CN218794466U - Multistage deep filtration device - Google Patents

Abstract

The utility model discloses a multistage deep filtration device, relate to filter equipment technical field, including chemical agent supply pipeline, material supply pipeline and filter line, install first manual valve on the chemical agent supply pipeline, install the manual valve of second on the material supply pipeline, install first deep anchor clamps on the filter line in proper order, the manual valve of third, first filter shell, the manual valve of fourth, the deep anchor clamps of second, the manual valve of fifth, second filter shell and the manual valve of sixth, the output of chemical agent supply pipeline and material supply pipeline connects in parallel each other and forms the pipeline of assembling, assemble and install the rotor pump on the pipeline, the output of assembling the pipeline is connected with the output of filter line, be close to the output and the input of first deep anchor clamps, install five manometer on the filter line of the output of the deep anchor clamps of second and input and second filter shell's the output respectively.

Description

Multistage deep filtration device

Technical Field

The utility model relates to a filter equipment technical field specifically is a multistage deep filter equipment.

Background

When the raw material is processed, modes such as dead-end filtration and deep filtration are adopted, but the filtering requirement required by people can be met by different permutation and combination of multiple filtering modes, the raw material needs to be processed in batches in the processing process, the utilization rate of the raw material is low, most interfaces are pagoda interfaces and have no pressure detection, the interfaces can be cracked when the pressure is high, a plurality of unsafe factors occur, and whether the filtering membrane is punctured or not can not be judged.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multistage deep filtration device to solve the problem that proposes among the above-mentioned background art.

In order to solve the technical problem, the utility model provides a following technical scheme: a multistage depth filtration device comprises a chemical reagent supply pipeline, a material supply pipeline and a filtration pipeline, wherein a first manual valve is installed on the chemical reagent supply pipeline, a second manual valve is installed on the material supply pipeline, a first deep fixture, a third manual valve, a first filter shell, a fourth manual valve, a second deep fixture, a fifth manual valve, a second filter shell and a sixth manual valve are sequentially connected onto the filtration pipeline through quick-assembly interfaces, output ends of the chemical reagent supply pipeline and the material supply pipeline are connected in parallel to form a gathering pipeline, a rotor pump is installed on the gathering pipeline, an output end of the gathering pipeline is connected with an output end of the filtration pipeline, and five pressure gauges are installed on the filtration pipeline close to the output end and the input end of the first deep fixture, the output end and the input end of the second deep fixture and the output end of the second filter shell respectively.

And the output end of the cleaning solution supply pipeline is respectively connected with the top end of the first filter shell and the top end of the second filter shell through two branch pipelines, and a seventh manual valve is installed on the branch pipelines.

Furthermore, two spraying balls are arranged in the first filter shell and the second filter shell respectively, and the output ends of the branch pipelines penetrate through the top end of the first filter shell and the top end of the second filter shell respectively and are connected with the corresponding spraying balls.

Furthermore, a first discharge pipeline is connected in parallel to a gathering pipeline close to the input end of the rotor pump, and an eighth manual valve is installed on the first discharge pipeline.

Furthermore, a second discharge pipeline is arranged in parallel on the filtering pipeline between the first filter shell and the fourth manual valve, and a ninth manual valve is installed on the second discharge pipeline.

Furthermore, a third discharge pipeline is arranged on a pressure gauge at the tail end of the filter pipeline and the filter pipeline of the sixth manual valve in parallel, and a tenth manual valve is arranged on the third discharge pipeline.

The utility model discloses the beneficial effect who reaches is:

1. through set up the manometer on the pipeline and then realize the real time monitoring to pressure to avoid leading to the interface to appear collapsing open's phenomenon because of pressure is too big, simultaneously through the real time monitoring of manometer to the pipeline, thereby realize judging the condition that filtration membrane was whether punctured.

2. Different filtering modules are linked with the filtering pipeline in a quick-mounting interface mode.

Drawings

FIG. 1 is a schematic view of a multistage depth filtration apparatus.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, the utility model discloses a multistage deep filtration device, include: the chemical reagent filtering device comprises a chemical reagent supply pipeline 1, a material supply pipeline 2 and a filtering pipeline 3, wherein a first manual valve 11 is installed on the chemical reagent supply pipeline 1, the material supply pipeline 2 is provided with a second manual valve 21, the filtering pipeline 3 is connected with a first deep-layer clamp 31, a third manual valve 32, a first filter shell 33, a fourth manual valve 34, a second deep-layer clamp 35, a fifth manual valve 36, a second filter shell 37 and a sixth manual valve 38 in sequence through quick-assembly interfaces on the filtering pipeline 3, the output ends of the chemical reagent supply pipeline 1 and the material supply pipeline 2 are connected in parallel to form a gathering pipeline 4, a rotor pump 41 is installed on the gathering pipeline 4, the output end of the gathering pipeline 4 is connected with the output end of the filtering pipeline 3, and five pressure gauges 310 are respectively installed on the filtering pipeline 3 close to the output end and the input end of the first deep-layer clamp 31, the output end and the input end of the second deep-layer clamp 35 and the output end of the second filter shell 37.

When the device is used, the second manual valve 21, the third manual valve 32, the fourth manual valve 34, the fifth manual valve 36 and the sixth manual valve 38 are firstly opened, the rotor pump 41 is simultaneously started, the rotor pump 41 pumps the materials in the material supply pipeline 2 to the gathering pipeline 4 and conveys the materials to the filtering pipeline 3 through the gathering pipeline 4, the filtering pipeline 3 filters the materials through the first deep layer clamp 31, the first filter shell 33, the second deep layer clamp 35 and the second filter shell 37 and discharges the materials from the output end of the filtering pipeline 3, the pressure gauge 310 detects the pressure in real time in the filtering process, when the pressure is higher, the rotor pump 41 is stopped, and when the output end and the input end of the first deep layer clamp 31 and the output end and the input end of the second deep layer clamp 35 show the pressure reduction, the device can also be used for judging that the filtering membrane is punctured, and the arrangement of the first deep layer clamp 31, the first filter shell 33, the second deep layer clamp 35, and the second deep layer clamp 37 can achieve better grading filtering effect of the materials;

meanwhile, after the material is filtered, the second manual valve 21 is closed, the first manual valve 11 is opened, the chemical agent supply pipeline 1 supplies the chemical agent for cleaning the pipeline to the convergence pipeline 4, and the rotor pump 41 further supplies the chemical agent, so that the pipeline and the raw material inside the filter shell are top-washed.

Preferably, as shown in fig. 1, a cleaning solution supply line 5 is further included, an output end of the cleaning solution supply line 5 is connected to a top end of the first filter housing 33 and a top end of the second filter housing 37 through two branch lines 51, respectively, and a seventh manual valve 52 is installed on the branch line 51, when the inside of the first filter housing 33 or the second filter housing 37 is to be cleaned, the corresponding seventh manual valve 52 is opened according to a requirement, and the cleaning solution supply line 5 delivers cleaning solution into the first filter housing 33 or the second filter housing 37 through the branch line 51, thereby performing cleaning.

Further, as shown in fig. 1, in order to better clean the inside of the filter housing, two spray balls 39 are respectively disposed in the first filter housing 33 and the second filter housing 37, output ends of two branch lines 51 respectively pass through the top end of the first filter housing 33 and the top end of the second filter housing 37 and are connected to the corresponding spray balls 39, and when the branch lines 51 deliver the cleaning liquid to the spray balls 39, the spray balls 39 rotate and uniformly spray the cleaning liquid in the inside of the filter housing, thereby achieving a better cleaning effect.

Preferably, as shown in fig. 1, a first discharge line 6 is connected in parallel to the converging line 4 near the input end of the impeller pump 41, an eighth manual valve 61 is installed on the first discharge line 6, the eighth manual valve 61 is opened when the line is cleaned, and the material in the front section of the material supply line 2 is discharged from the first discharge line 6.

Preferably, as shown in fig. 1, a second drain line 7 is connected in parallel to the filter line 3 between the first filter housing 33 and the fourth manual valve 34, a ninth manual valve 71 is installed on the second drain line 7, when the inside of the first filter housing 33 is cleaned, the ninth manual valve 71 is opened, and waste liquid generated after cleaning is discharged through the second drain line 7.

Preferably, as shown in fig. 1, a pressure gauge 310 at the extreme end of the filtering line 3 is connected in parallel with the filtering line 3 of the sixth manual valve 38 to form a third discharging line 8, a tenth manual valve 81 is installed on the third discharging line 8, when the second filter housing 37 is cleaned, the tenth manual valve 81 is opened, and waste liquid generated after cleaning is discharged through the third discharging line 8.

Finally, it should be noted that: above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … … …" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

Claims (6)

1. A multi-stage depth filtration device comprising:

a chemical agent supply line (1), wherein a first manual valve (11) is mounted on the chemical agent supply line (1);

a material supply pipeline (2), wherein a second manual valve (21) is arranged on the material supply pipeline (2);

the filter pipeline (3) is sequentially connected with a first deep fixture (31), a third manual valve (32), a first filter shell (33), a fourth manual valve (34), a second deep fixture (35), a fifth manual valve (36), a second filter shell (37) and a sixth manual valve (38) through quick-assembly interfaces;

wherein, the output of chemical reagent supply line (1) and material supply line (2) connects in parallel each other and forms and assembles pipeline (4), assemble and install impeller pump (41) on pipeline (4), the output that assembles pipeline (4) is connected with the output that filters pipeline (3), is close to the output and the input of first deep anchor clamps (31), the output and the input of the deep anchor clamps of second (35) and the output of second filter shell (37) five manometer (310) are installed respectively to the kneck of filtering pipeline (3).

2. The multi-stage depth filtration device of claim 1, wherein: the washing liquid filter further comprises a washing liquid supply pipeline (5), the output end of the washing liquid supply pipeline (5) is respectively connected with the top end of the first filter shell (33) and the top end of the second filter shell (37) through two branch pipelines (51), and a seventh manual valve (52) is installed on the branch pipelines (51).

3. The multi-stage depth filtration device of claim 2, wherein: two spraying balls (39) are respectively arranged in the first filter shell (33) and the second filter shell (37), and the output ends of the branch pipelines (51) respectively penetrate through the top end of the first filter shell (33) and the top end of the second filter shell (37) and are connected with the corresponding spraying balls (39).

4. The multi-stage depth filtration device of claim 1, wherein: a first discharge pipeline (6) is arranged on the convergence pipeline (4) close to the input end of the rotor pump (41) in parallel, and an eighth manual valve (61) is installed on the first discharge pipeline (6).

5. The multi-stage depth filtration device of claim 1, wherein: a second discharge pipeline (7) is arranged in parallel on the filtering pipeline (3) between the first filter shell (33) and the fourth manual valve (34), and a ninth manual valve (71) is mounted on the second discharge pipeline (7).

6. The multi-stage depth filtration device of claim 1, wherein: a third discharge pipeline (8) is arranged on a pressure gauge (310) at the tail end of the filter pipeline (3) and the filter pipeline (3) of the sixth manual valve (38) in parallel, and a tenth manual valve (81) is installed on the third discharge pipeline (8).

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