CN217972700U - Slow-release disinfection processor - Google Patents

Abstract

The utility model discloses a slow-release disinfection processor, which comprises a main shell, wherein the rear wall of the main shell is provided with a water inlet valve communicated with an upstream sewage supply pipeline, and the side wall of the main shell is provided with a drain valve communicated with a downstream drainage system; the interior of the main shell is provided with a slow release cavity and a reaction tank which are communicated with the downstream of the water inlet valve, the reaction tank is communicated with the downstream of the water outlet of the slow release cavity, and the water discharge valve is communicated with the downstream of the water outlet of the reaction tank; the top of main casing body has the filler opening with slowly-releasing chamber intercommunication, and the dismouting is provided with sealed lid on the filler opening. The slow-release disinfection processor can accurately control the sewage treatment capacity and the mixing effect of the sewage treatment capacity and the disinfectant, and ensures that the sewage disinfection treatment process is stable and efficient.

Description

Slow-release disinfection processor

Technical Field

The utility model relates to a sewage disinfection processing corollary equipment technical field, in particular to slowly-releasing disinfection processor.

Background

In the current sewage treatment field, for general sewage disinfection treatment, sewage is generally directly introduced into disinfection treatment equipment, and then disinfectant is put into the disinfection treatment equipment, so as to complete disinfection and purification treatment of sewage.

However, although the above-mentioned sewage disinfection treatment method can meet the basic sewage disinfection treatment requirement at the present stage, in the whole treatment process, the flow of sewage and the mixing amount of sewage and disinfectant cannot be accurately controlled, and the sewage disinfection treatment is realized only by the flowing of sewage itself and the real-time delivery of disinfectant, so that the disinfection effect is unstable, the disinfection treatment efficiency is not high, and adverse effects are caused to the corresponding sewage treatment process.

Therefore, how to accurately control the sewage treatment amount and the mixing effect of the sewage treatment amount and the disinfectant, and ensure that the sewage disinfection treatment process is stable and efficient is an important technical problem to be solved by technical personnel in the field at present.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a slowly-releasing disinfection treater, this slowly-releasing disinfection treater can accurate control sewage treatment capacity and with disinfectant's mixed effect, guarantee that sewage disinfection processing procedure is stable high-efficient.

In order to solve the technical problem, the utility model provides a slow-release disinfection processor, which comprises a main shell, wherein a water inlet valve communicated with an upstream sewage supply pipeline is arranged on the rear wall of the main shell, and a drain valve communicated with a downstream drainage system is arranged on the side wall of the main shell;

the inside of the main shell is provided with a slow release cavity and a reaction pool which are communicated with the downstream of the water inlet valve, the reaction pool is communicated with the downstream of a water outlet of the slow release cavity, and the drain valve is communicated with the downstream of the water outlet of the reaction pool;

the top of main casing body have with the filler opening of slowly-releasing chamber intercommunication, the dismouting is provided with sealed lid on the filler opening.

Preferably, a viewing hole is formed in the front wall of the main housing, and a transparent cover plate is packaged on the viewing hole.

Preferably, the transparent cover plate is made of glass or plastic.

Preferably, a flow meter is arranged at the water inlet valve.

Preferably, a water distributor communicated with the downstream of the water inlet valve is arranged in the main shell, and the slow release cavity and the reaction tank are both communicated with the downstream of the water distributor.

Preferably, a siphon drainage device is communicated with the downstream of the drainage valve.

Preferably, the siphon drainage device is a water suction pump.

Preferably, a feeding positioning surface is obliquely arranged at the joint of the top surface of the main shell and the front wall of the main shell, and the filling port is positioned in the middle of the feeding positioning surface.

Preferably, the upper portion of the main housing is provided with a vent valve communicating the external environment with the internal cavity of the main housing.

Preferably, the sealing cover is in threaded connection with the filling opening.

Compared with the background technology, the slow-release disinfection processor provided by the utility model puts the disinfectant with a predetermined amount into the inner cavity of the main shell from the filling port and puts the disinfectant into the slow-release cavity during the working and running process; the sewage is conveyed to the water inlet valve through the sewage supply pipeline and is introduced into the inner cavity of the main shell through the water inlet valve, the sewage entering the inner part of the main shell is introduced into the slow release cavity and the reaction tank respectively, the sewage introduced into the slow release cavity is primarily mixed with the disinfectant in the slow release cavity, and the disinfectant in the slow release cavity is continuously washed and dissolved, and then the sewage is discharged into the reaction tank. And the sewage mixed with the disinfectant flows into the reaction tank from the slow release cavity and is converged with the sewage which directly flows into the reaction tank through the water inlet valve, so that the disinfectant and the sewage are fully mixed and are kept stand and react in the reaction tank for a period of time until the sewage is fully disinfected by the disinfectant, and the water body after the disinfection is discharged out of the slow release disinfection processor through the water discharge valve. In the whole operation process of the slow-release disinfection processor, the amount of sewage led into the inner cavity of the main shell body can be accurately and flexibly controlled through the water inlet valve and the water discharge valve, the sewage is matched with the dosage of the disinfectant arranged in the slow-release cavity in advance, the sewage treatment amount of single operation is greatly optimized, the sewage and the disinfectant are matched for premixing in the slow-release cavity, the mixing effect of the sewage and the disinfectant is correspondingly optimized, the whole sewage disinfection treatment efficiency is higher, and the treatment effect is better.

In another preferred aspect of the utility model, be provided with the observation hole on the antetheca of the main casing body, it is packaged with transparent cover plate to observe on the hole. In the operation process of the equipment, a worker can observe and monitor the sewage liquid level in the inner cavity of the main shell body in real time through the observation hole, so that the sewage storage amount in the inner cavity of the main shell body can be flexibly adjusted by controlling the on-off of the water inlet valve and/or the water discharge valve when necessary, the sewage disinfection treatment requirement under the actual working condition environment is matched, and the sewage disinfection treatment effect is ensured.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic diagram of a hydraulic system layout of a slow-release disinfection processor according to an embodiment of the present invention;

FIG. 2 is a front view of a slow release disinfection processor according to an embodiment of the present invention;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a right side view of FIG. 2;

FIG. 5 is a left side view of FIG. 2;

fig. 6 is a rear view of fig. 2.

Wherein:

11-a main housing;

111-a water inlet valve;

112-a drain valve;

113-a slow release cavity; (ii) a

114-a reaction tank;

115-a filler opening;

116-a viewing aperture;

117-transparent cover plate;

118-a water distributor;

119-a ventilation valve;

110-feeding and positioning surface;

12-sewage supply line;

13-a sealing cover;

14-siphon drainage device.

Detailed Description

The core of the utility model is to provide a slow-release disinfection processor, which can accurately control the sewage treatment capacity and the mixing effect with the disinfectant, and ensure the stable and high efficiency of the sewage disinfection treatment process.

In order to make the technical field better understand the solution of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings and the detailed description.

It should be noted that, in the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Furthermore, in the present disclosure, unless explicitly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature therebetween. Also, the first feature "on," "above" and "over" the second feature may include the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is at a higher level than the second feature. First characteristics are

The terms "under", "below" and "beneath" of a second feature encompass the first feature being directly under and obliquely below the second feature, or merely indicate that the first feature is at a lesser level than the second feature. The terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Please refer to fig. 1 to fig. 6.

In a specific embodiment, the present invention provides a slow-release disinfection processor, which comprises a main housing 11, a water inlet valve 111 disposed on the rear wall of the main housing 11 and communicated with an upstream sewage supply pipeline 12, and a water discharge valve 112 disposed on the side wall of the main housing 11 and communicated with a downstream water discharge system;

the interior of the main shell 11 is provided with a slow release cavity 113 and a reaction tank 114 which are communicated with the downstream of the water inlet valve 111, the reaction tank 114 is communicated with the downstream of the water outlet of the slow release cavity 113, and the water discharge valve 112 is communicated with the downstream of the water outlet of the reaction tank 114;

the top of the main shell 11 is provided with a filling opening 115 communicated with the slow release cavity 113, and the filling opening 115 is detachably provided with a sealing cover 13.

In the working process, a predetermined amount of disinfectant is put into the inner cavity of the main shell 11 from the filling opening 115, and the disinfectant is put into the slow release cavity 113; the sewage is conveyed to the water inlet valve 111 through the sewage supply pipeline 12, and is introduced into the inner cavity of the main shell 11 through the water inlet valve 111, the sewage entering the inner part of the main shell 11 is introduced into the slow release cavity 113 and the reaction tank 114 respectively, the sewage introduced into the slow release cavity 113 is primarily mixed with the disinfectant in the slow release cavity 113, and the disinfectant in the slow release cavity 113 is continuously flushed and dissolved, and then. The sewage mixed with the disinfectant flows into the reaction tank 114 from the slow release cavity 113, and is combined with the sewage which directly flows into the reaction tank 114 through the water inlet valve 111, so that the disinfectant and the sewage are fully mixed, and are kept stand and react in the reaction tank 114 for a period of time until the sewage is fully disinfected by the disinfectant, and the water after disinfection is discharged out of the slow release disinfection processor through the water discharge valve 112. In the whole operation process of the slow-release disinfection processor, the amount of sewage led into the inner cavity of the main shell body 11 can be accurately and flexibly controlled through the water inlet valve 111 and the water discharge valve 112, the sewage is matched with the dosage of the disinfectant arranged in the slow-release cavity 113 in advance, the sewage treatment amount of single operation is greatly optimized, the sewage and the disinfectant are matched for premixing in the slow-release cavity 113, the mixing effect of the sewage and the disinfectant is correspondingly optimized, the whole sewage disinfection treatment efficiency is higher, and the treatment effect is better.

It should be noted that, the sealing cover 13 is preferably in threaded connection with the filling opening 115, so that the alignment sealing effect and the convenience of the dismounting operation between the sealing cover 13 and the filling opening 115 can be fully ensured, and of course, in practical applications, a worker can flexibly adjust and select the connection structure form between the sealing cover 13 and the filling opening 115 according to the actual working condition requirements, and in principle, the connection structure form can be any one that can meet the actual application requirements of the slow-release disinfection processor.

It should be noted that, in practical applications, the sewage supply pipe 12 may be formed by hot-plastic joining of PVC (polyvinyl chloride) pipes, the main housing 11 may also be made of PVC material, the sealing cover 13 is made of PE (polyethylene), and the reaction tank 114 and the pipe assembly connected downstream of the drain valve 112 are preferably made of UPVC (rigid polyvinyl chloride).

Of course, in practical application, the specific materials of the above components can be flexibly adjusted and selected according to the actual working condition requirements, and in principle, the specific materials can be any materials as long as the specific materials can meet the practical application requirements of the slow-release disinfection processor.

In addition, it should be noted that, in consideration of the sewage treatment requirements under most working conditions, the disinfectant can be chlorine dioxide tablets, chlorine dioxide powder, sodium dichloroisocyanurate or sodium trichloroisocyanurate, or other agents capable of realizing sewage disinfection treatment, and workers can flexibly adjust and select the specific type of the disinfectant according to actual working conditions and operation requirements. In principle, the slow-release disinfection processor can be used as long as the disinfection treatment effect on the sewage can be ensured and the practical application requirements of the slow-release disinfection processor can be met.

Further, a viewing hole 116 is provided on the front wall of the main housing 11, and a transparent cover plate 117 is enclosed on the viewing hole 116. In the operation process of the device, a worker can observe and monitor the sewage level in the inner cavity of the main shell body 11 in real time through the observation hole 116, so that when necessary, the sewage storage amount in the inner cavity of the main shell body 11 can be flexibly adjusted by controlling the on-off of the water inlet valve 111 and/or the water discharge valve 112 to match the sewage disinfection treatment requirement under the actual working condition environment, and the sewage disinfection treatment effect is ensured.

Further, a flow meter is provided at the water inlet valve 111. The flow meter can further accurately monitor the flow of sewage at the water inlet valve 111, so that workers can know the quantity of sewage introduced into the inner cavity of the main shell 11 in real time, the flow meter can be matched with a preset disinfection dose, and the sewage disinfection treatment efficiency and treatment effect are ensured.

In addition, the transparent cover 117 is a glass or plastic. Of course, the worker may also select other transparent materials as the specific processing materials of the transparent cover plate 117 according to the specific working condition requirements, and in principle, the structural strength and certain hydraulic pressure tolerance of the transparent cover plate 117 should be ensured to meet the practical application requirements of the slow-release disinfection processor.

On the other hand, a water distributor 118 is disposed in the main housing 11 and is connected to the downstream of the water inlet valve 111, and the slow release chamber 113 and the reaction tank 114 are both connected to the downstream of the water distributor 118. The water distributor 118 can distribute the sewage introduced from the water inlet valve 111 into the slow release cavity 113 and the reaction tank 114 efficiently and reasonably, so as to ensure the mixing effect of the sewage and the disinfectant and the subsequent sewage disinfection treatment effect.

Specifically, a siphon discharge device 14 is communicated downstream of the discharge valve 112. The siphon drainage device 14 can significantly improve the drainage efficiency at the drainage valve 112, so that the sewage after the disinfection treatment can be quickly discharged out of the inner cavity of the main housing 11 in time, and the next stage sewage disinfection treatment process can be smoothly performed.

More specifically, the siphon drain 14 is a suction pump. The water pump has simple and reliable structure and stable and efficient work, can fully ensure the operation requirement of the siphon drainage device 14 and optimize the operation efficiency of the slow-release disinfection processor.

In addition, a feeding positioning surface 110 is obliquely arranged at the joint of the top surface of the main shell 11 and the front wall thereof, and a filling opening 115 is positioned in the middle of the feeding positioning surface 110. The feeding positioning surface 110 can provide sufficient working space for workers, and matches the operation habits and feeding angles of the workers, so that the operation convenience of the workers for feeding the disinfectant into the slow-release cavity 113 through the filling port 115 is effectively improved, and the operation efficiency of the slow-release disinfection processor is further improved.

In addition, the upper portion of the main housing 11 is provided with a vent valve 119 that communicates the external environment with the internal cavity of the main housing 11. In the operation process of the equipment, the ventilation valve 119 can be opened or closed, so that the air pressure in the inner cavity of the main shell body 11 is adjusted, and the internal environment of the main shell body 11 can meet the working condition requirement of sewage disinfection treatment.

It should be clear that the position of the vent valve 119 should be higher than the positions of the inlet valve 111 and the drain valve 112, so as to prevent the sewage from overflowing through the vent valve 119, and ensure the stable and reliable working process of the slow release disinfection processor.

In summary, in the working and operating process of the slow-release disinfection processor provided by the utility model, a predetermined amount of disinfectant is put into the inner cavity of the main shell from the filling port, and the disinfectant is put into the slow-release cavity; the sewage is conveyed to the water inlet valve through the sewage supply pipeline and is introduced into the inner cavity of the main shell through the water inlet valve, the sewage entering the inner part of the main shell is respectively introduced into the slow release cavity and the reaction tank, the sewage introduced into the slow release cavity is initially mixed with the disinfectant in the slow release cavity, and the disinfectant in the slow release cavity is continuously washed and dissolved, and then the sewage is discharged into the reaction tank. And the sewage mixed with the disinfectant flows into the reaction tank from the slow release cavity and is converged with the sewage which directly flows into the reaction tank through the water inlet valve, so that the disinfectant and the sewage are fully mixed and are kept stand and react in the reaction tank for a period of time until the sewage is fully disinfected by the disinfectant, and the water body after the disinfection is discharged out of the slow release disinfection processor through the water discharge valve. In the whole operation process of the slow-release disinfection processor, the amount of sewage led into the inner cavity of the main shell can be accurately and flexibly controlled through the water inlet valve and the water discharge valve, so that the sewage amount is matched with the dosage of the disinfectant arranged in the slow-release cavity in advance, the sewage treatment amount of single operation is greatly optimized, the sewage and the disinfectant are matched for premixing in the slow-release cavity, the mixing effect of the sewage and the disinfectant is correspondingly optimized, the whole sewage disinfection treatment efficiency is higher, and the treatment effect is better.

The slow release disinfection processor provided by the utility model is described in detail above. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the scope of the appended claims.

Claims (10)

1. A slow-release disinfection processor is characterized by comprising a main shell, wherein a water inlet valve communicated with an upstream sewage supply pipeline is arranged on the rear wall of the main shell, and a water discharge valve communicated with a downstream water discharge system is arranged on the side wall of the main shell;

the inside of the main shell is provided with a slow release cavity and a reaction pool which are communicated with the downstream of the water inlet valve, the reaction pool is communicated with the downstream of a water outlet of the slow release cavity, and the drain valve is communicated with the downstream of the water outlet of the reaction pool;

the top of main casing body have with the filler opening of slowly-releasing chamber intercommunication, the dismouting is provided with sealed lid on the filler opening.

2. A slow release sterilizer processor as claimed in claim 1 wherein a viewing port is provided in the front wall of the main housing, and a transparent cover is encapsulated over the viewing port.

3. The slow release disinfectant processor of claim 2, wherein said transparent cover is a glass or plastic piece.

4. A slow release disinfection processor as claimed in claim 2 wherein a flow meter is provided at said inlet valve.

5. The slow release disinfection processor of claim 1 wherein a water distributor is disposed within said main housing and is in communication with said water inlet valve downstream thereof, said slow release chamber and said reaction chamber both being in communication with said water distributor downstream thereof.

6. A slow release sterilizer of claim 1 wherein a siphon drain is connected downstream of the drain valve.

7. A slow release disinfection processor as claimed in claim 6, wherein said siphon discharge means is a suction pump.

8. The slow-release disinfection treater of claim 1 wherein a feeding positioning surface is obliquely arranged at the junction of the top surface of the main casing and the front wall of the main casing, and the filling port is positioned in the middle of the feeding positioning surface.

9. A slow release sterilization processor as defined in claim 1, wherein an upper portion of said main housing is provided with a vent valve communicating the external environment with the interior chamber of said main housing.

10. A slow release disinfection processor as claimed in claim 1 wherein said sealing cap is threadably connected to said fill port.

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