CN108373179B

CN108373179B - Efficient domestic wastewater treatment device

Info

Publication number: CN108373179B
Application number: CN201810225571.3A
Authority: CN
Inventors: 裴永刚
Original assignee: Zhejiang Mingde Environmental Technology Co ltd
Current assignee: ZHEJIANG MINGDE ENVIRONMENTAL TECHNOLOGY Co.,Ltd.
Priority date: 2018-03-19
Filing date: 2018-03-19
Publication date: 2020-11-06
Anticipated expiration: 2038-03-19
Also published as: CN108373179A

Abstract

The invention discloses a high-efficiency domestic wastewater treatment device which structurally comprises a water inlet seat, an exhaust pipe and a connecting support, the water outlet seat, the sundries filtering box and the domestic wastewater treatment device are arranged, the water inlet seat is connected to one end of the domestic wastewater treatment device, the connecting support is welded on the surface of the upper end of the domestic wastewater treatment device at equal intervals, the exhaust pipe is welded on one side of the surface of the upper end of the domestic wastewater treatment device, the other end of the domestic wastewater treatment device is connected with the water outlet seat, and the sundries filtering box is arranged on the inner surface of the domestic wastewater treatment device.

Description

Efficient domestic wastewater treatment device

Technical Field

The invention relates to a high-efficiency domestic wastewater treatment device, belonging to the technical field of wastewater purification treatment.

Background

Domestic wastewater refers to washing water discharged in daily life of residents. Only a small part of the wastewater is treated, and most of the wastewater is directly discharged into rivers and the like without being treated. Smaller cities are more serious. Feces and the like are generally not directly excreted, but are collected. The pollutant components in the wastewater are extremely complex and various, the purpose of complete purification cannot be achieved by any treatment method, and the treatment requirements can be met only by forming a treatment system by a plurality of methods. The wastewater treatment system can be divided into primary treatment, secondary treatment and advanced treatment according to different treatment degrees.

However, in the prior art, a large amount of sundries in the domestic wastewater are easily accumulated on the filter plate in the using process, so that a user needs to maintain the filter plate frequently, the operation is inconvenient, the working efficiency of equipment is influenced, and the practicability is poor.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a high-efficiency domestic wastewater treatment device to solve the problems that in the prior art, a large amount of sundries in the domestic wastewater are easily accumulated on a filter plate in the using process, so that a user needs to maintain the filter plate frequently, the operation is inconvenient, the working efficiency of equipment is influenced, and the practicability is poor.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an efficient domestic wastewater treatment device, its structure includes into water seat, blast pipe, connection support, goes out water seat, debris filtering case, domestic wastewater treatment device, the seat of intaking connect in domestic wastewater treatment device's one end, domestic wastewater treatment device's upper end on the surface even equidistance welding have the connection support, the blast pipe weld in one side on domestic wastewater treatment device upper end surface, domestic wastewater treatment device's the other end be connected with out the water seat, debris filtering case locate domestic wastewater treatment device's internal surface, debris filtering case by waste water extraction pressure device, multi-stage drive mechanism, reducing mechanism actuating mechanism, water storage seat, waste water shower nozzle, smash debris shower nozzle, waste water outlet seat, filter plate, vibrating spring, vibrating mechanism, first drive belt, smash debris transport seat, smash debris play material seat, Second drive belt, reducing mechanism, crushing debris transport seat actuating mechanism, debris filtering case shell body, debris pipe, sanitary wastewater import seat, motor drive, solid-liquid separation equipment, waste water pipe are constituteed, the upper end surface of debris filtering case shell body be connected with sanitary wastewater import seat, one side of sanitary wastewater import seat lower extreme surface be connected with waste water outlet seat, crushing debris unloading seat connect in the opposite side of sanitary wastewater import seat lower extreme surface, the internal surface of sanitary wastewater import seat be equipped with motor drive, motor drive connect in the other end of solid-liquid separation equipment, one side of motor drive lower extreme surface be connected with multi-stage drive mechanism, multi-stage drive mechanism's one end be connected with waste water extraction pressure device, waste water extraction pressure device respectively with water storage seat, waste water extraction pressure device, The waste water spray head is connected, the crushing device driving mechanism is connected with the other end of the multi-stage transmission mechanism, the crushing device is nested and connected with the other end of the crushing device driving mechanism, the lower surface of one end of the crushing device is connected with a crushed sundry spray head, the water storage seat is connected with a solid-liquid separation device through a waste water guide pipe, the crushing device is connected with the solid-liquid separation device through a sundry guide pipe, the waste water spray head and the crushed sundry spray head are both arranged on the upper end surface of the filter plate, one side of the lower end surface of the filter plate is connected with a vibrating spring, the vibrating mechanism is arranged on the other side of the lower end surface of the filter plate, the other end of the filter plate is provided with a crushed sundry conveying seat, the crushed sundry conveying seat is connected with the vibrating mechanism through a first transmission belt, and, the driving mechanism of the conveying seat for crushed sundries is connected to the other side of the lower end surface of the motor driving device.

Furthermore, the waste water extraction and pressurization device consists of a first worm, a first gear, a first chain gear transmission seat, a third transmission belt, a connecting turntable, a reciprocating motion seat, a water outlet guide pipe, a first belt pulley transmission seat, a fourth transmission belt, a piston rod, a rotating chuck, a cam transmission arm, a movable connecting rod, a rotating chuck support, a piston block, a piston cylinder and a water inlet guide pipe.

Furthermore, one side of the lower end surface of the first chain gear transmission seat is connected with a first worm in an embedded mode, the upper end surface of the first worm is meshed with the lower end surface of a first gear, the first gear is connected with a connecting turntable through a third transmission belt, the connecting turntable is movably connected to the lower end surface of a reciprocating motion seat, the upper end surface of the reciprocating motion seat is movably connected with the other end of the first belt pulley transmission seat, the first belt pulley transmission seat is connected with a cam through a fourth transmission belt, the cam is movably connected to the front end surface of a rotating chuck, the rotating chuck is movably connected to the upper surface of the front end of a rotating chuck support, the cam is connected with a piston rod through a cam transmission arm, the movable connecting rod is respectively connected with the cam transmission arm and the rotating chuck support, and the other end of the piston rod is connected with a piston block, the piston block locate the internal surface of piston cylinder, the upper surface of the piston cylinder other end be connected with out the water pipe, the lower surface of intake pipe connection at the piston cylinder other end, first sprocket drive seat nested connection in one side of multistage drive mechanism lower extreme surface, the lower extreme surface of intake pipe be and vertically run through in retaining the water seat, play water pipe and waste water shower nozzle nested connection.

Furthermore, the multistage transmission mechanism consists of a second worm, a second gear, a fifth transmission belt, a multistage rotating seat, a sixth transmission belt, a first rotating disc, a seventh transmission belt, a first bevel gear, a first transmission gear set, a bevel gear driving disc, a third gear, a second bevel gear and a second chain gear transmission seat, wherein one side of the lower end surface of the second chain gear transmission seat is connected with the second worm in a nested manner, the upper end surface of the second worm is meshed with the lower end surface of the second gear, the second gear is connected to the other end of the multistage rotating seat through the fifth transmission belt, the first rotating disc is connected to the lower surface of one end of the multistage rotating seat through the sixth transmission belt, the first rotating disc is connected with the third gear through the seventh transmission belt, the outer surface of the third gear is meshed with the inner surface of the first transmission gear set, and the outer surface of the first transmission gear set is meshed with the inner surface of the bevel gear driving disc, the first bevel gear is connected to one side of the front end surface of the bevel gear driving disc, the other side of the front end surface of the bevel gear driving disc is connected with a second bevel gear, the second sprocket transmission seat is connected to one side of the lower end surface of the motor driving device in a nested mode, the first bevel gear is connected to the lower surface of the other end of the waste water extracting and pressurizing device, and the second bevel gear is connected to one side of the lower end surface of the crushing device driving mechanism in a nested mode.

Furthermore, the driving mechanism of the crushing device comprises a gear transmission seat, a third worm, a third chain gear transmission seat, a fourth worm and a second transmission gear set, wherein the third worm is connected to the upper end surface of the gear transmission seat in an embedded mode, one end of the third worm is connected with the second transmission gear set, the upper end surface of the second transmission gear set is meshed with the lower end surface of the fourth worm, the fourth worm is connected to one side of the upper end surface of the third chain gear transmission seat in an embedded mode, the third chain gear transmission seat is connected to one end of the crushing device, and the gear transmission seat is connected to the other side of the lower end surface of the multistage transmission mechanism in an embedded mode.

Furthermore, the vibration mechanism consists of a second turntable, an eighth transmission belt, a half axle gear driving arm, a push plate, a transmission rack, a telescopic clamping seat, a limiting clamping plate, a fourth gear, a half axle gear and a second belt pulley transmission seat, the second turntable is connected with the second belt pulley transmission seat through an eighth transmission belt, the half axle gear driving arm is movably connected in front of the upper end surface of the second belt pulley transmission seat, one end of the half axle gear driving arm is welded with the half axle gear, one end of the half axle gear is meshed with the other end of the fourth gear, one end of the fourth gear is meshed with the other end of the transmission rack, the upper end surface of the transmission rack is connected with the push plate, the surface of the lower end of the transmission rack penetrates through the telescopic clamping seat and is connected with the limiting clamping plate, and the second rotating disc is connected with the crushed sundry conveying seat through a first transmission belt.

Furthermore, the crushed sundry conveying seat driving mechanism is composed of a fourth chain gear transmission seat, a fifth worm, a fifth gear, an intermittent transmission wheel, a sheave driving arm, a sheave and a third rotary table, wherein the fifth worm is connected to one side of the lower end surface of the fourth chain gear transmission seat in a nested manner, the lower end surface of the fifth worm is meshed with the upper end surface of the fifth gear, the intermittent transmission wheel is connected to the lower end surface of the fifth gear, the front end surface of the intermittent transmission wheel is connected with the sheave driving arm, the sheave driving arm is movably connected to the upper end surface of the sheave, the other end of the sheave is movably connected with the third rotary table, the third rotary table is connected with the crushed sundry conveying seat through a second transmission belt, and the fourth chain gear transmission seat is connected to the other side of the lower end surface of the motor driving device in a nested manner.

Furthermore, the motor driving device comprises a driving motor, a bevel gear transmission seat, a fifth sprocket transmission seat, a sixth worm, a sixth gear, a third bevel gear, a scroll plate rotating shaft, a driving turntable, a scroll plate, a fourth bevel gear, a ninth transmission belt and a coupling, wherein the bevel gear transmission seat is connected with the other end of the driving motor in a nested manner, the fifth sprocket transmission seat is connected with the other end of the bevel gear transmission seat, the sixth worm is connected with one side of the lower end surface of the fifth sprocket transmission seat in a nested manner, one end of the sixth worm is connected with the coupling in a nested manner, the lower end surface of the sixth worm is meshed with the upper end surface of the sixth gear, the sixth gear is connected with the driving turntable through the ninth transmission belt, the driving turntable is arranged at the center of the front end surface of the scroll plate, and the scroll plate is connected with the driving turntable through the scroll plate rotating shaft, one side of the front end surface of the worm disc is connected with a fourth bevel gear, the third bevel gear is connected to the other side of the front end surface of the worm disc, the coupler is connected to the other side of the solid-liquid separation device in a nested mode, the fourth bevel gear is connected to the other end of the multi-stage transmission mechanism, and one side of the upper end surface of the crushed sundries conveying seat driving mechanism is connected with the third bevel gear.

Furthermore, the domestic wastewater treatment device is of a hollow rectangular structure.

Further, the vibrating springs are provided with 2 vibrating springs which are parallel to each other.

Advantageous effects

The invention relates to a high-efficiency domestic wastewater treatment device, when a user uses the device, domestic wastewater to be treated enters a sundries filtering box in a domestic wastewater treatment device from a water inlet seat, the domestic wastewater to be treated enters a solid-liquid separation device in the device from a domestic wastewater inlet seat, at the moment, the power supply of the device is switched on, a motor driving device starts to work and drives the solid-liquid separation device to carry out solid-liquid separation treatment on the domestic wastewater to be treated, the separated wastewater is sent into a water storage seat through a wastewater conduit, the separated impurities are sent into a crushing device through a sundries conduit, at the moment, a multi-stage transmission mechanism working along with the motor driving device synchronously drives a wastewater extraction and pressurization device and a crushing device driving mechanism to synchronously start to work, and the crushing device starts to work to crush the impurities in the crushing device after being driven by the crushing device driving mechanism, after the smashing is finished, smashed impurity is sprayed on the filter plate through smashing the debris shower nozzle, waste water extraction pressure device automatically extracts sewage in the water storage seat in the working process and forms high-pressure water after being pressurized to be sprayed out through the waste water shower nozzle to wash residual smashed debris on the filter plate, at the moment, the smashed debris conveying seat driving mechanism which follows the motor driving device to work drives the smashed debris conveying seat to work through the second driving belt, the smashed debris conveying seat drives the vibration mechanism to start working through the first driving belt, the vibration mechanism generates vibration in the working process to convey residual large-particle debris on the filter plate to the smashed debris conveying seat and discharge through the smashed debris discharging seat, fine debris are discharged through the waste water outlet seat along with the impact of the sewage, then the domestic waste water is treated by the domestic waste water treatment device, the efficient domestic waste water treatment device of the equipment can effectively prevent the debris from accumulating in the domestic waste water when in use The filter effect of many influences equipment reduces the user and to the maintenance of filter plate, improve equipment's work efficiency, convenient to use, and the practicality is strong.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view showing a structure of a high-efficiency domestic wastewater treatment apparatus according to the present invention.

Fig. 2 is a first schematic structural diagram of the impurity filtering box of the present invention.

Fig. 3 is a schematic structural diagram of the impurity filtering box of the invention.

FIG. 4 is an enlarged view of A of FIG. 3 according to the present invention.

FIG. 5 is an enlarged view of B of FIG. 3 according to the present invention.

FIG. 6 is an enlarged view of C of FIG. 3 according to the present invention.

Fig. 7 is an enlarged view of D in fig. 3 according to the present invention.

FIG. 8 is an enlarged view of E of FIG. 3 according to the present invention.

In the figure: a water inlet seat-1, an exhaust pipe-2, a connecting support seat-3, a water outlet seat-4, a sundries filtering tank-5, a domestic wastewater treatment device-6, a wastewater pumping and pressurizing device-501, a multi-stage transmission mechanism-502, a crushing device driving mechanism-503, a water storage seat-504, a wastewater spray head-505, a crushed sundries spray head-506, a wastewater outlet seat-507, a filter plate-508, a vibration spring-509, a vibration mechanism-510, a first transmission belt-511, a crushed sundries conveying seat-512, a crushed sundries discharging seat-513, a second transmission belt-514, a crushing device-515, a crushed sundries conveying seat driving mechanism-516, a sundries filtering tank outer shell-517, a sundries guide pipe-518, a domestic wastewater inlet seat-519, a, A motor driving device-520, a solid-liquid separation device-521, a wastewater conduit-522, a first worm-50101, a first gear-50102, a first chain gear transmission seat-50103, a third transmission belt-50104, a connecting turntable-50105, a reciprocating motion seat-50106, a water outlet conduit-50107, a first belt pulley transmission seat-50108, a fourth transmission belt-50109, a piston rod-50110, a rotating chuck-50111, a cam-50112, a cam transmission arm-50113, a movable connecting rod-50114, a rotating chuck bracket-50115, a piston block-50116, a piston cylinder-50117, a water inlet conduit-50118, a second worm-50201, a second gear-50202, a fifth transmission belt-50203, a multistage rotation seat-50204, a sixth transmission belt-50205, a first turntable-50206, a second worm-50118, a second worm-50202, a third transmission belt-50203, a multistage rotation seat, A seventh transmission belt-50207, a first bevel gear-50208, a first transmission gear set-50209, a bevel gear drive disc-50210, a third gear-50211, a second bevel gear-50212, a second chain gear transmission seat-50213, a gear transmission seat-50301, a third worm-50302, a third chain gear transmission seat-50303, a fourth worm-50304, a second transmission gear set-50305, a second turntable-51001, an eighth transmission belt-51002, a half shaft gear drive arm-51003, a push plate-51004, a transmission rack-51005, a telescopic clamping seat-51006, a limit clamping plate-51007, a fourth gear-51008, a half shaft gear-51009, a second belt gear transmission seat-51010, a fourth chain gear transmission seat-51601, a fifth worm-51602, a fifth gear-51603, an intermittent transmission wheel-51604, a fifth worm-51602, a third gear, a fourth gear-50208, a fourth gear-51005, a third gear, The device comprises a grooved pulley driving arm-51605, grooved pulleys-51606, a third turntable-51607, a driving motor-52001, a bevel gear transmission seat-52002, a fifth sprocket transmission seat-52003, a sixth worm-52004, a sixth gear-52005, a third bevel gear-52006, a scroll rotating shaft-52007, a driving turntable-52008, a scroll-52009, a fourth bevel gear-52010, a ninth transmission belt-52011 and a coupling-52012.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 8, the present invention provides a high efficiency domestic wastewater treatment apparatus: the utility model provides an efficient domestic wastewater treatment device, its structure is including intaking seat 1, blast pipe 2, connection support 3, play water stand 4, debris filtering case 5, domestic wastewater treatment device 6, intake seat 1 connect in domestic wastewater treatment device 6's one end, domestic wastewater treatment device 6's upper end on the surface even equidistance welding have connection support 3, blast pipe 2 weld in one side of domestic wastewater treatment device 6 upper end surface, domestic wastewater treatment device 6's the other end be connected with out water stand 4, debris filtering case 5 locate domestic wastewater treatment device 6's internal surface, debris filtering case 5 by waste water extraction pressure device 501, multi-stage drive mechanism 502, reducing mechanism 503, retaining seat 504, waste water shower nozzle 505, smash debris shower nozzle 506, waste water outlet seat 507, filter plate 508, The household waste water treatment device comprises a vibration spring 509, a vibration mechanism 510, a first transmission belt 511, a crushed sundry conveying seat 512, a crushed sundry discharging seat 513, a second transmission belt 514, a crushing device 515, a crushed sundry conveying seat driving mechanism 516, a sundry filtering box outer shell 517, a sundry guide pipe 518, a household waste water inlet seat 519, a motor driving device 520, a solid-liquid separation device 521 and a waste water guide pipe 522, wherein the upper end surface of the sundry filtering box outer shell 517 is connected with the household waste water inlet seat 519, one side of the lower end surface of the household waste water inlet seat 519 is connected with a waste water outlet seat 507, the crushed sundry discharging seat 513 is connected to the other side of the lower end surface of the household waste water inlet seat 519, the motor driving device 520 is arranged on the inner surface of the household waste water inlet seat 519, the motor driving device 520 is connected to the other end of the solid-liquid separation device 521, one side, one end of the multistage transmission mechanism 502 is connected with a wastewater extraction pressurizing device 501, the wastewater extraction pressurizing device 501 is respectively connected with a water storage seat 504 and a wastewater spray head 505, the crushing device driving mechanism 503 is connected with the other end of the multistage transmission mechanism 502, the crushing device 515 is connected with the other end of the crushing device driving mechanism 503 in a nesting way, the lower surface of one end of the crushing device 515 is connected with a crushed sundry spray head 506, the water storage seat 504 is connected with a solid-liquid separation device 521 through a wastewater conduit 522, the crushing device 515 is connected with the solid-liquid separation device 521 through a sundry conduit 518, the wastewater spray head 505 and the crushed sundry spray head 506 are both arranged on the surface of the upper end of the filter plate 508, one side of the lower end surface of the filter plate 508 is connected with a vibration spring 509, and the vibration mechanism 510 is arranged on the other side of the lower, the other end of the filter plate 508 is provided with a crushed sundry conveying seat 512, the crushed sundry conveying seat 512 is connected with a vibration mechanism 510 through a first transmission belt 511, the crushed sundry conveying seat driving mechanism 516 is connected with the crushed sundry conveying seat 512 through a second transmission belt 514, the crushed sundry conveying seat driving mechanism 516 is connected with the other side of the lower end surface of a motor driving device 520, the waste water extracting and pressurizing device 501 consists of a first worm 50101, a first gear 50102, a first chain gear driving seat 50103, a third transmission belt 50104, a connecting turntable 50105, a reciprocating motion seat 50106, a water outlet conduit 50107, a first belt pulley driving seat 50108, a fourth belt 50109, a piston rod 50110, a rotating chuck 50111, a cam 50112, a cam driving arm 50113, a movable connecting rod 50114, a rotating chuck bracket 50115, a piston block 50116, a piston cylinder 50117 and a water inlet conduit 50118, one side of the lower end surface of the first chain gear 50103 is connected with the first 50101, the upper end surface of the first worm 50101 is engaged with the lower end surface of a first gear 50102, the first gear 50102 is connected with a connection turntable 50105 through a third driving belt 50104, the connection turntable 50105 is movably connected with the lower end surface of a reciprocating base 50106, the upper end surface of the reciprocating base 50106 is movably connected with the other end of a first pulley driving base 50108, the first pulley driving base 50108 is connected with a cam 50112 through a fourth driving belt 50109, the cam 50112 is movably connected with the front end surface of a rotating chuck 50111, the rotating chuck 50111 is movably connected with the upper surface of the front end of a rotating chuck holder 50115, the cam 50112 is connected with a piston rod 50110 through a cam driving arm 50113, the movable connecting rod 50114 is respectively connected with the cam driving arm 50113 and the rotating chuck holder 50115, the other end of the piston rod 50110 is connected with a piston block 50116, the piston block 50116 is provided on the inner surface of a piston cylinder 17, the upper surface of the other end of the piston cylinder 50117 is connected with a water outlet conduit 50107, the water inlet conduit 50118 is connected with the lower surface of the other end of the piston cylinder 50117, the first chain gear transmission seat 50103 is connected with one side of the lower end surface of the multistage transmission mechanism 502 in a nested manner, the lower end surface of the water inlet conduit 50118 longitudinally penetrates through the water storage seat 504, the water outlet conduit 50107 is connected with the wastewater spray nozzle 505 in a nested manner, the multistage transmission mechanism 502 is composed of a second worm 50201, a second gear 50202, a fifth transmission belt 50203, a multistage swivel mount 50204, a sixth transmission belt 50205, a first turntable 50206, a seventh transmission belt 50207, a first bevel gear 50208, a first transmission gear set 50209, a bevel gear drive disc 50210, a third gear 50211, a second bevel gear 50212 and a second chain gear transmission seat 50213, one side of the lower end surface of the second chain gear 50213 is connected with a second chain gear 50201 in a nested manner, the upper end surface of the second chain gear 50201 is meshed with the lower end surface of the worm 50202, the second gear 50202 is connected to the other end of the multi-stage rotating seat 50204 through a fifth driving belt 50203, the first rotating disk 50206 is connected to the lower surface of one end of the multi-stage rotating seat 50204 through a sixth driving belt 50205, the first rotating disk 50206 is connected to the third gear 50211 through a seventh driving belt 50207, the outer surface of the third gear 50211 is engaged with the inner surface of a first driving gear set 50209, the outer surface of the first driving gear set 50209 is engaged with the inner surface of a bevel gear driving disk 50210, the first bevel gear 50208 is connected to one side of the front end surface of the bevel gear driving disk 50210, the other side of the front end surface of the bevel gear driving disk 50210 is connected to a second bevel gear 50212, the second driving gear 50213 is connected to one side of the lower end surface of the motor driving device 520 in a nested manner, and the first bevel gear 50208 is connected to the lower surface of the other end of the wastewater, a second bevel gear 50212 is connected to one side of the lower end surface of the crushing device driving mechanism 503 in a nested manner, the crushing device driving mechanism 503 is composed of a gear transmission seat 50301, a third worm 50302, a third sprocket transmission seat 50303, a fourth worm 50304 and a second transmission gear group 50305, the third worm 50302 is connected to the upper end surface of the gear transmission seat 50301 in a nested manner, one end of the third worm 50302 is connected with the second transmission gear group 50305, the upper end surface of the second transmission gear group 50305 is meshed with the lower end surface of the fourth worm 50304, the fourth worm 50304 is connected to one side of the upper end surface of the third sprocket transmission seat 50303 in a nested manner, the third sprocket transmission seat 50303 is connected to one end of the crushing device 515, the gear transmission seat 50301 is connected to the other side of the lower end surface of the multistage transmission mechanism 502 in a nested manner, and the vibration mechanism 510 is composed of a second bevel gear 51001, a second bevel gear 50305, a third bevel gear 50305, An eighth transmission belt 51002, a side gear driving arm 51003, a push plate 51004, a transmission rack 51005, a telescopic clamping seat 51006, a limiting clamping plate 51007, a fourth gear 51008, a side gear 51009 and a second pulley transmission seat 51010, wherein the second turntable 51001 is connected with the second pulley transmission seat 51010 through the eighth transmission belt 51002, the side gear driving arm 51003 is movably connected in front of the upper end surface of the second pulley transmission seat 51010, one end of the side gear driving arm 51003 is welded with the side gear 51009, one end of the side gear 51009 is meshed with the other end of the fourth gear 51008, one end of the fourth gear 51008 is meshed with the other end of the transmission rack 51005, the upper end surface of the transmission rack is connected with the push plate 51004, the lower end surface of the rack 51005 penetrates through the telescopic clamping seat 51006 and is connected with the limiting clamping plate 51007, the second turntable 01 is connected with a sundry crushing conveying seat 510512 through a first transmission belt 511, the crushed sundry conveying seat driving mechanism 516 comprises a fourth sprocket gear driving seat 51601, a fifth worm 51602, a fifth gear 51603, an intermittent driving wheel 51604, a sheave driving arm 51605, a sheave 51606 and a third turntable 51607, wherein one side of the lower end surface of the fourth sprocket gear driving seat 51601 is connected with the fifth worm 51602 in a nested manner, the lower end surface of the fifth worm 51602 is meshed with the upper end surface of the fifth gear 51603, the intermittent driving wheel 51604 is connected with the lower end surface of the fifth gear 51603, the front end surface of the intermittent driving wheel 51604 is connected with the driving arm 51605, the sheave driving arm 51605 is movably connected with the upper end surface of the sheave 51606, the other end of the sheave 51606 is movably connected with the third turntable 51607, the third turntable 51607 is connected with the crushed sundry conveying seat 512 through the second driving belt 514, the fourth sprocket gear driving seat 51601 is connected with the other side of the lower end surface of the motor driving device 520 in a nested manner, the motor driving device 520 comprises a driving motor 52001, a bevel gear driving seat 52002, a fifth sprocket driving seat 52003, a sixth worm 52004, a sixth gear 52005, a third bevel gear 52006, a scroll rotating shaft 52007, a driving turntable 52008, a worm disc 52009, a fourth bevel gear 52010, a ninth driving belt 52011 and a coupling 52012, wherein the other end of the driving motor 52001 is connected with the bevel gear driving seat 52002 in a nested manner, the fifth sprocket driving seat 52003 is connected with the other end of the bevel gear driving seat 52002, the sixth worm 52004 is connected with one side of the lower end surface of the fifth sprocket driving seat 52003 in a nested manner, one end of the sixth worm 52004 is connected with the coupling 52012 in a nested manner, the lower end surface of the sixth worm 52004 is engaged with the upper end surface of the sixth gear 52005, the sixth gear 52005 is connected with the driving turntable 08 through the ninth driving belt 52011, the driving turntable 52008 is arranged at the center of the front end surface of the worm disc 52009, the worm disk 52009 is connected with a driving turntable 52008 through a worm disk rotating shaft 52007, one side of the front end surface of the worm disk 52009 is connected with a fourth bevel gear 52010, the third bevel gear 52006 is connected with the other side of the front end surface of the worm disk 52009, the coupler 52012 is nested and connected with the other side of the solid-liquid separation device 521, the fourth bevel gear 52010 is connected with the other end of the multi-stage transmission mechanism 502, one side of the upper end surface of the crushed sundries conveying seat driving mechanism 516 is connected with a third bevel gear 52006, the domestic wastewater treatment device 6 is a hollow rectangular structure, and the vibrating springs 509 are arranged 2 and are parallel to each other.

When a user uses the device, domestic wastewater to be treated enters the sundries filtering box 5 in the domestic wastewater treatment device 6 from the water inlet seat 1, the domestic wastewater to be treated enters the solid-liquid separation device 521 in the device from the domestic wastewater inlet seat 519, at the moment, the power supply of the device is switched on, the motor driving device 520 starts to work and drives the solid-liquid separation device 521 to carry out solid-liquid separation treatment on the domestic wastewater to be treated, the separated wastewater is sent into the water storage seat 504 through the wastewater conduit 522, the separated impurities are sent into the crushing device 515 through the sundries conduit 518, at the moment, the multi-stage transmission mechanism 502 working along with the motor driving device 520 synchronously drives the wastewater extraction and pressurization device 501 and the crushing device driving mechanism 503 to synchronously start to work, the crushing device 515 is driven by the crushing device driving mechanism 503 to start to crush the impurities in the device, after the crushing is finished, crushed impurities are sprayed on the filter plate 508 through the crushed impurity spray nozzle 506, the wastewater extraction pressurizing device 501 automatically extracts the wastewater in the water storage seat 504 in the working process and forms high-pressure water after pressurization to be sprayed out through the wastewater spray nozzle 505 to wash the crushed impurities remained on the filter plate 508, at this time, the crushed impurity conveying seat driving mechanism 516 working along with the motor driving device 520 drives the crushed impurity conveying seat 512 to work through the second transmission belt 514, the crushed impurity conveying seat 512 drives the vibration mechanism 510 to work through the first transmission belt 511, the vibration mechanism 510 generates vibration in the working process to convey large-particle impurities remained on the filter plate 508 to the crushed impurity conveying seat 512 and discharge the large-particle impurities through the crushed impurity discharge seat 513, while fine impurities are discharged from the wastewater outlet seat 507 along with the impact of the wastewater, and then the domestic wastewater is treated by the domestic wastewater treatment device 6, the efficient domestic wastewater treatment device of equipment has been realized and when using can effectually prevent to reduce the user to the maintenance of filter plate because of debris are accumulated and are won too much influence the filter effect of equipment in the domestic wastewater, improve equipment's work efficiency, convenient to use, the practicality is strong.

The invention solves the problem that in the prior art, a large amount of sundries in domestic wastewater are easy to accumulate on the filter plate in the using process, so that a user needs to maintain the filter plate frequently, the operation is inconvenient, the working efficiency of equipment is influenced, and the practicability is poor.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics 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

1. The utility model provides an efficient domestic wastewater treatment device, its structure includes into water seat (1), blast pipe (2), connection support (3), goes out water seat (4), debris filtering case (5), domestic wastewater treatment device (6), its characterized in that:

the domestic wastewater treatment device is characterized in that the water inlet seat (1) is connected to one end of the domestic wastewater treatment device (6), the connecting support seats (3) are uniformly and equidistantly welded on the surface of the upper end of the domestic wastewater treatment device (6), the exhaust pipe (2) is welded on one side of the surface of the upper end of the domestic wastewater treatment device (6), the other end of the domestic wastewater treatment device (6) is connected with the water outlet seat (4), and the sundries filtering box (5) is arranged on the inner surface of the domestic wastewater treatment device (6);

the sundries filtering box (5) consists of a wastewater extraction pressurizing device (501), a multi-stage transmission mechanism (502), a smashing device driving mechanism (503), a water storage seat (504), a wastewater spray head (505), a smashing sundries spray head (506), a wastewater outlet seat (507), a filter plate (508), a vibration spring (509), a vibration mechanism (510), a first transmission belt (511), a smashing sundries conveying seat (512), a smashing sundries discharging seat (513), a second transmission belt (514), a smashing device (515), a smashing sundries conveying seat driving mechanism (516), a sundries filtering box outer shell (517), a sundries guide pipe (518), a domestic wastewater inlet seat (519), a motor driving device (520), a solid-liquid separation device (521) and a wastewater guide pipe (522);

the domestic wastewater treatment device is characterized in that the upper end surface of the sundries filtering box outer shell (517) is connected with a domestic wastewater inlet seat (519), one side of the lower end surface of the domestic wastewater inlet seat (519) is connected with a wastewater outlet seat (507), the sundries crushing discharging seat (513) is connected with the other side of the lower end surface of the domestic wastewater inlet seat (519), the inner surface of the domestic wastewater inlet seat (519) is provided with a motor driving device (520), the motor driving device (520) is connected with the other end of a solid-liquid separation device (521), one side of the lower end surface of the motor driving device (520) is connected with a multi-stage transmission mechanism (502), one end of the multi-stage transmission mechanism (502) is connected with a wastewater extracting and pressurizing device (501), the wastewater extracting and pressurizing device (501) is respectively connected with a water storage seat (504) and a wastewater spray nozzle (505), and the crushing device driving mechanism (503) is connected with the other end of, the utility model discloses a filter plate, including reducing mechanism (503), reducing mechanism (515), water storage seat (504), solid-liquid separator (521), reducing mechanism (515), waste water shower nozzle (505), crushing debris shower nozzle (506) are all located on the upper end surface of filter plate (508), one side of filter plate (508) lower extreme surface be connected with vibrating spring (509), vibrating mechanism (510) locate the opposite side of filter plate (508) lower extreme surface, the other end of filter plate (508) be equipped with crushing debris and carry seat (512), crushing debris carry seat (512) be connected with vibrating mechanism (510) through first drive belt (511), the crushed sundry conveying seat driving mechanism (516) is connected with the crushed sundry conveying seat (512) through a second transmission belt (514), and the crushed sundry conveying seat driving mechanism (516) is connected to the other side of the lower end surface of the motor driving device (520);

the waste water pumping and pressurizing device (501) consists of a first worm (50101), a first gear (50102), a first chain gear transmission seat (50103), a third transmission belt (50104), a connecting turntable (50105), a reciprocating motion seat (50106), a water outlet guide pipe (50107), a first belt pulley transmission seat (50108), a fourth transmission belt (50109), a piston rod (50110), a rotating chuck (50111), a cam (50112), a cam transmission arm (50113), a movable connecting rod (50114), a rotating chuck support (50115), a piston block (50116), a piston cylinder (50117) and a water inlet guide pipe (50118);

one side of the lower end surface of the first sprocket gear transmission seat (50103) is connected with a first worm (50101) in a nested manner, the upper end surface of the first worm (50101) is meshed with the lower end surface of a first gear (50102), the first gear (50102) is connected with a connecting turntable (50105) through a third transmission belt (50104), the connecting turntable (50105) is movably connected with the lower end surface of a reciprocating motion seat (50106), the upper end surface of the reciprocating motion seat (50106) is movably connected with the other end of a first pulley transmission seat (50108), the first pulley transmission seat (50108) is connected with a cam (50112) through a fourth transmission belt (50109), the cam (50112) is movably connected with the front end surface of a rotating chuck (50111), the rotating chuck (50111) is movably connected with the upper surface of the front end of a rotating bracket (50115), the cam (50112) is connected with a piston rod (50110) through a cam transmission arm (50113), the movable connecting rod (50114) is respectively connected with the cam transmission arm (50113) and a rotating chuck support (50115), the other end of the piston rod (50110) is connected with a piston block (50116), the piston block (50116) is arranged on the inner surface of the piston cylinder (50117), the upper surface of the other end of the piston cylinder (50117) is connected with a water outlet conduit (50107), the water inlet conduit (50118) is connected with the lower surface of the other end of the piston cylinder (50117), the first sprocket transmission seat (50103) is connected to one side of the lower end surface of the multistage transmission mechanism (502) in a nested mode, the lower end surface of the water inlet conduit (50118) longitudinally penetrates through the water storage seat (504), and the water outlet conduit (50107) is connected with a waste water spray head (505) in a nested mode;

the multistage transmission mechanism (502) consists of a second worm (50201), a second gear (50202), a fifth transmission belt (50203), a multistage rotating seat (50204), a sixth transmission belt (50205), a first rotating disc (50206), a seventh transmission belt (50207), a first bevel gear (50208), a first transmission gear set (50209), a bevel gear (50210), a third gear (50211), a second bevel gear (50212) and a second chain gear transmission seat (50213), one side of the lower end surface of the second chain gear transmission seat (50213) is connected with the second worm (50201) in a nested mode, the upper end surface of the second worm (50201) is meshed with the lower end surface of the second gear (50202), the second gear (50202) is connected to the other end of the multistage rotating seat (50204) through the fifth transmission belt (50203), and the first rotating disc (50206) is connected to the lower surface of one end of the multistage rotating seat (04) through the sixth transmission belt (50205), the first turntable (50206) is connected with a third gear (50211) through a seventh transmission belt (50207), the outer surface of the third gear (50211) is meshed with the inner surface of the first transmission gear set (50209), the outer surface of the first transmission gear set (50209) is meshed with the inner surface of a bevel gear driving disc (50210), the first bevel gear (50208) is connected to one side of the front end surface of the bevel gear driving disc (50210), the other side of the surface of the front end of the bevel gear driving disk (50210) is connected with a second bevel gear (50212), the second chain gear transmission seat (50213) is nested and connected with one side of the lower end surface of the motor driving device (520), the first bevel gear (50208) is connected with the lower surface of the other end of the waste water pumping and pressurizing device (501), one side of the lower end surface of the crushing device driving mechanism (503) is connected with a second bevel gear (50212) in a nested mode;

the driving mechanism (503) of the crushing device consists of a gear transmission seat (50301), a third worm (50302), a third chain gear transmission seat (50303), a fourth worm (50304) and a second transmission gear set (50305), the third worm (50302) is nested and connected with the upper end surface of the gear transmission seat (50301), one end of the third worm (50302) is connected with a second transmission gear set (50305), the upper end surface of the second transmission gear set (50305) is meshed with the lower end surface of the fourth worm (50304), the fourth worm (50304) is nested and connected with one side of the upper end surface of the third sprocket gear transmission seat (50303), the third sprocket gear transmission seat (50303) is connected with one end of the crushing device (515), the gear transmission seat (50301) is connected to the other side of the lower end surface of the multi-stage transmission mechanism (502) in a nested manner;

the vibrating mechanism (510) comprises a second turntable (51001), an eighth transmission belt (51002), a side gear driving arm (51003), a push plate (51004), a transmission rack (51005), a telescopic clamping seat (51006), a limiting clamping plate (51007), a fourth gear (51008), a side gear (51009) and a second pulley transmission seat (51010), the second turntable (51001) is connected with the second pulley transmission seat (51010) through the eighth transmission belt (51002), the side gear driving arm (51003) is movably connected in front of the upper end surface of the second pulley transmission seat (51010), one end of the side gear driving arm (51003) is welded with the side gear (51009), one end of the side gear (51009) is meshed with the other end of the fourth gear (51008), one end of the fourth gear (51008) is meshed with the other end of the rack (51005), the upper end surface of the transmission rack (51005) is connected with the push plate (51004), the lower end surface of the transmission rack (51005) penetrates through the telescopic clamping plate (51006) and is connected with the limiting clamping plate (51007), and the second rotating disc (51001) is connected with the crushed sundry conveying seat (512) through a first transmission belt (511);

the crushed impurity conveying seat driving mechanism (516) consists of a fourth chain gear transmission seat (51601), a fifth worm (51602), a fifth gear (51603), an intermittent transmission wheel (51604), a sheave driving arm (51605), a sheave (51606) and a third turntable (51607), wherein the fifth worm (51602) is connected to one side of the lower end surface of the fourth chain gear transmission seat (51601) in a nested manner, the lower end surface of the fifth worm (51602) is meshed with the upper end surface of the fifth gear (51603), the intermittent transmission wheel (51604) is connected to the lower end surface of the fifth gear (51603), the sheave driving arm (51605) is connected to the front end surface of the intermittent transmission wheel (51604), the sheave driving arm (51605) is movably connected to the upper end surface of the sheave (51606), the other end of the sheave (51606) is movably connected with the third turntable (51607), the third turntable (51607) is connected with the crushed sundries conveying seat (512) through a second transmission belt (514), and the fourth chain gear transmission seat (51601) is connected to the other side of the lower end surface of the motor driving device (520) in a nested manner;

the motor driving device (520) is composed of a driving motor (52001), a bevel gear transmission seat (52002), a fifth sprocket transmission seat (52003), a sixth worm (52004), a sixth gear (52005), a third bevel gear (52006), a scroll rotating shaft (52007), a driving turntable (52008), a worm disc (52009), a fourth bevel gear (52010), a ninth transmission belt (52011) and a coupling (52012), wherein the other end of the driving motor (52001) is connected with the bevel gear transmission seat (52002) in a nested manner, the fifth sprocket transmission seat (52003) is connected with the other end of the bevel gear transmission seat (52002), the sixth worm (52004) is connected with one side of the lower end surface of the fifth sprocket transmission seat (52003) in a nested manner, one end of the sixth worm (52004) is connected with the coupling (52012) in a nested manner, and the lower end surface of the sixth worm (04) is meshed with the upper end surface of the sixth gear (52005), the six-gear (52005) is connected with a driving turntable (52008) through a ninth transmission belt (52011), the driving turntable (52008) is arranged at the center of the front end surface of a worm disc (52009), the worm disc (52009) is connected with the driving turntable (52008) through a worm disc rotating shaft (52007), one side of the front end surface of the worm disc (52009) is connected with a fourth bevel gear (52010), the third bevel gear (52006) is connected with the other side of the front end surface of the worm disc (52009), the coupler (52012) is connected with the other side of the solid-liquid separation device (521) in a nesting manner, the fourth bevel gear (52010) is connected with the other end of the multi-stage transmission mechanism (502), and one side of the upper end surface of the crushed sundries conveying seat driving mechanism (516) is connected with a third bevel gear (52006);

when a user uses the equipment, domestic wastewater to be treated enters a sundries filtering box in a domestic wastewater treatment device from a water inlet seat, the domestic wastewater to be treated enters a solid-liquid separation device in the equipment from a domestic wastewater inlet seat, at the moment, the power supply of the equipment is switched on, a motor driving device starts to work and drives the solid-liquid separation device to carry out solid-liquid separation treatment on the domestic wastewater to be treated, the separated wastewater is sent into a water storage seat through a wastewater conduit, the separated impurities are sent into a crushing device through a sundries conduit, at the moment, a multi-stage transmission mechanism working along with the motor driving device synchronously drives a wastewater extraction and pressurization device and a crushing device driving mechanism to synchronously start working, the crushing device is driven by the crushing device driving mechanism to start crushing treatment on the internal impurities, and after the crushing is finished, the crushed impurities are sprayed on a filter plate through a crushing sundries spray nozzle, waste water extraction pressure device is automatic in the course of the work extracts the sewage in the retaining seat and forms the water under high pressure after the pressurization and pass through waste water shower nozzle blowout and wash remaining crushing debris on the filter plate, at this moment, the crushing debris transport seat actuating mechanism who follows motor drive device work drives crushing debris transport seat work through the second drive belt, crushing debris transport seat drives vibration mechanism through first drive belt and begins work, vibration mechanism produces the vibration in the course of the work and carries remaining large granule debris on the filter plate to crushing debris transport seat and discharge through smashing the debris ejection of compact seat, and tiny debris are discharged by the waste water outlet seat through the filter plate along with the impact of sewage, again by domestic wastewater treatment device handle domestic wastewater.