CN107569875B - Vibrating type inclined tube sedimentation tank - Google Patents

Abstract

The invention discloses a vibrating inclined tube sedimentation tank, which comprises a sedimentation tank, wherein a sewage inlet pipe is arranged at the bottom of the left side wall of the sedimentation tank, an inclined tube is laid in the sedimentation tank, a sludge tank is arranged below the sedimentation tank, a sludge discharge port is arranged at the bottom of the right side wall of the sludge tank, switch boxes are arranged at two sides of the top of the sludge tank, a motor chamber is fixed at the central position of the top of the sludge tank, a sludge scraping motor is fixedly installed in the motor chamber, sludge leakage ports are arranged at two sides of the bottom of the sedimentation tank, a vibrating bracket is fixed on the outer wall of the middle part of the sedimentation tank, the left end of a connecting rod is fixed on the outer pipe wall of the inclined tube, a main roller is arranged at the right end of the connecting rod, a secondary roller is fixed at the outer side of the main roller, convex blocks are fixed on the side edges of the main roller and the secondary roller, the; the invention utilizes a plurality of connecting rods which can vibrate to ensure that each row of inclined pipes can vibrate, precipitate and discharge slag better.

Description

Vibrating type inclined tube sedimentation tank

Technical Field

The invention relates to the field of sewage treatment, in particular to a vibrating inclined tube sedimentation tank.

Background

The inclined tube sedimentation tank is a sedimentation tank with inclined tubes arranged in a sedimentation area, the assembly form comprises two types of inclined tubes and branch tubes, the sedimentation area of the horizontal flow type or vertical flow type sedimentation tank is divided into a series of shallow sedimentation layers by utilizing inclined parallel tubes or parallel pipelines (sometimes honeycomb fillers can be utilized), and the treated and settled sludge moves and is separated in each sedimentation shallow layer.

The general vibrator utilizes the eccentric motor to rotate to realize the vibration effect, the eccentric motor is a common motor, a cam is arranged on the head, the gravity center of the cam is not arranged on the rotating shaft of the motor, when the eccentric motor rotates, the cam does circular motion to generate centrifugal force, the direction of the centrifugal force is continuously changed along with the rotation of the cam, so that the vibration is generated to a larger extent, and the vibrator can generate continuous vibration in a local range when viewed as a whole.

Although the present tube chute sedimentation tank does benefit to the precipitation efficiency who improves the sedimentation tank, but the inside still very is difficult to the clearance of tube chute, there are many at present to install the vibrator additional in one side of tube chute wall, but the tube chute is laid in the sedimentation tank, generally all be a plurality of tube chute intercombination next-door neighbour lay together, only install the vibrator additional in one side and can only carry out effectual vibration deashing work to the tube chute of installing one side additional, it receives the vibration very difficultly again to leave the central point who installs one side additional, the deashing effect can not cover all tube chutes of laying, so we need one kind to clear up more efficient sedimentation tank to the tube chute.

Disclosure of Invention

The invention aims to provide a vibrating inclined tube sedimentation tank to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a vibrating inclined tube sedimentation tank comprises a sludge tank, a motor chamber, a mud scraping motor, a switch box, a support rod, a water plugging plug, a tank plate opening, an electromagnetic coil, a mud leakage opening, a sewage inlet pipe, a mud scraping side plate, a vibrating bracket, an inclined tube, a sedimentation tank, a water cover plate, a water outlet, a filter plate, an overflow opening, an inclined tube damping spring, a vibrating chamber, a vibration driving motor, a transmission roller, a rotating shaft, a mud scraping inner plate, a mud discharging opening, a damping hole, a connecting rod damping spring, a lug, a connecting rod, a belt, a main roller and a secondary roller, wherein the bottom of the left side wall of the sedimentation tank is provided with the sewage inlet pipe, the upper half part of the inner part of the sedimentation tank is paved with a layer of inclined tube, the sludge tank is fixed below the sedimentation tank, the bottom of the right side wall of the sludge tank is provided with the mud leakage opening, two sides of the top of the sludge, the end of the support rod is fixed with a water plug, one end of the support rod is clamped in the water plug, the top surface and the bottom of the right side of the switch box are both provided with box plate openings, the right side of the switch box is provided with an electromagnetic coil, the electromagnetic coil is positioned in a motor chamber, the electromagnetic coil is fixed on the inner side walls of the two sides of the motor chamber, the motor chamber is fixed at the top central position of a sludge tank, a sludge scraping motor is fixedly installed in the motor chamber, a rotating shaft is fixed on the rotating shaft of the sludge scraping motor, the rotating shaft is positioned at the central position of the bottom of the sedimentation tank, a sludge scraping side plate is fixed at the top of the rotating shaft, a sludge scraping inner plate is fixed on the lower half part of the rotating shaft, the sludge scraping side wall and the sludge scraping inner plate are inclined downwards and cling to the bottom of the sedimentation tank, sludge leaking ports are arranged on the two sides, a vibration support is fixed on the outer wall of the middle part of the sedimentation tank, a plurality of damping holes are formed in the side walls of the vibration support and the sedimentation tank, connecting rods penetrate through the damping holes, the left end of each connecting rod is fixed on the outer pipe wall of the inclined pipe, a main roller is arranged at the right end of each connecting rod, a secondary roller is fixed on the outer side of each main roller, convex blocks are fixed on the side edges of the main rollers and the secondary rollers, the two adjacent main rollers are connected through a belt, the two adjacent secondary rollers are also connected through a belt, the rightmost secondary roller of the vibration support is connected with a transmission roller, the transmission roller is fixed at the right end of the vibration support, the transmission roller is connected with a motor rotating shaft of a vibration motor through a belt, the vibration motor is located in a vibration chamber, the vibration chamber is located in the sedimentation tank, and inclined pipe damping springs are arranged in the peripheral chamber walls of the, the top of pipe chute is fixed around the gap, the gap is seted up at the top of sedimentation tank, the top of gap is equipped with the filter screen, the filter screen is worn to establish on the lateral wall of water apron, the top at the sedimentation tank is fixed to the water apron, and the water apron is equipped with the delivery port in gap department.

Further scheme: the water shutoff plug is an iron cylinder, a cylindrical groove is arranged in the cylinder, and a layer of rubber plastic is wrapped on the outer surface of the water shutoff plug.

Further scheme: and a spring is fixed between the water blocking plug and the inner wall of the switch box.

Further scheme: and a plurality of holes are formed in the mud scraping side plate.

Further scheme: the bumps are made of lead blocks.

Further scheme: the vibration chamber is a closed triangular space.

Further scheme: the filter screen is a cuboid drawable aluminum metal screen.

Further scheme: the water outlet is a cuboid cavity which is vertical to the overflow port.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, a vibrating connecting rod is fixed on each inclined pipe by utilizing the vibration principle of the eccentric motor, and each row of inclined pipes are modified into an integral vibrator, so that the dirt removing capability of the inclined pipes in the sedimentation tank is improved, the later-period heavy cleaning work is facilitated, and the sedimentation cleaning capability is greatly improved.

Drawings

FIG. 1 is a schematic structural view of a vibrating inclined-tube sedimentation tank.

FIG. 2 is a schematic structural diagram of A in the vibrating inclined-tube sedimentation tank.

Fig. 3 is a schematic structural diagram of the switch box 4 in the vibrating inclined tube sedimentation tank.

In the figure: the sludge tank comprises a sludge tank 1, a motor chamber 2, a mud scraping motor 3, a switch box 4, a support rod 5, a water plugging plug 6, a box plate opening 7, an electromagnetic coil 8, a mud leakage opening 9, a sewage inlet pipe 10, a mud scraping side plate 11, a vibration support 12, an inclined pipe 13, a sedimentation tank 14, a water cover plate 15, a water outlet 16, a filter plate 17, an overflow opening 18, an inclined pipe damping spring 19, a vibration chamber 20, a vibration driving motor 21, a transmission roller 22, a rotating shaft 23, a mud scraping inner plate 24, a mud discharging opening 25, a damping hole 26, a connecting rod damping spring 27, a lug 28, a connecting rod 29, a belt 30, a main roller 31 and a secondary roller 32.

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.

Referring to fig. 1 to 3, in the embodiment of the present invention, a vibrating inclined tube sedimentation tank includes a sludge tank 1, a motor chamber 2, a mud scraping motor 3, a switch box 4, a support rod 5, a water blocking plug 6, a box plate opening 7, an electromagnetic coil 8, a mud leakage port 9, a sewage inlet pipe 10, a mud scraping side plate 11, a vibrating bracket 12, an inclined tube 13, a sedimentation tank 14, a water cover plate 15, a water outlet 16, a filter plate 17, an overflow port 18, an inclined tube damping spring 19, a vibrating chamber 20, a vibration driving motor 21, a transmission roller 22, a rotating shaft 23, a mud scraping inner plate 24, a mud discharging port 25, a damping hole 26, a connecting rod damping spring 27, a bump 28, a connecting rod 29, a belt 30, a main roller 31, and a secondary roller 32, the sewage inlet pipe 10 is disposed at the bottom of the left side wall of the sedimentation tank 14, a layer of inclined tube 13 is laid at the upper half of the sedimentation tank 14, the sludge tank 1 is fixed below the, the sludge-discharging device is characterized in that a sludge discharging port 25 is formed in the bottom of the right side wall of the sludge tank 1, switch boxes 4 are arranged on two sides of the top of the sludge tank 1, a support rod 5 is fixed on the inner wall of each switch box 4, a water plugging plug 6 is fixed at the tail end of each support rod 5, each water plugging plug 6 is an iron cylinder, a cylindrical groove is formed in each cylinder, one end of each support rod 5 is clamped in the groove of each water plugging plug 6, a layer of rubber plastic is wrapped on the outer surface of each water plugging plug 6, a spring is fixed between each water plugging plug 6 and the inner wall of each switch box 4, box plate openings 7 are formed in the top surface and the bottom of the right side of each switch box 4, an electromagnetic coil 8 is arranged on the right side of each switch box 4, each electromagnetic coil 8 is located in a motor chamber 2, each electromagnetic coil 8 is fixed on the inner side walls of two sides of each motor chamber 2, each motor chamber, a rotating shaft 23 is fixed on a motor rotating shaft of the mud scraping motor 3, the rotating shaft 23 is located at the center of the bottom of the sedimentation tank 14, a mud scraping side plate 11 is fixed at the top of the rotating shaft 23, a plurality of holes are formed in the mud scraping side plate 11, a mud scraping inner plate 24 is fixed on the lower half portion of the rotating shaft 23, the mud scraping side wall 11 and the mud scraping inner plate 24 are inclined downwards and cling to the bottom of the sedimentation tank 14, mud leaking ports 9 are formed in two sides of the bottom of the sedimentation tank 14, the mud leaking ports 9 are located right above the box plate opening 7, a vibration support 12 is fixed on the outer wall of the middle portion of the sedimentation tank 11, a plurality of vibration absorption holes 26 are formed in the side walls of the vibration support 12 and the sedimentation tank 14, a connecting rod 29 is arranged in the vibration absorption holes 26 in a penetrating mode, the left end of the connecting rod 29 is fixed on the outer pipe wall of the inclined pipe 13, a main roller 31 is arranged at the right end, the lateral sides of the main roller 31 and the secondary roller 32 are fixed with a bump 28, the bump 28 is made of lead, the two adjacent main rollers 31 are connected through a belt 30, the two adjacent secondary rollers 32 are also connected through the belt 30, the rightmost secondary roller 32 of the vibration support 1 is connected with a transmission roller 22, the transmission roller 22 is fixed at the right end of the vibration support 12, the transmission roller 22 is connected with a motor rotating shaft of a vibration motor 21 through the belt 30, the vibration motor 21 is positioned in a vibration chamber 20, the vibration chamber 20 is positioned in the sedimentation tank 14, the vibration chamber 20 is a closed triangular space, inclined tube damping springs 19 are arranged in the peripheral chamber wall of the vibration chamber 20, the upper part of the inclined tube 13 is fixed around the overflow port 18, the overflow port 18 is arranged at the top of the sedimentation tank 14, a filter screen 17 is arranged above the overflow port 14, the filter screen 17 is arranged on the side wall of the water cover plate 15 in a penetrating mode, the filter screen 17 is a cuboid drawable aluminum metal net, the water cover plate 15 is fixed to the top of the sedimentation tank 14, a water outlet 16 is formed in the position, on the overflow port 14, of the water cover plate 15, and the water outlet 16 is a cuboid cavity perpendicular to the overflow port 14.

The working principle of the invention is as follows: the sewage needing to be precipitated enters the sedimentation tank through the sewage inlet pipe 10, in the normal precipitation process, the sludge leakage port 9 is in a closed state, the sewage flows upwards through the inclined pipe 13, impurities in the sewage are attached to the inclined pipe 13 in the ascending process, when a certain amount of sediment is precipitated, the sediment can roll down to the bottom of the sedimentation tank 14 along with a slope, the connecting rod 29 is fixed on the side wall of each row of inclined pipes 13, wherein the vibration motor 21 rotates to drive the transmission roller 22 to rotate, the transmission roller 22 drives the main roller 31 and the secondary roller 32 on each connecting rod 29 to rotate, the connecting rods 29 are rotatably fixed by the convex blocks 28 of the main roller 31 and the secondary roller 32 to vibrate, so that the inclined pipe 13 fixed at the other end of the connecting rod 29 can also vibrate, each layer of inclined pipes guaranteed by the connecting rods 29 can directly receive a vibration source, the vibration effect is more obvious, therefore, the impurities in the inclined pipes 13 can more quickly vibrate and fall to the bottom of the sedimentation tank 14, wherein, the pipe chute damping spring 19 and the connecting rod damping spring 27 guarantee that sedimentation tank 14 and vibration chamber 20 can not receive the vibration interference, the mud motor 3 can conveniently clear up sedimentation tank 14 bottom sedimentary mud, when mud reachs certain degree and need clear up, can give solenoid 8 outage, inside iron water shutoff stopper 6 no longer receives the attraction of the strong magnetic force that the solenoid produced, the left spring of water shutoff stopper 6 can be drawn water shutoff stopper 6 to the left side of switch box 4, case board opening 7 is no longer plugged up to water shutoff stopper 6, mud is discharged into in the mud pond 1 by the hourglass mud mouth 9 of sedimentation tank 14, finally discharge by blowdown mud mouth 25, wherein the water cover plate 15 at sedimentation tank 15 top prevents to filter the recontamination that receives external environment that accomplishes, the filter 17 can pull out the clearance.

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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. A vibrating inclined tube sedimentation tank comprises a sludge tank (1), a motor chamber (2), a mud scraping motor (3), a switch box (4), a support rod (5), a water blocking plug (6), a box plate opening (7), an electromagnetic coil (8), a mud leakage opening (9), a sewage inlet pipe (10), a mud scraping side plate (11), a vibration support (12), an inclined tube (13), a sedimentation tank (14), a water cover plate (15), a water outlet (16), a filter plate (17), a water overflow opening (18), an inclined tube damping spring (19), a vibration chamber (20), a vibration driving motor (21), a transmission roller (22), a rotating shaft (23), a mud scraping inner plate (24), a mud discharging opening (25), a damping hole (26), a connecting rod damping spring (27), a convex block (28), a connecting rod (29), a belt (30), a main roller (31) and a secondary roller (32), the device is characterized in that a sewage inlet pipe (10) is arranged at the bottom of the left side wall of the sedimentation tank (14), a layer of inclined pipe (13) is laid at the upper half part of the interior of the sedimentation tank (14), a sludge tank (1) is fixed below the sedimentation tank (14), a sludge discharge port (25) is arranged at the bottom of the right side wall of the sludge tank (1), switch boxes (4) are arranged on two sides of the top of the sludge tank (1), a support rod (5) is fixed on the inner wall of each switch box (4), a water plugging plug (6) is fixed at the tail end of each support rod (5), one end of each support rod (5) is clamped in the water plugging plug (6), box board openings (7) are arranged at the top surface and the bottom of the right side of each switch box (4), an electromagnetic coil (8) is arranged on the right side of each switch box (4), the electromagnetic coil (8) is positioned in the motor chamber (2), and the electromagnetic coil (8) is fixed on the inner side walls of, the mud scraping machine is characterized in that the motor chamber (2) is fixed at the top center of the sludge tank (1), a mud scraping motor (3) is fixedly installed in the motor chamber (2), a rotating shaft (23) is fixed on the rotating shaft of the mud scraping motor (3), the rotating shaft (23) is located at the center of the bottom of the sedimentation tank (14), a mud scraping side plate (11) is fixed at the top of the rotating shaft (23), a mud scraping inner plate (24) is fixed on the lower half portion of the rotating shaft (23), the mud scraping side plate (11) and the mud scraping inner plate (24) are inclined downwards to cling to the bottom of the sedimentation tank (14), mud leakage openings (9) are formed in two sides of the bottom of the sedimentation tank (14), the mud leakage openings (9) are located right above the box plate opening (7), a vibration support (12) is fixed on the outer wall of the middle portion of the sedimentation tank (11), a plurality of shock absorption holes (26) are formed in the side walls of the vibration support (12) and the sedimentation tank (, a connecting rod (29) penetrates through the damping hole (26), the left end of the connecting rod (29) is fixed on the outer pipe wall of the inclined pipe (13), a main roller (31) is arranged at the right end of the connecting rod (29), a secondary roller (32) is fixed on the outer side of the main roller (31), a bump (28) is fixed on the side edge of the main roller (31) and the secondary roller (32), the two adjacent main rollers (31) are connected through a belt (30), the two adjacent secondary rollers (32) are also connected through the belt (30), the rightmost secondary roller (32) of the vibration support (1) is connected with a transmission roller (22), the transmission roller (22) is fixed at the right end of the vibration support (12), the transmission roller (22) is connected with a motor rotating shaft of a vibration motor (21) through the belt (30), and the vibration motor (21) is located in the vibration chamber (20), the vibrating chamber (20) is positioned in the sedimentation tank (14), inclined tube damping springs (19) are arranged in the peripheral chamber walls of the vibrating chamber (20), the upper portion of the inclined tube (13) is fixed on the periphery of the overflow opening (18), the overflow opening (18) is formed in the top of the sedimentation tank (14), a filter screen (17) is arranged above the overflow opening (18), the filter screen (17) is arranged on the side wall of the water cover plate (15) in a penetrating mode, the water cover plate (15) is fixed on the top of the sedimentation tank (14), and a water outlet (16) is formed in the position, on the overflow opening (18), of the water cover plate (15); a spring is fixed between the water blocking plug (6) and the inner wall of the switch box (4); a plurality of openings are formed in the mud scraping side plate (11); the filter screen (17) is a cuboid drawable aluminum metal screen.

2. A vibrating inclined tube sedimentation tank according to claim 1, wherein the water shutoff plug (6) is an iron cylinder with cylindrical grooves therein, and the outer surface of the water shutoff plug (6) is covered with a layer of rubber plastic.

3. A vibrating tube settler according to claim 1, wherein said lugs (28) are made of lead.

4. A vibrating tube settler according to claim 1, characterized in that said vibrating chamber (20) is a closed triangular space.

5. A vibrating tube settler according to claim 1, characterized in that said water outlet (16) is a rectangular parallelepiped cavity set perpendicular to the weirs (18).