CN220055191U - Anti-blocking device used between thickening tank and sludge buffer tank - Google Patents

Abstract

The utility model relates to an anti-blocking device used between a thickening tank and a sludge buffer tank, wherein the thickening tank and the sludge buffer tank are respectively arranged on the concrete ground, the sludge buffer tank is positioned at the front side of the thickening tank, a sludge discharge pipe is arranged at the lower part of the thickening tank, a flange plate A is fixedly sleeved at the front end of the outer side wall of the sludge discharge pipe, a fixed guide pipe A is communicated with the rear side of the upper part of the sludge buffer tank, and a flange plate B is fixedly sleeved at the rear part of the outer side wall of the guide pipe A; an anti-blocking assembly is arranged between the flange A and the flange B, a plurality of bolts A are uniformly distributed between the flange A and the flange C, the threaded ends of the bolts A are respectively in threaded connection with nuts A, a plurality of bolts B are uniformly distributed between the flange D and the flange B, and the threaded ends of the bolts B are respectively in threaded connection with nuts B. The utility model has the beneficial effects that: the material guiding pipe B can be quickly dredged.

Description

Anti-blocking device used between thickening tank and sludge buffer tank

Technical Field

The utility model relates to an anti-blocking pipe, in particular to an anti-blocking device used between a thickening tank and a sludge buffer tank.

Background

In an area, the sand storage volume suitable for building is limited, along with the increase of the number of buildings such as cities, bridges, tunnels and buildings, the demand of people for the sand for the building is increasing, in order to expand the number of the sand for the building, the technology of breaking stones into sand is invented, a mixture of sludge and water is generated in the sand washing process, the sludge needs to be dehydrated through a thickening tank, the concentrated sludge is discharged into a sludge buffer tank through a pipeline, and the pipeline flowing through the sludge is easy to be blocked in the process, so that the blocked pipeline is difficult to dredge.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the anti-blocking device for the thick tank and the sludge buffer tank solves the problems that in the existing sand washing process, a mixture of sludge and water is generated, the thick tank is required to dehydrate sludge, concentrated sludge is discharged into the sludge buffer tank through a pipeline, in the process, the pipeline flowing through the sludge is easy to be blocked, and the blocked pipeline is difficult to dredge.

The utility model adopts the technical proposal for solving the problems that:

the anti-blocking device for the space between the thickening tank and the sludge buffer tank comprises a concrete ground 1, the thickening tank 2, a sludge discharge pipe 201, a flange plate A202, a sludge buffer tank 3, a material guide pipe A4 and a flange plate B5, wherein the thickening tank 2 and the sludge buffer tank 3 are respectively arranged on the concrete ground 1, the sludge buffer tank 3 is positioned at the front side of the thickening tank 2, the sludge discharge pipe 201 is arranged at the lower part of the thickening tank 2, the flange plate A202 is fixedly sleeved at the front end of the outer side wall of the sludge discharge pipe 201, the material guide pipe A4 is fixedly sleeved at the rear side of the upper part of the sludge buffer tank 3, and the flange plate B5 is fixedly sleeved at the rear part of the outer side wall of the material guide pipe A4;

the anti-blocking device comprises an anti-blocking assembly 6, a bolt A7, a nut A8, a bolt B9 and a nut B10, wherein the anti-blocking assembly 6 is arranged between a flange plate A202 and a flange plate B5, the anti-blocking assembly 6 comprises a guide pipe B601, a flange plate C602, a flange plate D603, a guide pipe C604, a sealing plate A605, a sealing plate B606, a rotating shaft 607, a helical blade 608, a chain wheel A609, a speed reducing motor 610, a chain wheel B611 and a chain 612, the flange plate C602 is fixedly sleeved at the rear part of the outer side wall of the guide pipe B601, the flange plate D603 is fixedly sleeved at the front part of the outer side wall of the guide pipe B601, the upper part of the guide pipe B601 is communicated with a fixed guide pipe C604, a sealing plate A605 is fixedly arranged at the rear side wall of the guide pipe C604, the sealing plate A605 is fixedly connected with the guide pipe B601, the front side wall of the guide pipe C604 is fixedly provided with a sealing plate B606, the sealing plate B606 is fixedly connected with the guide pipe B601, the rotating shaft rotates respectively and penetrates through the sealing plates A605 and the B606, the chain wheel 607 is fixedly sleeved with the helical blade 608, the helical blade 608 is fixedly sleeved on the rotating shaft 608, the chain wheel A608 is fixedly provided with the chain wheel A and the chain wheel B608, the chain wheel B is fixedly connected with the chain wheel B602, the speed reducing motor is fixedly connected with the chain wheel B604, the sealing plate B604 and the sealing plate B604 is fixedly connected with the sealing plate B604 and the sealing plate B601 and the sealing side and the sealing plate B601;

a plurality of bolts A7 are uniformly distributed between the flange plate A202 and the flange plate C602, the threaded ends of the bolts A7 are respectively in threaded connection with a nut A8, a plurality of bolts B9 are uniformly distributed between the flange plate D603 and the flange plate B5, and the threaded ends of the bolts B9 are respectively in threaded connection with a nut B10.

The support legs A11 and B12 are respectively placed on the concrete ground 1, the upper ends of the support legs A11 are fixedly connected with the rear portion of the material guiding pipe B601, the upper ends of the support legs B12 are fixedly connected with the front portion of the material guiding pipe B601, and supporting force is conveniently provided for the material guiding pipe B601 through the support legs A11 and B12.

The dredging assembly 13 is uniformly distributed on the guide pipe B601, the dredging assembly 13 comprises a guide pipe 131, a dredging rod 132, a flange E133, a front flange cylinder 134, bolts C135 and nuts C136, the left side wall of the guide pipe B601 is fixedly provided with a plurality of guide pipes 131 in a communicated mode, the dredging rod 132 is respectively inserted into the guide pipes 131, the flange E133 is fixedly sleeved on the left side of the outer side wall of the guide pipe 131 respectively, the front flange cylinder 134 is respectively arranged on the left side of the flange E133, a plurality of bolts C135 are respectively penetrated between a flange on the front flange cylinder 134 and the adjacent flange E133, the nuts C136 are respectively screwed on the bolts C135, and the main shaft end of the front flange cylinder 134 is respectively fixedly connected with the adjacent dredging rod 132, so that the guide pipe B601 is conveniently dredged through the dredging assembly 13.

The included angle between each guide pipe 131 and the guide pipe B601 is more than or equal to 50 degrees and more than or equal to 20 degrees, so that the dredging rod 132 is more beneficial to dredging the guide pipe B601.

The working principle of the utility model is as follows: in the working process of the thickening tank, stopping the thickening tank after the material guide pipe B is blocked;

lifting each front flange cylinder sequentially from front to back, respectively lifting the connected dredging rods by the front flange cylinder spindles, respectively inserting each dredging rod into the guide pipe B along the guide pipe, sequentially pushing part of sludge in the guide pipe B into the guide pipe A and falling into the sludge buffer tank, sequentially contracting each front flange cylinder from front to back, respectively pulling the connected dredging rods by each front flange cylinder spindle, and respectively retracting each dredging rod to an initial position along the guide pipe;

repeating the above actions to enable each front flange oil cylinder to operate, starting a gear motor clockwise, enabling a main shaft of the gear motor to drive a chain wheel B to rotate, enabling the chain wheel B to drive a chain to rotate, enabling the chain to drive a chain wheel A to rotate, enabling the chain wheel A to drive a rotating shaft to rotate, enabling the rotating shaft to drive a spiral blade to rotate, enabling the rotating spiral blade to push sludge forwards, simultaneously enabling each front flange oil cylinder to drive each dredging rod to push sludge forwards, enabling sludge in the gear motor to enter a sludge buffer tank through a material guide pipe A under interaction of the dredging rods and the spiral blade, and enabling pressure in the gear motor to be reduced;

and opening the thickening tank, dredging the material guide pipe B under the pressure of the sludge discharged from the thickening tank, and enabling the thickening tank to work normally, so that all front flange cylinders return to an initial state, and stopping the operation of the speed reducing motor.

The utility model has the beneficial effects that: 1. the material guiding pipe B can be quickly dredged. 2. The support force is conveniently provided for the material guiding pipe B through the support legs A and B. 3. And the dredging component is convenient to dredge the material guiding pipe B. 4. And is more beneficial to dredging the material guiding pipe B by a dredging rod.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the anti-blocking assembly of the present utility model;

FIG. 3 is a top view of the anti-blocking assembly of the present utility model;

FIG. 4 is an enlarged view of a portion of the present utility model A;

FIG. 5 is an enlarged view of a portion of the present utility model B;

FIG. 6 is an enlarged view of a portion of the present utility model C;

fig. 7 is a partial enlarged view of the present utility model D.

The device comprises a 1-concrete floor, a 2-thickening tank, a 201-sludge discharge pipe, a 202-flange A, a 3-sludge buffer tank, a 4-material guide pipe A, a 5-flange B, a 6-anti-blocking component, a 601-material guide pipe B, a 602-flange C, a 603-flange D, a 604-material guide pipe C, a 605-sealing plate A, a 606-sealing plate B, a 607-rotating shaft, a 608-helical blade, a 609-sprocket A, a 610-gear motor, a 611-sprocket B, a 612-chain, a 7-bolt A, an 8-nut A, a 9-bolt B, a 10-nut B, a 11-leg A, a 12-leg B, a 13-dredging component, a 131-guide pipe, a 132-dredging rod, a 133-flange E, a 134-front flange cylinder, a 135-bolt C and a 136-nut C.

Detailed Description

Embodiments of the present utility model are further described below with reference to the accompanying drawings.

As shown in fig. 1, the utility model provides an anti-blocking device used between a thickening tank and a sludge buffer tank, which comprises a concrete floor 1, the thickening tank 2, a sludge discharge pipe 201, a flange plate A202, a sludge buffer tank 3, a material guide pipe A4 and a flange plate B5, wherein the thickening tank 2 and the sludge buffer tank 3 are respectively arranged on the concrete floor 1, the sludge buffer tank 3 is positioned at the front side of the thickening tank 2, the lower part of the thickening tank 2 is provided with the sludge discharge pipe 201, the flange plate A202 is fixedly sleeved at the front end of the outer side wall of the sludge discharge pipe 201, the rear side of the upper part of the sludge buffer tank 3 is communicated with the fixed material guide pipe A4, and the flange plate B5 is fixedly sleeved at the rear part of the outer side wall of the material guide pipe A4;

specifically, as shown in fig. 1 to 6, in this embodiment, the anti-blocking device further includes an anti-blocking device 6, a bolt A7, a nut A8, a bolt B9, and a nut B10, wherein the anti-blocking device 6 is disposed between the flange a202 and the flange B5, the anti-blocking device 6 includes a guide tube B601, a flange C602, a flange D603, a guide tube C604, a seal plate a605, a seal plate B606, a rotating shaft 607, a spiral vane 608, a sprocket a609, a speed reducing motor 610, a sprocket B611, and a chain 612, a flange C602 is fixedly sleeved at the rear portion of the outer side wall of the guide tube B601, a guide tube C604 is fixedly sleeved at the front portion of the guide tube B601, a seal plate a605 is fixedly connected with the guide tube B601, the front side wall of the guide tube C604 is fixedly provided with a seal plate B606, the seal plate B606 is fixedly connected with the guide tube B601, the rotating shaft 607 rotates through the rotating shaft 607, the spiral vane 608 is fixedly provided with the sprocket B608, the spiral vane 608 is fixedly sleeved at the front portion of the sprocket B608, the same as the sprocket B608 is fixedly provided at the front portion of the sprocket B608, and the spiral vane 608 is fixedly sleeved at the inner side of the sprocket B608, and the same as the rotating shaft is fixedly provided at the front portion of the sprocket B610, and the inner side of the sprocket B is fixedly provided with a guide tube B610 is fixedly meshed with the rotating shaft B, the seal plate B is fixedly provided at the front portion of the seal plate B, and is fixedly connected with the seal plate B601;

specifically, as shown in fig. 1, 4 and 7, in this embodiment, four bolts A7 are uniformly distributed between the flange a202 and the flange C602, threaded ends of the bolts A7 are respectively screwed with a nut A8, four bolts B9 are uniformly distributed between the flange D603 and the flange B5, and threaded ends of the bolts B9 are respectively screwed with a nut B10.

Meanwhile, as shown in fig. 1, in this embodiment, the support leg a11 and the support leg B12 are respectively disposed on the concrete floor 1, and the upper end of the support leg a11 is fixedly connected with the rear portion of the material guiding pipe B601, and the upper end of the support leg B12 is fixedly connected with the front portion of the material guiding pipe B601, so that a supporting force is conveniently provided for the material guiding pipe B601 through the support leg a11 and the support leg B12.

Meanwhile, as shown in fig. 1 to 6, in this embodiment, the dredging components 13 are uniformly distributed on the guide pipe B601, the dredging components 13 include a guide pipe 131, a dredging rod 132, a flange E133, a front flange cylinder 134, bolts C135 and nuts C136, nine guide pipes 131 are fixedly disposed on the left side wall of the guide pipe B601 in a communicating manner, the dredging rod 132 is respectively inserted into each guide pipe 131, the flange E133 is fixedly sleeved on the left side of the outer side wall of each guide pipe 131, the front flange cylinder 134 is respectively disposed on the left side of each flange E133, four bolts C135 are respectively inserted between a flange on each front flange cylinder 134 and an adjacent flange E133, nuts C136 are respectively screwed on each bolt C135, and the spindle ends of each front flange cylinder 134 are respectively fixedly connected with the adjacent dredging rods 132, so that the guide pipe B601 is conveniently dredged through the dredging components 13.

Meanwhile, as shown in fig. 3, in the present embodiment, the included angle α=30° between each of the guide tubes 131 and the guide tube B601 is more beneficial to the dredging rod 132 to dredge the guide tube B601.

The working principle of the specific embodiment is as follows: in the working process of the thickening tank 2, after the material guide pipe B601 is blocked, stopping the operation of the thickening tank 2;

lifting each front flange cylinder 134 sequentially from front to back, lifting the connected dredging rods 132 respectively by the main shafts of each front flange cylinder 134, inserting each dredging rod 132 into a guide pipe B601 along a guide pipe 131 respectively, pushing part of sludge in the guide pipe B601 into a guide pipe A4 sequentially and falling into a sludge buffer pool 3, sequentially contracting each front flange cylinder 134 from front to back, pulling the connected dredging rods 132 respectively by the main shafts of each front flange cylinder 134, and retracting each dredging rod 132 to an initial position along the guide pipe 131 respectively;

repeating the above actions to enable each front flange oil cylinder 134 to operate, starting a gear motor 610 clockwise, enabling a main shaft of the gear motor 610 to drive a chain wheel B611 to rotate, enabling the chain wheel B611 to drive a chain 612 to rotate, enabling the chain 612 to drive a chain wheel A609 to rotate, enabling the chain wheel A609 to drive a rotating shaft 607 to rotate, enabling the rotating shaft 607 to drive a spiral blade 608 to rotate, enabling the rotating spiral blade 608 to push sludge forwards, simultaneously enabling each front flange oil cylinder 134 to respectively drive each dredging rod 132 to push sludge forwards, enabling sludge in the gear motor 610 to enter a sludge buffer tank 3 through a material guide pipe A4 under the interaction of the dredging rods 132 and the spiral blade 608, and enabling pressure in the gear motor 610 to be reduced;

opening the thickening tank 2, dredging the material guide pipe B601 under the pressure of the sludge discharged by the thickening tank 2, and enabling the thickening tank 2 to work normally, so that each front flange oil cylinder 134 returns to an initial state, and stopping the operation of the gear motor 610;

to sum up, when the anti-blocking device is used, the anti-blocking assembly 6 and the dredging assembly 13 are assembled into the anti-blocking device between the thickening tank and the sludge buffering tank, and the anti-blocking device between the thickening tank and the sludge buffering tank can quickly dredge the material guiding pipe B601 after the material guiding pipe B601 is blocked.

The utility model has the beneficial effects that: 1. the material guiding pipe B can be quickly dredged. 2. The support force is conveniently provided for the material guiding pipe B through the support legs A and B. 3. And the dredging component is convenient to dredge the material guiding pipe B. 4. And is more beneficial to dredging the material guiding pipe B by a dredging rod.

The embodiments of the present utility model are not limited to the above embodiments, and all the similar structures and variations using the present utility model are within the scope of the present utility model.

Claims (4)

1. The utility model provides an anti-blocking device for between dense tank and mud buffer tank, includes concrete ground (1), dense tank (2), mud pipe (201), ring flange A (202), mud buffer tank (3), passage A (4), ring flange B (5), sets up dense tank (2), mud buffer tank (3) respectively on the concrete ground (1), just mud buffer tank (3) are located dense tank (2) front side, the lower part of dense tank (2) is provided with mud pipe (201), the fixed cover in mud pipe (201) lateral wall front end is equipped with ring flange A (202), fixed passage A (4) are linked together to mud buffer tank (3) upper portion rear side, ring flange B (5) are established to passage A (4) lateral wall rear portion fixed cover;

the method is characterized in that: still include anti-blocking component (6), bolt A (7), nut A (8), bolt B (9), nut B (10), set up anti-blocking component (6) between ring flange A (202), ring flange B (5), anti-blocking component (6) include pipe B (601), ring flange C (602), ring flange D (603), pipe C (604), closing plate A (605), closing plate B (606), rotation axis (607), helical blade (608), sprocket A (609), gear motor (610), sprocket B (611), chain (612), ring flange C (602) is established to fixed cover in pipe B (601) lateral wall rear portion, ring flange D (603) is established to fixed cover in pipe B (601) lateral wall front portion, pipe B (601) upper portion intercommunication fixed pipe C (604), pipe C (604) rear side wall fixed setting closing plate A (605), just closing plate A (605) with pipe B (601) fixed connection, pipe C (604) front side wall fixed setting closing plate B (606), just closing plate B (606) and closing plate (606) are connected respectively to rotation axis (606) fixed connection closing plate B (606), screw blades (608) are fixedly sleeved on the rotating shaft (607), the screw blades (608) are positioned on the inner side of the material guide pipe C (604), the lower parts of the screw blades (608) are positioned in the material guide pipe B (601), a chain wheel A (609) is fixedly arranged at the front end of the rotating shaft (607), a gear motor (610) is fixedly arranged at the front part of the material guide pipe C (604), a chain wheel B (611) is fixedly arranged at the main shaft end of the gear motor (610), and the same chain (612) is meshed and sleeved between the chain wheel A (609) and the chain wheel B (611);

a plurality of bolts A (7) are uniformly distributed and penetrated between the flange plate A (202) and the flange plate C (602), the threaded ends of the bolts A (7) are respectively in threaded connection with the nuts A (8), a plurality of bolts B (9) are uniformly distributed and penetrated between the flange plate D (603) and the flange plate B (5), and the threaded ends of the bolts B (9) are respectively in threaded connection with the nuts B (10).

2. An anti-clogging device for use between a thickening tank and a sludge buffering tank as claimed in claim 1, wherein: the concrete floor (1) is provided with the supporting legs A (11) and the supporting legs B (12) respectively, the upper ends of the supporting legs A (11) are fixedly connected with the rear part of the material guiding pipe B (601), and the upper ends of the supporting legs B (12) are fixedly connected with the front part of the material guiding pipe B (601).

3. An anti-clogging device for use between a thickening tank and a sludge buffering tank as claimed in claim 1, wherein: the dredging device is characterized in that dredging components (13) are uniformly distributed on the material guide pipe B (601), each dredging component (13) comprises a guide pipe (131), dredging rods (132), a flange E (133), a front flange cylinder (134), bolts C (135) and nuts C (136), a plurality of guide pipes (131) are fixedly arranged on the left side wall of the material guide pipe B (601) in a communicated mode, the dredging rods (132) are respectively inserted into the guide pipes (131), the flange E (133) are fixedly sleeved on the left side of the outer side wall of each guide pipe (131), a front flange cylinder (134) is respectively arranged on the left side of each flange E (133), a plurality of bolts C (135) penetrate into the space between a flange on each front flange cylinder (134) and the adjacent flange E (133), and the bolts C (135) are respectively connected with the nuts C (136) in a screwed mode, and the main shaft ends of the front flange cylinders (134) are respectively fixedly connected with the adjacent dredging rods (132).

4. A blocking prevention device for use between a thickening tank and a sludge buffering tank as claimed in claim 3, wherein: the included angle between each guide pipe (131) and the guide pipe B (601) is 50 degrees or more and 20 degrees or more.