CN212050701U - A sewage treatment plant for oral treatment - Google Patents

Abstract

The utility model discloses a sewage treatment plant for oral treatment, including sewage treatment subassembly, suction subassembly, sewage pipeline, the sewage pipeline that flows automatically and with the sewage discharge pipeline that the sewage treatment subassembly is connected, the sewage pipeline that flows automatically with the sewage treatment subassembly is connected, the suction subassembly one end with the sewage treatment subassembly is connected, and the other end is installed on the sewage pipeline, after sewage among suction subassembly and the sewage pipeline that flows automatically got into the sewage treatment subassembly and disinfects, discharge extremely in the sewage discharge pipeline. The utility model discloses a sewage treatment mode's diversification has improved sewage treatment plant's installation effectiveness and sterilization efficiency.

Description

A sewage treatment plant for oral treatment

Technical Field

The utility model relates to an oral cavity sewage treatment field especially relates to a sewage treatment plant for oral treatment.

Background

In the existing sewage treatment method aiming at oral treatment, two modes of self-suction or self-flow are usually adopted, a user firstly needs to determine whether the self-flow mode or the self-suction mode is adopted according to the site of the actual treatment environment, so that different sewage pipelines are arranged according to different modes, inconvenience in type selection or pipeline arrangement is often brought to the user in the actual process, and a plurality of uncertain factors are brought to the installation of sewage treatment.

Therefore, it is necessary to provide a novel sewage treatment apparatus for oral treatment, which can realize diversification of operation modes, simplify installation of the apparatus by a user, and improve sterilization efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect, provide a sewage treatment plant for oral treatment, realize sewage treatment mode's diversification, improve sewage treatment plant's installation effectiveness and bactericidal efficiency.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a sewage treatment plant for oral treatment, its includes sewage treatment subassembly, suction subassembly, sewer line, the sewage discharge pipeline that flows automatically and with the sewage treatment subassembly is connected, the sewage pipeline that flows automatically with the sewage treatment subassembly is connected, suction subassembly's one end with the sewage treatment subassembly is connected, and the other end is installed on the sewer line.

Preferably, the sewage treatment assembly comprises a sewage bucket, a self-flow port, a discharge port and a circulating valve which are arranged on the sewage bucket, a self-priming pump connected with the circulating valve, a self-priming port connected with the self-priming pump, and an ozone generator.

Preferably, the ozone generator delivers ozone to the bottom of the wastewater barrel through a pipeline, and the suction assembly is connected to the self-suction port through a suction pipe.

Preferably, a liquid level sensor for starting the ozone generator to work is arranged in the sewage bucket.

Preferably, the free-flow port is connected with the free-flow sewage pipeline and used for conveying sewage into the sewage bucket.

Preferably, the suction assembly comprises a shell, a suction port, a suction pipe port and a one-way valve which are arranged on the shell, and a liquid level meter arranged in the shell.

Preferably, a floating ball for starting pumping is arranged on the liquid level meter.

Preferably, the suction opening is mounted in the sewer pipe.

The utility model has the advantages that:

1. a sewage treatment plant for oral treatment, the mode of operation that has realized sewage treatment is diversified, has portably installed the requirement.

2. The installation efficiency and the sterilization efficiency are improved.

Drawings

FIG. 1 is a schematic diagram of the sewage treatment device for oral treatment according to the present invention;

FIG. 2 is a schematic diagram of the self-flow mode of the present invention;

FIG. 3 is a schematic diagram of the self-priming mode of the present invention;

FIG. 4 is a schematic diagram of the operation of the sewage treatment module of the present invention;

fig. 5 is a schematic structural view of the suction assembly of the present invention;

fig. 6 is a schematic cross-sectional view along direction R of fig. 5.

Reference numerals: 1. sewage treatment device, 11, sewage treatment subassembly, 111, slop pail, 112, the mouth that flows automatically, 113, discharge port, 114, circulating valve, 115, self priming pump, 116, self suction inlet, 117, ozone generator, 118, liquid level sensor, 119, air pump, 12, suction subassembly, 121, shell, 122, suction inlet, 123, suction tube interface, 124, level gauge, 125, check valve, 126, floater, 13, sewer line, 14, the sewer line that flows automatically, 15, sewage discharge pipeline.

Detailed Description

The technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention.

As shown in fig. 1, the sewage treatment apparatus 1 for oral treatment disclosed in the present invention comprises a sewage treatment module 11, a suction module 12, a sewage conduit 13, a gravity sewage conduit 14 and a sewage discharge conduit 15, wherein sewage is discharged to the sewage discharge conduit 15 after being sterilized in the sewage treatment module 11.

As shown in fig. 4, the sewage treatment assembly 11 includes a sewage bucket 111, a self-priming port 112, a discharge port 113, a circulating valve 114 disposed on the sewage bucket 111, a self-priming pump 115 connected to the circulating valve 114, a self-priming port 116 connected to the self-priming pump 115, and an ozone generator 117, wherein the number of the sewage buckets 111 may be set according to practical situations, and is not limited to a plurality of sewage buckets 111 disposed in series or in parallel, and a liquid level sensor 118 is further disposed on the sewage bucket 111 for monitoring the liquid level of the sewage in the sewage bucket 111 and triggering to enter into a sterilization operation.

As shown in fig. 1 and 4, the free-flow port 112 is connected to the free-flow sewer pipe 14 via a pipe for delivering sewage in the free-flow sewer pipe 14 into the sewage bucket 111. The discharge port 113 is connected to the sewage discharge pipe 15 for discharging the treated sewage into the sewage discharge pipe 15. The circulation valve 114 is disposed on the slop pail 111, and is used for discharging the sewage in the slop pail 111 into the self-priming pump 115, and then pumping the sewage into the slop pail 111 by the self-priming pump 115, so that the sewage in the slop pail 111 can be circularly sterilized.

The self-suction port 116 is connected to the self-suction pump 115 at one end and to the suction assembly 12 at the other end via a suction tube (not shown), and the self-suction port 116 is used for conveying sewage in the suction tube to the self-suction pump 115. The ozone generator 117 generates ozone by an air pump 119, and the generated ozone is delivered to the bottom of the slop pail 111, thereby performing sterilization work on the slop water.

With reference to fig. 3-6, the suction assembly 12 is connected at one end to the self-suction opening 116 via a suction tube and at the other end is mounted in the sewage conduit 13, the suction assembly 12 comprises a housing 121, a suction port 122 provided in the housing 12, a suction tube interface 123 and a one-way valve 125, and a level gauge 124 provided in the housing 12, the suction port 122 being mounted in the sewage conduit 13 and being provided at the lowermost portion of the sewage conduit 13 such that sewage in the sewage conduit 13 can be transported into the suction tube by the suction tube interface 123 for mounting the suction tube. The liquid level meter 124 is provided with a floating ball 126, the floating ball 126 is used for providing a signal of suction work to the suction module 12, that is, when the floating ball 126 floats, the suction module 12 starts the suction work, and at this time, the liquid level meter 124 monitors the sewage liquid level in the suction module 12, so as to trigger the sewage treatment module 11 to perform sterilization work. The one-way valve 125 is used to relieve excess air pressure generated in the pumping assembly 12 to ensure pressure balance inside the pumping assembly 12. The sewage pipeline 13 can be set according to actual conditions, and can also be a sewage pool and the like.

The utility model discloses still disclose a sewage treatment method for oral treatment, combine shown in fig. 2-4, including the mode of flowing automatically, from inhaling the mode to and the dual mode of flowing automatically from inhaling, will combine below the utility model discloses a drawing is right the technical scheme of the three embodiment of the utility model is clear, complete description.

The first embodiment is as follows:

the self-flow mode comprises the following steps:

in the first step, the circulation valve 114 and the gravity flow port 112 are opened, the self-suction port 116 is closed, and sewage in the gravity flow sewage pipeline 14 enters the sewage bucket 111 through the gravity flow port 112;

secondly, when the liquid level in the sewage bucket 111 rises to a preset liquid level, the liquid level sensor 118 is triggered, and at the moment, the sewage treatment assembly 11 starts sterilization;

thirdly, when the sewage in the sewage bucket 111 is increased to the discharge port 113, the sterilized sewage flows out and is discharged to the sewage discharge pipeline 15;

fourthly, when the liquid level in the slop pail 111 is at a low liquid level and is not increased any more, the liquid level sensor 118 is triggered, so that the sewage treatment assembly 11 is stopped.

Specifically, the level sensor 118 will perform a level test on the sewage in the sewage bucket 111, and trigger different signals according to different levels, so as to start or stop the sewage treatment assembly 11. The circulating valve 114 is used for conveying the sewage in the sewage bucket 111 to the self-priming pump 115, and then the self-priming pump 115 pumps the sewage into the sewage bucket 111, so that the sewage in the sewage bucket 111 can be circulated, and the sewage sterilization effect is further improved.

Example two:

the self-priming mode comprises the following steps:

in a first step, the circulation valve 114, the gravity flow port 112 and the liquid level sensor 118 are closed, and sewage in the sewage pipe 13 is sucked into the sewage bucket 111 through the suction assembly 12;

secondly, when the liquid level in the sewage pipeline 13 rises to a preset liquid level, the liquid level meter 124 in the suction assembly 12 is triggered, so that the suction assembly 12 starts suction work, and meanwhile, the sewage treatment assembly 11 automatically enters sterilization work;

a third step of discharging sewage into the sewage discharge pipe 15 when the liquid level in the slop pail 111 reaches the discharge port 113;

fourth, when the liquid level in the sewer line 13 decreases to a low level and does not increase any more, the liquid level gauge 124 in the suction assembly is triggered, so that the sewage treatment assembly 11 is shut down.

Specifically, the sewage in the sewage pipe 13 is pumped by the suction module 12 and then conveyed into the suction pipe, and then conveyed to the self-suction port 116 by the suction pipe, and finally the sewage is brought into the sewage bucket 111 from the self-suction port 116 by the self-suction pump 115, and the liquid level meter 124 triggers different operations according to different liquid levels by monitoring the sewage liquid level in the suction module 12, so that the sewage treatment module 11 starts to operate or stops to operate. The suction assembly 12 and the sewage treatment assembly 11 are also provided with signal line interfaces (not shown), and after the signal line interfaces are connected, sewage in the suction assembly 12 is conveyed into the sewage treatment assembly 11.

Example three:

the self-flow and self-suction dual mode comprises the following steps:

s100, closing a circulating valve 114, and enabling sewage in the gravity sewage pipeline 14 to enter a sewage bucket 111 through a gravity port 112; the sewage in the sewage pipe 13 is sucked into the sewage bucket 111 through the suction assembly 12;

s200, when the liquid level in the sewage bucket 111 rises to a preset liquid level, triggering the liquid level sensor 118, and starting the sewage treatment assembly 11 to perform sterilization work; when the sewage level of the sewage pipeline 13 rises to a preset level, the liquid level meter 124 in the suction assembly is triggered, so that the suction assembly 12 starts suction work, and meanwhile, the sewage treatment assembly 11 automatically enters sterilization work;

s300, when the sewage liquid level in the sewage bucket 111 reaches the discharge port 113, discharging the sewage into the sewage discharge pipeline 15;

s400, when the sewage level in the sewage bucket 111 and the sewage pipe 13 is lowered to a low level and is not increased any more, the sewage treatment assembly 11 is stopped.

Specifically, in S200, when any one of the liquid level meter 124 and the liquid level sensor 118 triggers a signal, the sewage treatment module 11 starts a sterilization operation; in S400, when the sewage level in the sewage bucket 111 or the sewage pipe 13 is lowered to a low level, and the level gauge 124 and the level sensor 118 trigger a stop signal, the sewage treatment module 11 can be stopped.

The utility model discloses a to flow the mode and combine together from inhaling the mode automatically, realized sewage treatment mode's diversification, improved sewage treatment device's installation effectiveness, also improved sewage treatment's the efficiency of disinfecting.

The technical contents and features of the present invention have been disclosed as above, however, those skilled in the art can still make various substitutions and modifications based on the teaching and disclosure of the present invention without departing from the spirit of the present invention, therefore, the protection scope of the present invention should not be limited to the contents disclosed in the embodiments, but should include various substitutions and modifications without departing from the present invention, and should be covered by the claims of the present patent application.

Claims (8)

1. The sewage treatment device for oral treatment is characterized by comprising a sewage treatment assembly, a suction assembly, a sewage pipeline, a self-flowing sewage pipeline and a sewage discharge pipeline connected with the sewage treatment assembly, wherein the self-flowing sewage pipeline is connected with the sewage treatment assembly, one end of the suction assembly is connected with the sewage treatment assembly, and the other end of the suction assembly is installed on the sewage pipeline.

2. The sewage treatment apparatus for oral treatment of claim 1, wherein the sewage treatment assembly comprises a sewage bucket, a self-priming port, a discharge port and a circulation valve disposed on the sewage bucket, a self-priming pump connected to the circulation valve, a self-priming port connected to the self-priming pump, and an ozone generator.

3. The device of claim 2, wherein the ozone generator delivers ozone to the bottom of the wastewater barrel through a pipe, and the suction assembly is connected to the self-suction port through a suction pipe.

4. The sewage treatment apparatus for oral treatment according to claim 2, wherein a liquid level sensor for starting the operation of the ozone generator is provided in the sewage bucket.

5. The device of claim 2, wherein the free-flow port is connected to the free-flow sewer line for delivering sewage into the sewage bucket.

6. The sewage treatment apparatus for oral treatment according to claim 1, wherein the suction assembly comprises a housing, a suction port provided on the housing, a suction tube interface and a one-way valve, and a liquid level meter provided in the housing.

7. The sewage treatment apparatus for oral treatment according to claim 6, wherein a floating ball for starting suction is provided on the liquid level meter.

8. The sewage treatment apparatus for oral treatment according to claim 6, wherein the suction port is installed in the sewage conduit.

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