CN215026337U - Sewage filters reposition of redundant personnel structure - Google Patents

Abstract

The utility model discloses a sewage filtering and shunting structure, which comprises a water inlet pipe, a drainage pipe, a deslagging pipe, a drainage pipe, a filtering material component and a filtering component mounting pipe, wherein the water inlet pipe is arranged above the drainage pipe, the water outlet end of the water inlet pipe is in fluid conduction connection with the water inlet end of the drainage pipe, the drainage pipe is arranged above the filtering component mounting pipe, the water outlet end of the drainage pipe is in fluid conduction connection with the water inlet end of the filtering component mounting pipe, the filtering component mounting pipe is arranged above the drainage pipe, the water outlet end of the filtering component mounting pipe is in fluid conduction connection with the water inlet end of the drainage pipe, and the filtering residue discharge end of the filtering component mounting pipe is connected with the feed end of the deslagging pipe; the filtering material component is arranged on the water inlet of the water outlet end of the filtering component mounting pipe and covers the water inlet of the water outlet end of the filtering component mounting pipe. The utility model discloses utilize gravity to realize the solid automatic transfer after the solid-liquid separation, reduce the trouble that the solid shifted, be favorable to carrying out the solid-liquid separation operation in succession.

Description

Sewage filters reposition of redundant personnel structure

Technical Field

The utility model relates to a filtering separation field, in particular to sewage filters reposition of redundant personnel structure.

Background

When solid-liquid separation is carried out, filtration is generally adopted, so that not only is the trouble simply saved, but also the energy is saved. However, when the solid-liquid separation needs to be continuously performed, the problem of solid transfer needs to be considered, for example, when sewage is treated, solid with a large volume in the sewage needs to be filtered by a grating and then is subjected to subsequent treatment, but when the solid is filtered by the grating, the solid on the grating needs to be cleaned after a long time, and the solid cannot be automatically transferred no matter the solid is manually or mechanically treated. In the secondary utilization of kitchen waste water, kitchen waste needs to be separated from the kitchen waste water, for example, the kitchen waste is filtered out by a grate in a vegetable sink and then put into a garbage belt or a kitchen waste crusher, and when more kitchen waste is generated in the primary cooking process, people need to clean the kitchen waste on the grate for many times.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a sewage filters reposition of redundant personnel structure utilizes gravity to realize the solid automatic transfer after solid-liquid separation, reduces the trouble that the solid shifted, is favorable to carrying out the solid-liquid separation operation in succession.

In order to solve the technical problem, the utility model discloses a technical scheme as follows:

a sewage filtering and shunting structure comprises a water inlet pipe, a drainage pipe, a deslagging pipe, a drainage pipe, a filtering material manufacturing component and a filtering component mounting pipe, wherein the water inlet pipe is arranged above the drainage pipe, the water outlet end of the water inlet pipe is in fluid conduction connection with the water inlet end of the drainage pipe, the drainage pipe is arranged above the filtering component mounting pipe, the water outlet end of the drainage pipe is in fluid conduction connection with the water inlet end of the filtering component mounting pipe, the filtering component mounting pipe is arranged above the drainage pipe, the water outlet end of the filtering component mounting pipe is in fluid conduction connection with the water inlet end of the drainage pipe, and the filtering residue discharge end of the filtering component mounting pipe is connected with the feed end of the deslagging pipe; the filter element mounting pipe is provided with a water outlet end water inlet, a water outlet end water inlet and a water outlet end, wherein the water outlet end water inlet is communicated with the water outlet end of the filter element mounting pipe; the included angle between the drainage tube and the vertical direction is more than 0 degree and less than or equal to 45 degrees, and the extension line of the inner wall of the lower side of the drainage tube is positioned right above the water inlet of the water outlet end of the filter element installation tube.

Above-mentioned sewage filters reposition of redundant personnel structure, slag pipe central line and vertical contained angle are greater than 10 and are less than or equal to 60.

Above-mentioned sewage filters reposition of redundant personnel structure, the scum pipe mouth of pipe with the side pipe wall fixed connection under the drainage tube.

In the sewage filtering and shunting structure, the water outlet end of the filtering component mounting pipe is a conical pipe section, and the flared end of the conical pipe section faces upwards; the filter material member is mounted on the flared end of the conical tube section.

In the sewage filtering and shunting structure, the upper surface of the filtering material component is at least flush with the pipe orifice at the flared end of the conical pipe section.

In the sewage filtering and shunting structure, the side wall of the conical pipe section, which is opposite to the installation position of the slag discharge pipe, is parallel to the central line of the water inlet end of the filtering component installation pipe.

The utility model has the advantages as follows:

when the water body carrying the solids is drained by the drainage tube and then falls on the filtering material member under the action of gravity, the water body falls into the drainage tube through the filtering holes on the filtering material member, and the solids accumulated on the filtering material member fall into the slag discharge tube along the surface of the filtering material member under the action of gravity, so that the automatic transfer of the solids is realized.

Drawings

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

Fig. 1 is a schematic structural view of the sewage filtering and distributing structure of the present invention.

In the figure, 1-water inlet pipe; 2-a drainage tube; 3-filter member mounting tube; 4-a slag discharge pipe; 5, a drain pipe; 6-a member made of a filter material; 7-tapered tube section.

Detailed Description

In order to explain the present invention more clearly, the present invention will be further described with reference to the preferred embodiments and the accompanying drawings. Similar parts in the figures are denoted by the same reference numerals. It is to be understood by persons skilled in the art that the following detailed description is illustrative and not restrictive, and is not to be taken as limiting the scope of the invention.

As shown in fig. 1, the utility model discloses sewage filtering and shunting structure, including inlet tube 1, drainage tube 2, scum pipe 4, drain pipe 5, filtering material system component 6 and filtering member installation pipe 3, inlet tube 1 sets up in the top of drainage tube 2 and the outlet end of inlet tube 1 with drainage tube 2 inlet end fluid conduction connection, drainage tube 2 sets up in the top of filtering member installation pipe 3 and the outlet end of drainage tube 2 with filtering member installation pipe 3 inlet end fluid conduction connection, filtering member installation pipe 3 sets up in the top of drain pipe 5 and the outlet end of filtering member installation pipe 3 with the inlet end fluid conduction connection of drain pipe 5, filtering member installation pipe 3 discharge end with scum pipe 4 feed end connection; the filtering material component 6 is arranged on the water inlet at the water outlet end of the filtering component mounting pipe 3 and covers the water inlet at the water outlet end of the filtering component mounting pipe 3, and a gap for filter residues to pass through is formed between the upper surface of the filtering material component 6 and the upper inner wall of the filtering component mounting pipe 3; the included angle between the drainage tube 2 and the vertical direction is 30 degrees, and the extension line of the inner wall of the lower side of the drainage tube 2 is positioned above the water inlet of the water outlet end of the filter member installation tube 3. The drainage tube 2 is obliquely arranged, so that the flow direction of water can be changed, the water falls on the filtering material component 6 positioned right above the water inlet at the water outlet end of the filtering component mounting tube 3 in the falling process, solid garbage can be collided on the inner wall of the filtering component mounting tube 3 to change the running direction, and the solid garbage can enter the slag discharge tube 4.

The included angle between the central line of the slag discharging pipe 4 and the vertical direction is 50 degrees, and the pipe orifice of the slag discharging pipe 4 is fixedly connected with the lower pipe wall of the drainage pipe 2.

In order to increase the amount of water flowing into the drain pipe 5 in the filtering process, in this embodiment, the water outlet end of the filtering member installation pipe 3 is a tapered pipe section 7, the flared end of the tapered pipe section 7 faces upward, and the side wall of the tapered pipe section 7 opposite to the installation position of the slag discharge pipe 4 is parallel to the center line of the water inlet end of the filtering member installation pipe 3; the filtering material component 6 is arranged on the flaring end of the conical pipe section 7, and the upper surface of the filtering material component 6 is at least flush with the pipe orifice of the flaring end of the conical pipe section 7. The area for collecting water is enlarged by the conical pipe section 7, and meanwhile, the filtering material component 6 matched with the structure of the conical pipe section 7 is used for ensuring that most of solids can smoothly enter the slag discharge pipe 4.

When water carrying solids enters the drainage tube 2 through the water inlet tube 1, the water flow direction and the solid movement direction are deflected to a certain degree under the drainage effect of the drainage tube 2, when the water and the solids fall on the upper surface of the filtering material component 6, the water continues to fall through the filtering holes on the filtering material component 6, and the solids are left on the filtering material component 6, slide towards the slag discharge tube 4 under the action of gravity and the lubricating effect of water drops attached to the solid surface, and then are conveyed to the next treatment link through the slag discharge tube 4, such as a garbage bag or a garbage crusher. The utility model provides an its effect of drainage tube 2 is mainly for retraining fluid and change fluid direction to ensure that the fluid is followed can most fall after the 2 exit of drainage tube flows on filtering material system component 6, thereby guarantee that the water of the aquatic of carrying the solid can be collected the utilization as far as possible.

Utilize the utility model discloses carry out solid-liquid separation, both can realize solid-liquid separation, can also realize the solid-liquid reposition of redundant personnel, realized the automatic transfer of solid, because the utility model discloses simple structure and occupation space are less, can be applied to the separation of the surplus rubbish in kitchen and the surplus sewage in kitchen in the washing tank in the kitchen.

The above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and for those skilled in the art, other variations or changes in different forms can be made on the basis of the above descriptions, and all embodiments cannot be exhausted here, and all the obvious variations or changes introduced by the technical solution of the present invention are still in the scope of protection of the present invention.

Claims (6)

1. A sewage filtering and shunting structure is characterized by comprising a water inlet pipe (1), a drainage pipe (2), a slag discharge pipe (4), a drainage pipe (5), a filtering material component (6) and a filtering component mounting pipe (3), the water inlet pipe (1) is arranged above the drainage pipe (2), the water outlet end of the water inlet pipe (1) is in fluid conduction connection with the water inlet end of the drainage pipe (2), the drainage tube (2) is arranged above the filtering element mounting tube (3), the water outlet end of the drainage tube (2) is in fluid communication connection with the water inlet end of the filtering element mounting tube (3), the filter component mounting pipe (3) is arranged above the drain pipe (5), the water outlet end of the filter component mounting pipe (3) is in fluid communication connection with the water inlet end of the drain pipe (5), the filter residue discharge end of the filter component mounting pipe (3) is connected with the feed end of the residue discharge pipe (4); the filter material component (6) is arranged on the water outlet end water inlet of the filter component mounting pipe (3) and covers the water outlet end water inlet of the filter component mounting pipe (3), and a gap for filter residues to pass through is formed between the upper surface of the filter material component (6) and the upper inner wall of the filter component mounting pipe (3); the included angle between the drainage tube (2) and the vertical direction is more than 0 degree and less than or equal to 45 degrees, and the extension line of the inner wall at the lower side of the drainage tube (2) is positioned right above the water inlet at the water outlet end of the filter member installation tube (3).

2. The sewage filtering and splitting structure according to claim 1, wherein the included angle between the central line of the slag discharge pipe (4) and the vertical direction is greater than 10 degrees and less than or equal to 60 degrees.

3. The sewage filtering and distributing structure according to claim 1, wherein the opening of the slag discharge pipe (4) is fixedly connected with the lower side pipe wall of the drainage pipe (2).

4. The sewage filtering and splitting structure according to any one of claims 1 to 3, wherein the water outlet end of the filtering member mounting tube (3) is a tapered tube section (7), and the flared end of the tapered tube section (7) faces upwards; the filter material member (6) is mounted on the flared end of the conical tube section (7).

5. The effluent filtering and splitting structure according to claim 4, wherein said filtering material member (6) has an upper surface at least flush with the mouth of said tapered tube section (7).

6. The sewage filtering and splitting structure according to claim 5, wherein the side wall of the tapered pipe section (7) opposite to the installation position of the slag discharge pipe (4) is parallel to the center line of the water inlet end of the filter element installation pipe (3).

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