CN213112696U - Quantitative intermittent water feeding tank device - Google Patents

Abstract

The utility model belongs to the technical field of sewage treatment, in particular to a quantitative intermittent water feeding tank device, which comprises a water storage tank assembly with an open top surface and a water feeding tank with an open top surface; the upper water tank is embedded in the water storage tank assembly; the bottom of the upper water tank is provided with an upper water tank water outlet; a limiting groove is arranged in the water storage tank assembly, a floating tank assembly, a large floating assembly and a delay tank assembly are arranged in the limiting groove, and the large floating assembly and the delay tank assembly are located below the floating tank assembly. Quantitative intermittent type nature upper water tank device is through the water buoyancy effect delay box combination piece periodic opening or close the time delay water leakage pipe, under the condition of continuous incessant water supply, realizes delivery port intermittent type nature drainage to intermittent type time is controllable, and it is convenient to maintain, has good economic benefits and environmental benefit.

Description

Quantitative intermittent water feeding tank device

Technical Field

The utility model belongs to the technical field of sewage treatment, concretely relates to ration intermittent type nature upper water tank device.

Background

At present, sewage is treated by an advanced biological treatment technology combining activated sludge and a biological contact oxidation process at home and abroad, the quality of the treated water can reach the standard of reuse water, but a blast aeration method is mostly adopted in an aerobic process, and the aeration method has low reoxygenation efficiency, high energy consumption and high operating cost. Chinese patent No. CN201620842528.8 discloses a water supply device of potential energy reoxygenation sewage treatment parallel system, which is characterized in that a buoyancy control mechanism is used to pull up a water supply pipe to make the water supply pipe discharge water into a water supply tank on the other side, and the device can be controlled automatically without special management in the water supply process, but the structure is too complex, and the applicability is not high.

Therefore, the water feeding device related to the existing sewage treatment device needs to be improved so as to realize continuous and uninterrupted suction and intermittent discharge of sewage.

SUMMERY OF THE UTILITY MODEL

For solving the technological problem in the current sewage treatment, the utility model provides a quantitative intermittent type nature upper water tank device opens or closes the time delay water leakage pipe through water buoyancy effect delay box sub-assembly periodicity to make sewage get into the showy case sub-assembly of lower floor potential energy biological purifier standard layer part in the water storage box sub-assembly, realize the continuous incessant suction of sewage, and the intermittent type nature storage of sewage, discharge.

The utility model adopts the following technical proposal:

a quantitative intermittent cistern device comprises a cistern assembly with an open top and a cistern with an open top; the upper water tank is embedded in the water storage tank assembly;

the bottom of the upper water tank is provided with an upper water tank water outlet;

a limiting groove is arranged in the water storage tank assembly, a floating tank assembly, a large floating assembly and a delay tank assembly are arranged in the limiting groove, and the large floating assembly and the delay tank assembly are positioned below the floating tank assembly;

the floating box assembly comprises a delay box and a delay pipe arranged at the bottom of the delay box, and the delay pipe is communicated with the delay box; the time delay box is internally provided with a time delay float and is fixed on the upper surface of the water storage box assembly; a delay mechanism is arranged in the delay pipe, and the sewage in the delay box can be regulated and controlled to enter or discharge from the delay box through the delay mechanism;

the large floating assembly comprises a large floating bolt, a large floating body and a sealing disc arranged at the bottom of the large floating body, the large floating bolt sequentially penetrates through the large floating body and the sealing disc from top to bottom, the top end of the large floating bolt penetrates out of the large floating body, and the top end of the large floating bolt is connected with the time-delay floating body;

a lower bottom plate combining groove is formed in the bottom of the water storage tank assembly corresponding to the position of the sealing disc, a baffle is arranged in the lower bottom plate combining groove, a water storage tank water outlet is formed in the baffle, and a lower bottom plate water outlet is formed in the bottom end of the lower bottom plate combining groove;

the delay box assembly comprises a delay box and a delay water leakage pipe arranged on one side of the delay box;

the top end of the delay box is open, the bottom end of the delay box is fixed in the water storage box assembly through a support, and a through hole is formed in the water storage box assembly corresponding to the position of the delay water leakage pipe;

a delay float is arranged in the delay box, one side of the delay float is hinged with an opening at the top end of the delay box, a pull rod assembly is arranged at the top end of the delay float, a delay ball is arranged at the tail end of the pull rod assembly, and the delay ball is positioned above the delay water leakage pipe;

the bottom plate of the delay box is provided with a delay box water outlet, a plugging float is arranged below the delay box, and the plugging float can plug or open the delay box water outlet.

Furthermore, the top of the upper water tank is provided with a connecting plate, the connecting plate is provided with a water inlet pipe, the connecting plate is provided with a water inlet hole communicated with the water inlet pipe, and the water inlet pipe is a water feeding part used for communicating the potential energy biological sewage purifier of the upper process equipment.

Furthermore, the upper water tank can enable the pumped sewage to be uniformly discharged into the water storage tank assembly, the delay time of the quantitative intermittent upper water tank device can be controlled by changing the aperture of the water outlet of the upper water tank according to the process requirements, and the longer the aperture of the water outlet of the upper water tank is, the shorter the delay time of the quantitative intermittent upper water tank device is; when the diameter of the hole at the water outlet of the upper water tank is 60mm, the delay time of the quantitative intermittent upper water tank device can be controlled to be about 5 min.

Furthermore, the delay mechanism comprises a horizontal delay pipe baffle fixedly arranged, and a track hole is formed in the delay pipe baffle; the track hole is provided with a floating guide rail in a penetrating way, the top end of the floating guide rail is provided with a time-delay floating baffle plate, the floating baffle plate is positioned above the time-delay pipe baffle plate, the bottom end of the floating guide rail penetrates out of the bottom of the time-delay pipe, the bottom end of the floating guide rail is provided with a time-delay sealing float, and the diameter of the time-delay sealing float is larger than that of the time-delay pipe.

Furthermore, the water outlet of the lower bottom plate is in a curved surface bell mouth shape, so that the oxygen content of sewage can be improved.

Furthermore, the large floating is most suitable for the cylindrical shape, and the sealing disc has the advantages of light weight and good sealing property.

The utility model has the advantages that:

quantitative intermittent type nature upper water tank device is through the water buoyancy effect delay box sub-assembly periodicity open or close the time delay water leak pipe to make sewage get into the showy case sub-assembly of one deck potential energy biological purifier standard layer part down in the water storage box sub-assembly, realize the continuous incessant suction of sewage, and the intermittent type nature storage of sewage, discharge.

Device operation in-process intermittent time is controllable, and it is convenient to maintain. The quantitative intermittent water feeding tank device can realize automatic operation after being installed on the potential energy biological sewage purifier, does not need special management, can realize whole automatic control, and the water pump works continuously, avoids repeated starting, can prolong the service life of the water pump, reduces energy consumption, improves efficiency, and has good economic benefit and environmental benefit.

Drawings

Fig. 1 is a top view of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1;

FIG. 4 is a cross-sectional view taken along line C-C of FIG. 1;

the water inlet pipe 1 is marked as follows; a header tank 2; a water outlet hole 3 of the upper water tank; a cistern assembly 4; the device comprises a floating box assembly 5, a delay box 5-1, a delay float 5-2, a delay pipe 5-3, a delay float baffle 5-4, a delay pipe baffle 5-5, a floating guide rail 5-6 and a delay seal float 5-7; the large floating assembly 6, the large floating assembly 6-1, the sealing disc 6-2 and the large floating bolt 6-3; a lower bottom plate combining piece 7 and a water outlet 7-1 of the water storage tank; a water outlet 8 of the lower bottom plate; a lower bottom plate delay tube water outlet 9; the device comprises a delay box assembly 10, a delay float 10-1, a delay box 10-2, a delay box water outlet 10-3, a plugging float 10-4, a pull rod assembly 10-5, a delay ball 10-6 and a delay water leakage pipe 10-7.

Detailed Description

The present invention is described in detail below with reference to examples, which are intended to provide a better understanding of the present invention and are not intended to limit the present invention.

In the description of the present invention, it should be noted that, for the orientation words, if there are terms such as "center", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., the orientation and positional relationship indicated are based on the orientation or positional relationship shown in the drawings, and only for the convenience of describing the present invention and simplifying the description, it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and not be construed as limiting the specific scope of the present invention.

It is noted that the terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used.

Example 1

1-4, a metered intermittent head tank assembly includes an open-topped reservoir assembly 4 and an open-topped head tank 2; the upper water tank 2 is embedded in the water storage tank assembly 4, and the water storage tank assembly 4 has the functions of intermittent water storage and drainage;

as shown in fig. 1, a connecting plate is arranged at the top of the upper water tank 2, a water inlet pipe 1 is arranged on the connecting plate, and a water inlet hole communicated with the water inlet pipe 1 is arranged on the connecting plate; the bottom of the upper water tank 2 is provided with an upper water tank water outlet 3, the upper water tank 2 can enable pumped sewage to be uniformly discharged into the water storage tank assembly 4, the delay time of the quantitative intermittent upper water tank device can be controlled by changing the aperture of the upper water tank water outlet 3 according to the process requirements, and the larger the aperture of the upper water tank water outlet 3 is, the shorter the delay time of the quantitative intermittent upper water tank device is; when the diameter of the hole of the water outlet 3 of the upper water tank is 60mm, the delay time of the quantitative intermittent upper water tank device can be controlled to be about 5 min.

As shown in fig. 2, a limiting groove is formed at the rightmost end in the water storage tank assembly 4 through a limiting baffle, a floating tank assembly 5 is arranged at the upper part in the limiting groove, a large floating assembly 6 and a delay tank assembly 10 are arranged at the lower part in the limiting groove, and the large floating assembly 6 is positioned below the floating tank assembly 5;

as shown in FIG. 3, the floating box assembly 5 comprises a delay box 5-1 and a delay pipe 5-3 arranged at the bottom of the delay box 5-1, wherein the delay pipe 5-3 is communicated with the delay box 5-1; the time delay tank 5-1 is internally provided with a time delay float 5-2, the time delay tank 5-1 has the function of storing sewage, and the bottom of the time delay tank 5-1 is fixed on the upper surface of the water storage tank assembly 4 through a bracket; a horizontal delay pipe baffle 5-5 is fixedly arranged in the delay pipe 5-3, and a track hole is arranged on the delay pipe baffle 5-5;

a floating guide rail 5-6 is arranged on the track hole in a penetrating manner, a delay floating baffle 5-4 is arranged at the top end of the floating guide rail 5-6, the floating baffle 5-4 is positioned above a delay tube baffle 5-5, the bottom end of the floating guide rail 5-6 penetrates out of the bottom of a delay tube 5-3, a delay sealing float 5-7 is arranged at the bottom end of the floating guide rail 5-6, and the diameter of the delay sealing float 5-7 is larger than that of the delay tube 5-3;

when the delay sealing float 5-7 rises due to buoyancy, the delay sealing float 5-7 drives the floating guide rail 5-6 to move upwards along the extending direction of the delay tube 5-3, and when the delay sealing float 5-7 falls, the delay sealing float 5-7 drives the floating guide rail 5-6 to move downwards along the extending direction of the delay tube 5-3; when the delay sealing float 5-7 moves upwards to the limit position, the delay sealing float 5-7 can seal the delay tube 5-3; when the delay sealing float 5-7 moves downwards to the limit position, the opening at the bottom end of the delay pipe 5-3 is opened, so that the sewage in the delay tank 5-1 can flow into the water storage tank assembly 4 through the delay pipe 5-3.

As shown in fig. 4, the large floating assembly 6 comprises a large floating bolt 6-3, a large floating bolt 6-1 and a sealing disc 6-2 arranged at the bottom of the large floating bolt 6-1, the large floating bolt 6-3 sequentially penetrates through the large floating bolt 6-1 and the sealing disc 6-2 from top to bottom, the top end of the large floating bolt 6-3 penetrates out of the large floating bolt 6-1, and the top end of the large floating bolt 6-3 is connected with the time delay floating bolt 5-2; the buoyancy of the time-delay float 5-2 and the large float 6-1 drives the large float assembly 6 to move up and down integrally.

A lower bottom plate combining groove 7 is arranged at the bottom of the water storage tank assembly 4 corresponding to the position of the sealing disc 6-2, a baffle is arranged in the lower bottom plate combining groove 7, a water storage tank water outlet 7-1 is arranged on the baffle, a lower bottom plate water outlet 8 is arranged at the bottom end of the lower bottom plate combining groove 17, and the lower bottom plate water outlet 8 is in a curved surface horn mouth shape, so that the oxygen content of sewage can be improved;

when the large floating assembly 6 in the water storage tank assembly 4 moves upwards to open the water outlet 7-1 of the water storage tank, sewage flows into the water outlet 8 of the lower bottom plate through the water outlet 7-1 of the water storage tank and further flows into the next layer of potential energy biological sewage purifier. The sealing disc 6-2 is pulled up and down under the action of buoyancy force borne by the time-delay float 5-2 and the large float 6-1, so that the function of opening and closing the water outlet 7-1 of the sewage through the water storage tank is realized. The large float 6-3 is most preferably cylindrical, and the sealing disc 6-2 has the advantages of light weight and good sealing property.

As shown in FIG. 3, the delay box assembly 10 comprises a delay box 10-2 and a delay water leakage pipe 10-7 arranged at one side of the delay box 10-2;

the top end of the delay box 10-2 is open, the bottom end of the delay box 10-2 is fixed in the water storage box assembly 4 through a bracket, and a through hole is arranged on the water storage box assembly 4 corresponding to the delay water leakage pipe 10-7;

a delay float 10-1 is arranged in the delay box 10-2, one side of the delay float 10-1 is hinged with an opening at the top end of the delay box 10-2, a pull rod assembly 10-5 is arranged at the top end of the delay float 10-1, a delay ball 10-6 is arranged at the tail end of the pull rod assembly 10-5, and the delay ball 10-6 is positioned above a delay water leakage pipe 10-7;

a bottom plate of the delay box 10-2 is provided with a delay box water outlet 10-3, a plugging float 10-4 is arranged below the delay box 10-2, and the plugging float 10-4 can plug or open the delay box water outlet 10-3;

the time-delay water leakage pipe 10-7 is periodically opened or closed through the water buoyancy action time-delay box assembly 10, and when the time-delay water leakage pipe 10-7 is opened, sewage in the water storage box assembly 4 enters the floating box assembly 5 of the next layer of standard layer component of the potential energy biological purifier from the water outlet 9 of the lower bottom plate time-delay pipe.

The operation principle is as follows: the quantitative intermittent upper water tank device is used for treating sewage acted by the filtering equipment or the anaerobic equipment, and the sewage flows into the upper water tank 2 and the water storage tank assembly 4 from the water inlet pipe 1 in sequence and then flows into the next layer of potential energy biological sewage purifier from the water outlet 8 of the lower bottom plate.

The specific operation of the top tank device of the potential energy biological sewage purifier is described below, taking the case where no water is in the top tank 2 as an initial state as an example, at this time, no water is in the water storage tank assembly 4, the large floating assembly 6 is at the falling limit position, and the delay water leakage pipe 10-7 is in the open state.

When sewage enters the upper water tank 2 through the water inlet pipe 1, the diameter of the water inlet pipe 2 is larger than that of the water outlet hole 3 of the upper water tank, so that the sewage in the upper water tank 2 can uniformly flow into the water storage tank assembly 4 through the water outlet hole 3 of the upper water tank and can be stored in the upper water tank 2.

The water level in the water storage tank assembly 4 rises continuously, at the moment, the plugging floats 10-4 move upwards under the buoyancy of water to seal the water outlet 10-3 of the delay tank, and then sewage flows into the floating tank assembly 5 of the next layer of potential energy biological purifier standard layer component through the delay water outlet 9 of the lower bottom plate delay pipe by the delay water leakage pipe 10-7;

along with the rising of the water level, the sewage flows into the delay box 10-2, the delay float 10-1 in the delay box 10-2 moves upwards under the action of the buoyancy of the water, and the delay ball 10-6 moves downwards through the rotation of the pull rod assembly 10-5 to block the delay water leakage pipe 10-7.

When the water level in the water storage tank assembly 4 rises, sewage flows into the delay pipe 5-3 in the delay tank 5-1, the delay sealing float 5-7 gradually rises along with buoyancy, and when the delay sealing float 5-7 moves upwards to the limit position, the delay sealing float 5-7 rises to seal the delay pipe 5-3.

When the water level in the delay tank 5-1 rises to a certain height, the seal disc 6-2 is pulled up by the buoyancy force of the delay float 5-2 and the large float 6-1, the water outlet 7-1 of the water storage tank assembly 4 is opened, and sewage flows into the water outlet 8 of the lower bottom plate through the water outlet 7-1 of the water storage tank for large water drainage and further flows into the next layer of potential energy biological sewage purifier.

When the water storage tank assembly 4 discharges sewage from a full storage state, the delay sealing float 5-7 descends along with the descending of the water level in the water storage tank assembly 4, so that the sewage in the delay tank 5-1 flows into the water storage tank assembly 4 through the delay pipe 5-3 and finally flows into the next layer of potential energy biological sewage purifier.

The time delay float 5-2 and the large float 6-1 descend to close the water outlet on the water tank assembly 4 along with the descending of the water level in the time delay tank 5-1 until almost no sewage exists in the water tank assembly 4.

Along with the falling of the water level in the water storage tank assembly 4, the plugging float 10-4 moves downwards to open the water outlet 10-3 of the delay tank, sewage in the delay tank is discharged, the delay float 10-1 moves downwards, the delay float 10-1 rotates to enable the delay ball 10-6 on the pull rod assembly 10-5 to move upwards, and the delay water leakage pipe 10-7 is opened.

The above description is only for the preferred embodiment of the present invention, and the details not described in the present invention are well known to those skilled in the art. After reading the description of the present invention, those skilled in the art can make various changes and modifications to the present invention, and these equivalents fall within the scope of the appended claims. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (5)

1. A quantitative intermittent cistern device is characterized by comprising a cistern assembly with an open top and a cistern with an open top; the upper water tank is embedded in the water storage tank assembly;

the bottom of the upper water tank is provided with an upper water tank water outlet;

a limiting groove is arranged in the water storage tank assembly, a floating tank assembly, a large floating assembly and a delay tank assembly are arranged in the limiting groove, and the large floating assembly and the delay tank assembly are positioned below the floating tank assembly;

the floating box assembly comprises a delay box and a delay pipe arranged at the bottom of the delay box, and the delay pipe is communicated with the delay box; the time delay box is internally provided with a time delay float and is fixed on the upper surface of the water storage box assembly; a delay mechanism is arranged in the delay pipe, and the sewage in the delay box can be regulated and controlled to enter or discharge from the delay box through the delay mechanism;

the large floating assembly comprises a large floating bolt, a large floating body and a sealing disc arranged at the bottom of the large floating body, the large floating bolt sequentially penetrates through the large floating body and the sealing disc from top to bottom, the top end of the large floating bolt penetrates out of the large floating body, and the top end of the large floating bolt is connected with the time-delay floating body;

a lower bottom plate combining groove is formed in the bottom of the water storage tank assembly corresponding to the position of the sealing disc, a baffle is arranged in the lower bottom plate combining groove, a water storage tank water outlet is formed in the baffle, and a lower bottom plate water outlet is formed in the bottom end of the lower bottom plate combining groove;

the delay box assembly comprises a delay box and a delay water leakage pipe arranged on one side of the delay box;

the top end of the delay box is open, the bottom end of the delay box is fixed in the water storage box assembly through a support, and a through hole is formed in the water storage box assembly corresponding to the position of the delay water leakage pipe;

a delay float is arranged in the delay box, one side of the delay float is hinged with an opening at the top end of the delay box, a pull rod assembly is arranged at the top end of the delay float, a delay ball is arranged at the tail end of the pull rod assembly, and the delay ball is positioned above the delay water leakage pipe;

the bottom plate of the delay box is provided with a delay box water outlet, a plugging float is arranged below the delay box, and the plugging float can plug or open the delay box water outlet.

2. The quantitative intermittent cistern device as claimed in claim 1, wherein a connecting plate is provided on the top of the cistern, a water inlet pipe is provided on the connecting plate, and a water inlet hole communicating with the water inlet pipe is provided on the connecting plate.

3. The quantitative intermittent waterbox apparatus as claimed in claim 1, wherein the delay mechanism comprises a horizontal delay tube baffle fixedly arranged with a track hole; the track hole is provided with a floating guide rail in a penetrating way, the top end of the floating guide rail is provided with a time-delay floating baffle plate, the floating baffle plate is positioned above the time-delay pipe baffle plate, the bottom end of the floating guide rail penetrates out of the bottom of the time-delay pipe, the bottom end of the floating guide rail is provided with a time-delay sealing float, and the diameter of the time-delay sealing float is larger than that of the time-delay pipe.

4. The quantitative intermittent upper water tank device as claimed in claim 1, wherein the lower plate water outlet is in the shape of a curved bell mouth.

5. The metered intermittent flush tank device of claim 1, wherein the large float is cylindrical.

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