CN112546721A - Fill and annotate integral type and become pipeline stream shutoff sewage recovery unit for simulation test - Google Patents

Abstract

The invention discloses a sewage recovery device for a filling integrated variable pipeline flow plugging simulation test, which belongs to the technical field of sewage treatment, wherein a shunting filter component is arranged at the top end inside a recovery tank body, a plurality of aggregate recovery ports are formed in the outer side of the upper end of the recovery tank body, aggregate recovery bags are fixedly arranged on the outer sides of the aggregate recovery ports, the aggregate recovery bags are connected with the recovery tank body through splicing fixing components, and a rotary centrifugal component is arranged below the shunting filter component. Effectively prolonging the service life of the sewage recovery device.

Description

Fill and annotate integral type and become pipeline stream shutoff sewage recovery unit for simulation test

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a filling integrated sewage recovery device for a variable pipeline flow plugging simulation test.

Background

The filling integrated variable pipeline flow plugging is to plug underground water resources in the mining process of a mine by using a grouting prevention and control mode so as to avoid pollution and damage to the underground water resource environment, the filling integrated variable pipeline flow plugging simulation test is to carry out a simulation experiment on the grouting mode so that the success rate in the actual operation process is higher, but when the plugging simulation test is carried out, as sand, slurry and aggregate are used for plugging the pipeline, more sewage is generated after the test is carried out, if the sewage is directly discharged, not only the environment is polluted, but also the water resource is wasted, the method does not accord with the current concept of green environment protection, and when the traditional sewage containing sand, slurry and aggregate is recycled, only a filtering mode is used for recycling, and as the sewage contains more sand and aggregate, can cause serious weight burden and damage to filterable equipment for the great reduction of filtration equipment's life, so, people urgently need a fill integral type becomes for the pipeline stream shutoff sewage recovery unit for simulation test to above-mentioned sewage recovery processing.

Disclosure of Invention

The invention aims to provide a sewage recovery device for a filling integrated variable pipeline flow plugging simulation test, which aims to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: fill and annotate integral type and become pipeline flow sewage recovery unit for shutoff analogue test, this sewage recovery unit is including retrieving a jar body and supporting the base, it is provided with the support base to retrieve jar body bottom, retrieve a jar body top and install the inlet tube, retrieve a jar body bottom one side and install the outlet pipe, retrieve jar internal portion top and install reposition of redundant personnel filtering component, a plurality of aggregate recovery mouth has been seted up in the jar external side of retrieving, aggregate recovery mouth is connected with reposition of redundant personnel filtering component's bottom, aggregate recovery mouth outside fixed mounting has aggregate recovery bag, aggregate recovery bag and retrieve and be connected through grafting fixed subassembly between the jar body, it installs rotatory centrifugal component to retrieve jar internal portion and be located reposition of redundant personnel filtering component below.

Through above-mentioned technical scheme, through carrying out gradual filtration to the sewage that contains grit, thick liquid and aggregate, great improvement become the recovery and the filterable efficiency of pipeline flow shutoff sewage for analogue test to the filling integral type, simultaneously, realized solid-liquid separation and recovery effectively for it is more hierarchical to the filtration of sewage, avoided grit and aggregate to cause the damage to whole sewage recovery device, prolonged sewage recovery device's life effectively.

As a preferred technical scheme, the shunting filter assembly comprises a shunting frustum and a filter rod;

the flow distribution frustum is positioned at the bottom end of the water inlet pipe, the axis of the flow distribution frustum is the same as that of the water inlet pipe, the bottom end of the flow distribution frustum is connected with the interior of the recovery tank body through a plurality of filter rods, and a plurality of filter gaps are formed among the plurality of filter rods;

by the technical scheme, the sewage can be shunted and the sand and stone and aggregate in the sewage can be filtered at the first time when the sewage enters the filtering tank body, so that the damage to the whole sewage recovery device caused by the falling of the sand and stone and aggregate from a high place is avoided;

the rotary centrifugal assembly comprises a centrifugal plate and a filter ring;

the centrifugal plate is positioned below the flow dividing frustum, and the edge part of the centrifugal plate is provided with a filter ring;

by adopting the technical scheme, when the sewage from which the sand and stone and the aggregate are removed is recycled and filtered, the filtering efficiency is higher, meanwhile, a certain buffering effect is achieved on the falling of the sewage in the recycling tank body, and the protection of the recycling tank body is further realized;

a filter plate is arranged below the centrifugal plate;

through above-mentioned technical scheme, through successive layer filterable mode, not only great improvement the filterable efficiency of sewage recovery, simultaneously, improved the filterable degree of sewage recovery for retrieve filterable sewage cleaner through retrieving the jar body.

As the preferred technical scheme, centrifuge plate fixed mounting has cowl, pass through welded connection between cowl and the recovery jar internal wall, through cowl's setting, on the one hand, avoid directly falling on the filter through the sewage after reposition of redundant personnel filter assembly filters, avoid the granule solid-state material that contains in the sewage to cause the damage to the filter, on the other hand, when having avoided centrifuge plate and filter ring to filter sewage, get rid of sewage on recovery jar side wall under the effect of centrifugal force, lead to the thick liquid adhesion in the sewage on recovery jar side wall, change the direction of the sewage that centrifuge plate was thrown away through cowl, make sewage perpendicular downwards, great reduction the volume of sewage and the contact of recovery jar side wall, make recovery jar side wall keep clean.

As a preferred technical scheme, the rotary centrifugal assembly further comprises a driving motor, a rotary rod, a filtering hole and a limiting ring;

retrieve jar body bottom and install driving motor, driving motor passes through axle sealing connection with retrieving jar body bottom, driving motor and power electric connection, install the rotary rod on the driving motor output shaft, the rotary rod runs through filter plate middle part and centrifugal plate bottom end fixed connection, it crosses the filtration pore to have seted up a plurality of on the filtration ring, it is provided with the spacing ring to cross the filtration ring top.

Through above-mentioned technical scheme for rotatory centrifugal component is when carrying out rotatory centrifugal filtration to sewage, and efficiency is higher, simultaneously, has avoided sewage to throw away, makes the filter fineness to sewage higher, makes the more clean of sewage after retrieving the filtration.

As a preferred technical scheme, the side wall of the recovery tank body is provided with a cleaning window, the cleaning window and the centrifugal plate are located on the same horizontal plane, and the cleaning window is arranged, so that after the sewage recovery device is used, solid small particles left after filtering on the filtering ring can be cleaned, and the influence on the next use is avoided.

According to a preferable technical scheme, the inserting and fixing assembly comprises an inserting pipe, a first extrusion air bag, an extrusion plate and a second extrusion air bag;

the utility model discloses a packing bag, including a grafting pipe, a mouth, a supporting framework, a grafting pipe, a first extrusion gasbag, stripper plate, first gas transmission hose and a check valve, grafting pipe is located aggregate recovery mouth below, the aggregate is retrieved the bag and is supported through supporting framework, the supporting framework both ends all are provided with the peg graft pole, first extrusion gasbag is installed to the inside bottom of grafting pipe, the stripper plate is installed to first extrusion gasbag one side, the stripper plate laminates with first extrusion gasbag each other, second extrusion gasbag is installed to grafting pipe open end inner wall, second extrusion gasbag is the expansion airbag of rubber material, through first gas transmission hose and second gas transmission hose connection between first extrusion gasbag and the second extrusion gasbag, install the check valve on the first gas transmission hose, the direction of check valve accesss to second extrusion gasbag for first extrusion gasbag, install the solenoid valve on the second gas transmission hose, solenoid valve and power electric connection control through the switch.

Through above-mentioned technical scheme for the aggregate is retrieved the bag and is fixed more stable when retrieving grit and aggregate, simultaneously, has also made things convenient for the quick dismantlement of the aggregate recovery bag of collecting full grit and aggregate.

As a preferred technical scheme, second extrusion gasbag internally mounted has a plurality of skid proof convex block for second extrusion gasbag is more stable when the extension bar is fixed, can not lead to the aggregate to retrieve the bag because fixed unstability and skid and drop.

As a preferred technical scheme, the inclination angle of the shunting frustum is 30-60 degrees, the filtering rod and the horizontal plane are arranged at an angle of 30 degrees, so that sand and aggregate in sewage can automatically slide to the position of the aggregate recovery port after being shunted by the shunting frustum and filtered by the filtering rod, and the lower surface of the aggregate recovery port and the horizontal plane are arranged at an angle of 15 degrees, so that the sand and aggregate sliding to the position of the aggregate recovery port can automatically slide to the aggregate recovery bag.

As preferred technical scheme, be provided with the bracing piece between the aggregate is retrieved the mouth, the bracing piece is used for retrieving the recovery jar body of mouthful top to the aggregate and supports, the bracing piece is located recovery jar internal wall one side and is the toper for can avoid grit and aggregate to pile up in bracing piece position department effectively, can realize the reposition of redundant personnel guide to grit and aggregate through the toper setting.

Compared with the prior art, the invention has the beneficial effects that:

1. through carrying out gradual filtration to the sewage that contains grit, thick liquid and aggregate, great improvement become the recovery and the filterable efficiency of pipeline flow shutoff sewage for analogue test to the fill integral type, simultaneously, realized solid-liquid separation and recovery effectively for the filtration to sewage is more hierarchical, has avoided grit and aggregate to cause the damage to whole sewage recovery device, has prolonged sewage recovery device's life effectively, great improvement to sewage recovery filterable efficiency.

2. Through reposition of redundant personnel filtering component, realized reposition of redundant personnel and the filtration to sewage, through the reposition of redundant personnel, avoided the sewage direct with rotatory centrifugal component and the small area contact of filter, make the great improvement of the utilization ratio of rotatory centrifugal component and filter, and simultaneously, realized the filtration to grit and aggregate, avoided grit and aggregate to cause the damage to the internal portion of recovery jar at the in-process of the internal portion free fall of recovery jar, and simultaneously, realized retrieving grit and aggregate fast, avoided piling up in the internal portion of recovery jar and leaded to being difficult to the clearance and retrieving.

3. Through aggregate recovery mouth and aggregate recovery bag for can collect grit and aggregate after filtering, can realize the unified recovery processing of grit and aggregate after the filtration.

4. Be provided with grafting fixed subassembly for fixed and installation to aggregate recovery bag is all more convenient, and at whole fixed mounting and the in-process of dismantling, need not pass through modes such as joint, makes more convenient.

5. Through cowl's setting, make rotatory centrifugal subassembly when carrying out centrifugal filtration to sewage, on the one hand, avoid directly falling on the filter through the sewage after reposition of redundant personnel filtering component filters, avoid the granule solid state thing that contains in the sewage to cause the damage to the filter, on the other hand, avoided centrifugal plate and filter ring when filtering sewage, get rid of sewage on retrieving jar side wall under the effect of centrifugal force, the thick liquid adhesion that leads to in the sewage is on retrieving jar side wall, the direction of the sewage that throws away the centrifugal plate through cowl changes, make sewage perpendicular downwards, great reduction the volume of sewage with retrieving jar side wall contact, make it keep clean to retrieve jar side wall.

Drawings

FIG. 1 is a schematic structural diagram of a sewage recovery device for a filling integrated variable pipeline flow plugging simulation test according to the present invention;

FIG. 2 is a schematic view of the internal structure of the sewage recovery device for the filling integrated variable pipeline flow plugging simulation test of the present invention;

FIG. 3 is a schematic structural diagram of a rotary centrifugal assembly of the sewage recovery device for the filling integrated variable pipeline flow plugging simulation test of the invention;

FIG. 4 is a schematic structural diagram of an aggregate recycling bag of the sewage recycling device for the filling integrated variable pipeline flow plugging simulation test of the invention;

FIG. 5 is a schematic structural diagram of a diversion filter assembly of the sewage recovery device for the filling integrated variable pipeline flow plugging simulation test according to the present invention;

FIG. 6 is a schematic structural view of the area A of the sewage recovery device for the filling integrated variable pipeline flow plugging simulation test of the invention in FIG. 1;

FIG. 7 is a schematic structural diagram of the inside of the plug pipe of the integrated variable pipeline flow plugging simulation test sewage recovery device of the present invention;

FIG. 8 is a schematic view of a pipeline connection structure of a first extrusion air bag and a second extrusion air bag of the filling integrated variable pipeline flow plugging simulation test sewage recovery device.

Reference numbers in the figures: 1. recycling the tank body; 2. a support base; 3. a water inlet pipe; 4. a water outlet pipe;

501. a flow splitting frustum; 502. a filter rod;

6. an aggregate recovery port; 7. an aggregate recovery bag;

801. inserting a pipe; 802. a first squeeze bag; 803. a pressing plate; 804. a second squeeze bag; 805. a first gas hose; 806. a second gas hose; 807. a one-way valve; 808. an electromagnetic valve;

901. a centrifugal plate; 902. a filter ring; 903. a drive motor; 904. rotating the rod; 905. a filtration pore; 906. a limiting ring;

10. a filter plate; 11. an arc-shaped baffle plate; 12. cleaning the window; 13. a plug rod; 14. an anti-slip bump; 15. a support bar; 16. and supporting the framework.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): as shown in figures 1-8, the sewage recovery device for a filling-filling integrated variable pipeline plugging simulation test comprises a recovery tank body 1 and a supporting base 2, the supporting base 2 is arranged at the bottom end of the recovery tank body 1, a water inlet pipe 3 is arranged at the top end of the recovery tank body 1, a water outlet pipe 4 is arranged at one side of the bottom end of the recovery tank body 1, a shunting filter component is arranged at the top end inside the recovery tank body 1 and is used for shunting the sewage entering the recovery tank body 1 through the water inlet pipe 3, on one hand, the reduction of the filtering effect caused by the fact that the sewage entering the recovery tank body 1 through the water inlet pipe 3 is only contacted with one part of the filtering device is avoided, on the other hand, the damage of the filtering device caused by the fact that the sewage containing sand stones and aggregates is filtered through the filtering device is avoided, the, a plurality of aggregate recovery mouth 6 has been seted up in the recovery jar body 1 upper end outside, aggregate recovery mouth 6 is connected with reposition of redundant personnel filtering component's bottom, aggregate recovery mouth 6 is used for will passing through the grit after reposition of redundant personnel filtering component filters and the aggregate discharge recovery jar body 1, avoid a large amount of grit and aggregate to pile up in recovery jar body 1 inside and lead to being difficult to the clearance, aggregate recovery mouth 6 outside fixed mounting has aggregate recovery bag 7, aggregate recovery bag 7 is used for retrieving 6 exhaust grit and aggregate of aggregate recovery mouth, be convenient for to the unified processing of grit and aggregate after filtering, aggregate recovery bag 7 is connected through grafting fixed subassembly with recovery jar body 1 between, the internal portion of recovery jar is located reposition of redundant personnel filtering component below and installs rotatory centrifugal component, rotatory centrifugal component is used for carrying out the centrifugal filtration to the sewage that gets rid of grit and aggregate, improve sewage treatment's efficiency.

The shunting filter assembly comprises a shunting frustum 501 and a filter rod 502;

the flow distribution frustum 501 is positioned at the bottom end of the water inlet pipe 3, the axis of the flow distribution frustum 501 is the same as that of the water inlet pipe 3, so that sewage entering the interior of the recovery tank body 1 through the water inlet pipe 3 can be distributed by the flow distribution frustum 501 at the first time, the flow distribution frustum 501 is used for distributing the sewage entering the interior of the recovery tank body 1, the bottom end of the flow distribution frustum 501 is connected with the interior of the recovery tank body 1 through a plurality of filter rods 502, a plurality of filter gaps are formed among the plurality of filter rods 502, and the filter gaps realize the filtration of sand and aggregate in the sewage;

the rotating centrifuge assembly comprises a centrifuge plate 901 and a filter ring 902;

the centrifugal plate 901 is positioned below the flow dividing frustum 501, the sewage after sand and aggregate removal is filtered again through rotary centrifugation, the edge of the centrifugal plate 901 is provided with the filter ring 902, and the filter ring 902 can efficiently filter small particulate matters contained in the sewage under the centrifugal rotation action of the centrifugal plate 901, so that the sewage recovery and filtration efficiency is greatly improved, and the sewage is prevented from being accumulated in the recovery tank body 1 due to low filtration efficiency;

the filter plate 10 is arranged below the centrifugal plate 901, and the filter plate 10 is used for filtering the last time of sewage recovery and taking out tiny particles in the sewage, so that the content of solid substances in the sewage is greatly reduced.

Centrifugal plate 901 fixed mounting has cowl 11, cowl 11 and retrieve through welded connection between the internal wall of jar 1, setting through cowl 11, on the one hand, avoid directly falling on filter 10 through the sewage after the reposition of redundant personnel filter assembly filters, avoid the granule solid state thing that contains in the sewage to cause the damage to filter 10, on the other hand, avoided centrifugal plate 901 and filter ring 902 when filtering sewage, get rid of sewage on retrieving jar body 1 lateral wall under the effect of centrifugal force, lead to the thick liquid adhesion in the sewage on retrieving jar body 1 lateral wall, change the direction of the sewage that centrifugal plate 901 was thrown away through cowl 11, make sewage perpendicular downwards, great reduction the volume of sewage with retrieving jar body 1 lateral wall contact, make it keep clean to retrieve jar body 1 lateral wall.

The rotating centrifugal assembly further comprises a driving motor 903, a rotating rod 904, a filtering hole 905 and a limiting ring 906;

retrieve jar body 1 bottom and install driving motor 903, driving motor 903 passes through axle sealing connection with retrieving jar body 1 bottom, driving motor 903 is used for providing the power source for the work of whole rotatory centrifugal subassembly, driving motor 903 and power electric connection, install rotary rod 904 on the driving motor 903 output shaft, rotary rod 904 runs through filter 10 middle part and centrifugal plate 901 bottom fixed connection, filter ring 902 is last to have seted up a plurality of and to have filtered hole 905, filter hole 905 is arranged in filtering the tiny particle material that contains in the sewage of getting rid of grit and aggregate, it is provided with spacing ring 906 to filter ring 902 top, spacing ring 906 is used for preventing centrifugal plate 901 at centrifugal in-process, sewage is thrown away from filtering ring 902 upper end, lead to not reaching filterable effect.

The side wall of the recycling tank body 1 is provided with a cleaning window 12, the cleaning window 12 and the centrifugal plate 901 are located on the same horizontal plane, and through the arrangement of the cleaning window 12, after the sewage recycling device is used, solid small particles left after filtering on the filtering ring 902 can be cleaned, so that the influence on the next use is avoided.

The inserting and fixing assembly comprises an inserting pipe 801, a first extrusion air bag 802, an extrusion plate 803 and a second extrusion air bag 804;

the inserting pipe 801 is located below the aggregate recovery port 6, the inserting pipe 801 is used for fixing the aggregate recovery bag 7, the aggregate recovery bag 7 is supported by the supporting framework 16, so that the opening of the aggregate recovery bag 7 is kept in an original state, the problem that the bag opening of the aggregate recovery bag 7 is reduced to influence the normal use of the aggregate recovery bag 7 when more gravels and aggregates are loaded in the aggregate recovery bag 7 is avoided, the inserting rods 13 are arranged at two ends of the supporting framework 16, the inserting rods 13 are used for being inserted into the inserting pipe 801 to realize the fixation of the whole aggregate recovery bag 7, the bottom end inside the inserting pipe 801 is provided with the first extrusion air bag 802, the first extrusion air bag 802 is used for being extruded by the inserting rods inserted into the inserting pipe 801, the extrusion plate 803 is arranged at one side of the first extrusion air bag 802, the extrusion plate 803 is mutually attached to the first extrusion air bag 802, and the damage of the first extrusion air bag 802 caused by the direct extrusion of the inserting, a second extrusion air bag 804 is arranged on the inner wall of the opening end of the insertion pipe 801, the second extrusion air bag 804 is an expansion air bag made of rubber, the second extrusion air bag 804 is used for receiving the gas extruded by the first extrusion air bag 802 to expand, the insertion rod 13 inserted into the insertion pipe 801 is fixed by utilizing the expansion of the second extrusion air bag 802, the first extrusion air bag 802 and the second extrusion air bag 804 are connected through a first air hose 805 and a second air hose 806, the first air hose 805 and the second air hose 806 are used for conveying the gas, a check valve 807 is arranged on the first air hose 805, the direction of the check valve 807 is that the first extrusion air bag 802 leads to the second extrusion air bag 804 and is used for conveying the gas exhausted in the extrusion process of the first extrusion air bag 802 to the second extrusion air bag 804, so that the second extrusion air bag 804 expands, and a solenoid valve 808 is arranged on the second air hose 806, solenoid valve 808 and power electric connection control through the switch, and solenoid valve 808 is used for transporting the inside gas of second extrusion gasbag 804 to inside first extrusion gasbag 802 again for second extrusion gasbag 804 no longer extrudees fixedly to plug-in pole 13, has made things convenient for the recovery processing to the dismantlement of aggregate recovery bag 7 and to its inside grit and aggregate.

A plurality of anti-skidding lugs 14 are installed inside the second extrusion air bag 804, so that the second extrusion air bag 804 is more stable when the opposite insertion rod 13 is fixed, and the aggregate recovery bag 7 cannot slip and fall off due to instable fixation.

The inclination angle of reposition of redundant personnel frustum 501 is 30 ~ 60, and filter rod 502 is the setting of 30 jiaos with the level face for grit and aggregate in the sewage can slide to 6 positions of aggregate recovery mouth by oneself after reposition of redundant personnel through reposition of redundant personnel frustum 501, filter rod 502 filters, and the setting of 15 jiaos is personally submitted with the level to 6 lower surfaces of aggregate recovery mouth, makes grit and aggregate that the landing is to 6 positions of aggregate recovery mouth can automatic landing to the aggregate recovery bag 7.

Be provided with bracing piece 15 between the aggregate is retrieved mouthful 6, bracing piece 15 is used for retrieving the recovery jar body 1 of mouth 6 top to the aggregate and supports, and bracing piece 15 is located recovery jar body 1 inner wall one side and is the toper for can avoid grit and aggregate to pile up in bracing piece 15 position department effectively, can realize the reposition of redundant personnel guide to grit and aggregate through the toper setting.

The working principle is as follows: when the device is used, firstly, the aggregate recovery bag 7 needs to be fixedly installed, the inserting rod 13 on the supporting framework 16 is inserted into the inserting pipe 801, at the moment, the inserting rod 13 can extrude the extrusion plate 803 in the inserting pipe 801, the extrusion of the first extrusion air bag 802 is realized through the extrusion of the extrusion plate 803, the gas in the first extrusion air bag 802 is conveyed to the position of the second extrusion air bag 804 through the first gas conveying hose 805 and the one-way valve 807, so that the second extrusion air bag 804 is expanded, at the moment, the expanded second extrusion air bag 804 extrudes and fixes the inserting rod 13 inserted into the inserting pipe 801, and meanwhile, under the action of the anti-skid bump 14, the fixing of the inserting rod 13 is more stable;

then, sewage containing a large amount of sand, slurry and aggregate is input into the recovery tank body 1 through the water inlet pipe 3, when the sewage just enters the recovery tank body 1, the sewage is divided under the action of the dividing frustum 501, the sewage after being divided flows downwards continuously through the side wall of the dividing frustum 501, meanwhile, under the action of the filter rod 502, the sand and the aggregate with larger diameters in the sewage are filtered, the filtered sand and the filtered aggregate slide towards the aggregate recovery port 6 under the action of the obliquely arranged filter rod 502, and under the oblique arrangement of the aggregate recovery port 6, the sand and the aggregate automatically fall into the aggregate recovery bag 7 to complete the filtration and recovery of the sand and the aggregate;

at this time, the sewage from which large-diameter sand and aggregate are removed falls on the centrifugal plate 901, the centrifugal plate 901 is driven to rotate by the rotation of the driving motor 903, so that the sewage in the centrifugal plate 901 moves towards the edge of the centrifugal plate 901, and at the moment, the sewage is tightly attached to the filter ring 902, and by using the filter holes 905 on the filter ring 902, small particle impurities contained in the sewage are filtered, the residual sewage is thrown out through the filtering holes 905, the thrown-out sewage is deflected upwards and vertically downwards under the action of the annular baffle 11, the phenomenon that the thrown-out sewage is adhered to the inner wall of the recovery tank body 1 to cause difficulty in cleaning is avoided, meanwhile, the sewage falls at a higher speed, so that the filtering effect of the filtering plate 10 is better, the sewage is prevented from accumulating at the position of the filtering plate 10, the sewage is continuously filtered by the filter plate 10, and the filtered sewage is recycled by the water outlet pipe 4;

when the aggregate recovery bag 7 is filled with more sand and aggregate, the aggregate recovery bag 7 needs to be detached and replaced, at the moment, the power supply of the electromagnetic valve 808 is switched on, so that the electromagnetic valve 808 is opened, and the gas in the second extrusion air bag 804 is conveyed to the inside of the first extrusion air bag 802 through the second gas conveying hose 806 and the electromagnetic valve 808 due to the higher pressure in the expanded second extrusion air bag 804, at the moment, the second extrusion air bag 804 does not extrude and fix the plug-in rod 13 any more, so that the aggregate recovery bag 7 can be easily taken down, and the recovered aggregate and sand are uniformly treated;

when a large amount of small particulate matters are filtered by the filter ring 902 under the centrifugal action of the centrifugal plate 901, the filtered small particulate matters are accumulated on the centrifugal plate 901, and at this time, the solid small particulate matters on the centrifugal plate 901 are cleaned through the cleaning window 12, so that the next continuous use is facilitated.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (2)

1. The utility model provides a fill and annotate integral type becomes pipeline and flows shutoff sewage recovery unit for simulation test, this sewage recovery unit is including retrieving a jar body (1) and supporting base (2), it is provided with supporting base (2) to retrieve jar body (1) bottom, it installs inlet tube (3) to retrieve jar body (1) top, it installs outlet pipe (4), its characterized in that to retrieve jar body (1) bottom one side: the recycling tank is characterized in that a shunting filter assembly is mounted at the top end inside the recycling tank body (1), a plurality of aggregate recycling ports (6) are formed in the outer side of the upper end of the recycling tank body (1), the aggregate recycling ports (6) are connected with the bottom end of the shunting filter assembly, aggregate recycling bags (7) are fixedly mounted on the outer sides of the aggregate recycling ports (6), the aggregate recycling bags (7) are connected with the recycling tank body (1) through inserting and fixing assemblies, and a rotary centrifugal assembly is mounted below the shunting filter assembly inside the recycling tank body (1);

the flow dividing and filtering assembly comprises a flow dividing frustum (501) and a filtering rod (502);

the flow distribution frustum (501) is positioned at the bottom end of the water inlet pipe (3), the axis of the flow distribution frustum (501) is the same as that of the water inlet pipe (3), the bottom end of the flow distribution frustum (501) is connected with the interior of the recovery tank body (1) through a plurality of filter rods (502), and a plurality of filter gaps are formed among the filter rods (502);

the rotating centrifuge assembly comprises a centrifuge plate (901) and a filter ring (902);

the centrifugal plate (901) is positioned below the flow dividing frustum (501), and a filter ring (902) is arranged at the edge of the centrifugal plate (901);

a filter plate (10) is arranged below the centrifugal plate (901);

the centrifugal plate (901) is fixedly provided with an arc-shaped baffle (11), and the arc-shaped baffle (11) is connected with the inner wall of the recovery tank body (1) through welding;

the rotary centrifugal component also comprises a driving motor (903), a rotary rod (904), a filtering hole (905) and a limiting ring (906);

the bottom end of the recovery tank body (1) is provided with a driving motor (903), the driving motor (903) is hermetically connected with the bottom end of the recovery tank body (1) through a shaft, the driving motor (903) is electrically connected with a power supply, an output shaft of the driving motor (903) is provided with a rotating rod (904), the rotating rod (904) penetrates through the middle part of the filter plate (10) and is fixedly connected with the bottom end of the centrifugal plate (901), the filter ring (902) is provided with a plurality of filter holes (905), and the top end of the filter ring (902) is provided with a limiting ring (906);

a cleaning window (12) is formed in the side wall of the recovery tank body (1), and the cleaning window (12) and the centrifugal plate (901) are located on the same horizontal plane;

the inserting and fixing assembly comprises an inserting pipe (801), a first extrusion air bag (802), an extrusion plate (803) and a second extrusion air bag (804);

the utility model discloses an aggregate recycling bag, including grafting pipe (801), aggregate recycling port (6), first extrusion gasbag (802) are installed to grafting pipe (801), support skeleton (16) and support the skeleton (16), support skeleton (16) both ends and all be provided with grafting pole (13), first extrusion gasbag (802) are installed to the inside bottom of grafting pipe (801), stripper plate (803) are installed to first extrusion gasbag (802) one side, stripper plate (803) and first extrusion gasbag (802) are laminated each other, second extrusion gasbag (804) are installed to grafting pipe (801) open end inner wall, second extrusion gasbag (804) are the inflation gasbag of rubber material, be connected through first gas transmission hose (805) and second gas transmission hose (806) between first extrusion gasbag (802) and second extrusion gasbag (804), install check valve (807) on first gas transmission hose (805), the direction of check valve (807) leads to second extrusion gasbag (804) for first extrusion gasbag (802), the second air hose (806) is provided with an electromagnetic valve (808), and the electromagnetic valve (808) is electrically connected with a power supply and is controlled by a switch;

a plurality of anti-skid lugs (14) are arranged in the second extrusion air bag (804);

the inclination angle of the flow dividing frustum (501) is 30-60 degrees, the filter rod (502) and the horizontal plane are arranged at an angle of 30 degrees, and the lower surface of the aggregate recovery port (6) and the horizontal plane are arranged at an angle of 15 degrees.

2. The integrated sewage recovery device for the variable pipeline flow plugging simulation test according to claim 1, wherein: a supporting rod (15) is arranged between the aggregate recovery openings (6), and one side, located on the inner wall of the recovery tank body (1), of the supporting rod (15) is conical.

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