perpendicular to the first straight edge (332);

balancing weight (337), the second end of counterweight rod (336) is provided with the external screw thread, balancing weight (337) are provided with the internal thread, so that can the spiro union in proper order on counterweight rod (336) a plurality of balancing weight (337).

7. The self-cleaning wastewater treatment basin of claim 5, characterized in that the buoyancy mechanism (340) comprises:

a rubber float (341);

a float limiting part (342) which is fixedly connected with one end of the rubber float (341);

a floating connecting rod (343), one end of which is fixedly connected with the purging main body (310);

the buoy limit part (342) is provided with a threaded hole, and the other end of the buoy connecting rod (343) is provided with threads, so that the buoy connecting rod (343) can be screwed in the threaded hole.

8. The self-cleaning wastewater treatment basin of claim 7, characterized in that the width of the float limiting part (342) is larger than the width of the slide channel (202), and the float limiting part (342) is positioned on the side of the main slide channel (201) far away from the purging body (310).

9. The self-cleaning wastewater treatment tank of claim 5, wherein the purge body (310) is a hollow tubular shape, and a plurality of the purge pipes (320) are communicated with the purge body (310);

wherein the end of the purge tube (320) distal from the purge body (310) is the purge end;

wherein, one side of the purging main body (310) facing the upper part of the sewage pool main body (10) is provided with a connecting pipe (321).

10. A self-cleaning wastewater treatment basin according to claim 9, further comprising a plant wind tank (40), wherein the plant wind tank (40) has an output end connected to the connecting pipe (321) through a rubber hose to form the air source end.

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