CN110005047A - A kind of energy-saving sewage-treatment plant in cities and towns based on suction dredging design - Google Patents

Abstract

The invention discloses a kind of energy-saving sewage-treatment plants in cities and towns based on suction dredging design, its structure includes sewage conduct, blockage detector, dredge transmission case, blockage detector is equipped with detection device, circuit control device, it dredges transmission case and is equipped with driving motor, transmission gear, suction unit, driving motor is connected on power control unit by bolt riveted, transmission gear is connected on dredging transmission chamber interior wall by screw thread engagement, suction unit is connected to inside dredging transmission case by bolt riveted, the beneficial effects of the present invention are: the speed of inside sewage pipeline water flow can be detected by flow rate detector, to judge whether there is stopping state, pass through starting suction unit again, the dredging of inside sewage pipeline is carried out by air pressure, the case where solving sewage conduct blocking, reduce what worker overhauled and repaired Number, when alleviating big rainfall the case where sewage backflow flooded road surface.

Description

A kind of energy-saving sewage-treatment plant in cities and towns based on suction dredging design

Technical field

The present invention relates to urban wastewater treatment device field, specifically a kind of cities and towns section based on suction dredging design It can type sewage-treatment plant.

Background technique

Town sewage is generally divided into three categories, sanitary sewage, trade effluent and runoff sewage, in the mistake of runoff sewage discharge Cheng Zhong, other than sewage and mud can also conveniently many rubbish, when being discharged, the channel of discharge is all runoff sewage Be laid on road and soil in the following, and the rubbish carried secretly after rain drop erosion can be easy to be deposited in sewage routeway, while underground Pipeline cleaning is inconvenient, and the time that maintenance investigation needs also is grown.

For the problem that current sewage-treatment plant, opposite scheme has been formulated for existing below:

Because the rubbish and mud carried secretly in rainwater are all easy to be deposited in drainage pipeline, draining will result in for a long time Line clogging, to cause sewage backflow, flooded road surface causes a large amount of ponding, or even causes other security risks, simultaneously Lower sewage vent line is intricate, is checked before being dredged, and investigation needs the time, to be difficult in a short time Solve the problems, such as pipe-dredging.

Summary of the invention

It is a primary object of the present invention to overcome the deficiencies of the prior art and provide a kind of cities and towns based on suction dredging design Energy-saving sewage-treatment plant.

The present invention adopts the following technical scheme that realize: a kind of energy-saving sewage treatment in cities and towns based on suction dredging design Device, structure include sewage conduct, blockage detector, dredging transmission case, and the sewage conduct vertical welding is passed in dredging Dynamic bottom portion, the blockage detector are connected to inside dredging transmission case by bolt riveted, and the dredging transmission case is vertical It is welded in above sewage conduct, the blockage detector is equipped with detection device, circuit control device, and the detection device passes through Bolt riveted is connected to above sewage conduct, and the circuit control device is connected to dredging transmission case portion by bolt riveted；Institute It states dredging transmission case and is equipped with driving motor, transmission gear, suction unit, the driving motor is connected to electric power by bolt riveted On control device, the transmission gear is connected on dredging transmission chamber interior wall by screw thread engagement, and the suction unit passes through spiral shell Bolt riveted is connected to inside dredging transmission case.

As optimization, the detection device is equipped with flow rate detector, controller, connecting wire, and the flow rate detector is embedding Set on inside sewage pipeline, the flow rate detector is connected to below controller by bolt riveted, and the controller passes through spiral shell Bolt riveted is connected to above sewage conduct, and the connecting wire is by being electrically connected between controller and circuit control device, institute Flow rate detector is stated for detecting the speed of inside sewage pipeline water flow.

As optimization, the circuit control device is led equipped with control power pack, coupling, energization slot, reset spring, energization Bar, towing plate, the control power pack are connected on dredging transmission chamber interior wall by bolt riveted, and the coupling is embedded at control On power pack side surface processed, the energization slot is embedded above control power pack, and the reset spring is embedded at energization slot and leads to Between conductance bar, the energization guide rod is connected to above energization slot by reset spring, and the towing plate is uniformly equidistantly welded in On energization guide rod side surface, the coupling is used for the connection of connecting wire, and the energization slot is hollow cylindrical structure, described Towing plate is metal material, and the towing plate is rectangular plate-like, and the towing plate is three.

As optimization, the suction unit is equipped with the first hydraulic mobile jib, the first hydraulic strut, suction air bag, second hydraulic Strut, the second hydraulic mobile jib, sucker, the first hydraulic mobile jib are connected on dredging transmission chamber interior wall by bolt riveted, institute The first hydraulic strut is stated by being excessively cooperatively connected on the first hydraulic mobile jib, the suction air bag is welded in the first hydraulic strut Between the second hydraulic strut, second hydraulic strut is by being excessively cooperatively connected on the second hydraulic mobile jib, and described second Hydraulic mobile jib is connected on dredging transmission chamber interior wall by bolt riveted, and the sucker is embedded inside sewage pipeline upper wall, institute Sucker vertical welding is stated below suction air bag, the suction air bag is rubber material, and the suction air bag is hollow structure, institute Stating sucker is stainless steel metal material.

Beneficial effect

When a kind of energy-saving sewage-treatment plant in cities and towns based on suction dredging design of the present invention is worked:

By being equipped with a kind of detection device, the detection device is equipped with flow rate detector, controller, connecting wire, passes through The device is installed on certain distance, when sewage conduct blocking, either flow rate detector leading portion or back segment water flow velocity be all It can reduce, the flow velocity in pipeline be detected by flow rate detector, to work by controller controling circuit control device；

By being equipped with a kind of circuit control device, the circuit control device is equipped with control power pack, coupling, energization Slot, reset spring, energization guide rod, towing plate, when flow velocity reduces, under the control of control power pack, driving passes driving motor Moving gear is rotated, and then be will drive towing plate when transmission gear is rotated clockwise and is moved down, towing plate is in the mistake moved down Energization guide rod is constantly driven to move down in journey, to make to be connected to the circuit of suction unit in energization guide rod insertion energization slot；

By being equipped with a kind of suction unit, the suction unit is equipped with the first hydraulic mobile jib, the first hydraulic strut, suction gas Capsule, the second hydraulic strut, the second hydraulic mobile jib, sucker, when the circuit of suction unit is connected to, the first hydraulic mobile jib pushes the The stretching, extension of one hydraulic strut, the second hydraulic mobile jib push the stretching, extension of the second hydraulic strut, to squeeze suction air bag back and forth, aspirate air bag Air pressure can be generated during squeezing back and forth, air pressure is acted in sewage conduct by sucker, to dredge by air pressure dirty Waterpipe solves blockage problem.

Compared with prior art, the beneficial effects of the present invention are: inside sewage pipeline can be detected by flow rate detector The speed of water flow to judge whether there is stopping state, then by starting suction unit, carries out sewage conduct by air pressure Internal dredging solves the case where sewage conduct blocks, the number that worker overhauls and repairs is reduced, when alleviating big rainfall The case where sewage backflow flooded road surface.

Detailed description of the invention

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon:

Fig. 1 is a kind of structural schematic diagram of the energy-saving sewage-treatment plant in cities and towns based on suction dredging design of the present invention.

Fig. 2 is the side structure schematic diagram under circuit control device stationary state of the present invention.

Fig. 3 is the side structure schematic diagram under circuit control device working condition of the present invention.

Fig. 4 is the structural schematic diagram under suction unit stationary state of the present invention.

Fig. 5 is the structural schematic diagram under suction unit working condition of the present invention.

In figure: sewage conduct 1, blockage detector 2, dredging transmission case 3, detection device 20, flow rate detector 200, control Device 201 processed, connecting wire 202, circuit control device 21, control power pack 210, coupling 211, energization slot 212, reset spring 213, energization guide rod 214, towing plate 215, driving motor 30, transmission gear 31, suction unit 32, the first hydraulic mobile jib 320, First hydraulic strut 321, suction air bag 322, the second hydraulic strut 323, the second hydraulic mobile jib 324, sucker 325.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Fig. 1-5 is please referred to, the present invention provides a kind of energy-saving sewage-treatment plant skill in cities and towns based on suction dredging design Art scheme: its structure include sewage conduct 1, blockage detector 2, dredging transmission case 3,1 vertical welding of sewage conduct in 3 bottom of transmission case is dredged, the blockage detector 2 is connected to inside dredging transmission case 3 by bolt riveted, and the dredging passes For dynamic 3 vertical welding of case above sewage conduct 1, the blockage detector 2 is equipped with detection device 20, circuit control device 21, The detection device 20 is connected to 1 top of sewage conduct by bolt riveted, and the circuit control device 21 passes through bolt riveted It is connected to dredging transmission case 3；The dredging transmission case 3 is equipped with driving motor 30, transmission gear 31, suction unit 32, described Driving motor 30 is connected on power control unit 21 by bolt riveted, and the transmission gear 31 is connected to by screw thread engagement It dredges on 3 inner wall of transmission case, the suction unit 32 is connected to inside dredging transmission case 3 by bolt riveted, the detection dress It sets 20 and is equipped with flow rate detector 200, controller 201, connecting wire 202, the flow rate detector 200 is embedded at sewage conduct 1 Inside, the flow rate detector 200 are connected to 201 lower section of controller by bolt riveted, and the controller 201 passes through bolt Riveted is connected to 1 top of sewage conduct, and the connecting wire 202 is by being electrically connected to controller 201 and circuit control device 21 Between, the controller 201 carries out corresponding data processing by the judgement to water flow velocity, and then suction unit 32 is pushed to carry out Work, the circuit control device 21 are equipped with control power pack 210, coupling 211, energization slot 212, reset spring 213, are powered Guide rod 214, towing plate 215, the control power pack 210 are connected on dredging 3 inner wall of transmission case by bolt riveted, described outer Connector 211 is embedded on control 210 side surface of power pack, and the energization slot 212 is embedded at 210 top of control power pack, described Reset spring 213 is embedded between energization slot 212 and energization guide rod 214, and the energization guide rod 214 is connected by reset spring 213 It is connected to 212 top of energization slot, the towing plate 215 is uniformly equidistantly welded on 214 side surface of energization guide rod, the energization slot 212 with energization guide rod 214 for connecting to connection circuit, and the reset spring 213 is for controlling energization guide rod 214 and leading to The connection of electric slot 212, the suction unit 32 be equipped with the first hydraulic mobile jib 320, the first hydraulic strut 321, suction air bag 322, Second hydraulic strut 323, the second hydraulic mobile jib 324, sucker 325, the first hydraulic mobile jib 320 are connected by bolt riveted In on dredging 3 inner wall of transmission case, first hydraulic strut 321 is by being excessively cooperatively connected on the first hydraulic mobile jib 320, institute It states suction air bag 322 to be welded between the first hydraulic strut 321 and the second hydraulic strut 323, second hydraulic strut 323 is logical It is excessively cooperatively connected on the second hydraulic mobile jib 324, the second hydraulic mobile jib 324 is connected to dredging by bolt riveted and passes On dynamic 3 inner wall of case, the sucker is embedded at 1 inner upper wall of sewage conduct, and 325 vertical welding of sucker is in suction air bag 322 Lower section, the first hydraulic mobile jib 320 is for pushing the first hydraulic strut 321 to carry out telescopic movable, the second hydraulic mobile jib 324 for pushing the second hydraulic strut 323 to carry out telescopic movable.

When in use, by installing the device on certain distance, when sewage conduct 1 blocks, either flow rate detection 200 leading portion of device or back segment water flow velocity can all reduce, and the flow velocity in pipeline be detected by flow rate detector 200, to pass through control 201 control circuit control device 21 of device processed works, when flow velocity reduces, control of the driving motor 30 in control power pack 210 Under system, driving transmission gear 31 is rotated, and then will drive under towing plate 215 when transmission gear 31 is rotated clockwise It moves, towing plate 215 constantly drives energization guide rod 214 to move down during moving down, so that energization guide rod 214 be made to be embedded in energization slot In 212, it is connected to the circuit of suction unit 32, when the circuit of suction unit 32 is connected to, the first hydraulic mobile jib 320 pushes the The stretching, extension of one hydraulic strut 321, the second hydraulic mobile jib 324 push the stretching, extension of the second hydraulic strut 323, to squeeze suction air bag back and forth 322, suction air bag 322 can generate air pressure during squeezing back and forth, and air pressure acts on sewage conduct 1 by sucker 325 In, to dredge sewage conduct 1 by air pressure, solve blockage problem.

The technological progress that the present invention obtains compared with the prior art is:

The speed of inside sewage pipeline water flow can be detected by flow rate detector, to judge whether there is stopping state hair Life, then by starting suction unit, the dredging of inside sewage pipeline is carried out by air pressure, the case where sewage conduct blocks is solved, The number that worker overhauls and repairs is reduced, when alleviating big rainfall the case where sewage backflow flooded road surface.

Although the present invention is described in detail referring to the foregoing embodiments, for those skilled in the art, It is still possible to modify the technical solutions described in the foregoing embodiments, or part of technical characteristic is carried out etc. With replacement, all within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in this Within the protection scope of invention.

Claims (4)

1. a kind of energy-saving sewage-treatment plant in cities and towns based on suction dredging design, structure includes sewage conduct (1), blocking Detection device (2), dredging transmission case (3), sewage conduct (1) vertical welding is in dredging transmission case (3) bottom, the blocking Detection device (2) is connected to dredging transmission case (3) inside by bolt riveted, and dredging transmission case (3) vertical welding is in dirt Above waterpipe (1), it is characterised in that:

The blockage detector (2) is equipped with detection device (20), circuit control device (21), and the detection device (20) passes through Bolt riveted is connected to above sewage conduct (1), and the circuit control device (21) is connected to dredging transmission by bolt riveted Case (3) portion；

The dredging transmission case (3) is equipped with driving motor (30), transmission gear (31), suction unit (32), the driving motor (30) it is connected on power control unit (21) by bolt riveted, the transmission gear (31) is connected to thin by screw thread engagement On logical transmission case (3) inner wall, the suction unit (32) is connected to dredging transmission case (3) inside by bolt riveted.

2. a kind of energy-saving sewage-treatment plant in cities and towns based on suction dredging design according to claim 1, feature Be: the detection device (20) is equipped with flow rate detector (200), controller (201), connecting wire (202), the flow velocity inspection It surveys device (200) and is embedded at sewage conduct (1) inside, the flow rate detector (200) is connected to controller by bolt riveted (201) lower section, the controller (201) are connected to above sewage conduct (1) by bolt riveted, the connecting wire (202) By being electrically connected between controller (201) and circuit control device (21).

3. a kind of energy-saving sewage-treatment plant in cities and towns based on suction dredging design according to claim 2, feature Be: the circuit control device (21) is equipped with control power pack (210), coupling (211), energization slot (212), reset spring (213), energization guide rod (214), towing plate (215), the control power pack (210) are connected to dredging transmission by bolt riveted On case (3) inner wall, the coupling (211) is embedded on control power pack (210) side surface, and the energization slot (212) is embedded Above control power pack (210), the reset spring (213) is embedded between energization slot (212) and energization guide rod (214), The energization guide rod (214) is connected to above energization slot (212) by reset spring (213), and the towing plate (215) is uniform etc. Away from being welded on energization guide rod (214) side surface.

4. a kind of energy-saving sewage-treatment plant in cities and towns based on suction dredging design according to claim 1, feature Be: the suction unit (32) is equipped with the first hydraulic mobile jib (320), the first hydraulic strut (321), suction air bag (322), the Two hydraulic struts (323), the second hydraulic mobile jib (324), sucker (325), the first hydraulic mobile jib (320) pass through bolt riveted It is connected on dredging transmission case (3) inner wall, first hydraulic strut (321) is by being excessively cooperatively connected in the first hydraulic mobile jib (320) on, the suction air bag (322) is welded between the first hydraulic strut (321) and the second hydraulic strut (323), described Second hydraulic strut (323) is by being excessively cooperatively connected on the second hydraulic mobile jib (324), the second hydraulic mobile jib (324) It is connected on dredging transmission case (3) inner wall by bolt riveted, the sucker is embedded at sewage conduct (1) inner upper wall, described Sucker (325) vertical welding is below suction air bag (322).