CN207605462U - A kind of cesspool processing system based on Internet of Things control - Google Patents

Abstract

The utility model belongs to technical field of sewage, more particularly to a kind of cesspool processing system based on Internet of Things control, including detention tank, detention tank includes squared region from top to bottom, buffering area and arcuate segments, the first auger is transversely provided in arcuate segments, detention tank outer right wall is equipped with first motor in the first auger corresponding position, the power output shaft of first motor passes through detention tank side wall and the first auger to be sequentially connected, outer cylinder front end face is equipped with notch above baffle, outer barrel upper surface is equipped with the second motor, second motor power output shaft passes through outer barrel upper wall and the second auger to be sequentially connected, outer barrel lower face is equipped with return pipe on the outside of inner cylinder, return pipe free end is located in detention tank, surge drum is equipped in front of filter device, surge drum upper end port position and the gap position of outer barrel are to corresponding.The purpose is to：It solves the problems, such as caused by existing cesspool fault of construction that bottom of pond mud can not be deposited in cesspool to be discharged in the case of produced water.

Description

A kind of cesspool processing system based on Internet of Things control

Technical field

The utility model belongs to technical field of sewage, and in particular to a kind of cesspool processing based on Internet of Things control System.

Background technology

In sewage water filtration, wherein when having a process sewage precipitation, precipitation is positioned in sedimentation basin and realizes, after precipitation, Sedimentation basin bottom surface can accumulate a thick layer of sludge, and then sewage is filtered being discharged into subsequent processing, but if sludge mistake Thickness is not discharged, then the sewage after upper level filter can drive the sludge of bottom in flowing so that muddiness occurs again in water body. In addition, be all in the prior art sewage row light after be then exhausted from these sludge, cannot when sewage is also present in cesspool into Row blowdown operation.

Utility model content

The purpose of this utility model is：It is intended to provide a kind of cesspool processing system controlled based on Internet of Things, for solving Bottom of pond mud can not deposit the problem of being discharged in the case of produced water in cesspool caused by certainly existing cesspool fault of construction.

To realize the above-mentioned technical purpose, the technical solution adopted in the utility model is as follows：

A kind of cesspool processing system based on Internet of Things control, including detention tank, the detention tank is from upper To it is lower include squared region, buffering area and arcuate segments, the first auger is transversely provided in the arcuate segments, on the right side of the detention tank Outer wall is equipped with first motor in the first auger corresponding position, and the power output shaft of the first motor passes through detention tank side wall It is sequentially connected with the first auger, outer wall is equipped on the left of the detention tank first accommodates with what is be connected inside detention tank Pipe, described first accommodates the sealing of pipe left end, and described first, which accommodates inner upper end face on the right side of pipe, is equipped with supporting rack, first auger Left end is set in supporting rack, and the detention tank left is tiltedly installed with that accommodate pipe with first orthogonal and forward It is inclined second accommodate pipe, it is described second accommodate pipe with first accommodate pipe be interconnected, it is described second accommodate pipe in be equipped with second Auger, described second accommodates and is equipped with bearing block below pipe, and second auger lower end connect by bearing with bearing block, and described the Two, which accommodate pipe upper end, is equipped with filter device, and the filter device is set in the second auger upper end, and the filter device includes outer barrel And inner cylinder, the outer barrel internal diameter size are more than the second outer diameter for accommodating pipe, the inner tank theca is equipped with filter hole, described interior Cylinder upper surface is equipped with baffle, and the outer cylinder front end face is equipped with notch above baffle, and the outer barrel upper surface is equipped with the second motor, The second motor power output shaft passes through outer barrel upper wall and the second auger to be sequentially connected, and the outer barrel lower face is on the outside of inner cylinder Equipped with return pipe, the return pipe free end is located in detention tank, and surge drum, the receipts are equipped in front of the filter device Collect cylinder upper end port position and the gap position of outer barrel to corresponding.

Using the utility model of above-mentioned technical proposal, sewage precipitates in detention tank, effect of the sediment in gravity Under concentrate in the arcuate segments of detention tank, the first auger rotates under the action of first motor, pushes sediment to moving to left Move to first accommodate pipe in, then by the second motor drive rotation the second auger promotion under be moved upward to filter device In, at this point, the second auger is brought into the water in filter device after the filtering of inner sleeve, enter in outer barrel from filter hole, then pass through Detention tank is entered by return pipe, and sediment continues to rise to baffle upper surface, then leaving outer barrel from notch enters receipts Collect cylinder.Such structure design can deposit in the case of produced water in detention tank, sediment is discharged.

It further limits, multiple set squares is transversely provided in the detention tank, the set square is by two pieces of stripe boards Constitute up-narrow and down-wide triangular structure.Such structure design, sewage is in detention tank internal precipitate, above set square Sediment fallen from the gap between two adjacent set squares in detention tank bottom, drive of the sediment in the first auger Under when being moved to the left, at this point, due to set square lower part area bigger, the sediment below set square can be sheltered from, reduce three Sediment below gusset reaches the quantity above set square.

It further limits, torsion shaft is equipped on the inside of the set square, the torsion shaft is set in settlement of sewage by bearing On the left and right sides side wall in pond, the torsion shaft right end passes through detention tank right sidewall, and the torsion shaft is in settlement of sewage Transmission gear is equipped on the outside of the right sidewall of pond, the detention tank outer right wall is equipped with driving shaft above torsion shaft, described Driving shaft is equipped with driving gear, and the driving gear is equipped with synchronous toothed belt, and the driving gear passes through synchronous toothed belt Band nutating gear, the detention tank right sidewall outside are additionally provided with third motor, the power output of the third motor Axis is sequentially connected with driving shaft.Such structure design after having accumulated excessive sediment above set square, can pass through Three motors drive the mode of driving shaft rotation, and set square is made to be rotated around respective torsion shaft under the drive of synchronous toothed belt, from And the sediment accumulated on set square is got rid of and is fallen, it prevents the sediment of set square upper surface excessive, sediment is caused to cannot be introduced into The problem of arcuate segments.

Further limit, the detention tank outer wall be equipped with host, the host include signal receiver, microcontroller and Execution circuit, the signal receiver, microcontroller and execution circuit are sequentially connected electrically, the first motor, the second motor and Three motors are electrically connected with execution circuit, and the cesspool processing system based on Internet of Things control further includes in remote control The heart, the remote control center are connect with host signal.Such structure design, remote control center are sent a signal in host Signal receiver, signal receiver is transferred to the microcontroller of host, and microcontroller passes through execution circuit and controls first motor, second Motor and the work of third motor send control instruction, control first motor, the second motor and third electricity by remote control center Machine works, and realizes the remote control of sewage plant processing system.

It further limits, the model MCS-51 of the microcontroller, the microcontroller of 51 series.Such structure design, can Simplify structure, it is cost-effective.

It further limits, the synchronous toothed belt tow sides are all provided with teeth, and the synchronous toothed belt cross winding is more On a transmission gear.Such structure design, set square is under the drive of third motor, the reverses direction of two neighboring set square It is fallen on the contrary, the sediment accumulated on set square can be got rid of more easily, and tensioning wheel can only used, do not use support wheel In the case of ensure driving shaft power be more efficiently transmitted on transmission gear.

Description of the drawings

The utility model can be further illustrated by the nonlimiting examples that attached drawing provides；

Fig. 1 is a kind of structural schematic diagram of the cesspool processing system embodiment based on Internet of Things control of the utility model；

Fig. 2 is the enlarged structure schematic diagram at C in Fig. 1；

Fig. 3 is the schematic cross-sectional view one of Fig. 1；

Fig. 4 is the enlarged structure schematic diagram at A in Fig. 3；

Fig. 5 is the schematic cross-sectional view two of Fig. 1；

Fig. 6 is the schematic cross-sectional view three of Fig. 1；

Fig. 7 is the enlarged structure schematic diagram at B in Fig. 6；

Fig. 8 is a kind of system block diagram of the cesspool processing system embodiment based on Internet of Things control of the utility model；

Main element symbol description is as follows：

Detention tank 1, squared region 11, buffering area 12, arcuate segments 13, the first auger 2, first motor 21, first accommodate Pipe 3, supporting rack 31, second accommodate pipe 4, the second auger 41, bearing block 42, outer barrel 51, inner cylinder 52, baffle 521, the second motor 53, return pipe 54, surge drum 6, set square 7, torsion shaft 71, transmission gear 72, driving shaft 8, driving gear 81, synchronous toothed belt 82。

Specific implementation mode

It is right with reference to the accompanying drawings and examples in order to make those skilled in the art that the utility model may be better understood Technical solutions of the utility model further illustrate.

As shown in Fig. 1~Fig. 8, a kind of cesspool processing system based on Internet of Things control of the utility model, including dirt Water sedimentation pond 1, detention tank 1 include squared region 11, buffering area 12 and arcuate segments 13 from top to bottom, are laterally set in arcuate segments 13 There are the first auger 2,1 outer right wall of detention tank to be equipped with first motor 21 in 2 corresponding position of the first auger, first motor 21 Power output shaft passes through 1 side wall of detention tank and the first auger 2 to be sequentially connected, and 1 left side outer wall of detention tank is equipped with and dirt First to be connected inside water sedimentation pond 1 accommodates pipe 3, and first accommodates the sealing of 3 left end of pipe, and first accommodates 3 right side inner upper end of pipe Face is equipped with supporting rack 31, and 2 left end of the first auger is set in supporting rack 31, and 1 left of detention tank is tiltedly installed with and first The second receiving pipe 4 that pipe 3 is orthogonal and turns forward is accommodated, second, which accommodates the receiving pipe 3 of pipe 4 and first, is interconnected, Second accommodates equipped with the second auger 41 in pipe 4, and second, which accommodates 4 lower section of pipe, is equipped with bearing block 42, and 41 lower end of the second auger passes through axis It holds and is connect with bearing block 42, second, which accommodates 4 upper end of pipe, is equipped with filter device, and filter device is set in 41 upper end of the second auger, mistake Filter device includes outer barrel 51 and inner cylinder 52, and 51 internal diameter size of outer barrel is more than the second outer diameter for accommodating pipe 4, and 52 outer wall of inner cylinder is set There are filter hole, 52 upper surface of inner cylinder to be equipped with baffle 521,51 front end face of outer barrel is equipped with notch, 51 upper end of outer barrel above baffle 521 Face is equipped with the second motor 53, and 53 power output shaft of the second motor passes through 51 upper wall of outer barrel and the second auger 41 to be sequentially connected, outer barrel 51 lower faces are equipped with return pipe 54 in 52 outside of inner cylinder, and 54 free end of return pipe is located in detention tank 1, in front of filter device Equipped with surge drum 6,6 upper end port position of surge drum and the gap position of outer barrel 51 are to corresponding.

In the present embodiment, sewage precipitation, sediment in detention tank 1 concentrate on settlement of sewage under gravity In the arcuate segments 13 in pond 1, the first auger 2 rotates under the action of first motor 21, and sediment is pushed to be moved to the left the first appearance Receive in pipe 3, then by the second motor 53 drive rotation the second auger 41 promotion under be moved upward in filter device, this When, the second auger 41 is brought into the water in filter device after the filtering of inner sleeve 52, enters in outer barrel 51 from filter hole, then pass through Detention tank 1 is entered by return pipe 54, and sediment continues to rise to 521 upper surface of baffle, then leaves outer barrel from notch 51 enter surge drum 6.Such structure design can deposit in the case of produced water in detention tank 1, sediment is discharged.

It is preferred that being transversely provided with multiple set squares 7 in detention tank 1, set square 7 is made of up-narrow and down-wide two pieces of stripe boards Triangular structure.Such structure design, sewage in 1 internal precipitate of detention tank, the sediment of the top of set square 7 from Gap between two adjacent set squares 7 is fallen in 1 bottom of detention tank, sediment under the drive of the first auger 2 to the left When mobile, at this point, due to 7 lower part area bigger of set square, the sediment of 7 lower section of set square can be sheltered from, reduce set square 7 The sediment of lower section reaches the quantity of 7 top of set square.In fact, also can consider other structures blocked according to actual conditions Design.

It is preferred that 7 inside of set square is equipped with torsion shaft 71, torsion shaft 71 is set in the left and right of detention tank 1 by bearing On the side wall of both sides, 71 right end of torsion shaft passes through 1 right sidewall of detention tank, and torsion shaft 71 is in 1 right sidewall of detention tank Outside is equipped with transmission gear 72, and 1 outer right wall of detention tank is equipped with driving shaft 8 above torsion shaft 71, and driving shaft 8 is equipped with Driving gear 81, driving gear 81 are equipped with synchronous toothed belt 82, and driving gear 81 drives driving cog by synchronous toothed belt 82 Wheel 72,1 right sidewall of detention tank outside are additionally provided with third motor, and power output shaft and the driving shaft 8 of third motor are driven Connection.Such structure design after having accumulated excessive sediment above set square 7, can be driven by third motor and be led The mode that moving axis 8 rotates makes set square 7 be rotated around respective torsion shaft 71 under the drive of synchronous toothed belt 82, to three The sediment accumulated on gusset 7, which is got rid of, to be fallen, and prevents the sediment of 7 upper surface of set square excessive, sediment is caused to cannot be introduced into arc The problem of area 13.In fact, also can consider that other can clear up the structure of 7 upper surface sediment of set square and set according to actual conditions Meter.

It is preferred that 1 outer wall of detention tank is equipped with host, host includes signal receiver, microcontroller and execution circuit, signal Receiver, microcontroller and execution circuit are sequentially connected electrically, and first motor 21, the second motor 53 and third motor are and execution circuit Electrical connection, the cesspool processing system based on Internet of Things control further include remote control center, and remote control center is believed with host Number connection.Such structure design, remote control center send a signal to the signal receiver in host, signal receiver transmission To the microcontroller of host, microcontroller controls first motor 21, the second motor 53 and third motor by execution circuit and works, and passes through Remote control center sends control instruction, and sewage factory and office are realized in control first motor 21, the second motor 53 and the work of third motor The remote control of reason system.In fact, also can be specific to consider according to actual conditions.

It is preferred that the model MCS-51 of microcontroller, the microcontroller of 51 series.Such structure design can simplify structure, section About cost.In fact, also can be according to actual conditions, the specific model for considering microcontroller.

It is preferred that 82 tow sides of synchronous toothed belt are all provided with teeth, 82 cross winding of synchronous toothed belt is in multiple transmission gears On 72.Such structure design, set square 7 under the drive of third motor, the reverses direction of two neighboring set square 7 on the contrary, The sediment accumulated on set square 7 can be got rid of more easily and be fallen, and tensioning wheel can only used, not use the feelings of support wheel Ensure that the power of driving shaft 8 is more efficiently transmitted on transmission gear 72 under condition.In fact, can also be had according to actual conditions Body considers.

Above to it is provided by the utility model it is a kind of based on Internet of Things control cesspool processing system carried out detailed Jie It continues.The explanation of specific embodiment is merely used to help understand the method and its core concept of the utility model.It should be pointed out that for It, without departing from the principle of this utility model, can also be new to this practicality for those skilled in the art Some improvement and modification can also be carried out for type, and modifications and modifications also fall within the protection scope of the claims of the utility model.

Claims (6)

1. a kind of cesspool processing system based on Internet of Things control, it is characterised in that：Including detention tank (1), the dirt Water sedimentation pond (1) includes squared region (11), buffering area (12) and arcuate segments (13) from top to bottom, transverse direction in the arcuate segments (13) Equipped with the first auger (2), detention tank (1) outer right wall is equipped with first motor in the first auger (2) corresponding position (21), the power output shaft of the first motor (21) passes through detention tank (1) side wall and the first auger (2) to be sequentially connected, Outer wall is equipped on the left of the detention tank (1) first accommodates pipe (3) with what is be connected inside detention tank (1), and described the One accommodates pipe (3) left end sealing, and described first, which accommodates inner upper end face on the right side of pipe (3), is equipped with supporting rack (31), and described first twists Imperial (2) left end is set in supporting rack (31), and detention tank (1) left is tiltedly installed with accommodates pipe (3) phase with first (4) are managed in the second receiving that is mutually vertical and turning forward, and described second accommodates pipe (4) is interconnected with the first receiving pipe (3), The second auger (41) is equipped in the second receiving pipe (4), second receiving, which is managed, is equipped with bearing block (42) below (4), described Second auger (41) lower end is connect by bearing with bearing block (42), and described second, which accommodates pipe (4) upper end, is equipped with filter device, institute It states filter device and is set in the second auger (41) upper end, the filter device includes outer barrel (51) and inner cylinder (52), the outer barrel (51) internal diameter size is more than the second outer diameter for accommodating pipe (4), and inner cylinder (52) outer wall is equipped with filter hole, the inner cylinder (52) upper surface is equipped with baffle (521), and outer barrel (51) front end face is equipped with notch, the outer barrel above baffle (521) (51) upper surface is equipped with the second motor (53), and the second motor (53) power output shaft passes through outer barrel (51) upper wall and second to twist Imperial (41) are sequentially connected, and outer barrel (51) lower face is equipped with return pipe (54), the return pipe (54) on the outside of inner cylinder (52) Free end is located in detention tank (1), and surge drum (6), surge drum (6) upper end port are equipped in front of the filter device Position and the gap position of outer barrel (51) are to corresponding.

2. a kind of cesspool processing system based on Internet of Things control according to claim 1, it is characterised in that：The dirt Multiple set squares (7) are transversely provided in water sedimentation pond (1), the set square (7) constitutes up-narrow and down-wide three by two pieces of stripe boards Angular structure.

3. a kind of cesspool processing system based on Internet of Things control according to claim 2, it is characterised in that：Described three Torsion shaft (71) is equipped on the inside of gusset (7), the torsion shaft (71) is set in the left and right sides of detention tank (1) by bearing On side wall, torsion shaft (71) right end passes through detention tank (1) right sidewall, and the torsion shaft (71) is in detention tank (1) transmission gear (72) is equipped on the outside of right sidewall, detention tank (1) outer right wall is equipped with above torsion shaft (71) Driving shaft (8), the driving shaft (8) are equipped with driving gear (81), and the driving gear (81) is equipped with synchronous toothed belt (82), the driving gear (81) passes through synchronous toothed belt (82) band nutating gear (72), detention tank (1) right side Side-wall outer side is additionally provided with third motor, and power output shaft and the driving shaft (8) of the third motor are sequentially connected.

4. a kind of cesspool processing system based on Internet of Things control according to claim 3, it is characterised in that：The dirt Water sedimentation pond (1) outer wall is equipped with host, and the host includes signal receiver, microcontroller and execution circuit, and the signal receives Device, microcontroller and execution circuit are sequentially connected electrically, the first motor (21), the second motor (53) and third motor with execution Circuit is electrically connected, and the cesspool processing system based on Internet of Things control further includes remote control center, the remote control Center is connect with host signal.

5. a kind of cesspool processing system based on Internet of Things control according to claim 4, it is characterised in that：The list The model MCS-51 of piece machine, the microcontroller of 51 series.

6. a kind of cesspool processing system based on Internet of Things control according to claim 5, it is characterised in that：It is described same Step toothed belt (82) tow sides are all provided with teeth, and synchronous toothed belt (82) cross winding is on multiple transmission gears (72).